| Gene Symbol | UBAP2 |
| Entrez Gene ID | 102992402 |
| Full Name | ubiquitin associated protein 2 |
| Gene Type | protein-coding |
| Organism | Physeter catodon(sperm whale) |
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UBAP2 cDNA ORF clone, Physeter catodon(sperm whale)
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Gene
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Clones
gRNAs
The following UBAP2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the UBAP2 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1+/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.
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Reference Sequences (Refseq)
CloneID OPh120159 Clone ID Related Accession (Same CDS sequence) XM_007111391.1 Accession Version XM_007111391.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3504bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector 
User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1394380800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006714078.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCTCTG CTGCATTACA
TTATTTAATC AGGCCTCCTC TGATGGAACT TTAGGGCCAT TTTCAGTCTT GATACCTTGG
AAATACTGTG GGTTCAGTTA TAGACCACCA CCGTGGGAAT ATTGTGGGAA ACATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGCCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAC TTACGACAGG
CAGGGATTTC ACGCAGGGAC CCCGCCACCG TTCAGCCTGC CCTCGGCCTT GGGCTCCCCT
GGGCCCCTGG GCCCCGGTTA CGCGCCCTCA CCGCTTGTGC ACGTCCTGCC CGCCCACCAG
CAGCCTCACT CACAGCTGCT GCACCACCAC CTCCCGCAGG ACACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ACTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111453.1 CDS 13..3516 Translation 
Target ORF information:
RefSeq Version XM_007111391.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_007111391.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCTCTG CTGCATTACA
TTATTTAATC AGGCCTCCTC TGATGGAACT TTAGGGCCAT TTTCAGTCTT GATACCTTGG
AAATACTGTG GGTTCAGTTA TAGACCACCA CCGTGGGAAT ATTGTGGGAA ACATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGCCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAC TTACGACAGG
CAGGGATTTC ACGCAGGGAC CCCGCCACCG TTCAGCCTGC CCTCGGCCTT GGGCTCCCCT
GGGCCCCTGG GCCCCGGTTA CGCGCCCTCA CCGCTTGTGC ACGTCCTGCC CGCCCACCAG
CAGCCTCACT CACAGCTGCT GCACCACCAC CTCCCGCAGG ACACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ACTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh120160 Clone ID Related Accession (Same CDS sequence) XM_007111392.1 Accession Version XM_007111392.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3444bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1394380800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006714078.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGATCATTTC TAACCACAGA GCACCTGGAC TGGGTTCCAA GGCCACACGG AAGGAAGGAT
GTGAAGGGAC AGGCAAGCTC GTGTGCAGCC CTCCTAGACG CGTGGGTCCC TCGGGTGGAG
TGCTGGGGGG TGCACACGCG GGGCTCTGCC TTGTCTTCCA GCTCTCTCTC CGGCCACCAG
AGCAGCCTCT CCTCTGCGCA CACAGTGCTC TCCACCAGCA CGTCACAAAC GCATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGCCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAC TTACGACAGG
CAGGGATTTC ACGCAGGGAC CCCGCCACCG TTCAGCCTGC CCTCGGCCTT GGGCTCCCCT
GGGCCCCTGG GCCCCGGTTA CGCGCCCTCA CCGCTTGTGC ACGTCCTGCC CGCCCACCAG
CAGCCTCACT CACAGCTGCT GCACCACCAC CTCCCGCAGG ACACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ACTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111454.1 CDS 13..3456 Translation
Target ORF information:
RefSeq Version XM_007111392.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007111392.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGATCATTTC TAACCACAGA GCACCTGGAC TGGGTTCCAA GGCCACACGG AAGGAAGGAT
GTGAAGGGAC AGGCAAGCTC GTGTGCAGCC CTCCTAGACG CGTGGGTCCC TCGGGTGGAG
TGCTGGGGGG TGCACACGCG GGGCTCTGCC TTGTCTTCCA GCTCTCTCTC CGGCCACCAG
AGCAGCCTCT CCTCTGCGCA CACAGTGCTC TCCACCAGCA CGTCACAAAC GCATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGCCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAC TTACGACAGG
CAGGGATTTC ACGCAGGGAC CCCGCCACCG TTCAGCCTGC CCTCGGCCTT GGGCTCCCCT
GGGCCCCTGG GCCCCGGTTA CGCGCCCTCA CCGCTTGTGC ACGTCCTGCC CGCCCACCAG
CAGCCTCACT CACAGCTGCT GCACCACCAC CTCCCGCAGG ACACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ACTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh120161 Clone ID Related Accession (Same CDS sequence) XM_007111393.1 Accession Version XM_007111393.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3411bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1394380800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006714078.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGCTCTCTCT CCGGCCACCA GAGCAGCCTC TCCTCTGCGC ACACAGTGCT CTCCACCAGC
ACGTCACAAA CGCTCTGCTG CATTACATTA TTTAATCAGG CCTCCTCTGA TGGAACTTTA
GGGCCATTTT CAGTCTTGAT ACCTTGGAAA TACTGTGGGT TCAGTTATAG ACCACCACCG
TGGGAATATT GTGGGAAACA TGCCGGCGTG GAGAGCGCCC CTTCCCTCCA GTCCTCAGCC
ACCTTCTCAA CGGCAGCAAC CTGTGCCTCG AGTGCCGCGT CCTCAGGGCT CAGCCTGCCG
AGCAGCATGA ACACGGTCAA CAGCCTCTGC CTGGGTGGTA CCGCTGTGAG TGCCCCCAGC
AGCAGTGCCA GGGCCACGCC CTTGGTGACC TCAGGCAAAG CGCCCCCCAG CCTGCCCCAG
GGGGCGCCTC CCCTGCTGCA CAGCCAGTAC CTCGTGGGCC CCGGAGGACT GCTTCCTGCC
TACCCGATTT ATGGCTATGA CGAGCTCCAG ATGCTGCAGT CACGGCTGCC GATGGATTAC
TATGGGATTC CTTTCGCTAC ACCCGCAGCC CTCGCCAGTC GAGATGGGAG CCTCGCTAAT
AATCTCTATT CAGGTGATGT CACAAAGTTT GGCCGAGGAG ACTCTGCATC CCCTGCACCT
GCCACCACCC TGGCTCAGCC CCAGCAGAGC CAGTCCCAGG CCCACCACAC AGCCCAGCAG
CCCTTTCTGA ACCCTGCCCT GCCACCTGGC TACAGCTACA CTGGCCTCCC CTACTATACA
GGCGTACCCA GTGCCTTCCA GTATGGGCCC ACCGTGTTTG TCCCCCCGGC CTCAGCCAAG
CAGCACAGTG TGAGCCTCAG CAGCCCCACC ACCCCCTTCC AGCAGGCCAG TGGCTATGGC
CAGCACAGCT ACAGCGCAGG TTACGATGAC GTGAGCCAGG GGGCAGCAGC GGGAGACTAC
ACCAAGGGTG GCTATGGTGG ATCATCGCAG GCACAGAGCA AGTCTGCAGG TTCTGGGCCT
GGCAAAGGAG TGTCGGTGTC TTCAAGCGCC CCCGGCCTCG CTGACGTGAC TGGGTCCGTC
TACAGCAAGA CTCAGACTTA CGACAGGCAG GGATTTCACG CAGGGACCCC GCCACCGTTC
AGCCTGCCCT CGGCCTTGGG CTCCCCTGGG CCCCTGGGCC CCGGTTACGC GCCCTCACCG
CTTGTGCACG TCCTGCCCGC CCACCAGCAG CCTCACTCAC AGCTGCTGCA CCACCACCTC
CCGCAGGACA CTCAGAGTGG CTCCGGTCAG CGCAGCCAGC CCAGCTCCCT GCAGCCCAAG
TCGCAAGCCT CCAAACCTGC CTATGGCAAC TCTCCATACT GGACAAACTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111455.1 CDS 13..3423 Translation
Target ORF information:
RefSeq Version XM_007111393.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007111393.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGCTCTCTCT CCGGCCACCA GAGCAGCCTC TCCTCTGCGC ACACAGTGCT CTCCACCAGC
ACGTCACAAA CGCTCTGCTG CATTACATTA TTTAATCAGG CCTCCTCTGA TGGAACTTTA
GGGCCATTTT CAGTCTTGAT ACCTTGGAAA TACTGTGGGT TCAGTTATAG ACCACCACCG
TGGGAATATT GTGGGAAACA TGCCGGCGTG GAGAGCGCCC CTTCCCTCCA GTCCTCAGCC
ACCTTCTCAA CGGCAGCAAC CTGTGCCTCG AGTGCCGCGT CCTCAGGGCT CAGCCTGCCG
AGCAGCATGA ACACGGTCAA CAGCCTCTGC CTGGGTGGTA CCGCTGTGAG TGCCCCCAGC
AGCAGTGCCA GGGCCACGCC CTTGGTGACC TCAGGCAAAG CGCCCCCCAG CCTGCCCCAG
GGGGCGCCTC CCCTGCTGCA CAGCCAGTAC CTCGTGGGCC CCGGAGGACT GCTTCCTGCC
TACCCGATTT ATGGCTATGA CGAGCTCCAG ATGCTGCAGT CACGGCTGCC GATGGATTAC
TATGGGATTC CTTTCGCTAC ACCCGCAGCC CTCGCCAGTC GAGATGGGAG CCTCGCTAAT
AATCTCTATT CAGGTGATGT CACAAAGTTT GGCCGAGGAG ACTCTGCATC CCCTGCACCT
GCCACCACCC TGGCTCAGCC CCAGCAGAGC CAGTCCCAGG CCCACCACAC AGCCCAGCAG
CCCTTTCTGA ACCCTGCCCT GCCACCTGGC TACAGCTACA CTGGCCTCCC CTACTATACA
GGCGTACCCA GTGCCTTCCA GTATGGGCCC ACCGTGTTTG TCCCCCCGGC CTCAGCCAAG
CAGCACAGTG TGAGCCTCAG CAGCCCCACC ACCCCCTTCC AGCAGGCCAG TGGCTATGGC
CAGCACAGCT ACAGCGCAGG TTACGATGAC GTGAGCCAGG GGGCAGCAGC GGGAGACTAC
ACCAAGGGTG GCTATGGTGG ATCATCGCAG GCACAGAGCA AGTCTGCAGG TTCTGGGCCT
GGCAAAGGAG TGTCGGTGTC TTCAAGCGCC CCCGGCCTCG CTGACGTGAC TGGGTCCGTC
TACAGCAAGA CTCAGACTTA CGACAGGCAG GGATTTCACG CAGGGACCCC GCCACCGTTC
AGCCTGCCCT CGGCCTTGGG CTCCCCTGGG CCCCTGGGCC CCGGTTACGC GCCCTCACCG
CTTGTGCACG TCCTGCCCGC CCACCAGCAG CCTCACTCAC AGCTGCTGCA CCACCACCTC
CCGCAGGACA CTCAGAGTGG CTCCGGTCAG CGCAGCCAGC CCAGCTCCCT GCAGCCCAAG
TCGCAAGCCT CCAAACCTGC CTATGGCAAC TCTCCATACT GGACAAACTG AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh120162 Clone ID Related Accession (Same CDS sequence) XM_007111394.1 Accession Version XM_007111394.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3390bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1394380800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006714078.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGATCATTTC TAACCACAGA GCACCTGGAC TGGGTTCCAA GGCCACACGG AAGGAAGGAT
GTGAAGGGAC AGGCAAGCTC GTGTGCAGCC CTCCTAGACG CGTGGGTCCC TCGGGTGGAG
TGCTGGGGGG TGCACACGCG GGGCTCTGCC TTGTCTTCCA GCTCTCTCTC CGGCCACCAG
AGCAGCCTCT CCTCTGCGCA CACAGTGCTC TCCACCAGCA CGTCACAAAC GCTCTGCTGC
ATTACATTAT TTAATCAGGC CTCCTCTGAT GGAACTTTAG GGCCATTTTC AGTCTTGATA
CCTTGGAAAT ACTGTGGGTT CAGTTATAGA CCACCACCGT GGGAATATTG TGGGAAACAT
GCCGGCGTGG AGAGCGCCCC TTCCCTCCAG TCCTCAGCCA CCTTCTCAAC GGCAGCAACC
TGTGCCTCGA GTGCCGCGTC CTCAGGGCTC AGCCTGCCGA GCAGCATGAA CACGGTCAAC
AGCCTCTGCC TGGGTGGTAC CGCTGTGAGT GCCCCCAGCA GCAGTGCCAG GGCCACGCCC
TTGGTGACCT CAGGCAAAGC GCCCCCCAGC CTGCCCCAGG GGGCGCCTCC CCTGCTGCAC
AGCCAGTACC TCGTGGGCCC CGGAGGACTG CTTCCTGCCT ACCCGATTTA TGGCTATGAC
GAGCTCCAGA TGCTGCAGTC ACGGCTGCCG ATGGATTACT ATGGGATTCC TTTCGCTACA
CCCGCAGCCC TCGCCAGTCG AGATGGGAGC CTCGCTAATA ATCTCTATTC AGGTGATGTC
ACAAAGTTTG GCCGAGGAGA CTCTGCATCC CCTGCACCTG CCACCACCCT GGCTCAGCCC
CAGCAGAGCC AGTCCCAGGC CCACCACACA GCCCAGCAGC CCTTTCTGAA CCCTGCCCTG
CCACCTGGCT ACAGCTACAC TGGCCTCCCC TACTATACAG GCGTACCCAG TGCCTTCCAG
TATGGGCCCA CCGTGTTTGT CCCCCCGGCC TCAGCCAAGC AGCACAGTGT GAGCCTCAGC
AGCCCCACCA CCCCCTTCCA GCAGGCCAGT GGCTATGGCC AGCACAGCTA CAGCGCAGGT
TACGATGACG TGAGCCAGGG GGCAGCAGCG GGAGACTACA CCAAGGGTGG CTATGGTGGA
TCATCGCAGG CACAGAGCAA GTCTGCAGGT TCTGGGCCTG GCAAAGGAGT GTCGGTGTCT
TCAAGCGCCC CCGGCCTCGC TGACGTGACT GGGTCCGTCT ACAGCAAGAC TCAGAGTGGC
TCCGGTCAGC GCAGCCAGCC CAGCTCCCTG CAGCCCAAGT CGCAAGCCTC CAAACCTGCC
TATGGCAACT CTCCATACTG GACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111456.1 CDS 13..3402 Translation
Target ORF information:
RefSeq Version XM_007111394.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007111394.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGATCATTTC TAACCACAGA GCACCTGGAC TGGGTTCCAA GGCCACACGG AAGGAAGGAT
GTGAAGGGAC AGGCAAGCTC GTGTGCAGCC CTCCTAGACG CGTGGGTCCC TCGGGTGGAG
TGCTGGGGGG TGCACACGCG GGGCTCTGCC TTGTCTTCCA GCTCTCTCTC CGGCCACCAG
AGCAGCCTCT CCTCTGCGCA CACAGTGCTC TCCACCAGCA CGTCACAAAC GCTCTGCTGC
ATTACATTAT TTAATCAGGC CTCCTCTGAT GGAACTTTAG GGCCATTTTC AGTCTTGATA
CCTTGGAAAT ACTGTGGGTT CAGTTATAGA CCACCACCGT GGGAATATTG TGGGAAACAT
GCCGGCGTGG AGAGCGCCCC TTCCCTCCAG TCCTCAGCCA CCTTCTCAAC GGCAGCAACC
TGTGCCTCGA GTGCCGCGTC CTCAGGGCTC AGCCTGCCGA GCAGCATGAA CACGGTCAAC
AGCCTCTGCC TGGGTGGTAC CGCTGTGAGT GCCCCCAGCA GCAGTGCCAG GGCCACGCCC
TTGGTGACCT CAGGCAAAGC GCCCCCCAGC CTGCCCCAGG GGGCGCCTCC CCTGCTGCAC
AGCCAGTACC TCGTGGGCCC CGGAGGACTG CTTCCTGCCT ACCCGATTTA TGGCTATGAC
GAGCTCCAGA TGCTGCAGTC ACGGCTGCCG ATGGATTACT ATGGGATTCC TTTCGCTACA
CCCGCAGCCC TCGCCAGTCG AGATGGGAGC CTCGCTAATA ATCTCTATTC AGGTGATGTC
ACAAAGTTTG GCCGAGGAGA CTCTGCATCC CCTGCACCTG CCACCACCCT GGCTCAGCCC
CAGCAGAGCC AGTCCCAGGC CCACCACACA GCCCAGCAGC CCTTTCTGAA CCCTGCCCTG
CCACCTGGCT ACAGCTACAC TGGCCTCCCC TACTATACAG GCGTACCCAG TGCCTTCCAG
TATGGGCCCA CCGTGTTTGT CCCCCCGGCC TCAGCCAAGC AGCACAGTGT GAGCCTCAGC
AGCCCCACCA CCCCCTTCCA GCAGGCCAGT GGCTATGGCC AGCACAGCTA CAGCGCAGGT
TACGATGACG TGAGCCAGGG GGCAGCAGCG GGAGACTACA CCAAGGGTGG CTATGGTGGA
TCATCGCAGG CACAGAGCAA GTCTGCAGGT TCTGGGCCTG GCAAAGGAGT GTCGGTGTCT
TCAAGCGCCC CCGGCCTCGC TGACGTGACT GGGTCCGTCT ACAGCAAGAC TCAGAGTGGC
TCCGGTCAGC GCAGCCAGCC CAGCTCCCTG CAGCCCAAGT CGCAAGCCTC CAAACCTGCC
TATGGCAACT CTCCATACTG GACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh120163 Clone ID Related Accession (Same CDS sequence) XM_007111395.1 Accession Version XM_007111395.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3219bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1394380800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006714078.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGTCTCCAG ACATCGCCAA ATGTTCCCTG GGAGGGAGGT GCACAGCCAC CCCAGTTGAA
AACCATTGCT TAAGAGTTAT GTTGGTAAAT CCAGCAATTG TCTTTGAATG GACATTTAAC
CCTGCGGACT ATTCAGATTC TCCATCTATA GATGGGTGTG GGACAAAACA AGTAGTTTGG
GAAGCTGCTC AGAATGGTGC AGATGAGGGA ACTGAACTGG CATCAAATGC TCAAAATGTA
GCTCAGAATC TGCCAAACAA AAATTCTTTT GGACTCAAAG GGGCCTGGAA GAATTCTGTG
GACGAGTGGA CAACGGAAGA CTGGACTGAA GATCTTTCTG AAACAAAGAT CTTCACTTCC
TCATCTGTTC CAGCAGAGCA TCTCGCCACA CCTGGGCAAA GTGTTGATCT GGTAGCCTTG
CTCCAGAAGC CTGTTCCTCA CAGTCAAGCC TCAGAAGTCA ACTCCTTTGA AACTTCCCAA
CAGCAGGGCT TTGGCCAAGC CCTTGTCTTC ACAAATTCTC AGCACAACAA TCAGATGGCA
CAAGGGACTG GCAGCTCCAC TGCTGTCAAT CCCTATCCAC CTCAGAGTCT GTCATCCGTC
CTTGGTTCAG GATTTGGAGA GCTCACACCT TCCAAAATGG CAAACATCAC CAGCTCCCAG
ATTTTGGACC AGTTGGAAGC TCCGAGTTTG GGCCAGTTTA CCACCACCCC CAGTTCACAG
CAGAATAATA CAAGTCCTCC CACAACTGCT TCTTCTTGGG ACCTCAAGCC CTCAGCATCC
CAGTCCTCAG TCCTTAGTCA TTTTGACTTC AAATCTCAGC CTGAGCCATC CCCTGTTCTT
AGCCAACTGA GCCAACGACA GCAGCAGCAG ACTCAGGCAG TCACTGTTCC TCCTCCTGGG
TTGGAGTCCT TTCCTTCCCA GGTGAAACTC CGAGAGTCAG CACCCAGAGA CAGCAGTACC
TCCACTGTGA ACAAACTTCT GCAGCTTCCC AGCATGACTG TCGAAAACAT CGCCGTGTCT
GCTCACCAGC CACCGCCTAA ACACATCAAA CTCCCTAAGC GGCGAATACC TCCAGCTTCT
AAGATCCCAG CTTCTGCAGT GGAAATGCCT GGTTCAGCAG ATGTCACAGG ATTAAATGTC
CAGTTTGGCG CCTTGGAATT TGGATCAGAA CCTTCTCTCT CTGAATTTGG ATCAGCTGCA
AGCAGTGAAA ATAGTAGCCA GATTCCCATT AGCTTGTATT CGAAATCTTT AAGTGACTCT
TTGAATACCT CCCTAGCAGT GACCAGTGCA GTGCAAAACT CCACCCACAC AACTTCAGTC
ATTACCTCCT CCAGCCTGAC CAGCTCATCG CTGAGCTCCA CTAGTCCCGT AACAACGTCT
TCCTCCTACG ACCAGAGTTC TGTGCATGAC AGGAGTGCAT ACCAAAGCTC TATGAGTCCA
TCGGAGTCAG CTCCAGGAAC CATCACGAAT GGACATGGTG GTAGTCGAAG TCAGCAGACA
GTAGACACTC CTTCACCTGT TCCAGCTCCA AAGACAACAG ACCCTCCCTC TGCCCTCCCA
TCCGTGGGCT CCCTGCCCAG CACCACCTCC TGCACTCCGC TTCTGCCCTC TGCACCCCAG
CACACTGCCG CTCTGCCCTC CTTGTCCCAG CCTGGTGACC TGTCCAGCAG CCCCCTCTCT
CAGCTTAGCA GATCATTTCT AACCACAGAG CACCTGGACT GGGTTCCAAG GCCACACGGA
AGGAAGGATG TGAAGGGACA GGCAAGCTCG TGTGCAGCCC TCCTAGACGC GTGGGTCCCT
CGGGTGGAGT GCTGGGGGGT GCACACGCGG GGCTCTGCCT TGTCTTCCAG CTCTCTCTCC
GGCCACCAGA GCAGCCTCTC CTCTGCGCAC ACAGTGCTCT CCACCAGCAC GTCACAAACG
CTCTGCTGCA TTACATTATT TAATCAGGCC TCCTCTGATG GAACTTTAGG GCCATTTTCA
GTCTTGATAC CTTGGAAATA CTGTGGGTTC AGTTATAGAC CACCACCGTG GGAATATTGT
GGGAAACATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGCCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATACTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111457.1 CDS 14..3232 Translation
Target ORF information:
RefSeq Version XM_007111395.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007111395.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGTCTCCAG ACATCGCCAA ATGTTCCCTG GGAGGGAGGT GCACAGCCAC CCCAGTTGAA
AACCATTGCT TAAGAGTTAT GTTGGTAAAT CCAGCAATTG TCTTTGAATG GACATTTAAC
CCTGCGGACT ATTCAGATTC TCCATCTATA GATGGGTGTG GGACAAAACA AGTAGTTTGG
GAAGCTGCTC AGAATGGTGC AGATGAGGGA ACTGAACTGG CATCAAATGC TCAAAATGTA
GCTCAGAATC TGCCAAACAA AAATTCTTTT GGACTCAAAG GGGCCTGGAA GAATTCTGTG
GACGAGTGGA CAACGGAAGA CTGGACTGAA GATCTTTCTG AAACAAAGAT CTTCACTTCC
TCATCTGTTC CAGCAGAGCA TCTCGCCACA CCTGGGCAAA GTGTTGATCT GGTAGCCTTG
CTCCAGAAGC CTGTTCCTCA CAGTCAAGCC TCAGAAGTCA ACTCCTTTGA AACTTCCCAA
CAGCAGGGCT TTGGCCAAGC CCTTGTCTTC ACAAATTCTC AGCACAACAA TCAGATGGCA
CAAGGGACTG GCAGCTCCAC TGCTGTCAAT CCCTATCCAC CTCAGAGTCT GTCATCCGTC
CTTGGTTCAG GATTTGGAGA GCTCACACCT TCCAAAATGG CAAACATCAC CAGCTCCCAG
ATTTTGGACC AGTTGGAAGC TCCGAGTTTG GGCCAGTTTA CCACCACCCC CAGTTCACAG
CAGAATAATA CAAGTCCTCC CACAACTGCT TCTTCTTGGG ACCTCAAGCC CTCAGCATCC
CAGTCCTCAG TCCTTAGTCA TTTTGACTTC AAATCTCAGC CTGAGCCATC CCCTGTTCTT
AGCCAACTGA GCCAACGACA GCAGCAGCAG ACTCAGGCAG TCACTGTTCC TCCTCCTGGG
TTGGAGTCCT TTCCTTCCCA GGTGAAACTC CGAGAGTCAG CACCCAGAGA CAGCAGTACC
TCCACTGTGA ACAAACTTCT GCAGCTTCCC AGCATGACTG TCGAAAACAT CGCCGTGTCT
GCTCACCAGC CACCGCCTAA ACACATCAAA CTCCCTAAGC GGCGAATACC TCCAGCTTCT
AAGATCCCAG CTTCTGCAGT GGAAATGCCT GGTTCAGCAG ATGTCACAGG ATTAAATGTC
CAGTTTGGCG CCTTGGAATT TGGATCAGAA CCTTCTCTCT CTGAATTTGG ATCAGCTGCA
AGCAGTGAAA ATAGTAGCCA GATTCCCATT AGCTTGTATT CGAAATCTTT AAGTGACTCT
TTGAATACCT CCCTAGCAGT GACCAGTGCA GTGCAAAACT CCACCCACAC AACTTCAGTC
ATTACCTCCT CCAGCCTGAC CAGCTCATCG CTGAGCTCCA CTAGTCCCGT AACAACGTCT
TCCTCCTACG ACCAGAGTTC TGTGCATGAC AGGAGTGCAT ACCAAAGCTC TATGAGTCCA
TCGGAGTCAG CTCCAGGAAC CATCACGAAT GGACATGGTG GTAGTCGAAG TCAGCAGACA
GTAGACACTC CTTCACCTGT TCCAGCTCCA AAGACAACAG ACCCTCCCTC TGCCCTCCCA
TCCGTGGGCT CCCTGCCCAG CACCACCTCC TGCACTCCGC TTCTGCCCTC TGCACCCCAG
CACACTGCCG CTCTGCCCTC CTTGTCCCAG CCTGGTGACC TGTCCAGCAG CCCCCTCTCT
CAGCTTAGCA GATCATTTCT AACCACAGAG CACCTGGACT GGGTTCCAAG GCCACACGGA
AGGAAGGATG TGAAGGGACA GGCAAGCTCG TGTGCAGCCC TCCTAGACGC GTGGGTCCCT
CGGGTGGAGT GCTGGGGGGT GCACACGCGG GGCTCTGCCT TGTCTTCCAG CTCTCTCTCC
GGCCACCAGA GCAGCCTCTC CTCTGCGCAC ACAGTGCTCT CCACCAGCAC GTCACAAACG
CTCTGCTGCA TTACATTATT TAATCAGGCC TCCTCTGATG GAACTTTAGG GCCATTTTCA
GTCTTGATAC CTTGGAAATA CTGTGGGTTC AGTTATAGAC CACCACCGTG GGAATATTGT
GGGAAACATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGCCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATACTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh120164 Clone ID Related Accession (Same CDS sequence) XM_007111396.1 Accession Version XM_007111396.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3570bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1394380800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006714078.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGATCATTTC TAACCACAGA GCACCTGGAC TGGGTTCCAA GGCCACACGG AAGGAAGGAT
GTGAAGGGAC AGGCAAGCTC GTGTGCAGCC CTCCTAGACG CGTGGGTCCC TCGGGTGGAG
TGCTGGGGGG TGCACACGCG GGGCTCTGCC TTGTCTTCCA GCTCTCTCTC CGGCCACCAG
AGCAGCCTCT CCTCTGCGCA CACAGTGCTC TCCACCAGCA CGTCACAAAC GCTCTGCTGC
ATTACATTAT TTAATCAGGC CTCCTCTGAT GGAACTTTAG GGCCATTTTC AGTCTTGATA
CCTTGGAAAT ACTGTGGGTT CAGTTATAGA CCACCACCGT GGGAATATTG TGGGAAACAT
GCCGGCGTGG AGAGCGCCCC TTCCCTCCAG TCCTCAGCCA CCTTCTCAAC GGCAGCAACC
TGTGCCTCGA GTGCCGCGTC CTCAGGGCTC AGCCTGCCGA GCAGCATGAA CACGGTCAAC
AGCCTCTGCC TGGGTGGTAC CGCTGTGAGT GCCCCCAGCA GCAGTGCCAG GGCCACGCCC
TTGGTGACCT CAGGCAAAGC GCCCCCCAGC CTGCCCCAGG GGGCGCCTCC CCTGCTGCAC
AGCCAGTACC TCGTGGGCCC CGGAGGACTG CTTCCTGCCT ACCCGATTTA TGGCTATGAC
GAGCTCCAGA TGCTGCAGTC ACGGCTGCCG ATGGATTACT ATGGGATTCC TTTCGCTACA
CCCGCAGCCC TCGCCAGTCG AGATGGGAGC CTCGCTAATA ATCTCTATTC AGGTGATGTC
ACAAAGTTTG GCCGAGGAGA CTCTGCATCC CCTGCACCTG CCACCACCCT GGCTCAGCCC
CAGCAGAGCC AGTCCCAGGC CCACCACACA GCCCAGCAGC CCTTTCTGAA CCCTGCCCTG
CCACCTGGCT ACAGCTACAC TGGCCTCCCC TACTATACAG GCGTACCCAG TGCCTTCCAG
TATGGGCCCA CCGTGTTTGT CCCCCCGGCC TCAGCCAAGC AGCACAGTGT GAGCCTCAGC
AGCCCCACCA CCCCCTTCCA GCAGGCCAGT GGCTATGGCC AGCACAGCTA CAGCGCAGGT
TACGATGACG TGAGCCAGGG GGCAGCAGCG GGAGACTACA CCAAGGGTGG CTATGGTGGA
TCATCGCAGG CACAGAGCAA GTCTGCAGGT TCTGGGCCTG GCAAAGGAGT GTCGGTGTCT
TCAAGCGCCC CCGGCCTCGC TGACGTGACT GGGTCCGTCT ACAGCAAGAC TCAGACTTAC
GACAGGCAGG GATTTCACGC AGGGACCCCG CCACCGTTCA GCCTGCCCTC GGCCTTGGGC
TCCCCTGGGC CCCTGGGCCC CGGTTACGCG CCCTCACCGC TTGTGCACGT CCTGCCCGCC
CACCAGCAGC CTCACTCACA GCTGCTGCAC CACCACCTCC CGCAGGACAC TCAGAGTGGC
TCCGGTCAGC GCAGCCAGCC CAGCTCCCTG CAGCCCAAGT CGCAAGCCTC CAAACCTGCC
TATGGCAACT CTCCATACTG GACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111458.1 CDS 19..3588 Translation
Target ORF information:
RefSeq Version XM_007111396.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007111396.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGATCATTTC TAACCACAGA GCACCTGGAC TGGGTTCCAA GGCCACACGG AAGGAAGGAT
GTGAAGGGAC AGGCAAGCTC GTGTGCAGCC CTCCTAGACG CGTGGGTCCC TCGGGTGGAG
TGCTGGGGGG TGCACACGCG GGGCTCTGCC TTGTCTTCCA GCTCTCTCTC CGGCCACCAG
AGCAGCCTCT CCTCTGCGCA CACAGTGCTC TCCACCAGCA CGTCACAAAC GCTCTGCTGC
ATTACATTAT TTAATCAGGC CTCCTCTGAT GGAACTTTAG GGCCATTTTC AGTCTTGATA
CCTTGGAAAT ACTGTGGGTT CAGTTATAGA CCACCACCGT GGGAATATTG TGGGAAACAT
GCCGGCGTGG AGAGCGCCCC TTCCCTCCAG TCCTCAGCCA CCTTCTCAAC GGCAGCAACC
TGTGCCTCGA GTGCCGCGTC CTCAGGGCTC AGCCTGCCGA GCAGCATGAA CACGGTCAAC
AGCCTCTGCC TGGGTGGTAC CGCTGTGAGT GCCCCCAGCA GCAGTGCCAG GGCCACGCCC
TTGGTGACCT CAGGCAAAGC GCCCCCCAGC CTGCCCCAGG GGGCGCCTCC CCTGCTGCAC
AGCCAGTACC TCGTGGGCCC CGGAGGACTG CTTCCTGCCT ACCCGATTTA TGGCTATGAC
GAGCTCCAGA TGCTGCAGTC ACGGCTGCCG ATGGATTACT ATGGGATTCC TTTCGCTACA
CCCGCAGCCC TCGCCAGTCG AGATGGGAGC CTCGCTAATA ATCTCTATTC AGGTGATGTC
ACAAAGTTTG GCCGAGGAGA CTCTGCATCC CCTGCACCTG CCACCACCCT GGCTCAGCCC
CAGCAGAGCC AGTCCCAGGC CCACCACACA GCCCAGCAGC CCTTTCTGAA CCCTGCCCTG
CCACCTGGCT ACAGCTACAC TGGCCTCCCC TACTATACAG GCGTACCCAG TGCCTTCCAG
TATGGGCCCA CCGTGTTTGT CCCCCCGGCC TCAGCCAAGC AGCACAGTGT GAGCCTCAGC
AGCCCCACCA CCCCCTTCCA GCAGGCCAGT GGCTATGGCC AGCACAGCTA CAGCGCAGGT
TACGATGACG TGAGCCAGGG GGCAGCAGCG GGAGACTACA CCAAGGGTGG CTATGGTGGA
TCATCGCAGG CACAGAGCAA GTCTGCAGGT TCTGGGCCTG GCAAAGGAGT GTCGGTGTCT
TCAAGCGCCC CCGGCCTCGC TGACGTGACT GGGTCCGTCT ACAGCAAGAC TCAGACTTAC
GACAGGCAGG GATTTCACGC AGGGACCCCG CCACCGTTCA GCCTGCCCTC GGCCTTGGGC
TCCCCTGGGC CCCTGGGCCC CGGTTACGCG CCCTCACCGC TTGTGCACGT CCTGCCCGCC
CACCAGCAGC CTCACTCACA GCTGCTGCAC CACCACCTCC CGCAGGACAC TCAGAGTGGC
TCCGGTCAGC GCAGCCAGCC CAGCTCCCTG CAGCCCAAGT CGCAAGCCTC CAAACCTGCC
TATGGCAACT CTCCATACTG GACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh120165 Clone ID Related Accession (Same CDS sequence) XM_007111397.1 Accession Version XM_007111397.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3285bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1394380800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X7 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006714078.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Physeter catodon Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 5.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGCTCTCTCT CCGGCCACCA GAGCAGCCTC TCCTCTGCGC ACACAGTGCT CTCCACCAGC
ACGTCACAAA CGCATGCCGG CGTGGAGAGC GCCCCTTCCC TCCAGTCCTC AGCCACCTTC
TCAACGGCAG CAACCTGTGC CTCGAGTGCC GCGTCCTCAG GGCTCAGCCT GCCGAGCAGC
ATGAACACGG TCAACAGCCT CTGCCTGGGT GGTACCGCTG TGAGTGCCCC CAGCAGCAGT
GCCAGGGCCA CGCCCTTGGT GACCTCAGGC AAAGCGCCCC CCAGCCTGCC CCAGGGGGCG
CCTCCCCTGC TGCACAGCCA GTACCTCGTG GGCCCCGGAG GACTGCTTCC TGCCTACCCG
ATTTATGGCT ATGACGAGCT CCAGATGCTG CAGTCACGGC TGCCGATGGA TTACTATGGG
ATTCCTTTCG CTACACCCGC AGCCCTCGCC AGTCGAGATG GGAGCCTCGC TAATAATCTC
TATTCAGGTG ATGTCACAAA GTTTGGCCGA GGAGACTCTG CATCCCCTGC ACCTGCCACC
ACCCTGGCTC AGCCCCAGCA GAGCCAGTCC CAGGCCCACC ACACAGCCCA GCAGCCCTTT
CTGAACCCTG CCCTGCCACC TGGCTACAGC TACACTGGCC TCCCCTACTA TACAGGCGTA
CCCAGTGCCT TCCAGTATGG GCCCACCGTG TTTGTCCCCC CGGCCTCAGC CAAGCAGCAC
AGTGTGAGCC TCAGCAGCCC CACCACCCCC TTCCAGCAGG CCAGTGGCTA TGGCCAGCAC
AGCTACAGCG CAGGTTACGA TGACGTGAGC CAGGGGGCAG CAGCGGGAGA CTACACCAAG
GGTGGCTATG GTGGATCATC GCAGGCACAG AGCAAGTCTG CAGGTTCTGG GCCTGGCAAA
GGAGTGTCGG TGTCTTCAAG CGCCCCCGGC CTCGCTGACG TGACTGGGTC CGTCTACAGC
AAGACTCAGA CTTACGACAG GCAGGGATTT CACGCAGGGA CCCCGCCACC GTTCAGCCTG
CCCTCGGCCT TGGGCTCCCC TGGGCCCCTG GGCCCCGGTT ACGCGCCCTC ACCGCTTGTG
CACGTCCTGC CCGCCCACCA GCAGCCTCAC TCACAGCTGC TGCACCACCA CCTCCCGCAG
GACACTCAGA GTGGCTCCGG TCAGCGCAGC CAGCCCAGCT CCCTGCAGCC CAAGTCGCAA
GCCTCCAAAC CTGCCTATGG CAACTCTCCA TACTGGACAA ACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111459.1 CDS 19..3303 Translation
Target ORF information:
RefSeq Version XM_007111397.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007111397.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241ATGCGTCTCG CTCAAGTGAT CTTTGATAAA AATGATTCAG AGTTTGAAGC TAAAGTTAAA
CAGCTTATGG AGGTGACAGG AAAGAATCAG GATGAATGCA TAGTGGCTCT GCATGACTGT
AATGGAGATG TCAACAAAGC TATCAATACA TTGCTGGAAG GGAATTCAGA CACCACTTCA
TGGGAGACTG TAGGAGGGAA GAAGAAGAAT TTTGGAAAAG AAAGTTCAGA AAACAAAGAG
AATAGAGAGA AGAGAAGTGA GAGAGAAGTG AGCCGTGGAC GCGGAAGCAA CAACCGGAAA
GTAAGAGGTG GCAATCGTGG GAGAGAGTTT AGAGGTGAAG AGAATGGAAT TGATTGCAAT
CAAGGGGACA AGCCTTCAGA CCGTGGCAAG AGAGCTCGTG GTAGAGGGTT TGGACGTGGC
AGAGGGAGAG GGGCAGGAAG ATTCTCAACG CAAAGCATGG GGACATTTAA CCCTGCGGAC
TATTCAGATT CTCCATCTAT AGATGGGTGT GGGACAAAAC AAGTAGTTTG GGAAGCTGCT
CAGAATGGTG CAGATGAGGG AACTGAACTG GCATCAAATG CTCAAAATGT AGCTCAGAAT
CTGCCAAACA AAAATTCTTT TGGACTCAAA GGGGCCTGGA AGAATTCTGT GGACGAGTGG
ACAACGGAAG ACTGGACTGA AGATCTTTCT GAAACAAAGA TCTTCACTTC CTCATCTGTT
CCAGCAGAGC ATCTCGCCAC ACCTGGGCAA AGTGTTGATC TGGTAGCCTT GCTCCAGAAG
CCTGTTCCTC ACAGTCAAGC CTCAGAAGTC AACTCCTTTG AAACTTCCCA ACAGCAGGGC
TTTGGCCAAG CCCTTGTCTT CACAAATTCT CAGCACAACA ATCAGATGGC ACAAGGGACT
GGCAGCTCCA CTGCTGTCAA TCCCTATCCA CCTCAGAGTC TGTCATCCGT CCTTGGTTCA
GGATTTGGAG AGCTCACACC TTCCAAAATG GCAAACATCA CCAGCTCCCA GATTTTGGAC
CAGTTGGAAG CTCCGAGTTT GGGCCAGTTT ACCACCACCC CCAGTTCACA GCAGAATAAT
ACAAGTCCTC CCACAACTGC TTCTTCTTGG GACCTCAAGC CCTCAGCATC CCAGTCCTCA
GTCCTTAGTC ATTTTGACTT CAAATCTCAG CCTGAGCCAT CCCCTGTTCT TAGCCAACTG
AGCCAACGAC AGCAGCAGCA GACTCAGGCA GTCACTGTTC CTCCTCCTGG GTTGGAGTCC
TTTCCTTCCC AGGTGAAACT CCGAGAGTCA GCACCCAGAG ACAGCAGTAC CTCCACTGTG
AACAAACTTC TGCAGCTTCC CAGCATGACT GTCGAAAACA TCGCCGTGTC TGCTCACCAG
CCACCGCCTA AACACATCAA ACTCCCTAAG CGGCGAATAC CTCCAGCTTC TAAGATCCCA
GCTTCTGCAG TGGAAATGCC TGGTTCAGCA GATGTCACAG GATTAAATGT CCAGTTTGGC
GCCTTGGAAT TTGGATCAGA ACCTTCTCTC TCTGAATTTG GATCAGCTGC AAGCAGTGAA
AATAGTAGCC AGATTCCCAT TAGCTTGTAT TCGAAATCTT TAAGTGACTC TTTGAATACC
TCCCTAGCAG TGACCAGTGC AGTGCAAAAC TCCACCCACA CAACTTCAGT CATTACCTCC
TCCAGCCTGA CCAGCTCATC GCTGAGCTCC ACTAGTCCCG TAACAACGTC TTCCTCCTAC
GACCAGAGTT CTGTGCATGA CAGGAGTGCA TACCAAAGCT CTATGAGTCC ATCGGAGTCA
GCTCCAGGAA CCATCACGAA TGGACATGGT GGTAGTCGAA GTCAGCAGAC AGTAGACACT
CCTTCACCTG TTCCAGCTCC AAAGACAACA GACCCTCCCT CTGCCCTCCC ATCCGTGGGC
TCCCTGCCCA GCACCACCTC CTGCACTCCG CTTCTGCCCT CTGCACCCCA GCACACTGCC
GCTCTGCCCT CCTTGTCCCA GCCTGGTGAC CTGTCCAGCA GCCCCCTCTC TCAGCTTAGC
AGCTCTCTCT CCGGCCACCA GAGCAGCCTC TCCTCTGCGC ACACAGTGCT CTCCACCAGC
ACGTCACAAA CGCATGCCGG CGTGGAGAGC GCCCCTTCCC TCCAGTCCTC AGCCACCTTC
TCAACGGCAG CAACCTGTGC CTCGAGTGCC GCGTCCTCAG GGCTCAGCCT GCCGAGCAGC
ATGAACACGG TCAACAGCCT CTGCCTGGGT GGTACCGCTG TGAGTGCCCC CAGCAGCAGT
GCCAGGGCCA CGCCCTTGGT GACCTCAGGC AAAGCGCCCC CCAGCCTGCC CCAGGGGGCG
CCTCCCCTGC TGCACAGCCA GTACCTCGTG GGCCCCGGAG GACTGCTTCC TGCCTACCCG
ATTTATGGCT ATGACGAGCT CCAGATGCTG CAGTCACGGC TGCCGATGGA TTACTATGGG
ATTCCTTTCG CTACACCCGC AGCCCTCGCC AGTCGAGATG GGAGCCTCGC TAATAATCTC
TATTCAGGTG ATGTCACAAA GTTTGGCCGA GGAGACTCTG CATCCCCTGC ACCTGCCACC
ACCCTGGCTC AGCCCCAGCA GAGCCAGTCC CAGGCCCACC ACACAGCCCA GCAGCCCTTT
CTGAACCCTG CCCTGCCACC TGGCTACAGC TACACTGGCC TCCCCTACTA TACAGGCGTA
CCCAGTGCCT TCCAGTATGG GCCCACCGTG TTTGTCCCCC CGGCCTCAGC CAAGCAGCAC
AGTGTGAGCC TCAGCAGCCC CACCACCCCC TTCCAGCAGG CCAGTGGCTA TGGCCAGCAC
AGCTACAGCG CAGGTTACGA TGACGTGAGC CAGGGGGCAG CAGCGGGAGA CTACACCAAG
GGTGGCTATG GTGGATCATC GCAGGCACAG AGCAAGTCTG CAGGTTCTGG GCCTGGCAAA
GGAGTGTCGG TGTCTTCAAG CGCCCCCGGC CTCGCTGACG TGACTGGGTC CGTCTACAGC
AAGACTCAGA CTTACGACAG GCAGGGATTT CACGCAGGGA CCCCGCCACC GTTCAGCCTG
CCCTCGGCCT TGGGCTCCCC TGGGCCCCTG GGCCCCGGTT ACGCGCCCTC ACCGCTTGTG
CACGTCCTGC CCGCCCACCA GCAGCCTCAC TCACAGCTGC TGCACCACCA CCTCCCGCAG
GACACTCAGA GTGGCTCCGG TCAGCGCAGC CAGCCCAGCT CCCTGCAGCC CAAGTCGCAA
GCCTCCAAAC CTGCCTATGG CAACTCTCCA TACTGGACAA ACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301966 Clone ID Related Accession (Same CDS sequence) XM_024132875.1 Accession Version XM_024132875.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3618bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1553011200000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041222.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGG GGCCTGGAAG AATTCTGTGG ACGAGTGGAC AACGGAAGAC
TGGACTGAAG ATCTTTCTGA AACAAAGATC TTCACTTCCT CATCTGTTCC AGCAGAGCAT
CTCGCCACAC CTGGGCAAAG TGTTGATCTG GTAGCCTTGC TCCAGAAGCC TGTTCCTCAC
AGTCAAGCCT CAGAAGTCAA CTCCTTTGAA ACTTCCCAAC AGCAGGGCTT TGGCCAAGCC
CTTGTCTTCA CAAATTCTCA GCACAACAAT CAGATGGCAC AAGGGACTGG CAGCTCCACT
GCTGTCAATC CCTATCCACC TCAGAGTCTG TCATCCGTCC TTGGTTCAGG ATTTGGAGAG
CTCACACCTT CCAAAATGGC AAACATCACC AGCTCCCAGA TTTTGGACCA GTTGGAAGCT
CCGAGTTTGG GCCAGTTTAC CACCACCCCC AGTTCACAGC AGAATAATAC AAGTCCTCCC
ACAACTGCTT CTTCTTGGGA CCTCAAGCCC TCAGCATCCC AGTCCTCAGT CCTTAGTCAT
TTTGACTTCA AATCTCAGCC TGAGCCATCC CCTGTTCTTA GCCAACTGAG CCAACGACAG
CAGCAGCAGA CTCAGGCAGT CACTGTTCCT CCTCCTGGGT TGGAGTCCTT TCCTTCCCAG
GTGAAACTCC GAGAGTCAGC ACCCAGAGAC AGCAGTACCT CCACTGTGAA CAAACTTCTG
CAGCTTCCCA GCATGACTGT CGAAAACATC GCCGTGTCTG CTCACCAGCC ACCGCCTAAA
CACATCAAAC TCCCTAAGCG GCGAATACCT CCAGCTTCTA AGATCCCAGC TTCTGCAGTG
GAAATGCCTG GTTCAGCAGA TGTCACAGGA TTAAATGTCC AGTTTGGCGC CTTGGAATTT
GGATCAGAAC CTTCTCTCTC TGAATTTGGA TCAGCTGCAA GCAGTGAAAA TAGTAGCCAG
ATTCCCATTA GCTTGTATTC GAAATCTTTA AGTGACTCTT TGAATACCTC CCTAGCAGTG
ACCAGTGCAG TGCAAAACTC CACCCACACA ACTTCAGTCA TTACCTCCTC CAGCCTGACC
AGCTCATCGC TGAGCTCCAC TAGTCCCGTA ACAACGTCTT CCTCCTACGA CCAGAGTTCT
GTGCATGACA GGAGTGCATA CCAAAGCTCT ATGAGTCCAT CGGAGTCAGC TCCAGGAACC
ATCACGAATG GACATGGTGG TAGTCGAAGT CAGCAGACAG TAGACACTCC TTCACCTGTT
CCAGCTCCAA AGACAACAGA CCCTCCCTCT GCCCTCCCAT CCGTGGGCTC CCTGCCCAGC
ACCACCTCCT GCACTCCGCT TCTGCCCTCT GCACCCCAGC ACACTGCCGC TCTGCCCTCC
TTGTCCCAGC CTGGTGACCT GTCCAGCAGC CCCCTCTCTC AGCTTAGCAG ATCATTTCTA
ACCACAGAGC ACCTGGACTG GGTTCCAAGG CCACACGGAA GGAAGGATGT GAAGGGACAG
GCAAGCTCGT GTGCAGCCCT CCTAGACGCG TGGGTCCCTC GGGTGGAGTG CTGGGGGGTG
CACACGCGGG GCTCTGCCTT GTCTTCCAGC TCTCTCTCCG GCCACCAGAG CAGCCTCTCC
TCTGCGCACA CAGTGCTCTC CACCAGCACG TCACAAACGC TCTGCTGCAT TACATTATTT
AATCAGGCCT CCTCTGATGG AACTTTAGGG CCATTTTCAG TCTTGATACC TTGGAAATAC
TGTGGGTTCA GTTATAGACC ACCACCGTGG GAATATTGTG GGAAACATGC CGGCGTGGAG
AGCGCCCCTT CCCTCCAGTC CTCAGCCACC TTCTCAACGG CAGCAACCTG TGCCTCGAGT
GCCGCGTCCT CAGGGCTCAG CCTGCCGAGC AGCATGAACA CGGTCAACAG CCTCTGCCTG
GGTGGTACCG CTGTGAGTGC CCCCAGCAGC AGTGCCAGGG CCACGCCCTT GGTGACCTCA
GGCAAAGCGC CCCCCAGCCT GCCCCAGGGG GCGCCTCCCC TGCTGCACAG CCAGTACCTC
GTGGGCCCCG GAGGACTGCT TCCTGCCTAC CCGATTTATG GCTATGACGA GCTCCAGATG
CTGCAGTCAC GGCTGCCGAT GGATTACTAT GGGATTCCTT TCGCTACACC CGCAGCCCTC
GCCAGTCGAG ATGGGAGCCT CGCTAATAAT CTCTATTCAG GTGATGTCAC AAAGTTTGGC
CGAGGAGACT CTGCATCCCC TGCACCTGCC ACCACCCTGG CTCAGCCCCA GCAGAGCCAG
TCCCAGGCCC ACCACACAGC CCAGCAGCCC TTTCTGAACC CTGCCCTGCC ACCTGGCTAC
AGCTACACTG GTCTCCCCTA CTATACAGGC GTACCCAGTG CCTTCCAGTA TGGGCCCACC
GTGTTTGTCC CCCCGGCCTC AGCCAAGCAG CACAGTGTGA GCCTCAGCAG CCCCACCACC
CCCTTCCAGC AGGCCAGTGG CTATGGCCAG CACAGCTACA GCGCAGGTTA CGATGACGTG
AGCCAGGGGG CAGCAGCGGG AGACTACACC AAGGGTGGCT ATGGTGGATC ATCGCAGGCA
CAGAGCAAGT CTGCAGGTTC TGGGCCTGGC AAAGGAGTGT CGGTGTCTTC AAGCGCCCCC
GGCCTCGCTG ACGTGACTGG GTCCGTCTAC AGCAAGACTC AGACTTACGA CAGGCAGGGA
TTTCACGCAG GGACCCCGCC ACCGTTCAGC CTGCCCTCGG CCTTGGGCTC CCCTGGGCCC
CTGGGCCCCG GTTACGCGCC CTCACCGCTT GTGCACGTCC TGCCCGCCCA CCAGCAGCCT
CACTCACAGC TGCTGCACCA CCACCTCCCG CAGGACACTC AGAGTGGCTC CGGTCAGCGC
AGCCAGCCCA GCTCCCTGCA GCCCAAGTCG CAAGCCTCCA AACCTGCCTA TGGCAACTCT
CCATATTGGA CAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023988643.1 CDS 42..3659 Translation
Target ORF information:
RefSeq Version XM_024132875.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024132875.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGG GGCCTGGAAG AATTCTGTGG ACGAGTGGAC AACGGAAGAC
TGGACTGAAG ATCTTTCTGA AACAAAGATC TTCACTTCCT CATCTGTTCC AGCAGAGCAT
CTCGCCACAC CTGGGCAAAG TGTTGATCTG GTAGCCTTGC TCCAGAAGCC TGTTCCTCAC
AGTCAAGCCT CAGAAGTCAA CTCCTTTGAA ACTTCCCAAC AGCAGGGCTT TGGCCAAGCC
CTTGTCTTCA CAAATTCTCA GCACAACAAT CAGATGGCAC AAGGGACTGG CAGCTCCACT
GCTGTCAATC CCTATCCACC TCAGAGTCTG TCATCCGTCC TTGGTTCAGG ATTTGGAGAG
CTCACACCTT CCAAAATGGC AAACATCACC AGCTCCCAGA TTTTGGACCA GTTGGAAGCT
CCGAGTTTGG GCCAGTTTAC CACCACCCCC AGTTCACAGC AGAATAATAC AAGTCCTCCC
ACAACTGCTT CTTCTTGGGA CCTCAAGCCC TCAGCATCCC AGTCCTCAGT CCTTAGTCAT
TTTGACTTCA AATCTCAGCC TGAGCCATCC CCTGTTCTTA GCCAACTGAG CCAACGACAG
CAGCAGCAGA CTCAGGCAGT CACTGTTCCT CCTCCTGGGT TGGAGTCCTT TCCTTCCCAG
GTGAAACTCC GAGAGTCAGC ACCCAGAGAC AGCAGTACCT CCACTGTGAA CAAACTTCTG
CAGCTTCCCA GCATGACTGT CGAAAACATC GCCGTGTCTG CTCACCAGCC ACCGCCTAAA
CACATCAAAC TCCCTAAGCG GCGAATACCT CCAGCTTCTA AGATCCCAGC TTCTGCAGTG
GAAATGCCTG GTTCAGCAGA TGTCACAGGA TTAAATGTCC AGTTTGGCGC CTTGGAATTT
GGATCAGAAC CTTCTCTCTC TGAATTTGGA TCAGCTGCAA GCAGTGAAAA TAGTAGCCAG
ATTCCCATTA GCTTGTATTC GAAATCTTTA AGTGACTCTT TGAATACCTC CCTAGCAGTG
ACCAGTGCAG TGCAAAACTC CACCCACACA ACTTCAGTCA TTACCTCCTC CAGCCTGACC
AGCTCATCGC TGAGCTCCAC TAGTCCCGTA ACAACGTCTT CCTCCTACGA CCAGAGTTCT
GTGCATGACA GGAGTGCATA CCAAAGCTCT ATGAGTCCAT CGGAGTCAGC TCCAGGAACC
ATCACGAATG GACATGGTGG TAGTCGAAGT CAGCAGACAG TAGACACTCC TTCACCTGTT
CCAGCTCCAA AGACAACAGA CCCTCCCTCT GCCCTCCCAT CCGTGGGCTC CCTGCCCAGC
ACCACCTCCT GCACTCCGCT TCTGCCCTCT GCACCCCAGC ACACTGCCGC TCTGCCCTCC
TTGTCCCAGC CTGGTGACCT GTCCAGCAGC CCCCTCTCTC AGCTTAGCAG ATCATTTCTA
ACCACAGAGC ACCTGGACTG GGTTCCAAGG CCACACGGAA GGAAGGATGT GAAGGGACAG
GCAAGCTCGT GTGCAGCCCT CCTAGACGCG TGGGTCCCTC GGGTGGAGTG CTGGGGGGTG
CACACGCGGG GCTCTGCCTT GTCTTCCAGC TCTCTCTCCG GCCACCAGAG CAGCCTCTCC
TCTGCGCACA CAGTGCTCTC CACCAGCACG TCACAAACGC TCTGCTGCAT TACATTATTT
AATCAGGCCT CCTCTGATGG AACTTTAGGG CCATTTTCAG TCTTGATACC TTGGAAATAC
TGTGGGTTCA GTTATAGACC ACCACCGTGG GAATATTGTG GGAAACATGC CGGCGTGGAG
AGCGCCCCTT CCCTCCAGTC CTCAGCCACC TTCTCAACGG CAGCAACCTG TGCCTCGAGT
GCCGCGTCCT CAGGGCTCAG CCTGCCGAGC AGCATGAACA CGGTCAACAG CCTCTGCCTG
GGTGGTACCG CTGTGAGTGC CCCCAGCAGC AGTGCCAGGG CCACGCCCTT GGTGACCTCA
GGCAAAGCGC CCCCCAGCCT GCCCCAGGGG GCGCCTCCCC TGCTGCACAG CCAGTACCTC
GTGGGCCCCG GAGGACTGCT TCCTGCCTAC CCGATTTATG GCTATGACGA GCTCCAGATG
CTGCAGTCAC GGCTGCCGAT GGATTACTAT GGGATTCCTT TCGCTACACC CGCAGCCCTC
GCCAGTCGAG ATGGGAGCCT CGCTAATAAT CTCTATTCAG GTGATGTCAC AAAGTTTGGC
CGAGGAGACT CTGCATCCCC TGCACCTGCC ACCACCCTGG CTCAGCCCCA GCAGAGCCAG
TCCCAGGCCC ACCACACAGC CCAGCAGCCC TTTCTGAACC CTGCCCTGCC ACCTGGCTAC
AGCTACACTG GTCTCCCCTA CTATACAGGC GTACCCAGTG CCTTCCAGTA TGGGCCCACC
GTGTTTGTCC CCCCGGCCTC AGCCAAGCAG CACAGTGTGA GCCTCAGCAG CCCCACCACC
CCCTTCCAGC AGGCCAGTGG CTATGGCCAG CACAGCTACA GCGCAGGTTA CGATGACGTG
AGCCAGGGGG CAGCAGCGGG AGACTACACC AAGGGTGGCT ATGGTGGATC ATCGCAGGCA
CAGAGCAAGT CTGCAGGTTC TGGGCCTGGC AAAGGAGTGT CGGTGTCTTC AAGCGCCCCC
GGCCTCGCTG ACGTGACTGG GTCCGTCTAC AGCAAGACTC AGACTTACGA CAGGCAGGGA
TTTCACGCAG GGACCCCGCC ACCGTTCAGC CTGCCCTCGG CCTTGGGCTC CCCTGGGCCC
CTGGGCCCCG GTTACGCGCC CTCACCGCTT GTGCACGTCC TGCCCGCCCA CCAGCAGCCT
CACTCACAGC TGCTGCACCA CCACCTCCCG CAGGACACTC AGAGTGGCTC CGGTCAGCGC
AGCCAGCCCA GCTCCCTGCA GCCCAAGTCG CAAGCCTCCA AACCTGCCTA TGGCAACTCT
CCATATTGGA CAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301967 Clone ID Related Accession (Same CDS sequence) XM_024132876.1 Accession Version XM_024132876.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3558bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1553011200000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041222.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCATGC CGGCGTGGAG
AGCGCCCCTT CCCTCCAGTC CTCAGCCACC TTCTCAACGG CAGCAACCTG TGCCTCGAGT
GCCGCGTCCT CAGGGCTCAG CCTGCCGAGC AGCATGAACA CGGTCAACAG CCTCTGCCTG
GGTGGTACCG CTGTGAGTGC CCCCAGCAGC AGTGCCAGGG CCACGCCCTT GGTGACCTCA
GGCAAAGCGC CCCCCAGCCT GCCCCAGGGG GCGCCTCCCC TGCTGCACAG CCAGTACCTC
GTGGGCCCCG GAGGACTGCT TCCTGCCTAC CCGATTTATG GCTATGACGA GCTCCAGATG
CTGCAGTCAC GGCTGCCGAT GGATTACTAT GGGATTCCTT TCGCTACACC CGCAGCCCTC
GCCAGTCGAG ATGGGAGCCT CGCTAATAAT CTCTATTCAG GTGATGTCAC AAAGTTTGGC
CGAGGAGACT CTGCATCCCC TGCACCTGCC ACCACCCTGG CTCAGCCCCA GCAGAGCCAG
TCCCAGGCCC ACCACACAGC CCAGCAGCCC TTTCTGAACC CTGCCCTGCC ACCTGGCTAC
AGCTACACTG GTCTCCCCTA CTATACAGGC GTACCCAGTG CCTTCCAGTA TGGGCCCACC
GTGTTTGTCC CCCCGGCCTC AGCCAAGCAG CACAGTGTGA GCCTCAGCAG CCCCACCACC
CCCTTCCAGC AGGCCAGTGG CTATGGCCAG CACAGCTACA GCGCAGGTTA CGATGACGTG
AGCCAGGGGG CAGCAGCGGG AGACTACACC AAGGGTGGCT ATGGTGGATC ATCGCAGGCA
CAGAGCAAGT CTGCAGGTTC TGGGCCTGGC AAAGGAGTGT CGGTGTCTTC AAGCGCCCCC
GGCCTCGCTG ACGTGACTGG GTCCGTCTAC AGCAAGACTC AGACTTACGA CAGGCAGGGA
TTTCACGCAG GGACCCCGCC ACCGTTCAGC CTGCCCTCGG CCTTGGGCTC CCCTGGGCCC
CTGGGCCCCG GTTACGCGCC CTCACCGCTT GTGCACGTCC TGCCCGCCCA CCAGCAGCCT
CACTCACAGC TGCTGCACCA CCACCTCCCG CAGGACACTC AGAGTGGCTC CGGTCAGCGC
AGCCAGCCCA GCTCCCTGCA GCCCAAGTCG CAAGCCTCCA AACCTGCCTA TGGCAACTCT
CCATATTGGA CAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023988644.1 CDS 42..3599 Translation
Target ORF information:
RefSeq Version XM_024132876.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024132876.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCATGC CGGCGTGGAG
AGCGCCCCTT CCCTCCAGTC CTCAGCCACC TTCTCAACGG CAGCAACCTG TGCCTCGAGT
GCCGCGTCCT CAGGGCTCAG CCTGCCGAGC AGCATGAACA CGGTCAACAG CCTCTGCCTG
GGTGGTACCG CTGTGAGTGC CCCCAGCAGC AGTGCCAGGG CCACGCCCTT GGTGACCTCA
GGCAAAGCGC CCCCCAGCCT GCCCCAGGGG GCGCCTCCCC TGCTGCACAG CCAGTACCTC
GTGGGCCCCG GAGGACTGCT TCCTGCCTAC CCGATTTATG GCTATGACGA GCTCCAGATG
CTGCAGTCAC GGCTGCCGAT GGATTACTAT GGGATTCCTT TCGCTACACC CGCAGCCCTC
GCCAGTCGAG ATGGGAGCCT CGCTAATAAT CTCTATTCAG GTGATGTCAC AAAGTTTGGC
CGAGGAGACT CTGCATCCCC TGCACCTGCC ACCACCCTGG CTCAGCCCCA GCAGAGCCAG
TCCCAGGCCC ACCACACAGC CCAGCAGCCC TTTCTGAACC CTGCCCTGCC ACCTGGCTAC
AGCTACACTG GTCTCCCCTA CTATACAGGC GTACCCAGTG CCTTCCAGTA TGGGCCCACC
GTGTTTGTCC CCCCGGCCTC AGCCAAGCAG CACAGTGTGA GCCTCAGCAG CCCCACCACC
CCCTTCCAGC AGGCCAGTGG CTATGGCCAG CACAGCTACA GCGCAGGTTA CGATGACGTG
AGCCAGGGGG CAGCAGCGGG AGACTACACC AAGGGTGGCT ATGGTGGATC ATCGCAGGCA
CAGAGCAAGT CTGCAGGTTC TGGGCCTGGC AAAGGAGTGT CGGTGTCTTC AAGCGCCCCC
GGCCTCGCTG ACGTGACTGG GTCCGTCTAC AGCAAGACTC AGACTTACGA CAGGCAGGGA
TTTCACGCAG GGACCCCGCC ACCGTTCAGC CTGCCCTCGG CCTTGGGCTC CCCTGGGCCC
CTGGGCCCCG GTTACGCGCC CTCACCGCTT GTGCACGTCC TGCCCGCCCA CCAGCAGCCT
CACTCACAGC TGCTGCACCA CCACCTCCCG CAGGACACTC AGAGTGGCTC CGGTCAGCGC
AGCCAGCCCA GCTCCCTGCA GCCCAAGTCG CAAGCCTCCA AACCTGCCTA TGGCAACTCT
CCATATTGGA CAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301968 Clone ID Related Accession (Same CDS sequence) XM_024132877.2 , XM_024132877.1 Accession Version XM_024132877.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3684bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1553011200000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041222.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Mar 21, 2019 this sequence version replaced XM_024132877.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCTCTG CTGCATTACA
TTATTTAATC AGGCCTCCTC TGATGGAACT TTAGGGCCAT TTTCAGTCTT GATACCTTGG
AAATACTGTG GGTTCAGTTA TAGACCACCA CCGTGGGAAT ATTGTGGGAA ACATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGTCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAC TTACGACAGG
CAGGGATTTC ACGCAGGGAC CCCGCCACCG TTCAGCCTGC CCTCGGCCTT GGGCTCCCCT
GGGCCCCTGG GCCCCGGTTA CGCGCCCTCA CCGCTTGTGC ACGTCCTGCC CGCCCACCAG
CAGCCTCACT CACAGCTGCT GCACCACCAC CTCCCGCAGG ACACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ATTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023988645.1 CDS 82..3765 Translation
Target ORF information:
RefSeq Version XM_024132877.2 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024132877.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCTCTG CTGCATTACA
TTATTTAATC AGGCCTCCTC TGATGGAACT TTAGGGCCAT TTTCAGTCTT GATACCTTGG
AAATACTGTG GGTTCAGTTA TAGACCACCA CCGTGGGAAT ATTGTGGGAA ACATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGTCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAC TTACGACAGG
CAGGGATTTC ACGCAGGGAC CCCGCCACCG TTCAGCCTGC CCTCGGCCTT GGGCTCCCCT
GGGCCCCTGG GCCCCGGTTA CGCGCCCTCA CCGCTTGTGC ACGTCCTGCC CGCCCACCAG
CAGCCTCACT CACAGCTGCT GCACCACCAC CTCCCGCAGG ACACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ATTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301968 Clone ID Related Accession (Same CDS sequence) XM_024132877.2 , XM_024132877.1 Accession Version XM_024132877.1 Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3684bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519228800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCTCTG CTGCATTACA
TTATTTAATC AGGCCTCCTC TGATGGAACT TTAGGGCCAT TTTCAGTCTT GATACCTTGG
AAATACTGTG GGTTCAGTTA TAGACCACCA CCGTGGGAAT ATTGTGGGAA ACATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGTCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAC TTACGACAGG
CAGGGATTTC ACGCAGGGAC CCCGCCACCG TTCAGCCTGC CCTCGGCCTT GGGCTCCCCT
GGGCCCCTGG GCCCCGGTTA CGCGCCCTCA CCGCTTGTGC ACGTCCTGCC CGCCCACCAG
CAGCCTCACT CACAGCTGCT GCACCACCAC CTCCCGCAGG ACACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ATTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023988645.1 CDS 117..3800 Translation
Target ORF information:
RefSeq Version XM_024132877.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024132877.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCTCTG CTGCATTACA
TTATTTAATC AGGCCTCCTC TGATGGAACT TTAGGGCCAT TTTCAGTCTT GATACCTTGG
AAATACTGTG GGTTCAGTTA TAGACCACCA CCGTGGGAAT ATTGTGGGAA ACATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGTCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAC TTACGACAGG
CAGGGATTTC ACGCAGGGAC CCCGCCACCG TTCAGCCTGC CCTCGGCCTT GGGCTCCCCT
GGGCCCCTGG GCCCCGGTTA CGCGCCCTCA CCGCTTGTGC ACGTCCTGCC CGCCCACCAG
CAGCCTCACT CACAGCTGCT GCACCACCAC CTCCCGCAGG ACACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ATTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301969 Clone ID Related Accession (Same CDS sequence) XM_024132878.1 Accession Version XM_024132878.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3525bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1553011200000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041222.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGCTCT
CTCTCCGGCC ACCAGAGCAG CCTCTCCTCT GCGCACACAG TGCTCTCCAC CAGCACGTCA
CAAACGCTCT GCTGCATTAC ATTATTTAAT CAGGCCTCCT CTGATGGAAC TTTAGGGCCA
TTTTCAGTCT TGATACCTTG GAAATACTGT GGGTTCAGTT ATAGACCACC ACCGTGGGAA
TATTGTGGGA AACATGCCGG CGTGGAGAGC GCCCCTTCCC TCCAGTCCTC AGCCACCTTC
TCAACGGCAG CAACCTGTGC CTCGAGTGCC GCGTCCTCAG GGCTCAGCCT GCCGAGCAGC
ATGAACACGG TCAACAGCCT CTGCCTGGGT GGTACCGCTG TGAGTGCCCC CAGCAGCAGT
GCCAGGGCCA CGCCCTTGGT GACCTCAGGC AAAGCGCCCC CCAGCCTGCC CCAGGGGGCG
CCTCCCCTGC TGCACAGCCA GTACCTCGTG GGCCCCGGAG GACTGCTTCC TGCCTACCCG
ATTTATGGCT ATGACGAGCT CCAGATGCTG CAGTCACGGC TGCCGATGGA TTACTATGGG
ATTCCTTTCG CTACACCCGC AGCCCTCGCC AGTCGAGATG GGAGCCTCGC TAATAATCTC
TATTCAGGTG ATGTCACAAA GTTTGGCCGA GGAGACTCTG CATCCCCTGC ACCTGCCACC
ACCCTGGCTC AGCCCCAGCA GAGCCAGTCC CAGGCCCACC ACACAGCCCA GCAGCCCTTT
CTGAACCCTG CCCTGCCACC TGGCTACAGC TACACTGGTC TCCCCTACTA TACAGGCGTA
CCCAGTGCCT TCCAGTATGG GCCCACCGTG TTTGTCCCCC CGGCCTCAGC CAAGCAGCAC
AGTGTGAGCC TCAGCAGCCC CACCACCCCC TTCCAGCAGG CCAGTGGCTA TGGCCAGCAC
AGCTACAGCG CAGGTTACGA TGACGTGAGC CAGGGGGCAG CAGCGGGAGA CTACACCAAG
GGTGGCTATG GTGGATCATC GCAGGCACAG AGCAAGTCTG CAGGTTCTGG GCCTGGCAAA
GGAGTGTCGG TGTCTTCAAG CGCCCCCGGC CTCGCTGACG TGACTGGGTC CGTCTACAGC
AAGACTCAGA CTTACGACAG GCAGGGATTT CACGCAGGGA CCCCGCCACC GTTCAGCCTG
CCCTCGGCCT TGGGCTCCCC TGGGCCCCTG GGCCCCGGTT ACGCGCCCTC ACCGCTTGTG
CACGTCCTGC CCGCCCACCA GCAGCCTCAC TCACAGCTGC TGCACCACCA CCTCCCGCAG
GACACTCAGA GTGGCTCCGG TCAGCGCAGC CAGCCCAGCT CCCTGCAGCC CAAGTCGCAA
GCCTCCAAAC CTGCCTATGG CAACTCTCCA TATTGGACAA ACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023988646.1 CDS 42..3566 Translation
Target ORF information:
RefSeq Version XM_024132878.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024132878.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGCTCT
CTCTCCGGCC ACCAGAGCAG CCTCTCCTCT GCGCACACAG TGCTCTCCAC CAGCACGTCA
CAAACGCTCT GCTGCATTAC ATTATTTAAT CAGGCCTCCT CTGATGGAAC TTTAGGGCCA
TTTTCAGTCT TGATACCTTG GAAATACTGT GGGTTCAGTT ATAGACCACC ACCGTGGGAA
TATTGTGGGA AACATGCCGG CGTGGAGAGC GCCCCTTCCC TCCAGTCCTC AGCCACCTTC
TCAACGGCAG CAACCTGTGC CTCGAGTGCC GCGTCCTCAG GGCTCAGCCT GCCGAGCAGC
ATGAACACGG TCAACAGCCT CTGCCTGGGT GGTACCGCTG TGAGTGCCCC CAGCAGCAGT
GCCAGGGCCA CGCCCTTGGT GACCTCAGGC AAAGCGCCCC CCAGCCTGCC CCAGGGGGCG
CCTCCCCTGC TGCACAGCCA GTACCTCGTG GGCCCCGGAG GACTGCTTCC TGCCTACCCG
ATTTATGGCT ATGACGAGCT CCAGATGCTG CAGTCACGGC TGCCGATGGA TTACTATGGG
ATTCCTTTCG CTACACCCGC AGCCCTCGCC AGTCGAGATG GGAGCCTCGC TAATAATCTC
TATTCAGGTG ATGTCACAAA GTTTGGCCGA GGAGACTCTG CATCCCCTGC ACCTGCCACC
ACCCTGGCTC AGCCCCAGCA GAGCCAGTCC CAGGCCCACC ACACAGCCCA GCAGCCCTTT
CTGAACCCTG CCCTGCCACC TGGCTACAGC TACACTGGTC TCCCCTACTA TACAGGCGTA
CCCAGTGCCT TCCAGTATGG GCCCACCGTG TTTGTCCCCC CGGCCTCAGC CAAGCAGCAC
AGTGTGAGCC TCAGCAGCCC CACCACCCCC TTCCAGCAGG CCAGTGGCTA TGGCCAGCAC
AGCTACAGCG CAGGTTACGA TGACGTGAGC CAGGGGGCAG CAGCGGGAGA CTACACCAAG
GGTGGCTATG GTGGATCATC GCAGGCACAG AGCAAGTCTG CAGGTTCTGG GCCTGGCAAA
GGAGTGTCGG TGTCTTCAAG CGCCCCCGGC CTCGCTGACG TGACTGGGTC CGTCTACAGC
AAGACTCAGA CTTACGACAG GCAGGGATTT CACGCAGGGA CCCCGCCACC GTTCAGCCTG
CCCTCGGCCT TGGGCTCCCC TGGGCCCCTG GGCCCCGGTT ACGCGCCCTC ACCGCTTGTG
CACGTCCTGC CCGCCCACCA GCAGCCTCAC TCACAGCTGC TGCACCACCA CCTCCCGCAG
GACACTCAGA GTGGCTCCGG TCAGCGCAGC CAGCCCAGCT CCCTGCAGCC CAAGTCGCAA
GCCTCCAAAC CTGCCTATGG CAACTCTCCA TATTGGACAA ACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301970 Clone ID Related Accession (Same CDS sequence) XM_024132879.1 Accession Version XM_024132879.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3504bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519228800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCTCTG CTGCATTACA
TTATTTAATC AGGCCTCCTC TGATGGAACT TTAGGGCCAT TTTCAGTCTT GATACCTTGG
AAATACTGTG GGTTCAGTTA TAGACCACCA CCGTGGGAAT ATTGTGGGAA ACATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGTCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ATTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023988647.1 CDS 42..3545 Translation
Target ORF information:
RefSeq Version XM_024132879.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024132879.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGATCA
TTTCTAACCA CAGAGCACCT GGACTGGGTT CCAAGGCCAC ACGGAAGGAA GGATGTGAAG
GGACAGGCAA GCTCGTGTGC AGCCCTCCTA GACGCGTGGG TCCCTCGGGT GGAGTGCTGG
GGGGTGCACA CGCGGGGCTC TGCCTTGTCT TCCAGCTCTC TCTCCGGCCA CCAGAGCAGC
CTCTCCTCTG CGCACACAGT GCTCTCCACC AGCACGTCAC AAACGCTCTG CTGCATTACA
TTATTTAATC AGGCCTCCTC TGATGGAACT TTAGGGCCAT TTTCAGTCTT GATACCTTGG
AAATACTGTG GGTTCAGTTA TAGACCACCA CCGTGGGAAT ATTGTGGGAA ACATGCCGGC
GTGGAGAGCG CCCCTTCCCT CCAGTCCTCA GCCACCTTCT CAACGGCAGC AACCTGTGCC
TCGAGTGCCG CGTCCTCAGG GCTCAGCCTG CCGAGCAGCA TGAACACGGT CAACAGCCTC
TGCCTGGGTG GTACCGCTGT GAGTGCCCCC AGCAGCAGTG CCAGGGCCAC GCCCTTGGTG
ACCTCAGGCA AAGCGCCCCC CAGCCTGCCC CAGGGGGCGC CTCCCCTGCT GCACAGCCAG
TACCTCGTGG GCCCCGGAGG ACTGCTTCCT GCCTACCCGA TTTATGGCTA TGACGAGCTC
CAGATGCTGC AGTCACGGCT GCCGATGGAT TACTATGGGA TTCCTTTCGC TACACCCGCA
GCCCTCGCCA GTCGAGATGG GAGCCTCGCT AATAATCTCT ATTCAGGTGA TGTCACAAAG
TTTGGCCGAG GAGACTCTGC ATCCCCTGCA CCTGCCACCA CCCTGGCTCA GCCCCAGCAG
AGCCAGTCCC AGGCCCACCA CACAGCCCAG CAGCCCTTTC TGAACCCTGC CCTGCCACCT
GGCTACAGCT ACACTGGTCT CCCCTACTAT ACAGGCGTAC CCAGTGCCTT CCAGTATGGG
CCCACCGTGT TTGTCCCCCC GGCCTCAGCC AAGCAGCACA GTGTGAGCCT CAGCAGCCCC
ACCACCCCCT TCCAGCAGGC CAGTGGCTAT GGCCAGCACA GCTACAGCGC AGGTTACGAT
GACGTGAGCC AGGGGGCAGC AGCGGGAGAC TACACCAAGG GTGGCTATGG TGGATCATCG
CAGGCACAGA GCAAGTCTGC AGGTTCTGGG CCTGGCAAAG GAGTGTCGGT GTCTTCAAGC
GCCCCCGGCC TCGCTGACGT GACTGGGTCC GTCTACAGCA AGACTCAGAG TGGCTCCGGT
CAGCGCAGCC AGCCCAGCTC CCTGCAGCCC AAGTCGCAAG CCTCCAAACC TGCCTATGGC
AACTCTCCAT ATTGGACAAA CTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301971 Clone ID Related Accession (Same CDS sequence) XM_024132880.1 , XM_028494060.1 Accession Version XM_024132880.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3399bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519228800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGCTCT
CTCTCCGGCC ACCAGAGCAG CCTCTCCTCT GCGCACACAG TGCTCTCCAC CAGCACGTCA
CAAACGCATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGTCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATATTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023988648.1 CDS 42..3440 Translation
Target ORF information:
RefSeq Version XM_024132880.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024132880.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGCTCT
CTCTCCGGCC ACCAGAGCAG CCTCTCCTCT GCGCACACAG TGCTCTCCAC CAGCACGTCA
CAAACGCATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGTCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATATTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301971 Clone ID Related Accession (Same CDS sequence) XM_024132880.1 , XM_028494060.1 Accession Version XM_028494060.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3399bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1553011200000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X6 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041222.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGCTCT
CTCTCCGGCC ACCAGAGCAG CCTCTCCTCT GCGCACACAG TGCTCTCCAC CAGCACGTCA
CAAACGCATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGTCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATATTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028349861.1 CDS 82..3480 Translation
Target ORF information:
RefSeq Version XM_028494060.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028494060.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGCTCT
CTCTCCGGCC ACCAGAGCAG CCTCTCCTCT GCGCACACAG TGCTCTCCAC CAGCACGTCA
CAAACGCATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGTCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATATTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301972 Clone ID Related Accession (Same CDS sequence) XM_007111395.2 , XM_007111395.3 Accession Version XM_007111395.2 Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3219bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1519228800000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X7 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873595.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Feb 23, 2018 this sequence version replaced XM_007111395.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGTCTCCAG ACATCGCCAA ATGTTCCCTG GGAGGGAGGT GCACAGCCAC CCCAGTTGAA
AACCATTGCT TAAGAGTTAT GTTGGTAAAT CCAGCAATTG TCTTTGAATG GACATTTAAC
CCTGCGGACT ATTCAGATTC TCCATCTATA GATGGGTGTG GGACAAAACA AGTAGTTTGG
GAAGCTGCTC AGAATGGTGC AGATGAGGGA ACTGAACTGG CATCAAATGC TCAAAATGTA
GCTCAGAATC TGCCAAACAA AAATTCTTTT GGACTCAAAG GGGCCTGGAA GAATTCTGTG
GACGAGTGGA CAACGGAAGA CTGGACTGAA GATCTTTCTG AAACAAAGAT CTTCACTTCC
TCATCTGTTC CAGCAGAGCA TCTCGCCACA CCTGGGCAAA GTGTTGATCT GGTAGCCTTG
CTCCAGAAGC CTGTTCCTCA CAGTCAAGCC TCAGAAGTCA ACTCCTTTGA AACTTCCCAA
CAGCAGGGCT TTGGCCAAGC CCTTGTCTTC ACAAATTCTC AGCACAACAA TCAGATGGCA
CAAGGGACTG GCAGCTCCAC TGCTGTCAAT CCCTATCCAC CTCAGAGTCT GTCATCCGTC
CTTGGTTCAG GATTTGGAGA GCTCACACCT TCCAAAATGG CAAACATCAC CAGCTCCCAG
ATTTTGGACC AGTTGGAAGC TCCGAGTTTG GGCCAGTTTA CCACCACCCC CAGTTCACAG
CAGAATAATA CAAGTCCTCC CACAACTGCT TCTTCTTGGG ACCTCAAGCC CTCAGCATCC
CAGTCCTCAG TCCTTAGTCA TTTTGACTTC AAATCTCAGC CTGAGCCATC CCCTGTTCTT
AGCCAACTGA GCCAACGACA GCAGCAGCAG ACTCAGGCAG TCACTGTTCC TCCTCCTGGG
TTGGAGTCCT TTCCTTCCCA GGTGAAACTC CGAGAGTCAG CACCCAGAGA CAGCAGTACC
TCCACTGTGA ACAAACTTCT GCAGCTTCCC AGCATGACTG TCGAAAACAT CGCCGTGTCT
GCTCACCAGC CACCGCCTAA ACACATCAAA CTCCCTAAGC GGCGAATACC TCCAGCTTCT
AAGATCCCAG CTTCTGCAGT GGAAATGCCT GGTTCAGCAG ATGTCACAGG ATTAAATGTC
CAGTTTGGCG CCTTGGAATT TGGATCAGAA CCTTCTCTCT CTGAATTTGG ATCAGCTGCA
AGCAGTGAAA ATAGTAGCCA GATTCCCATT AGCTTGTATT CGAAATCTTT AAGTGACTCT
TTGAATACCT CCCTAGCAGT GACCAGTGCA GTGCAAAACT CCACCCACAC AACTTCAGTC
ATTACCTCCT CCAGCCTGAC CAGCTCATCG CTGAGCTCCA CTAGTCCCGT AACAACGTCT
TCCTCCTACG ACCAGAGTTC TGTGCATGAC AGGAGTGCAT ACCAAAGCTC TATGAGTCCA
TCGGAGTCAG CTCCAGGAAC CATCACGAAT GGACATGGTG GTAGTCGAAG TCAGCAGACA
GTAGACACTC CTTCACCTGT TCCAGCTCCA AAGACAACAG ACCCTCCCTC TGCCCTCCCA
TCCGTGGGCT CCCTGCCCAG CACCACCTCC TGCACTCCGC TTCTGCCCTC TGCACCCCAG
CACACTGCCG CTCTGCCCTC CTTGTCCCAG CCTGGTGACC TGTCCAGCAG CCCCCTCTCT
CAGCTTAGCA GATCATTTCT AACCACAGAG CACCTGGACT GGGTTCCAAG GCCACACGGA
AGGAAGGATG TGAAGGGACA GGCAAGCTCG TGTGCAGCCC TCCTAGACGC GTGGGTCCCT
CGGGTGGAGT GCTGGGGGGT GCACACGCGG GGCTCTGCCT TGTCTTCCAG CTCTCTCTCC
GGCCACCAGA GCAGCCTCTC CTCTGCGCAC ACAGTGCTCT CCACCAGCAC GTCACAAACG
CTCTGCTGCA TTACATTATT TAATCAGGCC TCCTCTGATG GAACTTTAGG GCCATTTTCA
GTCTTGATAC CTTGGAAATA CTGTGGGTTC AGTTATAGAC CACCACCGTG GGAATATTGT
GGGAAACATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGTCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATATTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111457.1 CDS 14..3232 Translation
Target ORF information:
RefSeq Version XM_007111395.2 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007111395.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGTCTCCAG ACATCGCCAA ATGTTCCCTG GGAGGGAGGT GCACAGCCAC CCCAGTTGAA
AACCATTGCT TAAGAGTTAT GTTGGTAAAT CCAGCAATTG TCTTTGAATG GACATTTAAC
CCTGCGGACT ATTCAGATTC TCCATCTATA GATGGGTGTG GGACAAAACA AGTAGTTTGG
GAAGCTGCTC AGAATGGTGC AGATGAGGGA ACTGAACTGG CATCAAATGC TCAAAATGTA
GCTCAGAATC TGCCAAACAA AAATTCTTTT GGACTCAAAG GGGCCTGGAA GAATTCTGTG
GACGAGTGGA CAACGGAAGA CTGGACTGAA GATCTTTCTG AAACAAAGAT CTTCACTTCC
TCATCTGTTC CAGCAGAGCA TCTCGCCACA CCTGGGCAAA GTGTTGATCT GGTAGCCTTG
CTCCAGAAGC CTGTTCCTCA CAGTCAAGCC TCAGAAGTCA ACTCCTTTGA AACTTCCCAA
CAGCAGGGCT TTGGCCAAGC CCTTGTCTTC ACAAATTCTC AGCACAACAA TCAGATGGCA
CAAGGGACTG GCAGCTCCAC TGCTGTCAAT CCCTATCCAC CTCAGAGTCT GTCATCCGTC
CTTGGTTCAG GATTTGGAGA GCTCACACCT TCCAAAATGG CAAACATCAC CAGCTCCCAG
ATTTTGGACC AGTTGGAAGC TCCGAGTTTG GGCCAGTTTA CCACCACCCC CAGTTCACAG
CAGAATAATA CAAGTCCTCC CACAACTGCT TCTTCTTGGG ACCTCAAGCC CTCAGCATCC
CAGTCCTCAG TCCTTAGTCA TTTTGACTTC AAATCTCAGC CTGAGCCATC CCCTGTTCTT
AGCCAACTGA GCCAACGACA GCAGCAGCAG ACTCAGGCAG TCACTGTTCC TCCTCCTGGG
TTGGAGTCCT TTCCTTCCCA GGTGAAACTC CGAGAGTCAG CACCCAGAGA CAGCAGTACC
TCCACTGTGA ACAAACTTCT GCAGCTTCCC AGCATGACTG TCGAAAACAT CGCCGTGTCT
GCTCACCAGC CACCGCCTAA ACACATCAAA CTCCCTAAGC GGCGAATACC TCCAGCTTCT
AAGATCCCAG CTTCTGCAGT GGAAATGCCT GGTTCAGCAG ATGTCACAGG ATTAAATGTC
CAGTTTGGCG CCTTGGAATT TGGATCAGAA CCTTCTCTCT CTGAATTTGG ATCAGCTGCA
AGCAGTGAAA ATAGTAGCCA GATTCCCATT AGCTTGTATT CGAAATCTTT AAGTGACTCT
TTGAATACCT CCCTAGCAGT GACCAGTGCA GTGCAAAACT CCACCCACAC AACTTCAGTC
ATTACCTCCT CCAGCCTGAC CAGCTCATCG CTGAGCTCCA CTAGTCCCGT AACAACGTCT
TCCTCCTACG ACCAGAGTTC TGTGCATGAC AGGAGTGCAT ACCAAAGCTC TATGAGTCCA
TCGGAGTCAG CTCCAGGAAC CATCACGAAT GGACATGGTG GTAGTCGAAG TCAGCAGACA
GTAGACACTC CTTCACCTGT TCCAGCTCCA AAGACAACAG ACCCTCCCTC TGCCCTCCCA
TCCGTGGGCT CCCTGCCCAG CACCACCTCC TGCACTCCGC TTCTGCCCTC TGCACCCCAG
CACACTGCCG CTCTGCCCTC CTTGTCCCAG CCTGGTGACC TGTCCAGCAG CCCCCTCTCT
CAGCTTAGCA GATCATTTCT AACCACAGAG CACCTGGACT GGGTTCCAAG GCCACACGGA
AGGAAGGATG TGAAGGGACA GGCAAGCTCG TGTGCAGCCC TCCTAGACGC GTGGGTCCCT
CGGGTGGAGT GCTGGGGGGT GCACACGCGG GGCTCTGCCT TGTCTTCCAG CTCTCTCTCC
GGCCACCAGA GCAGCCTCTC CTCTGCGCAC ACAGTGCTCT CCACCAGCAC GTCACAAACG
CTCTGCTGCA TTACATTATT TAATCAGGCC TCCTCTGATG GAACTTTAGG GCCATTTTCA
GTCTTGATAC CTTGGAAATA CTGTGGGTTC AGTTATAGAC CACCACCGTG GGAATATTGT
GGGAAACATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGTCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATATTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh301972 Clone ID Related Accession (Same CDS sequence) XM_007111395.2 , XM_007111395.3 Accession Version XM_007111395.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3219bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1553011200000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X7 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041222.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Mar 21, 2019 this sequence version replaced XM_007111395.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGTCTCCAG ACATCGCCAA ATGTTCCCTG GGAGGGAGGT GCACAGCCAC CCCAGTTGAA
AACCATTGCT TAAGAGTTAT GTTGGTAAAT CCAGCAATTG TCTTTGAATG GACATTTAAC
CCTGCGGACT ATTCAGATTC TCCATCTATA GATGGGTGTG GGACAAAACA AGTAGTTTGG
GAAGCTGCTC AGAATGGTGC AGATGAGGGA ACTGAACTGG CATCAAATGC TCAAAATGTA
GCTCAGAATC TGCCAAACAA AAATTCTTTT GGACTCAAAG GGGCCTGGAA GAATTCTGTG
GACGAGTGGA CAACGGAAGA CTGGACTGAA GATCTTTCTG AAACAAAGAT CTTCACTTCC
TCATCTGTTC CAGCAGAGCA TCTCGCCACA CCTGGGCAAA GTGTTGATCT GGTAGCCTTG
CTCCAGAAGC CTGTTCCTCA CAGTCAAGCC TCAGAAGTCA ACTCCTTTGA AACTTCCCAA
CAGCAGGGCT TTGGCCAAGC CCTTGTCTTC ACAAATTCTC AGCACAACAA TCAGATGGCA
CAAGGGACTG GCAGCTCCAC TGCTGTCAAT CCCTATCCAC CTCAGAGTCT GTCATCCGTC
CTTGGTTCAG GATTTGGAGA GCTCACACCT TCCAAAATGG CAAACATCAC CAGCTCCCAG
ATTTTGGACC AGTTGGAAGC TCCGAGTTTG GGCCAGTTTA CCACCACCCC CAGTTCACAG
CAGAATAATA CAAGTCCTCC CACAACTGCT TCTTCTTGGG ACCTCAAGCC CTCAGCATCC
CAGTCCTCAG TCCTTAGTCA TTTTGACTTC AAATCTCAGC CTGAGCCATC CCCTGTTCTT
AGCCAACTGA GCCAACGACA GCAGCAGCAG ACTCAGGCAG TCACTGTTCC TCCTCCTGGG
TTGGAGTCCT TTCCTTCCCA GGTGAAACTC CGAGAGTCAG CACCCAGAGA CAGCAGTACC
TCCACTGTGA ACAAACTTCT GCAGCTTCCC AGCATGACTG TCGAAAACAT CGCCGTGTCT
GCTCACCAGC CACCGCCTAA ACACATCAAA CTCCCTAAGC GGCGAATACC TCCAGCTTCT
AAGATCCCAG CTTCTGCAGT GGAAATGCCT GGTTCAGCAG ATGTCACAGG ATTAAATGTC
CAGTTTGGCG CCTTGGAATT TGGATCAGAA CCTTCTCTCT CTGAATTTGG ATCAGCTGCA
AGCAGTGAAA ATAGTAGCCA GATTCCCATT AGCTTGTATT CGAAATCTTT AAGTGACTCT
TTGAATACCT CCCTAGCAGT GACCAGTGCA GTGCAAAACT CCACCCACAC AACTTCAGTC
ATTACCTCCT CCAGCCTGAC CAGCTCATCG CTGAGCTCCA CTAGTCCCGT AACAACGTCT
TCCTCCTACG ACCAGAGTTC TGTGCATGAC AGGAGTGCAT ACCAAAGCTC TATGAGTCCA
TCGGAGTCAG CTCCAGGAAC CATCACGAAT GGACATGGTG GTAGTCGAAG TCAGCAGACA
GTAGACACTC CTTCACCTGT TCCAGCTCCA AAGACAACAG ACCCTCCCTC TGCCCTCCCA
TCCGTGGGCT CCCTGCCCAG CACCACCTCC TGCACTCCGC TTCTGCCCTC TGCACCCCAG
CACACTGCCG CTCTGCCCTC CTTGTCCCAG CCTGGTGACC TGTCCAGCAG CCCCCTCTCT
CAGCTTAGCA GATCATTTCT AACCACAGAG CACCTGGACT GGGTTCCAAG GCCACACGGA
AGGAAGGATG TGAAGGGACA GGCAAGCTCG TGTGCAGCCC TCCTAGACGC GTGGGTCCCT
CGGGTGGAGT GCTGGGGGGT GCACACGCGG GGCTCTGCCT TGTCTTCCAG CTCTCTCTCC
GGCCACCAGA GCAGCCTCTC CTCTGCGCAC ACAGTGCTCT CCACCAGCAC GTCACAAACG
CTCTGCTGCA TTACATTATT TAATCAGGCC TCCTCTGATG GAACTTTAGG GCCATTTTCA
GTCTTGATAC CTTGGAAATA CTGTGGGTTC AGTTATAGAC CACCACCGTG GGAATATTGT
GGGAAACATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGTCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATATTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007111457.1 CDS 16..3234 Translation
Target ORF information:
RefSeq Version XM_007111395.3 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X7, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_007111395.3
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181ATGTCTCCAG ACATCGCCAA ATGTTCCCTG GGAGGGAGGT GCACAGCCAC CCCAGTTGAA
AACCATTGCT TAAGAGTTAT GTTGGTAAAT CCAGCAATTG TCTTTGAATG GACATTTAAC
CCTGCGGACT ATTCAGATTC TCCATCTATA GATGGGTGTG GGACAAAACA AGTAGTTTGG
GAAGCTGCTC AGAATGGTGC AGATGAGGGA ACTGAACTGG CATCAAATGC TCAAAATGTA
GCTCAGAATC TGCCAAACAA AAATTCTTTT GGACTCAAAG GGGCCTGGAA GAATTCTGTG
GACGAGTGGA CAACGGAAGA CTGGACTGAA GATCTTTCTG AAACAAAGAT CTTCACTTCC
TCATCTGTTC CAGCAGAGCA TCTCGCCACA CCTGGGCAAA GTGTTGATCT GGTAGCCTTG
CTCCAGAAGC CTGTTCCTCA CAGTCAAGCC TCAGAAGTCA ACTCCTTTGA AACTTCCCAA
CAGCAGGGCT TTGGCCAAGC CCTTGTCTTC ACAAATTCTC AGCACAACAA TCAGATGGCA
CAAGGGACTG GCAGCTCCAC TGCTGTCAAT CCCTATCCAC CTCAGAGTCT GTCATCCGTC
CTTGGTTCAG GATTTGGAGA GCTCACACCT TCCAAAATGG CAAACATCAC CAGCTCCCAG
ATTTTGGACC AGTTGGAAGC TCCGAGTTTG GGCCAGTTTA CCACCACCCC CAGTTCACAG
CAGAATAATA CAAGTCCTCC CACAACTGCT TCTTCTTGGG ACCTCAAGCC CTCAGCATCC
CAGTCCTCAG TCCTTAGTCA TTTTGACTTC AAATCTCAGC CTGAGCCATC CCCTGTTCTT
AGCCAACTGA GCCAACGACA GCAGCAGCAG ACTCAGGCAG TCACTGTTCC TCCTCCTGGG
TTGGAGTCCT TTCCTTCCCA GGTGAAACTC CGAGAGTCAG CACCCAGAGA CAGCAGTACC
TCCACTGTGA ACAAACTTCT GCAGCTTCCC AGCATGACTG TCGAAAACAT CGCCGTGTCT
GCTCACCAGC CACCGCCTAA ACACATCAAA CTCCCTAAGC GGCGAATACC TCCAGCTTCT
AAGATCCCAG CTTCTGCAGT GGAAATGCCT GGTTCAGCAG ATGTCACAGG ATTAAATGTC
CAGTTTGGCG CCTTGGAATT TGGATCAGAA CCTTCTCTCT CTGAATTTGG ATCAGCTGCA
AGCAGTGAAA ATAGTAGCCA GATTCCCATT AGCTTGTATT CGAAATCTTT AAGTGACTCT
TTGAATACCT CCCTAGCAGT GACCAGTGCA GTGCAAAACT CCACCCACAC AACTTCAGTC
ATTACCTCCT CCAGCCTGAC CAGCTCATCG CTGAGCTCCA CTAGTCCCGT AACAACGTCT
TCCTCCTACG ACCAGAGTTC TGTGCATGAC AGGAGTGCAT ACCAAAGCTC TATGAGTCCA
TCGGAGTCAG CTCCAGGAAC CATCACGAAT GGACATGGTG GTAGTCGAAG TCAGCAGACA
GTAGACACTC CTTCACCTGT TCCAGCTCCA AAGACAACAG ACCCTCCCTC TGCCCTCCCA
TCCGTGGGCT CCCTGCCCAG CACCACCTCC TGCACTCCGC TTCTGCCCTC TGCACCCCAG
CACACTGCCG CTCTGCCCTC CTTGTCCCAG CCTGGTGACC TGTCCAGCAG CCCCCTCTCT
CAGCTTAGCA GATCATTTCT AACCACAGAG CACCTGGACT GGGTTCCAAG GCCACACGGA
AGGAAGGATG TGAAGGGACA GGCAAGCTCG TGTGCAGCCC TCCTAGACGC GTGGGTCCCT
CGGGTGGAGT GCTGGGGGGT GCACACGCGG GGCTCTGCCT TGTCTTCCAG CTCTCTCTCC
GGCCACCAGA GCAGCCTCTC CTCTGCGCAC ACAGTGCTCT CCACCAGCAC GTCACAAACG
CTCTGCTGCA TTACATTATT TAATCAGGCC TCCTCTGATG GAACTTTAGG GCCATTTTCA
GTCTTGATAC CTTGGAAATA CTGTGGGTTC AGTTATAGAC CACCACCGTG GGAATATTGT
GGGAAACATG CCGGCGTGGA GAGCGCCCCT TCCCTCCAGT CCTCAGCCAC CTTCTCAACG
GCAGCAACCT GTGCCTCGAG TGCCGCGTCC TCAGGGCTCA GCCTGCCGAG CAGCATGAAC
ACGGTCAACA GCCTCTGCCT GGGTGGTACC GCTGTGAGTG CCCCCAGCAG CAGTGCCAGG
GCCACGCCCT TGGTGACCTC AGGCAAAGCG CCCCCCAGCC TGCCCCAGGG GGCGCCTCCC
CTGCTGCACA GCCAGTACCT CGTGGGCCCC GGAGGACTGC TTCCTGCCTA CCCGATTTAT
GGCTATGACG AGCTCCAGAT GCTGCAGTCA CGGCTGCCGA TGGATTACTA TGGGATTCCT
TTCGCTACAC CCGCAGCCCT CGCCAGTCGA GATGGGAGCC TCGCTAATAA TCTCTATTCA
GGTGATGTCA CAAAGTTTGG CCGAGGAGAC TCTGCATCCC CTGCACCTGC CACCACCCTG
GCTCAGCCCC AGCAGAGCCA GTCCCAGGCC CACCACACAG CCCAGCAGCC CTTTCTGAAC
CCTGCCCTGC CACCTGGCTA CAGCTACACT GGTCTCCCCT ACTATACAGG CGTACCCAGT
GCCTTCCAGT ATGGGCCCAC CGTGTTTGTC CCCCCGGCCT CAGCCAAGCA GCACAGTGTG
AGCCTCAGCA GCCCCACCAC CCCCTTCCAG CAGGCCAGTG GCTATGGCCA GCACAGCTAC
AGCGCAGGTT ACGATGACGT GAGCCAGGGG GCAGCAGCGG GAGACTACAC CAAGGGTGGC
TATGGTGGAT CATCGCAGGC ACAGAGCAAG TCTGCAGGTT CTGGGCCTGG CAAAGGAGTG
TCGGTGTCTT CAAGCGCCCC CGGCCTCGCT GACGTGACTG GGTCCGTCTA CAGCAAGACT
CAGACTTACG ACAGGCAGGG ATTTCACGCA GGGACCCCGC CACCGTTCAG CCTGCCCTCG
GCCTTGGGCT CCCCTGGGCC CCTGGGCCCC GGTTACGCGC CCTCACCGCT TGTGCACGTC
CTGCCCGCCC ACCAGCAGCC TCACTCACAG CTGCTGCACC ACCACCTCCC GCAGGACACT
CAGAGTGGCT CCGGTCAGCG CAGCCAGCCC AGCTCCCTGC AGCCCAAGTC GCAAGCCTCC
AAACCTGCCT ATGGCAACTC TCCATATTGG ACAAACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh331735 Clone ID Related Accession (Same CDS sequence) XM_028494059.1 Accession Version XM_028494059.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3345bp)
Protein sequence
SNPVector pcDNA3.1-C-(k)DYK or customized vector User ManualClone information Clone Map MSDSTag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags ORF Insert Method CloneEZ™ Seamless cloning technology Insert Structure linear Update Date 1553011200000 Organism Physeter catodon(sperm whale) Product ubiquitin-associated protein 2 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041222.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Physeter catodon Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGAGCA
CCTGGACTGG GTTCCAAGGC CACACGGAAG GAAGGATGTG AAGGGACAGG CAAGCTCGTG
TGCAGCCCTC CTAGACGCGT GGGTCCCTCG GGTGGAGTGC TGGGGGGTGC ACACGCGGGG
CTCTGCCTTG TCTTCCAGCT CTCTCTCCGG CCACCAGAGC AGCCTCTCCT CTGCGCACAC
AGTGCTCTCC ACCAGCACGT CACAAACGGC AAAGCGCCCC CCAGCCTGCC CCAGGGGGCG
CCTCCCCTGC TGCACAGCCA GTACCTCGTG GGCCCCGGAG GACTGCTTCC TGCCTACCCG
ATTTATGGCT ATGACGAGCT CCAGATGCTG CAGTCACGGC TGCCGATGGA TTACTATGGG
ATTCCTTTCG CTACACCCGC AGCCCTCGCC AGTCGAGATG GGAGCCTCGC TAATAATCTC
TATTCAGGTG ATGTCACAAA GTTTGGCCGA GGAGACTCTG CATCCCCTGC ACCTGCCACC
ACCCTGGCTC AGCCCCAGCA GAGCCAGTCC CAGGCCCACC ACACAGCCCA GCAGCCCTTT
CTGAACCCTG CCCTGCCACC TGGCTACAGC TACACTGGTC TCCCCTACTA TACAGGCGTA
CCCAGTGCCT TCCAGTATGG GCCCACCGTG TTTGTCCCCC CGGCCTCAGC CAAGCAGCAC
AGTGTGAGCC TCAGCAGCCC CACCACCCCC TTCCAGCAGG CCAGTGGCTA TGGCCAGCAC
AGCTACAGCG CAGGTTACGA TGACGTGAGC CAGGGGGCAG CAGCGGGAGA CTACACCAAG
GGTGGCTATG GTGGATCATC GCAGGCACAG AGCAAGTCTG CAGGTTCTGG GCCTGGCAAA
GGAGTGTCGG TGTCTTCAAG CGCCCCCGGC CTCGCTGACG TGACTGGGTC CGTCTACAGC
AAGACTCAGA CTTACGACAG GCAGGGATTT CACGCAGGGA CCCCGCCACC GTTCAGCCTG
CCCTCGGCCT TGGGCTCCCC TGGGCCCCTG GGCCCCGGTT ACGCGCCCTC ACCGCTTGTG
CACGTCCTGC CCGCCCACCA GCAGCCTCAC TCACAGCTGC TGCACCACCA CCTCCCGCAG
GACACTCAGA GTGGCTCCGG TCAGCGCAGC CAGCCCAGCT CCCTGCAGCC CAAGTCGCAA
GCCTCCAAAC CTGCCTATGG CAACTCTCCA TATTGGACAA ACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028349860.1 CDS 42..3386 Translation
Target ORF information:
RefSeq Version XM_028494059.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon ubiquitin associated protein 2 (UBAP2), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028494059.1
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGATGACTT CGGTGAGCAG TGACCGGTCC AGAGGTGCTC GGGAAAAGCC ACAGATTTCA
GCGACACAGG CAACACAACT GCAGAAACAA GTGGTACAGG CAACAGCTGA ACAGATGCGT
CTCGCTCAAG TGATCTTTGA TAAAAATGAT TCAGAGTTTG AAGCTAAAGT TAAACAGCTT
ATGGAGGTGA CAGGAAAGAA TCAGGATGAA TGCATAGTGG CTCTGCATGA CTGTAATGGA
GATGTCAACA AAGCTATCAA TACATTGCTG GAAGGGAATT CAGACACCAC TTCATGGGAG
ACTGTAGGAG GGAAGAAGAA GAATTTTGGA AAAGAAAGTT CAGAAAACAA AGAGAATAGA
GAGAAGAGAA GTGAGAGAGA AGTGAGCCGT GGACGCGGAA GCAACAACCG GAAAGTAAGA
GGTGGCAATC GTGGGAGAGA GTTTAGAGGT GAAGAGAATG GAATTGATTG CAATCAAGGG
GACAAGCCTT CAGACCGTGG CAAGAGAGCT CGTGGTAGAG GGTTTGGACG TGGCAGAGGG
AGAGGGGCAG GAAGATTCTC AACGCAAAGC ATGGGGACAT TTAACCCTGC GGACTATTCA
GATTCTCCAT CTATAGATGG GTGTGGGACA AAACAAGTAG TTTGGGAAGC TGCTCAGAAT
GGTGCAGATG AGGGAACTGA ACTGGCATCA AATGCTCAAA ATGTAGCTCA GAATCTGCCA
AACAAAAATT CTTTTGGACT CAAAGGGGCC TGGAAGAATT CTGTGGACGA GTGGACAACG
GAAGACTGGA CTGAAGATCT TTCTGAAACA AAGATCTTCA CTTCCTCATC TGTTCCAGCA
GAGCATCTCG CCACACCTGG GCAAAGTGTT GATCTGGTAG CCTTGCTCCA GAAGCCTGTT
CCTCACAGTC AAGCCTCAGA AGTCAACTCC TTTGAAACTT CCCAACAGCA GGGCTTTGGC
CAAGCCCTTG TCTTCACAAA TTCTCAGCAC AACAATCAGA TGGCACAAGG GACTGGCAGC
TCCACTGCTG TCAATCCCTA TCCACCTCAG AGTCTGTCAT CCGTCCTTGG TTCAGGATTT
GGAGAGCTCA CACCTTCCAA AATGGCAAAC ATCACCAGCT CCCAGATTTT GGACCAGTTG
GAAGCTCCGA GTTTGGGCCA GTTTACCACC ACCCCCAGTT CACAGCAGAA TAATACAAGT
CCTCCCACAA CTGCTTCTTC TTGGGACCTC AAGCCCTCAG CATCCCAGTC CTCAGTCCTT
AGTCATTTTG ACTTCAAATC TCAGCCTGAG CCATCCCCTG TTCTTAGCCA ACTGAGCCAA
CGACAGCAGC AGCAGACTCA GGCAGTCACT GTTCCTCCTC CTGGGTTGGA GTCCTTTCCT
TCCCAGGTGA AACTCCGAGA GTCAGCACCC AGAGACAGCA GTACCTCCAC TGTGAACAAA
CTTCTGCAGC TTCCCAGCAT GACTGTCGAA AACATCGCCG TGTCTGCTCA CCAGCCACCG
CCTAAACACA TCAAACTCCC TAAGCGGCGA ATACCTCCAG CTTCTAAGAT CCCAGCTTCT
GCAGTGGAAA TGCCTGGTTC AGCAGATGTC ACAGGATTAA ATGTCCAGTT TGGCGCCTTG
GAATTTGGAT CAGAACCTTC TCTCTCTGAA TTTGGATCAG CTGCAAGCAG TGAAAATAGT
AGCCAGATTC CCATTAGCTT GTATTCGAAA TCTTTAAGTG ACTCTTTGAA TACCTCCCTA
GCAGTGACCA GTGCAGTGCA AAACTCCACC CACACAACTT CAGTCATTAC CTCCTCCAGC
CTGACCAGCT CATCGCTGAG CTCCACTAGT CCCGTAACAA CGTCTTCCTC CTACGACCAG
AGTTCTGTGC ATGACAGGAG TGCATACCAA AGCTCTATGA GTCCATCGGA GTCAGCTCCA
GGAACCATCA CGAATGGACA TGGTGGTAGT CGAAGTCAGC AGACAGTAGA CACTCCTTCA
CCTGTTCCAG CTCCAAAGAC AACAGACCCT CCCTCTGCCC TCCCATCCGT GGGCTCCCTG
CCCAGCACCA CCTCCTGCAC TCCGCTTCTG CCCTCTGCAC CCCAGCACAC TGCCGCTCTG
CCCTCCTTGT CCCAGCCTGG TGACCTGTCC AGCAGCCCCC TCTCTCAGCT TAGCAGAGCA
CCTGGACTGG GTTCCAAGGC CACACGGAAG GAAGGATGTG AAGGGACAGG CAAGCTCGTG
TGCAGCCCTC CTAGACGCGT GGGTCCCTCG GGTGGAGTGC TGGGGGGTGC ACACGCGGGG
CTCTGCCTTG TCTTCCAGCT CTCTCTCCGG CCACCAGAGC AGCCTCTCCT CTGCGCACAC
AGTGCTCTCC ACCAGCACGT CACAAACGGC AAAGCGCCCC CCAGCCTGCC CCAGGGGGCG
CCTCCCCTGC TGCACAGCCA GTACCTCGTG GGCCCCGGAG GACTGCTTCC TGCCTACCCG
ATTTATGGCT ATGACGAGCT CCAGATGCTG CAGTCACGGC TGCCGATGGA TTACTATGGG
ATTCCTTTCG CTACACCCGC AGCCCTCGCC AGTCGAGATG GGAGCCTCGC TAATAATCTC
TATTCAGGTG ATGTCACAAA GTTTGGCCGA GGAGACTCTG CATCCCCTGC ACCTGCCACC
ACCCTGGCTC AGCCCCAGCA GAGCCAGTCC CAGGCCCACC ACACAGCCCA GCAGCCCTTT
CTGAACCCTG CCCTGCCACC TGGCTACAGC TACACTGGTC TCCCCTACTA TACAGGCGTA
CCCAGTGCCT TCCAGTATGG GCCCACCGTG TTTGTCCCCC CGGCCTCAGC CAAGCAGCAC
AGTGTGAGCC TCAGCAGCCC CACCACCCCC TTCCAGCAGG CCAGTGGCTA TGGCCAGCAC
AGCTACAGCG CAGGTTACGA TGACGTGAGC CAGGGGGCAG CAGCGGGAGA CTACACCAAG
GGTGGCTATG GTGGATCATC GCAGGCACAG AGCAAGTCTG CAGGTTCTGG GCCTGGCAAA
GGAGTGTCGG TGTCTTCAAG CGCCCCCGGC CTCGCTGACG TGACTGGGTC CGTCTACAGC
AAGACTCAGA CTTACGACAG GCAGGGATTT CACGCAGGGA CCCCGCCACC GTTCAGCCTG
CCCTCGGCCT TGGGCTCCCC TGGGCCCCTG GGCCCCGGTT ACGCGCCCTC ACCGCTTGTG
CACGTCCTGC CCGCCCACCA GCAGCCTCAC TCACAGCTGC TGCACCACCA CCTCCCGCAG
GACACTCAGA GTGGCTCCGG TCAGCGCAGC CAGCCCAGCT CCCTGCAGCC CAAGTCGCAA
GCCTCCAAAC CTGCCTATGG CAACTCTCCA TATTGGACAA ACTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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- α-Hemolysin derived from Staphylococcus aureus Promotes Inflammation Resolution through Generation of Specialized Pro-resolving Mediators
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PubMed
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