ORF » Species Summary » Taeniopygia guttata » USP40 cDNA ORF clone

USP40 cDNA ORF clone, Taeniopygia guttata(zebra finch)

The following USP40 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP40 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.

***CloneID Accession No. Definition **Vector *Turnaround time Price (USD) Select
OTd11255 XM_002190374.2
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd16856 XM_012574771.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OTd49256 XM_030276963.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd49256 XM_030276962.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OTd49256 XM_002190374.3
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

  • Reference Sequences (Refseq)
    USP40 ( XM_002190374.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002190410.1 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd11255
    Clone ID Related Accession (Same CDS sequence) XM_002190374.2
    Accession Version XM_002190374.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3804bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag 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 40 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198916.1) 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_002190374.1. ##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
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGGTTCAA CTGCATTTTT TATAGTAAAT GCTTATTGTA TCTTTTTAAA AGACTCTTCT 
    GCCTTCACAA TGTTTGGGGA CTTATTTGAA GAGGATTTTT CCTTTATTTC CAACAATCAT 
    TATGGGAAAG GGAAGAAATC AAAGCCCAGA GAGTCTGAGC CTCCAGCTCC CAGGGATTTC 
    ACCAACCTCA GTGGAATCAA AAATCAGGGT GGGACCTGCT ACCTCAATTC CCTTCTGCAG 
    ACTCTGCTTT TCACGCCTGA ATTTAGAGAG GCTTTGTTCT CCCTGGGACC TGAAGAACTT 
    GGTACTCTGG ATGACAGCAG GAAGCCAGAT GCAAAGGTTC GGATCATCCC ACTGCAGCTG 
    CAGCGCTTGT TTGCTCAGCT CCTGCTCCTG GACCAGCAGG CTGCATCCAC CACAGACCTC 
    ACCGAGAGCT TCGGCTGGAG CGGCCACGAG GAGATGAGGC AGCACGATGT GCAGGAATTG 
    AACAGGATCC TCTTCAGTGC TCTGGAGACT TCCCTGGTGG GGACATCAGG CCATGACCTC 
    ATCAACCGCC TGTACCATGG CATTGTTGTC AACCAGATCG TCTGTAAGGA GTGCAAGAAC 
    GTCAGTGAGA GACAGGAAGA TTTCTTAGAC CTCACAGTGG CAGTGAAAGG TGTGGCTGGC 
    TTGGAGGAGG CCCTGTGGAA CATGTACGTG GAGGAAGAAT ACTTTGAGAA TGACAACTTG 
    TATCGATGTG GAGCCTGCGA TAAACTGGTT GAAGCTTCAA AGTCTGCTAA ACTACGCAAG 
    CTGCCTCCCT TCCTCACCAT TTCCCTCCTG AGGTTCAACT TTGACTTTGA GAAGTGTGAG 
    AGGTACAAGG AAACGAGCTG CTACACATTC CCCATCCAGA TCAACCTGAG GCCTTTCTGT 
    GAGCAGACTG AAATGGATGA TTCAGAGTAC ATGTATGAGC TCTTCTCTGT TATTATACAC 
    AAAGGTGGCT GCTATGGAGG ACACTATCAT GTTTATATCA GAGATGTGGA TGAATTAGGA 
    AACTGGCAAC TCCAAGAAGA AGAGGATGGA CTGATTGAAG AGAAGGCTTT AAGAGACACT 
    GAGAATGCCA AAGAAACAGA AAATCCACTG GCAGTCTTAA AAGGGATTTT GTCAGAGGAA 
    GAAGCTAAAC AAATTCCCGT GGATCAATTA GGGCAGAAAT TACTGGAGAA GAAAGGGGTG 
    TCCTGGAATA AGAAATACAG AAAACAATAT GGAGCATTAC GAAAGTATTT GCAGAATCAT 
    CCTCAGATAT TCCAGCTGAG TCCTGATGGA AATAAGGTCG GCCTGAAGGA AACACACAAG 
    CTCCTCTTCA AGCTGGATTC TCATGGACAA AATCTCCAGA GCCCTTCCCA GAAGAATGAT 
    GTCCAGTGGA ACTGTGAGAA AAACCCCCCA AGGCCAAGGG CTGCTTCTGC TGGGTGCCAC 
    TGGTTTGATC TGAATGATTC CAAAGTACAG CCCATCAAGG AGAAGGATAT TGAGAAGCAG 
    TTCCAGGGTA AAGAGAGTGC CTACATGCTG TTCTACAGAA AAGCTCAGCT GAAGAGGCCC 
    CCTGAAGCAC GTGGAAATCC AAGGTACCAA ATTCCTGAGC ACCTGCTGAA TGAAATGAAT 
    GCTGCTAATA CAGAGCTGCG AAAAAAGAGA GCTGAATGTG ACTCGGCAAA CAATGGCATT 
    GATTTACATC TCCACCTGAG CTCCTGCTAT AAATTCCACA ATGGGGCTTT GCATCCTTCA 
    CTTTCTTGCA AAGAGAGTGT AGTGGATTTG ACTATTGACA GAAGGAAGAC ACTGGGAGAC 
    CTTCGGCAGG CAGTGTTACA GGTGTTGGAG TCTTGGGAAG GGGACGTGGT TCTCAGCATG 
    GCCAAGCCTT TGCCAGCAGG ATTACACCTG TACCAGGTGC TTGATGGAGA TGAGCTGATC 
    CTGGATGGCA TTGGGCTGGC TGATGGAGCA GACATCTTTG TCTGGAATGG AAAAGAGGTT 
    GGAGGCACCA AGGTGCTCAC GGGCCCTGAG CACGAGCCCG TGGTGCTCAA CGTGCTTCGC 
    TTGGCCGAGC ACAACGAGGG CGGCAAGGGG CAGCACTTCA GCGAGGCGCA GCACGTGTTC 
    CCCTGCAGCA CCAGCCTGGG GCAGCTGCAC TCTGCCCTGG CTCCGGCCGG GGGCATCATC 
    CTCAGGAACG GCTCAGGAGT AGACACTGAA GCCAAGAACT GGCAAGTTTT CCATGAGGAG 
    GACATGAAGG AAACAGTCCG AAGTGTTGGG CTCAGGGACG GGTGCTCTGT GCTGATCTTA 
    GACAGCCATG ACCAGAGCTT TGTCAACTTA GCAAGTGGAA ATTTGACTGC TTTCACCTAT 
    GACATCAGCT GGCTCCAAGT GAAAAACTTC TGTGGGGTGG AAGAGGAGGC GAAACATGTT 
    AAAATCACTG CCACTATTGA AACAGTGATG TCAGATATCA AAATGAAAGC AATCCGGGAG 
    TTCCAGCTGC AGGAGGAGCT GGGAAACGAG AACTGTCTTA GACCTGTTAG TGGTAATGGG 
    AAACTTCTGT CTCCAGTGTC TGAGGATTAC ACAGTCAAGG AAGCAGAACT TAAGATGGGA 
    AGCTTGCTTG GCCTGTGCCG TGGGAAAGCT CCAACTTCCA CTCAGCTCTT CCTGTACTTC 
    ATGGTTGGGA GTGACCAAAG CTGCAGCCCT GAGATGGAGA TAGTTGTGGA GGAGACTGCC 
    TCTGTCGGAG AGTGTCTCAA TTTAATGCTG GAGAAATCAG GATTATCAGG TGACAACTGG 
    CATTTGAGAA GGCTTGACTG GTGCTACGAG GCAGGGGAAG CATTAAGTCA GGAAAATGCC 
    ACCCTGAAGG AACTCAATGT TTGCAGAGGA GACACTTTGA TTATAACTGA AGGAAAGCTT 
    CCAGAAAAGG GTTTCCTGAA AATCCCCATC TGGTGGCTGA AGCCTTCAAG CCATAAGAAA 
    CATGGAGAGA ATGCACAAGA CCAGGTGAAT GGGATGACCT GGAAGATGGA GGCTTTGCAG 
    GTGTCTGCTG CAGCAGCTCC AGCAGAACCT ACCCACCCAG GCCTGGATCT CTGTTATGCT 
    GGCAGGATAG AGATAGCAGG AGAGGCCTCG CTGGAAGATC TGAAGATGCA GGTTCTGACC 
    TTACCCTGCT GCCAGGAGCA GGTTGTGCCC CTGCCCTCAT TCCTCAGAGC TTGGACAGTG 
    GACAGCAAAC GCCCCGGGAA GCTCCTACGG GACAACAAAA GGACACTCAG TGACTACAGG 
    CTGGGTGCCA GAGTGGAAAT CTGCATAGAA CCCTTGCAAG AAGAAGAGAA TTTGGGCCCC 
    CACGAGCTGC TGCTGCGAGT CCAGATGGGA ATACCAGGAG AGAGGGACTA CACCAGCTCC 
    CGGGATTTGG TGTGGGATAT CTCCAAGGAA TGCACAGCCT GGGCTCTGAG GCAGAGAGTG 
    GCTTCTCACT ATTGTCTCCC TGTAGATAAA ATTGAAATAG CCAAATACTT CCCTGAGAGA 
    TTTGAGTGGC TGCCATTATC TAGCTGGACA CAGCAAATCT CAAAGAGGAA AAGGAGGAAA 
    AAGCAGGCAA GTTTGCAGTC AGCACCTTAC CACCTGAAGG ATGGAGACAT CATTGGGGTG 
    AAGAACCTTC TCCTTGATGA CACCAAGGAC TTCAGCACTG TCAGGGACGA CATTGGGAAA 
    GAGAAGCAAA GGCAGCTGGC TCTGGAAAAG AGGAAAAGCC GCCAGGAACG TGTCCAGGAT 
    CCCCTTTTCC CCGACGAGAA GCTCCCCCCA AAGCCCCGCA AACCAGAAGT GGCTCTTTCC 
    ATCAATGTGG GGGTTTTCAG ATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_002190410.1
    CDS1..3804
    Translation

    Target ORF information:

    RefSeq Version XM_002190374.2
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002190374.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGGTTCAA CTGCATTTTT TATAGTAAAT GCTTATTGTA TCTTTTTAAA AGACTCTTCT 
    GCCTTCACAA TGTTTGGGGA CTTATTTGAA GAGGATTTTT CCTTTATTTC CAACAATCAT 
    TATGGGAAAG GGAAGAAATC AAAGCCCAGA GAGTCTGAGC CTCCAGCTCC CAGGGATTTC 
    ACCAACCTCA GTGGAATCAA AAATCAGGGT GGGACCTGCT ACCTCAATTC CCTTCTGCAG 
    ACTCTGCTTT TCACGCCTGA ATTTAGAGAG GCTTTGTTCT CCCTGGGACC TGAAGAACTT 
    GGTACTCTGG ATGACAGCAG GAAGCCAGAT GCAAAGGTTC GGATCATCCC ACTGCAGCTG 
    CAGCGCTTGT TTGCTCAGCT CCTGCTCCTG GACCAGCAGG CTGCATCCAC CACAGACCTC 
    ACCGAGAGCT TCGGCTGGAG CGGCCACGAG GAGATGAGGC AGCACGATGT GCAGGAATTG 
    AACAGGATCC TCTTCAGTGC TCTGGAGACT TCCCTGGTGG GGACATCAGG CCATGACCTC 
    ATCAACCGCC TGTACCATGG CATTGTTGTC AACCAGATCG TCTGTAAGGA GTGCAAGAAC 
    GTCAGTGAGA GACAGGAAGA TTTCTTAGAC CTCACAGTGG CAGTGAAAGG TGTGGCTGGC 
    TTGGAGGAGG CCCTGTGGAA CATGTACGTG GAGGAAGAAT ACTTTGAGAA TGACAACTTG 
    TATCGATGTG GAGCCTGCGA TAAACTGGTT GAAGCTTCAA AGTCTGCTAA ACTACGCAAG 
    CTGCCTCCCT TCCTCACCAT TTCCCTCCTG AGGTTCAACT TTGACTTTGA GAAGTGTGAG 
    AGGTACAAGG AAACGAGCTG CTACACATTC CCCATCCAGA TCAACCTGAG GCCTTTCTGT 
    GAGCAGACTG AAATGGATGA TTCAGAGTAC ATGTATGAGC TCTTCTCTGT TATTATACAC 
    AAAGGTGGCT GCTATGGAGG ACACTATCAT GTTTATATCA GAGATGTGGA TGAATTAGGA 
    AACTGGCAAC TCCAAGAAGA AGAGGATGGA CTGATTGAAG AGAAGGCTTT AAGAGACACT 
    GAGAATGCCA AAGAAACAGA AAATCCACTG GCAGTCTTAA AAGGGATTTT GTCAGAGGAA 
    GAAGCTAAAC AAATTCCCGT GGATCAATTA GGGCAGAAAT TACTGGAGAA GAAAGGGGTG 
    TCCTGGAATA AGAAATACAG AAAACAATAT GGAGCATTAC GAAAGTATTT GCAGAATCAT 
    CCTCAGATAT TCCAGCTGAG TCCTGATGGA AATAAGGTCG GCCTGAAGGA AACACACAAG 
    CTCCTCTTCA AGCTGGATTC TCATGGACAA AATCTCCAGA GCCCTTCCCA GAAGAATGAT 
    GTCCAGTGGA ACTGTGAGAA AAACCCCCCA AGGCCAAGGG CTGCTTCTGC TGGGTGCCAC 
    TGGTTTGATC TGAATGATTC CAAAGTACAG CCCATCAAGG AGAAGGATAT TGAGAAGCAG 
    TTCCAGGGTA AAGAGAGTGC CTACATGCTG TTCTACAGAA AAGCTCAGCT GAAGAGGCCC 
    CCTGAAGCAC GTGGAAATCC AAGGTACCAA ATTCCTGAGC ACCTGCTGAA TGAAATGAAT 
    GCTGCTAATA CAGAGCTGCG AAAAAAGAGA GCTGAATGTG ACTCGGCAAA CAATGGCATT 
    GATTTACATC TCCACCTGAG CTCCTGCTAT AAATTCCACA ATGGGGCTTT GCATCCTTCA 
    CTTTCTTGCA AAGAGAGTGT AGTGGATTTG ACTATTGACA GAAGGAAGAC ACTGGGAGAC 
    CTTCGGCAGG CAGTGTTACA GGTGTTGGAG TCTTGGGAAG GGGACGTGGT TCTCAGCATG 
    GCCAAGCCTT TGCCAGCAGG ATTACACCTG TACCAGGTGC TTGATGGAGA TGAGCTGATC 
    CTGGATGGCA TTGGGCTGGC TGATGGAGCA GACATCTTTG TCTGGAATGG AAAAGAGGTT 
    GGAGGCACCA AGGTGCTCAC GGGCCCTGAG CACGAGCCCG TGGTGCTCAA CGTGCTTCGC 
    TTGGCCGAGC ACAACGAGGG CGGCAAGGGG CAGCACTTCA GCGAGGCGCA GCACGTGTTC 
    CCCTGCAGCA CCAGCCTGGG GCAGCTGCAC TCTGCCCTGG CTCCGGCCGG GGGCATCATC 
    CTCAGGAACG GCTCAGGAGT AGACACTGAA GCCAAGAACT GGCAAGTTTT CCATGAGGAG 
    GACATGAAGG AAACAGTCCG AAGTGTTGGG CTCAGGGACG GGTGCTCTGT GCTGATCTTA 
    GACAGCCATG ACCAGAGCTT TGTCAACTTA GCAAGTGGAA ATTTGACTGC TTTCACCTAT 
    GACATCAGCT GGCTCCAAGT GAAAAACTTC TGTGGGGTGG AAGAGGAGGC GAAACATGTT 
    AAAATCACTG CCACTATTGA AACAGTGATG TCAGATATCA AAATGAAAGC AATCCGGGAG 
    TTCCAGCTGC AGGAGGAGCT GGGAAACGAG AACTGTCTTA GACCTGTTAG TGGTAATGGG 
    AAACTTCTGT CTCCAGTGTC TGAGGATTAC ACAGTCAAGG AAGCAGAACT TAAGATGGGA 
    AGCTTGCTTG GCCTGTGCCG TGGGAAAGCT CCAACTTCCA CTCAGCTCTT CCTGTACTTC 
    ATGGTTGGGA GTGACCAAAG CTGCAGCCCT GAGATGGAGA TAGTTGTGGA GGAGACTGCC 
    TCTGTCGGAG AGTGTCTCAA TTTAATGCTG GAGAAATCAG GATTATCAGG TGACAACTGG 
    CATTTGAGAA GGCTTGACTG GTGCTACGAG GCAGGGGAAG CATTAAGTCA GGAAAATGCC 
    ACCCTGAAGG AACTCAATGT TTGCAGAGGA GACACTTTGA TTATAACTGA AGGAAAGCTT 
    CCAGAAAAGG GTTTCCTGAA AATCCCCATC TGGTGGCTGA AGCCTTCAAG CCATAAGAAA 
    CATGGAGAGA ATGCACAAGA CCAGGTGAAT GGGATGACCT GGAAGATGGA GGCTTTGCAG 
    GTGTCTGCTG CAGCAGCTCC AGCAGAACCT ACCCACCCAG GCCTGGATCT CTGTTATGCT 
    GGCAGGATAG AGATAGCAGG AGAGGCCTCG CTGGAAGATC TGAAGATGCA GGTTCTGACC 
    TTACCCTGCT GCCAGGAGCA GGTTGTGCCC CTGCCCTCAT TCCTCAGAGC TTGGACAGTG 
    GACAGCAAAC GCCCCGGGAA GCTCCTACGG GACAACAAAA GGACACTCAG TGACTACAGG 
    CTGGGTGCCA GAGTGGAAAT CTGCATAGAA CCCTTGCAAG AAGAAGAGAA TTTGGGCCCC 
    CACGAGCTGC TGCTGCGAGT CCAGATGGGA ATACCAGGAG AGAGGGACTA CACCAGCTCC 
    CGGGATTTGG TGTGGGATAT CTCCAAGGAA TGCACAGCCT GGGCTCTGAG GCAGAGAGTG 
    GCTTCTCACT ATTGTCTCCC TGTAGATAAA ATTGAAATAG CCAAATACTT CCCTGAGAGA 
    TTTGAGTGGC TGCCATTATC TAGCTGGACA CAGCAAATCT CAAAGAGGAA AAGGAGGAAA 
    AAGCAGGCAA GTTTGCAGTC AGCACCTTAC CACCTGAAGG ATGGAGACAT CATTGGGGTG 
    AAGAACCTTC TCCTTGATGA CACCAAGGAC TTCAGCACTG TCAGGGACGA CATTGGGAAA 
    GAGAAGCAAA GGCAGCTGGC TCTGGAAAAG AGGAAAAGCC GCCAGGAACG TGTCCAGGAT 
    CCCCTTTTCC CCGACGAGAA GCTCCCCCCA AAGCCCCGCA AACCAGAAGT GGCTCTTTCC 
    ATCAATGTGG GGGTTTTCAG ATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    USP40 ( XM_012574771.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012430225.1 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd16856
    Clone ID Related Accession (Same CDS sequence) XM_012574771.1
    Accession Version XM_012574771.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3087bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag 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 40 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002198916.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: 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
    ATGTTTGGGG ACTTATTTGA AGAGGATTTT TCCTTTATTT CCAACAATCA TTATGGGAAA 
    GGGAAGAAAT CAAAGCCCAG AGAGTCTGAG CCTCCAGCTC CCAGGGATTT CACCAACCTC 
    AGTGGAATCA AAAATCAGGG TGGGACCTGC TACCTCAATT CCCTTCTGCA GACTCTGCTT 
    TTCACGCCTG AATTTAGAGA GGCTTTGTTC TCCCTGGGAC CTGAAGAACT TGGTACTCTG 
    GATGACAGCA GGAAGCCAGA TGCAAAGGTT CGGATCATCC CACTGCAGCT GCAGCGCTTG 
    TTTGCTCAGC TCCTGCTCCT GGACCAGCAG GCTGCATCCA CCACAGACCT CACCGAGAGC 
    TTCGGCTGGA GCGGCCACGA GGAGATGAGG CAGCACGATG TGCAGGAATT GAACAGGATC 
    CTCTTCAGTG CTCTGGAGAC TTCCCTGGTG GGGACATCAG GCCATGACCT CATCAACCGC 
    CTGTACCATG GCATTGTTGT CAACCAGATC GTCTGTAAGG AGTGCAAGAA CGTCAGTGAG 
    AGACAGGAAG ATTTCTTAGA CCTCACAGTG GCAGTGAAAG GTGTGGCTGG CTTGGAGGAG 
    GCCCTGTGGA ACATGTACGT GGAGGAAGAA TACTTTGAGA ATGACAACTT GTATCGATGT 
    GGAGCCTGCG ATAAACTGGT TGAAGCTTCA AAGTCTGCTA AACTACGCAA GCTGCCTCCC 
    TTCCTCACCA TTTCCCTCCT GAGGTTCAAC TTTGACTTTG AGAAGTGTGA GAGGTACAAG 
    GAAACGAGCT GCTACACATT CCCCATCCAG ATCAACCTGA GGCCTTTCTG TGAGCAGACT 
    GAAATGGATG ATTCAGAGTA CATGTATGAG CTCTTCTCTG TTATTATACA CAAAGGTGGC 
    TGCTATGGAG GACACTATCA TGTTTATATC AGAGATGTGG ATGAATTAGG AAACTGGCAA 
    CTCCAAGAAG AAGAGGATGG ACTGATTGAA GAGAAGGCTT TAAGAGACAC TGAGAATGCC 
    AAAGAAACAG AAAATCCACT GGCAGTCTTA AAAGGGATTT TGTCAGAGGA AGAAGCTAAA 
    CAAATTCCCG TGGATCAATT AGGGCAGAAA TTACTGGAGA AGAAAGGGGT GTCCTGGAAT 
    AAGAAATACA GAAAACAATA TGGAGCATTA CGAAAGTATT TGCAGAATCA TCCTCAGATA 
    TTCCAGCTGA GTCCTGATGG AAATAAGGTC GGCCTGAAGG AAACACACAA GCTCCTCTTC 
    AAGCTGGATT CTCATGGACA AAATCTCCAG AGCCCTTCCC AGAAGAATGA TGTCCAGTGG 
    AACTGTGAGA AAAACCCCCC AAGGCCAAGG GCTGCTTCTG CTGGGTGCCA CTGGTTTGAT 
    CTGAATGATT CCAAAGTACA GCCCATCAAG GAGAAGGATA TTGAGAAGCA GTTCCAGGGT 
    AAAGAGAGTG CCTACATGCT GTTCTACAGA AAAGCTCAGC TGAAGAGGCC CCCTGAAGCA 
    CGTGGAAATC CAAGGTACCA AATTCCTGAG CACCTGCTGA ATGAAATGAA TGCTGCTAAT 
    ACAGAGCTGC GAAAAAAGAG AGCTGAATGT GACTCGGCAA ACAATGGCAT TGATTTACAT 
    CTCCACCTGA GCTCCTGCTA TAAATTCCAC AATGGGGCTT TGCATCCTTC ACTTTCTTGC 
    AAAGAGAGTG TAGTGGATTT GACTATTGAC AGAAGGAAGA CACTGGGAGA CCTTCGGCAG 
    GCAGTGTTAC AGGTGTTGGA GTCTTGGGAA GGGGACGTGG TTCTCAGCAT GGCCAAGCCT 
    TTGCCAGCAG GATTACACCT GTACCAGGTG CTTGATGGAG ATGAGCTGAT CCTGGATGGC 
    ATTGGGCTGG CTGATGGAGC AGACATCTTT GTCTGGAATG GAAAAGAGGT TGGAGGCACC 
    AAGGTGCTCA CGGGCCCTGA GCACGAGCCC GTGGTGCTCA ACGTGCTTCG CTTGGCCGAG 
    CACAACGAGG GCGGCAAGGG GCAGCACTTC AGCGAGGCGC AGCACGTGTT CCCCTGCAGC 
    ACCAGCCTGG GGCAGCTGCA CTCTGCCCTG GCTCCGGCCG GGGGCATCAT CCTCAGGAAC 
    GGCTCAGGAG TAGACACTGA AGCCAAGAAC TGGCAAGTTT TCCATGAGGA GGACATGAAG 
    GAAACAGTCC GAAGTGTTGG GCTCAGGGAC GGGTGCTCTG TGCTGATCTT AGACAGCCAT 
    GACCAGAGCT TTGTCAACTT AGCAAGTGGA AATTTGACTG CTTTCACCTA TGACATCAGC 
    TGGCTCCAAG TGAAAAACTT CTGTGGGGTG GAAGAGGAGG CGAAACATGT TAAAATCACT 
    GCCACTATTG AAACAGTGAT GTCAGATATC AAAATGAAAG CAATCCGGGA GTTCCAGCTG 
    CAGGAGGAGC TGGGAAACGA GAACTGTCTT AGACCTGTTA GTGGTAATGG GAAACTTCTG 
    TCTCCAGTGT CTGAGGATTA CACAGTCAAG GAAGCAGAAC TTAAGATGGG AAGCTTGCTT 
    GGCCTGTGCC GTGGGAAAGC TCCAACTTCC ACTCAGCTCT TCCTGTACTT CATGGTTGGG 
    AGTGACCAAA GCTGCAGCCC TGAGATGGAG ATAGTTGTGG AGGAGACTGC CTCTGTCGGA 
    GAGTGTCTCA ATTTAATGCT GGAGAAATCA GGATTATCAG GTGACAACTG GCATTTGAGA 
    AGGCTTGACT GGTGCTACGA GGCAGGGGAA GCATTAAGTC AGGAAAATGC CACCCTGAAG 
    GAACTCAATG TTTGCAGAGG AGACACTTTG ATTATAACTG AAGGAAAGCT TCCAGAAAAG 
    GGTTTCCTGA AAATCCCCAT CTGGTGGCTG AAGCCTTCAA GCCATAAGAA ACATGGAGAG 
    AATGCACAAG ACCAGGTGAA TGGGATGACC TGGAAGATGG AGGCTTTGCA GGTGTCTGCT 
    GCAGCAGCTC CAGCAGAACC TACCCACCCA GGCCTGGATC TCTGTTATGC TGGCAGGATA 
    GAGATAGCAG GAGAGGCCTC GCTGGAAGAT CTGAAGATGC AGTCTGTTGT GCCATGGTGT 
    TTATGCCATG GTTACTGGAA GTACTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_012430225.1
    CDS13..3099
    Translation

    Target ORF information:

    RefSeq Version XM_012574771.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012574771.1

    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
    ATGTTTGGGG ACTTATTTGA AGAGGATTTT TCCTTTATTT CCAACAATCA TTATGGGAAA 
    GGGAAGAAAT CAAAGCCCAG AGAGTCTGAG CCTCCAGCTC CCAGGGATTT CACCAACCTC 
    AGTGGAATCA AAAATCAGGG TGGGACCTGC TACCTCAATT CCCTTCTGCA GACTCTGCTT 
    TTCACGCCTG AATTTAGAGA GGCTTTGTTC TCCCTGGGAC CTGAAGAACT TGGTACTCTG 
    GATGACAGCA GGAAGCCAGA TGCAAAGGTT CGGATCATCC CACTGCAGCT GCAGCGCTTG 
    TTTGCTCAGC TCCTGCTCCT GGACCAGCAG GCTGCATCCA CCACAGACCT CACCGAGAGC 
    TTCGGCTGGA GCGGCCACGA GGAGATGAGG CAGCACGATG TGCAGGAATT GAACAGGATC 
    CTCTTCAGTG CTCTGGAGAC TTCCCTGGTG GGGACATCAG GCCATGACCT CATCAACCGC 
    CTGTACCATG GCATTGTTGT CAACCAGATC GTCTGTAAGG AGTGCAAGAA CGTCAGTGAG 
    AGACAGGAAG ATTTCTTAGA CCTCACAGTG GCAGTGAAAG GTGTGGCTGG CTTGGAGGAG 
    GCCCTGTGGA ACATGTACGT GGAGGAAGAA TACTTTGAGA ATGACAACTT GTATCGATGT 
    GGAGCCTGCG ATAAACTGGT TGAAGCTTCA AAGTCTGCTA AACTACGCAA GCTGCCTCCC 
    TTCCTCACCA TTTCCCTCCT GAGGTTCAAC TTTGACTTTG AGAAGTGTGA GAGGTACAAG 
    GAAACGAGCT GCTACACATT CCCCATCCAG ATCAACCTGA GGCCTTTCTG TGAGCAGACT 
    GAAATGGATG ATTCAGAGTA CATGTATGAG CTCTTCTCTG TTATTATACA CAAAGGTGGC 
    TGCTATGGAG GACACTATCA TGTTTATATC AGAGATGTGG ATGAATTAGG AAACTGGCAA 
    CTCCAAGAAG AAGAGGATGG ACTGATTGAA GAGAAGGCTT TAAGAGACAC TGAGAATGCC 
    AAAGAAACAG AAAATCCACT GGCAGTCTTA AAAGGGATTT TGTCAGAGGA AGAAGCTAAA 
    CAAATTCCCG TGGATCAATT AGGGCAGAAA TTACTGGAGA AGAAAGGGGT GTCCTGGAAT 
    AAGAAATACA GAAAACAATA TGGAGCATTA CGAAAGTATT TGCAGAATCA TCCTCAGATA 
    TTCCAGCTGA GTCCTGATGG AAATAAGGTC GGCCTGAAGG AAACACACAA GCTCCTCTTC 
    AAGCTGGATT CTCATGGACA AAATCTCCAG AGCCCTTCCC AGAAGAATGA TGTCCAGTGG 
    AACTGTGAGA AAAACCCCCC AAGGCCAAGG GCTGCTTCTG CTGGGTGCCA CTGGTTTGAT 
    CTGAATGATT CCAAAGTACA GCCCATCAAG GAGAAGGATA TTGAGAAGCA GTTCCAGGGT 
    AAAGAGAGTG CCTACATGCT GTTCTACAGA AAAGCTCAGC TGAAGAGGCC CCCTGAAGCA 
    CGTGGAAATC CAAGGTACCA AATTCCTGAG CACCTGCTGA ATGAAATGAA TGCTGCTAAT 
    ACAGAGCTGC GAAAAAAGAG AGCTGAATGT GACTCGGCAA ACAATGGCAT TGATTTACAT 
    CTCCACCTGA GCTCCTGCTA TAAATTCCAC AATGGGGCTT TGCATCCTTC ACTTTCTTGC 
    AAAGAGAGTG TAGTGGATTT GACTATTGAC AGAAGGAAGA CACTGGGAGA CCTTCGGCAG 
    GCAGTGTTAC AGGTGTTGGA GTCTTGGGAA GGGGACGTGG TTCTCAGCAT GGCCAAGCCT 
    TTGCCAGCAG GATTACACCT GTACCAGGTG CTTGATGGAG ATGAGCTGAT CCTGGATGGC 
    ATTGGGCTGG CTGATGGAGC AGACATCTTT GTCTGGAATG GAAAAGAGGT TGGAGGCACC 
    AAGGTGCTCA CGGGCCCTGA GCACGAGCCC GTGGTGCTCA ACGTGCTTCG CTTGGCCGAG 
    CACAACGAGG GCGGCAAGGG GCAGCACTTC AGCGAGGCGC AGCACGTGTT CCCCTGCAGC 
    ACCAGCCTGG GGCAGCTGCA CTCTGCCCTG GCTCCGGCCG GGGGCATCAT CCTCAGGAAC 
    GGCTCAGGAG TAGACACTGA AGCCAAGAAC TGGCAAGTTT TCCATGAGGA GGACATGAAG 
    GAAACAGTCC GAAGTGTTGG GCTCAGGGAC GGGTGCTCTG TGCTGATCTT AGACAGCCAT 
    GACCAGAGCT TTGTCAACTT AGCAAGTGGA AATTTGACTG CTTTCACCTA TGACATCAGC 
    TGGCTCCAAG TGAAAAACTT CTGTGGGGTG GAAGAGGAGG CGAAACATGT TAAAATCACT 
    GCCACTATTG AAACAGTGAT GTCAGATATC AAAATGAAAG CAATCCGGGA GTTCCAGCTG 
    CAGGAGGAGC TGGGAAACGA GAACTGTCTT AGACCTGTTA GTGGTAATGG GAAACTTCTG 
    TCTCCAGTGT CTGAGGATTA CACAGTCAAG GAAGCAGAAC TTAAGATGGG AAGCTTGCTT 
    GGCCTGTGCC GTGGGAAAGC TCCAACTTCC ACTCAGCTCT TCCTGTACTT CATGGTTGGG 
    AGTGACCAAA GCTGCAGCCC TGAGATGGAG ATAGTTGTGG AGGAGACTGC CTCTGTCGGA 
    GAGTGTCTCA ATTTAATGCT GGAGAAATCA GGATTATCAG GTGACAACTG GCATTTGAGA 
    AGGCTTGACT GGTGCTACGA GGCAGGGGAA GCATTAAGTC AGGAAAATGC CACCCTGAAG 
    GAACTCAATG TTTGCAGAGG AGACACTTTG ATTATAACTG AAGGAAAGCT TCCAGAAAAG 
    GGTTTCCTGA AAATCCCCAT CTGGTGGCTG AAGCCTTCAA GCCATAAGAA ACATGGAGAG 
    AATGCACAAG ACCAGGTGAA TGGGATGACC TGGAAGATGG AGGCTTTGCA GGTGTCTGCT 
    GCAGCAGCTC CAGCAGAACC TACCCACCCA GGCCTGGATC TCTGTTATGC TGGCAGGATA 
    GAGATAGCAG GAGAGGCCTC GCTGGAAGAT CTGAAGATGC AGTCTGTTGT GCCATGGTGT 
    TTATGCCATG GTTACTGGAA GTACTGA

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    USP40 ( XM_002190374.3 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_002190410.2 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd49256
    Clone ID Related Accession (Same CDS sequence) XM_002190374.3 , XM_030276963.1 , XM_030276962.1
    Accession Version XM_002190374.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3735bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag 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 40
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) 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_002190374.2. ##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
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTTTGGGG ACTTATTTGA AGAGGATTTT TCCTTTATTT CCAACAATCA TTATGGGAAA 
    GGGAAGAAAT CAAAGCCCAG AGAGTCTGAG CCTCCAGCTC CCAGGGATTT CACCAACCTC 
    AGTGGAATCA AAAATCAGGG TGGGACCTGC TACCTCAATT CCCTTCTGCA GACTCTGCTT 
    TTCACGCCTG AATTTAGAGA GGCTTTGTTC TCCCTGGGAC CTGAAGAACT TGGTACTCTG 
    GATGACAGCA GGAAGCCAGA TGCAAAGGTT CGGATCATCC CACTGCAGCT GCAGCGCTTG 
    TTTGCTCAGC TCCTGCTCCT GGACCAGCAG GCTGCATCCA CCACAGACCT CACCGAGAGC 
    TTCGGCTGGA GCGGCCACGA GGAGATGAGG CAGCACGATG TGCAGGAATT GAACAGGATC 
    CTCTTCAGTG CTCTGGAGAC TTCCCTGGTG GGGACATCAG GCCATGACCT CATCAACCGC 
    CTGTACCATG GCATTGTTGT CAACCAGATC GTCTGTAAGG AGTGCAAGAA CGTCAGTGAG 
    AGACAGGAAG ATTTCTTAGA CCTCACAGTG GCAGTGAAAG GTGTGGCTGG CTTGGAGGAG 
    GCCCTGTGGA ACATGTACGT GGAGGAAGAA TACTTTGAGA ATGACAACTT GTATCGATGT 
    GGAGCCTGCG ATAAACTGGT TGAAGCTTCA AAGTCTGCTA AACTACGCAA GCTGCCTCCC 
    TTCCTCACCA TTTCCCTCCT GAGGTTCAAC TTTGACTTTG AGAAGTGTGA GAGGTACAAG 
    GAAACGAGCT GCTACACATT CCCCATCCAG ATCAACCTGA GGCCTTTCTG TGAGCAGACT 
    GAAATGGATG ATTCAGAGTA CATGTATGAG CTCTTCTCTG TTATTATACA CAAAGGTGGC 
    TGCTATGGAG GACACTATCA TGTTTATATC AGAGATGTGG ATGAATTAGG AAACTGGCAA 
    CTCCAAGAAG AAGAGGATGG ACTGATTGAA GAGAAGGCTT TAAGAGACAC TGAGAATGCC 
    AAAGAAACAG AAAATCCACT GGCAGTCTTA AAAGGGATTT TGTCAGAGGA AGAAGCTAAA 
    CAAATTCCCG TGGATCAATT AGGGCAGAAA TTACTGGAGA AGAAAGGGGT GTCCTGGAAT 
    AAGAAATACA GAAAACAATA TGGAGCATTA CGAAAGTATT TGCAGAATCA TCCTCAGATA 
    TTCCAGCTGA GTCCTGATGG AAATAAGGTC GGCCTGAAGG AAACACACAA GCTCCTCTTC 
    AAGCTGGATT CTCATGGACA AAATCTCCAG AGCCCTTCCC AGAAGAATGA TGTCCAGTGG 
    AACTGTGAGA AAAACCCCCC AAGGCCAAGG GCTGCTTCTG CTGGGTGCCA CTGGTTTGAT 
    CTGAATGATT CCAAAGTACA GCCCATCAAG GAGAAGGATA TTGAGAAGCA GTTCCAGGGT 
    AAAGAGAGTG CCTACATGCT GTTCTACAGA AAAGCTCAGC TGAAGAGGCC CCCTGAAGCA 
    CGTGGAAATC CAAGGTACCA AATTCCTGAG CACCTGCTGA ATGAAATGAA TGCTGCTAAT 
    ACAGAGCTGC GAAAAAAGAG AGCTGAATGT GACTCGGCAA ACAATGGCAT TGATTTACAT 
    CTCCACCTGA GCTCCTGCTA TAAATTCCAC AATGGGGCTT TGCATCCTTC ACTTTCTTGC 
    AAAGAGAGTG TAGTGGATTT GACTATTGAC AGAAGGAAGA CACTGGGAGA CCTTCGGCAG 
    GCAGTGTTAC AGGTGTTGGA GTCTTGGGAA GGGGACATGG TTCTCAGCAT GGCCAAGCCT 
    TTGCCAGCAG GATTACACCT GTACCAGGTG CTTGATGGAG ATGAGCTGAT CCTGGATGGC 
    ATTGGGCTGG CTGATGGAGC AGACATCTTT GTCTGGAATG GAAAAGAGGT TGGAGGCACC 
    AAGGTGCTCA CGGGCCCTGA GCACGAGCCC GTGGTGCTCA ACGTGCTTCG CTTGGCCGAG 
    CACAACGAGG GCGGCAAGGG GCAGCACTTC AGCGAGGCGC AGCACGTGTT CCCCTGCAGC 
    ACCAGCCTGG GGCAGCTGCA CTCTGCCCTG GCTCCGGCCG GGGGCATCAT CCTCAGGAAC 
    GGCTCAGGAG TAGACACTGA AGCCAAGAAC TGGCAAGTTT TCCATGAGGA GGACATGAAG 
    GAAACAGTCC GAAGTGTTGG GCTCAGGGAC GGGTGCTCTG TGCTGATCTT AGACAGCCAT 
    GACCAGAGCT TTGTCAACTT AGCAAGTGGA AATTTGACTG CTTTCACCTA TGACATCAGC 
    TGGCTCCAAG TGAAAAACTT CTGTGGGGTG GAAGAGGAGG CGAAACATGT TAAAATCACT 
    GCCACTATTG AAACAGTGAT GTCAGATATC AAAATGAAAG CAATCCGGGA GTTCCAGCTG 
    CAGGAGGAGC TGGGAAACGA GAGCTGTCTT AGACCTGTTA GTGGTAATGG GAAACTTCTG 
    TCTCCAGTGT CTGAGGATTA CACAGTCAAG GAAGCAGAAC TTAAGATGGG AAGCTTGCTT 
    GGCCTGTGCC GTGGGAAAGC TCCAACTTCC ACTCAGCTCT TCCTGTACTT CATGGTTGGG 
    AGTGACCAAA GCTGCAGCCC TGAGATGGAG ATAGTTGTGG AGGAGACTGC CTCTGTCGGA 
    GAGTGTCTCA ATTTAATGCT GGAGAAATCA GGATTATCAG GTGACAACTG GCATTTGAGA 
    AGGCTTGACT GGTGCTACGA GGCAGGGGAA GCATTAAGTC AGGAAAATGC CACCCTGAAG 
    GAACTCAATG TTTGCAGAGG AGACACTTTG ATTATAACTG AAGGAAAGCT TCCAGAAAAG 
    GGTTTCCTGA AAATCCCCAT CTGGTGGCTG AAGCCTTCAA GCCATAAGAA ACATGGAGAG 
    AATGCACAAG ACCAGGTGAA TGGGATGACC TGGAAGATGG AGGCTTTGCA GGTGTCTGCT 
    GCAGCAGCTC CAGCAGAACC TACCCACCCA GGCCTGGATC TCTGTTATGC TGGCAGGATA 
    GAGATAGCAG GAGAGGCCTC GCTGGAAGAT CTGAAGATGC AGGTTCTGAC CTTACCCTGC 
    TGCCAGGAGC AGGTTGTGCC CCTGCCCTCA TTCCTCAGAG CTTGGACAGT GGACAGCAGA 
    CGCCCCGGGA AGCTCCTACG GGACAACAAA AGGACACTCA GTGACTACAG GCTGGGTGCC 
    AGAGTGGAAA TCTGCATAGA ACCCTTGCAA GAAGAAGAGA ATTTGGGCCC CCACGAGCTG 
    CTGCTGCGAG TCCAGATGGG AATACCAGGA GAGAGGGACT ACACCAGCTC CCGGGATTTG 
    GTGTGGGATA TCTCCAAGGA ATGCACAGCC TGGGCTCTGA GGCAGAGAGT GGCTTCTCAC 
    TATTGTCTCC CTGTAGATAA AATTGAAATA GCCAAATACT TCCCTGAGAG ATTTGAGTGG 
    CTGCCATTAT CTAGCTGGAC ACAGCAAATC TCAAAGAGGA AAAGGAGGAA AAAGCAGGCA 
    AGTTTGCAGT CAGCACCTTA CCACCTGAAG GATGGAGACA TCATTGGGGT GAAGAACCTT 
    CTCCTTGATG ACACCAAGGA CTTCAGCACT GTCAGGGATG ACATTGGGAA AGAGAAGCAA 
    AGGCAGCTGG CTCTGGAAAA GAGGAAAAGC CGCCAGGAAC GTGTCCAGGA TCCCCTTTTC 
    CCCGACGAGA AGCTCCCCCC AAAGCCCCGC AAACCAGAAG TGGCTCTTTC CATCAATGTG 
    GGGGTTTTCA GATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_002190410.2
    CDS1336..5070
    Translation

    Target ORF information:

    RefSeq Version XM_002190374.3
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_002190374.3

    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
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTTTGGGG ACTTATTTGA AGAGGATTTT TCCTTTATTT CCAACAATCA TTATGGGAAA 
    GGGAAGAAAT CAAAGCCCAG AGAGTCTGAG CCTCCAGCTC CCAGGGATTT CACCAACCTC 
    AGTGGAATCA AAAATCAGGG TGGGACCTGC TACCTCAATT CCCTTCTGCA GACTCTGCTT 
    TTCACGCCTG AATTTAGAGA GGCTTTGTTC TCCCTGGGAC CTGAAGAACT TGGTACTCTG 
    GATGACAGCA GGAAGCCAGA TGCAAAGGTT CGGATCATCC CACTGCAGCT GCAGCGCTTG 
    TTTGCTCAGC TCCTGCTCCT GGACCAGCAG GCTGCATCCA CCACAGACCT CACCGAGAGC 
    TTCGGCTGGA GCGGCCACGA GGAGATGAGG CAGCACGATG TGCAGGAATT GAACAGGATC 
    CTCTTCAGTG CTCTGGAGAC TTCCCTGGTG GGGACATCAG GCCATGACCT CATCAACCGC 
    CTGTACCATG GCATTGTTGT CAACCAGATC GTCTGTAAGG AGTGCAAGAA CGTCAGTGAG 
    AGACAGGAAG ATTTCTTAGA CCTCACAGTG GCAGTGAAAG GTGTGGCTGG CTTGGAGGAG 
    GCCCTGTGGA ACATGTACGT GGAGGAAGAA TACTTTGAGA ATGACAACTT GTATCGATGT 
    GGAGCCTGCG ATAAACTGGT TGAAGCTTCA AAGTCTGCTA AACTACGCAA GCTGCCTCCC 
    TTCCTCACCA TTTCCCTCCT GAGGTTCAAC TTTGACTTTG AGAAGTGTGA GAGGTACAAG 
    GAAACGAGCT GCTACACATT CCCCATCCAG ATCAACCTGA GGCCTTTCTG TGAGCAGACT 
    GAAATGGATG ATTCAGAGTA CATGTATGAG CTCTTCTCTG TTATTATACA CAAAGGTGGC 
    TGCTATGGAG GACACTATCA TGTTTATATC AGAGATGTGG ATGAATTAGG AAACTGGCAA 
    CTCCAAGAAG AAGAGGATGG ACTGATTGAA GAGAAGGCTT TAAGAGACAC TGAGAATGCC 
    AAAGAAACAG AAAATCCACT GGCAGTCTTA AAAGGGATTT TGTCAGAGGA AGAAGCTAAA 
    CAAATTCCCG TGGATCAATT AGGGCAGAAA TTACTGGAGA AGAAAGGGGT GTCCTGGAAT 
    AAGAAATACA GAAAACAATA TGGAGCATTA CGAAAGTATT TGCAGAATCA TCCTCAGATA 
    TTCCAGCTGA GTCCTGATGG AAATAAGGTC GGCCTGAAGG AAACACACAA GCTCCTCTTC 
    AAGCTGGATT CTCATGGACA AAATCTCCAG AGCCCTTCCC AGAAGAATGA TGTCCAGTGG 
    AACTGTGAGA AAAACCCCCC AAGGCCAAGG GCTGCTTCTG CTGGGTGCCA CTGGTTTGAT 
    CTGAATGATT CCAAAGTACA GCCCATCAAG GAGAAGGATA TTGAGAAGCA GTTCCAGGGT 
    AAAGAGAGTG CCTACATGCT GTTCTACAGA AAAGCTCAGC TGAAGAGGCC CCCTGAAGCA 
    CGTGGAAATC CAAGGTACCA AATTCCTGAG CACCTGCTGA ATGAAATGAA TGCTGCTAAT 
    ACAGAGCTGC GAAAAAAGAG AGCTGAATGT GACTCGGCAA ACAATGGCAT TGATTTACAT 
    CTCCACCTGA GCTCCTGCTA TAAATTCCAC AATGGGGCTT TGCATCCTTC ACTTTCTTGC 
    AAAGAGAGTG TAGTGGATTT GACTATTGAC AGAAGGAAGA CACTGGGAGA CCTTCGGCAG 
    GCAGTGTTAC AGGTGTTGGA GTCTTGGGAA GGGGACATGG TTCTCAGCAT GGCCAAGCCT 
    TTGCCAGCAG GATTACACCT GTACCAGGTG CTTGATGGAG ATGAGCTGAT CCTGGATGGC 
    ATTGGGCTGG CTGATGGAGC AGACATCTTT GTCTGGAATG GAAAAGAGGT TGGAGGCACC 
    AAGGTGCTCA CGGGCCCTGA GCACGAGCCC GTGGTGCTCA ACGTGCTTCG CTTGGCCGAG 
    CACAACGAGG GCGGCAAGGG GCAGCACTTC AGCGAGGCGC AGCACGTGTT CCCCTGCAGC 
    ACCAGCCTGG GGCAGCTGCA CTCTGCCCTG GCTCCGGCCG GGGGCATCAT CCTCAGGAAC 
    GGCTCAGGAG TAGACACTGA AGCCAAGAAC TGGCAAGTTT TCCATGAGGA GGACATGAAG 
    GAAACAGTCC GAAGTGTTGG GCTCAGGGAC GGGTGCTCTG TGCTGATCTT AGACAGCCAT 
    GACCAGAGCT TTGTCAACTT AGCAAGTGGA AATTTGACTG CTTTCACCTA TGACATCAGC 
    TGGCTCCAAG TGAAAAACTT CTGTGGGGTG GAAGAGGAGG CGAAACATGT TAAAATCACT 
    GCCACTATTG AAACAGTGAT GTCAGATATC AAAATGAAAG CAATCCGGGA GTTCCAGCTG 
    CAGGAGGAGC TGGGAAACGA GAGCTGTCTT AGACCTGTTA GTGGTAATGG GAAACTTCTG 
    TCTCCAGTGT CTGAGGATTA CACAGTCAAG GAAGCAGAAC TTAAGATGGG AAGCTTGCTT 
    GGCCTGTGCC GTGGGAAAGC TCCAACTTCC ACTCAGCTCT TCCTGTACTT CATGGTTGGG 
    AGTGACCAAA GCTGCAGCCC TGAGATGGAG ATAGTTGTGG AGGAGACTGC CTCTGTCGGA 
    GAGTGTCTCA ATTTAATGCT GGAGAAATCA GGATTATCAG GTGACAACTG GCATTTGAGA 
    AGGCTTGACT GGTGCTACGA GGCAGGGGAA GCATTAAGTC AGGAAAATGC CACCCTGAAG 
    GAACTCAATG TTTGCAGAGG AGACACTTTG ATTATAACTG AAGGAAAGCT TCCAGAAAAG 
    GGTTTCCTGA AAATCCCCAT CTGGTGGCTG AAGCCTTCAA GCCATAAGAA ACATGGAGAG 
    AATGCACAAG ACCAGGTGAA TGGGATGACC TGGAAGATGG AGGCTTTGCA GGTGTCTGCT 
    GCAGCAGCTC CAGCAGAACC TACCCACCCA GGCCTGGATC TCTGTTATGC TGGCAGGATA 
    GAGATAGCAG GAGAGGCCTC GCTGGAAGAT CTGAAGATGC AGGTTCTGAC CTTACCCTGC 
    TGCCAGGAGC AGGTTGTGCC CCTGCCCTCA TTCCTCAGAG CTTGGACAGT GGACAGCAGA 
    CGCCCCGGGA AGCTCCTACG GGACAACAAA AGGACACTCA GTGACTACAG GCTGGGTGCC 
    AGAGTGGAAA TCTGCATAGA ACCCTTGCAA GAAGAAGAGA ATTTGGGCCC CCACGAGCTG 
    CTGCTGCGAG TCCAGATGGG AATACCAGGA GAGAGGGACT ACACCAGCTC CCGGGATTTG 
    GTGTGGGATA TCTCCAAGGA ATGCACAGCC TGGGCTCTGA GGCAGAGAGT GGCTTCTCAC 
    TATTGTCTCC CTGTAGATAA AATTGAAATA GCCAAATACT TCCCTGAGAG ATTTGAGTGG 
    CTGCCATTAT CTAGCTGGAC ACAGCAAATC TCAAAGAGGA AAAGGAGGAA AAAGCAGGCA 
    AGTTTGCAGT CAGCACCTTA CCACCTGAAG GATGGAGACA TCATTGGGGT GAAGAACCTT 
    CTCCTTGATG ACACCAAGGA CTTCAGCACT GTCAGGGATG ACATTGGGAA AGAGAAGCAA 
    AGGCAGCTGG CTCTGGAAAA GAGGAAAAGC CGCCAGGAAC GTGTCCAGGA TCCCCTTTTC 
    CCCGACGAGA AGCTCCCCCC AAAGCCCCGC AAACCAGAAG TGGCTCTTTC CATCAATGTG 
    GGGGTTTTCA GATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    USP40 ( XM_030276963.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132823.1 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OTd49256
    Clone ID Related Accession (Same CDS sequence) XM_002190374.3 , XM_030276963.1 , XM_030276962.1
    Accession Version XM_030276963.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3735bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag 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 40
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) 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
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTTTGGGG ACTTATTTGA AGAGGATTTT TCCTTTATTT CCAACAATCA TTATGGGAAA 
    GGGAAGAAAT CAAAGCCCAG AGAGTCTGAG CCTCCAGCTC CCAGGGATTT CACCAACCTC 
    AGTGGAATCA AAAATCAGGG TGGGACCTGC TACCTCAATT CCCTTCTGCA GACTCTGCTT 
    TTCACGCCTG AATTTAGAGA GGCTTTGTTC TCCCTGGGAC CTGAAGAACT TGGTACTCTG 
    GATGACAGCA GGAAGCCAGA TGCAAAGGTT CGGATCATCC CACTGCAGCT GCAGCGCTTG 
    TTTGCTCAGC TCCTGCTCCT GGACCAGCAG GCTGCATCCA CCACAGACCT CACCGAGAGC 
    TTCGGCTGGA GCGGCCACGA GGAGATGAGG CAGCACGATG TGCAGGAATT GAACAGGATC 
    CTCTTCAGTG CTCTGGAGAC TTCCCTGGTG GGGACATCAG GCCATGACCT CATCAACCGC 
    CTGTACCATG GCATTGTTGT CAACCAGATC GTCTGTAAGG AGTGCAAGAA CGTCAGTGAG 
    AGACAGGAAG ATTTCTTAGA CCTCACAGTG GCAGTGAAAG GTGTGGCTGG CTTGGAGGAG 
    GCCCTGTGGA ACATGTACGT GGAGGAAGAA TACTTTGAGA ATGACAACTT GTATCGATGT 
    GGAGCCTGCG ATAAACTGGT TGAAGCTTCA AAGTCTGCTA AACTACGCAA GCTGCCTCCC 
    TTCCTCACCA TTTCCCTCCT GAGGTTCAAC TTTGACTTTG AGAAGTGTGA GAGGTACAAG 
    GAAACGAGCT GCTACACATT CCCCATCCAG ATCAACCTGA GGCCTTTCTG TGAGCAGACT 
    GAAATGGATG ATTCAGAGTA CATGTATGAG CTCTTCTCTG TTATTATACA CAAAGGTGGC 
    TGCTATGGAG GACACTATCA TGTTTATATC AGAGATGTGG ATGAATTAGG AAACTGGCAA 
    CTCCAAGAAG AAGAGGATGG ACTGATTGAA GAGAAGGCTT TAAGAGACAC TGAGAATGCC 
    AAAGAAACAG AAAATCCACT GGCAGTCTTA AAAGGGATTT TGTCAGAGGA AGAAGCTAAA 
    CAAATTCCCG TGGATCAATT AGGGCAGAAA TTACTGGAGA AGAAAGGGGT GTCCTGGAAT 
    AAGAAATACA GAAAACAATA TGGAGCATTA CGAAAGTATT TGCAGAATCA TCCTCAGATA 
    TTCCAGCTGA GTCCTGATGG AAATAAGGTC GGCCTGAAGG AAACACACAA GCTCCTCTTC 
    AAGCTGGATT CTCATGGACA AAATCTCCAG AGCCCTTCCC AGAAGAATGA TGTCCAGTGG 
    AACTGTGAGA AAAACCCCCC AAGGCCAAGG GCTGCTTCTG CTGGGTGCCA CTGGTTTGAT 
    CTGAATGATT CCAAAGTACA GCCCATCAAG GAGAAGGATA TTGAGAAGCA GTTCCAGGGT 
    AAAGAGAGTG CCTACATGCT GTTCTACAGA AAAGCTCAGC TGAAGAGGCC CCCTGAAGCA 
    CGTGGAAATC CAAGGTACCA AATTCCTGAG CACCTGCTGA ATGAAATGAA TGCTGCTAAT 
    ACAGAGCTGC GAAAAAAGAG AGCTGAATGT GACTCGGCAA ACAATGGCAT TGATTTACAT 
    CTCCACCTGA GCTCCTGCTA TAAATTCCAC AATGGGGCTT TGCATCCTTC ACTTTCTTGC 
    AAAGAGAGTG TAGTGGATTT GACTATTGAC AGAAGGAAGA CACTGGGAGA CCTTCGGCAG 
    GCAGTGTTAC AGGTGTTGGA GTCTTGGGAA GGGGACATGG TTCTCAGCAT GGCCAAGCCT 
    TTGCCAGCAG GATTACACCT GTACCAGGTG CTTGATGGAG ATGAGCTGAT CCTGGATGGC 
    ATTGGGCTGG CTGATGGAGC AGACATCTTT GTCTGGAATG GAAAAGAGGT TGGAGGCACC 
    AAGGTGCTCA CGGGCCCTGA GCACGAGCCC GTGGTGCTCA ACGTGCTTCG CTTGGCCGAG 
    CACAACGAGG GCGGCAAGGG GCAGCACTTC AGCGAGGCGC AGCACGTGTT CCCCTGCAGC 
    ACCAGCCTGG GGCAGCTGCA CTCTGCCCTG GCTCCGGCCG GGGGCATCAT CCTCAGGAAC 
    GGCTCAGGAG TAGACACTGA AGCCAAGAAC TGGCAAGTTT TCCATGAGGA GGACATGAAG 
    GAAACAGTCC GAAGTGTTGG GCTCAGGGAC GGGTGCTCTG TGCTGATCTT AGACAGCCAT 
    GACCAGAGCT TTGTCAACTT AGCAAGTGGA AATTTGACTG CTTTCACCTA TGACATCAGC 
    TGGCTCCAAG TGAAAAACTT CTGTGGGGTG GAAGAGGAGG CGAAACATGT TAAAATCACT 
    GCCACTATTG AAACAGTGAT GTCAGATATC AAAATGAAAG CAATCCGGGA GTTCCAGCTG 
    CAGGAGGAGC TGGGAAACGA GAGCTGTCTT AGACCTGTTA GTGGTAATGG GAAACTTCTG 
    TCTCCAGTGT CTGAGGATTA CACAGTCAAG GAAGCAGAAC TTAAGATGGG AAGCTTGCTT 
    GGCCTGTGCC GTGGGAAAGC TCCAACTTCC ACTCAGCTCT TCCTGTACTT CATGGTTGGG 
    AGTGACCAAA GCTGCAGCCC TGAGATGGAG ATAGTTGTGG AGGAGACTGC CTCTGTCGGA 
    GAGTGTCTCA ATTTAATGCT GGAGAAATCA GGATTATCAG GTGACAACTG GCATTTGAGA 
    AGGCTTGACT GGTGCTACGA GGCAGGGGAA GCATTAAGTC AGGAAAATGC CACCCTGAAG 
    GAACTCAATG TTTGCAGAGG AGACACTTTG ATTATAACTG AAGGAAAGCT TCCAGAAAAG 
    GGTTTCCTGA AAATCCCCAT CTGGTGGCTG AAGCCTTCAA GCCATAAGAA ACATGGAGAG 
    AATGCACAAG ACCAGGTGAA TGGGATGACC TGGAAGATGG AGGCTTTGCA GGTGTCTGCT 
    GCAGCAGCTC CAGCAGAACC TACCCACCCA GGCCTGGATC TCTGTTATGC TGGCAGGATA 
    GAGATAGCAG GAGAGGCCTC GCTGGAAGAT CTGAAGATGC AGGTTCTGAC CTTACCCTGC 
    TGCCAGGAGC AGGTTGTGCC CCTGCCCTCA TTCCTCAGAG CTTGGACAGT GGACAGCAGA 
    CGCCCCGGGA AGCTCCTACG GGACAACAAA AGGACACTCA GTGACTACAG GCTGGGTGCC 
    AGAGTGGAAA TCTGCATAGA ACCCTTGCAA GAAGAAGAGA ATTTGGGCCC CCACGAGCTG 
    CTGCTGCGAG TCCAGATGGG AATACCAGGA GAGAGGGACT ACACCAGCTC CCGGGATTTG 
    GTGTGGGATA TCTCCAAGGA ATGCACAGCC TGGGCTCTGA GGCAGAGAGT GGCTTCTCAC 
    TATTGTCTCC CTGTAGATAA AATTGAAATA GCCAAATACT TCCCTGAGAG ATTTGAGTGG 
    CTGCCATTAT CTAGCTGGAC ACAGCAAATC TCAAAGAGGA AAAGGAGGAA AAAGCAGGCA 
    AGTTTGCAGT CAGCACCTTA CCACCTGAAG GATGGAGACA TCATTGGGGT GAAGAACCTT 
    CTCCTTGATG ACACCAAGGA CTTCAGCACT GTCAGGGATG ACATTGGGAA AGAGAAGCAA 
    AGGCAGCTGG CTCTGGAAAA GAGGAAAAGC CGCCAGGAAC GTGTCCAGGA TCCCCTTTTC 
    CCCGACGAGA AGCTCCCCCC AAAGCCCCGC AAACCAGAAG TGGCTCTTTC CATCAATGTG 
    GGGGTTTTCA GATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030132823.1
    CDS94..3828
    Translation

    Target ORF information:

    RefSeq Version XM_030276963.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030276963.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTTTGGGG ACTTATTTGA AGAGGATTTT TCCTTTATTT CCAACAATCA TTATGGGAAA 
    GGGAAGAAAT CAAAGCCCAG AGAGTCTGAG CCTCCAGCTC CCAGGGATTT CACCAACCTC 
    AGTGGAATCA AAAATCAGGG TGGGACCTGC TACCTCAATT CCCTTCTGCA GACTCTGCTT 
    TTCACGCCTG AATTTAGAGA GGCTTTGTTC TCCCTGGGAC CTGAAGAACT TGGTACTCTG 
    GATGACAGCA GGAAGCCAGA TGCAAAGGTT CGGATCATCC CACTGCAGCT GCAGCGCTTG 
    TTTGCTCAGC TCCTGCTCCT GGACCAGCAG GCTGCATCCA CCACAGACCT CACCGAGAGC 
    TTCGGCTGGA GCGGCCACGA GGAGATGAGG CAGCACGATG TGCAGGAATT GAACAGGATC 
    CTCTTCAGTG CTCTGGAGAC TTCCCTGGTG GGGACATCAG GCCATGACCT CATCAACCGC 
    CTGTACCATG GCATTGTTGT CAACCAGATC GTCTGTAAGG AGTGCAAGAA CGTCAGTGAG 
    AGACAGGAAG ATTTCTTAGA CCTCACAGTG GCAGTGAAAG GTGTGGCTGG CTTGGAGGAG 
    GCCCTGTGGA ACATGTACGT GGAGGAAGAA TACTTTGAGA ATGACAACTT GTATCGATGT 
    GGAGCCTGCG ATAAACTGGT TGAAGCTTCA AAGTCTGCTA AACTACGCAA GCTGCCTCCC 
    TTCCTCACCA TTTCCCTCCT GAGGTTCAAC TTTGACTTTG AGAAGTGTGA GAGGTACAAG 
    GAAACGAGCT GCTACACATT CCCCATCCAG ATCAACCTGA GGCCTTTCTG TGAGCAGACT 
    GAAATGGATG ATTCAGAGTA CATGTATGAG CTCTTCTCTG TTATTATACA CAAAGGTGGC 
    TGCTATGGAG GACACTATCA TGTTTATATC AGAGATGTGG ATGAATTAGG AAACTGGCAA 
    CTCCAAGAAG AAGAGGATGG ACTGATTGAA GAGAAGGCTT TAAGAGACAC TGAGAATGCC 
    AAAGAAACAG AAAATCCACT GGCAGTCTTA AAAGGGATTT TGTCAGAGGA AGAAGCTAAA 
    CAAATTCCCG TGGATCAATT AGGGCAGAAA TTACTGGAGA AGAAAGGGGT GTCCTGGAAT 
    AAGAAATACA GAAAACAATA TGGAGCATTA CGAAAGTATT TGCAGAATCA TCCTCAGATA 
    TTCCAGCTGA GTCCTGATGG AAATAAGGTC GGCCTGAAGG AAACACACAA GCTCCTCTTC 
    AAGCTGGATT CTCATGGACA AAATCTCCAG AGCCCTTCCC AGAAGAATGA TGTCCAGTGG 
    AACTGTGAGA AAAACCCCCC AAGGCCAAGG GCTGCTTCTG CTGGGTGCCA CTGGTTTGAT 
    CTGAATGATT CCAAAGTACA GCCCATCAAG GAGAAGGATA TTGAGAAGCA GTTCCAGGGT 
    AAAGAGAGTG CCTACATGCT GTTCTACAGA AAAGCTCAGC TGAAGAGGCC CCCTGAAGCA 
    CGTGGAAATC CAAGGTACCA AATTCCTGAG CACCTGCTGA ATGAAATGAA TGCTGCTAAT 
    ACAGAGCTGC GAAAAAAGAG AGCTGAATGT GACTCGGCAA ACAATGGCAT TGATTTACAT 
    CTCCACCTGA GCTCCTGCTA TAAATTCCAC AATGGGGCTT TGCATCCTTC ACTTTCTTGC 
    AAAGAGAGTG TAGTGGATTT GACTATTGAC AGAAGGAAGA CACTGGGAGA CCTTCGGCAG 
    GCAGTGTTAC AGGTGTTGGA GTCTTGGGAA GGGGACATGG TTCTCAGCAT GGCCAAGCCT 
    TTGCCAGCAG GATTACACCT GTACCAGGTG CTTGATGGAG ATGAGCTGAT CCTGGATGGC 
    ATTGGGCTGG CTGATGGAGC AGACATCTTT GTCTGGAATG GAAAAGAGGT TGGAGGCACC 
    AAGGTGCTCA CGGGCCCTGA GCACGAGCCC GTGGTGCTCA ACGTGCTTCG CTTGGCCGAG 
    CACAACGAGG GCGGCAAGGG GCAGCACTTC AGCGAGGCGC AGCACGTGTT CCCCTGCAGC 
    ACCAGCCTGG GGCAGCTGCA CTCTGCCCTG GCTCCGGCCG GGGGCATCAT CCTCAGGAAC 
    GGCTCAGGAG TAGACACTGA AGCCAAGAAC TGGCAAGTTT TCCATGAGGA GGACATGAAG 
    GAAACAGTCC GAAGTGTTGG GCTCAGGGAC GGGTGCTCTG TGCTGATCTT AGACAGCCAT 
    GACCAGAGCT TTGTCAACTT AGCAAGTGGA AATTTGACTG CTTTCACCTA TGACATCAGC 
    TGGCTCCAAG TGAAAAACTT CTGTGGGGTG GAAGAGGAGG CGAAACATGT TAAAATCACT 
    GCCACTATTG AAACAGTGAT GTCAGATATC AAAATGAAAG CAATCCGGGA GTTCCAGCTG 
    CAGGAGGAGC TGGGAAACGA GAGCTGTCTT AGACCTGTTA GTGGTAATGG GAAACTTCTG 
    TCTCCAGTGT CTGAGGATTA CACAGTCAAG GAAGCAGAAC TTAAGATGGG AAGCTTGCTT 
    GGCCTGTGCC GTGGGAAAGC TCCAACTTCC ACTCAGCTCT TCCTGTACTT CATGGTTGGG 
    AGTGACCAAA GCTGCAGCCC TGAGATGGAG ATAGTTGTGG AGGAGACTGC CTCTGTCGGA 
    GAGTGTCTCA ATTTAATGCT GGAGAAATCA GGATTATCAG GTGACAACTG GCATTTGAGA 
    AGGCTTGACT GGTGCTACGA GGCAGGGGAA GCATTAAGTC AGGAAAATGC CACCCTGAAG 
    GAACTCAATG TTTGCAGAGG AGACACTTTG ATTATAACTG AAGGAAAGCT TCCAGAAAAG 
    GGTTTCCTGA AAATCCCCAT CTGGTGGCTG AAGCCTTCAA GCCATAAGAA ACATGGAGAG 
    AATGCACAAG ACCAGGTGAA TGGGATGACC TGGAAGATGG AGGCTTTGCA GGTGTCTGCT 
    GCAGCAGCTC CAGCAGAACC TACCCACCCA GGCCTGGATC TCTGTTATGC TGGCAGGATA 
    GAGATAGCAG GAGAGGCCTC GCTGGAAGAT CTGAAGATGC AGGTTCTGAC CTTACCCTGC 
    TGCCAGGAGC AGGTTGTGCC CCTGCCCTCA TTCCTCAGAG CTTGGACAGT GGACAGCAGA 
    CGCCCCGGGA AGCTCCTACG GGACAACAAA AGGACACTCA GTGACTACAG GCTGGGTGCC 
    AGAGTGGAAA TCTGCATAGA ACCCTTGCAA GAAGAAGAGA ATTTGGGCCC CCACGAGCTG 
    CTGCTGCGAG TCCAGATGGG AATACCAGGA GAGAGGGACT ACACCAGCTC CCGGGATTTG 
    GTGTGGGATA TCTCCAAGGA ATGCACAGCC TGGGCTCTGA GGCAGAGAGT GGCTTCTCAC 
    TATTGTCTCC CTGTAGATAA AATTGAAATA GCCAAATACT TCCCTGAGAG ATTTGAGTGG 
    CTGCCATTAT CTAGCTGGAC ACAGCAAATC TCAAAGAGGA AAAGGAGGAA AAAGCAGGCA 
    AGTTTGCAGT CAGCACCTTA CCACCTGAAG GATGGAGACA TCATTGGGGT GAAGAACCTT 
    CTCCTTGATG ACACCAAGGA CTTCAGCACT GTCAGGGATG ACATTGGGAA AGAGAAGCAA 
    AGGCAGCTGG CTCTGGAAAA GAGGAAAAGC CGCCAGGAAC GTGTCCAGGA TCCCCTTTTC 
    CCCGACGAGA AGCTCCCCCC AAAGCCCCGC AAACCAGAAG TGGCTCTTTC CATCAATGTG 
    GGGGTTTTCA GATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    USP40 ( XM_030276962.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030132822.1 Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd49256
    Clone ID Related Accession (Same CDS sequence) XM_002190374.3 , XM_030276963.1 , XM_030276962.1
    Accession Version XM_030276962.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3735bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag 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 40
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044219.1) 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
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTTTGGGG ACTTATTTGA AGAGGATTTT TCCTTTATTT CCAACAATCA TTATGGGAAA 
    GGGAAGAAAT CAAAGCCCAG AGAGTCTGAG CCTCCAGCTC CCAGGGATTT CACCAACCTC 
    AGTGGAATCA AAAATCAGGG TGGGACCTGC TACCTCAATT CCCTTCTGCA GACTCTGCTT 
    TTCACGCCTG AATTTAGAGA GGCTTTGTTC TCCCTGGGAC CTGAAGAACT TGGTACTCTG 
    GATGACAGCA GGAAGCCAGA TGCAAAGGTT CGGATCATCC CACTGCAGCT GCAGCGCTTG 
    TTTGCTCAGC TCCTGCTCCT GGACCAGCAG GCTGCATCCA CCACAGACCT CACCGAGAGC 
    TTCGGCTGGA GCGGCCACGA GGAGATGAGG CAGCACGATG TGCAGGAATT GAACAGGATC 
    CTCTTCAGTG CTCTGGAGAC TTCCCTGGTG GGGACATCAG GCCATGACCT CATCAACCGC 
    CTGTACCATG GCATTGTTGT CAACCAGATC GTCTGTAAGG AGTGCAAGAA CGTCAGTGAG 
    AGACAGGAAG ATTTCTTAGA CCTCACAGTG GCAGTGAAAG GTGTGGCTGG CTTGGAGGAG 
    GCCCTGTGGA ACATGTACGT GGAGGAAGAA TACTTTGAGA ATGACAACTT GTATCGATGT 
    GGAGCCTGCG ATAAACTGGT TGAAGCTTCA AAGTCTGCTA AACTACGCAA GCTGCCTCCC 
    TTCCTCACCA TTTCCCTCCT GAGGTTCAAC TTTGACTTTG AGAAGTGTGA GAGGTACAAG 
    GAAACGAGCT GCTACACATT CCCCATCCAG ATCAACCTGA GGCCTTTCTG TGAGCAGACT 
    GAAATGGATG ATTCAGAGTA CATGTATGAG CTCTTCTCTG TTATTATACA CAAAGGTGGC 
    TGCTATGGAG GACACTATCA TGTTTATATC AGAGATGTGG ATGAATTAGG AAACTGGCAA 
    CTCCAAGAAG AAGAGGATGG ACTGATTGAA GAGAAGGCTT TAAGAGACAC TGAGAATGCC 
    AAAGAAACAG AAAATCCACT GGCAGTCTTA AAAGGGATTT TGTCAGAGGA AGAAGCTAAA 
    CAAATTCCCG TGGATCAATT AGGGCAGAAA TTACTGGAGA AGAAAGGGGT GTCCTGGAAT 
    AAGAAATACA GAAAACAATA TGGAGCATTA CGAAAGTATT TGCAGAATCA TCCTCAGATA 
    TTCCAGCTGA GTCCTGATGG AAATAAGGTC GGCCTGAAGG AAACACACAA GCTCCTCTTC 
    AAGCTGGATT CTCATGGACA AAATCTCCAG AGCCCTTCCC AGAAGAATGA TGTCCAGTGG 
    AACTGTGAGA AAAACCCCCC AAGGCCAAGG GCTGCTTCTG CTGGGTGCCA CTGGTTTGAT 
    CTGAATGATT CCAAAGTACA GCCCATCAAG GAGAAGGATA TTGAGAAGCA GTTCCAGGGT 
    AAAGAGAGTG CCTACATGCT GTTCTACAGA AAAGCTCAGC TGAAGAGGCC CCCTGAAGCA 
    CGTGGAAATC CAAGGTACCA AATTCCTGAG CACCTGCTGA ATGAAATGAA TGCTGCTAAT 
    ACAGAGCTGC GAAAAAAGAG AGCTGAATGT GACTCGGCAA ACAATGGCAT TGATTTACAT 
    CTCCACCTGA GCTCCTGCTA TAAATTCCAC AATGGGGCTT TGCATCCTTC ACTTTCTTGC 
    AAAGAGAGTG TAGTGGATTT GACTATTGAC AGAAGGAAGA CACTGGGAGA CCTTCGGCAG 
    GCAGTGTTAC AGGTGTTGGA GTCTTGGGAA GGGGACATGG TTCTCAGCAT GGCCAAGCCT 
    TTGCCAGCAG GATTACACCT GTACCAGGTG CTTGATGGAG ATGAGCTGAT CCTGGATGGC 
    ATTGGGCTGG CTGATGGAGC AGACATCTTT GTCTGGAATG GAAAAGAGGT TGGAGGCACC 
    AAGGTGCTCA CGGGCCCTGA GCACGAGCCC GTGGTGCTCA ACGTGCTTCG CTTGGCCGAG 
    CACAACGAGG GCGGCAAGGG GCAGCACTTC AGCGAGGCGC AGCACGTGTT CCCCTGCAGC 
    ACCAGCCTGG GGCAGCTGCA CTCTGCCCTG GCTCCGGCCG GGGGCATCAT CCTCAGGAAC 
    GGCTCAGGAG TAGACACTGA AGCCAAGAAC TGGCAAGTTT TCCATGAGGA GGACATGAAG 
    GAAACAGTCC GAAGTGTTGG GCTCAGGGAC GGGTGCTCTG TGCTGATCTT AGACAGCCAT 
    GACCAGAGCT TTGTCAACTT AGCAAGTGGA AATTTGACTG CTTTCACCTA TGACATCAGC 
    TGGCTCCAAG TGAAAAACTT CTGTGGGGTG GAAGAGGAGG CGAAACATGT TAAAATCACT 
    GCCACTATTG AAACAGTGAT GTCAGATATC AAAATGAAAG CAATCCGGGA GTTCCAGCTG 
    CAGGAGGAGC TGGGAAACGA GAGCTGTCTT AGACCTGTTA GTGGTAATGG GAAACTTCTG 
    TCTCCAGTGT CTGAGGATTA CACAGTCAAG GAAGCAGAAC TTAAGATGGG AAGCTTGCTT 
    GGCCTGTGCC GTGGGAAAGC TCCAACTTCC ACTCAGCTCT TCCTGTACTT CATGGTTGGG 
    AGTGACCAAA GCTGCAGCCC TGAGATGGAG ATAGTTGTGG AGGAGACTGC CTCTGTCGGA 
    GAGTGTCTCA ATTTAATGCT GGAGAAATCA GGATTATCAG GTGACAACTG GCATTTGAGA 
    AGGCTTGACT GGTGCTACGA GGCAGGGGAA GCATTAAGTC AGGAAAATGC CACCCTGAAG 
    GAACTCAATG TTTGCAGAGG AGACACTTTG ATTATAACTG AAGGAAAGCT TCCAGAAAAG 
    GGTTTCCTGA AAATCCCCAT CTGGTGGCTG AAGCCTTCAA GCCATAAGAA ACATGGAGAG 
    AATGCACAAG ACCAGGTGAA TGGGATGACC TGGAAGATGG AGGCTTTGCA GGTGTCTGCT 
    GCAGCAGCTC CAGCAGAACC TACCCACCCA GGCCTGGATC TCTGTTATGC TGGCAGGATA 
    GAGATAGCAG GAGAGGCCTC GCTGGAAGAT CTGAAGATGC AGGTTCTGAC CTTACCCTGC 
    TGCCAGGAGC AGGTTGTGCC CCTGCCCTCA TTCCTCAGAG CTTGGACAGT GGACAGCAGA 
    CGCCCCGGGA AGCTCCTACG GGACAACAAA AGGACACTCA GTGACTACAG GCTGGGTGCC 
    AGAGTGGAAA TCTGCATAGA ACCCTTGCAA GAAGAAGAGA ATTTGGGCCC CCACGAGCTG 
    CTGCTGCGAG TCCAGATGGG AATACCAGGA GAGAGGGACT ACACCAGCTC CCGGGATTTG 
    GTGTGGGATA TCTCCAAGGA ATGCACAGCC TGGGCTCTGA GGCAGAGAGT GGCTTCTCAC 
    TATTGTCTCC CTGTAGATAA AATTGAAATA GCCAAATACT TCCCTGAGAG ATTTGAGTGG 
    CTGCCATTAT CTAGCTGGAC ACAGCAAATC TCAAAGAGGA AAAGGAGGAA AAAGCAGGCA 
    AGTTTGCAGT CAGCACCTTA CCACCTGAAG GATGGAGACA TCATTGGGGT GAAGAACCTT 
    CTCCTTGATG ACACCAAGGA CTTCAGCACT GTCAGGGATG ACATTGGGAA AGAGAAGCAA 
    AGGCAGCTGG CTCTGGAAAA GAGGAAAAGC CGCCAGGAAC GTGTCCAGGA TCCCCTTTTC 
    CCCGACGAGA AGCTCCCCCC AAAGCCCCGC AAACCAGAAG TGGCTCTTTC CATCAATGTG 
    GGGGTTTTCA GATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

    RefSeq XP_030132822.1
    CDS284..4018
    Translation

    Target ORF information:

    RefSeq Version XM_030276962.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 40 (USP40), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030276962.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGTTTGGGG ACTTATTTGA AGAGGATTTT TCCTTTATTT CCAACAATCA TTATGGGAAA 
    GGGAAGAAAT CAAAGCCCAG AGAGTCTGAG CCTCCAGCTC CCAGGGATTT CACCAACCTC 
    AGTGGAATCA AAAATCAGGG TGGGACCTGC TACCTCAATT CCCTTCTGCA GACTCTGCTT 
    TTCACGCCTG AATTTAGAGA GGCTTTGTTC TCCCTGGGAC CTGAAGAACT TGGTACTCTG 
    GATGACAGCA GGAAGCCAGA TGCAAAGGTT CGGATCATCC CACTGCAGCT GCAGCGCTTG 
    TTTGCTCAGC TCCTGCTCCT GGACCAGCAG GCTGCATCCA CCACAGACCT CACCGAGAGC 
    TTCGGCTGGA GCGGCCACGA GGAGATGAGG CAGCACGATG TGCAGGAATT GAACAGGATC 
    CTCTTCAGTG CTCTGGAGAC TTCCCTGGTG GGGACATCAG GCCATGACCT CATCAACCGC 
    CTGTACCATG GCATTGTTGT CAACCAGATC GTCTGTAAGG AGTGCAAGAA CGTCAGTGAG 
    AGACAGGAAG ATTTCTTAGA CCTCACAGTG GCAGTGAAAG GTGTGGCTGG CTTGGAGGAG 
    GCCCTGTGGA ACATGTACGT GGAGGAAGAA TACTTTGAGA ATGACAACTT GTATCGATGT 
    GGAGCCTGCG ATAAACTGGT TGAAGCTTCA AAGTCTGCTA AACTACGCAA GCTGCCTCCC 
    TTCCTCACCA TTTCCCTCCT GAGGTTCAAC TTTGACTTTG AGAAGTGTGA GAGGTACAAG 
    GAAACGAGCT GCTACACATT CCCCATCCAG ATCAACCTGA GGCCTTTCTG TGAGCAGACT 
    GAAATGGATG ATTCAGAGTA CATGTATGAG CTCTTCTCTG TTATTATACA CAAAGGTGGC 
    TGCTATGGAG GACACTATCA TGTTTATATC AGAGATGTGG ATGAATTAGG AAACTGGCAA 
    CTCCAAGAAG AAGAGGATGG ACTGATTGAA GAGAAGGCTT TAAGAGACAC TGAGAATGCC 
    AAAGAAACAG AAAATCCACT GGCAGTCTTA AAAGGGATTT TGTCAGAGGA AGAAGCTAAA 
    CAAATTCCCG TGGATCAATT AGGGCAGAAA TTACTGGAGA AGAAAGGGGT GTCCTGGAAT 
    AAGAAATACA GAAAACAATA TGGAGCATTA CGAAAGTATT TGCAGAATCA TCCTCAGATA 
    TTCCAGCTGA GTCCTGATGG AAATAAGGTC GGCCTGAAGG AAACACACAA GCTCCTCTTC 
    AAGCTGGATT CTCATGGACA AAATCTCCAG AGCCCTTCCC AGAAGAATGA TGTCCAGTGG 
    AACTGTGAGA AAAACCCCCC AAGGCCAAGG GCTGCTTCTG CTGGGTGCCA CTGGTTTGAT 
    CTGAATGATT CCAAAGTACA GCCCATCAAG GAGAAGGATA TTGAGAAGCA GTTCCAGGGT 
    AAAGAGAGTG CCTACATGCT GTTCTACAGA AAAGCTCAGC TGAAGAGGCC CCCTGAAGCA 
    CGTGGAAATC CAAGGTACCA AATTCCTGAG CACCTGCTGA ATGAAATGAA TGCTGCTAAT 
    ACAGAGCTGC GAAAAAAGAG AGCTGAATGT GACTCGGCAA ACAATGGCAT TGATTTACAT 
    CTCCACCTGA GCTCCTGCTA TAAATTCCAC AATGGGGCTT TGCATCCTTC ACTTTCTTGC 
    AAAGAGAGTG TAGTGGATTT GACTATTGAC AGAAGGAAGA CACTGGGAGA CCTTCGGCAG 
    GCAGTGTTAC AGGTGTTGGA GTCTTGGGAA GGGGACATGG TTCTCAGCAT GGCCAAGCCT 
    TTGCCAGCAG GATTACACCT GTACCAGGTG CTTGATGGAG ATGAGCTGAT CCTGGATGGC 
    ATTGGGCTGG CTGATGGAGC AGACATCTTT GTCTGGAATG GAAAAGAGGT TGGAGGCACC 
    AAGGTGCTCA CGGGCCCTGA GCACGAGCCC GTGGTGCTCA ACGTGCTTCG CTTGGCCGAG 
    CACAACGAGG GCGGCAAGGG GCAGCACTTC AGCGAGGCGC AGCACGTGTT CCCCTGCAGC 
    ACCAGCCTGG GGCAGCTGCA CTCTGCCCTG GCTCCGGCCG GGGGCATCAT CCTCAGGAAC 
    GGCTCAGGAG TAGACACTGA AGCCAAGAAC TGGCAAGTTT TCCATGAGGA GGACATGAAG 
    GAAACAGTCC GAAGTGTTGG GCTCAGGGAC GGGTGCTCTG TGCTGATCTT AGACAGCCAT 
    GACCAGAGCT TTGTCAACTT AGCAAGTGGA AATTTGACTG CTTTCACCTA TGACATCAGC 
    TGGCTCCAAG TGAAAAACTT CTGTGGGGTG GAAGAGGAGG CGAAACATGT TAAAATCACT 
    GCCACTATTG AAACAGTGAT GTCAGATATC AAAATGAAAG CAATCCGGGA GTTCCAGCTG 
    CAGGAGGAGC TGGGAAACGA GAGCTGTCTT AGACCTGTTA GTGGTAATGG GAAACTTCTG 
    TCTCCAGTGT CTGAGGATTA CACAGTCAAG GAAGCAGAAC TTAAGATGGG AAGCTTGCTT 
    GGCCTGTGCC GTGGGAAAGC TCCAACTTCC ACTCAGCTCT TCCTGTACTT CATGGTTGGG 
    AGTGACCAAA GCTGCAGCCC TGAGATGGAG ATAGTTGTGG AGGAGACTGC CTCTGTCGGA 
    GAGTGTCTCA ATTTAATGCT GGAGAAATCA GGATTATCAG GTGACAACTG GCATTTGAGA 
    AGGCTTGACT GGTGCTACGA GGCAGGGGAA GCATTAAGTC AGGAAAATGC CACCCTGAAG 
    GAACTCAATG TTTGCAGAGG AGACACTTTG ATTATAACTG AAGGAAAGCT TCCAGAAAAG 
    GGTTTCCTGA AAATCCCCAT CTGGTGGCTG AAGCCTTCAA GCCATAAGAA ACATGGAGAG 
    AATGCACAAG ACCAGGTGAA TGGGATGACC TGGAAGATGG AGGCTTTGCA GGTGTCTGCT 
    GCAGCAGCTC CAGCAGAACC TACCCACCCA GGCCTGGATC TCTGTTATGC TGGCAGGATA 
    GAGATAGCAG GAGAGGCCTC GCTGGAAGAT CTGAAGATGC AGGTTCTGAC CTTACCCTGC 
    TGCCAGGAGC AGGTTGTGCC CCTGCCCTCA TTCCTCAGAG CTTGGACAGT GGACAGCAGA 
    CGCCCCGGGA AGCTCCTACG GGACAACAAA AGGACACTCA GTGACTACAG GCTGGGTGCC 
    AGAGTGGAAA TCTGCATAGA ACCCTTGCAA GAAGAAGAGA ATTTGGGCCC CCACGAGCTG 
    CTGCTGCGAG TCCAGATGGG AATACCAGGA GAGAGGGACT ACACCAGCTC CCGGGATTTG 
    GTGTGGGATA TCTCCAAGGA ATGCACAGCC TGGGCTCTGA GGCAGAGAGT GGCTTCTCAC 
    TATTGTCTCC CTGTAGATAA AATTGAAATA GCCAAATACT TCCCTGAGAG ATTTGAGTGG 
    CTGCCATTAT CTAGCTGGAC ACAGCAAATC TCAAAGAGGA AAAGGAGGAA AAAGCAGGCA 
    AGTTTGCAGT CAGCACCTTA CCACCTGAAG GATGGAGACA TCATTGGGGT GAAGAACCTT 
    CTCCTTGATG ACACCAAGGA CTTCAGCACT GTCAGGGATG ACATTGGGAA AGAGAAGCAA 
    AGGCAGCTGG CTCTGGAAAA GAGGAAAAGC CGCCAGGAAC GTGTCCAGGA TCCCCTTTTC 
    CCCGACGAGA AGCTCCCCCC AAAGCCCCGC AAACCAGAAG TGGCTCTTTC CATCAATGTG 
    GGGGTTTTCA GATAG

    The stop codons will be deleted if pcDNA3.1+/C-(K)DYK vector is selected.

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