ORF » Species Summary » Taeniopygia guttata » USP32 cDNA ORF clone

USP32 cDNA ORF clone, Taeniopygia guttata(zebra finch)

The following USP32 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the USP32 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
OTd16141 XM_012568677.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd31826 XM_030287784.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd31827 XM_030287785.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd31828 XM_030287786.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd31829 XM_030287787.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd31830 XM_030287788.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd31831 XM_030287789.1
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OTd31832 XM_012568677.2
Latest version!		 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00

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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)
    USP32 ( XM_012568677.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012424131.1 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), mRNA.
    Price & Availability↑
    CloneID OTd16141
    Clone ID Related Accession (Same CDS sequence) XM_012568677.1
    Accession Version XM_012568677.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4650bp)
    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 32
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_002197521.1) 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## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGATACT CTGTACCCTG GCACCCCAGG CTCTGAGGTG 
    AGCTTTGCAA GGCAGCACAA CACTTCAGAC AATAACAACC AGTGTTTCCT TGGATCCAAT 
    GGGAATACTC TGCTTCAGCT GAACCCCCAG AAACCAGGAG CTATTGATAA CCAGCCCCTG 
    GTCACCCAGG AGCCAGTCAA GGCTGCATCA TTAACTATGG AGGGTGGAAG GTTGAAGAGA 
    TCTCCACAGC TGGTGGAAGG AAAGGACTAT GTCATGGTGC CAGAACCAGT TTGGAGAGCA 
    CTTTACCACT GGTATGGAGC AAACCTGTCC TTGCCCAGGC CGGTGATCAA GAACAGCAAG 
    ACCAACGTGC CCGAGCTGGA GCTGTTCCCT CGCTACCTGC TGTTCCTGCG GCAGCAGCCG 
    GCCACGCGCA CCCAGCAGTC CAACGTCTGG GTCAATATGG GGAATGTCCC TTCCCCAAAT 
    GCTCCTTTGA AGAGGGTGCT GGCTTACACT GGCTGCTTCA GTCGGATGCA AACCATCAAA 
    GAGATCCACG AGTACCTGTC CCAGAGGCTG CGGATAAAGG AGGAGGACAT GCGCCTCTGG 
    CTCTACAACA GTGAGAACTA TCTCACTTTG CTGGATGATG AAGATCATAG ACTGGAATAC 
    CTTAAAATCC AAGATGAGCA GCATTTAGTA ATAGAAGTTC GAAACAAAGA CATGAGCTGG 
    CCAGAAGAGA TGTCTTTTAT AGCAAACAGC AGTAAAATAG ACAGACACAA AGTTCCTACT 
    GAGAAGGGTG CTACAGGCCT GAGCAACCTG GGGAACACGT GCTTCATGAA CTCCAGCATC 
    CAGTGTGTCA GCAACACGCA GCCCCTGACC CGTTACTTCA TCTCAGGGAG GCATCTCTAC 
    GAGCTGAACA GGACAAATCC CATAGGAATG AAAGGACACA TGGCCAAGTG CTATGGGGAT 
    TTGGTGCAGG AGCTGTGGAG TGGCACCCAG AAGAACATCG CCCCCTTAAA GCTGAGGTGG 
    ACAATAGCAA AATATGCTCC AAGATTTAAT GGCTTTCAAC AGCAAGACTC ACAGGAGCTT 
    CTGGCTTTTC TTCTGGATGG GCTCCATGAG GACTTGAACA GAGTTCATGA TAAGCCATAT 
    GTGGAACTGA AGGACAGTGA TGGTCGGCCA GACTGGGAGG TAGCAGCAGA GGCCTGGGAA 
    AACCATCTGA GAAGAAACAG ATCCATTGTT GTAGATTTAT TTCATGGGCA GCTGAAGTCA 
    CAAGTGAAAT GTAAAACTTG TGGGCATATA AGTGTTAGGT TTGACCCTTT TAATTTTTTA 
    TCCTTGCCTT TGCCAATGGA CAGCTACATG CACCTAGAAA TTACAGTAAT TAAATTAGAT 
    GGCACTACTC CTGTTCGATA TGGGCTGAGA TTGAACATGG ATGAGAAGTA CACAGGCTTG 
    AAAAAACAGC TGAGTGAACT CTGTGGCCTC AAACCAGAGC AGATTCTGCT TGCAGAGGTG 
    CACAGCTCCA ATATAAAGAA CTTCCCTCAG GACAACCAGA AGGTCCGGCT GTCTGTGAGC 
    GGCTTCCTGT GTGCGTTTGA GATCCCCATC CCAGGCTCCC CCACGTCAGC ATCCAGCCCT 
    GTGCAGACAG AGACCTCAAC TGGGCCATCA GCCAACGGAG CCCCCAGCAT CCTGATGAAC 
    GGGGACGTTG CCAAGCCAAG CCTCATTCCC AATGGGATGC CAAACACTGT GGTGCCATGT 
    GGGACGGAGC GCAGCCCGCC CAGCTGGACC CTCAACGGCC ACGTGCCCTC GCTGTGTGAC 
    AGCCCCTGCA CAGGCTACAT CATTGCAGTG CACAGGAAAA TGATGAGGAC AGAGCTGTAT 
    TTTCTCTCAT CTCAGAAGAA TCGGCCCAGT CTCTTTGGAA TGCCATTGAT TGTTCCCTGC 
    ACAGTTCACA CACGGAAAAG GGACCTCTAT GATGCTGTGT GGATCCAGGT GTCCAGGCTG 
    GCCAGCCCCC TCCCTCCTCA GGAAGCCAGT AACCATGCAC AGGACTGTGA TGACAGCATG 
    GGGTATCAAT ACCCCTTCAC CCTCAGGGTA GTTCAGAAGG ATGGAAATTC TTGTGCTTGG 
    TGTCCATGGT ACAGGTTCTG CCGTGGCTGT AAGATTGAGT GCACAGAGGA CAGGGCTTGT 
    GTGGGCAGTG CCTACATTGC TGTGGACTGG GACCCCACCG CGCTGCACCT GCGCTACCAG 
    ACCTCACAGG AACGGATCGT GGAAGAACAT GAAAGTGTTG AACAAAGCCG CCGAGCCCAG 
    GCAGAGCCCA TCAACCTGGA CAGCTGTCTG AGAGCCTTCA CCAGCGAGGA GGAGCTGGGG 
    GAGGATGAGA TGTACTACTG CTCCAAGTGC AAGACCCACT GTCTGGCCAC CAAAAAACTG 
    GATCTTTGGA GACTTCCCCC TATTTTGATC ATTCACCTGA AAAGATTTCA GTTCGTTAAT 
    GGCCGCTGGA TAAAATCCCA GAAAATTGTT AAATTTCCCA GAGAAAATTT TGACCCAAGT 
    GCCTTTTTGG TACAAAGGGA TCCGAGTCAT TTCCAAAGGA AGCAGCTCAC CCTGCAGGTT 
    GAGAGCCTTC CTGAAGCACG GCCTGGCCAA GGGGACACCA GGAAAGCAGA TGTGCAGAAC 
    ACTGGCACAG CAGGAGAAGG GGACACTCTG AACAGGAGTC CATCCTCCCT AAACACTACT 
    GTCCTCAATA ATGTCAAAGC ATCTCCATCC TTGGGGCGGA AAAGTGGAAC CAGCTGCCCC 
    TCAAGTAAAA ACAGCAGCCC CAACAGCAGC CCAAGGACTT TGGGGAGAGG CAAAGGGCGC 
    CTGCGGCTGC CCCAGCTGGG GAAAAACAAA CTGTCCAGCA GCAAGGAAAA CCTGGCTGCA 
    AACAGGGAGA ACGGTGCTGA GCACGAGCAG GGGGATGCTC TGACTAAAGG ACAGGCTTTG 
    GGGGGCAGCC AGAGCGAGCT GTACCCCGGG CAGGACAGCG AGGGGGCTCT GGCCAACGGG 
    TTCCTGTGGG AGCAGAGCTC GCTCAGCAAC GGGCAGGGCG AGAACCACAG CGAGGACGAC 
    ACCGCCGACG ACCAAAGAGA CGACGGCTGG CTCAGCCCCA TCTACAACCT ATATGCAATC 
    TCGTGCCATT CAGGAATTAT GGGAGGGGGT CATTATGTCA CTTATGCCAA AAACCCGAAC 
    AACAAGTGGT ACTGCTACAA TGACAGCAGC TGCAAGGAGT TGCACCCGGA CGAGATCGAC 
    ACGGACTCTG CCTACATTCT GTTCTACGAG CAGCAGGGGG TGGACTATGC CCAGTTCCTG 
    CCCAAGATCG ATGGCAAGAA GATGGCAGAC ACGAGCAGCA TGGACGAGGA CTTCGAGTCC 
    GACTACAAGA AGTACTGCGT GCTGCAGTGA

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

    RefSeq XP_012424131.1
    CDS1..4650
    Translation

    Target ORF information:

    RefSeq Version XM_012568677.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012568677.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGATACT CTGTACCCTG GCACCCCAGG CTCTGAGGTG 
    AGCTTTGCAA GGCAGCACAA CACTTCAGAC AATAACAACC AGTGTTTCCT TGGATCCAAT 
    GGGAATACTC TGCTTCAGCT GAACCCCCAG AAACCAGGAG CTATTGATAA CCAGCCCCTG 
    GTCACCCAGG AGCCAGTCAA GGCTGCATCA TTAACTATGG AGGGTGGAAG GTTGAAGAGA 
    TCTCCACAGC TGGTGGAAGG AAAGGACTAT GTCATGGTGC CAGAACCAGT TTGGAGAGCA 
    CTTTACCACT GGTATGGAGC AAACCTGTCC TTGCCCAGGC CGGTGATCAA GAACAGCAAG 
    ACCAACGTGC CCGAGCTGGA GCTGTTCCCT CGCTACCTGC TGTTCCTGCG GCAGCAGCCG 
    GCCACGCGCA CCCAGCAGTC CAACGTCTGG GTCAATATGG GGAATGTCCC TTCCCCAAAT 
    GCTCCTTTGA AGAGGGTGCT GGCTTACACT GGCTGCTTCA GTCGGATGCA AACCATCAAA 
    GAGATCCACG AGTACCTGTC CCAGAGGCTG CGGATAAAGG AGGAGGACAT GCGCCTCTGG 
    CTCTACAACA GTGAGAACTA TCTCACTTTG CTGGATGATG AAGATCATAG ACTGGAATAC 
    CTTAAAATCC AAGATGAGCA GCATTTAGTA ATAGAAGTTC GAAACAAAGA CATGAGCTGG 
    CCAGAAGAGA TGTCTTTTAT AGCAAACAGC AGTAAAATAG ACAGACACAA AGTTCCTACT 
    GAGAAGGGTG CTACAGGCCT GAGCAACCTG GGGAACACGT GCTTCATGAA CTCCAGCATC 
    CAGTGTGTCA GCAACACGCA GCCCCTGACC CGTTACTTCA TCTCAGGGAG GCATCTCTAC 
    GAGCTGAACA GGACAAATCC CATAGGAATG AAAGGACACA TGGCCAAGTG CTATGGGGAT 
    TTGGTGCAGG AGCTGTGGAG TGGCACCCAG AAGAACATCG CCCCCTTAAA GCTGAGGTGG 
    ACAATAGCAA AATATGCTCC AAGATTTAAT GGCTTTCAAC AGCAAGACTC ACAGGAGCTT 
    CTGGCTTTTC TTCTGGATGG GCTCCATGAG GACTTGAACA GAGTTCATGA TAAGCCATAT 
    GTGGAACTGA AGGACAGTGA TGGTCGGCCA GACTGGGAGG TAGCAGCAGA GGCCTGGGAA 
    AACCATCTGA GAAGAAACAG ATCCATTGTT GTAGATTTAT TTCATGGGCA GCTGAAGTCA 
    CAAGTGAAAT GTAAAACTTG TGGGCATATA AGTGTTAGGT TTGACCCTTT TAATTTTTTA 
    TCCTTGCCTT TGCCAATGGA CAGCTACATG CACCTAGAAA TTACAGTAAT TAAATTAGAT 
    GGCACTACTC CTGTTCGATA TGGGCTGAGA TTGAACATGG ATGAGAAGTA CACAGGCTTG 
    AAAAAACAGC TGAGTGAACT CTGTGGCCTC AAACCAGAGC AGATTCTGCT TGCAGAGGTG 
    CACAGCTCCA ATATAAAGAA CTTCCCTCAG GACAACCAGA AGGTCCGGCT GTCTGTGAGC 
    GGCTTCCTGT GTGCGTTTGA GATCCCCATC CCAGGCTCCC CCACGTCAGC ATCCAGCCCT 
    GTGCAGACAG AGACCTCAAC TGGGCCATCA GCCAACGGAG CCCCCAGCAT CCTGATGAAC 
    GGGGACGTTG CCAAGCCAAG CCTCATTCCC AATGGGATGC CAAACACTGT GGTGCCATGT 
    GGGACGGAGC GCAGCCCGCC CAGCTGGACC CTCAACGGCC ACGTGCCCTC GCTGTGTGAC 
    AGCCCCTGCA CAGGCTACAT CATTGCAGTG CACAGGAAAA TGATGAGGAC AGAGCTGTAT 
    TTTCTCTCAT CTCAGAAGAA TCGGCCCAGT CTCTTTGGAA TGCCATTGAT TGTTCCCTGC 
    ACAGTTCACA CACGGAAAAG GGACCTCTAT GATGCTGTGT GGATCCAGGT GTCCAGGCTG 
    GCCAGCCCCC TCCCTCCTCA GGAAGCCAGT AACCATGCAC AGGACTGTGA TGACAGCATG 
    GGGTATCAAT ACCCCTTCAC CCTCAGGGTA GTTCAGAAGG ATGGAAATTC TTGTGCTTGG 
    TGTCCATGGT ACAGGTTCTG CCGTGGCTGT AAGATTGAGT GCACAGAGGA CAGGGCTTGT 
    GTGGGCAGTG CCTACATTGC TGTGGACTGG GACCCCACCG CGCTGCACCT GCGCTACCAG 
    ACCTCACAGG AACGGATCGT GGAAGAACAT GAAAGTGTTG AACAAAGCCG CCGAGCCCAG 
    GCAGAGCCCA TCAACCTGGA CAGCTGTCTG AGAGCCTTCA CCAGCGAGGA GGAGCTGGGG 
    GAGGATGAGA TGTACTACTG CTCCAAGTGC AAGACCCACT GTCTGGCCAC CAAAAAACTG 
    GATCTTTGGA GACTTCCCCC TATTTTGATC ATTCACCTGA AAAGATTTCA GTTCGTTAAT 
    GGCCGCTGGA TAAAATCCCA GAAAATTGTT AAATTTCCCA GAGAAAATTT TGACCCAAGT 
    GCCTTTTTGG TACAAAGGGA TCCGAGTCAT TTCCAAAGGA AGCAGCTCAC CCTGCAGGTT 
    GAGAGCCTTC CTGAAGCACG GCCTGGCCAA GGGGACACCA GGAAAGCAGA TGTGCAGAAC 
    ACTGGCACAG CAGGAGAAGG GGACACTCTG AACAGGAGTC CATCCTCCCT AAACACTACT 
    GTCCTCAATA ATGTCAAAGC ATCTCCATCC TTGGGGCGGA AAAGTGGAAC CAGCTGCCCC 
    TCAAGTAAAA ACAGCAGCCC CAACAGCAGC CCAAGGACTT TGGGGAGAGG CAAAGGGCGC 
    CTGCGGCTGC CCCAGCTGGG GAAAAACAAA CTGTCCAGCA GCAAGGAAAA CCTGGCTGCA 
    AACAGGGAGA ACGGTGCTGA GCACGAGCAG GGGGATGCTC TGACTAAAGG ACAGGCTTTG 
    GGGGGCAGCC AGAGCGAGCT GTACCCCGGG CAGGACAGCG AGGGGGCTCT GGCCAACGGG 
    TTCCTGTGGG AGCAGAGCTC GCTCAGCAAC GGGCAGGGCG AGAACCACAG CGAGGACGAC 
    ACCGCCGACG ACCAAAGAGA CGACGGCTGG CTCAGCCCCA TCTACAACCT ATATGCAATC 
    TCGTGCCATT CAGGAATTAT GGGAGGGGGT CATTATGTCA CTTATGCCAA AAACCCGAAC 
    AACAAGTGGT ACTGCTACAA TGACAGCAGC TGCAAGGAGT TGCACCCGGA CGAGATCGAC 
    ACGGACTCTG CCTACATTCT GTTCTACGAG CAGCAGGGGG TGGACTATGC CCAGTTCCTG 
    CCCAAGATCG ATGGCAAGAA GATGGCAGAC ACGAGCAGCA TGGACGAGGA CTTCGAGTCC 
    GACTACAAGA AGTACTGCGT GCTGCAGTGA

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

    USP32 ( XM_030287784.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030143644.1 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OTd31826
    Clone ID Related Accession (Same CDS sequence) XM_030287784.1
    Accession Version XM_030287784.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4884bp)
    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 32 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044231.1) 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGGTAAG AATCCCCTGG TAGCTGCTGC AGCCAATACC 
    CCAGAACAGG GAGAAGACAA AATGGGAGGT CTTAATGGCT TCAGTGCACC AGAAGAAAAG 
    TTTTCAGATA ATATTTCCAC TGCCTCAGAA GCCTCAGAGT CCACCAGCAG CAATACTCTG 
    TACCCTGGCA CCCCAGGCTC TGAGGTGAGC TTTGCAAGGC AGCACAACAC TTCAGACAAT 
    AACAACCAGT GTTTCCTTGG ATCCAATGGG AATGCTCTGC TTCAGCTGAA CCCCCAGAAA 
    CCAGGAGCTA TTGATAACCA GCCCCTGGTC ACCCAGGAGC CAGTCAAGGC TGCATCATTA 
    ACTATGGAGG GTGGAAGGTT GAAGAGATCT CCACAGCTGG TGGAAGGAAA GGACTATGTC 
    ATGGTGCCAG AACCAGTTTG GAGAGCACTT TACCACTGGT ATGGAGCAAA CCTGTCCTTG 
    CCCAGGCCGG TGATCAAGAA CAGCAAGACC AACGTGCCCG AGCTGGAGCT GTTCCCTCGC 
    TACCTGCTGT TCCTGCGGCA GCAGCCGGCC ACGCGCACCC AGCAGTCCAA CGTCTGGGTC 
    AATATGGGTA TGATGAGCCT CAGAATGTTC CCTCAGCATT TGCCCAGAGG GAATGTCCCT 
    TCCCCAAATG CTCCTTTGAA GAGGGTGCTG GCTTACACTG GCTGCTTCAG TCGGATGCAA 
    ACCATCAAAG AAATCCACGA GTACCTGTCC CAGAGGCTGC GGATAAAGGA GGAGGACATG 
    CGCCTCTGGC TCTACAACAG TGAGAACTAT CTCACTTTGC TGGATGATGA AGATCATAGA 
    CTGGAATACC TTAAAATCCA AGATGAGCAG CATTTAGTAA TAGAAGTTCG AAACAAAGAC 
    ATGAGCTGGC CAGAAGAGAT GTCTTTTATA GCAAACAGCA GTAAAATAGA CAGACACAAA 
    GTTCCTACTG AGAAGGGTGC TACAGGCCTG AGCAACCTGG GGAACACGTG CTTCATGAAC 
    TCCAGCATCC AGTGTGTCAG CAACACGCAG CCCCTGACCC GTTACTTCAT CTCAGGGAGG 
    CATCTCTACG AGCTGAACAG GACAAATCCC ATAGGAATGA AAGGACACAT GGCCAAGTGC 
    TATGGGGATT TGGTGCAGGA GCTGTGGAGT GGCACCCAGA AGAACATCGC CCCCTTAAAG 
    CTGAGGTGGA CAATAGCAAA ATATGCTCCA AGATTTAATG GCTTTCAACA GCAAGACTCA 
    CAGGAGCTTC TGGCTTTTCT TCTGGATGGG CTCCATGAGG ACTTGAACAG AGTTCATGAT 
    AAGCCATATG TGGAACTGAA GGACAGTGAT GGTCGGCCAG ACTGGGAGGT AGCAGCAGAG 
    GCCTGGGAAA ACCATCTGAG AAGAAACAGA TCCATTGTTG TAGATTTATT TCATGGGCAG 
    CTGAAGTCAC AAGTGAAATG TAAAACTTGT GGGCATATAA GTGTTAGGTT TGACCCTTTT 
    AATTTTTTAT CCTTGCCTTT GCCAATGGAC AGCTACATGC ACCTAGAAAT TACAGTAATT 
    AAATTAGATG GCACTACTCC TGTTCGATAT GGGCTGAGAT TGAACATGGA TGAGAAGTAC 
    ACAGGCTTGA AAAAACAGCT GAGTGAACTC TGTGGCCTCA AACCAGAGCA GATTCTGCTT 
    GCAGAGGTGC ACAGCTCCAA TATAAAGCTG AAGGTATCCA AGTGCCTGAG CAGCTTTCCC 
    TCTCTCCTGA AGAACTTCCC TCAGGACAAC CAGAAGGTCC GGCTGTCTGT GAGCGGCTTC 
    CTGTGTGCGT TTGAGATCCC CATCCCAGGC TCCCCCACGT CAGCATCCAG CCCTGTGCAG 
    ACAGAGACCT CAACTGGGCC ATCAGCCAAC GGAGCCCCCA GCATCCTGAT GAACGGGGAC 
    GTTGCCAAGC CAAGCCTCAT TCCCAATGGG ATGCCAAACA CTGTGGTGCC ATGTGGGACG 
    GAGCGCAGCC CGCCCAGCTG GACCCTCAAC GGCCACGTGC CCTCGCTGTG TGACAGCCCC 
    TGCACAGGCT ACATCATTGC AGTGCACAGG AAAATGATGA GGACAGAGCT GTATTTTCTC 
    TCATCTCAGA AGAATCGGCC CAGTCTCTTT GGAATGCCAT TGATTGTTCC CTGCACAGTT 
    CACACACGGA AAAGGGACCT CTATGATGCT GTGTGGATCC AGGTGTCCAG GCTGGCCAGC 
    CCCCTCCCTC CTCAGGAAGC CAGTAACCAT GCACAGGACT GTGATGACAG CATGGGGTAT 
    CAATACCCCT TCACCCTCAG GGTAGTTCAG AAGGATGGAA ATTCTTGTGC TTGGTGTCCA 
    TGGTACAGGT TCTGCCGTGG CTGTAAGATT GAGTGCACAG AGGACAGGGC TTGTGTGGGC 
    AGTGCCTACA TTGCTGTGGA CTGGGACCCC ACCGCGCTGC ACCTGCGCTA CCAGACCTCA 
    CAGGAACGGA TCGTGGAAGA ACATGAAAGT GTTGAACAAA GCCGCCGAGC CCAGGCAGAG 
    CCCATCAACC TGGACAGCTG TCTGAGAGCC TTCACCAGCG AGGAGGAGCT GGGGGAGGAT 
    GAGATGTACT ACTGCTCCAA GTGCAAGACC CACTGTCTGG CCACCAAAAA ACTGGATCTT 
    TGGAGACTTC CCCCTATTTT GATCATTCAC CTGAAAAGAT TTCAGTTCGT TAATGGCCGC 
    TGGATAAAAT CCCAGAAAAT TGTTAAATTT CCCAGAGAAA ATTTTGACCC AAGTGCCTTT 
    TTGGTACAAA GGGATCCGAG TCATTTCCAA AGGAAGCAGC TCACCCTGCA GGTTGAGAGC 
    CTTCCTGAAG CACGGCCTGG CCAAGGGGAC ACCAGGAAAG CAGATGTGCA GAACACTGGC 
    ACAGCAGGAG AAGGGGACAC TCTGAACAGG AGTCCATCCT CCCTAAACAC TACTGTCCTC 
    AATAATGTCA AAGCATCTCC ATCCTTGGGG CGGAAAAGTG GAACCAGCTG CCCCTCAAGT 
    AAAAACAGCA GCCCCAACAG CAGCCCAAGG ACTTTGGGGA GAGGCAAAGG GCGCCTGCGG 
    CTGCCCCAGC TGGGGAAAAA CAAACTGTCC AGCAGCAAGG AAAACCTGGC TGCAAACAGG 
    GAGAACGGTG CTGAGCACGA GCAGGGGGAT GCTCTGACTA AAGGACAGGC TTTGGGGGGC 
    AGCCAGAGCG AGCTGTACCC CGGGCAGGAC AGCGAGGGGG CTCTGGCCAA CGGGTTCCTG 
    TGGGAGCAGA GCTCGCTCAG CAACGGGCAG GGCGAGAACC ACAGCGAGGA CGACACCGCC 
    GACGACCAAA GAGACGACGG CTGGCTCAGC CCCATCTACA ACCTATATGC AATCTCGTGC 
    CATTCAGGAA TTATGGGAGG GGGTCATTAT GTCACTTATG CCAAAAACCC GAACAACAAG 
    TGGTACTGCT ACAATGACAG CAGCTGCAAG GAGTTGCACC CGGACGAGAT CGACACGGAC 
    TCTGCCTACA TTCTGTTCTA CGAGCAGCAG GGGGTGGACT ATGCCCAGTT CCTGCCCAAG 
    ATCGATGGCA AGAAGATGGC AGACACGAGC AGCATGGACG AGGACTTCGA GTCCGACTAC 
    AAGAAGTACT GCGTGCTGCA GTGA

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

    RefSeq XP_030143644.1
    CDS74..4957
    Translation

    Target ORF information:

    RefSeq Version XM_030287784.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030287784.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGGTAAG AATCCCCTGG TAGCTGCTGC AGCCAATACC 
    CCAGAACAGG GAGAAGACAA AATGGGAGGT CTTAATGGCT TCAGTGCACC AGAAGAAAAG 
    TTTTCAGATA ATATTTCCAC TGCCTCAGAA GCCTCAGAGT CCACCAGCAG CAATACTCTG 
    TACCCTGGCA CCCCAGGCTC TGAGGTGAGC TTTGCAAGGC AGCACAACAC TTCAGACAAT 
    AACAACCAGT GTTTCCTTGG ATCCAATGGG AATGCTCTGC TTCAGCTGAA CCCCCAGAAA 
    CCAGGAGCTA TTGATAACCA GCCCCTGGTC ACCCAGGAGC CAGTCAAGGC TGCATCATTA 
    ACTATGGAGG GTGGAAGGTT GAAGAGATCT CCACAGCTGG TGGAAGGAAA GGACTATGTC 
    ATGGTGCCAG AACCAGTTTG GAGAGCACTT TACCACTGGT ATGGAGCAAA CCTGTCCTTG 
    CCCAGGCCGG TGATCAAGAA CAGCAAGACC AACGTGCCCG AGCTGGAGCT GTTCCCTCGC 
    TACCTGCTGT TCCTGCGGCA GCAGCCGGCC ACGCGCACCC AGCAGTCCAA CGTCTGGGTC 
    AATATGGGTA TGATGAGCCT CAGAATGTTC CCTCAGCATT TGCCCAGAGG GAATGTCCCT 
    TCCCCAAATG CTCCTTTGAA GAGGGTGCTG GCTTACACTG GCTGCTTCAG TCGGATGCAA 
    ACCATCAAAG AAATCCACGA GTACCTGTCC CAGAGGCTGC GGATAAAGGA GGAGGACATG 
    CGCCTCTGGC TCTACAACAG TGAGAACTAT CTCACTTTGC TGGATGATGA AGATCATAGA 
    CTGGAATACC TTAAAATCCA AGATGAGCAG CATTTAGTAA TAGAAGTTCG AAACAAAGAC 
    ATGAGCTGGC CAGAAGAGAT GTCTTTTATA GCAAACAGCA GTAAAATAGA CAGACACAAA 
    GTTCCTACTG AGAAGGGTGC TACAGGCCTG AGCAACCTGG GGAACACGTG CTTCATGAAC 
    TCCAGCATCC AGTGTGTCAG CAACACGCAG CCCCTGACCC GTTACTTCAT CTCAGGGAGG 
    CATCTCTACG AGCTGAACAG GACAAATCCC ATAGGAATGA AAGGACACAT GGCCAAGTGC 
    TATGGGGATT TGGTGCAGGA GCTGTGGAGT GGCACCCAGA AGAACATCGC CCCCTTAAAG 
    CTGAGGTGGA CAATAGCAAA ATATGCTCCA AGATTTAATG GCTTTCAACA GCAAGACTCA 
    CAGGAGCTTC TGGCTTTTCT TCTGGATGGG CTCCATGAGG ACTTGAACAG AGTTCATGAT 
    AAGCCATATG TGGAACTGAA GGACAGTGAT GGTCGGCCAG ACTGGGAGGT AGCAGCAGAG 
    GCCTGGGAAA ACCATCTGAG AAGAAACAGA TCCATTGTTG TAGATTTATT TCATGGGCAG 
    CTGAAGTCAC AAGTGAAATG TAAAACTTGT GGGCATATAA GTGTTAGGTT TGACCCTTTT 
    AATTTTTTAT CCTTGCCTTT GCCAATGGAC AGCTACATGC ACCTAGAAAT TACAGTAATT 
    AAATTAGATG GCACTACTCC TGTTCGATAT GGGCTGAGAT TGAACATGGA TGAGAAGTAC 
    ACAGGCTTGA AAAAACAGCT GAGTGAACTC TGTGGCCTCA AACCAGAGCA GATTCTGCTT 
    GCAGAGGTGC ACAGCTCCAA TATAAAGCTG AAGGTATCCA AGTGCCTGAG CAGCTTTCCC 
    TCTCTCCTGA AGAACTTCCC TCAGGACAAC CAGAAGGTCC GGCTGTCTGT GAGCGGCTTC 
    CTGTGTGCGT TTGAGATCCC CATCCCAGGC TCCCCCACGT CAGCATCCAG CCCTGTGCAG 
    ACAGAGACCT CAACTGGGCC ATCAGCCAAC GGAGCCCCCA GCATCCTGAT GAACGGGGAC 
    GTTGCCAAGC CAAGCCTCAT TCCCAATGGG ATGCCAAACA CTGTGGTGCC ATGTGGGACG 
    GAGCGCAGCC CGCCCAGCTG GACCCTCAAC GGCCACGTGC CCTCGCTGTG TGACAGCCCC 
    TGCACAGGCT ACATCATTGC AGTGCACAGG AAAATGATGA GGACAGAGCT GTATTTTCTC 
    TCATCTCAGA AGAATCGGCC CAGTCTCTTT GGAATGCCAT TGATTGTTCC CTGCACAGTT 
    CACACACGGA AAAGGGACCT CTATGATGCT GTGTGGATCC AGGTGTCCAG GCTGGCCAGC 
    CCCCTCCCTC CTCAGGAAGC CAGTAACCAT GCACAGGACT GTGATGACAG CATGGGGTAT 
    CAATACCCCT TCACCCTCAG GGTAGTTCAG AAGGATGGAA ATTCTTGTGC TTGGTGTCCA 
    TGGTACAGGT TCTGCCGTGG CTGTAAGATT GAGTGCACAG AGGACAGGGC TTGTGTGGGC 
    AGTGCCTACA TTGCTGTGGA CTGGGACCCC ACCGCGCTGC ACCTGCGCTA CCAGACCTCA 
    CAGGAACGGA TCGTGGAAGA ACATGAAAGT GTTGAACAAA GCCGCCGAGC CCAGGCAGAG 
    CCCATCAACC TGGACAGCTG TCTGAGAGCC TTCACCAGCG AGGAGGAGCT GGGGGAGGAT 
    GAGATGTACT ACTGCTCCAA GTGCAAGACC CACTGTCTGG CCACCAAAAA ACTGGATCTT 
    TGGAGACTTC CCCCTATTTT GATCATTCAC CTGAAAAGAT TTCAGTTCGT TAATGGCCGC 
    TGGATAAAAT CCCAGAAAAT TGTTAAATTT CCCAGAGAAA ATTTTGACCC AAGTGCCTTT 
    TTGGTACAAA GGGATCCGAG TCATTTCCAA AGGAAGCAGC TCACCCTGCA GGTTGAGAGC 
    CTTCCTGAAG CACGGCCTGG CCAAGGGGAC ACCAGGAAAG CAGATGTGCA GAACACTGGC 
    ACAGCAGGAG AAGGGGACAC TCTGAACAGG AGTCCATCCT CCCTAAACAC TACTGTCCTC 
    AATAATGTCA AAGCATCTCC ATCCTTGGGG CGGAAAAGTG GAACCAGCTG CCCCTCAAGT 
    AAAAACAGCA GCCCCAACAG CAGCCCAAGG ACTTTGGGGA GAGGCAAAGG GCGCCTGCGG 
    CTGCCCCAGC TGGGGAAAAA CAAACTGTCC AGCAGCAAGG AAAACCTGGC TGCAAACAGG 
    GAGAACGGTG CTGAGCACGA GCAGGGGGAT GCTCTGACTA AAGGACAGGC TTTGGGGGGC 
    AGCCAGAGCG AGCTGTACCC CGGGCAGGAC AGCGAGGGGG CTCTGGCCAA CGGGTTCCTG 
    TGGGAGCAGA GCTCGCTCAG CAACGGGCAG GGCGAGAACC ACAGCGAGGA CGACACCGCC 
    GACGACCAAA GAGACGACGG CTGGCTCAGC CCCATCTACA ACCTATATGC AATCTCGTGC 
    CATTCAGGAA TTATGGGAGG GGGTCATTAT GTCACTTATG CCAAAAACCC GAACAACAAG 
    TGGTACTGCT ACAATGACAG CAGCTGCAAG GAGTTGCACC CGGACGAGAT CGACACGGAC 
    TCTGCCTACA TTCTGTTCTA CGAGCAGCAG GGGGTGGACT ATGCCCAGTT CCTGCCCAAG 
    ATCGATGGCA AGAAGATGGC AGACACGAGC AGCATGGACG AGGACTTCGA GTCCGACTAC 
    AAGAAGTACT GCGTGCTGCA GTGA

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

    USP32 ( XM_030287785.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030143645.1 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OTd31827
    Clone ID Related Accession (Same CDS sequence) XM_030287785.1
    Accession Version XM_030287785.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4842bp)
    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 32 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044231.1) 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGGTAAG AATCCCCTGG TAGCTGCTGC AGCCAATACC 
    CCAGAACAGG GAGAAGACAA AATGGGAGGT CTTAATGGCT TCAGTGCACC AGAAGAAAAG 
    TTTTCAGATA ATATTTCCAC TGCCTCAGAA GCCTCAGAGT CCACCAGCAG CAATACTCTG 
    TACCCTGGCA CCCCAGGCTC TGAGGTGAGC TTTGCAAGGC AGCACAACAC TTCAGACAAT 
    AACAACCAGT GTTTCCTTGG ATCCAATGGG AATGCTCTGC TTCAGCTGAA CCCCCAGAAA 
    CCAGGAGCTA TTGATAACCA GCCCCTGGTC ACCCAGGAGC CAGTCAAGGC TGCATCATTA 
    ACTATGGAGG GTGGAAGGTT GAAGAGATCT CCACAGCTGG TGGAAGGAAA GGACTATGTC 
    ATGGTGCCAG AACCAGTTTG GAGAGCACTT TACCACTGGT ATGGAGCAAA CCTGTCCTTG 
    CCCAGGCCGG TGATCAAGAA CAGCAAGACC AACGTGCCCG AGCTGGAGCT GTTCCCTCGC 
    TACCTGCTGT TCCTGCGGCA GCAGCCGGCC ACGCGCACCC AGCAGTCCAA CGTCTGGGTC 
    AATATGGGGA ATGTCCCTTC CCCAAATGCT CCTTTGAAGA GGGTGCTGGC TTACACTGGC 
    TGCTTCAGTC GGATGCAAAC CATCAAAGAA ATCCACGAGT ACCTGTCCCA GAGGCTGCGG 
    ATAAAGGAGG AGGACATGCG CCTCTGGCTC TACAACAGTG AGAACTATCT CACTTTGCTG 
    GATGATGAAG ATCATAGACT GGAATACCTT AAAATCCAAG ATGAGCAGCA TTTAGTAATA 
    GAAGTTCGAA ACAAAGACAT GAGCTGGCCA GAAGAGATGT CTTTTATAGC AAACAGCAGT 
    AAAATAGACA GACACAAAGT TCCTACTGAG AAGGGTGCTA CAGGCCTGAG CAACCTGGGG 
    AACACGTGCT TCATGAACTC CAGCATCCAG TGTGTCAGCA ACACGCAGCC CCTGACCCGT 
    TACTTCATCT CAGGGAGGCA TCTCTACGAG CTGAACAGGA CAAATCCCAT AGGAATGAAA 
    GGACACATGG CCAAGTGCTA TGGGGATTTG GTGCAGGAGC TGTGGAGTGG CACCCAGAAG 
    AACATCGCCC CCTTAAAGCT GAGGTGGACA ATAGCAAAAT ATGCTCCAAG ATTTAATGGC 
    TTTCAACAGC AAGACTCACA GGAGCTTCTG GCTTTTCTTC TGGATGGGCT CCATGAGGAC 
    TTGAACAGAG TTCATGATAA GCCATATGTG GAACTGAAGG ACAGTGATGG TCGGCCAGAC 
    TGGGAGGTAG CAGCAGAGGC CTGGGAAAAC CATCTGAGAA GAAACAGATC CATTGTTGTA 
    GATTTATTTC ATGGGCAGCT GAAGTCACAA GTGAAATGTA AAACTTGTGG GCATATAAGT 
    GTTAGGTTTG ACCCTTTTAA TTTTTTATCC TTGCCTTTGC CAATGGACAG CTACATGCAC 
    CTAGAAATTA CAGTAATTAA ATTAGATGGC ACTACTCCTG TTCGATATGG GCTGAGATTG 
    AACATGGATG AGAAGTACAC AGGCTTGAAA AAACAGCTGA GTGAACTCTG TGGCCTCAAA 
    CCAGAGCAGA TTCTGCTTGC AGAGGTGCAC AGCTCCAATA TAAAGCTGAA GGTATCCAAG 
    TGCCTGAGCA GCTTTCCCTC TCTCCTGAAG AACTTCCCTC AGGACAACCA GAAGGTCCGG 
    CTGTCTGTGA GCGGCTTCCT GTGTGCGTTT GAGATCCCCA TCCCAGGCTC CCCCACGTCA 
    GCATCCAGCC CTGTGCAGAC AGAGACCTCA ACTGGGCCAT CAGCCAACGG AGCCCCCAGC 
    ATCCTGATGA ACGGGGACGT TGCCAAGCCA AGCCTCATTC CCAATGGGAT GCCAAACACT 
    GTGGTGCCAT GTGGGACGGA GCGCAGCCCG CCCAGCTGGA CCCTCAACGG CCACGTGCCC 
    TCGCTGTGTG ACAGCCCCTG CACAGGCTAC ATCATTGCAG TGCACAGGAA AATGATGAGG 
    ACAGAGCTGT ATTTTCTCTC ATCTCAGAAG AATCGGCCCA GTCTCTTTGG AATGCCATTG 
    ATTGTTCCCT GCACAGTTCA CACACGGAAA AGGGACCTCT ATGATGCTGT GTGGATCCAG 
    GTGTCCAGGC TGGCCAGCCC CCTCCCTCCT CAGGAAGCCA GTAACCATGC ACAGGACTGT 
    GATGACAGCA TGGGGTATCA ATACCCCTTC ACCCTCAGGG TAGTTCAGAA GGATGGAAAT 
    TCTTGTGCTT GGTGTCCATG GTACAGGTTC TGCCGTGGCT GTAAGATTGA GTGCACAGAG 
    GACAGGGCTT GTGTGGGCAG TGCCTACATT GCTGTGGACT GGGACCCCAC CGCGCTGCAC 
    CTGCGCTACC AGACCTCACA GGAACGGATC GTGGAAGAAC ATGAAAGTGT TGAACAAAGC 
    CGCCGAGCCC AGGCAGAGCC CATCAACCTG GACAGCTGTC TGAGAGCCTT CACCAGCGAG 
    GAGGAGCTGG GGGAGGATGA GATGTACTAC TGCTCCAAGT GCAAGACCCA CTGTCTGGCC 
    ACCAAAAAAC TGGATCTTTG GAGACTTCCC CCTATTTTGA TCATTCACCT GAAAAGATTT 
    CAGTTCGTTA ATGGCCGCTG GATAAAATCC CAGAAAATTG TTAAATTTCC CAGAGAAAAT 
    TTTGACCCAA GTGCCTTTTT GGTACAAAGG GATCCGAGTC ATTTCCAAAG GAAGCAGCTC 
    ACCCTGCAGG TTGAGAGCCT TCCTGAAGCA CGGCCTGGCC AAGGGGACAC CAGGAAAGCA 
    GATGTGCAGA ACACTGGCAC AGCAGGAGAA GGGGACACTC TGAACAGGAG TCCATCCTCC 
    CTAAACACTA CTGTCCTCAA TAATGTCAAA GCATCTCCAT CCTTGGGGCG GAAAAGTGGA 
    ACCAGCTGCC CCTCAAGTAA AAACAGCAGC CCCAACAGCA GCCCAAGGAC TTTGGGGAGA 
    GGCAAAGGGC GCCTGCGGCT GCCCCAGCTG GGGAAAAACA AACTGTCCAG CAGCAAGGAA 
    AACCTGGCTG CAAACAGGGA GAACGGTGCT GAGCACGAGC AGGGGGATGC TCTGACTAAA 
    GGACAGGCTT TGGGGGGCAG CCAGAGCGAG CTGTACCCCG GGCAGGACAG CGAGGGGGCT 
    CTGGCCAACG GGTTCCTGTG GGAGCAGAGC TCGCTCAGCA ACGGGCAGGG CGAGAACCAC 
    AGCGAGGACG ACACCGCCGA CGACCAAAGA GACGACGGCT GGCTCAGCCC CATCTACAAC 
    CTATATGCAA TCTCGTGCCA TTCAGGAATT ATGGGAGGGG GTCATTATGT CACTTATGCC 
    AAAAACCCGA ACAACAAGTG GTACTGCTAC AATGACAGCA GCTGCAAGGA GTTGCACCCG 
    GACGAGATCG ACACGGACTC TGCCTACATT CTGTTCTACG AGCAGCAGGG GGTGGACTAT 
    GCCCAGTTCC TGCCCAAGAT CGATGGCAAG AAGATGGCAG ACACGAGCAG CATGGACGAG 
    GACTTCGAGT CCGACTACAA GAAGTACTGC GTGCTGCAGT GA

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

    RefSeq XP_030143645.1
    CDS74..4915
    Translation

    Target ORF information:

    RefSeq Version XM_030287785.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030287785.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGGTAAG AATCCCCTGG TAGCTGCTGC AGCCAATACC 
    CCAGAACAGG GAGAAGACAA AATGGGAGGT CTTAATGGCT TCAGTGCACC AGAAGAAAAG 
    TTTTCAGATA ATATTTCCAC TGCCTCAGAA GCCTCAGAGT CCACCAGCAG CAATACTCTG 
    TACCCTGGCA CCCCAGGCTC TGAGGTGAGC TTTGCAAGGC AGCACAACAC TTCAGACAAT 
    AACAACCAGT GTTTCCTTGG ATCCAATGGG AATGCTCTGC TTCAGCTGAA CCCCCAGAAA 
    CCAGGAGCTA TTGATAACCA GCCCCTGGTC ACCCAGGAGC CAGTCAAGGC TGCATCATTA 
    ACTATGGAGG GTGGAAGGTT GAAGAGATCT CCACAGCTGG TGGAAGGAAA GGACTATGTC 
    ATGGTGCCAG AACCAGTTTG GAGAGCACTT TACCACTGGT ATGGAGCAAA CCTGTCCTTG 
    CCCAGGCCGG TGATCAAGAA CAGCAAGACC AACGTGCCCG AGCTGGAGCT GTTCCCTCGC 
    TACCTGCTGT TCCTGCGGCA GCAGCCGGCC ACGCGCACCC AGCAGTCCAA CGTCTGGGTC 
    AATATGGGGA ATGTCCCTTC CCCAAATGCT CCTTTGAAGA GGGTGCTGGC TTACACTGGC 
    TGCTTCAGTC GGATGCAAAC CATCAAAGAA ATCCACGAGT ACCTGTCCCA GAGGCTGCGG 
    ATAAAGGAGG AGGACATGCG CCTCTGGCTC TACAACAGTG AGAACTATCT CACTTTGCTG 
    GATGATGAAG ATCATAGACT GGAATACCTT AAAATCCAAG ATGAGCAGCA TTTAGTAATA 
    GAAGTTCGAA ACAAAGACAT GAGCTGGCCA GAAGAGATGT CTTTTATAGC AAACAGCAGT 
    AAAATAGACA GACACAAAGT TCCTACTGAG AAGGGTGCTA CAGGCCTGAG CAACCTGGGG 
    AACACGTGCT TCATGAACTC CAGCATCCAG TGTGTCAGCA ACACGCAGCC CCTGACCCGT 
    TACTTCATCT CAGGGAGGCA TCTCTACGAG CTGAACAGGA CAAATCCCAT AGGAATGAAA 
    GGACACATGG CCAAGTGCTA TGGGGATTTG GTGCAGGAGC TGTGGAGTGG CACCCAGAAG 
    AACATCGCCC CCTTAAAGCT GAGGTGGACA ATAGCAAAAT ATGCTCCAAG ATTTAATGGC 
    TTTCAACAGC AAGACTCACA GGAGCTTCTG GCTTTTCTTC TGGATGGGCT CCATGAGGAC 
    TTGAACAGAG TTCATGATAA GCCATATGTG GAACTGAAGG ACAGTGATGG TCGGCCAGAC 
    TGGGAGGTAG CAGCAGAGGC CTGGGAAAAC CATCTGAGAA GAAACAGATC CATTGTTGTA 
    GATTTATTTC ATGGGCAGCT GAAGTCACAA GTGAAATGTA AAACTTGTGG GCATATAAGT 
    GTTAGGTTTG ACCCTTTTAA TTTTTTATCC TTGCCTTTGC CAATGGACAG CTACATGCAC 
    CTAGAAATTA CAGTAATTAA ATTAGATGGC ACTACTCCTG TTCGATATGG GCTGAGATTG 
    AACATGGATG AGAAGTACAC AGGCTTGAAA AAACAGCTGA GTGAACTCTG TGGCCTCAAA 
    CCAGAGCAGA TTCTGCTTGC AGAGGTGCAC AGCTCCAATA TAAAGCTGAA GGTATCCAAG 
    TGCCTGAGCA GCTTTCCCTC TCTCCTGAAG AACTTCCCTC AGGACAACCA GAAGGTCCGG 
    CTGTCTGTGA GCGGCTTCCT GTGTGCGTTT GAGATCCCCA TCCCAGGCTC CCCCACGTCA 
    GCATCCAGCC CTGTGCAGAC AGAGACCTCA ACTGGGCCAT CAGCCAACGG AGCCCCCAGC 
    ATCCTGATGA ACGGGGACGT TGCCAAGCCA AGCCTCATTC CCAATGGGAT GCCAAACACT 
    GTGGTGCCAT GTGGGACGGA GCGCAGCCCG CCCAGCTGGA CCCTCAACGG CCACGTGCCC 
    TCGCTGTGTG ACAGCCCCTG CACAGGCTAC ATCATTGCAG TGCACAGGAA AATGATGAGG 
    ACAGAGCTGT ATTTTCTCTC ATCTCAGAAG AATCGGCCCA GTCTCTTTGG AATGCCATTG 
    ATTGTTCCCT GCACAGTTCA CACACGGAAA AGGGACCTCT ATGATGCTGT GTGGATCCAG 
    GTGTCCAGGC TGGCCAGCCC CCTCCCTCCT CAGGAAGCCA GTAACCATGC ACAGGACTGT 
    GATGACAGCA TGGGGTATCA ATACCCCTTC ACCCTCAGGG TAGTTCAGAA GGATGGAAAT 
    TCTTGTGCTT GGTGTCCATG GTACAGGTTC TGCCGTGGCT GTAAGATTGA GTGCACAGAG 
    GACAGGGCTT GTGTGGGCAG TGCCTACATT GCTGTGGACT GGGACCCCAC CGCGCTGCAC 
    CTGCGCTACC AGACCTCACA GGAACGGATC GTGGAAGAAC ATGAAAGTGT TGAACAAAGC 
    CGCCGAGCCC AGGCAGAGCC CATCAACCTG GACAGCTGTC TGAGAGCCTT CACCAGCGAG 
    GAGGAGCTGG GGGAGGATGA GATGTACTAC TGCTCCAAGT GCAAGACCCA CTGTCTGGCC 
    ACCAAAAAAC TGGATCTTTG GAGACTTCCC CCTATTTTGA TCATTCACCT GAAAAGATTT 
    CAGTTCGTTA ATGGCCGCTG GATAAAATCC CAGAAAATTG TTAAATTTCC CAGAGAAAAT 
    TTTGACCCAA GTGCCTTTTT GGTACAAAGG GATCCGAGTC ATTTCCAAAG GAAGCAGCTC 
    ACCCTGCAGG TTGAGAGCCT TCCTGAAGCA CGGCCTGGCC AAGGGGACAC CAGGAAAGCA 
    GATGTGCAGA ACACTGGCAC AGCAGGAGAA GGGGACACTC TGAACAGGAG TCCATCCTCC 
    CTAAACACTA CTGTCCTCAA TAATGTCAAA GCATCTCCAT CCTTGGGGCG GAAAAGTGGA 
    ACCAGCTGCC CCTCAAGTAA AAACAGCAGC CCCAACAGCA GCCCAAGGAC TTTGGGGAGA 
    GGCAAAGGGC GCCTGCGGCT GCCCCAGCTG GGGAAAAACA AACTGTCCAG CAGCAAGGAA 
    AACCTGGCTG CAAACAGGGA GAACGGTGCT GAGCACGAGC AGGGGGATGC TCTGACTAAA 
    GGACAGGCTT TGGGGGGCAG CCAGAGCGAG CTGTACCCCG GGCAGGACAG CGAGGGGGCT 
    CTGGCCAACG GGTTCCTGTG GGAGCAGAGC TCGCTCAGCA ACGGGCAGGG CGAGAACCAC 
    AGCGAGGACG ACACCGCCGA CGACCAAAGA GACGACGGCT GGCTCAGCCC CATCTACAAC 
    CTATATGCAA TCTCGTGCCA TTCAGGAATT ATGGGAGGGG GTCATTATGT CACTTATGCC 
    AAAAACCCGA ACAACAAGTG GTACTGCTAC AATGACAGCA GCTGCAAGGA GTTGCACCCG 
    GACGAGATCG ACACGGACTC TGCCTACATT CTGTTCTACG AGCAGCAGGG GGTGGACTAT 
    GCCCAGTTCC TGCCCAAGAT CGATGGCAAG AAGATGGCAG ACACGAGCAG CATGGACGAG 
    GACTTCGAGT CCGACTACAA GAAGTACTGC GTGCTGCAGT GA

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

    USP32 ( XM_030287786.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030143646.1 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OTd31828
    Clone ID Related Accession (Same CDS sequence) XM_030287786.1
    Accession Version XM_030287786.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4839bp)
    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 32 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044231.1) 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGGTAAG AATCCCCTGG TAGCTGCTGC AGCCAATACC 
    CCAGAACAGG GAGAAGACAA AATGGGAGGT CTTAATGGCT TCAGTGCACC AGAAGAAAAG 
    TTTTCAGATA ATATTTCCAC TGCCTCAGAA GCCTCAGAGT CCACCAGCAG CAATACTCTG 
    TACCCTGGCA CCCCAGGCTC TGAGGTGAGC TTTGCAAGGC AGCACAACAC TTCAGACAAT 
    AACAACCAGT GTTTCCTTGG ATCCAATGGG AATGCTCTGC TTCAGCTGAA CCCCCAGAAA 
    CCAGGAGCTA TTGATAACCA GCCCCTGGTC ACCCAGGAGC CAGTCAAGGC TGCATCATTA 
    ACTATGGAGG GTGGAAGGTT GAAGAGATCT CCACAGCTGG TGGAAGGAAA GGACTATGTC 
    ATGGTGCCAG AACCAGTTTG GAGAGCACTT TACCACTGGT ATGGAGCAAA CCTGTCCTTG 
    CCCAGGCCGG TGATCAAGAA CAGCAAGACC AACGTGCCCG AGCTGGAGCT GTTCCCTCGC 
    TACCTGCTGT TCCTGCGGCA GCAGCCGGCC ACGCGCACCC AGCAGTCCAA CGTCTGGGTC 
    AATATGGGTA TGATGAGCCT CAGAATGTTC CCTCAGCATT TGCCCAGAGG GAATGTCCCT 
    TCCCCAAATG CTCCTTTGAA GAGGGTGCTG GCTTACACTG GCTGCTTCAG TCGGATGCAA 
    ACCATCAAAG AAATCCACGA GTACCTGTCC CAGAGGCTGC GGATAAAGGA GGAGGACATG 
    CGCCTCTGGC TCTACAACAG TGAGAACTAT CTCACTTTGC TGGATGATGA AGATCATAGA 
    CTGGAATACC TTAAAATCCA AGATGAGCAG CATTTAGTAA TAGAAGTTCG AAACAAAGAC 
    ATGAGCTGGC CAGAAGAGAT GTCTTTTATA GCAAACAGCA GTAAAATAGA CAGACACAAA 
    GTTCCTACTG AGAAGGGTGC TACAGGCCTG AGCAACCTGG GGAACACGTG CTTCATGAAC 
    TCCAGCATCC AGTGTGTCAG CAACACGCAG CCCCTGACCC GTTACTTCAT CTCAGGGAGG 
    CATCTCTACG AGCTGAACAG GACAAATCCC ATAGGAATGA AAGGACACAT GGCCAAGTGC 
    TATGGGGATT TGGTGCAGGA GCTGTGGAGT GGCACCCAGA AGAACATCGC CCCCTTAAAG 
    CTGAGGTGGA CAATAGCAAA ATATGCTCCA AGATTTAATG GCTTTCAACA GCAAGACTCA 
    CAGGAGCTTC TGGCTTTTCT TCTGGATGGG CTCCATGAGG ACTTGAACAG AGTTCATGAT 
    AAGCCATATG TGGAACTGAA GGACAGTGAT GGTCGGCCAG ACTGGGAGGT AGCAGCAGAG 
    GCCTGGGAAA ACCATCTGAG AAGAAACAGA TCCATTGTTG TAGATTTATT TCATGGGCAG 
    CTGAAGTCAC AAGTGAAATG TAAAACTTGT GGGCATATAA GTGTTAGGTT TGACCCTTTT 
    AATTTTTTAT CCTTGCCTTT GCCAATGGAC AGCTACATGC ACCTAGAAAT TACAGTAATT 
    AAATTAGATG GCACTACTCC TGTTCGATAT GGGCTGAGAT TGAACATGGA TGAGAAGTAC 
    ACAGGCTTGA AAAAACAGCT GAGTGAACTC TGTGGCCTCA AACCAGAGCA GATTCTGCTT 
    GCAGAGGTGC ACAGCTCCAA TATAAAGAAC TTCCCTCAGG ACAACCAGAA GGTCCGGCTG 
    TCTGTGAGCG GCTTCCTGTG TGCGTTTGAG ATCCCCATCC CAGGCTCCCC CACGTCAGCA 
    TCCAGCCCTG TGCAGACAGA GACCTCAACT GGGCCATCAG CCAACGGAGC CCCCAGCATC 
    CTGATGAACG GGGACGTTGC CAAGCCAAGC CTCATTCCCA ATGGGATGCC AAACACTGTG 
    GTGCCATGTG GGACGGAGCG CAGCCCGCCC AGCTGGACCC TCAACGGCCA CGTGCCCTCG 
    CTGTGTGACA GCCCCTGCAC AGGCTACATC ATTGCAGTGC ACAGGAAAAT GATGAGGACA 
    GAGCTGTATT TTCTCTCATC TCAGAAGAAT CGGCCCAGTC TCTTTGGAAT GCCATTGATT 
    GTTCCCTGCA CAGTTCACAC ACGGAAAAGG GACCTCTATG ATGCTGTGTG GATCCAGGTG 
    TCCAGGCTGG CCAGCCCCCT CCCTCCTCAG GAAGCCAGTA ACCATGCACA GGACTGTGAT 
    GACAGCATGG GGTATCAATA CCCCTTCACC CTCAGGGTAG TTCAGAAGGA TGGAAATTCT 
    TGTGCTTGGT GTCCATGGTA CAGGTTCTGC CGTGGCTGTA AGATTGAGTG CACAGAGGAC 
    AGGGCTTGTG TGGGCAGTGC CTACATTGCT GTGGACTGGG ACCCCACCGC GCTGCACCTG 
    CGCTACCAGA CCTCACAGGA ACGGATCGTG GAAGAACATG AAAGTGTTGA ACAAAGCCGC 
    CGAGCCCAGG CAGAGCCCAT CAACCTGGAC AGCTGTCTGA GAGCCTTCAC CAGCGAGGAG 
    GAGCTGGGGG AGGATGAGAT GTACTACTGC TCCAAGTGCA AGACCCACTG TCTGGCCACC 
    AAAAAACTGG ATCTTTGGAG ACTTCCCCCT ATTTTGATCA TTCACCTGAA AAGATTTCAG 
    TTCGTTAATG GCCGCTGGAT AAAATCCCAG AAAATTGTTA AATTTCCCAG AGAAAATTTT 
    GACCCAAGTG CCTTTTTGGT ACAAAGGGAT CCGAGTCATT TCCAAAGGAA GCAGCTCACC 
    CTGCAGGTTG AGAGCCTTCC TGAAGCACGG CCTGGCCAAG GGGACACCAG GAAAGCAGAT 
    GTGCAGAACA CTGGCACAGC AGGAGAAGGG GACACTCTGA ACAGGAGTCC ATCCTCCCTA 
    AACACTACTG TCCTCAATAA TGTCAAAGCA TCTCCATCCT TGGGGCGGAA AAGTGGAACC 
    AGCTGCCCCT CAAGTAAAAA CAGCAGCCCC AACAGCAGCC CAAGGACTTT GGGGAGAGGC 
    AAAGGGCGCC TGCGGCTGCC CCAGCTGGGG AAAAACAAAC TGTCCAGCAG CAAGGAAAAC 
    CTGGCTGCAA ACAGGGAGAA CGGTGCTGAG CACGAGCAGG GGGATGCTCT GACTAAAGGA 
    CAGGCTTTGG GGGGCAGCCA GAGCGAGCTG TACCCCGGGC AGGACAGCGA GGGGGCTCTG 
    GCCAACGGGT TCCTGTGGGA GCAGAGCTCG CTCAGCAACG GGCAGGGCGA GAACCACAGC 
    GAGGACGACA CCGCCGACGA CCAAAGAGAC GACGGCTGGC TCAGCCCCAT CTACAACCTA 
    TATGCAATCT CGTGCCATTC AGGAATTATG GGAGGGGGTC ATTATGTCAC TTATGCCAAA 
    AACCCGAACA ACAAGTGGTA CTGCTACAAT GACAGCAGCT GCAAGGAGTT GCACCCGGAC 
    GAGATCGACA CGGACTCTGC CTACATTCTG TTCTACGAGC AGCAGGGGGT GGACTATGCC 
    CAGTTCCTGC CCAAGATCGA TGGCAAGAAG ATGGCAGACA CGAGCAGCAT GGACGAGGAC 
    TTCGAGTCCG ACTACAAGAA GTACTGCGTG CTGCAGTGA

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

    RefSeq XP_030143646.1
    CDS74..4912
    Translation

    Target ORF information:

    RefSeq Version XM_030287786.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030287786.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGGTAAG AATCCCCTGG TAGCTGCTGC AGCCAATACC 
    CCAGAACAGG GAGAAGACAA AATGGGAGGT CTTAATGGCT TCAGTGCACC AGAAGAAAAG 
    TTTTCAGATA ATATTTCCAC TGCCTCAGAA GCCTCAGAGT CCACCAGCAG CAATACTCTG 
    TACCCTGGCA CCCCAGGCTC TGAGGTGAGC TTTGCAAGGC AGCACAACAC TTCAGACAAT 
    AACAACCAGT GTTTCCTTGG ATCCAATGGG AATGCTCTGC TTCAGCTGAA CCCCCAGAAA 
    CCAGGAGCTA TTGATAACCA GCCCCTGGTC ACCCAGGAGC CAGTCAAGGC TGCATCATTA 
    ACTATGGAGG GTGGAAGGTT GAAGAGATCT CCACAGCTGG TGGAAGGAAA GGACTATGTC 
    ATGGTGCCAG AACCAGTTTG GAGAGCACTT TACCACTGGT ATGGAGCAAA CCTGTCCTTG 
    CCCAGGCCGG TGATCAAGAA CAGCAAGACC AACGTGCCCG AGCTGGAGCT GTTCCCTCGC 
    TACCTGCTGT TCCTGCGGCA GCAGCCGGCC ACGCGCACCC AGCAGTCCAA CGTCTGGGTC 
    AATATGGGTA TGATGAGCCT CAGAATGTTC CCTCAGCATT TGCCCAGAGG GAATGTCCCT 
    TCCCCAAATG CTCCTTTGAA GAGGGTGCTG GCTTACACTG GCTGCTTCAG TCGGATGCAA 
    ACCATCAAAG AAATCCACGA GTACCTGTCC CAGAGGCTGC GGATAAAGGA GGAGGACATG 
    CGCCTCTGGC TCTACAACAG TGAGAACTAT CTCACTTTGC TGGATGATGA AGATCATAGA 
    CTGGAATACC TTAAAATCCA AGATGAGCAG CATTTAGTAA TAGAAGTTCG AAACAAAGAC 
    ATGAGCTGGC CAGAAGAGAT GTCTTTTATA GCAAACAGCA GTAAAATAGA CAGACACAAA 
    GTTCCTACTG AGAAGGGTGC TACAGGCCTG AGCAACCTGG GGAACACGTG CTTCATGAAC 
    TCCAGCATCC AGTGTGTCAG CAACACGCAG CCCCTGACCC GTTACTTCAT CTCAGGGAGG 
    CATCTCTACG AGCTGAACAG GACAAATCCC ATAGGAATGA AAGGACACAT GGCCAAGTGC 
    TATGGGGATT TGGTGCAGGA GCTGTGGAGT GGCACCCAGA AGAACATCGC CCCCTTAAAG 
    CTGAGGTGGA CAATAGCAAA ATATGCTCCA AGATTTAATG GCTTTCAACA GCAAGACTCA 
    CAGGAGCTTC TGGCTTTTCT TCTGGATGGG CTCCATGAGG ACTTGAACAG AGTTCATGAT 
    AAGCCATATG TGGAACTGAA GGACAGTGAT GGTCGGCCAG ACTGGGAGGT AGCAGCAGAG 
    GCCTGGGAAA ACCATCTGAG AAGAAACAGA TCCATTGTTG TAGATTTATT TCATGGGCAG 
    CTGAAGTCAC AAGTGAAATG TAAAACTTGT GGGCATATAA GTGTTAGGTT TGACCCTTTT 
    AATTTTTTAT CCTTGCCTTT GCCAATGGAC AGCTACATGC ACCTAGAAAT TACAGTAATT 
    AAATTAGATG GCACTACTCC TGTTCGATAT GGGCTGAGAT TGAACATGGA TGAGAAGTAC 
    ACAGGCTTGA AAAAACAGCT GAGTGAACTC TGTGGCCTCA AACCAGAGCA GATTCTGCTT 
    GCAGAGGTGC ACAGCTCCAA TATAAAGAAC TTCCCTCAGG ACAACCAGAA GGTCCGGCTG 
    TCTGTGAGCG GCTTCCTGTG TGCGTTTGAG ATCCCCATCC CAGGCTCCCC CACGTCAGCA 
    TCCAGCCCTG TGCAGACAGA GACCTCAACT GGGCCATCAG CCAACGGAGC CCCCAGCATC 
    CTGATGAACG GGGACGTTGC CAAGCCAAGC CTCATTCCCA ATGGGATGCC AAACACTGTG 
    GTGCCATGTG GGACGGAGCG CAGCCCGCCC AGCTGGACCC TCAACGGCCA CGTGCCCTCG 
    CTGTGTGACA GCCCCTGCAC AGGCTACATC ATTGCAGTGC ACAGGAAAAT GATGAGGACA 
    GAGCTGTATT TTCTCTCATC TCAGAAGAAT CGGCCCAGTC TCTTTGGAAT GCCATTGATT 
    GTTCCCTGCA CAGTTCACAC ACGGAAAAGG GACCTCTATG ATGCTGTGTG GATCCAGGTG 
    TCCAGGCTGG CCAGCCCCCT CCCTCCTCAG GAAGCCAGTA ACCATGCACA GGACTGTGAT 
    GACAGCATGG GGTATCAATA CCCCTTCACC CTCAGGGTAG TTCAGAAGGA TGGAAATTCT 
    TGTGCTTGGT GTCCATGGTA CAGGTTCTGC CGTGGCTGTA AGATTGAGTG CACAGAGGAC 
    AGGGCTTGTG TGGGCAGTGC CTACATTGCT GTGGACTGGG ACCCCACCGC GCTGCACCTG 
    CGCTACCAGA CCTCACAGGA ACGGATCGTG GAAGAACATG AAAGTGTTGA ACAAAGCCGC 
    CGAGCCCAGG CAGAGCCCAT CAACCTGGAC AGCTGTCTGA GAGCCTTCAC CAGCGAGGAG 
    GAGCTGGGGG AGGATGAGAT GTACTACTGC TCCAAGTGCA AGACCCACTG TCTGGCCACC 
    AAAAAACTGG ATCTTTGGAG ACTTCCCCCT ATTTTGATCA TTCACCTGAA AAGATTTCAG 
    TTCGTTAATG GCCGCTGGAT AAAATCCCAG AAAATTGTTA AATTTCCCAG AGAAAATTTT 
    GACCCAAGTG CCTTTTTGGT ACAAAGGGAT CCGAGTCATT TCCAAAGGAA GCAGCTCACC 
    CTGCAGGTTG AGAGCCTTCC TGAAGCACGG CCTGGCCAAG GGGACACCAG GAAAGCAGAT 
    GTGCAGAACA CTGGCACAGC AGGAGAAGGG GACACTCTGA ACAGGAGTCC ATCCTCCCTA 
    AACACTACTG TCCTCAATAA TGTCAAAGCA TCTCCATCCT TGGGGCGGAA AAGTGGAACC 
    AGCTGCCCCT CAAGTAAAAA CAGCAGCCCC AACAGCAGCC CAAGGACTTT GGGGAGAGGC 
    AAAGGGCGCC TGCGGCTGCC CCAGCTGGGG AAAAACAAAC TGTCCAGCAG CAAGGAAAAC 
    CTGGCTGCAA ACAGGGAGAA CGGTGCTGAG CACGAGCAGG GGGATGCTCT GACTAAAGGA 
    CAGGCTTTGG GGGGCAGCCA GAGCGAGCTG TACCCCGGGC AGGACAGCGA GGGGGCTCTG 
    GCCAACGGGT TCCTGTGGGA GCAGAGCTCG CTCAGCAACG GGCAGGGCGA GAACCACAGC 
    GAGGACGACA CCGCCGACGA CCAAAGAGAC GACGGCTGGC TCAGCCCCAT CTACAACCTA 
    TATGCAATCT CGTGCCATTC AGGAATTATG GGAGGGGGTC ATTATGTCAC TTATGCCAAA 
    AACCCGAACA ACAAGTGGTA CTGCTACAAT GACAGCAGCT GCAAGGAGTT GCACCCGGAC 
    GAGATCGACA CGGACTCTGC CTACATTCTG TTCTACGAGC AGCAGGGGGT GGACTATGCC 
    CAGTTCCTGC CCAAGATCGA TGGCAAGAAG ATGGCAGACA CGAGCAGCAT GGACGAGGAC 
    TTCGAGTCCG ACTACAAGAA GTACTGCGTG CTGCAGTGA

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

    USP32 ( XM_030287787.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030143647.1 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OTd31829
    Clone ID Related Accession (Same CDS sequence) XM_030287787.1
    Accession Version XM_030287787.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4797bp)
    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 32 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044231.1) 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGGTAAG AATCCCCTGG TAGCTGCTGC AGCCAATACC 
    CCAGAACAGG GAGAAGACAA AATGGGAGGT CTTAATGGCT TCAGTGCACC AGAAGAAAAG 
    TTTTCAGATA ATATTTCCAC TGCCTCAGAA GCCTCAGAGT CCACCAGCAG CAATACTCTG 
    TACCCTGGCA CCCCAGGCTC TGAGGTGAGC TTTGCAAGGC AGCACAACAC TTCAGACAAT 
    AACAACCAGT GTTTCCTTGG ATCCAATGGG AATGCTCTGC TTCAGCTGAA CCCCCAGAAA 
    CCAGGAGCTA TTGATAACCA GCCCCTGGTC ACCCAGGAGC CAGTCAAGGC TGCATCATTA 
    ACTATGGAGG GTGGAAGGTT GAAGAGATCT CCACAGCTGG TGGAAGGAAA GGACTATGTC 
    ATGGTGCCAG AACCAGTTTG GAGAGCACTT TACCACTGGT ATGGAGCAAA CCTGTCCTTG 
    CCCAGGCCGG TGATCAAGAA CAGCAAGACC AACGTGCCCG AGCTGGAGCT GTTCCCTCGC 
    TACCTGCTGT TCCTGCGGCA GCAGCCGGCC ACGCGCACCC AGCAGTCCAA CGTCTGGGTC 
    AATATGGGGA ATGTCCCTTC CCCAAATGCT CCTTTGAAGA GGGTGCTGGC TTACACTGGC 
    TGCTTCAGTC GGATGCAAAC CATCAAAGAA ATCCACGAGT ACCTGTCCCA GAGGCTGCGG 
    ATAAAGGAGG AGGACATGCG CCTCTGGCTC TACAACAGTG AGAACTATCT CACTTTGCTG 
    GATGATGAAG ATCATAGACT GGAATACCTT AAAATCCAAG ATGAGCAGCA TTTAGTAATA 
    GAAGTTCGAA ACAAAGACAT GAGCTGGCCA GAAGAGATGT CTTTTATAGC AAACAGCAGT 
    AAAATAGACA GACACAAAGT TCCTACTGAG AAGGGTGCTA CAGGCCTGAG CAACCTGGGG 
    AACACGTGCT TCATGAACTC CAGCATCCAG TGTGTCAGCA ACACGCAGCC CCTGACCCGT 
    TACTTCATCT CAGGGAGGCA TCTCTACGAG CTGAACAGGA CAAATCCCAT AGGAATGAAA 
    GGACACATGG CCAAGTGCTA TGGGGATTTG GTGCAGGAGC TGTGGAGTGG CACCCAGAAG 
    AACATCGCCC CCTTAAAGCT GAGGTGGACA ATAGCAAAAT ATGCTCCAAG ATTTAATGGC 
    TTTCAACAGC AAGACTCACA GGAGCTTCTG GCTTTTCTTC TGGATGGGCT CCATGAGGAC 
    TTGAACAGAG TTCATGATAA GCCATATGTG GAACTGAAGG ACAGTGATGG TCGGCCAGAC 
    TGGGAGGTAG CAGCAGAGGC CTGGGAAAAC CATCTGAGAA GAAACAGATC CATTGTTGTA 
    GATTTATTTC ATGGGCAGCT GAAGTCACAA GTGAAATGTA AAACTTGTGG GCATATAAGT 
    GTTAGGTTTG ACCCTTTTAA TTTTTTATCC TTGCCTTTGC CAATGGACAG CTACATGCAC 
    CTAGAAATTA CAGTAATTAA ATTAGATGGC ACTACTCCTG TTCGATATGG GCTGAGATTG 
    AACATGGATG AGAAGTACAC AGGCTTGAAA AAACAGCTGA GTGAACTCTG TGGCCTCAAA 
    CCAGAGCAGA TTCTGCTTGC AGAGGTGCAC AGCTCCAATA TAAAGAACTT CCCTCAGGAC 
    AACCAGAAGG TCCGGCTGTC TGTGAGCGGC TTCCTGTGTG CGTTTGAGAT CCCCATCCCA 
    GGCTCCCCCA CGTCAGCATC CAGCCCTGTG CAGACAGAGA CCTCAACTGG GCCATCAGCC 
    AACGGAGCCC CCAGCATCCT GATGAACGGG GACGTTGCCA AGCCAAGCCT CATTCCCAAT 
    GGGATGCCAA ACACTGTGGT GCCATGTGGG ACGGAGCGCA GCCCGCCCAG CTGGACCCTC 
    AACGGCCACG TGCCCTCGCT GTGTGACAGC CCCTGCACAG GCTACATCAT TGCAGTGCAC 
    AGGAAAATGA TGAGGACAGA GCTGTATTTT CTCTCATCTC AGAAGAATCG GCCCAGTCTC 
    TTTGGAATGC CATTGATTGT TCCCTGCACA GTTCACACAC GGAAAAGGGA CCTCTATGAT 
    GCTGTGTGGA TCCAGGTGTC CAGGCTGGCC AGCCCCCTCC CTCCTCAGGA AGCCAGTAAC 
    CATGCACAGG ACTGTGATGA CAGCATGGGG TATCAATACC CCTTCACCCT CAGGGTAGTT 
    CAGAAGGATG GAAATTCTTG TGCTTGGTGT CCATGGTACA GGTTCTGCCG TGGCTGTAAG 
    ATTGAGTGCA CAGAGGACAG GGCTTGTGTG GGCAGTGCCT ACATTGCTGT GGACTGGGAC 
    CCCACCGCGC TGCACCTGCG CTACCAGACC TCACAGGAAC GGATCGTGGA AGAACATGAA 
    AGTGTTGAAC AAAGCCGCCG AGCCCAGGCA GAGCCCATCA ACCTGGACAG CTGTCTGAGA 
    GCCTTCACCA GCGAGGAGGA GCTGGGGGAG GATGAGATGT ACTACTGCTC CAAGTGCAAG 
    ACCCACTGTC TGGCCACCAA AAAACTGGAT CTTTGGAGAC TTCCCCCTAT TTTGATCATT 
    CACCTGAAAA GATTTCAGTT CGTTAATGGC CGCTGGATAA AATCCCAGAA AATTGTTAAA 
    TTTCCCAGAG AAAATTTTGA CCCAAGTGCC TTTTTGGTAC AAAGGGATCC GAGTCATTTC 
    CAAAGGAAGC AGCTCACCCT GCAGGTTGAG AGCCTTCCTG AAGCACGGCC TGGCCAAGGG 
    GACACCAGGA AAGCAGATGT GCAGAACACT GGCACAGCAG GAGAAGGGGA CACTCTGAAC 
    AGGAGTCCAT CCTCCCTAAA CACTACTGTC CTCAATAATG TCAAAGCATC TCCATCCTTG 
    GGGCGGAAAA GTGGAACCAG CTGCCCCTCA AGTAAAAACA GCAGCCCCAA CAGCAGCCCA 
    AGGACTTTGG GGAGAGGCAA AGGGCGCCTG CGGCTGCCCC AGCTGGGGAA AAACAAACTG 
    TCCAGCAGCA AGGAAAACCT GGCTGCAAAC AGGGAGAACG GTGCTGAGCA CGAGCAGGGG 
    GATGCTCTGA CTAAAGGACA GGCTTTGGGG GGCAGCCAGA GCGAGCTGTA CCCCGGGCAG 
    GACAGCGAGG GGGCTCTGGC CAACGGGTTC CTGTGGGAGC AGAGCTCGCT CAGCAACGGG 
    CAGGGCGAGA ACCACAGCGA GGACGACACC GCCGACGACC AAAGAGACGA CGGCTGGCTC 
    AGCCCCATCT ACAACCTATA TGCAATCTCG TGCCATTCAG GAATTATGGG AGGGGGTCAT 
    TATGTCACTT ATGCCAAAAA CCCGAACAAC AAGTGGTACT GCTACAATGA CAGCAGCTGC 
    AAGGAGTTGC ACCCGGACGA GATCGACACG GACTCTGCCT ACATTCTGTT CTACGAGCAG 
    CAGGGGGTGG ACTATGCCCA GTTCCTGCCC AAGATCGATG GCAAGAAGAT GGCAGACACG 
    AGCAGCATGG ACGAGGACTT CGAGTCCGAC TACAAGAAGT ACTGCGTGCT GCAGTGA

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

    RefSeq XP_030143647.1
    CDS93..4889
    Translation

    Target ORF information:

    RefSeq Version XM_030287787.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030287787.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGGTAAG AATCCCCTGG TAGCTGCTGC AGCCAATACC 
    CCAGAACAGG GAGAAGACAA AATGGGAGGT CTTAATGGCT TCAGTGCACC AGAAGAAAAG 
    TTTTCAGATA ATATTTCCAC TGCCTCAGAA GCCTCAGAGT CCACCAGCAG CAATACTCTG 
    TACCCTGGCA CCCCAGGCTC TGAGGTGAGC TTTGCAAGGC AGCACAACAC TTCAGACAAT 
    AACAACCAGT GTTTCCTTGG ATCCAATGGG AATGCTCTGC TTCAGCTGAA CCCCCAGAAA 
    CCAGGAGCTA TTGATAACCA GCCCCTGGTC ACCCAGGAGC CAGTCAAGGC TGCATCATTA 
    ACTATGGAGG GTGGAAGGTT GAAGAGATCT CCACAGCTGG TGGAAGGAAA GGACTATGTC 
    ATGGTGCCAG AACCAGTTTG GAGAGCACTT TACCACTGGT ATGGAGCAAA CCTGTCCTTG 
    CCCAGGCCGG TGATCAAGAA CAGCAAGACC AACGTGCCCG AGCTGGAGCT GTTCCCTCGC 
    TACCTGCTGT TCCTGCGGCA GCAGCCGGCC ACGCGCACCC AGCAGTCCAA CGTCTGGGTC 
    AATATGGGGA ATGTCCCTTC CCCAAATGCT CCTTTGAAGA GGGTGCTGGC TTACACTGGC 
    TGCTTCAGTC GGATGCAAAC CATCAAAGAA ATCCACGAGT ACCTGTCCCA GAGGCTGCGG 
    ATAAAGGAGG AGGACATGCG CCTCTGGCTC TACAACAGTG AGAACTATCT CACTTTGCTG 
    GATGATGAAG ATCATAGACT GGAATACCTT AAAATCCAAG ATGAGCAGCA TTTAGTAATA 
    GAAGTTCGAA ACAAAGACAT GAGCTGGCCA GAAGAGATGT CTTTTATAGC AAACAGCAGT 
    AAAATAGACA GACACAAAGT TCCTACTGAG AAGGGTGCTA CAGGCCTGAG CAACCTGGGG 
    AACACGTGCT TCATGAACTC CAGCATCCAG TGTGTCAGCA ACACGCAGCC CCTGACCCGT 
    TACTTCATCT CAGGGAGGCA TCTCTACGAG CTGAACAGGA CAAATCCCAT AGGAATGAAA 
    GGACACATGG CCAAGTGCTA TGGGGATTTG GTGCAGGAGC TGTGGAGTGG CACCCAGAAG 
    AACATCGCCC CCTTAAAGCT GAGGTGGACA ATAGCAAAAT ATGCTCCAAG ATTTAATGGC 
    TTTCAACAGC AAGACTCACA GGAGCTTCTG GCTTTTCTTC TGGATGGGCT CCATGAGGAC 
    TTGAACAGAG TTCATGATAA GCCATATGTG GAACTGAAGG ACAGTGATGG TCGGCCAGAC 
    TGGGAGGTAG CAGCAGAGGC CTGGGAAAAC CATCTGAGAA GAAACAGATC CATTGTTGTA 
    GATTTATTTC ATGGGCAGCT GAAGTCACAA GTGAAATGTA AAACTTGTGG GCATATAAGT 
    GTTAGGTTTG ACCCTTTTAA TTTTTTATCC TTGCCTTTGC CAATGGACAG CTACATGCAC 
    CTAGAAATTA CAGTAATTAA ATTAGATGGC ACTACTCCTG TTCGATATGG GCTGAGATTG 
    AACATGGATG AGAAGTACAC AGGCTTGAAA AAACAGCTGA GTGAACTCTG TGGCCTCAAA 
    CCAGAGCAGA TTCTGCTTGC AGAGGTGCAC AGCTCCAATA TAAAGAACTT CCCTCAGGAC 
    AACCAGAAGG TCCGGCTGTC TGTGAGCGGC TTCCTGTGTG CGTTTGAGAT CCCCATCCCA 
    GGCTCCCCCA CGTCAGCATC CAGCCCTGTG CAGACAGAGA CCTCAACTGG GCCATCAGCC 
    AACGGAGCCC CCAGCATCCT GATGAACGGG GACGTTGCCA AGCCAAGCCT CATTCCCAAT 
    GGGATGCCAA ACACTGTGGT GCCATGTGGG ACGGAGCGCA GCCCGCCCAG CTGGACCCTC 
    AACGGCCACG TGCCCTCGCT GTGTGACAGC CCCTGCACAG GCTACATCAT TGCAGTGCAC 
    AGGAAAATGA TGAGGACAGA GCTGTATTTT CTCTCATCTC AGAAGAATCG GCCCAGTCTC 
    TTTGGAATGC CATTGATTGT TCCCTGCACA GTTCACACAC GGAAAAGGGA CCTCTATGAT 
    GCTGTGTGGA TCCAGGTGTC CAGGCTGGCC AGCCCCCTCC CTCCTCAGGA AGCCAGTAAC 
    CATGCACAGG ACTGTGATGA CAGCATGGGG TATCAATACC CCTTCACCCT CAGGGTAGTT 
    CAGAAGGATG GAAATTCTTG TGCTTGGTGT CCATGGTACA GGTTCTGCCG TGGCTGTAAG 
    ATTGAGTGCA CAGAGGACAG GGCTTGTGTG GGCAGTGCCT ACATTGCTGT GGACTGGGAC 
    CCCACCGCGC TGCACCTGCG CTACCAGACC TCACAGGAAC GGATCGTGGA AGAACATGAA 
    AGTGTTGAAC AAAGCCGCCG AGCCCAGGCA GAGCCCATCA ACCTGGACAG CTGTCTGAGA 
    GCCTTCACCA GCGAGGAGGA GCTGGGGGAG GATGAGATGT ACTACTGCTC CAAGTGCAAG 
    ACCCACTGTC TGGCCACCAA AAAACTGGAT CTTTGGAGAC TTCCCCCTAT TTTGATCATT 
    CACCTGAAAA GATTTCAGTT CGTTAATGGC CGCTGGATAA AATCCCAGAA AATTGTTAAA 
    TTTCCCAGAG AAAATTTTGA CCCAAGTGCC TTTTTGGTAC AAAGGGATCC GAGTCATTTC 
    CAAAGGAAGC AGCTCACCCT GCAGGTTGAG AGCCTTCCTG AAGCACGGCC TGGCCAAGGG 
    GACACCAGGA AAGCAGATGT GCAGAACACT GGCACAGCAG GAGAAGGGGA CACTCTGAAC 
    AGGAGTCCAT CCTCCCTAAA CACTACTGTC CTCAATAATG TCAAAGCATC TCCATCCTTG 
    GGGCGGAAAA GTGGAACCAG CTGCCCCTCA AGTAAAAACA GCAGCCCCAA CAGCAGCCCA 
    AGGACTTTGG GGAGAGGCAA AGGGCGCCTG CGGCTGCCCC AGCTGGGGAA AAACAAACTG 
    TCCAGCAGCA AGGAAAACCT GGCTGCAAAC AGGGAGAACG GTGCTGAGCA CGAGCAGGGG 
    GATGCTCTGA CTAAAGGACA GGCTTTGGGG GGCAGCCAGA GCGAGCTGTA CCCCGGGCAG 
    GACAGCGAGG GGGCTCTGGC CAACGGGTTC CTGTGGGAGC AGAGCTCGCT CAGCAACGGG 
    CAGGGCGAGA ACCACAGCGA GGACGACACC GCCGACGACC AAAGAGACGA CGGCTGGCTC 
    AGCCCCATCT ACAACCTATA TGCAATCTCG TGCCATTCAG GAATTATGGG AGGGGGTCAT 
    TATGTCACTT ATGCCAAAAA CCCGAACAAC AAGTGGTACT GCTACAATGA CAGCAGCTGC 
    AAGGAGTTGC ACCCGGACGA GATCGACACG GACTCTGCCT ACATTCTGTT CTACGAGCAG 
    CAGGGGGTGG ACTATGCCCA GTTCCTGCCC AAGATCGATG GCAAGAAGAT GGCAGACACG 
    AGCAGCATGG ACGAGGACTT CGAGTCCGAC TACAAGAAGT ACTGCGTGCT GCAGTGA

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

    USP32 ( XM_030287788.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030143648.1 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OTd31830
    Clone ID Related Accession (Same CDS sequence) XM_030287788.1
    Accession Version XM_030287788.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4737bp)
    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 32 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044231.1) 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGATACT CTGTACCCTG GCACCCCAGG CTCTGAGGTG 
    AGCTTTGCAA GGCAGCACAA CACTTCAGAC AATAACAACC AGTGTTTCCT TGGATCCAAT 
    GGGAATGCTC TGCTTCAGCT GAACCCCCAG AAACCAGGAG CTATTGATAA CCAGCCCCTG 
    GTCACCCAGG AGCCAGTCAA GGCTGCATCA TTAACTATGG AGGGTGGAAG GTTGAAGAGA 
    TCTCCACAGC TGGTGGAAGG AAAGGACTAT GTCATGGTGC CAGAACCAGT TTGGAGAGCA 
    CTTTACCACT GGTATGGAGC AAACCTGTCC TTGCCCAGGC CGGTGATCAA GAACAGCAAG 
    ACCAACGTGC CCGAGCTGGA GCTGTTCCCT CGCTACCTGC TGTTCCTGCG GCAGCAGCCG 
    GCCACGCGCA CCCAGCAGTC CAACGTCTGG GTCAATATGG GTATGATGAG CCTCAGAATG 
    TTCCCTCAGC ATTTGCCCAG AGGGAATGTC CCTTCCCCAA ATGCTCCTTT GAAGAGGGTG 
    CTGGCTTACA CTGGCTGCTT CAGTCGGATG CAAACCATCA AAGAAATCCA CGAGTACCTG 
    TCCCAGAGGC TGCGGATAAA GGAGGAGGAC ATGCGCCTCT GGCTCTACAA CAGTGAGAAC 
    TATCTCACTT TGCTGGATGA TGAAGATCAT AGACTGGAAT ACCTTAAAAT CCAAGATGAG 
    CAGCATTTAG TAATAGAAGT TCGAAACAAA GACATGAGCT GGCCAGAAGA GATGTCTTTT 
    ATAGCAAACA GCAGTAAAAT AGACAGACAC AAAGTTCCTA CTGAGAAGGG TGCTACAGGC 
    CTGAGCAACC TGGGGAACAC GTGCTTCATG AACTCCAGCA TCCAGTGTGT CAGCAACACG 
    CAGCCCCTGA CCCGTTACTT CATCTCAGGG AGGCATCTCT ACGAGCTGAA CAGGACAAAT 
    CCCATAGGAA TGAAAGGACA CATGGCCAAG TGCTATGGGG ATTTGGTGCA GGAGCTGTGG 
    AGTGGCACCC AGAAGAACAT CGCCCCCTTA AAGCTGAGGT GGACAATAGC AAAATATGCT 
    CCAAGATTTA ATGGCTTTCA ACAGCAAGAC TCACAGGAGC TTCTGGCTTT TCTTCTGGAT 
    GGGCTCCATG AGGACTTGAA CAGAGTTCAT GATAAGCCAT ATGTGGAACT GAAGGACAGT 
    GATGGTCGGC CAGACTGGGA GGTAGCAGCA GAGGCCTGGG AAAACCATCT GAGAAGAAAC 
    AGATCCATTG TTGTAGATTT ATTTCATGGG CAGCTGAAGT CACAAGTGAA ATGTAAAACT 
    TGTGGGCATA TAAGTGTTAG GTTTGACCCT TTTAATTTTT TATCCTTGCC TTTGCCAATG 
    GACAGCTACA TGCACCTAGA AATTACAGTA ATTAAATTAG ATGGCACTAC TCCTGTTCGA 
    TATGGGCTGA GATTGAACAT GGATGAGAAG TACACAGGCT TGAAAAAACA GCTGAGTGAA 
    CTCTGTGGCC TCAAACCAGA GCAGATTCTG CTTGCAGAGG TGCACAGCTC CAATATAAAG 
    CTGAAGGTAT CCAAGTGCCT GAGCAGCTTT CCCTCTCTCC TGAAGAACTT CCCTCAGGAC 
    AACCAGAAGG TCCGGCTGTC TGTGAGCGGC TTCCTGTGTG CGTTTGAGAT CCCCATCCCA 
    GGCTCCCCCA CGTCAGCATC CAGCCCTGTG CAGACAGAGA CCTCAACTGG GCCATCAGCC 
    AACGGAGCCC CCAGCATCCT GATGAACGGG GACGTTGCCA AGCCAAGCCT CATTCCCAAT 
    GGGATGCCAA ACACTGTGGT GCCATGTGGG ACGGAGCGCA GCCCGCCCAG CTGGACCCTC 
    AACGGCCACG TGCCCTCGCT GTGTGACAGC CCCTGCACAG GCTACATCAT TGCAGTGCAC 
    AGGAAAATGA TGAGGACAGA GCTGTATTTT CTCTCATCTC AGAAGAATCG GCCCAGTCTC 
    TTTGGAATGC CATTGATTGT TCCCTGCACA GTTCACACAC GGAAAAGGGA CCTCTATGAT 
    GCTGTGTGGA TCCAGGTGTC CAGGCTGGCC AGCCCCCTCC CTCCTCAGGA AGCCAGTAAC 
    CATGCACAGG ACTGTGATGA CAGCATGGGG TATCAATACC CCTTCACCCT CAGGGTAGTT 
    CAGAAGGATG GAAATTCTTG TGCTTGGTGT CCATGGTACA GGTTCTGCCG TGGCTGTAAG 
    ATTGAGTGCA CAGAGGACAG GGCTTGTGTG GGCAGTGCCT ACATTGCTGT GGACTGGGAC 
    CCCACCGCGC TGCACCTGCG CTACCAGACC TCACAGGAAC GGATCGTGGA AGAACATGAA 
    AGTGTTGAAC AAAGCCGCCG AGCCCAGGCA GAGCCCATCA ACCTGGACAG CTGTCTGAGA 
    GCCTTCACCA GCGAGGAGGA GCTGGGGGAG GATGAGATGT ACTACTGCTC CAAGTGCAAG 
    ACCCACTGTC TGGCCACCAA AAAACTGGAT CTTTGGAGAC TTCCCCCTAT TTTGATCATT 
    CACCTGAAAA GATTTCAGTT CGTTAATGGC CGCTGGATAA AATCCCAGAA AATTGTTAAA 
    TTTCCCAGAG AAAATTTTGA CCCAAGTGCC TTTTTGGTAC AAAGGGATCC GAGTCATTTC 
    CAAAGGAAGC AGCTCACCCT GCAGGTTGAG AGCCTTCCTG AAGCACGGCC TGGCCAAGGG 
    GACACCAGGA AAGCAGATGT GCAGAACACT GGCACAGCAG GAGAAGGGGA CACTCTGAAC 
    AGGAGTCCAT CCTCCCTAAA CACTACTGTC CTCAATAATG TCAAAGCATC TCCATCCTTG 
    GGGCGGAAAA GTGGAACCAG CTGCCCCTCA AGTAAAAACA GCAGCCCCAA CAGCAGCCCA 
    AGGACTTTGG GGAGAGGCAA AGGGCGCCTG CGGCTGCCCC AGCTGGGGAA AAACAAACTG 
    TCCAGCAGCA AGGAAAACCT GGCTGCAAAC AGGGAGAACG GTGCTGAGCA CGAGCAGGGG 
    GATGCTCTGA CTAAAGGACA GGCTTTGGGG GGCAGCCAGA GCGAGCTGTA CCCCGGGCAG 
    GACAGCGAGG GGGCTCTGGC CAACGGGTTC CTGTGGGAGC AGAGCTCGCT CAGCAACGGG 
    CAGGGCGAGA ACCACAGCGA GGACGACACC GCCGACGACC AAAGAGACGA CGGCTGGCTC 
    AGCCCCATCT ACAACCTATA TGCAATCTCG TGCCATTCAG GAATTATGGG AGGGGGTCAT 
    TATGTCACTT ATGCCAAAAA CCCGAACAAC AAGTGGTACT GCTACAATGA CAGCAGCTGC 
    AAGGAGTTGC ACCCGGACGA GATCGACACG GACTCTGCCT ACATTCTGTT CTACGAGCAG 
    CAGGGGGTGG ACTATGCCCA GTTCCTGCCC AAGATCGATG GCAAGAAGAT GGCAGACACG 
    AGCAGCATGG ACGAGGACTT CGAGTCCGAC TACAAGAAGT ACTGCGTGCT GCAGTGA

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

    RefSeq XP_030143648.1
    CDS74..4810
    Translation

    Target ORF information:

    RefSeq Version XM_030287788.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030287788.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGATACT CTGTACCCTG GCACCCCAGG CTCTGAGGTG 
    AGCTTTGCAA GGCAGCACAA CACTTCAGAC AATAACAACC AGTGTTTCCT TGGATCCAAT 
    GGGAATGCTC TGCTTCAGCT GAACCCCCAG AAACCAGGAG CTATTGATAA CCAGCCCCTG 
    GTCACCCAGG AGCCAGTCAA GGCTGCATCA TTAACTATGG AGGGTGGAAG GTTGAAGAGA 
    TCTCCACAGC TGGTGGAAGG AAAGGACTAT GTCATGGTGC CAGAACCAGT TTGGAGAGCA 
    CTTTACCACT GGTATGGAGC AAACCTGTCC TTGCCCAGGC CGGTGATCAA GAACAGCAAG 
    ACCAACGTGC CCGAGCTGGA GCTGTTCCCT CGCTACCTGC TGTTCCTGCG GCAGCAGCCG 
    GCCACGCGCA CCCAGCAGTC CAACGTCTGG GTCAATATGG GTATGATGAG CCTCAGAATG 
    TTCCCTCAGC ATTTGCCCAG AGGGAATGTC CCTTCCCCAA ATGCTCCTTT GAAGAGGGTG 
    CTGGCTTACA CTGGCTGCTT CAGTCGGATG CAAACCATCA AAGAAATCCA CGAGTACCTG 
    TCCCAGAGGC TGCGGATAAA GGAGGAGGAC ATGCGCCTCT GGCTCTACAA CAGTGAGAAC 
    TATCTCACTT TGCTGGATGA TGAAGATCAT AGACTGGAAT ACCTTAAAAT CCAAGATGAG 
    CAGCATTTAG TAATAGAAGT TCGAAACAAA GACATGAGCT GGCCAGAAGA GATGTCTTTT 
    ATAGCAAACA GCAGTAAAAT AGACAGACAC AAAGTTCCTA CTGAGAAGGG TGCTACAGGC 
    CTGAGCAACC TGGGGAACAC GTGCTTCATG AACTCCAGCA TCCAGTGTGT CAGCAACACG 
    CAGCCCCTGA CCCGTTACTT CATCTCAGGG AGGCATCTCT ACGAGCTGAA CAGGACAAAT 
    CCCATAGGAA TGAAAGGACA CATGGCCAAG TGCTATGGGG ATTTGGTGCA GGAGCTGTGG 
    AGTGGCACCC AGAAGAACAT CGCCCCCTTA AAGCTGAGGT GGACAATAGC AAAATATGCT 
    CCAAGATTTA ATGGCTTTCA ACAGCAAGAC TCACAGGAGC TTCTGGCTTT TCTTCTGGAT 
    GGGCTCCATG AGGACTTGAA CAGAGTTCAT GATAAGCCAT ATGTGGAACT GAAGGACAGT 
    GATGGTCGGC CAGACTGGGA GGTAGCAGCA GAGGCCTGGG AAAACCATCT GAGAAGAAAC 
    AGATCCATTG TTGTAGATTT ATTTCATGGG CAGCTGAAGT CACAAGTGAA ATGTAAAACT 
    TGTGGGCATA TAAGTGTTAG GTTTGACCCT TTTAATTTTT TATCCTTGCC TTTGCCAATG 
    GACAGCTACA TGCACCTAGA AATTACAGTA ATTAAATTAG ATGGCACTAC TCCTGTTCGA 
    TATGGGCTGA GATTGAACAT GGATGAGAAG TACACAGGCT TGAAAAAACA GCTGAGTGAA 
    CTCTGTGGCC TCAAACCAGA GCAGATTCTG CTTGCAGAGG TGCACAGCTC CAATATAAAG 
    CTGAAGGTAT CCAAGTGCCT GAGCAGCTTT CCCTCTCTCC TGAAGAACTT CCCTCAGGAC 
    AACCAGAAGG TCCGGCTGTC TGTGAGCGGC TTCCTGTGTG CGTTTGAGAT CCCCATCCCA 
    GGCTCCCCCA CGTCAGCATC CAGCCCTGTG CAGACAGAGA CCTCAACTGG GCCATCAGCC 
    AACGGAGCCC CCAGCATCCT GATGAACGGG GACGTTGCCA AGCCAAGCCT CATTCCCAAT 
    GGGATGCCAA ACACTGTGGT GCCATGTGGG ACGGAGCGCA GCCCGCCCAG CTGGACCCTC 
    AACGGCCACG TGCCCTCGCT GTGTGACAGC CCCTGCACAG GCTACATCAT TGCAGTGCAC 
    AGGAAAATGA TGAGGACAGA GCTGTATTTT CTCTCATCTC AGAAGAATCG GCCCAGTCTC 
    TTTGGAATGC CATTGATTGT TCCCTGCACA GTTCACACAC GGAAAAGGGA CCTCTATGAT 
    GCTGTGTGGA TCCAGGTGTC CAGGCTGGCC AGCCCCCTCC CTCCTCAGGA AGCCAGTAAC 
    CATGCACAGG ACTGTGATGA CAGCATGGGG TATCAATACC CCTTCACCCT CAGGGTAGTT 
    CAGAAGGATG GAAATTCTTG TGCTTGGTGT CCATGGTACA GGTTCTGCCG TGGCTGTAAG 
    ATTGAGTGCA CAGAGGACAG GGCTTGTGTG GGCAGTGCCT ACATTGCTGT GGACTGGGAC 
    CCCACCGCGC TGCACCTGCG CTACCAGACC TCACAGGAAC GGATCGTGGA AGAACATGAA 
    AGTGTTGAAC AAAGCCGCCG AGCCCAGGCA GAGCCCATCA ACCTGGACAG CTGTCTGAGA 
    GCCTTCACCA GCGAGGAGGA GCTGGGGGAG GATGAGATGT ACTACTGCTC CAAGTGCAAG 
    ACCCACTGTC TGGCCACCAA AAAACTGGAT CTTTGGAGAC TTCCCCCTAT TTTGATCATT 
    CACCTGAAAA GATTTCAGTT CGTTAATGGC CGCTGGATAA AATCCCAGAA AATTGTTAAA 
    TTTCCCAGAG AAAATTTTGA CCCAAGTGCC TTTTTGGTAC AAAGGGATCC GAGTCATTTC 
    CAAAGGAAGC AGCTCACCCT GCAGGTTGAG AGCCTTCCTG AAGCACGGCC TGGCCAAGGG 
    GACACCAGGA AAGCAGATGT GCAGAACACT GGCACAGCAG GAGAAGGGGA CACTCTGAAC 
    AGGAGTCCAT CCTCCCTAAA CACTACTGTC CTCAATAATG TCAAAGCATC TCCATCCTTG 
    GGGCGGAAAA GTGGAACCAG CTGCCCCTCA AGTAAAAACA GCAGCCCCAA CAGCAGCCCA 
    AGGACTTTGG GGAGAGGCAA AGGGCGCCTG CGGCTGCCCC AGCTGGGGAA AAACAAACTG 
    TCCAGCAGCA AGGAAAACCT GGCTGCAAAC AGGGAGAACG GTGCTGAGCA CGAGCAGGGG 
    GATGCTCTGA CTAAAGGACA GGCTTTGGGG GGCAGCCAGA GCGAGCTGTA CCCCGGGCAG 
    GACAGCGAGG GGGCTCTGGC CAACGGGTTC CTGTGGGAGC AGAGCTCGCT CAGCAACGGG 
    CAGGGCGAGA ACCACAGCGA GGACGACACC GCCGACGACC AAAGAGACGA CGGCTGGCTC 
    AGCCCCATCT ACAACCTATA TGCAATCTCG TGCCATTCAG GAATTATGGG AGGGGGTCAT 
    TATGTCACTT ATGCCAAAAA CCCGAACAAC AAGTGGTACT GCTACAATGA CAGCAGCTGC 
    AAGGAGTTGC ACCCGGACGA GATCGACACG GACTCTGCCT ACATTCTGTT CTACGAGCAG 
    CAGGGGGTGG ACTATGCCCA GTTCCTGCCC AAGATCGATG GCAAGAAGAT GGCAGACACG 
    AGCAGCATGG ACGAGGACTT CGAGTCCGAC TACAAGAAGT ACTGCGTGCT GCAGTGA

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

    USP32 ( XM_030287789.1 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_030143649.1 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OTd31831
    Clone ID Related Accession (Same CDS sequence) XM_030287789.1
    Accession Version XM_030287789.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4692bp)
    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 32 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044231.1) 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
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGATACT CTGTACCCTG GCACCCCAGG CTCTGAGGTG 
    AGCTTTGCAA GGCAGCACAA CACTTCAGAC AATAACAACC AGTGTTTCCT TGGATCCAAT 
    GGGAATGCTC TGCTTCAGCT GAACCCCCAG AAACCAGGAG CTATTGATAA CCAGCCCCTG 
    GTCACCCAGG AGCCAGTCAA GGCTGCATCA TTAACTATGG AGGGTGGAAG GTTGAAGAGA 
    TCTCCACAGC TGGTGGAAGG AAAGGACTAT GTCATGGTGC CAGAACCAGT TTGGAGAGCA 
    CTTTACCACT GGTATGGAGC AAACCTGTCC TTGCCCAGGC CGGTGATCAA GAACAGCAAG 
    ACCAACGTGC CCGAGCTGGA GCTGTTCCCT CGCTACCTGC TGTTCCTGCG GCAGCAGCCG 
    GCCACGCGCA CCCAGCAGTC CAACGTCTGG GTCAATATGG GTATGATGAG CCTCAGAATG 
    TTCCCTCAGC ATTTGCCCAG AGGGAATGTC CCTTCCCCAA ATGCTCCTTT GAAGAGGGTG 
    CTGGCTTACA CTGGCTGCTT CAGTCGGATG CAAACCATCA AAGAAATCCA CGAGTACCTG 
    TCCCAGAGGC TGCGGATAAA GGAGGAGGAC ATGCGCCTCT GGCTCTACAA CAGTGAGAAC 
    TATCTCACTT TGCTGGATGA TGAAGATCAT AGACTGGAAT ACCTTAAAAT CCAAGATGAG 
    CAGCATTTAG TAATAGAAGT TCGAAACAAA GACATGAGCT GGCCAGAAGA GATGTCTTTT 
    ATAGCAAACA GCAGTAAAAT AGACAGACAC AAAGTTCCTA CTGAGAAGGG TGCTACAGGC 
    CTGAGCAACC TGGGGAACAC GTGCTTCATG AACTCCAGCA TCCAGTGTGT CAGCAACACG 
    CAGCCCCTGA CCCGTTACTT CATCTCAGGG AGGCATCTCT ACGAGCTGAA CAGGACAAAT 
    CCCATAGGAA TGAAAGGACA CATGGCCAAG TGCTATGGGG ATTTGGTGCA GGAGCTGTGG 
    AGTGGCACCC AGAAGAACAT CGCCCCCTTA AAGCTGAGGT GGACAATAGC AAAATATGCT 
    CCAAGATTTA ATGGCTTTCA ACAGCAAGAC TCACAGGAGC TTCTGGCTTT TCTTCTGGAT 
    GGGCTCCATG AGGACTTGAA CAGAGTTCAT GATAAGCCAT ATGTGGAACT GAAGGACAGT 
    GATGGTCGGC CAGACTGGGA GGTAGCAGCA GAGGCCTGGG AAAACCATCT GAGAAGAAAC 
    AGATCCATTG TTGTAGATTT ATTTCATGGG CAGCTGAAGT CACAAGTGAA ATGTAAAACT 
    TGTGGGCATA TAAGTGTTAG GTTTGACCCT TTTAATTTTT TATCCTTGCC TTTGCCAATG 
    GACAGCTACA TGCACCTAGA AATTACAGTA ATTAAATTAG ATGGCACTAC TCCTGTTCGA 
    TATGGGCTGA GATTGAACAT GGATGAGAAG TACACAGGCT TGAAAAAACA GCTGAGTGAA 
    CTCTGTGGCC TCAAACCAGA GCAGATTCTG CTTGCAGAGG TGCACAGCTC CAATATAAAG 
    AACTTCCCTC AGGACAACCA GAAGGTCCGG CTGTCTGTGA GCGGCTTCCT GTGTGCGTTT 
    GAGATCCCCA TCCCAGGCTC CCCCACGTCA GCATCCAGCC CTGTGCAGAC AGAGACCTCA 
    ACTGGGCCAT CAGCCAACGG AGCCCCCAGC ATCCTGATGA ACGGGGACGT TGCCAAGCCA 
    AGCCTCATTC CCAATGGGAT GCCAAACACT GTGGTGCCAT GTGGGACGGA GCGCAGCCCG 
    CCCAGCTGGA CCCTCAACGG CCACGTGCCC TCGCTGTGTG ACAGCCCCTG CACAGGCTAC 
    ATCATTGCAG TGCACAGGAA AATGATGAGG ACAGAGCTGT ATTTTCTCTC ATCTCAGAAG 
    AATCGGCCCA GTCTCTTTGG AATGCCATTG ATTGTTCCCT GCACAGTTCA CACACGGAAA 
    AGGGACCTCT ATGATGCTGT GTGGATCCAG GTGTCCAGGC TGGCCAGCCC CCTCCCTCCT 
    CAGGAAGCCA GTAACCATGC ACAGGACTGT GATGACAGCA TGGGGTATCA ATACCCCTTC 
    ACCCTCAGGG TAGTTCAGAA GGATGGAAAT TCTTGTGCTT GGTGTCCATG GTACAGGTTC 
    TGCCGTGGCT GTAAGATTGA GTGCACAGAG GACAGGGCTT GTGTGGGCAG TGCCTACATT 
    GCTGTGGACT GGGACCCCAC CGCGCTGCAC CTGCGCTACC AGACCTCACA GGAACGGATC 
    GTGGAAGAAC ATGAAAGTGT TGAACAAAGC CGCCGAGCCC AGGCAGAGCC CATCAACCTG 
    GACAGCTGTC TGAGAGCCTT CACCAGCGAG GAGGAGCTGG GGGAGGATGA GATGTACTAC 
    TGCTCCAAGT GCAAGACCCA CTGTCTGGCC ACCAAAAAAC TGGATCTTTG GAGACTTCCC 
    CCTATTTTGA TCATTCACCT GAAAAGATTT CAGTTCGTTA ATGGCCGCTG GATAAAATCC 
    CAGAAAATTG TTAAATTTCC CAGAGAAAAT TTTGACCCAA GTGCCTTTTT GGTACAAAGG 
    GATCCGAGTC ATTTCCAAAG GAAGCAGCTC ACCCTGCAGG TTGAGAGCCT TCCTGAAGCA 
    CGGCCTGGCC AAGGGGACAC CAGGAAAGCA GATGTGCAGA ACACTGGCAC AGCAGGAGAA 
    GGGGACACTC TGAACAGGAG TCCATCCTCC CTAAACACTA CTGTCCTCAA TAATGTCAAA 
    GCATCTCCAT CCTTGGGGCG GAAAAGTGGA ACCAGCTGCC CCTCAAGTAA AAACAGCAGC 
    CCCAACAGCA GCCCAAGGAC TTTGGGGAGA GGCAAAGGGC GCCTGCGGCT GCCCCAGCTG 
    GGGAAAAACA AACTGTCCAG CAGCAAGGAA AACCTGGCTG CAAACAGGGA GAACGGTGCT 
    GAGCACGAGC AGGGGGATGC TCTGACTAAA GGACAGGCTT TGGGGGGCAG CCAGAGCGAG 
    CTGTACCCCG GGCAGGACAG CGAGGGGGCT CTGGCCAACG GGTTCCTGTG GGAGCAGAGC 
    TCGCTCAGCA ACGGGCAGGG CGAGAACCAC AGCGAGGACG ACACCGCCGA CGACCAAAGA 
    GACGACGGCT GGCTCAGCCC CATCTACAAC CTATATGCAA TCTCGTGCCA TTCAGGAATT 
    ATGGGAGGGG GTCATTATGT CACTTATGCC AAAAACCCGA ACAACAAGTG GTACTGCTAC 
    AATGACAGCA GCTGCAAGGA GTTGCACCCG GACGAGATCG ACACGGACTC TGCCTACATT 
    CTGTTCTACG AGCAGCAGGG GGTGGACTAT GCCCAGTTCC TGCCCAAGAT CGATGGCAAG 
    AAGATGGCAG ACACGAGCAG CATGGACGAG GACTTCGAGT CCGACTACAA GAAGTACTGC 
    GTGCTGCAGT GA

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

    RefSeq XP_030143649.1
    CDS74..4765
    Translation

    Target ORF information:

    RefSeq Version XM_030287789.1
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_030287789.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGATACT CTGTACCCTG GCACCCCAGG CTCTGAGGTG 
    AGCTTTGCAA GGCAGCACAA CACTTCAGAC AATAACAACC AGTGTTTCCT TGGATCCAAT 
    GGGAATGCTC TGCTTCAGCT GAACCCCCAG AAACCAGGAG CTATTGATAA CCAGCCCCTG 
    GTCACCCAGG AGCCAGTCAA GGCTGCATCA TTAACTATGG AGGGTGGAAG GTTGAAGAGA 
    TCTCCACAGC TGGTGGAAGG AAAGGACTAT GTCATGGTGC CAGAACCAGT TTGGAGAGCA 
    CTTTACCACT GGTATGGAGC AAACCTGTCC TTGCCCAGGC CGGTGATCAA GAACAGCAAG 
    ACCAACGTGC CCGAGCTGGA GCTGTTCCCT CGCTACCTGC TGTTCCTGCG GCAGCAGCCG 
    GCCACGCGCA CCCAGCAGTC CAACGTCTGG GTCAATATGG GTATGATGAG CCTCAGAATG 
    TTCCCTCAGC ATTTGCCCAG AGGGAATGTC CCTTCCCCAA ATGCTCCTTT GAAGAGGGTG 
    CTGGCTTACA CTGGCTGCTT CAGTCGGATG CAAACCATCA AAGAAATCCA CGAGTACCTG 
    TCCCAGAGGC TGCGGATAAA GGAGGAGGAC ATGCGCCTCT GGCTCTACAA CAGTGAGAAC 
    TATCTCACTT TGCTGGATGA TGAAGATCAT AGACTGGAAT ACCTTAAAAT CCAAGATGAG 
    CAGCATTTAG TAATAGAAGT TCGAAACAAA GACATGAGCT GGCCAGAAGA GATGTCTTTT 
    ATAGCAAACA GCAGTAAAAT AGACAGACAC AAAGTTCCTA CTGAGAAGGG TGCTACAGGC 
    CTGAGCAACC TGGGGAACAC GTGCTTCATG AACTCCAGCA TCCAGTGTGT CAGCAACACG 
    CAGCCCCTGA CCCGTTACTT CATCTCAGGG AGGCATCTCT ACGAGCTGAA CAGGACAAAT 
    CCCATAGGAA TGAAAGGACA CATGGCCAAG TGCTATGGGG ATTTGGTGCA GGAGCTGTGG 
    AGTGGCACCC AGAAGAACAT CGCCCCCTTA AAGCTGAGGT GGACAATAGC AAAATATGCT 
    CCAAGATTTA ATGGCTTTCA ACAGCAAGAC TCACAGGAGC TTCTGGCTTT TCTTCTGGAT 
    GGGCTCCATG AGGACTTGAA CAGAGTTCAT GATAAGCCAT ATGTGGAACT GAAGGACAGT 
    GATGGTCGGC CAGACTGGGA GGTAGCAGCA GAGGCCTGGG AAAACCATCT GAGAAGAAAC 
    AGATCCATTG TTGTAGATTT ATTTCATGGG CAGCTGAAGT CACAAGTGAA ATGTAAAACT 
    TGTGGGCATA TAAGTGTTAG GTTTGACCCT TTTAATTTTT TATCCTTGCC TTTGCCAATG 
    GACAGCTACA TGCACCTAGA AATTACAGTA ATTAAATTAG ATGGCACTAC TCCTGTTCGA 
    TATGGGCTGA GATTGAACAT GGATGAGAAG TACACAGGCT TGAAAAAACA GCTGAGTGAA 
    CTCTGTGGCC TCAAACCAGA GCAGATTCTG CTTGCAGAGG TGCACAGCTC CAATATAAAG 
    AACTTCCCTC AGGACAACCA GAAGGTCCGG CTGTCTGTGA GCGGCTTCCT GTGTGCGTTT 
    GAGATCCCCA TCCCAGGCTC CCCCACGTCA GCATCCAGCC CTGTGCAGAC AGAGACCTCA 
    ACTGGGCCAT CAGCCAACGG AGCCCCCAGC ATCCTGATGA ACGGGGACGT TGCCAAGCCA 
    AGCCTCATTC CCAATGGGAT GCCAAACACT GTGGTGCCAT GTGGGACGGA GCGCAGCCCG 
    CCCAGCTGGA CCCTCAACGG CCACGTGCCC TCGCTGTGTG ACAGCCCCTG CACAGGCTAC 
    ATCATTGCAG TGCACAGGAA AATGATGAGG ACAGAGCTGT ATTTTCTCTC ATCTCAGAAG 
    AATCGGCCCA GTCTCTTTGG AATGCCATTG ATTGTTCCCT GCACAGTTCA CACACGGAAA 
    AGGGACCTCT ATGATGCTGT GTGGATCCAG GTGTCCAGGC TGGCCAGCCC CCTCCCTCCT 
    CAGGAAGCCA GTAACCATGC ACAGGACTGT GATGACAGCA TGGGGTATCA ATACCCCTTC 
    ACCCTCAGGG TAGTTCAGAA GGATGGAAAT TCTTGTGCTT GGTGTCCATG GTACAGGTTC 
    TGCCGTGGCT GTAAGATTGA GTGCACAGAG GACAGGGCTT GTGTGGGCAG TGCCTACATT 
    GCTGTGGACT GGGACCCCAC CGCGCTGCAC CTGCGCTACC AGACCTCACA GGAACGGATC 
    GTGGAAGAAC ATGAAAGTGT TGAACAAAGC CGCCGAGCCC AGGCAGAGCC CATCAACCTG 
    GACAGCTGTC TGAGAGCCTT CACCAGCGAG GAGGAGCTGG GGGAGGATGA GATGTACTAC 
    TGCTCCAAGT GCAAGACCCA CTGTCTGGCC ACCAAAAAAC TGGATCTTTG GAGACTTCCC 
    CCTATTTTGA TCATTCACCT GAAAAGATTT CAGTTCGTTA ATGGCCGCTG GATAAAATCC 
    CAGAAAATTG TTAAATTTCC CAGAGAAAAT TTTGACCCAA GTGCCTTTTT GGTACAAAGG 
    GATCCGAGTC ATTTCCAAAG GAAGCAGCTC ACCCTGCAGG TTGAGAGCCT TCCTGAAGCA 
    CGGCCTGGCC AAGGGGACAC CAGGAAAGCA GATGTGCAGA ACACTGGCAC AGCAGGAGAA 
    GGGGACACTC TGAACAGGAG TCCATCCTCC CTAAACACTA CTGTCCTCAA TAATGTCAAA 
    GCATCTCCAT CCTTGGGGCG GAAAAGTGGA ACCAGCTGCC CCTCAAGTAA AAACAGCAGC 
    CCCAACAGCA GCCCAAGGAC TTTGGGGAGA GGCAAAGGGC GCCTGCGGCT GCCCCAGCTG 
    GGGAAAAACA AACTGTCCAG CAGCAAGGAA AACCTGGCTG CAAACAGGGA GAACGGTGCT 
    GAGCACGAGC AGGGGGATGC TCTGACTAAA GGACAGGCTT TGGGGGGCAG CCAGAGCGAG 
    CTGTACCCCG GGCAGGACAG CGAGGGGGCT CTGGCCAACG GGTTCCTGTG GGAGCAGAGC 
    TCGCTCAGCA ACGGGCAGGG CGAGAACCAC AGCGAGGACG ACACCGCCGA CGACCAAAGA 
    GACGACGGCT GGCTCAGCCC CATCTACAAC CTATATGCAA TCTCGTGCCA TTCAGGAATT 
    ATGGGAGGGG GTCATTATGT CACTTATGCC AAAAACCCGA ACAACAAGTG GTACTGCTAC 
    AATGACAGCA GCTGCAAGGA GTTGCACCCG GACGAGATCG ACACGGACTC TGCCTACATT 
    CTGTTCTACG AGCAGCAGGG GGTGGACTAT GCCCAGTTCC TGCCCAAGAT CGATGGCAAG 
    AAGATGGCAG ACACGAGCAG CATGGACGAG GACTTCGAGT CCGACTACAA GAAGTACTGC 
    GTGCTGCAGT GA

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

    USP32 ( XM_012568677.2 ) cDNA ORF clone, Taeniopygia guttata(zebra finch) -> XP_012424131.2 Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OTd31832
    Clone ID Related Accession (Same CDS sequence) XM_012568677.2
    Accession Version XM_012568677.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4650bp)
    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 32 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_044231.1) 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_012568677.1. ##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
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGATACT CTGTACCCTG GCACCCCAGG CTCTGAGGTG 
    AGCTTTGCAA GGCAGCACAA CACTTCAGAC AATAACAACC AGTGTTTCCT TGGATCCAAT 
    GGGAATGCTC TGCTTCAGCT GAACCCCCAG AAACCAGGAG CTATTGATAA CCAGCCCCTG 
    GTCACCCAGG AGCCAGTCAA GGCTGCATCA TTAACTATGG AGGGTGGAAG GTTGAAGAGA 
    TCTCCACAGC TGGTGGAAGG AAAGGACTAT GTCATGGTGC CAGAACCAGT TTGGAGAGCA 
    CTTTACCACT GGTATGGAGC AAACCTGTCC TTGCCCAGGC CGGTGATCAA GAACAGCAAG 
    ACCAACGTGC CCGAGCTGGA GCTGTTCCCT CGCTACCTGC TGTTCCTGCG GCAGCAGCCG 
    GCCACGCGCA CCCAGCAGTC CAACGTCTGG GTCAATATGG GGAATGTCCC TTCCCCAAAT 
    GCTCCTTTGA AGAGGGTGCT GGCTTACACT GGCTGCTTCA GTCGGATGCA AACCATCAAA 
    GAAATCCACG AGTACCTGTC CCAGAGGCTG CGGATAAAGG AGGAGGACAT GCGCCTCTGG 
    CTCTACAACA GTGAGAACTA TCTCACTTTG CTGGATGATG AAGATCATAG ACTGGAATAC 
    CTTAAAATCC AAGATGAGCA GCATTTAGTA ATAGAAGTTC GAAACAAAGA CATGAGCTGG 
    CCAGAAGAGA TGTCTTTTAT AGCAAACAGC AGTAAAATAG ACAGACACAA AGTTCCTACT 
    GAGAAGGGTG CTACAGGCCT GAGCAACCTG GGGAACACGT GCTTCATGAA CTCCAGCATC 
    CAGTGTGTCA GCAACACGCA GCCCCTGACC CGTTACTTCA TCTCAGGGAG GCATCTCTAC 
    GAGCTGAACA GGACAAATCC CATAGGAATG AAAGGACACA TGGCCAAGTG CTATGGGGAT 
    TTGGTGCAGG AGCTGTGGAG TGGCACCCAG AAGAACATCG CCCCCTTAAA GCTGAGGTGG 
    ACAATAGCAA AATATGCTCC AAGATTTAAT GGCTTTCAAC AGCAAGACTC ACAGGAGCTT 
    CTGGCTTTTC TTCTGGATGG GCTCCATGAG GACTTGAACA GAGTTCATGA TAAGCCATAT 
    GTGGAACTGA AGGACAGTGA TGGTCGGCCA GACTGGGAGG TAGCAGCAGA GGCCTGGGAA 
    AACCATCTGA GAAGAAACAG ATCCATTGTT GTAGATTTAT TTCATGGGCA GCTGAAGTCA 
    CAAGTGAAAT GTAAAACTTG TGGGCATATA AGTGTTAGGT TTGACCCTTT TAATTTTTTA 
    TCCTTGCCTT TGCCAATGGA CAGCTACATG CACCTAGAAA TTACAGTAAT TAAATTAGAT 
    GGCACTACTC CTGTTCGATA TGGGCTGAGA TTGAACATGG ATGAGAAGTA CACAGGCTTG 
    AAAAAACAGC TGAGTGAACT CTGTGGCCTC AAACCAGAGC AGATTCTGCT TGCAGAGGTG 
    CACAGCTCCA ATATAAAGAA CTTCCCTCAG GACAACCAGA AGGTCCGGCT GTCTGTGAGC 
    GGCTTCCTGT GTGCGTTTGA GATCCCCATC CCAGGCTCCC CCACGTCAGC ATCCAGCCCT 
    GTGCAGACAG AGACCTCAAC TGGGCCATCA GCCAACGGAG CCCCCAGCAT CCTGATGAAC 
    GGGGACGTTG CCAAGCCAAG CCTCATTCCC AATGGGATGC CAAACACTGT GGTGCCATGT 
    GGGACGGAGC GCAGCCCGCC CAGCTGGACC CTCAACGGCC ACGTGCCCTC GCTGTGTGAC 
    AGCCCCTGCA CAGGCTACAT CATTGCAGTG CACAGGAAAA TGATGAGGAC AGAGCTGTAT 
    TTTCTCTCAT CTCAGAAGAA TCGGCCCAGT CTCTTTGGAA TGCCATTGAT TGTTCCCTGC 
    ACAGTTCACA CACGGAAAAG GGACCTCTAT GATGCTGTGT GGATCCAGGT GTCCAGGCTG 
    GCCAGCCCCC TCCCTCCTCA GGAAGCCAGT AACCATGCAC AGGACTGTGA TGACAGCATG 
    GGGTATCAAT ACCCCTTCAC CCTCAGGGTA GTTCAGAAGG ATGGAAATTC TTGTGCTTGG 
    TGTCCATGGT ACAGGTTCTG CCGTGGCTGT AAGATTGAGT GCACAGAGGA CAGGGCTTGT 
    GTGGGCAGTG CCTACATTGC TGTGGACTGG GACCCCACCG CGCTGCACCT GCGCTACCAG 
    ACCTCACAGG AACGGATCGT GGAAGAACAT GAAAGTGTTG AACAAAGCCG CCGAGCCCAG 
    GCAGAGCCCA TCAACCTGGA CAGCTGTCTG AGAGCCTTCA CCAGCGAGGA GGAGCTGGGG 
    GAGGATGAGA TGTACTACTG CTCCAAGTGC AAGACCCACT GTCTGGCCAC CAAAAAACTG 
    GATCTTTGGA GACTTCCCCC TATTTTGATC ATTCACCTGA AAAGATTTCA GTTCGTTAAT 
    GGCCGCTGGA TAAAATCCCA GAAAATTGTT AAATTTCCCA GAGAAAATTT TGACCCAAGT 
    GCCTTTTTGG TACAAAGGGA TCCGAGTCAT TTCCAAAGGA AGCAGCTCAC CCTGCAGGTT 
    GAGAGCCTTC CTGAAGCACG GCCTGGCCAA GGGGACACCA GGAAAGCAGA TGTGCAGAAC 
    ACTGGCACAG CAGGAGAAGG GGACACTCTG AACAGGAGTC CATCCTCCCT AAACACTACT 
    GTCCTCAATA ATGTCAAAGC ATCTCCATCC TTGGGGCGGA AAAGTGGAAC CAGCTGCCCC 
    TCAAGTAAAA ACAGCAGCCC CAACAGCAGC CCAAGGACTT TGGGGAGAGG CAAAGGGCGC 
    CTGCGGCTGC CCCAGCTGGG GAAAAACAAA CTGTCCAGCA GCAAGGAAAA CCTGGCTGCA 
    AACAGGGAGA ACGGTGCTGA GCACGAGCAG GGGGATGCTC TGACTAAAGG ACAGGCTTTG 
    GGGGGCAGCC AGAGCGAGCT GTACCCCGGG CAGGACAGCG AGGGGGCTCT GGCCAACGGG 
    TTCCTGTGGG AGCAGAGCTC GCTCAGCAAC GGGCAGGGCG AGAACCACAG CGAGGACGAC 
    ACCGCCGACG ACCAAAGAGA CGACGGCTGG CTCAGCCCCA TCTACAACCT ATATGCAATC 
    TCGTGCCATT CAGGAATTAT GGGAGGGGGT CATTATGTCA CTTATGCCAA AAACCCGAAC 
    AACAAGTGGT ACTGCTACAA TGACAGCAGC TGCAAGGAGT TGCACCCGGA CGAGATCGAC 
    ACGGACTCTG CCTACATTCT GTTCTACGAG CAGCAGGGGG TGGACTATGC CCAGTTCCTG 
    CCCAAGATCG ATGGCAAGAA GATGGCAGAC ACGAGCAGCA TGGACGAGGA CTTCGAGTCC 
    GACTACAAGA AGTACTGCGT GCTGCAGTGA

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

    RefSeq XP_012424131.2
    CDS73..4722
    Translation

    Target ORF information:

    RefSeq Version XM_012568677.2
    Organism Taeniopygia guttata(zebra finch)
    Definition Taeniopygia guttata ubiquitin specific peptidase 32 (USP32), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_012568677.2

    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
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    ATGGGCGCCA AGGAGTCCCG CATCGGCTTC CTCGGCTACG ACGAGGCCCT GCGGAGGGTT 
    ACAGACATAG AACTGAAGAG GCTCAAAGAT GCTTTCAAGA GAACTTGTGG CCTCTCCTAT 
    TATATGACCC AGCAGTGCTT CATCAGGGAA GTTCTGGGTG ATGGGGTCCC TCCCAAAGTT 
    GCTGAGGTTA TCTACTGTTC ATTTGGAGGA ATATCCAAAG GGCTGCACTT CAATAACTTG 
    ATAGTTGGAT TAGTTCTACT CACAAGAGGC AGAGAGGAGG AGAAAACAAA ATATATTTTC 
    AGCCTCTTCT CTAATGAATC TGGGAGTTAT GTTGTCCGTG AAGAGATGGA GAAGATGCTG 
    CATGTGGTTG ATGGGAAAGT CCCAGAGTCA CTCAAGAAAT GTTTCTCTGA GGGTGAGAAG 
    GTGAACTATG AGAAGTTCAG GGTTTGGCTG CTGCACAACA AAGACGCTTT CACCTTCTCG 
    CGGTGGCTGC TCTCAGGAGG GGTCTACGTG ACCCTCACTG ATGACAGTGA CACCCCAACC 
    TTCTACCAGA CCCTGGCTGG AGTCACACAC TTGGAAGAAT CCGACATCAT CGACCTGGAG 
    AAGCGATACT GGCTGCTGAA AGCTCAGTCC AGGACTGGAC GCTTCGATTT GGAGACATTT 
    GCCCCCTTAG TGTCCCCCCC AATCCATCAA TCCCTGAGTG AAGGTTTGTT TAATGCTTTT 
    GATGAAAACC GAGACAATCA CATAGATTTT AAAGAAATTT CCTGTGGGCT CTCAGCATGT 
    TGCAGGGGAC CCTTGGCAGA GAGACAGAAG TTTTGCTTCA AGGTGTTTGA CGTGGACCGC 
    GATGGGGTCT TGTCTCGCAC CGAGCTCAAG GACATGGTGG TGGCACTTTT AGAGGTCTGG 
    AAAGACAACA GGACAGACAA AATACCTGAG TTGGACATGG GTTTGTCTGA AATTGTGGAA 
    GATATTTTAC ATGTGCATGA TAACACAAAG CTTGGACACC TTACTCTGGA AGACTACCAG 
    ATATGGAGTG TGAAGAGTGC TCTTGCCAAT GAATTTTTAA ATCTGCTTTT TCAGGTGTGT 
    CACATAGTTC TGGGACTGCG ACCTGCCACC CCAGAGGAGG AAGGACAGAT TATTAGAGGC 
    TGGTTGGAAA GAGAGAGCAG GTATGGCCTC CAGCCAGGGC ACAACTGGTT TCTCATTGCT 
    ATGCCCTGGT GGCACCAGTG GAAAGAATAT GTCAAATATG ATGCAAACCC AGTTGTGATA 
    GAGCCTTCAT CTGTCTTGAG TGGAGATACT CTGTACCCTG GCACCCCAGG CTCTGAGGTG 
    AGCTTTGCAA GGCAGCACAA CACTTCAGAC AATAACAACC AGTGTTTCCT TGGATCCAAT 
    GGGAATGCTC TGCTTCAGCT GAACCCCCAG AAACCAGGAG CTATTGATAA CCAGCCCCTG 
    GTCACCCAGG AGCCAGTCAA GGCTGCATCA TTAACTATGG AGGGTGGAAG GTTGAAGAGA 
    TCTCCACAGC TGGTGGAAGG AAAGGACTAT GTCATGGTGC CAGAACCAGT TTGGAGAGCA 
    CTTTACCACT GGTATGGAGC AAACCTGTCC TTGCCCAGGC CGGTGATCAA GAACAGCAAG 
    ACCAACGTGC CCGAGCTGGA GCTGTTCCCT CGCTACCTGC TGTTCCTGCG GCAGCAGCCG 
    GCCACGCGCA CCCAGCAGTC CAACGTCTGG GTCAATATGG GGAATGTCCC TTCCCCAAAT 
    GCTCCTTTGA AGAGGGTGCT GGCTTACACT GGCTGCTTCA GTCGGATGCA AACCATCAAA 
    GAAATCCACG AGTACCTGTC CCAGAGGCTG CGGATAAAGG AGGAGGACAT GCGCCTCTGG 
    CTCTACAACA GTGAGAACTA TCTCACTTTG CTGGATGATG AAGATCATAG ACTGGAATAC 
    CTTAAAATCC AAGATGAGCA GCATTTAGTA ATAGAAGTTC GAAACAAAGA CATGAGCTGG 
    CCAGAAGAGA TGTCTTTTAT AGCAAACAGC AGTAAAATAG ACAGACACAA AGTTCCTACT 
    GAGAAGGGTG CTACAGGCCT GAGCAACCTG GGGAACACGT GCTTCATGAA CTCCAGCATC 
    CAGTGTGTCA GCAACACGCA GCCCCTGACC CGTTACTTCA TCTCAGGGAG GCATCTCTAC 
    GAGCTGAACA GGACAAATCC CATAGGAATG AAAGGACACA TGGCCAAGTG CTATGGGGAT 
    TTGGTGCAGG AGCTGTGGAG TGGCACCCAG AAGAACATCG CCCCCTTAAA GCTGAGGTGG 
    ACAATAGCAA AATATGCTCC AAGATTTAAT GGCTTTCAAC AGCAAGACTC ACAGGAGCTT 
    CTGGCTTTTC TTCTGGATGG GCTCCATGAG GACTTGAACA GAGTTCATGA TAAGCCATAT 
    GTGGAACTGA AGGACAGTGA TGGTCGGCCA GACTGGGAGG TAGCAGCAGA GGCCTGGGAA 
    AACCATCTGA GAAGAAACAG ATCCATTGTT GTAGATTTAT TTCATGGGCA GCTGAAGTCA 
    CAAGTGAAAT GTAAAACTTG TGGGCATATA AGTGTTAGGT TTGACCCTTT TAATTTTTTA 
    TCCTTGCCTT TGCCAATGGA CAGCTACATG CACCTAGAAA TTACAGTAAT TAAATTAGAT 
    GGCACTACTC CTGTTCGATA TGGGCTGAGA TTGAACATGG ATGAGAAGTA CACAGGCTTG 
    AAAAAACAGC TGAGTGAACT CTGTGGCCTC AAACCAGAGC AGATTCTGCT TGCAGAGGTG 
    CACAGCTCCA ATATAAAGAA CTTCCCTCAG GACAACCAGA AGGTCCGGCT GTCTGTGAGC 
    GGCTTCCTGT GTGCGTTTGA GATCCCCATC CCAGGCTCCC CCACGTCAGC ATCCAGCCCT 
    GTGCAGACAG AGACCTCAAC TGGGCCATCA GCCAACGGAG CCCCCAGCAT CCTGATGAAC 
    GGGGACGTTG CCAAGCCAAG CCTCATTCCC AATGGGATGC CAAACACTGT GGTGCCATGT 
    GGGACGGAGC GCAGCCCGCC CAGCTGGACC CTCAACGGCC ACGTGCCCTC GCTGTGTGAC 
    AGCCCCTGCA CAGGCTACAT CATTGCAGTG CACAGGAAAA TGATGAGGAC AGAGCTGTAT 
    TTTCTCTCAT CTCAGAAGAA TCGGCCCAGT CTCTTTGGAA TGCCATTGAT TGTTCCCTGC 
    ACAGTTCACA CACGGAAAAG GGACCTCTAT GATGCTGTGT GGATCCAGGT GTCCAGGCTG 
    GCCAGCCCCC TCCCTCCTCA GGAAGCCAGT AACCATGCAC AGGACTGTGA TGACAGCATG 
    GGGTATCAAT ACCCCTTCAC CCTCAGGGTA GTTCAGAAGG ATGGAAATTC TTGTGCTTGG 
    TGTCCATGGT ACAGGTTCTG CCGTGGCTGT AAGATTGAGT GCACAGAGGA CAGGGCTTGT 
    GTGGGCAGTG CCTACATTGC TGTGGACTGG GACCCCACCG CGCTGCACCT GCGCTACCAG 
    ACCTCACAGG AACGGATCGT GGAAGAACAT GAAAGTGTTG AACAAAGCCG CCGAGCCCAG 
    GCAGAGCCCA TCAACCTGGA CAGCTGTCTG AGAGCCTTCA CCAGCGAGGA GGAGCTGGGG 
    GAGGATGAGA TGTACTACTG CTCCAAGTGC AAGACCCACT GTCTGGCCAC CAAAAAACTG 
    GATCTTTGGA GACTTCCCCC TATTTTGATC ATTCACCTGA AAAGATTTCA GTTCGTTAAT 
    GGCCGCTGGA TAAAATCCCA GAAAATTGTT AAATTTCCCA GAGAAAATTT TGACCCAAGT 
    GCCTTTTTGG TACAAAGGGA TCCGAGTCAT TTCCAAAGGA AGCAGCTCAC CCTGCAGGTT 
    GAGAGCCTTC CTGAAGCACG GCCTGGCCAA GGGGACACCA GGAAAGCAGA TGTGCAGAAC 
    ACTGGCACAG CAGGAGAAGG GGACACTCTG AACAGGAGTC CATCCTCCCT AAACACTACT 
    GTCCTCAATA ATGTCAAAGC ATCTCCATCC TTGGGGCGGA AAAGTGGAAC CAGCTGCCCC 
    TCAAGTAAAA ACAGCAGCCC CAACAGCAGC CCAAGGACTT TGGGGAGAGG CAAAGGGCGC 
    CTGCGGCTGC CCCAGCTGGG GAAAAACAAA CTGTCCAGCA GCAAGGAAAA CCTGGCTGCA 
    AACAGGGAGA ACGGTGCTGA GCACGAGCAG GGGGATGCTC TGACTAAAGG ACAGGCTTTG 
    GGGGGCAGCC AGAGCGAGCT GTACCCCGGG CAGGACAGCG AGGGGGCTCT GGCCAACGGG 
    TTCCTGTGGG AGCAGAGCTC GCTCAGCAAC GGGCAGGGCG AGAACCACAG CGAGGACGAC 
    ACCGCCGACG ACCAAAGAGA CGACGGCTGG CTCAGCCCCA TCTACAACCT ATATGCAATC 
    TCGTGCCATT CAGGAATTAT GGGAGGGGGT CATTATGTCA CTTATGCCAA AAACCCGAAC 
    AACAAGTGGT ACTGCTACAA TGACAGCAGC TGCAAGGAGT TGCACCCGGA CGAGATCGAC 
    ACGGACTCTG CCTACATTCT GTTCTACGAG CAGCAGGGGG TGGACTATGC CCAGTTCCTG 
    CCCAAGATCG ATGGCAAGAA GATGGCAGAC ACGAGCAGCA TGGACGAGGA CTTCGAGTCC 
    GACTACAAGA AGTACTGCGT GCTGCAGTGA

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

REQUEST A QUOTE

EMAIL

gene@genscript.com

PHONE

1-877-436-7274

ONLINE FORM

Online Quote Submission

ONLINE FORM

Online Quote Submission