| Gene Symbol | USP28 |
| Entrez Gene ID | 100232055 |
| Full Name | ubiquitin specific peptidase 28 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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USP28 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following USP28 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP28 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 OTd05947 Clone ID Related Accession (Same CDS sequence) XM_002188696.3 Accession Version XM_002188696.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3087bp)
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 1432483200000 Organism Taeniopygia guttata(zebra finch) Product ubiquitin carboxyl-terminal hydrolase 28 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198023.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On May 26, 2015 this sequence version replaced XM_002188696.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 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
3061ATGAAAGAGA TCACAGGAAT TCAGGATTCA GCATTCCTGC TTGCTGCTCT AAAGGCTGCT
GATGGAGATC TCATGGAAGC AGTCACCTTC CTGACGGAGG ACCCTGCTCC GGAGCCTGTG
CAGAGCCCAG CTGCTGCAGA GCTGTCTGCC TGGGAAGGGA GCACAGTGGG CAAACAGCTC
CCACAGGATG TTGGTACTGC AGCTGCCCCT CACAACCAAG ACAACCTCCG CACAGCCAAC
ACTGTCAGAC CACTGGAATC ACCAAAAGCT CCAGCTGCAG AAAGTGATGC AGCTGAAAGA
CCACAGGACG CCCATTCTGC TGAAAACAAA AACCGCTCCA AAAGGAAACG CTGTGAAGCC
TGGGGAGAGA ACTCCAAGCA GAATGACTGG AGAAGAGCGG GTGACTGGCC TGTTGGAATG
AAAAATATAG GAAATACATG TTGGTTTAGT GCTGTTATAC AGTCTCTGTT TCAGTTGCCA
GAATTCCGGA GGCTGGTCCT TGGGTATTCC CTCCCACAGA ATGTACTTGA AAGTTGTCGT
AGTCACACTG GAAAAAGAAA TATTGCATTC ATGCAAGAAC TTCAGTGTCT GTTTGCATTA
ATGCTGGGGA CATGGCGTAA GTTTGTAGAC CCTTCAGCAG CACTGGAGCT CTTGAGGGAC
GTGTTTAGAT CATCTGAACA ACCGCAGCAA GATGTGAGTG AATTTACGCA CAAACTACTG
GACTGGCTGG AGGACGCATT CCAGCTCACT GTGAATGTCA CGAGCCTTGG GGACAAATCT
GAAAACCCAA TGGTGCAGCT CTTCTACGGG ACTTTCCTGA CTGAGGGAGT CCATAAGGGC
AACACTTTTT CCAAGATTGA GACCTTTGGT CAGTATCCCC TTCAGGTAAA TGGTTACCGG
AACTTGAATG AGTGCTTGGA AGGAGCCATG GTGGAGGGAG AGATGGATGA GACACCAGCA
TCTCAGTCAG TGAAGTATGG ACAGGAGCGC TGGTTTACAA AACTCCCACC AGTTCTGACC
TTTGAACTCT CCCGATTTGA GTTCAATCAG TCACTAGGAC AGCCAGAGAA AATTCACACC
AAGCTAGAGT TTCCCCAGAC TATATATATG GACAGGTACC TATACTGCAA TAAAGACCTT
ATTCAGATGA AAAGAGAGGA AATGAAGAGA TTGAAGGAGA AAATGGTGAC TCTGCAGCAG
AAACTGGAAA GGTACATGGA ATATGGCTCT GGCCCAGCCC GCTTTCCACT GCCTGACATG
CTGCAGTATG TGCTGGAGTT CATTGCTACA AAGCCAGCTG TGGCTGTTTC CTCTGCTCAG
AGCTCTCAAG CGCCACTCCT GCGCTCCCAA GCCAAGCCTA ATGTTCTGGA CTTGCTTTCA
CAGCCAAACG GCATACAAGA AAGGACTGAT ACGAGGACTG AAGATGAAGC TTTCTTTGTG
GCAAATTCTT CACCACAGCA AAGCTCCAGT ATGGAGCTCC AGCCTCCTGT TTCACCAGCA
GAACTGTCTG AACGTCCAGC TCCTCACGTG GTCTCCAAAG AAGAGCTGAA CCTGGTTCAG
ACGTGTCTGC AGCGATGGAG AAACGAGATC GAGCAAGATG TGCAAGATCT GAAGGAGTCT
ATTGCCAGAA TCAACCTATC CATTGAACAA ATGTACTGTG ACCCTCTCCT CCAGCAGGTT
CCCTATCGTT TGCATGCAGT CCTGGTCCAT GAGGGGCAAG CAAATGCTGG GCACTACTGG
GCCTTCATAT ATGACCAGCC TCGGAAAAGA TGGCTCAAGT ACAATGACAT CTCAGTGACG
GAGTCCTCGT GGGAAGAGCT GGAGAGAGAG TCCTTTGGAG GCCTGAGGAA CGCCAGTGCC
TACTGCCTGA TGTACATCAG TGACCAGGTG TCCCCTGTTG GTGCAGATGA GGATGAGAGC
CCAGAGGCTA GACAGTTCCA GAAAGAAGTG GAAGCTTTGT CCCCAGAACT GAGACACTAC
ATCCAGGAGG ACAACTGGCG CCTGGAGCAG GAGGCAGAGG AGTGGGACGA GGAGCAATCT
TGCAAGATTC CTCAAATGGA GCCTTCACCT ACTTCTGAAT TGCAGGACCT CTCCTCTGAG
TCGGGACCAG AGCAGTCATC AGTGTGTGAG CAGAGCGTGC ACTCCCTGTC CTCGGAGCAT
GCCAGGATTG CCAAGGAGCA GACTGCCAAG GCCATTGCCA ACACTGCCGA TGCCTACGAG
AAGAACGGTG TCGAGGCAGC TCTGTGCGAG GCATTCCATG AGGAGTACTC CCGGCTGTAC
CTGCTTTCCA AAGAGACCCC AACCCCCCAG AACGATGCCC GGCTGCAGCA CGTGCTCATC
TACTTCCTGC AGAACAACGC TCCGCAGCAG GTGGTGGAAC GGACCCTCCT CGAGCAGTTT
GCAGACAAAA ACCTCAGCTA TGATGAGCGG TCCATCAGCA TCATGAAGGT GGCACGGGCA
AAGCTGAGCG AAATTGGTCC TGACGATGTT GACATGGAGG AGTACAAGAG ATGGCACGAA
GACTACAGCC TTTTTCGCAA GGTGTCCATC TACCTGCTGA CGGGGTTGGA ACTCTACCAG
AATAGAAAGT ACCAAGAGTC ACTCACCTAC CTGGTCTATG CCTACCAAAG CAACACCAAA
CTGCTGCTGA AGGGAGCCAA CCGAGGCGTG AGCGAGTCGC TGATCGCCTT GTACAGAAGG
AAATGTCTCC TGAAGCTGAA CGAGGTGGCA GCTTCTCTTT TTGTCAGCTG TGAAGAAGCT
CATGTGTCAG AGGGTGTGAG CATCCTGAAT GAGCTGATCA TCCCCTGCAT GCATCTCATG
AGCAACCTGG CGGTCTCCCA AGAGGACCTG GATGCCATCG AGGTGATGAG AAACCGCTGG
TGCTCCTATT TGGGACGAGA AGACATGGAC GCAAAGCTGC AGATGAAGCT GGGTGAGCTG
CTGCCCCGGC TCCTGGACGG CTCCACCGAG GTCATTATGC TGAAGGAGCC CCCGAAGATC
CGGCCCAACT CCCCTTACGA CCTGTGCAGC CGCTTTGCGG CCGTGATGGA GTCCATCCAC
GGGGCCTCCG CCGTGACGGT GAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002188732.2 CDS 32..3118 Translation 
Target ORF information:
RefSeq Version XM_002188696.3 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 28 (USP28), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002188696.3
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
3061ATGAAAGAGA TCACAGGAAT TCAGGATTCA GCATTCCTGC TTGCTGCTCT AAAGGCTGCT
GATGGAGATC TCATGGAAGC AGTCACCTTC CTGACGGAGG ACCCTGCTCC GGAGCCTGTG
CAGAGCCCAG CTGCTGCAGA GCTGTCTGCC TGGGAAGGGA GCACAGTGGG CAAACAGCTC
CCACAGGATG TTGGTACTGC AGCTGCCCCT CACAACCAAG ACAACCTCCG CACAGCCAAC
ACTGTCAGAC CACTGGAATC ACCAAAAGCT CCAGCTGCAG AAAGTGATGC AGCTGAAAGA
CCACAGGACG CCCATTCTGC TGAAAACAAA AACCGCTCCA AAAGGAAACG CTGTGAAGCC
TGGGGAGAGA ACTCCAAGCA GAATGACTGG AGAAGAGCGG GTGACTGGCC TGTTGGAATG
AAAAATATAG GAAATACATG TTGGTTTAGT GCTGTTATAC AGTCTCTGTT TCAGTTGCCA
GAATTCCGGA GGCTGGTCCT TGGGTATTCC CTCCCACAGA ATGTACTTGA AAGTTGTCGT
AGTCACACTG GAAAAAGAAA TATTGCATTC ATGCAAGAAC TTCAGTGTCT GTTTGCATTA
ATGCTGGGGA CATGGCGTAA GTTTGTAGAC CCTTCAGCAG CACTGGAGCT CTTGAGGGAC
GTGTTTAGAT CATCTGAACA ACCGCAGCAA GATGTGAGTG AATTTACGCA CAAACTACTG
GACTGGCTGG AGGACGCATT CCAGCTCACT GTGAATGTCA CGAGCCTTGG GGACAAATCT
GAAAACCCAA TGGTGCAGCT CTTCTACGGG ACTTTCCTGA CTGAGGGAGT CCATAAGGGC
AACACTTTTT CCAAGATTGA GACCTTTGGT CAGTATCCCC TTCAGGTAAA TGGTTACCGG
AACTTGAATG AGTGCTTGGA AGGAGCCATG GTGGAGGGAG AGATGGATGA GACACCAGCA
TCTCAGTCAG TGAAGTATGG ACAGGAGCGC TGGTTTACAA AACTCCCACC AGTTCTGACC
TTTGAACTCT CCCGATTTGA GTTCAATCAG TCACTAGGAC AGCCAGAGAA AATTCACACC
AAGCTAGAGT TTCCCCAGAC TATATATATG GACAGGTACC TATACTGCAA TAAAGACCTT
ATTCAGATGA AAAGAGAGGA AATGAAGAGA TTGAAGGAGA AAATGGTGAC TCTGCAGCAG
AAACTGGAAA GGTACATGGA ATATGGCTCT GGCCCAGCCC GCTTTCCACT GCCTGACATG
CTGCAGTATG TGCTGGAGTT CATTGCTACA AAGCCAGCTG TGGCTGTTTC CTCTGCTCAG
AGCTCTCAAG CGCCACTCCT GCGCTCCCAA GCCAAGCCTA ATGTTCTGGA CTTGCTTTCA
CAGCCAAACG GCATACAAGA AAGGACTGAT ACGAGGACTG AAGATGAAGC TTTCTTTGTG
GCAAATTCTT CACCACAGCA AAGCTCCAGT ATGGAGCTCC AGCCTCCTGT TTCACCAGCA
GAACTGTCTG AACGTCCAGC TCCTCACGTG GTCTCCAAAG AAGAGCTGAA CCTGGTTCAG
ACGTGTCTGC AGCGATGGAG AAACGAGATC GAGCAAGATG TGCAAGATCT GAAGGAGTCT
ATTGCCAGAA TCAACCTATC CATTGAACAA ATGTACTGTG ACCCTCTCCT CCAGCAGGTT
CCCTATCGTT TGCATGCAGT CCTGGTCCAT GAGGGGCAAG CAAATGCTGG GCACTACTGG
GCCTTCATAT ATGACCAGCC TCGGAAAAGA TGGCTCAAGT ACAATGACAT CTCAGTGACG
GAGTCCTCGT GGGAAGAGCT GGAGAGAGAG TCCTTTGGAG GCCTGAGGAA CGCCAGTGCC
TACTGCCTGA TGTACATCAG TGACCAGGTG TCCCCTGTTG GTGCAGATGA GGATGAGAGC
CCAGAGGCTA GACAGTTCCA GAAAGAAGTG GAAGCTTTGT CCCCAGAACT GAGACACTAC
ATCCAGGAGG ACAACTGGCG CCTGGAGCAG GAGGCAGAGG AGTGGGACGA GGAGCAATCT
TGCAAGATTC CTCAAATGGA GCCTTCACCT ACTTCTGAAT TGCAGGACCT CTCCTCTGAG
TCGGGACCAG AGCAGTCATC AGTGTGTGAG CAGAGCGTGC ACTCCCTGTC CTCGGAGCAT
GCCAGGATTG CCAAGGAGCA GACTGCCAAG GCCATTGCCA ACACTGCCGA TGCCTACGAG
AAGAACGGTG TCGAGGCAGC TCTGTGCGAG GCATTCCATG AGGAGTACTC CCGGCTGTAC
CTGCTTTCCA AAGAGACCCC AACCCCCCAG AACGATGCCC GGCTGCAGCA CGTGCTCATC
TACTTCCTGC AGAACAACGC TCCGCAGCAG GTGGTGGAAC GGACCCTCCT CGAGCAGTTT
GCAGACAAAA ACCTCAGCTA TGATGAGCGG TCCATCAGCA TCATGAAGGT GGCACGGGCA
AAGCTGAGCG AAATTGGTCC TGACGATGTT GACATGGAGG AGTACAAGAG ATGGCACGAA
GACTACAGCC TTTTTCGCAA GGTGTCCATC TACCTGCTGA CGGGGTTGGA ACTCTACCAG
AATAGAAAGT ACCAAGAGTC ACTCACCTAC CTGGTCTATG CCTACCAAAG CAACACCAAA
CTGCTGCTGA AGGGAGCCAA CCGAGGCGTG AGCGAGTCGC TGATCGCCTT GTACAGAAGG
AAATGTCTCC TGAAGCTGAA CGAGGTGGCA GCTTCTCTTT TTGTCAGCTG TGAAGAAGCT
CATGTGTCAG AGGGTGTGAG CATCCTGAAT GAGCTGATCA TCCCCTGCAT GCATCTCATG
AGCAACCTGG CGGTCTCCCA AGAGGACCTG GATGCCATCG AGGTGATGAG AAACCGCTGG
TGCTCCTATT TGGGACGAGA AGACATGGAC GCAAAGCTGC AGATGAAGCT GGGTGAGCTG
CTGCCCCGGC TCCTGGACGG CTCCACCGAG GTCATTATGC TGAAGGAGCC CCCGAAGATC
CGGCCCAACT CCCCTTACGA CCTGTGCAGC CGCTTTGCGG CCGTGATGGA GTCCATCCAC
GGGGCCTCCG CCGTGACGGT GAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd20299 Clone ID Related Accession (Same CDS sequence) XM_012570757.1 Accession Version XM_012570757.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3369bp)
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 1432483200000 Organism Taeniopygia guttata(zebra finch) Product ubiquitin carboxyl-terminal hydrolase 28 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198023.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Taeniopygia guttata Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.3 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
3361ATGAAAGAGA TCACAGGAAT TCAGGATTCA GCATTCCTGC TTGCTGCTCT AAAGGCTGCT
GATGGAGATC TCATGGAAGC AGTCACCTTC CTGACGGAGG ACCCTGCTCC GGAGCCTGTG
CAGAGCCCAG CTGCTGCAGA GCTGTCTGCC TGGGAAGGGA GCACAGTGGG CAAACAGCTC
CCACAGGATG TTGGTACTGC AGCTGCCCCT CACAACCAAG ACAACCTCCG CACAGCCAAC
ACTGTCAGAC CACTGGAATC ACCAAAAGCT CCAGCTGCAG AAAGTGATGC AGCTGAAAGA
CCACAGGACG CCCATTCTGC TGAAAACAAA AACCGCTCCA AAAGGAAACG CTGTGAAGCC
TGGGGAGAGA ACTCCAAGCA GAATGACTGG AGAAGAGCGG GTGACTGGCC TGTTGGAATG
AAAAATATAG GAAATACATG TTGGTTTAGT GCTGTTATAC AGTCTCTGTT TCAGTTGCCA
GAATTCCGGA GGCTGGTCCT TGGGTATTCC CTCCCACAGA ATGTACTTGA AAGTTGTCGT
AGTCACACTG GAAAAAGAAA TATTGCATTC ATGCAAGAAC TTCAGTGTCT GTTTGCATTA
ATGCTGGGGA CATGGCGTAA GTTTGTAGAC CCTTCAGCAG CACTGGAGCT CTTGAGGGAC
GTGTTTAGAT CATCTGAACA ACCGCAGCAA GATGTGAGTG AATTTACGCA CAAACTACTG
GACTGGCTGG AGGACGCATT CCAGCTCACT GTGAATGTCA CGAGCCTTGG GGACAAATCT
GAAAACCCAA TGGTGCAGCT CTTCTACGGG ACTTTCCTGA CTGAGGGAGT CCATAAGGGC
AACACTTTTT CCAAGATTGA GACCTTTGGT CAGTATCCCC TTCAGGTAAA TGGTTACCGG
AACTTGAATG AGTGCTTGGA AGGAGCCATG GTGGAGGGAG AGATGGATGA GACACCAGCA
TCTCAGTCAG TGAAGTATGG ACAGGAGCGC TGGTTTACAA AACTCCCACC AGTTCTGACC
TTTGAACTCT CCCGATTTGA GTTCAATCAG TCACTAGGAC AGCCAGAGAA AATTCACACC
AAGCTAGAGT TTCCCCAGAC TATATATATG GACAGGTACC TATACTGCAA TAAAGACCTT
ATTCAGATGA AAAGAGAGGA AATGAAGAGA TTGAAGGAGA AAATGGTGAC TCTGCAGCAG
AAACTGGAAA GGTACATGGA ATATGGCTCT GGCCCAGCCC GCTTTCCACT GCCTGACATG
CTGCAGTATG TGCTGGAGTT CATTGCTACA AAGCCAGCTG TGGCTGTTTC CTCTGCTCAG
AGCTCTCAAG CGCCACTCCT GCGCTCCCAA GCCAAGCCTA ATGTTCTGGA CTTGCTTTCA
CAGCCAAACG GCATACAAGA AAGGACTGAT ACGAGGACTG AAGATGAAGC TTTCTTTGTG
GCAAATTCTT CACCACAGCA AAGCTCCAGT ATGGAGCTCC AGCCTCCTGT TTCACCAGCA
GAACTGTCTG AACGTCCAGC TCCTCACGTG GTCTCCAAAG AAGAGCTGAA CCTGGTTCAG
ACGTGTCTGC AGCGATGGAG AAACGAGATC GAGCAAGATG TGCAAGATCT GAAGGAGTCT
ATTGCCAGAA TCAACCTATC CATTGAACAA ATGTACTGTG ACCCTCTCCT CCAGCAGGTT
CCCTATCGTT TGCATGCAGT CCTGGTCCAT GAGGGGCAAG CAAATGCTGG GCACTACTGG
GCCTTCATAT ATGACCAGCC TCGGAAAAGA TGGCTCAAGT ACAATGACAT CTCAGTGACG
GAGTCCTCGT GGGAAGAGCT GGAGAGAGAG TCCTTTGGAG GCCTGAGGAA CGCCAGTGCC
TACTGCCTGA TGTACATCAG TGACCAGGTG TCCCCTGTTG GTGCAGATGA GGATGAGAGC
CCAGAGGCTA GACAGTTCCA GAAAGAAGTG GAAGCTTTGT CCCCAGAACT GAGACACTAC
ATCCAGGAGG ACAACTGGCG CCTGGAGCAG GAGGCAGAGG AGTGGGACGA GGAGCAATCT
TGCAAGATTC CTCAAATGGA GCCTTCACCT ACTTCTGAAT TGCAGGACCT CTCCTCTGAG
TCGGGACCAG AGCAGTCATC AGTGTGTGAG CAGAGCGTGC ACTCCCTGTC CTCGGAGCAT
GCCAGGATTG CCAAGGAGCA GACTGCCAAG GCCATTGCCA ACACTGCCGA TGCCTACGAG
AAGAACGGTG TCGAGGCAGC TCTGTGCGAG CACAAGGAGG TGGAGCCACT GAAGGCCCAT
CCAGAAGAAA CATCCCCCAC AGTTCAGGCA GAGCAGCCCC AGGACACTCA GGAAGCAGAG
GCTGCTGCCC AAACTAGCTC ACAGGTCTCT GAAGTGGAAA TCCCCAGTGT GGGGAGGATT
CCTGTTAGAT CCGATGCAGA TGGATATAAT GAGGAGGTGA TGCTGAGTCC AGCCATGCAA
GGTGTCATCC TGGCTATTGC AAAAGCCCGC CAGACCTTTG ATCGTGATGG GTCTGAAGCA
GGGCTTGTTA AGGCATTCCA TGAGGAGTAC TCCCGGCTGT ACCTGCTTTC CAAAGAGACC
CCAACCCCCC AGAACGATGC CCGGCTGCAG CACGTGCTCA TCTACTTCCT GCAGAACAAC
GCTCCGCAGC AGGTGGTGGA ACGGACCCTC CTCGAGCAGT TTGCAGACAA AAACCTCAGC
TATGATGAGC GGTCCATCAG CATCATGAAG GTGGCACGGG CAAAGCTGAG CGAAATTGGT
CCTGACGATG TTGACATGGA GGAGTACAAG AGATGGCACG AAGACTACAG CCTTTTTCGC
AAGGTGTCCA TCTACCTGCT GACGGGGTTG GAACTCTACC AGAATAGAAA GTACCAAGAG
TCACTCACCT ACCTGGTCTA TGCCTACCAA AGCAACACCA AACTGCTGCT GAAGGGAGCC
AACCGAGGCG TGAGCGAGTC GCTGATCGCC TTGTACAGAA GGAAATGTCT CCTGAAGCTG
AACGAGGTGG CAGCTTCTCT TTTTGTCAGC TGTGAAGAAG CTCATGTGTC AGAGGGTGTG
AGCATCCTGA ATGAGCTGAT CATCCCCTGC ATGCATCTCA TGAGCAACCT GGCGGTCTCC
CAAGAGGACC TGGATGCCAT CGAGGTGATG AGAAACCGCT GGTGCTCCTA TTTGGGACGA
GAAGACATGG ACGCAAAGCT GCAGATGAAG CTGGGTGAGC TGCTGCCCCG GCTCCTGGAC
GGCTCCACCG AGGTCATTAT GCTGAAGGAG CCCCCGAAGA TCCGGCCCAA CTCCCCTTAC
GACCTGTGCA GCCGCTTTGC GGCCGTGATG GAGTCCATCC ACGGGGCCTC CGCCGTGACG
GTGAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012426211.1 CDS 32..3400 Translation
Target ORF information:
RefSeq Version XM_012570757.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 28 (USP28), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012570757.1
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
3361ATGAAAGAGA TCACAGGAAT TCAGGATTCA GCATTCCTGC TTGCTGCTCT AAAGGCTGCT
GATGGAGATC TCATGGAAGC AGTCACCTTC CTGACGGAGG ACCCTGCTCC GGAGCCTGTG
CAGAGCCCAG CTGCTGCAGA GCTGTCTGCC TGGGAAGGGA GCACAGTGGG CAAACAGCTC
CCACAGGATG TTGGTACTGC AGCTGCCCCT CACAACCAAG ACAACCTCCG CACAGCCAAC
ACTGTCAGAC CACTGGAATC ACCAAAAGCT CCAGCTGCAG AAAGTGATGC AGCTGAAAGA
CCACAGGACG CCCATTCTGC TGAAAACAAA AACCGCTCCA AAAGGAAACG CTGTGAAGCC
TGGGGAGAGA ACTCCAAGCA GAATGACTGG AGAAGAGCGG GTGACTGGCC TGTTGGAATG
AAAAATATAG GAAATACATG TTGGTTTAGT GCTGTTATAC AGTCTCTGTT TCAGTTGCCA
GAATTCCGGA GGCTGGTCCT TGGGTATTCC CTCCCACAGA ATGTACTTGA AAGTTGTCGT
AGTCACACTG GAAAAAGAAA TATTGCATTC ATGCAAGAAC TTCAGTGTCT GTTTGCATTA
ATGCTGGGGA CATGGCGTAA GTTTGTAGAC CCTTCAGCAG CACTGGAGCT CTTGAGGGAC
GTGTTTAGAT CATCTGAACA ACCGCAGCAA GATGTGAGTG AATTTACGCA CAAACTACTG
GACTGGCTGG AGGACGCATT CCAGCTCACT GTGAATGTCA CGAGCCTTGG GGACAAATCT
GAAAACCCAA TGGTGCAGCT CTTCTACGGG ACTTTCCTGA CTGAGGGAGT CCATAAGGGC
AACACTTTTT CCAAGATTGA GACCTTTGGT CAGTATCCCC TTCAGGTAAA TGGTTACCGG
AACTTGAATG AGTGCTTGGA AGGAGCCATG GTGGAGGGAG AGATGGATGA GACACCAGCA
TCTCAGTCAG TGAAGTATGG ACAGGAGCGC TGGTTTACAA AACTCCCACC AGTTCTGACC
TTTGAACTCT CCCGATTTGA GTTCAATCAG TCACTAGGAC AGCCAGAGAA AATTCACACC
AAGCTAGAGT TTCCCCAGAC TATATATATG GACAGGTACC TATACTGCAA TAAAGACCTT
ATTCAGATGA AAAGAGAGGA AATGAAGAGA TTGAAGGAGA AAATGGTGAC TCTGCAGCAG
AAACTGGAAA GGTACATGGA ATATGGCTCT GGCCCAGCCC GCTTTCCACT GCCTGACATG
CTGCAGTATG TGCTGGAGTT CATTGCTACA AAGCCAGCTG TGGCTGTTTC CTCTGCTCAG
AGCTCTCAAG CGCCACTCCT GCGCTCCCAA GCCAAGCCTA ATGTTCTGGA CTTGCTTTCA
CAGCCAAACG GCATACAAGA AAGGACTGAT ACGAGGACTG AAGATGAAGC TTTCTTTGTG
GCAAATTCTT CACCACAGCA AAGCTCCAGT ATGGAGCTCC AGCCTCCTGT TTCACCAGCA
GAACTGTCTG AACGTCCAGC TCCTCACGTG GTCTCCAAAG AAGAGCTGAA CCTGGTTCAG
ACGTGTCTGC AGCGATGGAG AAACGAGATC GAGCAAGATG TGCAAGATCT GAAGGAGTCT
ATTGCCAGAA TCAACCTATC CATTGAACAA ATGTACTGTG ACCCTCTCCT CCAGCAGGTT
CCCTATCGTT TGCATGCAGT CCTGGTCCAT GAGGGGCAAG CAAATGCTGG GCACTACTGG
GCCTTCATAT ATGACCAGCC TCGGAAAAGA TGGCTCAAGT ACAATGACAT CTCAGTGACG
GAGTCCTCGT GGGAAGAGCT GGAGAGAGAG TCCTTTGGAG GCCTGAGGAA CGCCAGTGCC
TACTGCCTGA TGTACATCAG TGACCAGGTG TCCCCTGTTG GTGCAGATGA GGATGAGAGC
CCAGAGGCTA GACAGTTCCA GAAAGAAGTG GAAGCTTTGT CCCCAGAACT GAGACACTAC
ATCCAGGAGG ACAACTGGCG CCTGGAGCAG GAGGCAGAGG AGTGGGACGA GGAGCAATCT
TGCAAGATTC CTCAAATGGA GCCTTCACCT ACTTCTGAAT TGCAGGACCT CTCCTCTGAG
TCGGGACCAG AGCAGTCATC AGTGTGTGAG CAGAGCGTGC ACTCCCTGTC CTCGGAGCAT
GCCAGGATTG CCAAGGAGCA GACTGCCAAG GCCATTGCCA ACACTGCCGA TGCCTACGAG
AAGAACGGTG TCGAGGCAGC TCTGTGCGAG CACAAGGAGG TGGAGCCACT GAAGGCCCAT
CCAGAAGAAA CATCCCCCAC AGTTCAGGCA GAGCAGCCCC AGGACACTCA GGAAGCAGAG
GCTGCTGCCC AAACTAGCTC ACAGGTCTCT GAAGTGGAAA TCCCCAGTGT GGGGAGGATT
CCTGTTAGAT CCGATGCAGA TGGATATAAT GAGGAGGTGA TGCTGAGTCC AGCCATGCAA
GGTGTCATCC TGGCTATTGC AAAAGCCCGC CAGACCTTTG ATCGTGATGG GTCTGAAGCA
GGGCTTGTTA AGGCATTCCA TGAGGAGTAC TCCCGGCTGT ACCTGCTTTC CAAAGAGACC
CCAACCCCCC AGAACGATGC CCGGCTGCAG CACGTGCTCA TCTACTTCCT GCAGAACAAC
GCTCCGCAGC AGGTGGTGGA ACGGACCCTC CTCGAGCAGT TTGCAGACAA AAACCTCAGC
TATGATGAGC GGTCCATCAG CATCATGAAG GTGGCACGGG CAAAGCTGAG CGAAATTGGT
CCTGACGATG TTGACATGGA GGAGTACAAG AGATGGCACG AAGACTACAG CCTTTTTCGC
AAGGTGTCCA TCTACCTGCT GACGGGGTTG GAACTCTACC AGAATAGAAA GTACCAAGAG
TCACTCACCT ACCTGGTCTA TGCCTACCAA AGCAACACCA AACTGCTGCT GAAGGGAGCC
AACCGAGGCG TGAGCGAGTC GCTGATCGCC TTGTACAGAA GGAAATGTCT CCTGAAGCTG
AACGAGGTGG CAGCTTCTCT TTTTGTCAGC TGTGAAGAAG CTCATGTGTC AGAGGGTGTG
AGCATCCTGA ATGAGCTGAT CATCCCCTGC ATGCATCTCA TGAGCAACCT GGCGGTCTCC
CAAGAGGACC TGGATGCCAT CGAGGTGATG AGAAACCGCT GGTGCTCCTA TTTGGGACGA
GAAGACATGG ACGCAAAGCT GCAGATGAAG CTGGGTGAGC TGCTGCCCCG GCTCCTGGAC
GGCTCCACCG AGGTCATTAT GCTGAAGGAG CCCCCGAAGA TCCGGCCCAA CTCCCCTTAC
GACCTGTGCA GCCGCTTTGC GGCCGTGATG GAGTCCATCC ACGGGGCCTC CGCCGTGACG
GTGAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd38763 Clone ID Related Accession (Same CDS sequence) XM_030290756.1 Accession Version XM_030290756.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3432bp)
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 1565193600000 Organism Taeniopygia guttata(zebra finch) Product ubiquitin carboxyl-terminal hydrolase 28 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044236.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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
3421ATGACGGCCG AGCTGCGGGC CCGGGACGGC GGCGGCGAGG ATTGCCAGGT GCTCTTAAAT
CAGATGAAAG AGATCACAGG AATTCAGGAT TCAGCATTCC TGCTTGCTGC TCTAAAGGCT
GCTGATGGAG ATCTCATGGA AGCAGTCACC TTCCTGACGG AGGACCCTGC TCCGGAGCCT
GTGCAGAGCC CAGCTGCTGC AGAGCTGTCT GCCTGGGAAG GGAGCACAGT GGGCAAACAG
CTCCCACAGG ATGTTGGTAC TGCAGCTGCC CCTCACAACC AAGACAACCT CCGCACAGCC
AACACTGTCA GACCACTGGA ATCACCAAAA GCTCCAGCTG CAGAAAGTGA TGCAGCTGAA
AGACCACAGG ACGCCCATTC TGCTGAAAAC AAAAACCGCT CCAAAAGGAA ACGCTGTGAA
GCCTGGGGAG AGAACTCCAA GCAGAATGAC TGGAGAAGAG CGGGTGACTG GCCTGTTGGA
ATGAAAAATA TAGGAAATAC ATGTTGGTTT AGTGCTGTTA TACAGTCTCT GTTTCAGTTG
CCAGAATTCC GGAGGCTGGT CCTTGGGTAT TCCCTCCCAC AGAATGTACT TGAAAGTTGT
CGTAGTCACA CTGGAAAAAG AAATATTGCA TTCATGCAAG AACTTCAGTG TCTGTTTGCA
TTAATGCTGG GGACATGGCG TAAGTTTGTA GACCCTTCAG CAGCACTGGA GCTCTTGAGG
GACGTGTTTA GATCATCTGA ACAACCGCAG CAAGATGTGA GTGAATTTAC GCACAAACTA
CTGGACTGGC TGGAGGACGC ATTCCAGCTC ACTGTGAATG TCACGAGCCT TGGGGACAAA
TCTGAAAACC CAATGGTGCA GCTCTTCTAC GGGACTTTCC TGACTGAGGG AGTCCATAAG
GGCAACACTT TTTCCAAGAT TGAGACCTTT GGTCAGTATC CCCTTCAGGT AAATGGTTAC
CGGAACTTGA ATGAGTGCTT GGAAGGAGCC ATGGTGGAGG GAGAGATGGA TGAGACACCA
GCATCTCAGT CAGTGAAGTA TGGACAGGAG CGCTGGTTTA CAAAACTCCC ACCAGTTCTG
ACCTTTGAAC TCTCCCGATT TGAGTTCAAT CAGTCACTAG GACAGCCAGA GAAAATTCAC
ACCAAGCTAG AGTTTCCCCA GACTATATAT ATGGACAGGT ACCTATACTG CAATAAAGAC
CTTATTCAGA TGAAAAGAGA GGAAATGAAG AGATTGAAGG AGAAAATGGT GACTCTGCAG
CAGAAACTGG AAAGGTACAT GGAATATGGC TCTGGCCCAG CCCGCTTTCC ACTGCCTGAC
ATGCTGCAGT ATGTGCTGGA GTTCATTGCT ACAAAGCCAG CTGTGGCTGT TTCCTCTGCT
CAGAGCTCTC AAGCGCCACT CCTGCGCTCC CAAGCCAAGC CTAATGTTCT GGACGTGCTT
TCACAGCCAA ACGGCATACA AGAAAGGACT GATACGAGGA CTGAAGATGA AGCTTTCTTT
GTGGCAAATT CTTCACCACA GCAAAGCTCC AGTATGGAGC TCCAGCCTCC TGTTTCACCA
GCAGAACTGT CTGAACGTCC AGCTCCTCAC GTGGTCTCCA AGGAAGAGCT GAACCTGGTT
CAGACGTGTC TGCAGCGATG GAGAAACGAG ATCGAGCAAG ATGTGCAAGA TCTGAAGGAG
TCTATTGCCA GAATCAACCT ATCCATTGAA CAAATGTACT GTGACCCTCT CCTCCAGCAG
GTTCCCTATC GTTTGCATGC AGTCCTGGTC CATGAGGGGC AAGCAAATGC TGGGCACTAC
TGGGCCTTCA TATATGACCA GCCTCGGAAA AGATGGCTCA AGTACAATGA CATCTCAGTG
ACGGAGTCCT CGTGGGAAGA GCTGGAGAGA GAGTCCTTTG GAGGCCTGAG GAACGCCAGT
GCCTACTGCC TGATGTACAT CAGTGACCAG GTGTCCCCTG TTGGTGCAGA TGAGGATGAG
AGCCCAGAGG CTAGACAGTT CCAGAAAGAA GTGGAAGCTT TGTCCCCAGA ACTGAGACAC
TACATCCAGG AGGACAACTG GCGCCTGGAG CAGGAGGCAG AGGAGTGGGA CGAGGAGCAA
TCTTGCAAGA TTCCTCAAAT GGAGCCTTCA CCTACTTCTG AATTGCAGGA CCTCTCCTCT
GAGTCGGGAC CAGAGCAGTC ATCAGTGTGT GAGCAGAGCG TGCACTCCCT GTCCTCGGAG
CATGCCAGGA TTGCCAAGGA GCAGACTGCC AAGGCCATTG CCAACACTGC CGATGCCTAC
GAGAAGAACG GTGTCGAGGC AGCTCTGTGC GAGCACAAGG AGGTGGAGCC ACTGAAGGCC
CATCCAGAAG AAACATCCCC CACAGTTCAG GCAGAGCAGC CCCAGGACAC TCAGGAAGCA
GAGGCTGCTG CCCAAACTAG CTCACAGGTC TCTGAAGTGG AAATCCCCAG TGTGGGGAGG
ATTCCTGTTA GATCCGATGC AGATGGATAT AATGAGGAGG TGATGCTGAG TCCAGCCATG
CAAGGTGTCA TCCTGGCTAT TGCAAAAGCC CGCCAGACCT TTGATCGTGA TGGGTCTGAA
GCAGGGCTTG TTAAGGCATT CCATGAGGAG TACTCCCGGC TGTACCTGCT TTCCAAAGAG
ACCCCAACCC CCCAGAACGA TGCCCGGCTG CAGCACGTGC TCATCTACTT CCTGCAGAAC
AACGCTCCGC AGCAGGTGGT GGAACGGACC CTCCTCGAGC AGTTTGCAGA CAAAAACCTC
AGCTATGATG AGCGGTCCAT CAGCATCATG AAGGTGGCAC GGGCAAAGCT GAGCGAAATT
GGTCCTGACG ATGTTGACAT GGAGGAGTAC AAGAGATGGC ACGAAGACTA CAGCCTTTTT
CGCAAGGTGT CCATCTACCT GCTGACGGGG TTGGAACTCT ACCAGAATAG AAAGTACCAA
GAGTCACTCA CCTACCTGGT CTATGCCTAC CAAAGCAACA CCAAACTGCT GCTGAAGGGA
GCCAACCGAG GCGTGAGCGA GTCGCTGATC GCCTTGTACA GAAGGAAATG TCTCCTGAAG
CTGAACGAGG TGGCAGCTTC TCTTTTTGTC AGCTGTGAAG AAGCTCATGT GTCAGAGGGT
GTGAGCATCC TGAATGAGCT GATCATCCCC TGCATGCATC TCATGAGCAA CCTGGCGGTC
TCCCAAGAGG ACCTGGATGC CATCGAGGTC ATGAGAAACC GCTGGTGCTC CTATTTGGGA
CGAGAAGACA TGGACGCAAA GCTGCAGATG AAGCTGGGTG AGCTGCTGCC CCGGCTCCTG
GACGGCTCCA CCGAGGTCAT TATGCTGAAG GAGCCCCCGA AGATCCGGCC CAACTCCCCT
TACGACCTGT GCAGCCGCTT TGCAGCCGTG ATGGAGTCCA TCCACGGGGC CTCCGCCGTG
ACGGTGAACT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146616.1 CDS 50..3481 Translation
Target ORF information:
RefSeq Version XM_030290756.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 28 (USP28), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290756.1
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
3421ATGACGGCCG AGCTGCGGGC CCGGGACGGC GGCGGCGAGG ATTGCCAGGT GCTCTTAAAT
CAGATGAAAG AGATCACAGG AATTCAGGAT TCAGCATTCC TGCTTGCTGC TCTAAAGGCT
GCTGATGGAG ATCTCATGGA AGCAGTCACC TTCCTGACGG AGGACCCTGC TCCGGAGCCT
GTGCAGAGCC CAGCTGCTGC AGAGCTGTCT GCCTGGGAAG GGAGCACAGT GGGCAAACAG
CTCCCACAGG ATGTTGGTAC TGCAGCTGCC CCTCACAACC AAGACAACCT CCGCACAGCC
AACACTGTCA GACCACTGGA ATCACCAAAA GCTCCAGCTG CAGAAAGTGA TGCAGCTGAA
AGACCACAGG ACGCCCATTC TGCTGAAAAC AAAAACCGCT CCAAAAGGAA ACGCTGTGAA
GCCTGGGGAG AGAACTCCAA GCAGAATGAC TGGAGAAGAG CGGGTGACTG GCCTGTTGGA
ATGAAAAATA TAGGAAATAC ATGTTGGTTT AGTGCTGTTA TACAGTCTCT GTTTCAGTTG
CCAGAATTCC GGAGGCTGGT CCTTGGGTAT TCCCTCCCAC AGAATGTACT TGAAAGTTGT
CGTAGTCACA CTGGAAAAAG AAATATTGCA TTCATGCAAG AACTTCAGTG TCTGTTTGCA
TTAATGCTGG GGACATGGCG TAAGTTTGTA GACCCTTCAG CAGCACTGGA GCTCTTGAGG
GACGTGTTTA GATCATCTGA ACAACCGCAG CAAGATGTGA GTGAATTTAC GCACAAACTA
CTGGACTGGC TGGAGGACGC ATTCCAGCTC ACTGTGAATG TCACGAGCCT TGGGGACAAA
TCTGAAAACC CAATGGTGCA GCTCTTCTAC GGGACTTTCC TGACTGAGGG AGTCCATAAG
GGCAACACTT TTTCCAAGAT TGAGACCTTT GGTCAGTATC CCCTTCAGGT AAATGGTTAC
CGGAACTTGA ATGAGTGCTT GGAAGGAGCC ATGGTGGAGG GAGAGATGGA TGAGACACCA
GCATCTCAGT CAGTGAAGTA TGGACAGGAG CGCTGGTTTA CAAAACTCCC ACCAGTTCTG
ACCTTTGAAC TCTCCCGATT TGAGTTCAAT CAGTCACTAG GACAGCCAGA GAAAATTCAC
ACCAAGCTAG AGTTTCCCCA GACTATATAT ATGGACAGGT ACCTATACTG CAATAAAGAC
CTTATTCAGA TGAAAAGAGA GGAAATGAAG AGATTGAAGG AGAAAATGGT GACTCTGCAG
CAGAAACTGG AAAGGTACAT GGAATATGGC TCTGGCCCAG CCCGCTTTCC ACTGCCTGAC
ATGCTGCAGT ATGTGCTGGA GTTCATTGCT ACAAAGCCAG CTGTGGCTGT TTCCTCTGCT
CAGAGCTCTC AAGCGCCACT CCTGCGCTCC CAAGCCAAGC CTAATGTTCT GGACGTGCTT
TCACAGCCAA ACGGCATACA AGAAAGGACT GATACGAGGA CTGAAGATGA AGCTTTCTTT
GTGGCAAATT CTTCACCACA GCAAAGCTCC AGTATGGAGC TCCAGCCTCC TGTTTCACCA
GCAGAACTGT CTGAACGTCC AGCTCCTCAC GTGGTCTCCA AGGAAGAGCT GAACCTGGTT
CAGACGTGTC TGCAGCGATG GAGAAACGAG ATCGAGCAAG ATGTGCAAGA TCTGAAGGAG
TCTATTGCCA GAATCAACCT ATCCATTGAA CAAATGTACT GTGACCCTCT CCTCCAGCAG
GTTCCCTATC GTTTGCATGC AGTCCTGGTC CATGAGGGGC AAGCAAATGC TGGGCACTAC
TGGGCCTTCA TATATGACCA GCCTCGGAAA AGATGGCTCA AGTACAATGA CATCTCAGTG
ACGGAGTCCT CGTGGGAAGA GCTGGAGAGA GAGTCCTTTG GAGGCCTGAG GAACGCCAGT
GCCTACTGCC TGATGTACAT CAGTGACCAG GTGTCCCCTG TTGGTGCAGA TGAGGATGAG
AGCCCAGAGG CTAGACAGTT CCAGAAAGAA GTGGAAGCTT TGTCCCCAGA ACTGAGACAC
TACATCCAGG AGGACAACTG GCGCCTGGAG CAGGAGGCAG AGGAGTGGGA CGAGGAGCAA
TCTTGCAAGA TTCCTCAAAT GGAGCCTTCA CCTACTTCTG AATTGCAGGA CCTCTCCTCT
GAGTCGGGAC CAGAGCAGTC ATCAGTGTGT GAGCAGAGCG TGCACTCCCT GTCCTCGGAG
CATGCCAGGA TTGCCAAGGA GCAGACTGCC AAGGCCATTG CCAACACTGC CGATGCCTAC
GAGAAGAACG GTGTCGAGGC AGCTCTGTGC GAGCACAAGG AGGTGGAGCC ACTGAAGGCC
CATCCAGAAG AAACATCCCC CACAGTTCAG GCAGAGCAGC CCCAGGACAC TCAGGAAGCA
GAGGCTGCTG CCCAAACTAG CTCACAGGTC TCTGAAGTGG AAATCCCCAG TGTGGGGAGG
ATTCCTGTTA GATCCGATGC AGATGGATAT AATGAGGAGG TGATGCTGAG TCCAGCCATG
CAAGGTGTCA TCCTGGCTAT TGCAAAAGCC CGCCAGACCT TTGATCGTGA TGGGTCTGAA
GCAGGGCTTG TTAAGGCATT CCATGAGGAG TACTCCCGGC TGTACCTGCT TTCCAAAGAG
ACCCCAACCC CCCAGAACGA TGCCCGGCTG CAGCACGTGC TCATCTACTT CCTGCAGAAC
AACGCTCCGC AGCAGGTGGT GGAACGGACC CTCCTCGAGC AGTTTGCAGA CAAAAACCTC
AGCTATGATG AGCGGTCCAT CAGCATCATG AAGGTGGCAC GGGCAAAGCT GAGCGAAATT
GGTCCTGACG ATGTTGACAT GGAGGAGTAC AAGAGATGGC ACGAAGACTA CAGCCTTTTT
CGCAAGGTGT CCATCTACCT GCTGACGGGG TTGGAACTCT ACCAGAATAG AAAGTACCAA
GAGTCACTCA CCTACCTGGT CTATGCCTAC CAAAGCAACA CCAAACTGCT GCTGAAGGGA
GCCAACCGAG GCGTGAGCGA GTCGCTGATC GCCTTGTACA GAAGGAAATG TCTCCTGAAG
CTGAACGAGG TGGCAGCTTC TCTTTTTGTC AGCTGTGAAG AAGCTCATGT GTCAGAGGGT
GTGAGCATCC TGAATGAGCT GATCATCCCC TGCATGCATC TCATGAGCAA CCTGGCGGTC
TCCCAAGAGG ACCTGGATGC CATCGAGGTC ATGAGAAACC GCTGGTGCTC CTATTTGGGA
CGAGAAGACA TGGACGCAAA GCTGCAGATG AAGCTGGGTG AGCTGCTGCC CCGGCTCCTG
GACGGCTCCA CCGAGGTCAT TATGCTGAAG GAGCCCCCGA AGATCCGGCC CAACTCCCCT
TACGACCTGT GCAGCCGCTT TGCAGCCGTG ATGGAGTCCA TCCACGGGGC CTCCGCCGTG
ACGGTGAACT AGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd38764 Clone ID Related Accession (Same CDS sequence) XM_030290758.1 , XM_030290757.1 Accession Version XM_030290758.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3408bp)
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 1565193600000 Organism Taeniopygia guttata(zebra finch) Product ubiquitin carboxyl-terminal hydrolase 28 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044236.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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
3361ATGCGTTTCA GAGAGGATTG CCAGGTGCTC TTAAATCAGA TGAAAGAGAT CACAGGAATT
CAGGATTCAG CATTCCTGCT TGCTGCTCTA AAGGCTGCTG ATGGAGATCT CATGGAAGCA
GTCACCTTCC TGACGGAGGA CCCTGCTCCG GAGCCTGTGC AGAGCCCAGC TGCTGCAGAG
CTGTCTGCCT GGGAAGGGAG CACAGTGGGC AAACAGCTCC CACAGGATGT TGGTACTGCA
GCTGCCCCTC ACAACCAAGA CAACCTCCGC ACAGCCAACA CTGTCAGACC ACTGGAATCA
CCAAAAGCTC CAGCTGCAGA AAGTGATGCA GCTGAAAGAC CACAGGACGC CCATTCTGCT
GAAAACAAAA ACCGCTCCAA AAGGAAACGC TGTGAAGCCT GGGGAGAGAA CTCCAAGCAG
AATGACTGGA GAAGAGCGGG TGACTGGCCT GTTGGAATGA AAAATATAGG AAATACATGT
TGGTTTAGTG CTGTTATACA GTCTCTGTTT CAGTTGCCAG AATTCCGGAG GCTGGTCCTT
GGGTATTCCC TCCCACAGAA TGTACTTGAA AGTTGTCGTA GTCACACTGG AAAAAGAAAT
ATTGCATTCA TGCAAGAACT TCAGTGTCTG TTTGCATTAA TGCTGGGGAC ATGGCGTAAG
TTTGTAGACC CTTCAGCAGC ACTGGAGCTC TTGAGGGACG TGTTTAGATC ATCTGAACAA
CCGCAGCAAG ATGTGAGTGA ATTTACGCAC AAACTACTGG ACTGGCTGGA GGACGCATTC
CAGCTCACTG TGAATGTCAC GAGCCTTGGG GACAAATCTG AAAACCCAAT GGTGCAGCTC
TTCTACGGGA CTTTCCTGAC TGAGGGAGTC CATAAGGGCA ACACTTTTTC CAAGATTGAG
ACCTTTGGTC AGTATCCCCT TCAGGTAAAT GGTTACCGGA ACTTGAATGA GTGCTTGGAA
GGAGCCATGG TGGAGGGAGA GATGGATGAG ACACCAGCAT CTCAGTCAGT GAAGTATGGA
CAGGAGCGCT GGTTTACAAA ACTCCCACCA GTTCTGACCT TTGAACTCTC CCGATTTGAG
TTCAATCAGT CACTAGGACA GCCAGAGAAA ATTCACACCA AGCTAGAGTT TCCCCAGACT
ATATATATGG ACAGGTACCT ATACTGCAAT AAAGACCTTA TTCAGATGAA AAGAGAGGAA
ATGAAGAGAT TGAAGGAGAA AATGGTGACT CTGCAGCAGA AACTGGAAAG GTACATGGAA
TATGGCTCTG GCCCAGCCCG CTTTCCACTG CCTGACATGC TGCAGTATGT GCTGGAGTTC
ATTGCTACAA AGCCAGCTGT GGCTGTTTCC TCTGCTCAGA GCTCTCAAGC GCCACTCCTG
CGCTCCCAAG CCAAGCCTAA TGTTCTGGAC GTGCTTTCAC AGCCAAACGG CATACAAGAA
AGGACTGATA CGAGGACTGA AGATGAAGCT TTCTTTGTGG CAAATTCTTC ACCACAGCAA
AGCTCCAGTA TGGAGCTCCA GCCTCCTGTT TCACCAGCAG AACTGTCTGA ACGTCCAGCT
CCTCACGTGG TCTCCAAGGA AGAGCTGAAC CTGGTTCAGA CGTGTCTGCA GCGATGGAGA
AACGAGATCG AGCAAGATGT GCAAGATCTG AAGGAGTCTA TTGCCAGAAT CAACCTATCC
ATTGAACAAA TGTACTGTGA CCCTCTCCTC CAGCAGGTTC CCTATCGTTT GCATGCAGTC
CTGGTCCATG AGGGGCAAGC AAATGCTGGG CACTACTGGG CCTTCATATA TGACCAGCCT
CGGAAAAGAT GGCTCAAGTA CAATGACATC TCAGTGACGG AGTCCTCGTG GGAAGAGCTG
GAGAGAGAGT CCTTTGGAGG CCTGAGGAAC GCCAGTGCCT ACTGCCTGAT GTACATCAGT
GACCAGGTGT CCCCTGTTGG TGCAGATGAG GATGAGAGCC CAGAGGCTAG ACAGTTCCAG
AAAGAAGTGG AAGCTTTGTC CCCAGAACTG AGACACTACA TCCAGGAGGA CAACTGGCGC
CTGGAGCAGG AGGCAGAGGA GTGGGACGAG GAGCAATCTT GCAAGATTCC TCAAATGGAG
CCTTCACCTA CTTCTGAATT GCAGGACCTC TCCTCTGAGT CGGGACCAGA GCAGTCATCA
GTGTGTGAGC AGAGCGTGCA CTCCCTGTCC TCGGAGCATG CCAGGATTGC CAAGGAGCAG
ACTGCCAAGG CCATTGCCAA CACTGCCGAT GCCTACGAGA AGAACGGTGT CGAGGCAGCT
CTGTGCGAGC ACAAGGAGGT GGAGCCACTG AAGGCCCATC CAGAAGAAAC ATCCCCCACA
GTTCAGGCAG AGCAGCCCCA GGACACTCAG GAAGCAGAGG CTGCTGCCCA AACTAGCTCA
CAGGTCTCTG AAGTGGAAAT CCCCAGTGTG GGGAGGATTC CTGTTAGATC CGATGCAGAT
GGATATAATG AGGAGGTGAT GCTGAGTCCA GCCATGCAAG GTGTCATCCT GGCTATTGCA
AAAGCCCGCC AGACCTTTGA TCGTGATGGG TCTGAAGCAG GGCTTGTTAA GGCATTCCAT
GAGGAGTACT CCCGGCTGTA CCTGCTTTCC AAAGAGACCC CAACCCCCCA GAACGATGCC
CGGCTGCAGC ACGTGCTCAT CTACTTCCTG CAGAACAACG CTCCGCAGCA GGTGGTGGAA
CGGACCCTCC TCGAGCAGTT TGCAGACAAA AACCTCAGCT ATGATGAGCG GTCCATCAGC
ATCATGAAGG TGGCACGGGC AAAGCTGAGC GAAATTGGTC CTGACGATGT TGACATGGAG
GAGTACAAGA GATGGCACGA AGACTACAGC CTTTTTCGCA AGGTGTCCAT CTACCTGCTG
ACGGGGTTGG AACTCTACCA GAATAGAAAG TACCAAGAGT CACTCACCTA CCTGGTCTAT
GCCTACCAAA GCAACACCAA ACTGCTGCTG AAGGGAGCCA ACCGAGGCGT GAGCGAGTCG
CTGATCGCCT TGTACAGAAG GAAATGTCTC CTGAAGCTGA ACGAGGTGGC AGCTTCTCTT
TTTGTCAGCT GTGAAGAAGC TCATGTGTCA GAGGGTGTGA GCATCCTGAA TGAGCTGATC
ATCCCCTGCA TGCATCTCAT GAGCAACCTG GCGGTCTCCC AAGAGGACCT GGATGCCATC
GAGGTCATGA GAAACCGCTG GTGCTCCTAT TTGGGACGAG AAGACATGGA CGCAAAGCTG
CAGATGAAGC TGGGTGAGCT GCTGCCCCGG CTCCTGGACG GCTCCACCGA GGTCATTATG
CTGAAGGAGC CCCCGAAGAT CCGGCCCAAC TCCCCTTACG ACCTGTGCAG CCGCTTTGCA
GCCGTGATGG AGTCCATCCA CGGGGCCTCC GCCGTGACGG TGAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146618.1 CDS 234..3641 Translation
Target ORF information:
RefSeq Version XM_030290758.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 28 (USP28), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290758.1
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
3361ATGCGTTTCA GAGAGGATTG CCAGGTGCTC TTAAATCAGA TGAAAGAGAT CACAGGAATT
CAGGATTCAG CATTCCTGCT TGCTGCTCTA AAGGCTGCTG ATGGAGATCT CATGGAAGCA
GTCACCTTCC TGACGGAGGA CCCTGCTCCG GAGCCTGTGC AGAGCCCAGC TGCTGCAGAG
CTGTCTGCCT GGGAAGGGAG CACAGTGGGC AAACAGCTCC CACAGGATGT TGGTACTGCA
GCTGCCCCTC ACAACCAAGA CAACCTCCGC ACAGCCAACA CTGTCAGACC ACTGGAATCA
CCAAAAGCTC CAGCTGCAGA AAGTGATGCA GCTGAAAGAC CACAGGACGC CCATTCTGCT
GAAAACAAAA ACCGCTCCAA AAGGAAACGC TGTGAAGCCT GGGGAGAGAA CTCCAAGCAG
AATGACTGGA GAAGAGCGGG TGACTGGCCT GTTGGAATGA AAAATATAGG AAATACATGT
TGGTTTAGTG CTGTTATACA GTCTCTGTTT CAGTTGCCAG AATTCCGGAG GCTGGTCCTT
GGGTATTCCC TCCCACAGAA TGTACTTGAA AGTTGTCGTA GTCACACTGG AAAAAGAAAT
ATTGCATTCA TGCAAGAACT TCAGTGTCTG TTTGCATTAA TGCTGGGGAC ATGGCGTAAG
TTTGTAGACC CTTCAGCAGC ACTGGAGCTC TTGAGGGACG TGTTTAGATC ATCTGAACAA
CCGCAGCAAG ATGTGAGTGA ATTTACGCAC AAACTACTGG ACTGGCTGGA GGACGCATTC
CAGCTCACTG TGAATGTCAC GAGCCTTGGG GACAAATCTG AAAACCCAAT GGTGCAGCTC
TTCTACGGGA CTTTCCTGAC TGAGGGAGTC CATAAGGGCA ACACTTTTTC CAAGATTGAG
ACCTTTGGTC AGTATCCCCT TCAGGTAAAT GGTTACCGGA ACTTGAATGA GTGCTTGGAA
GGAGCCATGG TGGAGGGAGA GATGGATGAG ACACCAGCAT CTCAGTCAGT GAAGTATGGA
CAGGAGCGCT GGTTTACAAA ACTCCCACCA GTTCTGACCT TTGAACTCTC CCGATTTGAG
TTCAATCAGT CACTAGGACA GCCAGAGAAA ATTCACACCA AGCTAGAGTT TCCCCAGACT
ATATATATGG ACAGGTACCT ATACTGCAAT AAAGACCTTA TTCAGATGAA AAGAGAGGAA
ATGAAGAGAT TGAAGGAGAA AATGGTGACT CTGCAGCAGA AACTGGAAAG GTACATGGAA
TATGGCTCTG GCCCAGCCCG CTTTCCACTG CCTGACATGC TGCAGTATGT GCTGGAGTTC
ATTGCTACAA AGCCAGCTGT GGCTGTTTCC TCTGCTCAGA GCTCTCAAGC GCCACTCCTG
CGCTCCCAAG CCAAGCCTAA TGTTCTGGAC GTGCTTTCAC AGCCAAACGG CATACAAGAA
AGGACTGATA CGAGGACTGA AGATGAAGCT TTCTTTGTGG CAAATTCTTC ACCACAGCAA
AGCTCCAGTA TGGAGCTCCA GCCTCCTGTT TCACCAGCAG AACTGTCTGA ACGTCCAGCT
CCTCACGTGG TCTCCAAGGA AGAGCTGAAC CTGGTTCAGA CGTGTCTGCA GCGATGGAGA
AACGAGATCG AGCAAGATGT GCAAGATCTG AAGGAGTCTA TTGCCAGAAT CAACCTATCC
ATTGAACAAA TGTACTGTGA CCCTCTCCTC CAGCAGGTTC CCTATCGTTT GCATGCAGTC
CTGGTCCATG AGGGGCAAGC AAATGCTGGG CACTACTGGG CCTTCATATA TGACCAGCCT
CGGAAAAGAT GGCTCAAGTA CAATGACATC TCAGTGACGG AGTCCTCGTG GGAAGAGCTG
GAGAGAGAGT CCTTTGGAGG CCTGAGGAAC GCCAGTGCCT ACTGCCTGAT GTACATCAGT
GACCAGGTGT CCCCTGTTGG TGCAGATGAG GATGAGAGCC CAGAGGCTAG ACAGTTCCAG
AAAGAAGTGG AAGCTTTGTC CCCAGAACTG AGACACTACA TCCAGGAGGA CAACTGGCGC
CTGGAGCAGG AGGCAGAGGA GTGGGACGAG GAGCAATCTT GCAAGATTCC TCAAATGGAG
CCTTCACCTA CTTCTGAATT GCAGGACCTC TCCTCTGAGT CGGGACCAGA GCAGTCATCA
GTGTGTGAGC AGAGCGTGCA CTCCCTGTCC TCGGAGCATG CCAGGATTGC CAAGGAGCAG
ACTGCCAAGG CCATTGCCAA CACTGCCGAT GCCTACGAGA AGAACGGTGT CGAGGCAGCT
CTGTGCGAGC ACAAGGAGGT GGAGCCACTG AAGGCCCATC CAGAAGAAAC ATCCCCCACA
GTTCAGGCAG AGCAGCCCCA GGACACTCAG GAAGCAGAGG CTGCTGCCCA AACTAGCTCA
CAGGTCTCTG AAGTGGAAAT CCCCAGTGTG GGGAGGATTC CTGTTAGATC CGATGCAGAT
GGATATAATG AGGAGGTGAT GCTGAGTCCA GCCATGCAAG GTGTCATCCT GGCTATTGCA
AAAGCCCGCC AGACCTTTGA TCGTGATGGG TCTGAAGCAG GGCTTGTTAA GGCATTCCAT
GAGGAGTACT CCCGGCTGTA CCTGCTTTCC AAAGAGACCC CAACCCCCCA GAACGATGCC
CGGCTGCAGC ACGTGCTCAT CTACTTCCTG CAGAACAACG CTCCGCAGCA GGTGGTGGAA
CGGACCCTCC TCGAGCAGTT TGCAGACAAA AACCTCAGCT ATGATGAGCG GTCCATCAGC
ATCATGAAGG TGGCACGGGC AAAGCTGAGC GAAATTGGTC CTGACGATGT TGACATGGAG
GAGTACAAGA GATGGCACGA AGACTACAGC CTTTTTCGCA AGGTGTCCAT CTACCTGCTG
ACGGGGTTGG AACTCTACCA GAATAGAAAG TACCAAGAGT CACTCACCTA CCTGGTCTAT
GCCTACCAAA GCAACACCAA ACTGCTGCTG AAGGGAGCCA ACCGAGGCGT GAGCGAGTCG
CTGATCGCCT TGTACAGAAG GAAATGTCTC CTGAAGCTGA ACGAGGTGGC AGCTTCTCTT
TTTGTCAGCT GTGAAGAAGC TCATGTGTCA GAGGGTGTGA GCATCCTGAA TGAGCTGATC
ATCCCCTGCA TGCATCTCAT GAGCAACCTG GCGGTCTCCC AAGAGGACCT GGATGCCATC
GAGGTCATGA GAAACCGCTG GTGCTCCTAT TTGGGACGAG AAGACATGGA CGCAAAGCTG
CAGATGAAGC TGGGTGAGCT GCTGCCCCGG CTCCTGGACG GCTCCACCGA GGTCATTATG
CTGAAGGAGC CCCCGAAGAT CCGGCCCAAC TCCCCTTACG ACCTGTGCAG CCGCTTTGCA
GCCGTGATGG AGTCCATCCA CGGGGCCTCC GCCGTGACGG TGAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd38764 Clone ID Related Accession (Same CDS sequence) XM_030290758.1 , XM_030290757.1 Accession Version XM_030290757.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3408bp)
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 1565193600000 Organism Taeniopygia guttata(zebra finch) Product ubiquitin carboxyl-terminal hydrolase 28 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044236.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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
3361ATGCGTTTCA GAGAGGATTG CCAGGTGCTC TTAAATCAGA TGAAAGAGAT CACAGGAATT
CAGGATTCAG CATTCCTGCT TGCTGCTCTA AAGGCTGCTG ATGGAGATCT CATGGAAGCA
GTCACCTTCC TGACGGAGGA CCCTGCTCCG GAGCCTGTGC AGAGCCCAGC TGCTGCAGAG
CTGTCTGCCT GGGAAGGGAG CACAGTGGGC AAACAGCTCC CACAGGATGT TGGTACTGCA
GCTGCCCCTC ACAACCAAGA CAACCTCCGC ACAGCCAACA CTGTCAGACC ACTGGAATCA
CCAAAAGCTC CAGCTGCAGA AAGTGATGCA GCTGAAAGAC CACAGGACGC CCATTCTGCT
GAAAACAAAA ACCGCTCCAA AAGGAAACGC TGTGAAGCCT GGGGAGAGAA CTCCAAGCAG
AATGACTGGA GAAGAGCGGG TGACTGGCCT GTTGGAATGA AAAATATAGG AAATACATGT
TGGTTTAGTG CTGTTATACA GTCTCTGTTT CAGTTGCCAG AATTCCGGAG GCTGGTCCTT
GGGTATTCCC TCCCACAGAA TGTACTTGAA AGTTGTCGTA GTCACACTGG AAAAAGAAAT
ATTGCATTCA TGCAAGAACT TCAGTGTCTG TTTGCATTAA TGCTGGGGAC ATGGCGTAAG
TTTGTAGACC CTTCAGCAGC ACTGGAGCTC TTGAGGGACG TGTTTAGATC ATCTGAACAA
CCGCAGCAAG ATGTGAGTGA ATTTACGCAC AAACTACTGG ACTGGCTGGA GGACGCATTC
CAGCTCACTG TGAATGTCAC GAGCCTTGGG GACAAATCTG AAAACCCAAT GGTGCAGCTC
TTCTACGGGA CTTTCCTGAC TGAGGGAGTC CATAAGGGCA ACACTTTTTC CAAGATTGAG
ACCTTTGGTC AGTATCCCCT TCAGGTAAAT GGTTACCGGA ACTTGAATGA GTGCTTGGAA
GGAGCCATGG TGGAGGGAGA GATGGATGAG ACACCAGCAT CTCAGTCAGT GAAGTATGGA
CAGGAGCGCT GGTTTACAAA ACTCCCACCA GTTCTGACCT TTGAACTCTC CCGATTTGAG
TTCAATCAGT CACTAGGACA GCCAGAGAAA ATTCACACCA AGCTAGAGTT TCCCCAGACT
ATATATATGG ACAGGTACCT ATACTGCAAT AAAGACCTTA TTCAGATGAA AAGAGAGGAA
ATGAAGAGAT TGAAGGAGAA AATGGTGACT CTGCAGCAGA AACTGGAAAG GTACATGGAA
TATGGCTCTG GCCCAGCCCG CTTTCCACTG CCTGACATGC TGCAGTATGT GCTGGAGTTC
ATTGCTACAA AGCCAGCTGT GGCTGTTTCC TCTGCTCAGA GCTCTCAAGC GCCACTCCTG
CGCTCCCAAG CCAAGCCTAA TGTTCTGGAC GTGCTTTCAC AGCCAAACGG CATACAAGAA
AGGACTGATA CGAGGACTGA AGATGAAGCT TTCTTTGTGG CAAATTCTTC ACCACAGCAA
AGCTCCAGTA TGGAGCTCCA GCCTCCTGTT TCACCAGCAG AACTGTCTGA ACGTCCAGCT
CCTCACGTGG TCTCCAAGGA AGAGCTGAAC CTGGTTCAGA CGTGTCTGCA GCGATGGAGA
AACGAGATCG AGCAAGATGT GCAAGATCTG AAGGAGTCTA TTGCCAGAAT CAACCTATCC
ATTGAACAAA TGTACTGTGA CCCTCTCCTC CAGCAGGTTC CCTATCGTTT GCATGCAGTC
CTGGTCCATG AGGGGCAAGC AAATGCTGGG CACTACTGGG CCTTCATATA TGACCAGCCT
CGGAAAAGAT GGCTCAAGTA CAATGACATC TCAGTGACGG AGTCCTCGTG GGAAGAGCTG
GAGAGAGAGT CCTTTGGAGG CCTGAGGAAC GCCAGTGCCT ACTGCCTGAT GTACATCAGT
GACCAGGTGT CCCCTGTTGG TGCAGATGAG GATGAGAGCC CAGAGGCTAG ACAGTTCCAG
AAAGAAGTGG AAGCTTTGTC CCCAGAACTG AGACACTACA TCCAGGAGGA CAACTGGCGC
CTGGAGCAGG AGGCAGAGGA GTGGGACGAG GAGCAATCTT GCAAGATTCC TCAAATGGAG
CCTTCACCTA CTTCTGAATT GCAGGACCTC TCCTCTGAGT CGGGACCAGA GCAGTCATCA
GTGTGTGAGC AGAGCGTGCA CTCCCTGTCC TCGGAGCATG CCAGGATTGC CAAGGAGCAG
ACTGCCAAGG CCATTGCCAA CACTGCCGAT GCCTACGAGA AGAACGGTGT CGAGGCAGCT
CTGTGCGAGC ACAAGGAGGT GGAGCCACTG AAGGCCCATC CAGAAGAAAC ATCCCCCACA
GTTCAGGCAG AGCAGCCCCA GGACACTCAG GAAGCAGAGG CTGCTGCCCA AACTAGCTCA
CAGGTCTCTG AAGTGGAAAT CCCCAGTGTG GGGAGGATTC CTGTTAGATC CGATGCAGAT
GGATATAATG AGGAGGTGAT GCTGAGTCCA GCCATGCAAG GTGTCATCCT GGCTATTGCA
AAAGCCCGCC AGACCTTTGA TCGTGATGGG TCTGAAGCAG GGCTTGTTAA GGCATTCCAT
GAGGAGTACT CCCGGCTGTA CCTGCTTTCC AAAGAGACCC CAACCCCCCA GAACGATGCC
CGGCTGCAGC ACGTGCTCAT CTACTTCCTG CAGAACAACG CTCCGCAGCA GGTGGTGGAA
CGGACCCTCC TCGAGCAGTT TGCAGACAAA AACCTCAGCT ATGATGAGCG GTCCATCAGC
ATCATGAAGG TGGCACGGGC AAAGCTGAGC GAAATTGGTC CTGACGATGT TGACATGGAG
GAGTACAAGA GATGGCACGA AGACTACAGC CTTTTTCGCA AGGTGTCCAT CTACCTGCTG
ACGGGGTTGG AACTCTACCA GAATAGAAAG TACCAAGAGT CACTCACCTA CCTGGTCTAT
GCCTACCAAA GCAACACCAA ACTGCTGCTG AAGGGAGCCA ACCGAGGCGT GAGCGAGTCG
CTGATCGCCT TGTACAGAAG GAAATGTCTC CTGAAGCTGA ACGAGGTGGC AGCTTCTCTT
TTTGTCAGCT GTGAAGAAGC TCATGTGTCA GAGGGTGTGA GCATCCTGAA TGAGCTGATC
ATCCCCTGCA TGCATCTCAT GAGCAACCTG GCGGTCTCCC AAGAGGACCT GGATGCCATC
GAGGTCATGA GAAACCGCTG GTGCTCCTAT TTGGGACGAG AAGACATGGA CGCAAAGCTG
CAGATGAAGC TGGGTGAGCT GCTGCCCCGG CTCCTGGACG GCTCCACCGA GGTCATTATG
CTGAAGGAGC CCCCGAAGAT CCGGCCCAAC TCCCCTTACG ACCTGTGCAG CCGCTTTGCA
GCCGTGATGG AGTCCATCCA CGGGGCCTCC GCCGTGACGG TGAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146617.1 CDS 287..3694 Translation
Target ORF information:
RefSeq Version XM_030290757.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 28 (USP28), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290757.1
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
3361ATGCGTTTCA GAGAGGATTG CCAGGTGCTC TTAAATCAGA TGAAAGAGAT CACAGGAATT
CAGGATTCAG CATTCCTGCT TGCTGCTCTA AAGGCTGCTG ATGGAGATCT CATGGAAGCA
GTCACCTTCC TGACGGAGGA CCCTGCTCCG GAGCCTGTGC AGAGCCCAGC TGCTGCAGAG
CTGTCTGCCT GGGAAGGGAG CACAGTGGGC AAACAGCTCC CACAGGATGT TGGTACTGCA
GCTGCCCCTC ACAACCAAGA CAACCTCCGC ACAGCCAACA CTGTCAGACC ACTGGAATCA
CCAAAAGCTC CAGCTGCAGA AAGTGATGCA GCTGAAAGAC CACAGGACGC CCATTCTGCT
GAAAACAAAA ACCGCTCCAA AAGGAAACGC TGTGAAGCCT GGGGAGAGAA CTCCAAGCAG
AATGACTGGA GAAGAGCGGG TGACTGGCCT GTTGGAATGA AAAATATAGG AAATACATGT
TGGTTTAGTG CTGTTATACA GTCTCTGTTT CAGTTGCCAG AATTCCGGAG GCTGGTCCTT
GGGTATTCCC TCCCACAGAA TGTACTTGAA AGTTGTCGTA GTCACACTGG AAAAAGAAAT
ATTGCATTCA TGCAAGAACT TCAGTGTCTG TTTGCATTAA TGCTGGGGAC ATGGCGTAAG
TTTGTAGACC CTTCAGCAGC ACTGGAGCTC TTGAGGGACG TGTTTAGATC ATCTGAACAA
CCGCAGCAAG ATGTGAGTGA ATTTACGCAC AAACTACTGG ACTGGCTGGA GGACGCATTC
CAGCTCACTG TGAATGTCAC GAGCCTTGGG GACAAATCTG AAAACCCAAT GGTGCAGCTC
TTCTACGGGA CTTTCCTGAC TGAGGGAGTC CATAAGGGCA ACACTTTTTC CAAGATTGAG
ACCTTTGGTC AGTATCCCCT TCAGGTAAAT GGTTACCGGA ACTTGAATGA GTGCTTGGAA
GGAGCCATGG TGGAGGGAGA GATGGATGAG ACACCAGCAT CTCAGTCAGT GAAGTATGGA
CAGGAGCGCT GGTTTACAAA ACTCCCACCA GTTCTGACCT TTGAACTCTC CCGATTTGAG
TTCAATCAGT CACTAGGACA GCCAGAGAAA ATTCACACCA AGCTAGAGTT TCCCCAGACT
ATATATATGG ACAGGTACCT ATACTGCAAT AAAGACCTTA TTCAGATGAA AAGAGAGGAA
ATGAAGAGAT TGAAGGAGAA AATGGTGACT CTGCAGCAGA AACTGGAAAG GTACATGGAA
TATGGCTCTG GCCCAGCCCG CTTTCCACTG CCTGACATGC TGCAGTATGT GCTGGAGTTC
ATTGCTACAA AGCCAGCTGT GGCTGTTTCC TCTGCTCAGA GCTCTCAAGC GCCACTCCTG
CGCTCCCAAG CCAAGCCTAA TGTTCTGGAC GTGCTTTCAC AGCCAAACGG CATACAAGAA
AGGACTGATA CGAGGACTGA AGATGAAGCT TTCTTTGTGG CAAATTCTTC ACCACAGCAA
AGCTCCAGTA TGGAGCTCCA GCCTCCTGTT TCACCAGCAG AACTGTCTGA ACGTCCAGCT
CCTCACGTGG TCTCCAAGGA AGAGCTGAAC CTGGTTCAGA CGTGTCTGCA GCGATGGAGA
AACGAGATCG AGCAAGATGT GCAAGATCTG AAGGAGTCTA TTGCCAGAAT CAACCTATCC
ATTGAACAAA TGTACTGTGA CCCTCTCCTC CAGCAGGTTC CCTATCGTTT GCATGCAGTC
CTGGTCCATG AGGGGCAAGC AAATGCTGGG CACTACTGGG CCTTCATATA TGACCAGCCT
CGGAAAAGAT GGCTCAAGTA CAATGACATC TCAGTGACGG AGTCCTCGTG GGAAGAGCTG
GAGAGAGAGT CCTTTGGAGG CCTGAGGAAC GCCAGTGCCT ACTGCCTGAT GTACATCAGT
GACCAGGTGT CCCCTGTTGG TGCAGATGAG GATGAGAGCC CAGAGGCTAG ACAGTTCCAG
AAAGAAGTGG AAGCTTTGTC CCCAGAACTG AGACACTACA TCCAGGAGGA CAACTGGCGC
CTGGAGCAGG AGGCAGAGGA GTGGGACGAG GAGCAATCTT GCAAGATTCC TCAAATGGAG
CCTTCACCTA CTTCTGAATT GCAGGACCTC TCCTCTGAGT CGGGACCAGA GCAGTCATCA
GTGTGTGAGC AGAGCGTGCA CTCCCTGTCC TCGGAGCATG CCAGGATTGC CAAGGAGCAG
ACTGCCAAGG CCATTGCCAA CACTGCCGAT GCCTACGAGA AGAACGGTGT CGAGGCAGCT
CTGTGCGAGC ACAAGGAGGT GGAGCCACTG AAGGCCCATC CAGAAGAAAC ATCCCCCACA
GTTCAGGCAG AGCAGCCCCA GGACACTCAG GAAGCAGAGG CTGCTGCCCA AACTAGCTCA
CAGGTCTCTG AAGTGGAAAT CCCCAGTGTG GGGAGGATTC CTGTTAGATC CGATGCAGAT
GGATATAATG AGGAGGTGAT GCTGAGTCCA GCCATGCAAG GTGTCATCCT GGCTATTGCA
AAAGCCCGCC AGACCTTTGA TCGTGATGGG TCTGAAGCAG GGCTTGTTAA GGCATTCCAT
GAGGAGTACT CCCGGCTGTA CCTGCTTTCC AAAGAGACCC CAACCCCCCA GAACGATGCC
CGGCTGCAGC ACGTGCTCAT CTACTTCCTG CAGAACAACG CTCCGCAGCA GGTGGTGGAA
CGGACCCTCC TCGAGCAGTT TGCAGACAAA AACCTCAGCT ATGATGAGCG GTCCATCAGC
ATCATGAAGG TGGCACGGGC AAAGCTGAGC GAAATTGGTC CTGACGATGT TGACATGGAG
GAGTACAAGA GATGGCACGA AGACTACAGC CTTTTTCGCA AGGTGTCCAT CTACCTGCTG
ACGGGGTTGG AACTCTACCA GAATAGAAAG TACCAAGAGT CACTCACCTA CCTGGTCTAT
GCCTACCAAA GCAACACCAA ACTGCTGCTG AAGGGAGCCA ACCGAGGCGT GAGCGAGTCG
CTGATCGCCT TGTACAGAAG GAAATGTCTC CTGAAGCTGA ACGAGGTGGC AGCTTCTCTT
TTTGTCAGCT GTGAAGAAGC TCATGTGTCA GAGGGTGTGA GCATCCTGAA TGAGCTGATC
ATCCCCTGCA TGCATCTCAT GAGCAACCTG GCGGTCTCCC AAGAGGACCT GGATGCCATC
GAGGTCATGA GAAACCGCTG GTGCTCCTAT TTGGGACGAG AAGACATGGA CGCAAAGCTG
CAGATGAAGC TGGGTGAGCT GCTGCCCCGG CTCCTGGACG GCTCCACCGA GGTCATTATG
CTGAAGGAGC CCCCGAAGAT CCGGCCCAAC TCCCCTTACG ACCTGTGCAG CCGCTTTGCA
GCCGTGATGG AGTCCATCCA CGGGGCCTCC GCCGTGACGG TGAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd38765 Clone ID Related Accession (Same CDS sequence) XM_030290759.1 Accession Version XM_030290759.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3246bp)
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 1565193600000 Organism Taeniopygia guttata(zebra finch) Product ubiquitin carboxyl-terminal hydrolase 28 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044236.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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
3241ATGACGGCCG AGCTGCGGGC CCGGGACGGC GGCGGCGAGG ATTGCCAGGT GCTCTTAAAT
CAGATGAAAG AGATCACAGG AATTCAGGAT TCAGCATTCC TGCTTGCTGC TCTAAAGGCT
GCTGATGGAG ATCTCATGGA AGCAGTCACC TTCCTGACGG AGGACCCTGC TCCGGAGCCT
GTGCAGAGCC CAGCTGCTGC AGAGCTGTCT GCCTGGGAAG GGAGCACAGT GGGCAAACAG
CTCCCACAGG ATGTTGGTAC TGCAGCTGCC CCTCACAACC AAGACAACCT CCGCACAGCC
AACACTGTCA GACCACTGGA ATCACCAAAA GCTCCAGCTG CAGAAAGTGA TGCAGCTGAA
AGACCACAGG ACGCCCATTC TGCTGAAAAC AAAAACCGCT CCAAAAGGAA ACGCTGTGAA
GCCTGGGGAG AGAACTCCAA GCAGAATGAC TGGAGAAGAG CGGGTGACTG GCCTGTTGGA
ATGAAAAATA TAGGAAATAC ATGTTGGTTT AGTGCTGTTA TACAGTCTCT GTTTCAGTTG
CCAGAATTCC GGAGGCTGGT CCTTGGGTAT TCCCTCCCAC AGAATGTACT TGAAAGTTGT
CGTAGTCACA CTGGAAAAAG AAATATTGCA TTCATGCAAG AACTTCAGTG TCTGTTTGCA
TTAATGCTGG GGACATGGCG TAAGTTTGTA GACCCTTCAG CAGCACTGGA GCTCTTGAGG
GACGTGTTTA GATCATCTGA ACAACCGCAG CAAGATGTGA GTGAATTTAC GCACAAACTA
CTGGACTGGC TGGAGGACGC ATTCCAGCTC ACTGTGAATG TCACGAGCCT TGGGGACAAA
TCTGAAAACC CAATGGTGCA GCTCTTCTAC GGGACTTTCC TGACTGAGGG AGTCCATAAG
GGCAACACTT TTTCCAAGAT TGAGACCTTT GGTCAGTATC CCCTTCAGGT AAATGGTTAC
CGGAACTTGA ATGAGTGCTT GGAAGGAGCC ATGGTGGAGG GAGAGATGGA TGAGACACCA
GCATCTCAGT CAGTGAAGTA TGGACAGGAG CGCTGGTTTA CAAAACTCCC ACCAGTTCTG
ACCTTTGAAC TCTCCCGATT TGAGTTCAAT CAGTCACTAG GACAGCCAGA GAAAATTCAC
ACCAAGCTAG AGTTTCCCCA GACTATATAT ATGGACAGGT ACCTATACTG CAATAAAGAC
CTTATTCAGA TGAAAAGAGA GGAAATGAAG AGATTGAAGG AGAAAATGGT GACTCTGCAG
CAGAAACTGG AAAGGTACAT GGAATATGGC TCTGGCCCAG CCCGCTTTCC ACTGCCTGAC
ATGCTGCAGT ATGTGCTGGA GTTCATTGCT ACAAAGCCAG CTGTGGCTGT TTCCTCTGCT
CAGAGCTCTC AAGCGCCACT CCTGCGCTCC CAAGCCAAGC CTAATGTTCT GGACGTGCTT
TCACAGCCAA ACGGCATACA AGAAAGGACT GATACGAGGA CTGAAGATGA AGCTTTCTTT
GTGGCAAATT CTTCACCACA GCAAAGCTCC AGTATGGAGC TCCAGCCTCC TGTTTCACCA
GCAGAACTGT CTGAACGTCC AGCTCCTCAC GTGGTCTCCA AGGAAGAGCT GAACCTGGTT
CAGACGTGTC TGCAGCGATG GAGAAACGAG ATCGAGCAAG ATGTGCAAGA TCTGAAGGAG
TCTATTGCCA GAATCAACCT ATCCATTGAA CAAATGTACT GTGACCCTCT CCTCCAGCAG
GTTCCCTATC GTTTGCATGC AGTCCTGGTC CATGAGGGGC AAGCAAATGC TGGGCACTAC
TGGGCCTTCA TATATGACCA GCCTCGGAAA AGATGGCTCA AGTACAATGA CATCTCAGTG
ACGGAGTCCT CGTGGGAAGA GCTGGAGAGA GAGTCCTTTG GAGGCCTGAG GAACGCCAGT
GCCTACTGCC TGATGTACAT CAGTGACCAG GTGTCCCCTG TTGGTGCAGA TGAGGATGAG
AGCCCAGAGG CTAGACAGTT CCAGAAAGAA GTGGAAGCTT TGTCCCCAGA ACTGAGACAC
TACATCCAGG AGGACAACTG GCGCCTGGAG CAGGAGGCAG AGGAGTGGGA CGAGGAGCAA
TCTTGCAAGA TTCCTCAAAT GGAGCCTTCA CCTACTTCTG AATTGCAGGA CCTCTCCTCT
GAGTCGGGAC CAGAGCAGTC ATCAGTGTGT GAGCAGAGCG TGCACTCCCT GTCCTCGGAG
CATGCCAGGA TTGCCAAGGA GCAGACTGCC AAGGCCATTG CCAACACTGC CGATGCCTAC
GAGAAGAACG GTGTCGAGGC AGCTCTGTGC GAGGTGATGC TGAGTCCAGC CATGCAAGGT
GTCATCCTGG CTATTGCAAA AGCCCGCCAG ACCTTTGATC GTGATGGGTC TGAAGCAGGG
CTTGTTAAGG CATTCCATGA GGAGTACTCC CGGCTGTACC TGCTTTCCAA AGAGACCCCA
ACCCCCCAGA ACGATGCCCG GCTGCAGCAC GTGCTCATCT ACTTCCTGCA GAACAACGCT
CCGCAGCAGG TGGTGGAACG GACCCTCCTC GAGCAGTTTG CAGACAAAAA CCTCAGCTAT
GATGAGCGGT CCATCAGCAT CATGAAGGTG GCACGGGCAA AGCTGAGCGA AATTGGTCCT
GACGATGTTG ACATGGAGGA GTACAAGAGA TGGCACGAAG ACTACAGCCT TTTTCGCAAG
GTGTCCATCT ACCTGCTGAC GGGGTTGGAA CTCTACCAGA ATAGAAAGTA CCAAGAGTCA
CTCACCTACC TGGTCTATGC CTACCAAAGC AACACCAAAC TGCTGCTGAA GGGAGCCAAC
CGAGGCGTGA GCGAGTCGCT GATCGCCTTG TACAGAAGGA AATGTCTCCT GAAGCTGAAC
GAGGTGGCAG CTTCTCTTTT TGTCAGCTGT GAAGAAGCTC ATGTGTCAGA GGGTGTGAGC
ATCCTGAATG AGCTGATCAT CCCCTGCATG CATCTCATGA GCAACCTGGC GGTCTCCCAA
GAGGACCTGG ATGCCATCGA GGTCATGAGA AACCGCTGGT GCTCCTATTT GGGACGAGAA
GACATGGACG CAAAGCTGCA GATGAAGCTG GGTGAGCTGC TGCCCCGGCT CCTGGACGGC
TCCACCGAGG TCATTATGCT GAAGGAGCCC CCGAAGATCC GGCCCAACTC CCCTTACGAC
CTGTGCAGCC GCTTTGCAGC CGTGATGGAG TCCATCCACG GGGCCTCCGC CGTGACGGTG
AACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146619.1 CDS 50..3295 Translation
Target ORF information:
RefSeq Version XM_030290759.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 28 (USP28), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290759.1
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
3241ATGACGGCCG AGCTGCGGGC CCGGGACGGC GGCGGCGAGG ATTGCCAGGT GCTCTTAAAT
CAGATGAAAG AGATCACAGG AATTCAGGAT TCAGCATTCC TGCTTGCTGC TCTAAAGGCT
GCTGATGGAG ATCTCATGGA AGCAGTCACC TTCCTGACGG AGGACCCTGC TCCGGAGCCT
GTGCAGAGCC CAGCTGCTGC AGAGCTGTCT GCCTGGGAAG GGAGCACAGT GGGCAAACAG
CTCCCACAGG ATGTTGGTAC TGCAGCTGCC CCTCACAACC AAGACAACCT CCGCACAGCC
AACACTGTCA GACCACTGGA ATCACCAAAA GCTCCAGCTG CAGAAAGTGA TGCAGCTGAA
AGACCACAGG ACGCCCATTC TGCTGAAAAC AAAAACCGCT CCAAAAGGAA ACGCTGTGAA
GCCTGGGGAG AGAACTCCAA GCAGAATGAC TGGAGAAGAG CGGGTGACTG GCCTGTTGGA
ATGAAAAATA TAGGAAATAC ATGTTGGTTT AGTGCTGTTA TACAGTCTCT GTTTCAGTTG
CCAGAATTCC GGAGGCTGGT CCTTGGGTAT TCCCTCCCAC AGAATGTACT TGAAAGTTGT
CGTAGTCACA CTGGAAAAAG AAATATTGCA TTCATGCAAG AACTTCAGTG TCTGTTTGCA
TTAATGCTGG GGACATGGCG TAAGTTTGTA GACCCTTCAG CAGCACTGGA GCTCTTGAGG
GACGTGTTTA GATCATCTGA ACAACCGCAG CAAGATGTGA GTGAATTTAC GCACAAACTA
CTGGACTGGC TGGAGGACGC ATTCCAGCTC ACTGTGAATG TCACGAGCCT TGGGGACAAA
TCTGAAAACC CAATGGTGCA GCTCTTCTAC GGGACTTTCC TGACTGAGGG AGTCCATAAG
GGCAACACTT TTTCCAAGAT TGAGACCTTT GGTCAGTATC CCCTTCAGGT AAATGGTTAC
CGGAACTTGA ATGAGTGCTT GGAAGGAGCC ATGGTGGAGG GAGAGATGGA TGAGACACCA
GCATCTCAGT CAGTGAAGTA TGGACAGGAG CGCTGGTTTA CAAAACTCCC ACCAGTTCTG
ACCTTTGAAC TCTCCCGATT TGAGTTCAAT CAGTCACTAG GACAGCCAGA GAAAATTCAC
ACCAAGCTAG AGTTTCCCCA GACTATATAT ATGGACAGGT ACCTATACTG CAATAAAGAC
CTTATTCAGA TGAAAAGAGA GGAAATGAAG AGATTGAAGG AGAAAATGGT GACTCTGCAG
CAGAAACTGG AAAGGTACAT GGAATATGGC TCTGGCCCAG CCCGCTTTCC ACTGCCTGAC
ATGCTGCAGT ATGTGCTGGA GTTCATTGCT ACAAAGCCAG CTGTGGCTGT TTCCTCTGCT
CAGAGCTCTC AAGCGCCACT CCTGCGCTCC CAAGCCAAGC CTAATGTTCT GGACGTGCTT
TCACAGCCAA ACGGCATACA AGAAAGGACT GATACGAGGA CTGAAGATGA AGCTTTCTTT
GTGGCAAATT CTTCACCACA GCAAAGCTCC AGTATGGAGC TCCAGCCTCC TGTTTCACCA
GCAGAACTGT CTGAACGTCC AGCTCCTCAC GTGGTCTCCA AGGAAGAGCT GAACCTGGTT
CAGACGTGTC TGCAGCGATG GAGAAACGAG ATCGAGCAAG ATGTGCAAGA TCTGAAGGAG
TCTATTGCCA GAATCAACCT ATCCATTGAA CAAATGTACT GTGACCCTCT CCTCCAGCAG
GTTCCCTATC GTTTGCATGC AGTCCTGGTC CATGAGGGGC AAGCAAATGC TGGGCACTAC
TGGGCCTTCA TATATGACCA GCCTCGGAAA AGATGGCTCA AGTACAATGA CATCTCAGTG
ACGGAGTCCT CGTGGGAAGA GCTGGAGAGA GAGTCCTTTG GAGGCCTGAG GAACGCCAGT
GCCTACTGCC TGATGTACAT CAGTGACCAG GTGTCCCCTG TTGGTGCAGA TGAGGATGAG
AGCCCAGAGG CTAGACAGTT CCAGAAAGAA GTGGAAGCTT TGTCCCCAGA ACTGAGACAC
TACATCCAGG AGGACAACTG GCGCCTGGAG CAGGAGGCAG AGGAGTGGGA CGAGGAGCAA
TCTTGCAAGA TTCCTCAAAT GGAGCCTTCA CCTACTTCTG AATTGCAGGA CCTCTCCTCT
GAGTCGGGAC CAGAGCAGTC ATCAGTGTGT GAGCAGAGCG TGCACTCCCT GTCCTCGGAG
CATGCCAGGA TTGCCAAGGA GCAGACTGCC AAGGCCATTG CCAACACTGC CGATGCCTAC
GAGAAGAACG GTGTCGAGGC AGCTCTGTGC GAGGTGATGC TGAGTCCAGC CATGCAAGGT
GTCATCCTGG CTATTGCAAA AGCCCGCCAG ACCTTTGATC GTGATGGGTC TGAAGCAGGG
CTTGTTAAGG CATTCCATGA GGAGTACTCC CGGCTGTACC TGCTTTCCAA AGAGACCCCA
ACCCCCCAGA ACGATGCCCG GCTGCAGCAC GTGCTCATCT ACTTCCTGCA GAACAACGCT
CCGCAGCAGG TGGTGGAACG GACCCTCCTC GAGCAGTTTG CAGACAAAAA CCTCAGCTAT
GATGAGCGGT CCATCAGCAT CATGAAGGTG GCACGGGCAA AGCTGAGCGA AATTGGTCCT
GACGATGTTG ACATGGAGGA GTACAAGAGA TGGCACGAAG ACTACAGCCT TTTTCGCAAG
GTGTCCATCT ACCTGCTGAC GGGGTTGGAA CTCTACCAGA ATAGAAAGTA CCAAGAGTCA
CTCACCTACC TGGTCTATGC CTACCAAAGC AACACCAAAC TGCTGCTGAA GGGAGCCAAC
CGAGGCGTGA GCGAGTCGCT GATCGCCTTG TACAGAAGGA AATGTCTCCT GAAGCTGAAC
GAGGTGGCAG CTTCTCTTTT TGTCAGCTGT GAAGAAGCTC ATGTGTCAGA GGGTGTGAGC
ATCCTGAATG AGCTGATCAT CCCCTGCATG CATCTCATGA GCAACCTGGC GGTCTCCCAA
GAGGACCTGG ATGCCATCGA GGTCATGAGA AACCGCTGGT GCTCCTATTT GGGACGAGAA
GACATGGACG CAAAGCTGCA GATGAAGCTG GGTGAGCTGC TGCCCCGGCT CCTGGACGGC
TCCACCGAGG TCATTATGCT GAAGGAGCCC CCGAAGATCC GGCCCAACTC CCCTTACGAC
CTGTGCAGCC GCTTTGCAGC CGTGATGGAG TCCATCCACG GGGCCTCCGC CGTGACGGTG
AACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd38766 Clone ID Related Accession (Same CDS sequence) XM_030290760.1 Accession Version XM_030290760.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3150bp)
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 1565193600000 Organism Taeniopygia guttata(zebra finch) Product ubiquitin carboxyl-terminal hydrolase 28 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044236.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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
3121ATGACGGCCG AGCTGCGGGC CCGGGACGGC GGCGGCGAGG ATTGCCAGGT GCTCTTAAAT
CAGATGAAAG AGATCACAGG AATTCAGGAT TCAGCATTCC TGCTTGCTGC TCTAAAGGCT
GCTGATGGAG ATCTCATGGA AGCAGTCACC TTCCTGACGG AGGACCCTGC TCCGGAGCCT
GTGCAGAGCC CAGCTGCTGC AGAGCTGTCT GCCTGGGAAG GGAGCACAGT GGGCAAACAG
CTCCCACAGG ATGTTGGTAC TGCAGCTGCC CCTCACAACC AAGACAACCT CCGCACAGCC
AACACTGTCA GACCACTGGA ATCACCAAAA GCTCCAGCTG CAGAAAGTGA TGCAGCTGAA
AGACCACAGG ACGCCCATTC TGCTGAAAAC AAAAACCGCT CCAAAAGGAA ACGCTGTGAA
GCCTGGGGAG AGAACTCCAA GCAGAATGAC TGGAGAAGAG CGGGTGACTG GCCTGTTGGA
ATGAAAAATA TAGGAAATAC ATGTTGGTTT AGTGCTGTTA TACAGTCTCT GTTTCAGTTG
CCAGAATTCC GGAGGCTGGT CCTTGGGTAT TCCCTCCCAC AGAATGTACT TGAAAGTTGT
CGTAGTCACA CTGGAAAAAG AAATATTGCA TTCATGCAAG AACTTCAGTG TCTGTTTGCA
TTAATGCTGG GGACATGGCG TAAGTTTGTA GACCCTTCAG CAGCACTGGA GCTCTTGAGG
GACGTGTTTA GATCATCTGA ACAACCGCAG CAAGATGTGA GTGAATTTAC GCACAAACTA
CTGGACTGGC TGGAGGACGC ATTCCAGCTC ACTGTGAATG TCACGAGCCT TGGGGACAAA
TCTGAAAACC CAATGGTGCA GCTCTTCTAC GGGACTTTCC TGACTGAGGG AGTCCATAAG
GGCAACACTT TTTCCAAGAT TGAGACCTTT GGTCAGTATC CCCTTCAGGT AAATGGTTAC
CGGAACTTGA ATGAGTGCTT GGAAGGAGCC ATGGTGGAGG GAGAGATGGA TGAGACACCA
GCATCTCAGT CAGTGAAGTA TGGACAGGAG CGCTGGTTTA CAAAACTCCC ACCAGTTCTG
ACCTTTGAAC TCTCCCGATT TGAGTTCAAT CAGTCACTAG GACAGCCAGA GAAAATTCAC
ACCAAGCTAG AGTTTCCCCA GACTATATAT ATGGACAGGT ACCTATACTG CAATAAAGAC
CTTATTCAGA TGAAAAGAGA GGAAATGAAG AGATTGAAGG AGAAAATGGT GACTCTGCAG
CAGAAACTGG AAAGGTACAT GGAATATGGC TCTGGCCCAG CCCGCTTTCC ACTGCCTGAC
ATGCTGCAGT ATGTGCTGGA GTTCATTGCT ACAAAGCCAG CTGTGGCTGT TTCCTCTGCT
CAGAGCTCTC AAGCGCCACT CCTGCGCTCC CAAGCCAAGC CTAATGTTCT GGACGTGCTT
TCACAGCCAA ACGGCATACA AGAAAGGACT GATACGAGGA CTGAAGATGA AGCTTTCTTT
GTGGCAAATT CTTCACCACA GCAAAGCTCC AGTATGGAGC TCCAGCCTCC TGTTTCACCA
GCAGAACTGT CTGAACGTCC AGCTCCTCAC GTGGTCTCCA AGGAAGAGCT GAACCTGGTT
CAGACGTGTC TGCAGCGATG GAGAAACGAG ATCGAGCAAG ATGTGCAAGA TCTGAAGGAG
TCTATTGCCA GAATCAACCT ATCCATTGAA CAAATGTACT GTGACCCTCT CCTCCAGCAG
GTTCCCTATC GTTTGCATGC AGTCCTGGTC CATGAGGGGC AAGCAAATGC TGGGCACTAC
TGGGCCTTCA TATATGACCA GCCTCGGAAA AGATGGCTCA AGTACAATGA CATCTCAGTG
ACGGAGTCCT CGTGGGAAGA GCTGGAGAGA GAGTCCTTTG GAGGCCTGAG GAACGCCAGT
GCCTACTGCC TGATGTACAT CAGTGACCAG GTGTCCCCTG TTGGTGCAGA TGAGGATGAG
AGCCCAGAGG CTAGACAGTT CCAGAAAGAA GTGGAAGCTT TGTCCCCAGA ACTGAGACAC
TACATCCAGG AGGACAACTG GCGCCTGGAG CAGGAGGCAG AGGAGTGGGA CGAGGAGCAA
TCTTGCAAGA TTCCTCAAAT GGAGCCTTCA CCTACTTCTG AATTGCAGGA CCTCTCCTCT
GAGTCGGGAC CAGAGCAGTC ATCAGTGTGT GAGCAGAGCG TGCACTCCCT GTCCTCGGAG
CATGCCAGGA TTGCCAAGGA GCAGACTGCC AAGGCCATTG CCAACACTGC CGATGCCTAC
GAGAAGAACG GTGTCGAGGC AGCTCTGTGC GAGGCATTCC ATGAGGAGTA CTCCCGGCTG
TACCTGCTTT CCAAAGAGAC CCCAACCCCC CAGAACGATG CCCGGCTGCA GCACGTGCTC
ATCTACTTCC TGCAGAACAA CGCTCCGCAG CAGGTGGTGG AACGGACCCT CCTCGAGCAG
TTTGCAGACA AAAACCTCAG CTATGATGAG CGGTCCATCA GCATCATGAA GGTGGCACGG
GCAAAGCTGA GCGAAATTGG TCCTGACGAT GTTGACATGG AGGAGTACAA GAGATGGCAC
GAAGACTACA GCCTTTTTCG CAAGGTGTCC ATCTACCTGC TGACGGGGTT GGAACTCTAC
CAGAATAGAA AGTACCAAGA GTCACTCACC TACCTGGTCT ATGCCTACCA AAGCAACACC
AAACTGCTGC TGAAGGGAGC CAACCGAGGC GTGAGCGAGT CGCTGATCGC CTTGTACAGA
AGGAAATGTC TCCTGAAGCT GAACGAGGTG GCAGCTTCTC TTTTTGTCAG CTGTGAAGAA
GCTCATGTGT CAGAGGGTGT GAGCATCCTG AATGAGCTGA TCATCCCCTG CATGCATCTC
ATGAGCAACC TGGCGGTCTC CCAAGAGGAC CTGGATGCCA TCGAGGTCAT GAGAAACCGC
TGGTGCTCCT ATTTGGGACG AGAAGACATG GACGCAAAGC TGCAGATGAA GCTGGGTGAG
CTGCTGCCCC GGCTCCTGGA CGGCTCCACC GAGGTCATTA TGCTGAAGGA GCCCCCGAAG
ATCCGGCCCA ACTCCCCTTA CGACCTGTGC AGCCGCTTTG CAGCCGTGAT GGAGTCCATC
CACGGGGCCT CCGCCGTGAC GGTGAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146620.1 CDS 50..3199 Translation
Target ORF information:
RefSeq Version XM_030290760.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 28 (USP28), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290760.1
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
3121ATGACGGCCG AGCTGCGGGC CCGGGACGGC GGCGGCGAGG ATTGCCAGGT GCTCTTAAAT
CAGATGAAAG AGATCACAGG AATTCAGGAT TCAGCATTCC TGCTTGCTGC TCTAAAGGCT
GCTGATGGAG ATCTCATGGA AGCAGTCACC TTCCTGACGG AGGACCCTGC TCCGGAGCCT
GTGCAGAGCC CAGCTGCTGC AGAGCTGTCT GCCTGGGAAG GGAGCACAGT GGGCAAACAG
CTCCCACAGG ATGTTGGTAC TGCAGCTGCC CCTCACAACC AAGACAACCT CCGCACAGCC
AACACTGTCA GACCACTGGA ATCACCAAAA GCTCCAGCTG CAGAAAGTGA TGCAGCTGAA
AGACCACAGG ACGCCCATTC TGCTGAAAAC AAAAACCGCT CCAAAAGGAA ACGCTGTGAA
GCCTGGGGAG AGAACTCCAA GCAGAATGAC TGGAGAAGAG CGGGTGACTG GCCTGTTGGA
ATGAAAAATA TAGGAAATAC ATGTTGGTTT AGTGCTGTTA TACAGTCTCT GTTTCAGTTG
CCAGAATTCC GGAGGCTGGT CCTTGGGTAT TCCCTCCCAC AGAATGTACT TGAAAGTTGT
CGTAGTCACA CTGGAAAAAG AAATATTGCA TTCATGCAAG AACTTCAGTG TCTGTTTGCA
TTAATGCTGG GGACATGGCG TAAGTTTGTA GACCCTTCAG CAGCACTGGA GCTCTTGAGG
GACGTGTTTA GATCATCTGA ACAACCGCAG CAAGATGTGA GTGAATTTAC GCACAAACTA
CTGGACTGGC TGGAGGACGC ATTCCAGCTC ACTGTGAATG TCACGAGCCT TGGGGACAAA
TCTGAAAACC CAATGGTGCA GCTCTTCTAC GGGACTTTCC TGACTGAGGG AGTCCATAAG
GGCAACACTT TTTCCAAGAT TGAGACCTTT GGTCAGTATC CCCTTCAGGT AAATGGTTAC
CGGAACTTGA ATGAGTGCTT GGAAGGAGCC ATGGTGGAGG GAGAGATGGA TGAGACACCA
GCATCTCAGT CAGTGAAGTA TGGACAGGAG CGCTGGTTTA CAAAACTCCC ACCAGTTCTG
ACCTTTGAAC TCTCCCGATT TGAGTTCAAT CAGTCACTAG GACAGCCAGA GAAAATTCAC
ACCAAGCTAG AGTTTCCCCA GACTATATAT ATGGACAGGT ACCTATACTG CAATAAAGAC
CTTATTCAGA TGAAAAGAGA GGAAATGAAG AGATTGAAGG AGAAAATGGT GACTCTGCAG
CAGAAACTGG AAAGGTACAT GGAATATGGC TCTGGCCCAG CCCGCTTTCC ACTGCCTGAC
ATGCTGCAGT ATGTGCTGGA GTTCATTGCT ACAAAGCCAG CTGTGGCTGT TTCCTCTGCT
CAGAGCTCTC AAGCGCCACT CCTGCGCTCC CAAGCCAAGC CTAATGTTCT GGACGTGCTT
TCACAGCCAA ACGGCATACA AGAAAGGACT GATACGAGGA CTGAAGATGA AGCTTTCTTT
GTGGCAAATT CTTCACCACA GCAAAGCTCC AGTATGGAGC TCCAGCCTCC TGTTTCACCA
GCAGAACTGT CTGAACGTCC AGCTCCTCAC GTGGTCTCCA AGGAAGAGCT GAACCTGGTT
CAGACGTGTC TGCAGCGATG GAGAAACGAG ATCGAGCAAG ATGTGCAAGA TCTGAAGGAG
TCTATTGCCA GAATCAACCT ATCCATTGAA CAAATGTACT GTGACCCTCT CCTCCAGCAG
GTTCCCTATC GTTTGCATGC AGTCCTGGTC CATGAGGGGC AAGCAAATGC TGGGCACTAC
TGGGCCTTCA TATATGACCA GCCTCGGAAA AGATGGCTCA AGTACAATGA CATCTCAGTG
ACGGAGTCCT CGTGGGAAGA GCTGGAGAGA GAGTCCTTTG GAGGCCTGAG GAACGCCAGT
GCCTACTGCC TGATGTACAT CAGTGACCAG GTGTCCCCTG TTGGTGCAGA TGAGGATGAG
AGCCCAGAGG CTAGACAGTT CCAGAAAGAA GTGGAAGCTT TGTCCCCAGA ACTGAGACAC
TACATCCAGG AGGACAACTG GCGCCTGGAG CAGGAGGCAG AGGAGTGGGA CGAGGAGCAA
TCTTGCAAGA TTCCTCAAAT GGAGCCTTCA CCTACTTCTG AATTGCAGGA CCTCTCCTCT
GAGTCGGGAC CAGAGCAGTC ATCAGTGTGT GAGCAGAGCG TGCACTCCCT GTCCTCGGAG
CATGCCAGGA TTGCCAAGGA GCAGACTGCC AAGGCCATTG CCAACACTGC CGATGCCTAC
GAGAAGAACG GTGTCGAGGC AGCTCTGTGC GAGGCATTCC ATGAGGAGTA CTCCCGGCTG
TACCTGCTTT CCAAAGAGAC CCCAACCCCC CAGAACGATG CCCGGCTGCA GCACGTGCTC
ATCTACTTCC TGCAGAACAA CGCTCCGCAG CAGGTGGTGG AACGGACCCT CCTCGAGCAG
TTTGCAGACA AAAACCTCAG CTATGATGAG CGGTCCATCA GCATCATGAA GGTGGCACGG
GCAAAGCTGA GCGAAATTGG TCCTGACGAT GTTGACATGG AGGAGTACAA GAGATGGCAC
GAAGACTACA GCCTTTTTCG CAAGGTGTCC ATCTACCTGC TGACGGGGTT GGAACTCTAC
CAGAATAGAA AGTACCAAGA GTCACTCACC TACCTGGTCT ATGCCTACCA AAGCAACACC
AAACTGCTGC TGAAGGGAGC CAACCGAGGC GTGAGCGAGT CGCTGATCGC CTTGTACAGA
AGGAAATGTC TCCTGAAGCT GAACGAGGTG GCAGCTTCTC TTTTTGTCAG CTGTGAAGAA
GCTCATGTGT CAGAGGGTGT GAGCATCCTG AATGAGCTGA TCATCCCCTG CATGCATCTC
ATGAGCAACC TGGCGGTCTC CCAAGAGGAC CTGGATGCCA TCGAGGTCAT GAGAAACCGC
TGGTGCTCCT ATTTGGGACG AGAAGACATG GACGCAAAGC TGCAGATGAA GCTGGGTGAG
CTGCTGCCCC GGCTCCTGGA CGGCTCCACC GAGGTCATTA TGCTGAAGGA GCCCCCGAAG
ATCCGGCCCA ACTCCCCTTA CGACCTGTGC AGCCGCTTTG CAGCCGTGAT GGAGTCCATC
CACGGGGCCT CCGCCGTGAC GGTGAACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd38767 Clone ID Related Accession (Same CDS sequence) XM_030290761.1 Accession Version XM_030290761.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3126bp)
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 1565193600000 Organism Taeniopygia guttata(zebra finch) Product ubiquitin carboxyl-terminal hydrolase 28 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044236.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Taeniopygia guttata Annotation Release 104 Annotation Version :: 104 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
3121ATGCGTTTCA GAGAGGATTG CCAGGTGCTC TTAAATCAGA TGAAAGAGAT CACAGGAATT
CAGGATTCAG CATTCCTGCT TGCTGCTCTA AAGGCTGCTG ATGGAGATCT CATGGAAGCA
GTCACCTTCC TGACGGAGGA CCCTGCTCCG GAGCCTGTGC AGAGCCCAGC TGCTGCAGAG
CTGTCTGCCT GGGAAGGGAG CACAGTGGGC AAACAGCTCC CACAGGATGT TGGTACTGCA
GCTGCCCCTC ACAACCAAGA CAACCTCCGC ACAGCCAACA CTGTCAGACC ACTGGAATCA
CCAAAAGCTC CAGCTGCAGA AAGTGATGCA GCTGAAAGAC CACAGGACGC CCATTCTGCT
GAAAACAAAA ACCGCTCCAA AAGGAAACGC TGTGAAGCCT GGGGAGAGAA CTCCAAGCAG
AATGACTGGA GAAGAGCGGG TGACTGGCCT GTTGGAATGA AAAATATAGG AAATACATGT
TGGTTTAGTG CTGTTATACA GTCTCTGTTT CAGTTGCCAG AATTCCGGAG GCTGGTCCTT
GGGTATTCCC TCCCACAGAA TGTACTTGAA AGTTGTCGTA GTCACACTGG AAAAAGAAAT
ATTGCATTCA TGCAAGAACT TCAGTGTCTG TTTGCATTAA TGCTGGGGAC ATGGCGTAAG
TTTGTAGACC CTTCAGCAGC ACTGGAGCTC TTGAGGGACG TGTTTAGATC ATCTGAACAA
CCGCAGCAAG ATGTGAGTGA ATTTACGCAC AAACTACTGG ACTGGCTGGA GGACGCATTC
CAGCTCACTG TGAATGTCAC GAGCCTTGGG GACAAATCTG AAAACCCAAT GGTGCAGCTC
TTCTACGGGA CTTTCCTGAC TGAGGGAGTC CATAAGGGCA ACACTTTTTC CAAGATTGAG
ACCTTTGGTC AGTATCCCCT TCAGGTAAAT GGTTACCGGA ACTTGAATGA GTGCTTGGAA
GGAGCCATGG TGGAGGGAGA GATGGATGAG ACACCAGCAT CTCAGTCAGT GAAGTATGGA
CAGGAGCGCT GGTTTACAAA ACTCCCACCA GTTCTGACCT TTGAACTCTC CCGATTTGAG
TTCAATCAGT CACTAGGACA GCCAGAGAAA ATTCACACCA AGCTAGAGTT TCCCCAGACT
ATATATATGG ACAGGTACCT ATACTGCAAT AAAGACCTTA TTCAGATGAA AAGAGAGGAA
ATGAAGAGAT TGAAGGAGAA AATGGTGACT CTGCAGCAGA AACTGGAAAG GTACATGGAA
TATGGCTCTG GCCCAGCCCG CTTTCCACTG CCTGACATGC TGCAGTATGT GCTGGAGTTC
ATTGCTACAA AGCCAGCTGT GGCTGTTTCC TCTGCTCAGA GCTCTCAAGC GCCACTCCTG
CGCTCCCAAG CCAAGCCTAA TGTTCTGGAC GTGCTTTCAC AGCCAAACGG CATACAAGAA
AGGACTGATA CGAGGACTGA AGATGAAGCT TTCTTTGTGG CAAATTCTTC ACCACAGCAA
AGCTCCAGTA TGGAGCTCCA GCCTCCTGTT TCACCAGCAG AACTGTCTGA ACGTCCAGCT
CCTCACGTGG TCTCCAAGGA AGAGCTGAAC CTGGTTCAGA CGTGTCTGCA GCGATGGAGA
AACGAGATCG AGCAAGATGT GCAAGATCTG AAGGAGTCTA TTGCCAGAAT CAACCTATCC
ATTGAACAAA TGTACTGTGA CCCTCTCCTC CAGCAGGTTC CCTATCGTTT GCATGCAGTC
CTGGTCCATG AGGGGCAAGC AAATGCTGGG CACTACTGGG CCTTCATATA TGACCAGCCT
CGGAAAAGAT GGCTCAAGTA CAATGACATC TCAGTGACGG AGTCCTCGTG GGAAGAGCTG
GAGAGAGAGT CCTTTGGAGG CCTGAGGAAC GCCAGTGCCT ACTGCCTGAT GTACATCAGT
GACCAGGTGT CCCCTGTTGG TGCAGATGAG GATGAGAGCC CAGAGGCTAG ACAGTTCCAG
AAAGAAGTGG AAGCTTTGTC CCCAGAACTG AGACACTACA TCCAGGAGGA CAACTGGCGC
CTGGAGCAGG AGGCAGAGGA GTGGGACGAG GAGCAATCTT GCAAGATTCC TCAAATGGAG
CCTTCACCTA CTTCTGAATT GCAGGACCTC TCCTCTGAGT CGGGACCAGA GCAGTCATCA
GTGTGTGAGC AGAGCGTGCA CTCCCTGTCC TCGGAGCATG CCAGGATTGC CAAGGAGCAG
ACTGCCAAGG CCATTGCCAA CACTGCCGAT GCCTACGAGA AGAACGGTGT CGAGGCAGCT
CTGTGCGAGG CATTCCATGA GGAGTACTCC CGGCTGTACC TGCTTTCCAA AGAGACCCCA
ACCCCCCAGA ACGATGCCCG GCTGCAGCAC GTGCTCATCT ACTTCCTGCA GAACAACGCT
CCGCAGCAGG TGGTGGAACG GACCCTCCTC GAGCAGTTTG CAGACAAAAA CCTCAGCTAT
GATGAGCGGT CCATCAGCAT CATGAAGGTG GCACGGGCAA AGCTGAGCGA AATTGGTCCT
GACGATGTTG ACATGGAGGA GTACAAGAGA TGGCACGAAG ACTACAGCCT TTTTCGCAAG
GTGTCCATCT ACCTGCTGAC GGGGTTGGAA CTCTACCAGA ATAGAAAGTA CCAAGAGTCA
CTCACCTACC TGGTCTATGC CTACCAAAGC AACACCAAAC TGCTGCTGAA GGGAGCCAAC
CGAGGCGTGA GCGAGTCGCT GATCGCCTTG TACAGAAGGA AATGTCTCCT GAAGCTGAAC
GAGGTGGCAG CTTCTCTTTT TGTCAGCTGT GAAGAAGCTC ATGTGTCAGA GGGTGTGAGC
ATCCTGAATG AGCTGATCAT CCCCTGCATG CATCTCATGA GCAACCTGGC GGTCTCCCAA
GAGGACCTGG ATGCCATCGA GGTCATGAGA AACCGCTGGT GCTCCTATTT GGGACGAGAA
GACATGGACG CAAAGCTGCA GATGAAGCTG GGTGAGCTGC TGCCCCGGCT CCTGGACGGC
TCCACCGAGG TCATTATGCT GAAGGAGCCC CCGAAGATCC GGCCCAACTC CCCTTACGAC
CTGTGCAGCC GCTTTGCAGC CGTGATGGAG TCCATCCACG GGGCCTCCGC CGTGACGGTG
AACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030146621.1 CDS 293..3418 Translation
Target ORF information:
RefSeq Version XM_030290761.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 28 (USP28), transcript variant X6, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030290761.1
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
3121ATGCGTTTCA GAGAGGATTG CCAGGTGCTC TTAAATCAGA TGAAAGAGAT CACAGGAATT
CAGGATTCAG CATTCCTGCT TGCTGCTCTA AAGGCTGCTG ATGGAGATCT CATGGAAGCA
GTCACCTTCC TGACGGAGGA CCCTGCTCCG GAGCCTGTGC AGAGCCCAGC TGCTGCAGAG
CTGTCTGCCT GGGAAGGGAG CACAGTGGGC AAACAGCTCC CACAGGATGT TGGTACTGCA
GCTGCCCCTC ACAACCAAGA CAACCTCCGC ACAGCCAACA CTGTCAGACC ACTGGAATCA
CCAAAAGCTC CAGCTGCAGA AAGTGATGCA GCTGAAAGAC CACAGGACGC CCATTCTGCT
GAAAACAAAA ACCGCTCCAA AAGGAAACGC TGTGAAGCCT GGGGAGAGAA CTCCAAGCAG
AATGACTGGA GAAGAGCGGG TGACTGGCCT GTTGGAATGA AAAATATAGG AAATACATGT
TGGTTTAGTG CTGTTATACA GTCTCTGTTT CAGTTGCCAG AATTCCGGAG GCTGGTCCTT
GGGTATTCCC TCCCACAGAA TGTACTTGAA AGTTGTCGTA GTCACACTGG AAAAAGAAAT
ATTGCATTCA TGCAAGAACT TCAGTGTCTG TTTGCATTAA TGCTGGGGAC ATGGCGTAAG
TTTGTAGACC CTTCAGCAGC ACTGGAGCTC TTGAGGGACG TGTTTAGATC ATCTGAACAA
CCGCAGCAAG ATGTGAGTGA ATTTACGCAC AAACTACTGG ACTGGCTGGA GGACGCATTC
CAGCTCACTG TGAATGTCAC GAGCCTTGGG GACAAATCTG AAAACCCAAT GGTGCAGCTC
TTCTACGGGA CTTTCCTGAC TGAGGGAGTC CATAAGGGCA ACACTTTTTC CAAGATTGAG
ACCTTTGGTC AGTATCCCCT TCAGGTAAAT GGTTACCGGA ACTTGAATGA GTGCTTGGAA
GGAGCCATGG TGGAGGGAGA GATGGATGAG ACACCAGCAT CTCAGTCAGT GAAGTATGGA
CAGGAGCGCT GGTTTACAAA ACTCCCACCA GTTCTGACCT TTGAACTCTC CCGATTTGAG
TTCAATCAGT CACTAGGACA GCCAGAGAAA ATTCACACCA AGCTAGAGTT TCCCCAGACT
ATATATATGG ACAGGTACCT ATACTGCAAT AAAGACCTTA TTCAGATGAA AAGAGAGGAA
ATGAAGAGAT TGAAGGAGAA AATGGTGACT CTGCAGCAGA AACTGGAAAG GTACATGGAA
TATGGCTCTG GCCCAGCCCG CTTTCCACTG CCTGACATGC TGCAGTATGT GCTGGAGTTC
ATTGCTACAA AGCCAGCTGT GGCTGTTTCC TCTGCTCAGA GCTCTCAAGC GCCACTCCTG
CGCTCCCAAG CCAAGCCTAA TGTTCTGGAC GTGCTTTCAC AGCCAAACGG CATACAAGAA
AGGACTGATA CGAGGACTGA AGATGAAGCT TTCTTTGTGG CAAATTCTTC ACCACAGCAA
AGCTCCAGTA TGGAGCTCCA GCCTCCTGTT TCACCAGCAG AACTGTCTGA ACGTCCAGCT
CCTCACGTGG TCTCCAAGGA AGAGCTGAAC CTGGTTCAGA CGTGTCTGCA GCGATGGAGA
AACGAGATCG AGCAAGATGT GCAAGATCTG AAGGAGTCTA TTGCCAGAAT CAACCTATCC
ATTGAACAAA TGTACTGTGA CCCTCTCCTC CAGCAGGTTC CCTATCGTTT GCATGCAGTC
CTGGTCCATG AGGGGCAAGC AAATGCTGGG CACTACTGGG CCTTCATATA TGACCAGCCT
CGGAAAAGAT GGCTCAAGTA CAATGACATC TCAGTGACGG AGTCCTCGTG GGAAGAGCTG
GAGAGAGAGT CCTTTGGAGG CCTGAGGAAC GCCAGTGCCT ACTGCCTGAT GTACATCAGT
GACCAGGTGT CCCCTGTTGG TGCAGATGAG GATGAGAGCC CAGAGGCTAG ACAGTTCCAG
AAAGAAGTGG AAGCTTTGTC CCCAGAACTG AGACACTACA TCCAGGAGGA CAACTGGCGC
CTGGAGCAGG AGGCAGAGGA GTGGGACGAG GAGCAATCTT GCAAGATTCC TCAAATGGAG
CCTTCACCTA CTTCTGAATT GCAGGACCTC TCCTCTGAGT CGGGACCAGA GCAGTCATCA
GTGTGTGAGC AGAGCGTGCA CTCCCTGTCC TCGGAGCATG CCAGGATTGC CAAGGAGCAG
ACTGCCAAGG CCATTGCCAA CACTGCCGAT GCCTACGAGA AGAACGGTGT CGAGGCAGCT
CTGTGCGAGG CATTCCATGA GGAGTACTCC CGGCTGTACC TGCTTTCCAA AGAGACCCCA
ACCCCCCAGA ACGATGCCCG GCTGCAGCAC GTGCTCATCT ACTTCCTGCA GAACAACGCT
CCGCAGCAGG TGGTGGAACG GACCCTCCTC GAGCAGTTTG CAGACAAAAA CCTCAGCTAT
GATGAGCGGT CCATCAGCAT CATGAAGGTG GCACGGGCAA AGCTGAGCGA AATTGGTCCT
GACGATGTTG ACATGGAGGA GTACAAGAGA TGGCACGAAG ACTACAGCCT TTTTCGCAAG
GTGTCCATCT ACCTGCTGAC GGGGTTGGAA CTCTACCAGA ATAGAAAGTA CCAAGAGTCA
CTCACCTACC TGGTCTATGC CTACCAAAGC AACACCAAAC TGCTGCTGAA GGGAGCCAAC
CGAGGCGTGA GCGAGTCGCT GATCGCCTTG TACAGAAGGA AATGTCTCCT GAAGCTGAAC
GAGGTGGCAG CTTCTCTTTT TGTCAGCTGT GAAGAAGCTC ATGTGTCAGA GGGTGTGAGC
ATCCTGAATG AGCTGATCAT CCCCTGCATG CATCTCATGA GCAACCTGGC GGTCTCCCAA
GAGGACCTGG ATGCCATCGA GGTCATGAGA AACCGCTGGT GCTCCTATTT GGGACGAGAA
GACATGGACG CAAAGCTGCA GATGAAGCTG GGTGAGCTGC TGCCCCGGCT CCTGGACGGC
TCCACCGAGG TCATTATGCT GAAGGAGCCC CCGAAGATCC GGCCCAACTC CCCTTACGAC
CTGTGCAGCC GCTTTGCAGC CGTGATGGAG TCCATCCACG GGGCCTCCGC CGTGACGGTG
AACTAGThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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