| Gene Symbol | RBM20 |
| Entrez Gene ID | 102980182 |
| Full Name | RNA binding motif protein 20 |
| Gene Type | protein-coding |
| Organism | Physeter catodon(sperm whale) |
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RBM20 cDNA ORF clone, Physeter catodon(sperm whale)
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Gene
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Clones
gRNAs
The following RBM20 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the RBM20 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 OPh120763 Clone ID Related Accession (Same CDS sequence) XM_007112100.1 Accession Version XM_007112100.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3534bp)
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 RNA-binding protein 20 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006714233.1) 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
3481ATGCAGCCGC CGCCACCGCC TCCGCCCCAA GCCGGCCTAC CCCAGATCAT CCAAAATGCC
GCCAAGCTCC TGGACAAGAC CCCGTTCTCG GTCAGTAACC CAAGCCCGCT GCTTCCTTCG
CCCGCGAGCC TCCAGCTGGC TCAGCTGCAA GCTCAGCTCA CCCTCCACCG GCTAAAGCTG
GCACAGACGG CCGTCACCAA CAACACCGCG GCCGCCACCG TCCTGAACCA AGTCCTCTCC
AAAGTGGCCA TGTCCCAGCC TCTCTTCAAC CAGTTGAGGC ATCCGTCCAT GATCAGCTCC
CCCCATGGCC ACACCGGGGT GCCCCAACAC GCAGCAACCA TGCCCAGTGC CCGTTTTCCC
TCTAATGCAA TTGCCTTCTC GCCCCCGGGC CAGACACGAG GCCCAGGGCC CTCTGTGAGC
CTTCCCAGCC AGCCCCCCAA TGCCATTGTG ATGCACCCTT TCAGCGGGGT CATGCCTCAG
ACCCCTGCCC AGCCAGCAGT CATCTTGGGC ATTGGCAAGA CTGGGCCCAC CCCTGCTGCA
GCGGGATTCT ACGAGTATGG CAAAGCCAAC TCGGGCCAGG CATATGGCTC TGAAACTGAT
GGTCAGCCCA GTTTCCTGCC AGCCTCGGCC TCTACCTCGG GCAGCGTGAC CTATGAAGGG
CACTACAGCC ACTCAGGGCA AGATGGCCAA GCCGCCTTTC CCAAGGACTT CTACGGACCC
AACGCCCAAG GGTCGCAGGT GGCAGGTGGA TTTGCGGCTG AGCCGGCCGG GGGCTTGAAA
GGCGAGGTAG GTCCGCTGCT GCAGGGTCCG AACAGCCAGT GGGAGAGCCC CCATGGATTC
TCTGGCCAAA GCAAGCCCGA TCTTAGAGCA GTCCCCAACC TGTGGCCTCC AGCCCCCAGC
CAGCCCTATG AGCTGTATGA CCCCGAGGAG CCCACCCCAG ACAGGACCCC TCCTTCCTTT
GGGGGTCGGC TCAACAACAG CAAACAGGGT TTCAGCGGAG CCTGGCGGCG GGCCACGGAG
GAGCAGGCGA CGCTGTCCGT GCGGCCCTTG CAGGCGCATG AGCTGAATGA CTTTCACGGT
GTGGCCCCCC TCCACCTGCC CCACGTCTGT AGCATCTGCG ACAAGAAGGT GTTTGATCTG
AAGGACTGGG AGCTGCATGT AAAAGGGAAA CTACACGCTC AGAAATGCCT GCTCTTCTCT
GAAAACGCCG CTGTCCGGTG TGTACTCGGT TCAGCAGAGG GAACACTGTG TGCCTCTCCC
AACAGCACAG CCGTTTATAA CCCTGCTGGG AACGAAGATT ACTCCTCAAA TCTTGGAACA
TCATATGCGG CCATTCCTGC GAGGTCATTT ACTCAGTCAA ATCCCGCATT CCCTTCAGCT
TCCCCAGGGA CAAATTTTGC GCAGCGGAAA ACGGGTGCTG GCCGCGTGGT ACACATCTGC
AATCTGCCGG AGGGAAGCTG CACCGAGAAT GACGTCATTA ACCTGGGGCT GCCCTTTGGA
AAGGTCACTA ATTACATCCT CATGAAGTCT ACTAATCAGG CCTTTTTAGA GATGGCTTAC
ACAGAGGCTG CCCAGGCCAT GGTCCAGTAT TACCAAGAAA AATCTGCCAT GATCAATGGT
GAGAAGTTGC TCATTCGGAT GTCCAAGAGA TACAAGGAAT TGCAGCTGAA GAAACCTGGG
AAAACCGTGG CTGCCATCAT CCAGGACATC CATTCCCAGA GGGAGAGGGA CATGTTCCGG
GAAGCAGACA GATACGGCCC AGAAAGGCCA AGATCTCGAA GTCCGGTGAG CCGGTCATTG
TCCCCGAGGT CCCACACTCC GAGCTTCACC TCCTGCAGCT CTTCTCACAG CCCCCCGGGC
CCCTCTCGGG CCGACTGGGG CAACGGCCGG GACTCGTGGG AGCACTCTCC CTACGCCAGG
AGGGAGGAAG AGCGAGGCCC GGTCCCCTGG AGGGAGAACG GGGAGGACAA GAGGGACAGG
ACGGACACGT GGGCGCATGA CCGCAAACAG TACCCCCGGC AACTGGACAA GGCCGAGTTA
GATGAGCGAC TGGAAGGAGG GAGGGGCTAC CGAGACAGGC ACCCGAGGTC TGGGTCCCCC
AACCCGCTCC ACTCCGCGTC GGGATACAAA AGCCGAGAAG ACGGCTACTA CCGCAAAGAG
TCCAAGGGCA AATCGGACAA GTATCTGAAG CAGCAGCAGG ATGTCCCTGG GAGGTCCAGG
AGGAAAGATG AGGCCAGGCT GCGGGAAGGC AGACACCCCC CGCCTGACGA CTCGGGCAGG
GAAGACGGGC TGGAACCGAA GGGCACCAAG TCGAAGCAGA GTGAGAAAAC CAGAACCAAG
AGACCTGATA GAGACCAAGA CGGAGCTGAT AGGAAAGAAA GCAGAATGGC AGAGAATGAG
GCTGAAAAAG AGGAACAGGA CAGCATGGAA GAGAGACCCC TGCATCTGGG CAGGCAGGAG
AAAGAAACAG AGTCCTCTGA TGCAGAGAAC AAAAAGGCAA GGAAGGAGCA AGATTCGGAA
AGTGGAAGTG AGGCAGAGGG GGAGAGCTGG TGCCCCACGA ACATGGAAGA GCTGGTTACA
GTGGACGAGG TGGGGGAGGA AGAAGATTTT ATCATGGAAC CGGACATCCC AGAACTGGAG
GAAATTGTGC CCATTGAACA GAAGGACAAA ATCTGTCCAG AAATATGTCC CTGTGTGACA
ACCACCTTAG ACCTGGACTT AGCCAAAGAG TTCACCAAGG AGGGAGTCAA GACCGTAGGT
AATGAGGCTG CGGAAATCAG CCTCAAGTCG CCCAAAGAGC TGCCTTCTGC TTCCATGAGC
TGTCCCCGTG ACATGGACGT GGAAACGCCT GGCCTAAATC TGGATGTTGA GCGGAAGCCA
GCTGAATGCG AGACGGGCCT CTCACTGGCG GGCTCAGATT GCTACGAGAA GCAGGCAAAG
GGAGGAGAGA GCTCAGATGT TCGTCTGGCC CCTACACTCC AGCAAATGTC TTCCCCCAGG
CCAGCAGAGG AGAGGGCCTG GCAGCCTGGC CCCTTTCTTG ATGACTGTAA GGCCAGGGAG
ACCCTGGAAG ATGGGGCTGG TGAAGGCAGC CCCTTGGAGG AGAAAGCCAG CCCCCTCACC
GAAACAGACC TCCAAAGCCA GCCTTGCCAA GGGGTGTCGA CCCAGGATAA CTCCAGGTAC
ATGGAAATGA AATCTCTGGA CGTGAGGTCA CTGGAATACG CTGAAGTGGA GCTGAAACAG
CCCCTTTCTT TGCCTTCCTG GGAACCTGAG GATGTGTTCA GTGAACTTAG CATTCCTCTA
GGGGTGGAGT TCGTGGTGCC CAGGACCGGC TTTTATTGCA AACTGTGCGG GCTGTTCTAC
ACGAGCGAGG AGATGGCAAA GATGAGCCAC TGTCGCAGTG CTGTCCACTA CCGGAACTTA
CAGAAGTACT TGTCCCAGCT GGCCGAGGAG GGCCTGATGG AGACCGAGGG GGCAGGCAGC
CCTCGGCCCG AGGACAGCAG AATCGTGCCG CACTTTGAAA GGAAAAAGCT TTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_007112162.1 CDS 5..3538 Translation 
Target ORF information:
RefSeq Version XM_007112100.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon RNA binding motif protein 20 (RBM20), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_007112100.1
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
3481ATGCAGCCGC CGCCACCGCC TCCGCCCCAA GCCGGCCTAC CCCAGATCAT CCAAAATGCC
GCCAAGCTCC TGGACAAGAC CCCGTTCTCG GTCAGTAACC CAAGCCCGCT GCTTCCTTCG
CCCGCGAGCC TCCAGCTGGC TCAGCTGCAA GCTCAGCTCA CCCTCCACCG GCTAAAGCTG
GCACAGACGG CCGTCACCAA CAACACCGCG GCCGCCACCG TCCTGAACCA AGTCCTCTCC
AAAGTGGCCA TGTCCCAGCC TCTCTTCAAC CAGTTGAGGC ATCCGTCCAT GATCAGCTCC
CCCCATGGCC ACACCGGGGT GCCCCAACAC GCAGCAACCA TGCCCAGTGC CCGTTTTCCC
TCTAATGCAA TTGCCTTCTC GCCCCCGGGC CAGACACGAG GCCCAGGGCC CTCTGTGAGC
CTTCCCAGCC AGCCCCCCAA TGCCATTGTG ATGCACCCTT TCAGCGGGGT CATGCCTCAG
ACCCCTGCCC AGCCAGCAGT CATCTTGGGC ATTGGCAAGA CTGGGCCCAC CCCTGCTGCA
GCGGGATTCT ACGAGTATGG CAAAGCCAAC TCGGGCCAGG CATATGGCTC TGAAACTGAT
GGTCAGCCCA GTTTCCTGCC AGCCTCGGCC TCTACCTCGG GCAGCGTGAC CTATGAAGGG
CACTACAGCC ACTCAGGGCA AGATGGCCAA GCCGCCTTTC CCAAGGACTT CTACGGACCC
AACGCCCAAG GGTCGCAGGT GGCAGGTGGA TTTGCGGCTG AGCCGGCCGG GGGCTTGAAA
GGCGAGGTAG GTCCGCTGCT GCAGGGTCCG AACAGCCAGT GGGAGAGCCC CCATGGATTC
TCTGGCCAAA GCAAGCCCGA TCTTAGAGCA GTCCCCAACC TGTGGCCTCC AGCCCCCAGC
CAGCCCTATG AGCTGTATGA CCCCGAGGAG CCCACCCCAG ACAGGACCCC TCCTTCCTTT
GGGGGTCGGC TCAACAACAG CAAACAGGGT TTCAGCGGAG CCTGGCGGCG GGCCACGGAG
GAGCAGGCGA CGCTGTCCGT GCGGCCCTTG CAGGCGCATG AGCTGAATGA CTTTCACGGT
GTGGCCCCCC TCCACCTGCC CCACGTCTGT AGCATCTGCG ACAAGAAGGT GTTTGATCTG
AAGGACTGGG AGCTGCATGT AAAAGGGAAA CTACACGCTC AGAAATGCCT GCTCTTCTCT
GAAAACGCCG CTGTCCGGTG TGTACTCGGT TCAGCAGAGG GAACACTGTG TGCCTCTCCC
AACAGCACAG CCGTTTATAA CCCTGCTGGG AACGAAGATT ACTCCTCAAA TCTTGGAACA
TCATATGCGG CCATTCCTGC GAGGTCATTT ACTCAGTCAA ATCCCGCATT CCCTTCAGCT
TCCCCAGGGA CAAATTTTGC GCAGCGGAAA ACGGGTGCTG GCCGCGTGGT ACACATCTGC
AATCTGCCGG AGGGAAGCTG CACCGAGAAT GACGTCATTA ACCTGGGGCT GCCCTTTGGA
AAGGTCACTA ATTACATCCT CATGAAGTCT ACTAATCAGG CCTTTTTAGA GATGGCTTAC
ACAGAGGCTG CCCAGGCCAT GGTCCAGTAT TACCAAGAAA AATCTGCCAT GATCAATGGT
GAGAAGTTGC TCATTCGGAT GTCCAAGAGA TACAAGGAAT TGCAGCTGAA GAAACCTGGG
AAAACCGTGG CTGCCATCAT CCAGGACATC CATTCCCAGA GGGAGAGGGA CATGTTCCGG
GAAGCAGACA GATACGGCCC AGAAAGGCCA AGATCTCGAA GTCCGGTGAG CCGGTCATTG
TCCCCGAGGT CCCACACTCC GAGCTTCACC TCCTGCAGCT CTTCTCACAG CCCCCCGGGC
CCCTCTCGGG CCGACTGGGG CAACGGCCGG GACTCGTGGG AGCACTCTCC CTACGCCAGG
AGGGAGGAAG AGCGAGGCCC GGTCCCCTGG AGGGAGAACG GGGAGGACAA GAGGGACAGG
ACGGACACGT GGGCGCATGA CCGCAAACAG TACCCCCGGC AACTGGACAA GGCCGAGTTA
GATGAGCGAC TGGAAGGAGG GAGGGGCTAC CGAGACAGGC ACCCGAGGTC TGGGTCCCCC
AACCCGCTCC ACTCCGCGTC GGGATACAAA AGCCGAGAAG ACGGCTACTA CCGCAAAGAG
TCCAAGGGCA AATCGGACAA GTATCTGAAG CAGCAGCAGG ATGTCCCTGG GAGGTCCAGG
AGGAAAGATG AGGCCAGGCT GCGGGAAGGC AGACACCCCC CGCCTGACGA CTCGGGCAGG
GAAGACGGGC TGGAACCGAA GGGCACCAAG TCGAAGCAGA GTGAGAAAAC CAGAACCAAG
AGACCTGATA GAGACCAAGA CGGAGCTGAT AGGAAAGAAA GCAGAATGGC AGAGAATGAG
GCTGAAAAAG AGGAACAGGA CAGCATGGAA GAGAGACCCC TGCATCTGGG CAGGCAGGAG
AAAGAAACAG AGTCCTCTGA TGCAGAGAAC AAAAAGGCAA GGAAGGAGCA AGATTCGGAA
AGTGGAAGTG AGGCAGAGGG GGAGAGCTGG TGCCCCACGA ACATGGAAGA GCTGGTTACA
GTGGACGAGG TGGGGGAGGA AGAAGATTTT ATCATGGAAC CGGACATCCC AGAACTGGAG
GAAATTGTGC CCATTGAACA GAAGGACAAA ATCTGTCCAG AAATATGTCC CTGTGTGACA
ACCACCTTAG ACCTGGACTT AGCCAAAGAG TTCACCAAGG AGGGAGTCAA GACCGTAGGT
AATGAGGCTG CGGAAATCAG CCTCAAGTCG CCCAAAGAGC TGCCTTCTGC TTCCATGAGC
TGTCCCCGTG ACATGGACGT GGAAACGCCT GGCCTAAATC TGGATGTTGA GCGGAAGCCA
GCTGAATGCG AGACGGGCCT CTCACTGGCG GGCTCAGATT GCTACGAGAA GCAGGCAAAG
GGAGGAGAGA GCTCAGATGT TCGTCTGGCC CCTACACTCC AGCAAATGTC TTCCCCCAGG
CCAGCAGAGG AGAGGGCCTG GCAGCCTGGC CCCTTTCTTG ATGACTGTAA GGCCAGGGAG
ACCCTGGAAG ATGGGGCTGG TGAAGGCAGC CCCTTGGAGG AGAAAGCCAG CCCCCTCACC
GAAACAGACC TCCAAAGCCA GCCTTGCCAA GGGGTGTCGA CCCAGGATAA CTCCAGGTAC
ATGGAAATGA AATCTCTGGA CGTGAGGTCA CTGGAATACG CTGAAGTGGA GCTGAAACAG
CCCCTTTCTT TGCCTTCCTG GGAACCTGAG GATGTGTTCA GTGAACTTAG CATTCCTCTA
GGGGTGGAGT TCGTGGTGCC CAGGACCGGC TTTTATTGCA AACTGTGCGG GCTGTTCTAC
ACGAGCGAGG AGATGGCAAA GATGAGCCAC TGTCGCAGTG CTGTCCACTA CCGGAACTTA
CAGAAGTACT TGTCCCAGCT GGCCGAGGAG GGCCTGATGG AGACCGAGGG GGCAGGCAGC
CCTCGGCCCG AGGACAGCAG AATCGTGCCG CACTTTGAAA GGAAAAAGCT TTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh289811 Clone ID Related Accession (Same CDS sequence) XM_024121160.1 Accession Version XM_024121160.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3960bp)
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 RNA-binding protein 20 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_019873556.1) 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## ##RefSeq-Attributes-START## ab initio :: 7% of CDS bases ##RefSeq-Attributes-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
3661
3721
3781
3841
3901ATGGCCAGTT TGGAGAGCCC TCGGGTCCGT CGCGGGAAGG TGCCAAGCCC CGCGCACTTT
GCGCTGGCGA AGAGCGCAGA CGCCCGGGGC GCGCTCGGTC CGCCCCGCTT GGCAGGAGCG
CGCGAAGCCG CGCGCGCGGT CCCCGGGGAT AACCCGGAGG CCGCCCGGCT AGCGGGAGAG
GCGAGAACTC GGCGTCCGGC GGCGGACTGG CGGGCTCCTG CTGGCTGGGA GACGCCCCCT
GGCCCCTACC TCTGTTTGGC CCGGCCGGGC GAGCGGGACC GGCGGGAGGA GGAGGAGGAG
GAGGAGGAGG TGCTGGCCGC AGCCATGAGC CAGGACGCCG AGCCCAGCGG CGCCGAGCAA
CCGGACAGAG ATGCCCGCAG CGTGCCCGGT GCCCCGGCGC CCCCGGCGCC CCCAGGCCCG
AGAGGGATGC AGCCGCCGCC ACCGCCTCCG CCCCAAGCCG GCCTACCCCA GATCATCCAA
AATGCCGCCA AGCTCCTGGA CAAGACCCCG TTCTCGGTCA GTAACCCAAG CCCGCTGCTT
CCTTCGCCCG CGAGCCTCCA GCTGGCTCAG CTGCAAGCTC AGCTCACCCT CCACCGGCTA
AAGCTGGCAC AGACGGCCGT CACCAACAAC ACCGCGGCCG CCACCGTCCT GAACCAAGTC
CTCTCCAAAG TGGCCATGTC CCAGCCTCTC TTCAACCAGT TGAGGCATCC GTCCATGATC
AGCTCCCCGC ATGGCCACAC CGGGGTGCCC CAACACGCAG CAACCATGCC CAGTGCCCGT
TTTCCCTCTA ATGCAATTGC CTTCTCGCCC CCGGGCCAGA CACGAGGCCC AGGGCCCTCT
GTGAGCCTTC CCAGCCAGCC CCCCAATGCC ATTGTGATGC ACCCTTTCAG CGGGGTCATG
CCTCAGACCC CTGCCCAGCC AGCAGTCATC TTGGGCATTG GCAAGACTGG GCCCACCCCT
GCTGCAGCGG GATTCTACGA GTATGGCAAA GCCAACTCGG GCCAGGCATA TGGCTCTGAA
ACTGATGGTC AGCCCAGTTT CCTGCCAGCC TCGGCCTCTA CCTCGGGCAG CGTGACCTAT
GAAGGGCACT ACAGCCACTC AGGGCAAGAT GGCCAAGCCG CCTTTCCCAA GGACTTCTAC
GGACCCAACG CCCAAGGGTC GCAGGTGGCA GGTGGATTTG CGGCTGAGCC GGCCGGGGGC
TTGAAAGGCG AGGTAGGTCC GCTGCTGCAG GGTCCGAACA GCCAGTGGGA GAGCCCCCAT
GGATTCTCTG GCCAAAGCAA GCCCGATCTT AGAGCAGTCC CCAACCTGTG GCCTCCAGCC
CCCAGCCAGC CCTATGAGCT GTATGACCCC GAGGAGCCCA CCCCAGACAG GACCCCTCCT
TCCTTTGGGG GTCGGCTCAA CAACAGCAAA CAGGGTTTCA GCGGAGCCTG GCGGCGGGCC
ACGGAGGAGC AGGCGACGCT GTCCGTGCGG CCCTTGCAGG CGCATGAGCT GAATGACTTT
CACGGTGTGG CCCCCCTCCA CCTGCCCCAC GTCTGTAGCA TCTGCGACAA GAAGGTGTTT
GATCTGAAGG ACTGGGAGCT GCATGTAAAA GGGAAACTAC ACGCTCAGAA ATGCCTGCTC
TTCTCTGAAA ACGCCGCTGT CCGGTGTGTA CTCGGTTCAG CAGAGGGAAC ACTGTGTGCC
TCTCCCAACA GCACAGCCGT TTATAACCCT GCTGGGAACG AAGATTACTC CTCAAATCTT
GGAACATCAT ATGCGGCCAT TCCTGCGAGG TCATTTACTC AGTCAAATCC CGCATTCCCT
TCAGCTTCCC CAGGGACAAA TTTTGCGCAG CGGAAAACGG GTGCTGGCCG CGTGGTACAC
ATCTGCAATC TGCCGGAGGG AAGCTGCACC GAGAATGACG TCATTAACCT GGGGCTGCCC
TTTGGAAAGG TCACTAATTA CATCCTCATG AAGTCTACTA ATCAGGCCTT TTTAGAGATG
GCTTACACAG AGGCTGCCCA GGCCATGGTC CAGTATTACC AAGAAAAATC TGCCATGATC
AATGGTGAGA AGTTGCTCAT TCGGATGTCC AAGAGATACA AGGAATTGCA GCTGAAGAAA
CCTGGGAAAA CCGTGGCTGC CATCATCCAG GACATCCATT CCCAGAGGGA GAGGGACATG
TTCCGGGAAG CAGACAGATA CGGCCCAGAA AGGCCAAGAT CTCGAAGTCC GGTGAGCCGG
TCATTGTCCC CGAGGTCCCA CACTCCGAGC TTCACCTCCT GCAGCTCTTC TCACAGCCCC
CCGGGCCCCT CTCGGGCCGA CTGGGGCAAC GGCCGGGACT CGTGGGAGCA CTCTCCCTAC
GCCAGGAGGG AGGAAGAGCG AGGCCCGGTC CCCTGGAGGG AGAACGGGGA GGACAAGAGG
GACAGGACGG ACACATGGGC GCATGACCGC AAACAGTACC CCCGGCAACT GGACAAGGCC
GAGTTAGATG AGCGACTGGA AGGAGGGAGG GGCTACCGAG AAAGGCACCC GAGGTCTGGG
TCCCCCAACC CGCTCCACTC CGCGTCGGGA TACAAAAGCC GAGAAGACGG CTACTACCGC
AAAGAGTCCA AGGGCAAATC GGACAAGTAT CTGAAGCAGC AGCAGGATGT CCCTGGGAGG
TCCAGGAGGA AAGATGAGGC CAGGCTGCGG GAAGGCAGAC ACCCCCCGCC TGACGACTCG
GGCAGGGAAG ACGGGCTGGA ACCGAAGGGC ACCAAGTCGA AGCAGAGTGA GAAAACCAGA
ACCAAGAGAC CTGATAGAGA CCAAGACGGA GCTGATAGGA AAGAAAGCAG AATGGCAGAG
AATGAGGCTG AAAAAGAGGA ACAGGACAGC ATGGAAGAGA GACCCCTGCA TCTGGGCAGG
CAGGAGAAAG AAACAGAGTC CTCTGATGCA GAGAACAAAA AGGCAAGGAA GGAGCAAGAT
TCGGAAAGTG GAAGTGAGGC AGAGGGGGAG AGCTGGTGCC CCACGAACAT GGAAGAGCTG
GTTACAGTGG ACGAGGTGGG GGAGGAAGAA GATTTTATCA TGGAACCGGA CATCCCAGAA
CTGGAGGAAA TTGTGCCCAT TGAACAGAAG GACAAAATCT GTCCAGAAAT ATGTCCCTGT
GTGACAACCA CCTTAGACCT GGACTTAGCC AAAGAGTTCA CCAAGGAGGG AGTCAAGACC
GTAGGTAATG AGGCTGCGGA AATCAGCCTC AAGTCGCCCA AAGAGCTGCC TTCTGCTTCC
ATGAGCTGTC CCCGTGACAT GGACGTGGAA ACGCCTGGCC TAAATCTGGA TGTTGAGCGG
AAGCCAGCTG AATGCGAGAC GGGCCTCTCA CTGGCGGGCT CAGATTGCTA CGAGAAGCAG
GCAAAGGGAG GAGAGAGCTC AGATGTTCGT CTGGCCCCTA CACTCCAGCA AATGTCTTCC
CCCAGGCCAG CAGAGGAGAG GGCCTGGCAG CCTGGCCCCT TTCTTGATGA CTGTAAGGCC
AGGGAGACCC TGGAAGATGG GGCTGGTGAA GGCAGCCCCT TGGAGGAGAA AGCCAGCCCC
CTCACCGAAA CAGACCTCCA AAGCCAGCCT TGCCAAGGGG TGTCGACCCA GGATAACTCC
AGGTACATGG AAATGAAATC TCTGGACGTG AGGTCACTGG AATACGCTGA AGTGGAGCTG
AAACAGCCCC TTTCTTTGCC TTCCTGGGAA CCTGAGGATG TGTTCAGTGA ACTTAGCATT
CCTCTAGGGG TGGAGTTCGT GGTGCCCAGG ACCGGCTTTT ATTGCAAACT GTGCGGGCTG
TTCTACACGA GCGAGGAGAT GGCAAAGATG AGCCACTGTC GCAGTGCTGT CCACTACCGG
AACTTACAGA AGTACTTGTC CCAGCTGGCC GAGGAGGGCC TGATGGAGAC CGAGGGGGCA
GGCAGCCCTC GGCCCGAGGA CAGCAGAATC GTGCCGCACT TTGAAAGGAA AAAGCTTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_023976928.1 CDS 1..3960 Translation
Target ORF information:
RefSeq Version XM_024121160.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon RNA binding motif protein 20 (RBM20), mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_024121160.1
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
3661
3721
3781
3841
3901ATGGCCAGTT TGGAGAGCCC TCGGGTCCGT CGCGGGAAGG TGCCAAGCCC CGCGCACTTT
GCGCTGGCGA AGAGCGCAGA CGCCCGGGGC GCGCTCGGTC CGCCCCGCTT GGCAGGAGCG
CGCGAAGCCG CGCGCGCGGT CCCCGGGGAT AACCCGGAGG CCGCCCGGCT AGCGGGAGAG
GCGAGAACTC GGCGTCCGGC GGCGGACTGG CGGGCTCCTG CTGGCTGGGA GACGCCCCCT
GGCCCCTACC TCTGTTTGGC CCGGCCGGGC GAGCGGGACC GGCGGGAGGA GGAGGAGGAG
GAGGAGGAGG TGCTGGCCGC AGCCATGAGC CAGGACGCCG AGCCCAGCGG CGCCGAGCAA
CCGGACAGAG ATGCCCGCAG CGTGCCCGGT GCCCCGGCGC CCCCGGCGCC CCCAGGCCCG
AGAGGGATGC AGCCGCCGCC ACCGCCTCCG CCCCAAGCCG GCCTACCCCA GATCATCCAA
AATGCCGCCA AGCTCCTGGA CAAGACCCCG TTCTCGGTCA GTAACCCAAG CCCGCTGCTT
CCTTCGCCCG CGAGCCTCCA GCTGGCTCAG CTGCAAGCTC AGCTCACCCT CCACCGGCTA
AAGCTGGCAC AGACGGCCGT CACCAACAAC ACCGCGGCCG CCACCGTCCT GAACCAAGTC
CTCTCCAAAG TGGCCATGTC CCAGCCTCTC TTCAACCAGT TGAGGCATCC GTCCATGATC
AGCTCCCCGC ATGGCCACAC CGGGGTGCCC CAACACGCAG CAACCATGCC CAGTGCCCGT
TTTCCCTCTA ATGCAATTGC CTTCTCGCCC CCGGGCCAGA CACGAGGCCC AGGGCCCTCT
GTGAGCCTTC CCAGCCAGCC CCCCAATGCC ATTGTGATGC ACCCTTTCAG CGGGGTCATG
CCTCAGACCC CTGCCCAGCC AGCAGTCATC TTGGGCATTG GCAAGACTGG GCCCACCCCT
GCTGCAGCGG GATTCTACGA GTATGGCAAA GCCAACTCGG GCCAGGCATA TGGCTCTGAA
ACTGATGGTC AGCCCAGTTT CCTGCCAGCC TCGGCCTCTA CCTCGGGCAG CGTGACCTAT
GAAGGGCACT ACAGCCACTC AGGGCAAGAT GGCCAAGCCG CCTTTCCCAA GGACTTCTAC
GGACCCAACG CCCAAGGGTC GCAGGTGGCA GGTGGATTTG CGGCTGAGCC GGCCGGGGGC
TTGAAAGGCG AGGTAGGTCC GCTGCTGCAG GGTCCGAACA GCCAGTGGGA GAGCCCCCAT
GGATTCTCTG GCCAAAGCAA GCCCGATCTT AGAGCAGTCC CCAACCTGTG GCCTCCAGCC
CCCAGCCAGC CCTATGAGCT GTATGACCCC GAGGAGCCCA CCCCAGACAG GACCCCTCCT
TCCTTTGGGG GTCGGCTCAA CAACAGCAAA CAGGGTTTCA GCGGAGCCTG GCGGCGGGCC
ACGGAGGAGC AGGCGACGCT GTCCGTGCGG CCCTTGCAGG CGCATGAGCT GAATGACTTT
CACGGTGTGG CCCCCCTCCA CCTGCCCCAC GTCTGTAGCA TCTGCGACAA GAAGGTGTTT
GATCTGAAGG ACTGGGAGCT GCATGTAAAA GGGAAACTAC ACGCTCAGAA ATGCCTGCTC
TTCTCTGAAA ACGCCGCTGT CCGGTGTGTA CTCGGTTCAG CAGAGGGAAC ACTGTGTGCC
TCTCCCAACA GCACAGCCGT TTATAACCCT GCTGGGAACG AAGATTACTC CTCAAATCTT
GGAACATCAT ATGCGGCCAT TCCTGCGAGG TCATTTACTC AGTCAAATCC CGCATTCCCT
TCAGCTTCCC CAGGGACAAA TTTTGCGCAG CGGAAAACGG GTGCTGGCCG CGTGGTACAC
ATCTGCAATC TGCCGGAGGG AAGCTGCACC GAGAATGACG TCATTAACCT GGGGCTGCCC
TTTGGAAAGG TCACTAATTA CATCCTCATG AAGTCTACTA ATCAGGCCTT TTTAGAGATG
GCTTACACAG AGGCTGCCCA GGCCATGGTC CAGTATTACC AAGAAAAATC TGCCATGATC
AATGGTGAGA AGTTGCTCAT TCGGATGTCC AAGAGATACA AGGAATTGCA GCTGAAGAAA
CCTGGGAAAA CCGTGGCTGC CATCATCCAG GACATCCATT CCCAGAGGGA GAGGGACATG
TTCCGGGAAG CAGACAGATA CGGCCCAGAA AGGCCAAGAT CTCGAAGTCC GGTGAGCCGG
TCATTGTCCC CGAGGTCCCA CACTCCGAGC TTCACCTCCT GCAGCTCTTC TCACAGCCCC
CCGGGCCCCT CTCGGGCCGA CTGGGGCAAC GGCCGGGACT CGTGGGAGCA CTCTCCCTAC
GCCAGGAGGG AGGAAGAGCG AGGCCCGGTC CCCTGGAGGG AGAACGGGGA GGACAAGAGG
GACAGGACGG ACACATGGGC GCATGACCGC AAACAGTACC CCCGGCAACT GGACAAGGCC
GAGTTAGATG AGCGACTGGA AGGAGGGAGG GGCTACCGAG AAAGGCACCC GAGGTCTGGG
TCCCCCAACC CGCTCCACTC CGCGTCGGGA TACAAAAGCC GAGAAGACGG CTACTACCGC
AAAGAGTCCA AGGGCAAATC GGACAAGTAT CTGAAGCAGC AGCAGGATGT CCCTGGGAGG
TCCAGGAGGA AAGATGAGGC CAGGCTGCGG GAAGGCAGAC ACCCCCCGCC TGACGACTCG
GGCAGGGAAG ACGGGCTGGA ACCGAAGGGC ACCAAGTCGA AGCAGAGTGA GAAAACCAGA
ACCAAGAGAC CTGATAGAGA CCAAGACGGA GCTGATAGGA AAGAAAGCAG AATGGCAGAG
AATGAGGCTG AAAAAGAGGA ACAGGACAGC ATGGAAGAGA GACCCCTGCA TCTGGGCAGG
CAGGAGAAAG AAACAGAGTC CTCTGATGCA GAGAACAAAA AGGCAAGGAA GGAGCAAGAT
TCGGAAAGTG GAAGTGAGGC AGAGGGGGAG AGCTGGTGCC CCACGAACAT GGAAGAGCTG
GTTACAGTGG ACGAGGTGGG GGAGGAAGAA GATTTTATCA TGGAACCGGA CATCCCAGAA
CTGGAGGAAA TTGTGCCCAT TGAACAGAAG GACAAAATCT GTCCAGAAAT ATGTCCCTGT
GTGACAACCA CCTTAGACCT GGACTTAGCC AAAGAGTTCA CCAAGGAGGG AGTCAAGACC
GTAGGTAATG AGGCTGCGGA AATCAGCCTC AAGTCGCCCA AAGAGCTGCC TTCTGCTTCC
ATGAGCTGTC CCCGTGACAT GGACGTGGAA ACGCCTGGCC TAAATCTGGA TGTTGAGCGG
AAGCCAGCTG AATGCGAGAC GGGCCTCTCA CTGGCGGGCT CAGATTGCTA CGAGAAGCAG
GCAAAGGGAG GAGAGAGCTC AGATGTTCGT CTGGCCCCTA CACTCCAGCA AATGTCTTCC
CCCAGGCCAG CAGAGGAGAG GGCCTGGCAG CCTGGCCCCT TTCTTGATGA CTGTAAGGCC
AGGGAGACCC TGGAAGATGG GGCTGGTGAA GGCAGCCCCT TGGAGGAGAA AGCCAGCCCC
CTCACCGAAA CAGACCTCCA AAGCCAGCCT TGCCAAGGGG TGTCGACCCA GGATAACTCC
AGGTACATGG AAATGAAATC TCTGGACGTG AGGTCACTGG AATACGCTGA AGTGGAGCTG
AAACAGCCCC TTTCTTTGCC TTCCTGGGAA CCTGAGGATG TGTTCAGTGA ACTTAGCATT
CCTCTAGGGG TGGAGTTCGT GGTGCCCAGG ACCGGCTTTT ATTGCAAACT GTGCGGGCTG
TTCTACACGA GCGAGGAGAT GGCAAAGATG AGCCACTGTC GCAGTGCTGT CCACTACCGG
AACTTACAGA AGTACTTGTC CCAGCTGGCC GAGGAGGGCC TGATGGAGAC CGAGGGGGCA
GGCAGCCCTC GGCCCGAGGA CAGCAGAATC GTGCCGCACT TTGAAAGGAA AAAGCTTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh326484 Clone ID Related Accession (Same CDS sequence) XM_028481281.1 Accession Version XM_028481281.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3639bp)
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 RNA-binding protein 20 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041233.1) 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
3601ATGAGCCAGG ACGCCGAGCC CAGCGGCGCC GAGCAACCGG ACAGAGATGC CCGCAGCGTG
CCCGGTGCCC CGGCGCCCCC GGCGCCCCCA GGCCCGAGAG GGATGCAGCC GCCGCCACCG
CCTCCGCCCC AAGCCGGCCT ACCCCAGATC ATCCAAAATG CCGCCAAGCT CCTGGACAAG
ACCCCGTTCT CGGTCAGTAA CCCAAGCCCG CTGCTTCCTT CGCCCGCGAG CCTCCAGCTG
GCTCAGCTGC AAGCTCAGCT CACCCTCCAC CGGCTAAAGC TGGCACAGAC GGCCGTCACC
AACAACACCG CGGCCGCCAC CGTCCTGAAC CAAGTCCTCT CCAAAGTGGC CATGTCCCAG
CCTCTCTTCA ACCAGTTGAG GCATCCGTCC ATGATCAGCT CCCCGCATGG CCACACCGGG
GTGCCCCAAC ACGCAGCAAC CATGCCCAGT GCCCGTTTTC CCTCTAATGC AATTGCCTTC
TCGCCCCCGG GCCAGACACG AGGCCCAGGG CCCTCTGTGA GCCTTCCCAG CCAGCCCCCC
AATGCCATTG TGATGCACCC TTTCAGCGGG GTCATGCCTC AGACCCCTGC CCAGCCAGCA
GTCATCTTGG GCATTGGCAA GACTGGGCCC ACCCCTGCTG CAGCGGGATT CTACGAGTAT
GGCAAAGCCA ACTCGGGCCA GGCATATGGC TCTGAAACTG ATGGTCAGCC CAGTTTCCTG
CCAGCCTCGG CCTCTACCTC GGGCAGCGTG ACCTATGAAG GGCACTACAG CCACTCAGGG
CAAGATGGCC AAGCCGCCTT TCCCAAGGAC TTCTACGGAC CCAACGCCCA AGGGTCGCAG
GTGGCAGGTG GATTTGCGGC TGAGCCGGCC GGGGGCTTGA AAGGCGAGGT AGGTCCGCTG
CTGCAGGGTC CGAACAGCCA GTGGGAGAGC CCCCATGGAT TCTCTGGCCA AAGCAAGCCC
GATCTTAGAG CAGTCCCCAA CCTGTGGCCT CCAGCCCCCA GCCAGCCCTA TGAGCTGTAT
GACCCCGAGG AGCCCACCCC AGACAGGACC CCTCCTTCCT TTGGGGGTCG GCTCAACAAC
AGCAAACAGG GTTTCAGCGG AGCCTGGCGG CGGGCCACGG AGGAGCAGGC GACGCTGTCC
GTGCGGCCCT TGCAGGCGCA TGAGCTGAAT GACTTTCACG GTGTGGCCCC CCTCCACCTG
CCCCACGTCT GTAGCATCTG CGACAAGAAG GTGTTTGATC TGAAGGACTG GGAGCTGCAT
GTAAAAGGGA AACTACACGC TCAGAAATGC CTGCTCTTCT CTGAAAACGC CGCTGTCCGG
TGTGTACTCG GTTCAGCAGA GGGAACACTG TGTGCCTCTC CCAACAGCAC AGCCGTTTAT
AACCCTGCTG GGAACGAAGA TTACTCCTCA AATCTTGGAA CATCATATGC GGCCATTCCT
GCGAGGTCAT TTACTCAGTC AAATCCCGCA TTCCCTTCAG CTTCCCCAGG GACAAATTTT
GCGCAGCGGA AAACGGGTGC TGGCCGCGTG GTACACATCT GCAATCTGCC GGAGGGAAGC
TGCACCGAGA ATGACGTCAT TAACCTGGGG CTGCCCTTTG GAAAGGTCAC TAATTACATC
CTCATGAAGT CTACTAATCA GGCCTTTTTA GAGATGGCTT ACACAGAGGC TGCCCAGGCC
ATGGTCCAGT ATTACCAAGA AAAATCTGCC ATGATCAATG GTGAGAAGTT GCTCATTCGG
ATGTCCAAGA GATACAAGGA ATTGCAGCTG AAGAAACCTG GGAAAACCGT GGCTGCCATC
ATCCAGGACA TCCATTCCCA GAGGGAGAGG GACATGTTCC GGGAAGCAGA CAGATACGGC
CCAGAAAGGC CAAGATCTCG AAGTCCGGTG AGCCGGTCAT TGTCCCCGAG GTCCCACACT
CCGAGCTTCA CCTCCTGCAG CTCTTCTCAC AGCCCCCCGG GCCCCTCTCG GGCCGACTGG
GGCAACGGCC GGGACTCGTG GGAGCACTCT CCCTACGCCA GGAGGGAGGA AGAGCGAGGC
CCGGTCCCCT GGAGGGAGAA CGGGGAGGAC AAGAGGGACA GGACGGACAC ATGGGCGCAT
GACCGCAAAC AGTACCCCCG GCAACTGGAC AAGGCCGAGT TAGATGAGCG ACTGGAAGGA
GGGAGGGGCT ACCGAGAAAG GCACCCGAGG TCTGGGTCCC CCAACCCGCT CCACTCCGCG
TCGGGATACA AAAGCCGAGA AGACGGCTAC TACCGCAAAG AGTCCAAGGG CAAATCGGAC
AAGTATCTGA AGCAGCAGCA GGATGTCCCT GGGAGGTCCA GGAGGAAAGA TGAGGCCAGG
CTGCGGGAAG GCAGACACCC CCCGCCTGAC GACTCGGGCA GGGAAGACGG GCTGGAACCG
AAGGGCACCA AGTCGAAGCA GAGTGAGAAA ACCAGAACCA AGAGACCTGA TAGAGACCAA
GACGGAGCTG ATAGGAAAGA AAGCAGAATG GCAGAGAATG AGGCTGAAAA AGAGGAACAG
GACAGCATGG AAGAGAGACC CCTGCATCTG GGCAGGCAGG AGAAAGAAAC AGAGTCCTCT
GATGCAGAGA ACAAAAAGGC AAGGAAGGAG CAAGATTCGG AAAGTGGAAG TGAGGCAGAG
GGGGAGAGCT GGTGCCCCAC GAACATGGAA GAGCTGGTTA CAGTGGACGA GGTGGGGGAG
GAAGAAGATT TTATCATGGA ACCGGACATC CCAGAACTGG AGGAAATTGT GCCCATTGAA
CAGAAGGACA AAATCTGTCC AGAAATATGT CCCTGTGTGA CAACCACCTT AGACCTGGAC
TTAGCCAAAG AGTTCACCAA GGAGGGAGTC AAGACCGTAG GTAATGAGGC TGCGGAAATC
AGCCTCAAGT CGCCCAAAGA GCTGCCTTCT GCTTCCATGA GCTGTCCCCG TGACATGGAC
GTGGAAACGC CTGGCCTAAA TCTGGATGTT GAGCGGAAGC CAGCTGAATG CGAGACGGGC
CTCTCACTGG CGGGCTCAGA TTGCTACGAG AAGCAGGCAA AGGGAGGAGA GAGCTCAGAT
GTTCGTCTGG CCCCTACACT CCAGCAAATG TCTTCCCCCA GGCCAGCAGA GGAGAGGGCC
TGGCAGCCTG GCCCCTTTCT TGATGACTGT AAGGCCAGGG AGACCCTGGA AGATGGGGCT
GGTGAAGGCA GCCCCTTGGA GGAGAAAGCC AGCCCCCTCA CCGAAACAGA CCTCCAAAGC
CAGCCTTGCC AAGGGGTGTC GACCCAGGAT AACTCCAGGT ACATGGAAAT GAAATCTCTG
GACGTGAGGT CACTGGAATA CGCTGAAGTG GAGCTGAAAC AGCCCCTTTC TTTGCCTTCC
TGGGAACCTG AGGATGTGTT CAGTGAACTT AGCATTCCTC TAGGGGTGGA GTTCGTGGTG
CCCAGGACCG GCTTTTATTG CAAACTGTGC GGGCTGTTCT ACACGAGCGA GGAGATGGCA
AAGATGAGCC ACTGTCGCAG TGCTGTCCAC TACCGGAACT TACAGGGCAG CCGACTGCAC
TGTGTTCTGG GCCTCCGGGC CAAACCCCCA GGCAGACTCG CCTCCCCACA GCAGACCATT
CCTGTGGTCC CAGGCATGTC AGGTCCAGAT GCTGGCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028337082.1 CDS 105..3743 Translation
Target ORF information:
RefSeq Version XM_028481281.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon RNA binding motif protein 20 (RBM20), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028481281.1
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
3601ATGAGCCAGG ACGCCGAGCC CAGCGGCGCC GAGCAACCGG ACAGAGATGC CCGCAGCGTG
CCCGGTGCCC CGGCGCCCCC GGCGCCCCCA GGCCCGAGAG GGATGCAGCC GCCGCCACCG
CCTCCGCCCC AAGCCGGCCT ACCCCAGATC ATCCAAAATG CCGCCAAGCT CCTGGACAAG
ACCCCGTTCT CGGTCAGTAA CCCAAGCCCG CTGCTTCCTT CGCCCGCGAG CCTCCAGCTG
GCTCAGCTGC AAGCTCAGCT CACCCTCCAC CGGCTAAAGC TGGCACAGAC GGCCGTCACC
AACAACACCG CGGCCGCCAC CGTCCTGAAC CAAGTCCTCT CCAAAGTGGC CATGTCCCAG
CCTCTCTTCA ACCAGTTGAG GCATCCGTCC ATGATCAGCT CCCCGCATGG CCACACCGGG
GTGCCCCAAC ACGCAGCAAC CATGCCCAGT GCCCGTTTTC CCTCTAATGC AATTGCCTTC
TCGCCCCCGG GCCAGACACG AGGCCCAGGG CCCTCTGTGA GCCTTCCCAG CCAGCCCCCC
AATGCCATTG TGATGCACCC TTTCAGCGGG GTCATGCCTC AGACCCCTGC CCAGCCAGCA
GTCATCTTGG GCATTGGCAA GACTGGGCCC ACCCCTGCTG CAGCGGGATT CTACGAGTAT
GGCAAAGCCA ACTCGGGCCA GGCATATGGC TCTGAAACTG ATGGTCAGCC CAGTTTCCTG
CCAGCCTCGG CCTCTACCTC GGGCAGCGTG ACCTATGAAG GGCACTACAG CCACTCAGGG
CAAGATGGCC AAGCCGCCTT TCCCAAGGAC TTCTACGGAC CCAACGCCCA AGGGTCGCAG
GTGGCAGGTG GATTTGCGGC TGAGCCGGCC GGGGGCTTGA AAGGCGAGGT AGGTCCGCTG
CTGCAGGGTC CGAACAGCCA GTGGGAGAGC CCCCATGGAT TCTCTGGCCA AAGCAAGCCC
GATCTTAGAG CAGTCCCCAA CCTGTGGCCT CCAGCCCCCA GCCAGCCCTA TGAGCTGTAT
GACCCCGAGG AGCCCACCCC AGACAGGACC CCTCCTTCCT TTGGGGGTCG GCTCAACAAC
AGCAAACAGG GTTTCAGCGG AGCCTGGCGG CGGGCCACGG AGGAGCAGGC GACGCTGTCC
GTGCGGCCCT TGCAGGCGCA TGAGCTGAAT GACTTTCACG GTGTGGCCCC CCTCCACCTG
CCCCACGTCT GTAGCATCTG CGACAAGAAG GTGTTTGATC TGAAGGACTG GGAGCTGCAT
GTAAAAGGGA AACTACACGC TCAGAAATGC CTGCTCTTCT CTGAAAACGC CGCTGTCCGG
TGTGTACTCG GTTCAGCAGA GGGAACACTG TGTGCCTCTC CCAACAGCAC AGCCGTTTAT
AACCCTGCTG GGAACGAAGA TTACTCCTCA AATCTTGGAA CATCATATGC GGCCATTCCT
GCGAGGTCAT TTACTCAGTC AAATCCCGCA TTCCCTTCAG CTTCCCCAGG GACAAATTTT
GCGCAGCGGA AAACGGGTGC TGGCCGCGTG GTACACATCT GCAATCTGCC GGAGGGAAGC
TGCACCGAGA ATGACGTCAT TAACCTGGGG CTGCCCTTTG GAAAGGTCAC TAATTACATC
CTCATGAAGT CTACTAATCA GGCCTTTTTA GAGATGGCTT ACACAGAGGC TGCCCAGGCC
ATGGTCCAGT ATTACCAAGA AAAATCTGCC ATGATCAATG GTGAGAAGTT GCTCATTCGG
ATGTCCAAGA GATACAAGGA ATTGCAGCTG AAGAAACCTG GGAAAACCGT GGCTGCCATC
ATCCAGGACA TCCATTCCCA GAGGGAGAGG GACATGTTCC GGGAAGCAGA CAGATACGGC
CCAGAAAGGC CAAGATCTCG AAGTCCGGTG AGCCGGTCAT TGTCCCCGAG GTCCCACACT
CCGAGCTTCA CCTCCTGCAG CTCTTCTCAC AGCCCCCCGG GCCCCTCTCG GGCCGACTGG
GGCAACGGCC GGGACTCGTG GGAGCACTCT CCCTACGCCA GGAGGGAGGA AGAGCGAGGC
CCGGTCCCCT GGAGGGAGAA CGGGGAGGAC AAGAGGGACA GGACGGACAC ATGGGCGCAT
GACCGCAAAC AGTACCCCCG GCAACTGGAC AAGGCCGAGT TAGATGAGCG ACTGGAAGGA
GGGAGGGGCT ACCGAGAAAG GCACCCGAGG TCTGGGTCCC CCAACCCGCT CCACTCCGCG
TCGGGATACA AAAGCCGAGA AGACGGCTAC TACCGCAAAG AGTCCAAGGG CAAATCGGAC
AAGTATCTGA AGCAGCAGCA GGATGTCCCT GGGAGGTCCA GGAGGAAAGA TGAGGCCAGG
CTGCGGGAAG GCAGACACCC CCCGCCTGAC GACTCGGGCA GGGAAGACGG GCTGGAACCG
AAGGGCACCA AGTCGAAGCA GAGTGAGAAA ACCAGAACCA AGAGACCTGA TAGAGACCAA
GACGGAGCTG ATAGGAAAGA AAGCAGAATG GCAGAGAATG AGGCTGAAAA AGAGGAACAG
GACAGCATGG AAGAGAGACC CCTGCATCTG GGCAGGCAGG AGAAAGAAAC AGAGTCCTCT
GATGCAGAGA ACAAAAAGGC AAGGAAGGAG CAAGATTCGG AAAGTGGAAG TGAGGCAGAG
GGGGAGAGCT GGTGCCCCAC GAACATGGAA GAGCTGGTTA CAGTGGACGA GGTGGGGGAG
GAAGAAGATT TTATCATGGA ACCGGACATC CCAGAACTGG AGGAAATTGT GCCCATTGAA
CAGAAGGACA AAATCTGTCC AGAAATATGT CCCTGTGTGA CAACCACCTT AGACCTGGAC
TTAGCCAAAG AGTTCACCAA GGAGGGAGTC AAGACCGTAG GTAATGAGGC TGCGGAAATC
AGCCTCAAGT CGCCCAAAGA GCTGCCTTCT GCTTCCATGA GCTGTCCCCG TGACATGGAC
GTGGAAACGC CTGGCCTAAA TCTGGATGTT GAGCGGAAGC CAGCTGAATG CGAGACGGGC
CTCTCACTGG CGGGCTCAGA TTGCTACGAG AAGCAGGCAA AGGGAGGAGA GAGCTCAGAT
GTTCGTCTGG CCCCTACACT CCAGCAAATG TCTTCCCCCA GGCCAGCAGA GGAGAGGGCC
TGGCAGCCTG GCCCCTTTCT TGATGACTGT AAGGCCAGGG AGACCCTGGA AGATGGGGCT
GGTGAAGGCA GCCCCTTGGA GGAGAAAGCC AGCCCCCTCA CCGAAACAGA CCTCCAAAGC
CAGCCTTGCC AAGGGGTGTC GACCCAGGAT AACTCCAGGT ACATGGAAAT GAAATCTCTG
GACGTGAGGT CACTGGAATA CGCTGAAGTG GAGCTGAAAC AGCCCCTTTC TTTGCCTTCC
TGGGAACCTG AGGATGTGTT CAGTGAACTT AGCATTCCTC TAGGGGTGGA GTTCGTGGTG
CCCAGGACCG GCTTTTATTG CAAACTGTGC GGGCTGTTCT ACACGAGCGA GGAGATGGCA
AAGATGAGCC ACTGTCGCAG TGCTGTCCAC TACCGGAACT TACAGGGCAG CCGACTGCAC
TGTGTTCTGG GCCTCCGGGC CAAACCCCCA GGCAGACTCG CCTCCCCACA GCAGACCATT
CCTGTGGTCC CAGGCATGTC AGGTCCAGAT GCTGGCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh326485 Clone ID Related Accession (Same CDS sequence) XM_028481282.1 Accession Version XM_028481282.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
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 RNA-binding protein 20 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041233.1) 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
3601ATGAGCCAGG ACGCCGAGCC CAGCGGCGCC GAGCAACCGG ACAGAGATGC CCGCAGCGTG
CCCGGTGCCC CGGCGCCCCC GGCGCCCCCA GGCCCGAGAG GGATGCAGCC GCCGCCACCG
CCTCCGCCCC AAGCCGGCCT ACCCCAGATC ATCCAAAATG CCGCCAAGCT CCTGGACAAG
ACCCCGTTCT CGGTCAGTAA CCCAAGCCCG CTGCTTCCTT CGCCCGCGAG CCTCCAGCTG
GCTCAGCTGC AAGCTCAGCT CACCCTCCAC CGGCTAAAGC TGGCACAGAC GGCCGTCACC
AACAACACCG CGGCCGCCAC CGTCCTGAAC CAAGTCCTCT CCAAAGTGGC CATGTCCCAG
CCTCTCTTCA ACCAGTTGAG GCATCCGTCC ATGATCAGCT CCCCGCATGG CCACACCGGG
GTGCCCCAAC ACGCAGCAAC CATGCCCAGT GCCCGTTTTC CCTCTAATGC AATTGCCTTC
TCGCCCCCGG GCCAGACACG AGGCCCAGGG CCCTCTGTGA GCCTTCCCAG CCAGCCCCCC
AATGCCATTG TGATGCACCC TTTCAGCGGG GTCATGCCTC AGACCCCTGC CCAGCCAGCA
GTCATCTTGG GCATTGGCAA GACTGGGCCC ACCCCTGCTG CAGCGGGATT CTACGAGTAT
GGCAAAGCCA ACTCGGGCCA GGCATATGGC TCTGAAACTG ATGGTCAGCC CAGTTTCCTG
CCAGCCTCGG CCTCTACCTC GGGCAGCGTG ACCTATGAAG GGCACTACAG CCACTCAGGG
CAAGATGGCC AAGCCGCCTT TCCCAAGGAC TTCTACGGAC CCAACGCCCA AGGGTCGCAG
GTGGCAGGTG GATTTGCGGC TGAGCCGGCC GGGGGCTTGA AAGGCGAGGT AGGTCCGCTG
CTGCAGGGTC CGAACAGCCA GTGGGAGAGC CCCCATGGAT TCTCTGGCCA AAGCAAGCCC
GATCTTAGAG CAGTCCCCAA CCTGTGGCCT CCAGCCCCCA GCCAGCCCTA TGAGCTGTAT
GACCCCGAGG AGCCCACCCC AGACAGGACC CCTCCTTCCT TTGGGGGTCG GCTCAACAAC
AGCAAACAGG GTTTCAGCGG AGCCTGGCGG CGGGCCACGG AGGAGCAGGC GACGCTGTCC
GTGCGGCCCT TGCAGGCGCA TGAGCTGAAT GACTTTCACG GTGTGGCCCC CCTCCACCTG
CCCCACGTCT GTAGCATCTG CGACAAGAAG GTGTTTGATC TGAAGGACTG GGAGCTGCAT
GTAAAAGGGA AACTACACGC TCAGAAATGC CTGCTCTTCT CTGAAAACGC CGCTGTCCGG
TGTGTACTCG GTTCAGCAGA GGGAACACTG TGTGCCTCTC CCAACAGCAC AGCCGTTTAT
AACCCTGCTG GGAACGAAGA TTACTCCTCA AATCTTGGAA CATCATATGC GGCCATTCCT
GCGAGGTCAT TTACTCAGTC AAATCCCGCA TTCCCTTCAG CTTCCCCAGG GACAAATTTT
GCGCAGCGGA AAACGGGTGC TGGCCGCGTG GTACACATCT GCAATCTGCC GGAGGGAAGC
TGCACCGAGA ATGACGTCAT TAACCTGGGG CTGCCCTTTG GAAAGGTCAC TAATTACATC
CTCATGAAGT CTACTAATCA GGCCTTTTTA GAGATGGCTT ACACAGAGGC TGCCCAGGCC
ATGGTCCAGT ATTACCAAGA AAAATCTGCC ATGATCAATG GTGAGAAGTT GCTCATTCGG
ATGTCCAAGA GATACAAGGA ATTGCAGCTG AAGAAACCTG GGAAAACCGT GGCTGCCATC
ATCCAGGACA TCCATTCCCA GAGGGAGAGG GACATGTTCC GGGAAGCAGA CAGATACGGC
CCAGAAAGGC CAAGATCTCG AAGTCCGGTG AGCCGGTCAT TGTCCCCGAG GTCCCACACT
CCGAGCTTCA CCTCCTGCAG CTCTTCTCAC AGCCCCCCGG GCCCCTCTCG GGCCGACTGG
GGCAACGGCC GGGACTCGTG GGAGCACTCT CCCTACGCCA GGAGGGAGGA AGAGCGAGGC
CCGGTCCCCT GGAGGGAGAA CGGGGAGGAC AAGAGGGACA GGACGGACAC ATGGGCGCAT
GACCGCAAAC AGTACCCCCG GCAACTGGAC AAGGCCGAGT TAGATGAGCG ACTGGAAGGA
GGGAGGGGCT ACCGAGAAAG GCACCCGAGG TCTGGGTCCC CCAACCCGCT CCACTCCGCG
TCGGGATACA AAAGCCGAGA AGACGGCTAC TACCGCAAAG AGTCCAAGGG CAAATCGGAC
AAGTATCTGA AGCAGCAGCA GGATGTCCCT GGGAGGTCCA GGAGGAAAGA TGAGGCCAGG
CTGCGGGAAG GCAGACACCC CCCGCCTGAC GACTCGGGCA GGGAAGACGG GCTGGAACCG
AAGGGCACCA AGTCGAAGCA GAGTGAGAAA ACCAGAACCA AGAGACCTGA TAGAGACCAA
GACGGAGCTG ATAGGAAAGA AAGCAGAATG GCAGAGAATG AGGCTGAAAA AGAGGAACAG
GACAGCATGG AAGAGAGACC CCTGCATCTG GGCAGGCAGG AGAAAGAAAC AGAGTCCTCT
GATGCAGAGA ACAAAAAGGC AAGGAAGGAG CAAGATTCGG AAAGTGGAAG TGAGGCAGAG
GGGGAGAGCT GGTGCCCCAC GAACATGGAA GAGCTGGTTA CAGTGGACGA GGTGGGGGAG
GAAGAAGATT TTATCATGGA ACCGGACATC CCAGAACTGG AGGAAATTGT GCCCATTGAA
CAGAAGGACA AAATCTGTCC AGAAATATGT CCCTGTGTGA CAACCACCTT AGACCTGGAC
TTAGCCAAAG AGTTCACCAA GGAGGGAGTC AAGACCGTAG GTAATGAGGC TGCGGAAATC
AGCCTCAAGT CGCCCAAAGA GCTGCCTTCT GCTTCCATGA GCTGTCCCCG TGACATGGAC
GTGGAAACGC CTGGCCTAAA TCTGGATGTT GAGCGGAAGC CAGCTGAATG CGAGACGGGC
CTCTCACTGG CGGGCTCAGA TTGCTACGAG AAGCAGGCAA AGGGAGGAGA GAGCTCAGAT
GTTCGTCTGG CCCCTACACT CCAGCAAATG TCTTCCCCCA GGCCAGCAGA GGAGAGGGCC
TGGCAGCCTG GCCCCTTTCT TGATGACTGT AAGGCCAGGG AGACCCTGGA AGATGGGGCT
GGTGAAGGCA GCCCCTTGGA GGAGAAAGCC AGCCCCCTCA CCGAAACAGA CCTCCAAAGC
CAGCCTTGCC AAGGGGTGTC GACCCAGGAT AACTCCAGGT ACATGGAAAT GAAATCTCTG
GACGTGAGGT CACTGGAATA CGCTGAAGTG GAGCTGAAAC AGCCCCTTTC TTTGCCTTCC
TGGGAACCTG AGGATGTGTT CAGTGAACTT AGCATTCCTC TAGGGGTGGA GTTCGTGGTG
CCCAGGACCG GCTTTTATTG CAAACTGTGC GGGCTGTTCT ACACGAGCGA GGAGATGGCA
AAGATGAGCC ACTGTCGCAG TGCTGTCCAC TACCGGAACT TACAGAAGTA CTTGTCCCAG
CTGGCCGAGG AGGGCCTGAT GGAGACCGAG GGGGCAGGCA GCCCTCGGCC CGAGGACAGC
AGAATCGTGC CGCACTTTGA AAGGAAAAAG CTTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028337083.1 CDS 105..3740 Translation
Target ORF information:
RefSeq Version XM_028481282.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon RNA binding motif protein 20 (RBM20), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028481282.1
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
3601ATGAGCCAGG ACGCCGAGCC CAGCGGCGCC GAGCAACCGG ACAGAGATGC CCGCAGCGTG
CCCGGTGCCC CGGCGCCCCC GGCGCCCCCA GGCCCGAGAG GGATGCAGCC GCCGCCACCG
CCTCCGCCCC AAGCCGGCCT ACCCCAGATC ATCCAAAATG CCGCCAAGCT CCTGGACAAG
ACCCCGTTCT CGGTCAGTAA CCCAAGCCCG CTGCTTCCTT CGCCCGCGAG CCTCCAGCTG
GCTCAGCTGC AAGCTCAGCT CACCCTCCAC CGGCTAAAGC TGGCACAGAC GGCCGTCACC
AACAACACCG CGGCCGCCAC CGTCCTGAAC CAAGTCCTCT CCAAAGTGGC CATGTCCCAG
CCTCTCTTCA ACCAGTTGAG GCATCCGTCC ATGATCAGCT CCCCGCATGG CCACACCGGG
GTGCCCCAAC ACGCAGCAAC CATGCCCAGT GCCCGTTTTC CCTCTAATGC AATTGCCTTC
TCGCCCCCGG GCCAGACACG AGGCCCAGGG CCCTCTGTGA GCCTTCCCAG CCAGCCCCCC
AATGCCATTG TGATGCACCC TTTCAGCGGG GTCATGCCTC AGACCCCTGC CCAGCCAGCA
GTCATCTTGG GCATTGGCAA GACTGGGCCC ACCCCTGCTG CAGCGGGATT CTACGAGTAT
GGCAAAGCCA ACTCGGGCCA GGCATATGGC TCTGAAACTG ATGGTCAGCC CAGTTTCCTG
CCAGCCTCGG CCTCTACCTC GGGCAGCGTG ACCTATGAAG GGCACTACAG CCACTCAGGG
CAAGATGGCC AAGCCGCCTT TCCCAAGGAC TTCTACGGAC CCAACGCCCA AGGGTCGCAG
GTGGCAGGTG GATTTGCGGC TGAGCCGGCC GGGGGCTTGA AAGGCGAGGT AGGTCCGCTG
CTGCAGGGTC CGAACAGCCA GTGGGAGAGC CCCCATGGAT TCTCTGGCCA AAGCAAGCCC
GATCTTAGAG CAGTCCCCAA CCTGTGGCCT CCAGCCCCCA GCCAGCCCTA TGAGCTGTAT
GACCCCGAGG AGCCCACCCC AGACAGGACC CCTCCTTCCT TTGGGGGTCG GCTCAACAAC
AGCAAACAGG GTTTCAGCGG AGCCTGGCGG CGGGCCACGG AGGAGCAGGC GACGCTGTCC
GTGCGGCCCT TGCAGGCGCA TGAGCTGAAT GACTTTCACG GTGTGGCCCC CCTCCACCTG
CCCCACGTCT GTAGCATCTG CGACAAGAAG GTGTTTGATC TGAAGGACTG GGAGCTGCAT
GTAAAAGGGA AACTACACGC TCAGAAATGC CTGCTCTTCT CTGAAAACGC CGCTGTCCGG
TGTGTACTCG GTTCAGCAGA GGGAACACTG TGTGCCTCTC CCAACAGCAC AGCCGTTTAT
AACCCTGCTG GGAACGAAGA TTACTCCTCA AATCTTGGAA CATCATATGC GGCCATTCCT
GCGAGGTCAT TTACTCAGTC AAATCCCGCA TTCCCTTCAG CTTCCCCAGG GACAAATTTT
GCGCAGCGGA AAACGGGTGC TGGCCGCGTG GTACACATCT GCAATCTGCC GGAGGGAAGC
TGCACCGAGA ATGACGTCAT TAACCTGGGG CTGCCCTTTG GAAAGGTCAC TAATTACATC
CTCATGAAGT CTACTAATCA GGCCTTTTTA GAGATGGCTT ACACAGAGGC TGCCCAGGCC
ATGGTCCAGT ATTACCAAGA AAAATCTGCC ATGATCAATG GTGAGAAGTT GCTCATTCGG
ATGTCCAAGA GATACAAGGA ATTGCAGCTG AAGAAACCTG GGAAAACCGT GGCTGCCATC
ATCCAGGACA TCCATTCCCA GAGGGAGAGG GACATGTTCC GGGAAGCAGA CAGATACGGC
CCAGAAAGGC CAAGATCTCG AAGTCCGGTG AGCCGGTCAT TGTCCCCGAG GTCCCACACT
CCGAGCTTCA CCTCCTGCAG CTCTTCTCAC AGCCCCCCGG GCCCCTCTCG GGCCGACTGG
GGCAACGGCC GGGACTCGTG GGAGCACTCT CCCTACGCCA GGAGGGAGGA AGAGCGAGGC
CCGGTCCCCT GGAGGGAGAA CGGGGAGGAC AAGAGGGACA GGACGGACAC ATGGGCGCAT
GACCGCAAAC AGTACCCCCG GCAACTGGAC AAGGCCGAGT TAGATGAGCG ACTGGAAGGA
GGGAGGGGCT ACCGAGAAAG GCACCCGAGG TCTGGGTCCC CCAACCCGCT CCACTCCGCG
TCGGGATACA AAAGCCGAGA AGACGGCTAC TACCGCAAAG AGTCCAAGGG CAAATCGGAC
AAGTATCTGA AGCAGCAGCA GGATGTCCCT GGGAGGTCCA GGAGGAAAGA TGAGGCCAGG
CTGCGGGAAG GCAGACACCC CCCGCCTGAC GACTCGGGCA GGGAAGACGG GCTGGAACCG
AAGGGCACCA AGTCGAAGCA GAGTGAGAAA ACCAGAACCA AGAGACCTGA TAGAGACCAA
GACGGAGCTG ATAGGAAAGA AAGCAGAATG GCAGAGAATG AGGCTGAAAA AGAGGAACAG
GACAGCATGG AAGAGAGACC CCTGCATCTG GGCAGGCAGG AGAAAGAAAC AGAGTCCTCT
GATGCAGAGA ACAAAAAGGC AAGGAAGGAG CAAGATTCGG AAAGTGGAAG TGAGGCAGAG
GGGGAGAGCT GGTGCCCCAC GAACATGGAA GAGCTGGTTA CAGTGGACGA GGTGGGGGAG
GAAGAAGATT TTATCATGGA ACCGGACATC CCAGAACTGG AGGAAATTGT GCCCATTGAA
CAGAAGGACA AAATCTGTCC AGAAATATGT CCCTGTGTGA CAACCACCTT AGACCTGGAC
TTAGCCAAAG AGTTCACCAA GGAGGGAGTC AAGACCGTAG GTAATGAGGC TGCGGAAATC
AGCCTCAAGT CGCCCAAAGA GCTGCCTTCT GCTTCCATGA GCTGTCCCCG TGACATGGAC
GTGGAAACGC CTGGCCTAAA TCTGGATGTT GAGCGGAAGC CAGCTGAATG CGAGACGGGC
CTCTCACTGG CGGGCTCAGA TTGCTACGAG AAGCAGGCAA AGGGAGGAGA GAGCTCAGAT
GTTCGTCTGG CCCCTACACT CCAGCAAATG TCTTCCCCCA GGCCAGCAGA GGAGAGGGCC
TGGCAGCCTG GCCCCTTTCT TGATGACTGT AAGGCCAGGG AGACCCTGGA AGATGGGGCT
GGTGAAGGCA GCCCCTTGGA GGAGAAAGCC AGCCCCCTCA CCGAAACAGA CCTCCAAAGC
CAGCCTTGCC AAGGGGTGTC GACCCAGGAT AACTCCAGGT ACATGGAAAT GAAATCTCTG
GACGTGAGGT CACTGGAATA CGCTGAAGTG GAGCTGAAAC AGCCCCTTTC TTTGCCTTCC
TGGGAACCTG AGGATGTGTT CAGTGAACTT AGCATTCCTC TAGGGGTGGA GTTCGTGGTG
CCCAGGACCG GCTTTTATTG CAAACTGTGC GGGCTGTTCT ACACGAGCGA GGAGATGGCA
AAGATGAGCC ACTGTCGCAG TGCTGTCCAC TACCGGAACT TACAGAAGTA CTTGTCCCAG
CTGGCCGAGG AGGGCCTGAT GGAGACCGAG GGGGCAGGCA GCCCTCGGCC CGAGGACAGC
AGAATCGTGC CGCACTTTGA AAGGAAAAAG CTTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh326486 Clone ID Related Accession (Same CDS sequence) XM_028481283.1 Accession Version XM_028481283.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3555bp)
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 RNA-binding protein 20 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041233.1) 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
3541ATGATTTGTG CCCGGGCCAC ACTGGGGCCA CCAAGGCTTG GCTGCAACCA GCACAACCAC
CCAGAGGAGA AAAGTGCCGC CAAGCTCCTG GACAAGACCC CGTTCTCGGT CAGTAACCCA
AGCCCGCTGC TTCCTTCGCC CGCGAGCCTC CAGCTGGCTC AGCTGCAAGC TCAGCTCACC
CTCCACCGGC TAAAGCTGGC ACAGACGGCC GTCACCAACA ACACCGCGGC CGCCACCGTC
CTGAACCAAG TCCTCTCCAA AGTGGCCATG TCCCAGCCTC TCTTCAACCA GTTGAGGCAT
CCGTCCATGA TCAGCTCCCC GCATGGCCAC ACCGGGGTGC CCCAACACGC AGCAACCATG
CCCAGTGCCC GTTTTCCCTC TAATGCAATT GCCTTCTCGC CCCCGGGCCA GACACGAGGC
CCAGGGCCCT CTGTGAGCCT TCCCAGCCAG CCCCCCAATG CCATTGTGAT GCACCCTTTC
AGCGGGGTCA TGCCTCAGAC CCCTGCCCAG CCAGCAGTCA TCTTGGGCAT TGGCAAGACT
GGGCCCACCC CTGCTGCAGC GGGATTCTAC GAGTATGGCA AAGCCAACTC GGGCCAGGCA
TATGGCTCTG AAACTGATGG TCAGCCCAGT TTCCTGCCAG CCTCGGCCTC TACCTCGGGC
AGCGTGACCT ATGAAGGGCA CTACAGCCAC TCAGGGCAAG ATGGCCAAGC CGCCTTTCCC
AAGGACTTCT ACGGACCCAA CGCCCAAGGG TCGCAGGTGG CAGGTGGATT TGCGGCTGAG
CCGGCCGGGG GCTTGAAAGG CGAGGTAGGT CCGCTGCTGC AGGGTCCGAA CAGCCAGTGG
GAGAGCCCCC ATGGATTCTC TGGCCAAAGC AAGCCCGATC TTAGAGCAGT CCCCAACCTG
TGGCCTCCAG CCCCCAGCCA GCCCTATGAG CTGTATGACC CCGAGGAGCC CACCCCAGAC
AGGACCCCTC CTTCCTTTGG GGGTCGGCTC AACAACAGCA AACAGGGTTT CAGCGGAGCC
TGGCGGCGGG CCACGGAGGA GCAGGCGACG CTGTCCGTGC GGCCCTTGCA GGCGCATGAG
CTGAATGACT TTCACGGTGT GGCCCCCCTC CACCTGCCCC ACGTCTGTAG CATCTGCGAC
AAGAAGGTGT TTGATCTGAA GGACTGGGAG CTGCATGTAA AAGGGAAACT ACACGCTCAG
AAATGCCTGC TCTTCTCTGA AAACGCCGCT GTCCGGTGTG TACTCGGTTC AGCAGAGGGA
ACACTGTGTG CCTCTCCCAA CAGCACAGCC GTTTATAACC CTGCTGGGAA CGAAGATTAC
TCCTCAAATC TTGGAACATC ATATGCGGCC ATTCCTGCGA GGTCATTTAC TCAGTCAAAT
CCCGCATTCC CTTCAGCTTC CCCAGGGACA AATTTTGCGC AGCGGAAAAC GGGTGCTGGC
CGCGTGGTAC ACATCTGCAA TCTGCCGGAG GGAAGCTGCA CCGAGAATGA CGTCATTAAC
CTGGGGCTGC CCTTTGGAAA GGTCACTAAT TACATCCTCA TGAAGTCTAC TAATCAGGCC
TTTTTAGAGA TGGCTTACAC AGAGGCTGCC CAGGCCATGG TCCAGTATTA CCAAGAAAAA
TCTGCCATGA TCAATGGTGA GAAGTTGCTC ATTCGGATGT CCAAGAGATA CAAGGAATTG
CAGCTGAAGA AACCTGGGAA AACCGTGGCT GCCATCATCC AGGACATCCA TTCCCAGAGG
GAGAGGGACA TGTTCCGGGA AGCAGACAGA TACGGCCCAG AAAGGCCAAG ATCTCGAAGT
CCGGTGAGCC GGTCATTGTC CCCGAGGTCC CACACTCCGA GCTTCACCTC CTGCAGCTCT
TCTCACAGCC CCCCGGGCCC CTCTCGGGCC GACTGGGGCA ACGGCCGGGA CTCGTGGGAG
CACTCTCCCT ACGCCAGGAG GGAGGAAGAG CGAGGCCCGG TCCCCTGGAG GGAGAACGGG
GAGGACAAGA GGGACAGGAC GGACACATGG GCGCATGACC GCAAACAGTA CCCCCGGCAA
CTGGACAAGG CCGAGTTAGA TGAGCGACTG GAAGGAGGGA GGGGCTACCG AGAAAGGCAC
CCGAGGTCTG GGTCCCCCAA CCCGCTCCAC TCCGCGTCGG GATACAAAAG CCGAGAAGAC
GGCTACTACC GCAAAGAGTC CAAGGGCAAA TCGGACAAGT ATCTGAAGCA GCAGCAGGAT
GTCCCTGGGA GGTCCAGGAG GAAAGATGAG GCCAGGCTGC GGGAAGGCAG ACACCCCCCG
CCTGACGACT CGGGCAGGGA AGACGGGCTG GAACCGAAGG GCACCAAGTC GAAGCAGAGT
GAGAAAACCA GAACCAAGAG ACCTGATAGA GACCAAGACG GAGCTGATAG GAAAGAAAGC
AGAATGGCAG AGAATGAGGC TGAAAAAGAG GAACAGGACA GCATGGAAGA GAGACCCCTG
CATCTGGGCA GGCAGGAGAA AGAAACAGAG TCCTCTGATG CAGAGAACAA AAAGGCAAGG
AAGGAGCAAG ATTCGGAAAG TGGAAGTGAG GCAGAGGGGG AGAGCTGGTG CCCCACGAAC
ATGGAAGAGC TGGTTACAGT GGACGAGGTG GGGGAGGAAG AAGATTTTAT CATGGAACCG
GACATCCCAG AACTGGAGGA AATTGTGCCC ATTGAACAGA AGGACAAAAT CTGTCCAGAA
ATATGTCCCT GTGTGACAAC CACCTTAGAC CTGGACTTAG CCAAAGAGTT CACCAAGGAG
GGAGTCAAGA CCGTAGGTAA TGAGGCTGCG GAAATCAGCC TCAAGTCGCC CAAAGAGCTG
CCTTCTGCTT CCATGAGCTG TCCCCGTGAC ATGGACGTGG AAACGCCTGG CCTAAATCTG
GATGTTGAGC GGAAGCCAGC TGAATGCGAG ACGGGCCTCT CACTGGCGGG CTCAGATTGC
TACGAGAAGC AGGCAAAGGG AGGAGAGAGC TCAGATGTTC GTCTGGCCCC TACACTCCAG
CAAATGTCTT CCCCCAGGCC AGCAGAGGAG AGGGCCTGGC AGCCTGGCCC CTTTCTTGAT
GACTGTAAGG CCAGGGAGAC CCTGGAAGAT GGGGCTGGTG AAGGCAGCCC CTTGGAGGAG
AAAGCCAGCC CCCTCACCGA AACAGACCTC CAAAGCCAGC CTTGCCAAGG GGTGTCGACC
CAGGATAACT CCAGGTACAT GGAAATGAAA TCTCTGGACG TGAGGTCACT GGAATACGCT
GAAGTGGAGC TGAAACAGCC CCTTTCTTTG CCTTCCTGGG AACCTGAGGA TGTGTTCAGT
GAACTTAGCA TTCCTCTAGG GGTGGAGTTC GTGGTGCCCA GGACCGGCTT TTATTGCAAA
CTGTGCGGGC TGTTCTACAC GAGCGAGGAG ATGGCAAAGA TGAGCCACTG TCGCAGTGCT
GTCCACTACC GGAACTTACA GGGCAGCCGA CTGCACTGTG TTCTGGGCCT CCGGGCCAAA
CCCCCAGGCA GACTCGCCTC CCCACAGCAG ACCATTCCTG TGGTCCCAGG CATGTCAGGT
CCAGATGCTG GCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028337084.1 CDS 204..3758 Translation
Target ORF information:
RefSeq Version XM_028481283.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon RNA binding motif protein 20 (RBM20), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028481283.1
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
3541ATGATTTGTG CCCGGGCCAC ACTGGGGCCA CCAAGGCTTG GCTGCAACCA GCACAACCAC
CCAGAGGAGA AAAGTGCCGC CAAGCTCCTG GACAAGACCC CGTTCTCGGT CAGTAACCCA
AGCCCGCTGC TTCCTTCGCC CGCGAGCCTC CAGCTGGCTC AGCTGCAAGC TCAGCTCACC
CTCCACCGGC TAAAGCTGGC ACAGACGGCC GTCACCAACA ACACCGCGGC CGCCACCGTC
CTGAACCAAG TCCTCTCCAA AGTGGCCATG TCCCAGCCTC TCTTCAACCA GTTGAGGCAT
CCGTCCATGA TCAGCTCCCC GCATGGCCAC ACCGGGGTGC CCCAACACGC AGCAACCATG
CCCAGTGCCC GTTTTCCCTC TAATGCAATT GCCTTCTCGC CCCCGGGCCA GACACGAGGC
CCAGGGCCCT CTGTGAGCCT TCCCAGCCAG CCCCCCAATG CCATTGTGAT GCACCCTTTC
AGCGGGGTCA TGCCTCAGAC CCCTGCCCAG CCAGCAGTCA TCTTGGGCAT TGGCAAGACT
GGGCCCACCC CTGCTGCAGC GGGATTCTAC GAGTATGGCA AAGCCAACTC GGGCCAGGCA
TATGGCTCTG AAACTGATGG TCAGCCCAGT TTCCTGCCAG CCTCGGCCTC TACCTCGGGC
AGCGTGACCT ATGAAGGGCA CTACAGCCAC TCAGGGCAAG ATGGCCAAGC CGCCTTTCCC
AAGGACTTCT ACGGACCCAA CGCCCAAGGG TCGCAGGTGG CAGGTGGATT TGCGGCTGAG
CCGGCCGGGG GCTTGAAAGG CGAGGTAGGT CCGCTGCTGC AGGGTCCGAA CAGCCAGTGG
GAGAGCCCCC ATGGATTCTC TGGCCAAAGC AAGCCCGATC TTAGAGCAGT CCCCAACCTG
TGGCCTCCAG CCCCCAGCCA GCCCTATGAG CTGTATGACC CCGAGGAGCC CACCCCAGAC
AGGACCCCTC CTTCCTTTGG GGGTCGGCTC AACAACAGCA AACAGGGTTT CAGCGGAGCC
TGGCGGCGGG CCACGGAGGA GCAGGCGACG CTGTCCGTGC GGCCCTTGCA GGCGCATGAG
CTGAATGACT TTCACGGTGT GGCCCCCCTC CACCTGCCCC ACGTCTGTAG CATCTGCGAC
AAGAAGGTGT TTGATCTGAA GGACTGGGAG CTGCATGTAA AAGGGAAACT ACACGCTCAG
AAATGCCTGC TCTTCTCTGA AAACGCCGCT GTCCGGTGTG TACTCGGTTC AGCAGAGGGA
ACACTGTGTG CCTCTCCCAA CAGCACAGCC GTTTATAACC CTGCTGGGAA CGAAGATTAC
TCCTCAAATC TTGGAACATC ATATGCGGCC ATTCCTGCGA GGTCATTTAC TCAGTCAAAT
CCCGCATTCC CTTCAGCTTC CCCAGGGACA AATTTTGCGC AGCGGAAAAC GGGTGCTGGC
CGCGTGGTAC ACATCTGCAA TCTGCCGGAG GGAAGCTGCA CCGAGAATGA CGTCATTAAC
CTGGGGCTGC CCTTTGGAAA GGTCACTAAT TACATCCTCA TGAAGTCTAC TAATCAGGCC
TTTTTAGAGA TGGCTTACAC AGAGGCTGCC CAGGCCATGG TCCAGTATTA CCAAGAAAAA
TCTGCCATGA TCAATGGTGA GAAGTTGCTC ATTCGGATGT CCAAGAGATA CAAGGAATTG
CAGCTGAAGA AACCTGGGAA AACCGTGGCT GCCATCATCC AGGACATCCA TTCCCAGAGG
GAGAGGGACA TGTTCCGGGA AGCAGACAGA TACGGCCCAG AAAGGCCAAG ATCTCGAAGT
CCGGTGAGCC GGTCATTGTC CCCGAGGTCC CACACTCCGA GCTTCACCTC CTGCAGCTCT
TCTCACAGCC CCCCGGGCCC CTCTCGGGCC GACTGGGGCA ACGGCCGGGA CTCGTGGGAG
CACTCTCCCT ACGCCAGGAG GGAGGAAGAG CGAGGCCCGG TCCCCTGGAG GGAGAACGGG
GAGGACAAGA GGGACAGGAC GGACACATGG GCGCATGACC GCAAACAGTA CCCCCGGCAA
CTGGACAAGG CCGAGTTAGA TGAGCGACTG GAAGGAGGGA GGGGCTACCG AGAAAGGCAC
CCGAGGTCTG GGTCCCCCAA CCCGCTCCAC TCCGCGTCGG GATACAAAAG CCGAGAAGAC
GGCTACTACC GCAAAGAGTC CAAGGGCAAA TCGGACAAGT ATCTGAAGCA GCAGCAGGAT
GTCCCTGGGA GGTCCAGGAG GAAAGATGAG GCCAGGCTGC GGGAAGGCAG ACACCCCCCG
CCTGACGACT CGGGCAGGGA AGACGGGCTG GAACCGAAGG GCACCAAGTC GAAGCAGAGT
GAGAAAACCA GAACCAAGAG ACCTGATAGA GACCAAGACG GAGCTGATAG GAAAGAAAGC
AGAATGGCAG AGAATGAGGC TGAAAAAGAG GAACAGGACA GCATGGAAGA GAGACCCCTG
CATCTGGGCA GGCAGGAGAA AGAAACAGAG TCCTCTGATG CAGAGAACAA AAAGGCAAGG
AAGGAGCAAG ATTCGGAAAG TGGAAGTGAG GCAGAGGGGG AGAGCTGGTG CCCCACGAAC
ATGGAAGAGC TGGTTACAGT GGACGAGGTG GGGGAGGAAG AAGATTTTAT CATGGAACCG
GACATCCCAG AACTGGAGGA AATTGTGCCC ATTGAACAGA AGGACAAAAT CTGTCCAGAA
ATATGTCCCT GTGTGACAAC CACCTTAGAC CTGGACTTAG CCAAAGAGTT CACCAAGGAG
GGAGTCAAGA CCGTAGGTAA TGAGGCTGCG GAAATCAGCC TCAAGTCGCC CAAAGAGCTG
CCTTCTGCTT CCATGAGCTG TCCCCGTGAC ATGGACGTGG AAACGCCTGG CCTAAATCTG
GATGTTGAGC GGAAGCCAGC TGAATGCGAG ACGGGCCTCT CACTGGCGGG CTCAGATTGC
TACGAGAAGC AGGCAAAGGG AGGAGAGAGC TCAGATGTTC GTCTGGCCCC TACACTCCAG
CAAATGTCTT CCCCCAGGCC AGCAGAGGAG AGGGCCTGGC AGCCTGGCCC CTTTCTTGAT
GACTGTAAGG CCAGGGAGAC CCTGGAAGAT GGGGCTGGTG AAGGCAGCCC CTTGGAGGAG
AAAGCCAGCC CCCTCACCGA AACAGACCTC CAAAGCCAGC CTTGCCAAGG GGTGTCGACC
CAGGATAACT CCAGGTACAT GGAAATGAAA TCTCTGGACG TGAGGTCACT GGAATACGCT
GAAGTGGAGC TGAAACAGCC CCTTTCTTTG CCTTCCTGGG AACCTGAGGA TGTGTTCAGT
GAACTTAGCA TTCCTCTAGG GGTGGAGTTC GTGGTGCCCA GGACCGGCTT TTATTGCAAA
CTGTGCGGGC TGTTCTACAC GAGCGAGGAG ATGGCAAAGA TGAGCCACTG TCGCAGTGCT
GTCCACTACC GGAACTTACA GGGCAGCCGA CTGCACTGTG TTCTGGGCCT CCGGGCCAAA
CCCCCAGGCA GACTCGCCTC CCCACAGCAG ACCATTCCTG TGGTCCCAGG CATGTCAGGT
CCAGATGCTG GCTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh326487 Clone ID Related Accession (Same CDS sequence) XM_028481284.1 Accession Version XM_028481284.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3492bp)
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 RNA-binding protein 20 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041233.1) 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
3481ATGCTGGCAA GTGCCGCCAA GCTCCTGGAC AAGACCCCGT TCTCGGTCAG TAACCCAAGC
CCGCTGCTTC CTTCGCCCGC GAGCCTCCAG CTGGCTCAGC TGCAAGCTCA GCTCACCCTC
CACCGGCTAA AGCTGGCACA GACGGCCGTC ACCAACAACA CCGCGGCCGC CACCGTCCTG
AACCAAGTCC TCTCCAAAGT GGCCATGTCC CAGCCTCTCT TCAACCAGTT GAGGCATCCG
TCCATGATCA GCTCCCCGCA TGGCCACACC GGGGTGCCCC AACACGCAGC AACCATGCCC
AGTGCCCGTT TTCCCTCTAA TGCAATTGCC TTCTCGCCCC CGGGCCAGAC ACGAGGCCCA
GGGCCCTCTG TGAGCCTTCC CAGCCAGCCC CCCAATGCCA TTGTGATGCA CCCTTTCAGC
GGGGTCATGC CTCAGACCCC TGCCCAGCCA GCAGTCATCT TGGGCATTGG CAAGACTGGG
CCCACCCCTG CTGCAGCGGG ATTCTACGAG TATGGCAAAG CCAACTCGGG CCAGGCATAT
GGCTCTGAAA CTGATGGTCA GCCCAGTTTC CTGCCAGCCT CGGCCTCTAC CTCGGGCAGC
GTGACCTATG AAGGGCACTA CAGCCACTCA GGGCAAGATG GCCAAGCCGC CTTTCCCAAG
GACTTCTACG GACCCAACGC CCAAGGGTCG CAGGTGGCAG GTGGATTTGC GGCTGAGCCG
GCCGGGGGCT TGAAAGGCGA GGTAGGTCCG CTGCTGCAGG GTCCGAACAG CCAGTGGGAG
AGCCCCCATG GATTCTCTGG CCAAAGCAAG CCCGATCTTA GAGCAGTCCC CAACCTGTGG
CCTCCAGCCC CCAGCCAGCC CTATGAGCTG TATGACCCCG AGGAGCCCAC CCCAGACAGG
ACCCCTCCTT CCTTTGGGGG TCGGCTCAAC AACAGCAAAC AGGGTTTCAG CGGAGCCTGG
CGGCGGGCCA CGGAGGAGCA GGCGACGCTG TCCGTGCGGC CCTTGCAGGC GCATGAGCTG
AATGACTTTC ACGGTGTGGC CCCCCTCCAC CTGCCCCACG TCTGTAGCAT CTGCGACAAG
AAGGTGTTTG ATCTGAAGGA CTGGGAGCTG CATGTAAAAG GGAAACTACA CGCTCAGAAA
TGCCTGCTCT TCTCTGAAAA CGCCGCTGTC CGGTGTGTAC TCGGTTCAGC AGAGGGAACA
CTGTGTGCCT CTCCCAACAG CACAGCCGTT TATAACCCTG CTGGGAACGA AGATTACTCC
TCAAATCTTG GAACATCATA TGCGGCCATT CCTGCGAGGT CATTTACTCA GTCAAATCCC
GCATTCCCTT CAGCTTCCCC AGGGACAAAT TTTGCGCAGC GGAAAACGGG TGCTGGCCGC
GTGGTACACA TCTGCAATCT GCCGGAGGGA AGCTGCACCG AGAATGACGT CATTAACCTG
GGGCTGCCCT TTGGAAAGGT CACTAATTAC ATCCTCATGA AGTCTACTAA TCAGGCCTTT
TTAGAGATGG CTTACACAGA GGCTGCCCAG GCCATGGTCC AGTATTACCA AGAAAAATCT
GCCATGATCA ATGGTGAGAA GTTGCTCATT CGGATGTCCA AGAGATACAA GGAATTGCAG
CTGAAGAAAC CTGGGAAAAC CGTGGCTGCC ATCATCCAGG ACATCCATTC CCAGAGGGAG
AGGGACATGT TCCGGGAAGC AGACAGATAC GGCCCAGAAA GGCCAAGATC TCGAAGTCCG
GTGAGCCGGT CATTGTCCCC GAGGTCCCAC ACTCCGAGCT TCACCTCCTG CAGCTCTTCT
CACAGCCCCC CGGGCCCCTC TCGGGCCGAC TGGGGCAACG GCCGGGACTC GTGGGAGCAC
TCTCCCTACG CCAGGAGGGA GGAAGAGCGA GGCCCGGTCC CCTGGAGGGA GAACGGGGAG
GACAAGAGGG ACAGGACGGA CACATGGGCG CATGACCGCA AACAGTACCC CCGGCAACTG
GACAAGGCCG AGTTAGATGA GCGACTGGAA GGAGGGAGGG GCTACCGAGA AAGGCACCCG
AGGTCTGGGT CCCCCAACCC GCTCCACTCC GCGTCGGGAT ACAAAAGCCG AGAAGACGGC
TACTACCGCA AAGAGTCCAA GGGCAAATCG GACAAGTATC TGAAGCAGCA GCAGGATGTC
CCTGGGAGGT CCAGGAGGAA AGATGAGGCC AGGCTGCGGG AAGGCAGACA CCCCCCGCCT
GACGACTCGG GCAGGGAAGA CGGGCTGGAA CCGAAGGGCA CCAAGTCGAA GCAGAGTGAG
AAAACCAGAA CCAAGAGACC TGATAGAGAC CAAGACGGAG CTGATAGGAA AGAAAGCAGA
ATGGCAGAGA ATGAGGCTGA AAAAGAGGAA CAGGACAGCA TGGAAGAGAG ACCCCTGCAT
CTGGGCAGGC AGGAGAAAGA AACAGAGTCC TCTGATGCAG AGAACAAAAA GGCAAGGAAG
GAGCAAGATT CGGAAAGTGG AAGTGAGGCA GAGGGGGAGA GCTGGTGCCC CACGAACATG
GAAGAGCTGG TTACAGTGGA CGAGGTGGGG GAGGAAGAAG ATTTTATCAT GGAACCGGAC
ATCCCAGAAC TGGAGGAAAT TGTGCCCATT GAACAGAAGG ACAAAATCTG TCCAGAAATA
TGTCCCTGTG TGACAACCAC CTTAGACCTG GACTTAGCCA AAGAGTTCAC CAAGGAGGGA
GTCAAGACCG TAGGTAATGA GGCTGCGGAA ATCAGCCTCA AGTCGCCCAA AGAGCTGCCT
TCTGCTTCCA TGAGCTGTCC CCGTGACATG GACGTGGAAA CGCCTGGCCT AAATCTGGAT
GTTGAGCGGA AGCCAGCTGA ATGCGAGACG GGCCTCTCAC TGGCGGGCTC AGATTGCTAC
GAGAAGCAGG CAAAGGGAGG AGAGAGCTCA GATGTTCGTC TGGCCCCTAC ACTCCAGCAA
ATGTCTTCCC CCAGGCCAGC AGAGGAGAGG GCCTGGCAGC CTGGCCCCTT TCTTGATGAC
TGTAAGGCCA GGGAGACCCT GGAAGATGGG GCTGGTGAAG GCAGCCCCTT GGAGGAGAAA
GCCAGCCCCC TCACCGAAAC AGACCTCCAA AGCCAGCCTT GCCAAGGGGT GTCGACCCAG
GATAACTCCA GGTACATGGA AATGAAATCT CTGGACGTGA GGTCACTGGA ATACGCTGAA
GTGGAGCTGA AACAGCCCCT TTCTTTGCCT TCCTGGGAAC CTGAGGATGT GTTCAGTGAA
CTTAGCATTC CTCTAGGGGT GGAGTTCGTG GTGCCCAGGA CCGGCTTTTA TTGCAAACTG
TGCGGGCTGT TCTACACGAG CGAGGAGATG GCAAAGATGA GCCACTGTCG CAGTGCTGTC
CACTACCGGA ACTTACAGGG CAGCCGACTG CACTGTGTTC TGGGCCTCCG GGCCAAACCC
CCAGGCAGAC TCGCCTCCCC ACAGCAGACC ATTCCTGTGG TCCCAGGCAT GTCAGGTCCA
GATGCTGGCT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028337085.1 CDS 16..3507 Translation
Target ORF information:
RefSeq Version XM_028481284.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon RNA binding motif protein 20 (RBM20), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028481284.1
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
3481ATGCTGGCAA GTGCCGCCAA GCTCCTGGAC AAGACCCCGT TCTCGGTCAG TAACCCAAGC
CCGCTGCTTC CTTCGCCCGC GAGCCTCCAG CTGGCTCAGC TGCAAGCTCA GCTCACCCTC
CACCGGCTAA AGCTGGCACA GACGGCCGTC ACCAACAACA CCGCGGCCGC CACCGTCCTG
AACCAAGTCC TCTCCAAAGT GGCCATGTCC CAGCCTCTCT TCAACCAGTT GAGGCATCCG
TCCATGATCA GCTCCCCGCA TGGCCACACC GGGGTGCCCC AACACGCAGC AACCATGCCC
AGTGCCCGTT TTCCCTCTAA TGCAATTGCC TTCTCGCCCC CGGGCCAGAC ACGAGGCCCA
GGGCCCTCTG TGAGCCTTCC CAGCCAGCCC CCCAATGCCA TTGTGATGCA CCCTTTCAGC
GGGGTCATGC CTCAGACCCC TGCCCAGCCA GCAGTCATCT TGGGCATTGG CAAGACTGGG
CCCACCCCTG CTGCAGCGGG ATTCTACGAG TATGGCAAAG CCAACTCGGG CCAGGCATAT
GGCTCTGAAA CTGATGGTCA GCCCAGTTTC CTGCCAGCCT CGGCCTCTAC CTCGGGCAGC
GTGACCTATG AAGGGCACTA CAGCCACTCA GGGCAAGATG GCCAAGCCGC CTTTCCCAAG
GACTTCTACG GACCCAACGC CCAAGGGTCG CAGGTGGCAG GTGGATTTGC GGCTGAGCCG
GCCGGGGGCT TGAAAGGCGA GGTAGGTCCG CTGCTGCAGG GTCCGAACAG CCAGTGGGAG
AGCCCCCATG GATTCTCTGG CCAAAGCAAG CCCGATCTTA GAGCAGTCCC CAACCTGTGG
CCTCCAGCCC CCAGCCAGCC CTATGAGCTG TATGACCCCG AGGAGCCCAC CCCAGACAGG
ACCCCTCCTT CCTTTGGGGG TCGGCTCAAC AACAGCAAAC AGGGTTTCAG CGGAGCCTGG
CGGCGGGCCA CGGAGGAGCA GGCGACGCTG TCCGTGCGGC CCTTGCAGGC GCATGAGCTG
AATGACTTTC ACGGTGTGGC CCCCCTCCAC CTGCCCCACG TCTGTAGCAT CTGCGACAAG
AAGGTGTTTG ATCTGAAGGA CTGGGAGCTG CATGTAAAAG GGAAACTACA CGCTCAGAAA
TGCCTGCTCT TCTCTGAAAA CGCCGCTGTC CGGTGTGTAC TCGGTTCAGC AGAGGGAACA
CTGTGTGCCT CTCCCAACAG CACAGCCGTT TATAACCCTG CTGGGAACGA AGATTACTCC
TCAAATCTTG GAACATCATA TGCGGCCATT CCTGCGAGGT CATTTACTCA GTCAAATCCC
GCATTCCCTT CAGCTTCCCC AGGGACAAAT TTTGCGCAGC GGAAAACGGG TGCTGGCCGC
GTGGTACACA TCTGCAATCT GCCGGAGGGA AGCTGCACCG AGAATGACGT CATTAACCTG
GGGCTGCCCT TTGGAAAGGT CACTAATTAC ATCCTCATGA AGTCTACTAA TCAGGCCTTT
TTAGAGATGG CTTACACAGA GGCTGCCCAG GCCATGGTCC AGTATTACCA AGAAAAATCT
GCCATGATCA ATGGTGAGAA GTTGCTCATT CGGATGTCCA AGAGATACAA GGAATTGCAG
CTGAAGAAAC CTGGGAAAAC CGTGGCTGCC ATCATCCAGG ACATCCATTC CCAGAGGGAG
AGGGACATGT TCCGGGAAGC AGACAGATAC GGCCCAGAAA GGCCAAGATC TCGAAGTCCG
GTGAGCCGGT CATTGTCCCC GAGGTCCCAC ACTCCGAGCT TCACCTCCTG CAGCTCTTCT
CACAGCCCCC CGGGCCCCTC TCGGGCCGAC TGGGGCAACG GCCGGGACTC GTGGGAGCAC
TCTCCCTACG CCAGGAGGGA GGAAGAGCGA GGCCCGGTCC CCTGGAGGGA GAACGGGGAG
GACAAGAGGG ACAGGACGGA CACATGGGCG CATGACCGCA AACAGTACCC CCGGCAACTG
GACAAGGCCG AGTTAGATGA GCGACTGGAA GGAGGGAGGG GCTACCGAGA AAGGCACCCG
AGGTCTGGGT CCCCCAACCC GCTCCACTCC GCGTCGGGAT ACAAAAGCCG AGAAGACGGC
TACTACCGCA AAGAGTCCAA GGGCAAATCG GACAAGTATC TGAAGCAGCA GCAGGATGTC
CCTGGGAGGT CCAGGAGGAA AGATGAGGCC AGGCTGCGGG AAGGCAGACA CCCCCCGCCT
GACGACTCGG GCAGGGAAGA CGGGCTGGAA CCGAAGGGCA CCAAGTCGAA GCAGAGTGAG
AAAACCAGAA CCAAGAGACC TGATAGAGAC CAAGACGGAG CTGATAGGAA AGAAAGCAGA
ATGGCAGAGA ATGAGGCTGA AAAAGAGGAA CAGGACAGCA TGGAAGAGAG ACCCCTGCAT
CTGGGCAGGC AGGAGAAAGA AACAGAGTCC TCTGATGCAG AGAACAAAAA GGCAAGGAAG
GAGCAAGATT CGGAAAGTGG AAGTGAGGCA GAGGGGGAGA GCTGGTGCCC CACGAACATG
GAAGAGCTGG TTACAGTGGA CGAGGTGGGG GAGGAAGAAG ATTTTATCAT GGAACCGGAC
ATCCCAGAAC TGGAGGAAAT TGTGCCCATT GAACAGAAGG ACAAAATCTG TCCAGAAATA
TGTCCCTGTG TGACAACCAC CTTAGACCTG GACTTAGCCA AAGAGTTCAC CAAGGAGGGA
GTCAAGACCG TAGGTAATGA GGCTGCGGAA ATCAGCCTCA AGTCGCCCAA AGAGCTGCCT
TCTGCTTCCA TGAGCTGTCC CCGTGACATG GACGTGGAAA CGCCTGGCCT AAATCTGGAT
GTTGAGCGGA AGCCAGCTGA ATGCGAGACG GGCCTCTCAC TGGCGGGCTC AGATTGCTAC
GAGAAGCAGG CAAAGGGAGG AGAGAGCTCA GATGTTCGTC TGGCCCCTAC ACTCCAGCAA
ATGTCTTCCC CCAGGCCAGC AGAGGAGAGG GCCTGGCAGC CTGGCCCCTT TCTTGATGAC
TGTAAGGCCA GGGAGACCCT GGAAGATGGG GCTGGTGAAG GCAGCCCCTT GGAGGAGAAA
GCCAGCCCCC TCACCGAAAC AGACCTCCAA AGCCAGCCTT GCCAAGGGGT GTCGACCCAG
GATAACTCCA GGTACATGGA AATGAAATCT CTGGACGTGA GGTCACTGGA ATACGCTGAA
GTGGAGCTGA AACAGCCCCT TTCTTTGCCT TCCTGGGAAC CTGAGGATGT GTTCAGTGAA
CTTAGCATTC CTCTAGGGGT GGAGTTCGTG GTGCCCAGGA CCGGCTTTTA TTGCAAACTG
TGCGGGCTGT TCTACACGAG CGAGGAGATG GCAAAGATGA GCCACTGTCG CAGTGCTGTC
CACTACCGGA ACTTACAGGG CAGCCGACTG CACTGTGTTC TGGGCCTCCG GGCCAAACCC
CCAGGCAGAC TCGCCTCCCC ACAGCAGACC ATTCCTGTGG TCCCAGGCAT GTCAGGTCCA
GATGCTGGCT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OPh326488 Clone ID Related Accession (Same CDS sequence) XM_028481285.1 Accession Version XM_028481285.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3282bp)
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 RNA-binding protein 20 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041233.1) 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
3241ATGAGCCAGG ACGCCGAGCC CAGCGGCGCC GAGCAACCGG ACAGAGATGC CCGCAGCGTG
CCCGGTGCCC CGGCGCCCCC GGCGCCCCCA GGCCCGAGAG GGATGCAGCC GCCGCCACCG
CCTCCGCCCC AAGCCGGCCT ACCCCAGATC ATCCAAAATG CCGCCAAGCT CCTGGACAAG
ACCCCGTTCT CGGTCAGTAA CCCAAGCCCG CTGCTTCCTT CGCCCGCGAG CCTCCAGCTG
GCTCAGCTGC AAGCTCAGCT CACCCTCCAC CGGCTAAAGC TGGCACAGAC GGCCGTCACC
AACAACACCG CGGCCGCCAC CGTCCTGAAC CAAGTCCTCT CCAAAGTGGC CATGTCCCAG
CCTCTCTTCA ACCAGTTGAG GCATCCGTCC ATGATCAGCT CCCCGCATGG CCACACCGGG
GTGCCCCAAC ACGCAGCAAC CATGCCCAGT GCCCGTTTTC CCTCTAATGC AATTGCCTTC
TCGCCCCCGG GCCAGACACG AGGCCCAGGG CCCTCTGTGA GCCTTCCCAG CCAGCCCCCC
AATGCCATTG TGATGCACCC TTTCAGCGGG GTCATGCCTC AGACCCCTGC CCAGCCAGCA
GTCATCTTGG GCATTGGCAA GACTGGGCCC ACCCCTGCTG CAGCGGGATT CTACGAGTAT
GGCAAAGCCA ACTCGGGCCA GGCATATGGC TCTGAAACTG ATGGTCAGCC CAGTTTCCTG
CCAGCCTCGG CCTCTACCTC GGGCAGCGTG ACCTATGAAG GGCACTACAG CCACTCAGGG
CAAGATGGCC AAGCCGCCTT TCCCAAGGAC TTCTACGGAC CCAACGCCCA AGGGTCGCAG
GTGGCAGGTG GATTTGCGGC TGAGCCGGCC GGGGGCTTGA AAGGCGAGGA CTGGGAGCTG
CATGTAAAAG GGAAACTACA CGCTCAGAAA TGCCTGCTCT TCTCTGAAAA CGCCGCTGTC
CGGTGTGTAC TCGGTTCAGC AGAGGGAACA CTGTGTGCCT CTCCCAACAG CACAGCCGTT
TATAACCCTG CTGGGAACGA AGATTACTCC TCAAATCTTG GAACATCATA TGCGGCCATT
CCTGCGAGGT CATTTACTCA GTCAAATCCC GCATTCCCTT CAGCTTCCCC AGGGACAAAT
TTTGCGCAGC GGAAAACGGG TGCTGGCCGC GTGGTACACA TCTGCAATCT GCCGGAGGGA
AGCTGCACCG AGAATGACGT CATTAACCTG GGGCTGCCCT TTGGAAAGGT CACTAATTAC
ATCCTCATGA AGTCTACTAA TCAGGCCTTT TTAGAGATGG CTTACACAGA GGCTGCCCAG
GCCATGGTCC AGTATTACCA AGAAAAATCT GCCATGATCA ATGGTGAGAA GTTGCTCATT
CGGATGTCCA AGAGATACAA GGAATTGCAG CTGAAGAAAC CTGGGAAAAC CGTGGCTGCC
ATCATCCAGG ACATCCATTC CCAGAGGGAG AGGGACATGT TCCGGGAAGC AGACAGATAC
GGCCCAGAAA GGCCAAGATC TCGAAGTCCG GTGAGCCGGT CATTGTCCCC GAGGTCCCAC
ACTCCGAGCT TCACCTCCTG CAGCTCTTCT CACAGCCCCC CGGGCCCCTC TCGGGCCGAC
TGGGGCAACG GCCGGGACTC GTGGGAGCAC TCTCCCTACG CCAGGAGGGA GGAAGAGCGA
GGCCCGGTCC CCTGGAGGGA GAACGGGGAG GACAAGAGGG ACAGGACGGA CACATGGGCG
CATGACCGCA AACAGTACCC CCGGCAACTG GACAAGGCCG AGTTAGATGA GCGACTGGAA
GGAGGGAGGG GCTACCGAGA AAGGCACCCG AGGTCTGGGT CCCCCAACCC GCTCCACTCC
GCGTCGGGAT ACAAAAGCCG AGAAGACGGC TACTACCGCA AAGAGTCCAA GGGCAAATCG
GACAAGTATC TGAAGCAGCA GCAGGATGTC CCTGGGAGGT CCAGGAGGAA AGATGAGGCC
AGGCTGCGGG AAGGCAGACA CCCCCCGCCT GACGACTCGG GCAGGGAAGA CGGGCTGGAA
CCGAAGGGCA CCAAGTCGAA GCAGAGTGAG AAAACCAGAA CCAAGAGACC TGATAGAGAC
CAAGACGGAG CTGATAGGAA AGAAAGCAGA ATGGCAGAGA ATGAGGCTGA AAAAGAGGAA
CAGGACAGCA TGGAAGAGAG ACCCCTGCAT CTGGGCAGGC AGGAGAAAGA AACAGAGTCC
TCTGATGCAG AGAACAAAAA GGCAAGGAAG GAGCAAGATT CGGAAAGTGG AAGTGAGGCA
GAGGGGGAGA GCTGGTGCCC CACGAACATG GAAGAGCTGG TTACAGTGGA CGAGGTGGGG
GAGGAAGAAG ATTTTATCAT GGAACCGGAC ATCCCAGAAC TGGAGGAAAT TGTGCCCATT
GAACAGAAGG ACAAAATCTG TCCAGAAATA TGTCCCTGTG TGACAACCAC CTTAGACCTG
GACTTAGCCA AAGAGTTCAC CAAGGAGGGA GTCAAGACCG TAGGTAATGA GGCTGCGGAA
ATCAGCCTCA AGTCGCCCAA AGAGCTGCCT TCTGCTTCCA TGAGCTGTCC CCGTGACATG
GACGTGGAAA CGCCTGGCCT AAATCTGGAT GTTGAGCGGA AGCCAGCTGA ATGCGAGACG
GGCCTCTCAC TGGCGGGCTC AGATTGCTAC GAGAAGCAGG CAAAGGGAGG AGAGAGCTCA
GATGTTCGTC TGGCCCCTAC ACTCCAGCAA ATGTCTTCCC CCAGGCCAGC AGAGGAGAGG
GCCTGGCAGC CTGGCCCCTT TCTTGATGAC TGTAAGGCCA GGGAGACCCT GGAAGATGGG
GCTGGTGAAG GCAGCCCCTT GGAGGAGAAA GCCAGCCCCC TCACCGAAAC AGACCTCCAA
AGCCAGCCTT GCCAAGGGGT GTCGACCCAG GATAACTCCA GGTACATGGA AATGAAATCT
CTGGACGTGA GGTCACTGGA ATACGCTGAA GTGGAGCTGA AACAGCCCCT TTCTTTGCCT
TCCTGGGAAC CTGAGGATGT GTTCAGTGAA CTTAGCATTC CTCTAGGGGT GGAGTTCGTG
GTGCCCAGGA CCGGCTTTTA TTGCAAACTG TGCGGGCTGT TCTACACGAG CGAGGAGATG
GCAAAGATGA GCCACTGTCG CAGTGCTGTC CACTACCGGA ACTTACAGGG CAGCCGACTG
CACTGTGTTC TGGGCCTCCG GGCCAAACCC CCAGGCAGAC TCGCCTCCCC ACAGCAGACC
ATTCCTGTGG TCCCAGGCAT GTCAGGTCCA GATGCTGGCT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_028337086.1 CDS 105..3386 Translation
Target ORF information:
RefSeq Version XM_028481285.1 Organism Physeter catodon(sperm whale) Definition Physeter catodon RNA binding motif protein 20 (RBM20), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_028481285.1
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
3241ATGAGCCAGG ACGCCGAGCC CAGCGGCGCC GAGCAACCGG ACAGAGATGC CCGCAGCGTG
CCCGGTGCCC CGGCGCCCCC GGCGCCCCCA GGCCCGAGAG GGATGCAGCC GCCGCCACCG
CCTCCGCCCC AAGCCGGCCT ACCCCAGATC ATCCAAAATG CCGCCAAGCT CCTGGACAAG
ACCCCGTTCT CGGTCAGTAA CCCAAGCCCG CTGCTTCCTT CGCCCGCGAG CCTCCAGCTG
GCTCAGCTGC AAGCTCAGCT CACCCTCCAC CGGCTAAAGC TGGCACAGAC GGCCGTCACC
AACAACACCG CGGCCGCCAC CGTCCTGAAC CAAGTCCTCT CCAAAGTGGC CATGTCCCAG
CCTCTCTTCA ACCAGTTGAG GCATCCGTCC ATGATCAGCT CCCCGCATGG CCACACCGGG
GTGCCCCAAC ACGCAGCAAC CATGCCCAGT GCCCGTTTTC CCTCTAATGC AATTGCCTTC
TCGCCCCCGG GCCAGACACG AGGCCCAGGG CCCTCTGTGA GCCTTCCCAG CCAGCCCCCC
AATGCCATTG TGATGCACCC TTTCAGCGGG GTCATGCCTC AGACCCCTGC CCAGCCAGCA
GTCATCTTGG GCATTGGCAA GACTGGGCCC ACCCCTGCTG CAGCGGGATT CTACGAGTAT
GGCAAAGCCA ACTCGGGCCA GGCATATGGC TCTGAAACTG ATGGTCAGCC CAGTTTCCTG
CCAGCCTCGG CCTCTACCTC GGGCAGCGTG ACCTATGAAG GGCACTACAG CCACTCAGGG
CAAGATGGCC AAGCCGCCTT TCCCAAGGAC TTCTACGGAC CCAACGCCCA AGGGTCGCAG
GTGGCAGGTG GATTTGCGGC TGAGCCGGCC GGGGGCTTGA AAGGCGAGGA CTGGGAGCTG
CATGTAAAAG GGAAACTACA CGCTCAGAAA TGCCTGCTCT TCTCTGAAAA CGCCGCTGTC
CGGTGTGTAC TCGGTTCAGC AGAGGGAACA CTGTGTGCCT CTCCCAACAG CACAGCCGTT
TATAACCCTG CTGGGAACGA AGATTACTCC TCAAATCTTG GAACATCATA TGCGGCCATT
CCTGCGAGGT CATTTACTCA GTCAAATCCC GCATTCCCTT CAGCTTCCCC AGGGACAAAT
TTTGCGCAGC GGAAAACGGG TGCTGGCCGC GTGGTACACA TCTGCAATCT GCCGGAGGGA
AGCTGCACCG AGAATGACGT CATTAACCTG GGGCTGCCCT TTGGAAAGGT CACTAATTAC
ATCCTCATGA AGTCTACTAA TCAGGCCTTT TTAGAGATGG CTTACACAGA GGCTGCCCAG
GCCATGGTCC AGTATTACCA AGAAAAATCT GCCATGATCA ATGGTGAGAA GTTGCTCATT
CGGATGTCCA AGAGATACAA GGAATTGCAG CTGAAGAAAC CTGGGAAAAC CGTGGCTGCC
ATCATCCAGG ACATCCATTC CCAGAGGGAG AGGGACATGT TCCGGGAAGC AGACAGATAC
GGCCCAGAAA GGCCAAGATC TCGAAGTCCG GTGAGCCGGT CATTGTCCCC GAGGTCCCAC
ACTCCGAGCT TCACCTCCTG CAGCTCTTCT CACAGCCCCC CGGGCCCCTC TCGGGCCGAC
TGGGGCAACG GCCGGGACTC GTGGGAGCAC TCTCCCTACG CCAGGAGGGA GGAAGAGCGA
GGCCCGGTCC CCTGGAGGGA GAACGGGGAG GACAAGAGGG ACAGGACGGA CACATGGGCG
CATGACCGCA AACAGTACCC CCGGCAACTG GACAAGGCCG AGTTAGATGA GCGACTGGAA
GGAGGGAGGG GCTACCGAGA AAGGCACCCG AGGTCTGGGT CCCCCAACCC GCTCCACTCC
GCGTCGGGAT ACAAAAGCCG AGAAGACGGC TACTACCGCA AAGAGTCCAA GGGCAAATCG
GACAAGTATC TGAAGCAGCA GCAGGATGTC CCTGGGAGGT CCAGGAGGAA AGATGAGGCC
AGGCTGCGGG AAGGCAGACA CCCCCCGCCT GACGACTCGG GCAGGGAAGA CGGGCTGGAA
CCGAAGGGCA CCAAGTCGAA GCAGAGTGAG AAAACCAGAA CCAAGAGACC TGATAGAGAC
CAAGACGGAG CTGATAGGAA AGAAAGCAGA ATGGCAGAGA ATGAGGCTGA AAAAGAGGAA
CAGGACAGCA TGGAAGAGAG ACCCCTGCAT CTGGGCAGGC AGGAGAAAGA AACAGAGTCC
TCTGATGCAG AGAACAAAAA GGCAAGGAAG GAGCAAGATT CGGAAAGTGG AAGTGAGGCA
GAGGGGGAGA GCTGGTGCCC CACGAACATG GAAGAGCTGG TTACAGTGGA CGAGGTGGGG
GAGGAAGAAG ATTTTATCAT GGAACCGGAC ATCCCAGAAC TGGAGGAAAT TGTGCCCATT
GAACAGAAGG ACAAAATCTG TCCAGAAATA TGTCCCTGTG TGACAACCAC CTTAGACCTG
GACTTAGCCA AAGAGTTCAC CAAGGAGGGA GTCAAGACCG TAGGTAATGA GGCTGCGGAA
ATCAGCCTCA AGTCGCCCAA AGAGCTGCCT TCTGCTTCCA TGAGCTGTCC CCGTGACATG
GACGTGGAAA CGCCTGGCCT AAATCTGGAT GTTGAGCGGA AGCCAGCTGA ATGCGAGACG
GGCCTCTCAC TGGCGGGCTC AGATTGCTAC GAGAAGCAGG CAAAGGGAGG AGAGAGCTCA
GATGTTCGTC TGGCCCCTAC ACTCCAGCAA ATGTCTTCCC CCAGGCCAGC AGAGGAGAGG
GCCTGGCAGC CTGGCCCCTT TCTTGATGAC TGTAAGGCCA GGGAGACCCT GGAAGATGGG
GCTGGTGAAG GCAGCCCCTT GGAGGAGAAA GCCAGCCCCC TCACCGAAAC AGACCTCCAA
AGCCAGCCTT GCCAAGGGGT GTCGACCCAG GATAACTCCA GGTACATGGA AATGAAATCT
CTGGACGTGA GGTCACTGGA ATACGCTGAA GTGGAGCTGA AACAGCCCCT TTCTTTGCCT
TCCTGGGAAC CTGAGGATGT GTTCAGTGAA CTTAGCATTC CTCTAGGGGT GGAGTTCGTG
GTGCCCAGGA CCGGCTTTTA TTGCAAACTG TGCGGGCTGT TCTACACGAG CGAGGAGATG
GCAAAGATGA GCCACTGTCG CAGTGCTGTC CACTACCGGA ACTTACAGGG CAGCCGACTG
CACTGTGTTC TGGGCCTCCG GGCCAAACCC CCAGGCAGAC TCGCCTCCCC ACAGCAGACC
ATTCCTGTGG TCCCAGGCAT GTCAGGTCCA GATGCTGGCT AAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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