| Gene Symbol | USP8 |
| Entrez Gene ID | 100222557 |
| Full Name | ubiquitin specific peptidase 8 |
| Gene Type | protein-coding |
| Organism | Taeniopygia guttata(zebra finch) |
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USP8 cDNA ORF clone, Taeniopygia guttata(zebra finch)
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Gene
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Clones
gRNAs
The following USP8 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP8 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 OTd00772 Clone ID Related Accession (Same CDS sequence) XM_002196965.3 Accession Version XM_002196965.3 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3264bp)
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 8 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197117.1) 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_002196965.2. ##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
3061
3121
3181
3241ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGATACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GTTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCGATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TAACTGTTCC AGGCAAGTCC
CAGCGGGAGC CATTAATAAG AGCACGAAGT GAGGAAATGG GAAGGATAGT CCCAGGGCTG
CCTGCAGGTT GGGTAAAGTT CCTGGATGAC ATCACTGGAA CCTATCGTTA CTATCACTCA
CCAACAAATA CTGTTCAGAT GTACCCACCA GAAATGGCTC CTCCAGCCAC TCCTCCATCA
ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG GTGACTGCTG AGCGGGAGAG AGAGCACTCC
AAGCTGAAGC GCTCCTACTC GTCCCCAGAT ATAACCCAAG CCATTCAGGA GGAAGACAAG
AAAAGAGTTC CTGTAACTCC TGCAGTCAAT CGTGACAATA AACCTACCTG TTACACTAAA
GCAGAAATTT CCAGGCTCTC TGCATCGCAG ATTCGAAATC TTAATCCTGT GTTTGGGGGA
TCGGGACCAG CTCTGACAGG ACTTCGGAAT CTAGGGAACA CTTGCTACAT GAATTCCATA
TTACAGTGTC TGTGCAATGC ACCTCACCTG GCTGAGTATT TCAACAGAAA CTTGTATCAA
GCTGATATTA ACAGGTCAAA TTTCCTGGGG CATAAAGGTG AAGTGGCTGA AGAGTTTGGT
GTAATAATGA AAGCTTTATG GGCAGGACAG TATAAATATA TCAGTCCAAA AGACTTCAAA
ATTACAATTG GGAAGATTAA TGACCAATTT TCAGGATACA GCCAACAGGA CTCCCAAGAA
TTGCTTCTCT TTCTAATGGA TGGCTTGCAT GAAGACCTAA ATAAAGCTGA CAACAGGAAA
AGATACAAGG AAGAAAATAA CGATCACCTT GATGACTCAA GTGCAGCAGA AATAGCCTGG
CACAAACACA AACAGCTCAA CGAGTCCATC ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA
TCCACCGTGC AGTGTCTGAC GTGTCACAAG AGGTCCCGAA CCTTCGAGGC TTTCATGTAT
CTGTCACTGC CACTTGCATC CTCCAGCAAA TGCACTCTGC AGGAATGCCT TAGATTGTTC
TCCAAAGAAG AAAAGCTCAC TGATAACAAT AGATTTTACT GTAGCCATTG CAAAACTCGA
AGGGATTCTT TGAAAAAAAT AGAAATTTGG AAATTACCAC CTGTTCTTCT TGTGCACTTG
AAACGATTTT CCTATGATGG AAGATGGAAA CAAAAGCTTC AAACTTCAGT AGATTTTCCA
CTGGAAACTC TTGACCTCTC TCAGTATGTT ATTGGTCCAA AGACTTCCTT GAAGAGATAC
AATCTGTTCT CAGTATCGAA TCATTACGGT GGGCTGGACG GGGGGCACTA CACAGCCTAC
TGCAAAAATG CTTCAAAACA GCGCTGGTTT AAGTTTGATG ACCATGAAGT GTCTGAGATC
TCGGCGTCCT CGGTGAAGTC CTCAGCTGCT TACATTCTCT TTTATACTTC CTATGAACAG
CGAGCAGTAG ATATGGCCAC GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002197001.2 CDS 200..3463 Translation 
Target ORF information:
RefSeq Version XM_002196965.3 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK 
XM_002196965.3
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGATACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GTTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCGATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TAACTGTTCC AGGCAAGTCC
CAGCGGGAGC CATTAATAAG AGCACGAAGT GAGGAAATGG GAAGGATAGT CCCAGGGCTG
CCTGCAGGTT GGGTAAAGTT CCTGGATGAC ATCACTGGAA CCTATCGTTA CTATCACTCA
CCAACAAATA CTGTTCAGAT GTACCCACCA GAAATGGCTC CTCCAGCCAC TCCTCCATCA
ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG GTGACTGCTG AGCGGGAGAG AGAGCACTCC
AAGCTGAAGC GCTCCTACTC GTCCCCAGAT ATAACCCAAG CCATTCAGGA GGAAGACAAG
AAAAGAGTTC CTGTAACTCC TGCAGTCAAT CGTGACAATA AACCTACCTG TTACACTAAA
GCAGAAATTT CCAGGCTCTC TGCATCGCAG ATTCGAAATC TTAATCCTGT GTTTGGGGGA
TCGGGACCAG CTCTGACAGG ACTTCGGAAT CTAGGGAACA CTTGCTACAT GAATTCCATA
TTACAGTGTC TGTGCAATGC ACCTCACCTG GCTGAGTATT TCAACAGAAA CTTGTATCAA
GCTGATATTA ACAGGTCAAA TTTCCTGGGG CATAAAGGTG AAGTGGCTGA AGAGTTTGGT
GTAATAATGA AAGCTTTATG GGCAGGACAG TATAAATATA TCAGTCCAAA AGACTTCAAA
ATTACAATTG GGAAGATTAA TGACCAATTT TCAGGATACA GCCAACAGGA CTCCCAAGAA
TTGCTTCTCT TTCTAATGGA TGGCTTGCAT GAAGACCTAA ATAAAGCTGA CAACAGGAAA
AGATACAAGG AAGAAAATAA CGATCACCTT GATGACTCAA GTGCAGCAGA AATAGCCTGG
CACAAACACA AACAGCTCAA CGAGTCCATC ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA
TCCACCGTGC AGTGTCTGAC GTGTCACAAG AGGTCCCGAA CCTTCGAGGC TTTCATGTAT
CTGTCACTGC CACTTGCATC CTCCAGCAAA TGCACTCTGC AGGAATGCCT TAGATTGTTC
TCCAAAGAAG AAAAGCTCAC TGATAACAAT AGATTTTACT GTAGCCATTG CAAAACTCGA
AGGGATTCTT TGAAAAAAAT AGAAATTTGG AAATTACCAC CTGTTCTTCT TGTGCACTTG
AAACGATTTT CCTATGATGG AAGATGGAAA CAAAAGCTTC AAACTTCAGT AGATTTTCCA
CTGGAAACTC TTGACCTCTC TCAGTATGTT ATTGGTCCAA AGACTTCCTT GAAGAGATAC
AATCTGTTCT CAGTATCGAA TCATTACGGT GGGCTGGACG GGGGGCACTA CACAGCCTAC
TGCAAAAATG CTTCAAAACA GCGCTGGTTT AAGTTTGATG ACCATGAAGT GTCTGAGATC
TCGGCGTCCT CGGTGAAGTC CTCAGCTGCT TACATTCTCT TTTATACTTC CTATGAACAG
CGAGCAGTAG ATATGGCCAC GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd16221 Clone ID Related Accession (Same CDS sequence) XM_012578254.1 Accession Version XM_012578254.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3366bp)
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 8 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197117.1) 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 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
3361ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGATACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GTTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCGATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TAACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAAGTA AATACAAATT CCCAGCGGGA GCCATTAATA
AGAGCACGAA GTGAGGAAAT GGGAAGGATA GTCCCAGGGC TGCCTGCAGG TTGGGTAAAG
TTCCTGGATG ACATCACTGG AACCTATCGT TACTATCACT CACCAACAAA TACTGTTCAG
ATGTACCCAC CAGAAATGGC TCCTCCAGCC ACTCCTCCAT CAACCCCTCC CAGTCGGAAA
GCCAAGCCAA AGGTGACTGC TGAGCGGGAG AGAGAGCACT CCAAGCTGAA GCGCTCCTAC
TCGTCCCCAG ATATAACCCA AGCCATTCAG GAGGAAGACA AGAAAAGAGT TCCTGTAACT
CCTGCAGTCA ATCGTGACAA TAAACCTACC TGTTACACTA AAGCAGAAAT TTCCAGGCTC
TCTGCATCGC AGATTCGAAA TCTTAATCCT GTGTTTGGGG GATCGGGACC AGCTCTGACA
GGACTTCGGA ATCTAGGGAA CACTTGCTAC ATGAATTCCA TATTACAGTG TCTGTGCAAT
GCACCTCACC TGGCTGAGTA TTTCAACAGA AACTTGTATC AAGCTGATAT TAACAGGTCA
AATTTCCTGG GGCATAAAGG TGAAGTGGCT GAAGAGTTTG GTGTAATAAT GAAAGCTTTA
TGGGCAGGAC AGTATAAATA TATCAGTCCA AAAGACTTCA AAATTACAAT TGGGAAGATT
AATGACCAAT TTTCAGGATA CAGCCAACAG GACTCCCAAG AATTGCTTCT CTTTCTAATG
GATGGCTTGC ATGAAGACCT AAATAAAGCT GACAACAGGA AAAGATACAA GGAAGAAAAT
AACGATCACC TTGATGACTC AAGTGCAGCA GAAATAGCCT GGCACAAACA CAAACAGCTC
AACGAGTCCA TCATTGTGGC ACTCTTCCAA GGCCAGTTCA AATCCACCGT GCAGTGTCTG
ACGTGTCACA AGAGGTCCCG AACCTTCGAG GCTTTCATGT ATCTGTCACT GCCACTTGCA
TCCTCCAGCA AATGCACTCT GCAGGAATGC CTTAGATTGT TCTCCAAAGA AGAAAAGCTC
ACTGATAACA ATAGATTTTA CTGTAGCCAT TGCAAAACTC GAAGGGATTC TTTGAAAAAA
ATAGAAATTT GGAAATTACC ACCTGTTCTT CTTGTGCACT TGAAACGATT TTCCTATGAT
GGAAGATGGA AACAAAAGCT TCAAACTTCA GTAGATTTTC CACTGGAAAC TCTTGACCTC
TCTCAGTATG TTATTGGTCC AAAGACTTCC TTGAAGAGAT ACAATCTGTT CTCAGTATCG
AATCATTACG GTGGGCTGGA CGGGGGGCAC TACACAGCCT ACTGCAAAAA TGCTTCAAAA
CAGCGCTGGT TTAAGTTTGA TGACCATGAA GTGTCTGAGA TCTCGGCGTC CTCGGTGAAG
TCCTCAGCTG CTTACATTCT CTTTTATACT TCCTATGAAC AGCGAGCAGT AGATATGGCC
ACGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012433708.1 CDS 169..3534 Translation
Target ORF information:
RefSeq Version XM_012578254.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012578254.1
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
3361ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGATACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GTTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCGATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TAACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAAGTA AATACAAATT CCCAGCGGGA GCCATTAATA
AGAGCACGAA GTGAGGAAAT GGGAAGGATA GTCCCAGGGC TGCCTGCAGG TTGGGTAAAG
TTCCTGGATG ACATCACTGG AACCTATCGT TACTATCACT CACCAACAAA TACTGTTCAG
ATGTACCCAC CAGAAATGGC TCCTCCAGCC ACTCCTCCAT CAACCCCTCC CAGTCGGAAA
GCCAAGCCAA AGGTGACTGC TGAGCGGGAG AGAGAGCACT CCAAGCTGAA GCGCTCCTAC
TCGTCCCCAG ATATAACCCA AGCCATTCAG GAGGAAGACA AGAAAAGAGT TCCTGTAACT
CCTGCAGTCA ATCGTGACAA TAAACCTACC TGTTACACTA AAGCAGAAAT TTCCAGGCTC
TCTGCATCGC AGATTCGAAA TCTTAATCCT GTGTTTGGGG GATCGGGACC AGCTCTGACA
GGACTTCGGA ATCTAGGGAA CACTTGCTAC ATGAATTCCA TATTACAGTG TCTGTGCAAT
GCACCTCACC TGGCTGAGTA TTTCAACAGA AACTTGTATC AAGCTGATAT TAACAGGTCA
AATTTCCTGG GGCATAAAGG TGAAGTGGCT GAAGAGTTTG GTGTAATAAT GAAAGCTTTA
TGGGCAGGAC AGTATAAATA TATCAGTCCA AAAGACTTCA AAATTACAAT TGGGAAGATT
AATGACCAAT TTTCAGGATA CAGCCAACAG GACTCCCAAG AATTGCTTCT CTTTCTAATG
GATGGCTTGC ATGAAGACCT AAATAAAGCT GACAACAGGA AAAGATACAA GGAAGAAAAT
AACGATCACC TTGATGACTC AAGTGCAGCA GAAATAGCCT GGCACAAACA CAAACAGCTC
AACGAGTCCA TCATTGTGGC ACTCTTCCAA GGCCAGTTCA AATCCACCGT GCAGTGTCTG
ACGTGTCACA AGAGGTCCCG AACCTTCGAG GCTTTCATGT ATCTGTCACT GCCACTTGCA
TCCTCCAGCA AATGCACTCT GCAGGAATGC CTTAGATTGT TCTCCAAAGA AGAAAAGCTC
ACTGATAACA ATAGATTTTA CTGTAGCCAT TGCAAAACTC GAAGGGATTC TTTGAAAAAA
ATAGAAATTT GGAAATTACC ACCTGTTCTT CTTGTGCACT TGAAACGATT TTCCTATGAT
GGAAGATGGA AACAAAAGCT TCAAACTTCA GTAGATTTTC CACTGGAAAC TCTTGACCTC
TCTCAGTATG TTATTGGTCC AAAGACTTCC TTGAAGAGAT ACAATCTGTT CTCAGTATCG
AATCATTACG GTGGGCTGGA CGGGGGGCAC TACACAGCCT ACTGCAAAAA TGCTTCAAAA
CAGCGCTGGT TTAAGTTTGA TGACCATGAA GTGTCTGAGA TCTCGGCGTC CTCGGTGAAG
TCCTCAGCTG CTTACATTCT CTTTTATACT TCCTATGAAC AGCGAGCAGT AGATATGGCC
ACGTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd16222 Clone ID Related Accession (Same CDS sequence) XM_012578259.1 Accession Version XM_012578259.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3363bp)
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 8 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197117.1) 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 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
3361ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGATACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GTTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCGATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TAACTGTTCC AGGCAAGATG
GGGGTTAAAG GACAACCAGA CAGTGAAGCT CAAAAGCCAG GACTCCTTAG AGAGGATTCT
GAACAAGATA CTGAAAGACT TAAAGTAAAT ACAAATTCCC AGCGGGAGCC ATTAATAAGA
GCACGAAGTG AGGAAATGGG AAGGATAGTC CCAGGGCTGC CTGCAGGTTG GGTAAAGTTC
CTGGATGACA TCACTGGAAC CTATCGTTAC TATCACTCAC CAACAAATAC TGTTCAGATG
TACCCACCAG AAATGGCTCC TCCAGCCACT CCTCCATCAA CCCCTCCCAG TCGGAAAGCC
AAGCCAAAGG TGACTGCTGA GCGGGAGAGA GAGCACTCCA AGCTGAAGCG CTCCTACTCG
TCCCCAGATA TAACCCAAGC CATTCAGGAG GAAGACAAGA AAAGAGTTCC TGTAACTCCT
GCAGTCAATC GTGACAATAA ACCTACCTGT TACACTAAAG CAGAAATTTC CAGGCTCTCT
GCATCGCAGA TTCGAAATCT TAATCCTGTG TTTGGGGGAT CGGGACCAGC TCTGACAGGA
CTTCGGAATC TAGGGAACAC TTGCTACATG AATTCCATAT TACAGTGTCT GTGCAATGCA
CCTCACCTGG CTGAGTATTT CAACAGAAAC TTGTATCAAG CTGATATTAA CAGGTCAAAT
TTCCTGGGGC ATAAAGGTGA AGTGGCTGAA GAGTTTGGTG TAATAATGAA AGCTTTATGG
GCAGGACAGT ATAAATATAT CAGTCCAAAA GACTTCAAAA TTACAATTGG GAAGATTAAT
GACCAATTTT CAGGATACAG CCAACAGGAC TCCCAAGAAT TGCTTCTCTT TCTAATGGAT
GGCTTGCATG AAGACCTAAA TAAAGCTGAC AACAGGAAAA GATACAAGGA AGAAAATAAC
GATCACCTTG ATGACTCAAG TGCAGCAGAA ATAGCCTGGC ACAAACACAA ACAGCTCAAC
GAGTCCATCA TTGTGGCACT CTTCCAAGGC CAGTTCAAAT CCACCGTGCA GTGTCTGACG
TGTCACAAGA GGTCCCGAAC CTTCGAGGCT TTCATGTATC TGTCACTGCC ACTTGCATCC
TCCAGCAAAT GCACTCTGCA GGAATGCCTT AGATTGTTCT CCAAAGAAGA AAAGCTCACT
GATAACAATA GATTTTACTG TAGCCATTGC AAAACTCGAA GGGATTCTTT GAAAAAAATA
GAAATTTGGA AATTACCACC TGTTCTTCTT GTGCACTTGA AACGATTTTC CTATGATGGA
AGATGGAAAC AAAAGCTTCA AACTTCAGTA GATTTTCCAC TGGAAACTCT TGACCTCTCT
CAGTATGTTA TTGGTCCAAA GACTTCCTTG AAGAGATACA ATCTGTTCTC AGTATCGAAT
CATTACGGTG GGCTGGACGG GGGGCACTAC ACAGCCTACT GCAAAAATGC TTCAAAACAG
CGCTGGTTTA AGTTTGATGA CCATGAAGTG TCTGAGATCT CGGCGTCCTC GGTGAAGTCC
TCAGCTGCTT ACATTCTCTT TTATACTTCC TATGAACAGC GAGCAGTAGA TATGGCCACG
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012433713.1 CDS 169..3531 Translation
Target ORF information:
RefSeq Version XM_012578259.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012578259.1
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
3361ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGATACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GTTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCGATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TAACTGTTCC AGGCAAGATG
GGGGTTAAAG GACAACCAGA CAGTGAAGCT CAAAAGCCAG GACTCCTTAG AGAGGATTCT
GAACAAGATA CTGAAAGACT TAAAGTAAAT ACAAATTCCC AGCGGGAGCC ATTAATAAGA
GCACGAAGTG AGGAAATGGG AAGGATAGTC CCAGGGCTGC CTGCAGGTTG GGTAAAGTTC
CTGGATGACA TCACTGGAAC CTATCGTTAC TATCACTCAC CAACAAATAC TGTTCAGATG
TACCCACCAG AAATGGCTCC TCCAGCCACT CCTCCATCAA CCCCTCCCAG TCGGAAAGCC
AAGCCAAAGG TGACTGCTGA GCGGGAGAGA GAGCACTCCA AGCTGAAGCG CTCCTACTCG
TCCCCAGATA TAACCCAAGC CATTCAGGAG GAAGACAAGA AAAGAGTTCC TGTAACTCCT
GCAGTCAATC GTGACAATAA ACCTACCTGT TACACTAAAG CAGAAATTTC CAGGCTCTCT
GCATCGCAGA TTCGAAATCT TAATCCTGTG TTTGGGGGAT CGGGACCAGC TCTGACAGGA
CTTCGGAATC TAGGGAACAC TTGCTACATG AATTCCATAT TACAGTGTCT GTGCAATGCA
CCTCACCTGG CTGAGTATTT CAACAGAAAC TTGTATCAAG CTGATATTAA CAGGTCAAAT
TTCCTGGGGC ATAAAGGTGA AGTGGCTGAA GAGTTTGGTG TAATAATGAA AGCTTTATGG
GCAGGACAGT ATAAATATAT CAGTCCAAAA GACTTCAAAA TTACAATTGG GAAGATTAAT
GACCAATTTT CAGGATACAG CCAACAGGAC TCCCAAGAAT TGCTTCTCTT TCTAATGGAT
GGCTTGCATG AAGACCTAAA TAAAGCTGAC AACAGGAAAA GATACAAGGA AGAAAATAAC
GATCACCTTG ATGACTCAAG TGCAGCAGAA ATAGCCTGGC ACAAACACAA ACAGCTCAAC
GAGTCCATCA TTGTGGCACT CTTCCAAGGC CAGTTCAAAT CCACCGTGCA GTGTCTGACG
TGTCACAAGA GGTCCCGAAC CTTCGAGGCT TTCATGTATC TGTCACTGCC ACTTGCATCC
TCCAGCAAAT GCACTCTGCA GGAATGCCTT AGATTGTTCT CCAAAGAAGA AAAGCTCACT
GATAACAATA GATTTTACTG TAGCCATTGC AAAACTCGAA GGGATTCTTT GAAAAAAATA
GAAATTTGGA AATTACCACC TGTTCTTCTT GTGCACTTGA AACGATTTTC CTATGATGGA
AGATGGAAAC AAAAGCTTCA AACTTCAGTA GATTTTCCAC TGGAAACTCT TGACCTCTCT
CAGTATGTTA TTGGTCCAAA GACTTCCTTG AAGAGATACA ATCTGTTCTC AGTATCGAAT
CATTACGGTG GGCTGGACGG GGGGCACTAC ACAGCCTACT GCAAAAATGC TTCAAAACAG
CGCTGGTTTA AGTTTGATGA CCATGAAGTG TCTGAGATCT CGGCGTCCTC GGTGAAGTCC
TCAGCTGCTT ACATTCTCTT TTATACTTCC TATGAACAGC GAGCAGTAGA TATGGCCACG
TAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd16223 Clone ID Related Accession (Same CDS sequence) XM_012578265.1 Accession Version XM_012578265.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
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 8 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197117.1) 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
3301ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGATACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GTTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCGATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TAACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAATCC CAGCGGGAGC CATTAATAAG AGCACGAAGT
GAGGAAATGG GAAGGATAGT CCCAGGGCTG CCTGCAGGTT GGGTAAAGTT CCTGGATGAC
ATCACTGGAA CCTATCGTTA CTATCACTCA CCAACAAATA CTGTTCAGAT GTACCCACCA
GAAATGGCTC CTCCAGCCAC TCCTCCATCA ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG
GTGACTGCTG AGCGGGAGAG AGAGCACTCC AAGCTGAAGC GCTCCTACTC GTCCCCAGAT
ATAACCCAAG CCATTCAGGA GGAAGACAAG AAAAGAGTTC CTGTAACTCC TGCAGTCAAT
CGTGACAATA AACCTACCTG TTACACTAAA GCAGAAATTT CCAGGCTCTC TGCATCGCAG
ATTCGAAATC TTAATCCTGT GTTTGGGGGA TCGGGACCAG CTCTGACAGG ACTTCGGAAT
CTAGGGAACA CTTGCTACAT GAATTCCATA TTACAGTGTC TGTGCAATGC ACCTCACCTG
GCTGAGTATT TCAACAGAAA CTTGTATCAA GCTGATATTA ACAGGTCAAA TTTCCTGGGG
CATAAAGGTG AAGTGGCTGA AGAGTTTGGT GTAATAATGA AAGCTTTATG GGCAGGACAG
TATAAATATA TCAGTCCAAA AGACTTCAAA ATTACAATTG GGAAGATTAA TGACCAATTT
TCAGGATACA GCCAACAGGA CTCCCAAGAA TTGCTTCTCT TTCTAATGGA TGGCTTGCAT
GAAGACCTAA ATAAAGCTGA CAACAGGAAA AGATACAAGG AAGAAAATAA CGATCACCTT
GATGACTCAA GTGCAGCAGA AATAGCCTGG CACAAACACA AACAGCTCAA CGAGTCCATC
ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA TCCACCGTGC AGTGTCTGAC GTGTCACAAG
AGGTCCCGAA CCTTCGAGGC TTTCATGTAT CTGTCACTGC CACTTGCATC CTCCAGCAAA
TGCACTCTGC AGGAATGCCT TAGATTGTTC TCCAAAGAAG AAAAGCTCAC TGATAACAAT
AGATTTTACT GTAGCCATTG CAAAACTCGA AGGGATTCTT TGAAAAAAAT AGAAATTTGG
AAATTACCAC CTGTTCTTCT TGTGCACTTG AAACGATTTT CCTATGATGG AAGATGGAAA
CAAAAGCTTC AAACTTCAGT AGATTTTCCA CTGGAAACTC TTGACCTCTC TCAGTATGTT
ATTGGTCCAA AGACTTCCTT GAAGAGATAC AATCTGTTCT CAGTATCGAA TCATTACGGT
GGGCTGGACG GGGGGCACTA CACAGCCTAC TGCAAAAATG CTTCAAAACA GCGCTGGTTT
AAGTTTGATG ACCATGAAGT GTCTGAGATC TCGGCGTCCT CGGTGAAGTC CTCAGCTGCT
TACATTCTCT TTTATACTTC CTATGAACAG CGAGCAGTAG ATATGGCCAC GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012433719.1 CDS 169..3522 Translation
Target ORF information:
RefSeq Version XM_012578265.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012578265.1
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
3301ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGATACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GTTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCGATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TAACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAATCC CAGCGGGAGC CATTAATAAG AGCACGAAGT
GAGGAAATGG GAAGGATAGT CCCAGGGCTG CCTGCAGGTT GGGTAAAGTT CCTGGATGAC
ATCACTGGAA CCTATCGTTA CTATCACTCA CCAACAAATA CTGTTCAGAT GTACCCACCA
GAAATGGCTC CTCCAGCCAC TCCTCCATCA ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG
GTGACTGCTG AGCGGGAGAG AGAGCACTCC AAGCTGAAGC GCTCCTACTC GTCCCCAGAT
ATAACCCAAG CCATTCAGGA GGAAGACAAG AAAAGAGTTC CTGTAACTCC TGCAGTCAAT
CGTGACAATA AACCTACCTG TTACACTAAA GCAGAAATTT CCAGGCTCTC TGCATCGCAG
ATTCGAAATC TTAATCCTGT GTTTGGGGGA TCGGGACCAG CTCTGACAGG ACTTCGGAAT
CTAGGGAACA CTTGCTACAT GAATTCCATA TTACAGTGTC TGTGCAATGC ACCTCACCTG
GCTGAGTATT TCAACAGAAA CTTGTATCAA GCTGATATTA ACAGGTCAAA TTTCCTGGGG
CATAAAGGTG AAGTGGCTGA AGAGTTTGGT GTAATAATGA AAGCTTTATG GGCAGGACAG
TATAAATATA TCAGTCCAAA AGACTTCAAA ATTACAATTG GGAAGATTAA TGACCAATTT
TCAGGATACA GCCAACAGGA CTCCCAAGAA TTGCTTCTCT TTCTAATGGA TGGCTTGCAT
GAAGACCTAA ATAAAGCTGA CAACAGGAAA AGATACAAGG AAGAAAATAA CGATCACCTT
GATGACTCAA GTGCAGCAGA AATAGCCTGG CACAAACACA AACAGCTCAA CGAGTCCATC
ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA TCCACCGTGC AGTGTCTGAC GTGTCACAAG
AGGTCCCGAA CCTTCGAGGC TTTCATGTAT CTGTCACTGC CACTTGCATC CTCCAGCAAA
TGCACTCTGC AGGAATGCCT TAGATTGTTC TCCAAAGAAG AAAAGCTCAC TGATAACAAT
AGATTTTACT GTAGCCATTG CAAAACTCGA AGGGATTCTT TGAAAAAAAT AGAAATTTGG
AAATTACCAC CTGTTCTTCT TGTGCACTTG AAACGATTTT CCTATGATGG AAGATGGAAA
CAAAAGCTTC AAACTTCAGT AGATTTTCCA CTGGAAACTC TTGACCTCTC TCAGTATGTT
ATTGGTCCAA AGACTTCCTT GAAGAGATAC AATCTGTTCT CAGTATCGAA TCATTACGGT
GGGCTGGACG GGGGGCACTA CACAGCCTAC TGCAAAAATG CTTCAAAACA GCGCTGGTTT
AAGTTTGATG ACCATGAAGT GTCTGAGATC TCGGCGTCCT CGGTGAAGTC CTCAGCTGCT
TACATTCTCT TTTATACTTC CTATGAACAG CGAGCAGTAG ATATGGCCAC GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd26421 Clone ID Related Accession (Same CDS sequence) XM_012578265.2 Accession Version XM_012578265.2 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3354bp)
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 8 isoform X1 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_012578265.1. ##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
3301ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAATCC CAGCGGGAGC CATTAATAAG AGCACGAAGT
GAGGAAATGG GAAGGATAGT CCCAGGGCTG CCTGCAGGTT GGGTAAAGTT CCTGGATGAC
ATCACTGGAA CCTATCGTTA CTATCACTCA CCAACAAATA CTGTTCAGAT GTACCCACCA
GAAATGGCTC CTCCAGCCAC TCCTCCATCA ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG
GTGACTGCTG AGCGGGAGAG AGAGCACTCC AAGCTGAAGC GCTCCTACTC GTCCCCAGAT
ATAACCCAAG CCATTCAGGA GGAAGACAAG AAAAGAGTTC CTGTAACTCC TGCAGTCAAT
CGTGACAATA AACCTACCTG TTACACTAAA GCAGAAATTT CCAGGCTCTC TGCATCGCAG
ATTCGAAATC TTAATCCTGT GTTTGGGGGA TCGGGACCAG CTCTGACAGG ACTTCGGAAT
CTAGGGAACA CTTGCTACAT GAATTCCATA TTACAGTGTC TGTGCAATGC ACCTCACCTG
GCTGAGTATT TCAACAGAAA CTTGTATCAA GCTGATATTA ACAGGTCAAA TTTCCTGGGG
CATAAAGGTG AAGTGGCTGA AGAGTTTGGT GTAATAATGA AAGCTTTATG GGCAGGACAG
TATAAATATA TCAGTCCAAA AGACTTCAAA ATTACAATTG GGAAGATTAA TGACCAATTT
TCAGGATACA GCCAACAGGA CTCCCAAGAA TTGCTTCTCT TTCTAATGGA TGGCTTGCAT
GAAGACCTAA ATAAAGCTGA CAACAGGAAA AGATACAAGG AAGAAAATAA CGATCACCTT
GATGACTCAA GTGCAGCAGA AATAGCCTGG CACAAACACA AACAGCTCAA CGAGTCCATC
ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA TCCACCGTGC AGTGTCTGAC GTGTCACAAG
AGGTCCCGAA CCTTCGAGGC TTTCATGTAT CTGTCACTGC CACTTGCATC CTCCAGCAAA
TGCACTCTGC AGGAATGCCT TAGATTGTTC TCCAAAGAAG AAAAGCTCAC TGATAACAAT
AGATTTTACT GTAGCCATTG CAAAACTCGA AGGGATTCTT TGAAAAAAAT AGAAATTTGG
AAATTACCAC CTGTTCTTCT TGTGCACTTG AAACGATTTT CCTATGATGG AAGATGGAAA
CAAAAGCTTC AAACTTCAGT AGATTTTCCA CTGGAAACTC TTGACCTCTC TCAGTATGTT
ATTGGTCCAA AGACTTCCTT GAAGAGATAC AATCTGTTCT CAGTATCGAA TCATTACGGT
GGGCTGGACG GGGGTCACTA CACAGCCTAC TGCAAAAATG CTTCAAAACA GCGCTGGTTT
AAGTTTGATG ACCATGAAGT GTCTGAGATC TCGGCGTCCT CGGTGAAGTC CTCAGCTGCT
TACATTCTAT TTTATACTTC CTATGAACAG CGAGCAGTAG ATATGGCCAC GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_012433719.2 CDS 212..3565 Translation
Target ORF information:
RefSeq Version XM_012578265.2 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X1, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_012578265.2
ORF Insert Sequence:
1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAATCC CAGCGGGAGC CATTAATAAG AGCACGAAGT
GAGGAAATGG GAAGGATAGT CCCAGGGCTG CCTGCAGGTT GGGTAAAGTT CCTGGATGAC
ATCACTGGAA CCTATCGTTA CTATCACTCA CCAACAAATA CTGTTCAGAT GTACCCACCA
GAAATGGCTC CTCCAGCCAC TCCTCCATCA ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG
GTGACTGCTG AGCGGGAGAG AGAGCACTCC AAGCTGAAGC GCTCCTACTC GTCCCCAGAT
ATAACCCAAG CCATTCAGGA GGAAGACAAG AAAAGAGTTC CTGTAACTCC TGCAGTCAAT
CGTGACAATA AACCTACCTG TTACACTAAA GCAGAAATTT CCAGGCTCTC TGCATCGCAG
ATTCGAAATC TTAATCCTGT GTTTGGGGGA TCGGGACCAG CTCTGACAGG ACTTCGGAAT
CTAGGGAACA CTTGCTACAT GAATTCCATA TTACAGTGTC TGTGCAATGC ACCTCACCTG
GCTGAGTATT TCAACAGAAA CTTGTATCAA GCTGATATTA ACAGGTCAAA TTTCCTGGGG
CATAAAGGTG AAGTGGCTGA AGAGTTTGGT GTAATAATGA AAGCTTTATG GGCAGGACAG
TATAAATATA TCAGTCCAAA AGACTTCAAA ATTACAATTG GGAAGATTAA TGACCAATTT
TCAGGATACA GCCAACAGGA CTCCCAAGAA TTGCTTCTCT TTCTAATGGA TGGCTTGCAT
GAAGACCTAA ATAAAGCTGA CAACAGGAAA AGATACAAGG AAGAAAATAA CGATCACCTT
GATGACTCAA GTGCAGCAGA AATAGCCTGG CACAAACACA AACAGCTCAA CGAGTCCATC
ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA TCCACCGTGC AGTGTCTGAC GTGTCACAAG
AGGTCCCGAA CCTTCGAGGC TTTCATGTAT CTGTCACTGC CACTTGCATC CTCCAGCAAA
TGCACTCTGC AGGAATGCCT TAGATTGTTC TCCAAAGAAG AAAAGCTCAC TGATAACAAT
AGATTTTACT GTAGCCATTG CAAAACTCGA AGGGATTCTT TGAAAAAAAT AGAAATTTGG
AAATTACCAC CTGTTCTTCT TGTGCACTTG AAACGATTTT CCTATGATGG AAGATGGAAA
CAAAAGCTTC AAACTTCAGT AGATTTTCCA CTGGAAACTC TTGACCTCTC TCAGTATGTT
ATTGGTCCAA AGACTTCCTT GAAGAGATAC AATCTGTTCT CAGTATCGAA TCATTACGGT
GGGCTGGACG GGGGTCACTA CACAGCCTAC TGCAAAAATG CTTCAAAACA GCGCTGGTTT
AAGTTTGATG ACCATGAAGT GTCTGAGATC TCGGCGTCCT CGGTGAAGTC CTCAGCTGCT
TACATTCTAT TTTATACTTC CTATGAACAG CGAGCAGTAG ATATGGCCAC GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd26422 Clone ID Related Accession (Same CDS sequence) XM_030281206.1 Accession Version XM_030281206.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3351bp)
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 8 isoform X2 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) 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
3301ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGATG
GGGGTTAAAG GACAACCAGA CAGTGAAGCT CAAAAGCCAG GACTCCTTAG AGAGGATTCT
GAACAAGATA CTGAAAGACT TAAATCCCAG CGGGAGCCAT TAATAAGAGC ACGAAGTGAG
GAAATGGGAA GGATAGTCCC AGGGCTGCCT GCAGGTTGGG TAAAGTTCCT GGATGACATC
ACTGGAACCT ATCGTTACTA TCACTCACCA ACAAATACTG TTCAGATGTA CCCACCAGAA
ATGGCTCCTC CAGCCACTCC TCCATCAACC CCTCCCAGTC GGAAAGCCAA GCCAAAGGTG
ACTGCTGAGC GGGAGAGAGA GCACTCCAAG CTGAAGCGCT CCTACTCGTC CCCAGATATA
ACCCAAGCCA TTCAGGAGGA AGACAAGAAA AGAGTTCCTG TAACTCCTGC AGTCAATCGT
GACAATAAAC CTACCTGTTA CACTAAAGCA GAAATTTCCA GGCTCTCTGC ATCGCAGATT
CGAAATCTTA ATCCTGTGTT TGGGGGATCG GGACCAGCTC TGACAGGACT TCGGAATCTA
GGGAACACTT GCTACATGAA TTCCATATTA CAGTGTCTGT GCAATGCACC TCACCTGGCT
GAGTATTTCA ACAGAAACTT GTATCAAGCT GATATTAACA GGTCAAATTT CCTGGGGCAT
AAAGGTGAAG TGGCTGAAGA GTTTGGTGTA ATAATGAAAG CTTTATGGGC AGGACAGTAT
AAATATATCA GTCCAAAAGA CTTCAAAATT ACAATTGGGA AGATTAATGA CCAATTTTCA
GGATACAGCC AACAGGACTC CCAAGAATTG CTTCTCTTTC TAATGGATGG CTTGCATGAA
GACCTAAATA AAGCTGACAA CAGGAAAAGA TACAAGGAAG AAAATAACGA TCACCTTGAT
GACTCAAGTG CAGCAGAAAT AGCCTGGCAC AAACACAAAC AGCTCAACGA GTCCATCATT
GTGGCACTCT TCCAAGGCCA GTTCAAATCC ACCGTGCAGT GTCTGACGTG TCACAAGAGG
TCCCGAACCT TCGAGGCTTT CATGTATCTG TCACTGCCAC TTGCATCCTC CAGCAAATGC
ACTCTGCAGG AATGCCTTAG ATTGTTCTCC AAAGAAGAAA AGCTCACTGA TAACAATAGA
TTTTACTGTA GCCATTGCAA AACTCGAAGG GATTCTTTGA AAAAAATAGA AATTTGGAAA
TTACCACCTG TTCTTCTTGT GCACTTGAAA CGATTTTCCT ATGATGGAAG ATGGAAACAA
AAGCTTCAAA CTTCAGTAGA TTTTCCACTG GAAACTCTTG ACCTCTCTCA GTATGTTATT
GGTCCAAAGA CTTCCTTGAA GAGATACAAT CTGTTCTCAG TATCGAATCA TTACGGTGGG
CTGGACGGGG GTCACTACAC AGCCTACTGC AAAAATGCTT CAAAACAGCG CTGGTTTAAG
TTTGATGACC ATGAAGTGTC TGAGATCTCG GCGTCCTCGG TGAAGTCCTC AGCTGCTTAC
ATTCTATTTT ATACTTCCTA TGAACAGCGA GCAGTAGATA TGGCCACGTA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030137066.1 CDS 174..3524 Translation
Target ORF information:
RefSeq Version XM_030281206.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X2, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030281206.1
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
3301ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGATG
GGGGTTAAAG GACAACCAGA CAGTGAAGCT CAAAAGCCAG GACTCCTTAG AGAGGATTCT
GAACAAGATA CTGAAAGACT TAAATCCCAG CGGGAGCCAT TAATAAGAGC ACGAAGTGAG
GAAATGGGAA GGATAGTCCC AGGGCTGCCT GCAGGTTGGG TAAAGTTCCT GGATGACATC
ACTGGAACCT ATCGTTACTA TCACTCACCA ACAAATACTG TTCAGATGTA CCCACCAGAA
ATGGCTCCTC CAGCCACTCC TCCATCAACC CCTCCCAGTC GGAAAGCCAA GCCAAAGGTG
ACTGCTGAGC GGGAGAGAGA GCACTCCAAG CTGAAGCGCT CCTACTCGTC CCCAGATATA
ACCCAAGCCA TTCAGGAGGA AGACAAGAAA AGAGTTCCTG TAACTCCTGC AGTCAATCGT
GACAATAAAC CTACCTGTTA CACTAAAGCA GAAATTTCCA GGCTCTCTGC ATCGCAGATT
CGAAATCTTA ATCCTGTGTT TGGGGGATCG GGACCAGCTC TGACAGGACT TCGGAATCTA
GGGAACACTT GCTACATGAA TTCCATATTA CAGTGTCTGT GCAATGCACC TCACCTGGCT
GAGTATTTCA ACAGAAACTT GTATCAAGCT GATATTAACA GGTCAAATTT CCTGGGGCAT
AAAGGTGAAG TGGCTGAAGA GTTTGGTGTA ATAATGAAAG CTTTATGGGC AGGACAGTAT
AAATATATCA GTCCAAAAGA CTTCAAAATT ACAATTGGGA AGATTAATGA CCAATTTTCA
GGATACAGCC AACAGGACTC CCAAGAATTG CTTCTCTTTC TAATGGATGG CTTGCATGAA
GACCTAAATA AAGCTGACAA CAGGAAAAGA TACAAGGAAG AAAATAACGA TCACCTTGAT
GACTCAAGTG CAGCAGAAAT AGCCTGGCAC AAACACAAAC AGCTCAACGA GTCCATCATT
GTGGCACTCT TCCAAGGCCA GTTCAAATCC ACCGTGCAGT GTCTGACGTG TCACAAGAGG
TCCCGAACCT TCGAGGCTTT CATGTATCTG TCACTGCCAC TTGCATCCTC CAGCAAATGC
ACTCTGCAGG AATGCCTTAG ATTGTTCTCC AAAGAAGAAA AGCTCACTGA TAACAATAGA
TTTTACTGTA GCCATTGCAA AACTCGAAGG GATTCTTTGA AAAAAATAGA AATTTGGAAA
TTACCACCTG TTCTTCTTGT GCACTTGAAA CGATTTTCCT ATGATGGAAG ATGGAAACAA
AAGCTTCAAA CTTCAGTAGA TTTTCCACTG GAAACTCTTG ACCTCTCTCA GTATGTTATT
GGTCCAAAGA CTTCCTTGAA GAGATACAAT CTGTTCTCAG TATCGAATCA TTACGGTGGG
CTGGACGGGG GTCACTACAC AGCCTACTGC AAAAATGCTT CAAAACAGCG CTGGTTTAAG
TTTGATGACC ATGAAGTGTC TGAGATCTCG GCGTCCTCGG TGAAGTCCTC AGCTGCTTAC
ATTCTATTTT ATACTTCCTA TGAACAGCGA GCAGTAGATA TGGCCACGTA AThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd26423 Clone ID Related Accession (Same CDS sequence) XM_030281207.1 Accession Version XM_030281207.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3270bp)
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 8 isoform X3 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) 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
3241ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAATCC CAGCGGGAGC CATTAATAAG AGCACGAAGT
GAGGAAATGG GAAGGATAGT CCCAGGGCTG CCTGCAGGTT GGGTAAAGTT CCTGGATGAC
ATCACTGGAA CCTATCGTTA CTATCACTCA CCAACAAATA CTGTTCAGAT GTACCCACCA
GAAATGGCTC CTCCAGCCAC TCCTCCATCA ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG
GTGACTGCTG AGCGGGAGAG AGAGCACTCC AAGCTGAAGC GCTCCTACTC GTCCCCAGAT
ATAACCCAAG CCATTCAGGA GGAAGACAAG AAAAGAGTTC CTGTAACTCC TGCAGTCAAT
CGTGACAATA AACCTACCTG TTACACTAAA GCAGAAATTT CCAGGCTCTC TGCATCGCAG
ATTCGAAATC TTAATCCTGT GTTTGGGGGA TCGGGACCAG CTCTGACAGG ACTTCGGAAT
CTAGGGAACA CTTGCTACAT GAATTCCATA TTACAGTGTC TGTGCAATGC ACCTCACCTG
GCTGAGTATT TCAACAGAAA CTTGTATCAA GCTGATATTA ACAGGTCAAA TTTCCTGGGG
CATAAAGGTG AAGTGGCTGA AGAGTTTGGT GTAATAATGA AAGCTTTATG GGCAGGACAG
TATAAATATA TCAGTCCAAA AGACTTCAAA ATTACAATTG GGAAGATTAA TGACCAATTT
TCAGGATACA GCCAACAGGA CTCCCAAGAA TTGCTTCTCT TTCTAATGGA TGGCTTGCAT
GAAGACCTAA ATAAAGCTGA CAACAGGAAA AGATACAAGG AAGAAAATAA CGATCACCTT
GATGACTCAA GTGCAGCAGA AATAGCCTGG CACAAACACA AACAGCTCAA CGAGTCCATC
ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA TCCACCGTGC AGTGTCTGAC GTGTCACAAG
AGGTCCCGAA CCTTCGAGGC TTTCATGTAT CTGTCACTGC CACTTGCATC CTCCAGCAAA
TGCACTCTGC AGGAATGCCT TAGATTGTTC TCCAAAGAAG AAAAGCTCAC TGATAACAAT
AGATTTTACT GTAGCCATTG CAAAACTCGA AGGGATTCTT TGAAAAAAAT AGAAATTTGG
AAATTACCAC CTGTTCTTCT TGTGCACTTG AAACGATTTT CCTATGATGG AAGATGGAAA
CAAAAGCTTC AAACTTCAGT AGATTTTCCA CTGGAAACTC TTGACCTCTC TCAGTATGTT
ATTGGTCCAA AGACTTCCTT GAAGAGATAC AATCTGTTCT CAGTATCGTT CCTGAAAAGC
AGCTTCGAAC AATCTTCTAT ACTTAACCAA CAGAAAACCC AGAATTTCCA GGTAAGTGCA
TCTGTGTGTT CAACATCCAT GTTGTTTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030137067.1 CDS 166..3435 Translation
Target ORF information:
RefSeq Version XM_030281207.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X3, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030281207.1
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
3241ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAATCC CAGCGGGAGC CATTAATAAG AGCACGAAGT
GAGGAAATGG GAAGGATAGT CCCAGGGCTG CCTGCAGGTT GGGTAAAGTT CCTGGATGAC
ATCACTGGAA CCTATCGTTA CTATCACTCA CCAACAAATA CTGTTCAGAT GTACCCACCA
GAAATGGCTC CTCCAGCCAC TCCTCCATCA ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG
GTGACTGCTG AGCGGGAGAG AGAGCACTCC AAGCTGAAGC GCTCCTACTC GTCCCCAGAT
ATAACCCAAG CCATTCAGGA GGAAGACAAG AAAAGAGTTC CTGTAACTCC TGCAGTCAAT
CGTGACAATA AACCTACCTG TTACACTAAA GCAGAAATTT CCAGGCTCTC TGCATCGCAG
ATTCGAAATC TTAATCCTGT GTTTGGGGGA TCGGGACCAG CTCTGACAGG ACTTCGGAAT
CTAGGGAACA CTTGCTACAT GAATTCCATA TTACAGTGTC TGTGCAATGC ACCTCACCTG
GCTGAGTATT TCAACAGAAA CTTGTATCAA GCTGATATTA ACAGGTCAAA TTTCCTGGGG
CATAAAGGTG AAGTGGCTGA AGAGTTTGGT GTAATAATGA AAGCTTTATG GGCAGGACAG
TATAAATATA TCAGTCCAAA AGACTTCAAA ATTACAATTG GGAAGATTAA TGACCAATTT
TCAGGATACA GCCAACAGGA CTCCCAAGAA TTGCTTCTCT TTCTAATGGA TGGCTTGCAT
GAAGACCTAA ATAAAGCTGA CAACAGGAAA AGATACAAGG AAGAAAATAA CGATCACCTT
GATGACTCAA GTGCAGCAGA AATAGCCTGG CACAAACACA AACAGCTCAA CGAGTCCATC
ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA TCCACCGTGC AGTGTCTGAC GTGTCACAAG
AGGTCCCGAA CCTTCGAGGC TTTCATGTAT CTGTCACTGC CACTTGCATC CTCCAGCAAA
TGCACTCTGC AGGAATGCCT TAGATTGTTC TCCAAAGAAG AAAAGCTCAC TGATAACAAT
AGATTTTACT GTAGCCATTG CAAAACTCGA AGGGATTCTT TGAAAAAAAT AGAAATTTGG
AAATTACCAC CTGTTCTTCT TGTGCACTTG AAACGATTTT CCTATGATGG AAGATGGAAA
CAAAAGCTTC AAACTTCAGT AGATTTTCCA CTGGAAACTC TTGACCTCTC TCAGTATGTT
ATTGGTCCAA AGACTTCCTT GAAGAGATAC AATCTGTTCT CAGTATCGTT CCTGAAAAGC
AGCTTCGAAC AATCTTCTAT ACTTAACCAA CAGAAAACCC AGAATTTCCA GGTAAGTGCA
TCTGTGTGTT CAACATCCAT GTTGTTTTGAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd26424 Clone ID Related Accession (Same CDS sequence) XM_002196965.4 Accession Version XM_002196965.4 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3264bp)
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 8 isoform X4 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Aug 9, 2019 this sequence version replaced XM_002196965.3. ##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
3241ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGTCC
CAGCGGGAGC CATTAATAAG AGCACGAAGT GAGGAAATGG GAAGGATAGT CCCAGGGCTG
CCTGCAGGTT GGGTAAAGTT CCTGGATGAC ATCACTGGAA CCTATCGTTA CTATCACTCA
CCAACAAATA CTGTTCAGAT GTACCCACCA GAAATGGCTC CTCCAGCCAC TCCTCCATCA
ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG GTGACTGCTG AGCGGGAGAG AGAGCACTCC
AAGCTGAAGC GCTCCTACTC GTCCCCAGAT ATAACCCAAG CCATTCAGGA GGAAGACAAG
AAAAGAGTTC CTGTAACTCC TGCAGTCAAT CGTGACAATA AACCTACCTG TTACACTAAA
GCAGAAATTT CCAGGCTCTC TGCATCGCAG ATTCGAAATC TTAATCCTGT GTTTGGGGGA
TCGGGACCAG CTCTGACAGG ACTTCGGAAT CTAGGGAACA CTTGCTACAT GAATTCCATA
TTACAGTGTC TGTGCAATGC ACCTCACCTG GCTGAGTATT TCAACAGAAA CTTGTATCAA
GCTGATATTA ACAGGTCAAA TTTCCTGGGG CATAAAGGTG AAGTGGCTGA AGAGTTTGGT
GTAATAATGA AAGCTTTATG GGCAGGACAG TATAAATATA TCAGTCCAAA AGACTTCAAA
ATTACAATTG GGAAGATTAA TGACCAATTT TCAGGATACA GCCAACAGGA CTCCCAAGAA
TTGCTTCTCT TTCTAATGGA TGGCTTGCAT GAAGACCTAA ATAAAGCTGA CAACAGGAAA
AGATACAAGG AAGAAAATAA CGATCACCTT GATGACTCAA GTGCAGCAGA AATAGCCTGG
CACAAACACA AACAGCTCAA CGAGTCCATC ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA
TCCACCGTGC AGTGTCTGAC GTGTCACAAG AGGTCCCGAA CCTTCGAGGC TTTCATGTAT
CTGTCACTGC CACTTGCATC CTCCAGCAAA TGCACTCTGC AGGAATGCCT TAGATTGTTC
TCCAAAGAAG AAAAGCTCAC TGATAACAAT AGATTTTACT GTAGCCATTG CAAAACTCGA
AGGGATTCTT TGAAAAAAAT AGAAATTTGG AAATTACCAC CTGTTCTTCT TGTGCACTTG
AAACGATTTT CCTATGATGG AAGATGGAAA CAAAAGCTTC AAACTTCAGT AGATTTTCCA
CTGGAAACTC TTGACCTCTC TCAGTATGTT ATTGGTCCAA AGACTTCCTT GAAGAGATAC
AATCTGTTCT CAGTATCGAA TCATTACGGT GGGCTGGACG GGGGTCACTA CACAGCCTAC
TGCAAAAATG CTTCAAAACA GCGCTGGTTT AAGTTTGATG ACCATGAAGT GTCTGAGATC
TCGGCGTCCT CGGTGAAGTC CTCAGCTGCT TACATTCTAT TTTATACTTC CTATGAACAG
CGAGCAGTAG ATATGGCCAC GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_002197001.3 CDS 180..3443 Translation
Target ORF information:
RefSeq Version XM_002196965.4 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X4, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_002196965.4
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
3241ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGTCC
CAGCGGGAGC CATTAATAAG AGCACGAAGT GAGGAAATGG GAAGGATAGT CCCAGGGCTG
CCTGCAGGTT GGGTAAAGTT CCTGGATGAC ATCACTGGAA CCTATCGTTA CTATCACTCA
CCAACAAATA CTGTTCAGAT GTACCCACCA GAAATGGCTC CTCCAGCCAC TCCTCCATCA
ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG GTGACTGCTG AGCGGGAGAG AGAGCACTCC
AAGCTGAAGC GCTCCTACTC GTCCCCAGAT ATAACCCAAG CCATTCAGGA GGAAGACAAG
AAAAGAGTTC CTGTAACTCC TGCAGTCAAT CGTGACAATA AACCTACCTG TTACACTAAA
GCAGAAATTT CCAGGCTCTC TGCATCGCAG ATTCGAAATC TTAATCCTGT GTTTGGGGGA
TCGGGACCAG CTCTGACAGG ACTTCGGAAT CTAGGGAACA CTTGCTACAT GAATTCCATA
TTACAGTGTC TGTGCAATGC ACCTCACCTG GCTGAGTATT TCAACAGAAA CTTGTATCAA
GCTGATATTA ACAGGTCAAA TTTCCTGGGG CATAAAGGTG AAGTGGCTGA AGAGTTTGGT
GTAATAATGA AAGCTTTATG GGCAGGACAG TATAAATATA TCAGTCCAAA AGACTTCAAA
ATTACAATTG GGAAGATTAA TGACCAATTT TCAGGATACA GCCAACAGGA CTCCCAAGAA
TTGCTTCTCT TTCTAATGGA TGGCTTGCAT GAAGACCTAA ATAAAGCTGA CAACAGGAAA
AGATACAAGG AAGAAAATAA CGATCACCTT GATGACTCAA GTGCAGCAGA AATAGCCTGG
CACAAACACA AACAGCTCAA CGAGTCCATC ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA
TCCACCGTGC AGTGTCTGAC GTGTCACAAG AGGTCCCGAA CCTTCGAGGC TTTCATGTAT
CTGTCACTGC CACTTGCATC CTCCAGCAAA TGCACTCTGC AGGAATGCCT TAGATTGTTC
TCCAAAGAAG AAAAGCTCAC TGATAACAAT AGATTTTACT GTAGCCATTG CAAAACTCGA
AGGGATTCTT TGAAAAAAAT AGAAATTTGG AAATTACCAC CTGTTCTTCT TGTGCACTTG
AAACGATTTT CCTATGATGG AAGATGGAAA CAAAAGCTTC AAACTTCAGT AGATTTTCCA
CTGGAAACTC TTGACCTCTC TCAGTATGTT ATTGGTCCAA AGACTTCCTT GAAGAGATAC
AATCTGTTCT CAGTATCGAA TCATTACGGT GGGCTGGACG GGGGTCACTA CACAGCCTAC
TGCAAAAATG CTTCAAAACA GCGCTGGTTT AAGTTTGATG ACCATGAAGT GTCTGAGATC
TCGGCGTCCT CGGTGAAGTC CTCAGCTGCT TACATTCTAT TTTATACTTC CTATGAACAG
CGAGCAGTAG ATATGGCCAC GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
CloneID OTd26425 Clone ID Related Accession (Same CDS sequence) XM_030281209.1 Accession Version XM_030281209.1 Latest version! Documents for ORF clone product in default vector Sequence Information ORF Nucleotide Sequence (Length: 3234bp)
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 8 isoform X5 Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044222.1) 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
3181ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAATCC CAGCGGGAGC CATTAATAAG AGCACGAAGT
GAGGAAATGG GAAGGATAGT CCCAGGGCTG CCTGCAGGTT GGGTAAAGTT CCTGGATGAC
ATCACTGGAA CCTATCGTTA CTATCACTCA CCAACAAATA CTGTTCAGAT GTACCCACCA
GAAATGGCTC CTCCAGCCAC TCCTCCATCA ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG
GTGACTGCTG AGCGGGAGAG AGAGCACTCC AAGCTGAAGC GCTCCTACTC GTCCCCAGAT
ATAACCCAAG CCATTCAGGA GGAAGACAAG AAAAGAGTTC CTGTAACTCC TGCAGTCAAT
CGTGACAATA AACCTACCTG TTACACTAAA GCAGAAATTT CCAGGCTCTC TGCATCGCAG
ATTCGAAATC TTAATCCTGT GTTTGGGGGA TCGGGACCAG CTCTGACAGG ACTTCGGAAT
CTAGGGAACA CTTGCTACAT GAATTCCATA TTACAGTGTC TGTGCAATGC ACCTCACCTG
GCTGAGTATT TCAACAGAAA CTTGTATCAA GCTGATATTA ACAGGTCAAA TTTCCTGGGG
CATAAAGGTG AAGTGGCTGA AGAGTTTGGT GTAATAATGA AAGCTTTATG GGCAGGACAG
TATAAATATA TCAGTCCAAA AGACTTCAAA ATTACAATTG GGAAGATTAA TGACCAATTT
TCAGGATACA GCCAACAGGA CTCCCAAGAA TTGCTTCTCT TTCTAATGGA TGGCTTGCAT
GAAGACCTAA ATAAAGCTGA CAACAGGAAA AGATACAAGG AAGAAAATAA CGATCACCTT
GATGACTCAA GTGCAGCAGA AATAGCCTGG CACAAACACA AACAGCTCAA CGAGTCCATC
ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA TCCACCGTGC AGTGTCTGAC GTGTCACAAG
AGGTCCCGAA CCTTCGAGGC TTTCATGTAT CTGTCACTGC CACTTGCATC CTCCAGCAAA
TGCACTCTGC AGGAATGCCT TAGATTGTTC TCCAAAGAAG AAAAGCTCAC TGATAACAAT
AGATTTTACT GTAGCCATTG CAAAACTCGA AGGGATTCTT TGAAAAAAAT AGAAATTTGG
AAATTACCAC CTGTTCTTCT TGTGCACTTG AAACGATTTT CCTATGATGG AAGATGGAAA
CAAAAGCTTC AAACTTCAGT AGATTTTCCA CTGGAAACTC TTGACCTCTC TCAGTATGTT
ATTGGTCCAA AGACTTCCTT GAAGAGATAC AATCTGTTCT CAGTATCGTT CCTGAAAAGC
AGCTTCGAAC AATCTTCTAT ACTTAACCAA CAGAAAACCC AGAATTTCCA GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
RefSeq XP_030137069.1 CDS 166..3399 Translation
Target ORF information:
RefSeq Version XM_030281209.1 Organism Taeniopygia guttata(zebra finch) Definition Taeniopygia guttata ubiquitin specific peptidase 8 (USP8), transcript variant X5, mRNA. Target ORF information:
Epitope DYKDDDDK Bacterial selection AMPR Mammalian selection NeoR Vector pcDNA3.1+/C-(K)DYK XM_030281209.1
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
3181ATGCCTGCTG TGGCGTCTGT ACCTAAGGAG CTATACCTCT CTACTTCATT GAAAGATCTC
AACAAGAAGA CAGAAGTAAA ACCTGAAAAG ACCAGTACAA AAAGTTATGT GCAGAGTGCC
CTTAAGATTT TCAAGGCAGC AGAGGAAAGC AGACTGGACG GAGATGAAGA AAAAGCTTAC
ATCCTCTATA TGAAATATGT GGCTGTTTAT AACCTTATTA GAAAGAGACC TGATTTTAAG
CAGCAGCAGG ATTATTTTCA TTCAATTCTG GGACCTACAA ATTTAAAAAA AGCTCTTGAT
GAAGCTGAAA TACTGTCAGA CAGCCTTAAA CTCAGGTACG AGGAAGCTGA AGTTCGGAAA
AAACTTGAAG AGAGGGACAG ACAAGAACTG CAAAAAAAGC AAGATCCAAA AGATGATGGA
AAGAGCTCAG CCAAAAACTC CTCAGAAAGT GCTGTGGATG CCAAAGGAAA AAGCCAAAGG
ATTAATGGTG AGACAAAGCA TTCACTGGAA AGAAAAGATC AGTCTGATAG CCTGAGTGGA
GCAGTCACAC CTGAGAAACT GTTTGCAATG ATGTCAGACA AAAATATTGA ATTGCTTATA
ATGGATGCTC GAAGATCAAA GGATTATCAG GAATCCTGTA TTCCAAAATC CATCAGCGTC
CCAGAAGAAG CTATCCATCC TGGAGATACT GCATATCTGA TTGAAGCTAG ACTCCCAGAG
GAGTCTAGGG ATCCATGGAA GAGGAGAGGA CAGTTCCATT ATGTTATACT GCTAGACTGG
TTTAGTTCTG CTGAAGACTT AAAGTTGGGA ACAACTCTAC AGAGCCTGAA AGATGCACTT
TTTAAGTGGG AAAGCAAAAC CATCCTACAG AATGAACCTT TAATTCTAGA GGGAGGTTAT
GAAAACTGGC TCCTTTGTTT TCCCCAGTAT ACAACAAATG CTAGAGTAAC TCCACCCCAG
CATGGCAGGA CTGAAGCAGT GACTGTTTCT TTGGATTTTA CATATCCATC TCTGGAAGAG
CCAACTCCTG TGCCACCTGT TGTTGCTGAA AATGAAGAAA TGGGAGATAA TTTGGAAGAG
AGACTAAAAT CACTTAACAG ACCAAACATA CAGGATGCTG CTGTTCCAAA AGCTGACAGT
TCCTTTGTAG TTAATCCCAT GTCAATTACA AGAAGTATCC CTGAGGTCGA TCGTTCTAAA
AAGCCTTCAC TAAAAATCCT TGGTGATAAC AGAGCAAAAC CTCCAAGTAC AATCAGTGAC
AGCCACTCTG GTGAGAGTGG AAGAATAGTT CCAGACCGCT CCACAAAGCC CGTGCATGAT
GGAAGGAGCA CTCTGACAGA AGAAGAAAAA AGTCGGGTCC ATGCGGAAAC CGCGGCTTTG
TTAGAGAAAA ACAGACGGGA AAAGGAACTG CGGGAGAGGC AACAACAGGA ACAGAAAGAG
AGGCTCAAGA GAGAAAAAGA AGAACAAGAA CAAAAAGAAC AGGAACAAAA GGCAAAAGAA
GAACAGAAGG AAAAGGAACG CAAAGAAAAG CTACAGCAAT CAAAAGAGGA CAGAGAGCAG
AAGGAGAGGG ATGAACAAAT AAAAAGAGAG CAGGAGGAAA AGGAACAAGA AAGAGGACAC
AGAGAAACAG TAGAAGCAAA AAAGCAAAAT AAAAATGAAC CAGAAAACAT TGGTGCAAAA
AGGATTGAGG TTGACAAAAT ATCCATGGAA GAAAGAGAAA AGGGATCTCG AACACCAGAA
ACACAGAAAC GAGCACTGGG TGATGCATCT CCAACCTTTG TGACTGTTCC AGGCAAGCAG
ATGGGGGTTA AAGGACAACC AGACAGTGAA GCTCAAAAGC CAGGACTCCT TAGAGAGGAT
TCTGAACAAG ATACTGAAAG ACTTAAATCC CAGCGGGAGC CATTAATAAG AGCACGAAGT
GAGGAAATGG GAAGGATAGT CCCAGGGCTG CCTGCAGGTT GGGTAAAGTT CCTGGATGAC
ATCACTGGAA CCTATCGTTA CTATCACTCA CCAACAAATA CTGTTCAGAT GTACCCACCA
GAAATGGCTC CTCCAGCCAC TCCTCCATCA ACCCCTCCCA GTCGGAAAGC CAAGCCAAAG
GTGACTGCTG AGCGGGAGAG AGAGCACTCC AAGCTGAAGC GCTCCTACTC GTCCCCAGAT
ATAACCCAAG CCATTCAGGA GGAAGACAAG AAAAGAGTTC CTGTAACTCC TGCAGTCAAT
CGTGACAATA AACCTACCTG TTACACTAAA GCAGAAATTT CCAGGCTCTC TGCATCGCAG
ATTCGAAATC TTAATCCTGT GTTTGGGGGA TCGGGACCAG CTCTGACAGG ACTTCGGAAT
CTAGGGAACA CTTGCTACAT GAATTCCATA TTACAGTGTC TGTGCAATGC ACCTCACCTG
GCTGAGTATT TCAACAGAAA CTTGTATCAA GCTGATATTA ACAGGTCAAA TTTCCTGGGG
CATAAAGGTG AAGTGGCTGA AGAGTTTGGT GTAATAATGA AAGCTTTATG GGCAGGACAG
TATAAATATA TCAGTCCAAA AGACTTCAAA ATTACAATTG GGAAGATTAA TGACCAATTT
TCAGGATACA GCCAACAGGA CTCCCAAGAA TTGCTTCTCT TTCTAATGGA TGGCTTGCAT
GAAGACCTAA ATAAAGCTGA CAACAGGAAA AGATACAAGG AAGAAAATAA CGATCACCTT
GATGACTCAA GTGCAGCAGA AATAGCCTGG CACAAACACA AACAGCTCAA CGAGTCCATC
ATTGTGGCAC TCTTCCAAGG CCAGTTCAAA TCCACCGTGC AGTGTCTGAC GTGTCACAAG
AGGTCCCGAA CCTTCGAGGC TTTCATGTAT CTGTCACTGC CACTTGCATC CTCCAGCAAA
TGCACTCTGC AGGAATGCCT TAGATTGTTC TCCAAAGAAG AAAAGCTCAC TGATAACAAT
AGATTTTACT GTAGCCATTG CAAAACTCGA AGGGATTCTT TGAAAAAAAT AGAAATTTGG
AAATTACCAC CTGTTCTTCT TGTGCACTTG AAACGATTTT CCTATGATGG AAGATGGAAA
CAAAAGCTTC AAACTTCAGT AGATTTTCCA CTGGAAACTC TTGACCTCTC TCAGTATGTT
ATTGGTCCAA AGACTTCCTT GAAGAGATAC AATCTGTTCT CAGTATCGTT CCTGAAAAGC
AGCTTCGAAC AATCTTCTAT ACTTAACCAA CAGAAAACCC AGAATTTCCA GTAAThe stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.
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