ORF » Species Summary » Xenopus tropicalis » usp32 cDNA ORF clone

usp32 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

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
OXa05536 XM_002933823.5
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase 32 (usp32), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OXa33916 XM_012957447.3
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase 32 (usp32), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OXa33916 XM_012957447.2 Xenopus tropicalis ubiquitin specific peptidase 32 (usp32), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
OXa05536 XM_002933823.4 Xenopus tropicalis ubiquitin specific peptidase 32 (usp32), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $881.30
$1259.00
Hide Old Accession Versions >>

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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_002933823.5 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002933869.1 Xenopus tropicalis ubiquitin specific peptidase 32 (usp32), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa05536
    Clone ID Related Accession (Same CDS sequence) XM_002933823.5 , XM_002933823.4
    Accession Version XM_002933823.5 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4794bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_002933823.4. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    ATGGGGGCCA AGGAGTCTCG GATCGGGTTT CTGACGTATG ATGAAGCCGT GAAAAGAGTG 
    ACTGACGTTG AACTGAAGAG GCTGAAAGAT GCCTTCAAGA GAACTTGTGG AGGACCTTCC 
    TACTACATGA ATCAGCAATG TTTTATAAGG GAAGTCCTTG GGGATGGGGT CCCCCCTAAG 
    GTTGCAGAGG TCATCTATTG CTCATTTGGT GGAACCTCCA AAGGGTTACA TTTCAACAAC 
    CTGATAGTGG GACTTGTCCT TCTAACAAGA GGTCGAGATG AAGAGAAGGC AAAATACATT 
    TTTAGTCTCT TTTCAAATGA ATCTGGCAGC TGTGTTGTAC GAGAGGAAAT GGAGAGCATG 
    CTGTGCATGG TGGATGGAGA AGTTCCTCTG TCACTTAAGA AATGTTTTGC TGAGGGTGAA 
    AAGGTGAACT ATGACAAATT TCGAAACTGG CTACTGCAGA ATAAGGATGC ATTTACGTTT 
    TCTCGATGGT TGCTTTCTGG AGGAGTTTTC GTTACCCTCA CAGATGATAG TGACACTCCC 
    ACTTTTTATC AGACTTTAGC TGGAGTTACA CACTTGGAAG AGTCTGACAT CATCGATCTG 
    GAGAAAAGAT ACTGGTTATT GAAGGCACAG TCACGTACTG GACGGTTCGA TTTAGAAACA 
    TTTGTCCCCT TGGTTTCACC TCCTATTCAT CAGTCCTTGA GTGAAGGGTT ATTCAATGCG 
    TTTGATGAAA ACCGGGACAA TCACATTGAC TTCAAAGAAA TTTCGTGTGG GCTGTCTGCA 
    TGTTGCAGGG GACCCCTAGC TGAGAGACAA AAATTTTGTT TCAAGGTATT TGACATAGAT 
    CGTGATGGTA TTCTGTCTCG CACGGAGCTG GAAGAGATGG TCCTTGCGCT TTTGGAGGTT 
    TGGAAGGATA ACCGTATTGA TGCCATACCT GAATTGCACT TAAATCTGTC TAACATCACA 
    GACAATATAC TGCAGTCCCA TGATACAACA AAGATTGGAC ATCTGACACT GGAAGATTAT 
    CAGATATGGA GTGTTAAAAG TGCCCTTGCC AATGAGTTTT TAAATCTTCT TTTTCAGGTG 
    TGTCATATAG TCTTGGGGTT AAAACCAGCC ACTCCCGAGG AGGAAGGACA AATTATTAGA 
    GGTTGGCTAG AAAGAGAAAG TCGGTATGGA CTACAGTTTG GTCACAACTG GTTTCTTATC 
    TCTATGCAGT GGTGGCAGCA GTGGAAAGAA TATGTCAGAT ATGATTCTAA GCCAACTGTT 
    GTACCATGCT CTACATTAAG TGGGGGAAGG AATTTATCAG GTACAACCTC ACCGGATCAA 
    AAGGAAGATG ACAGGACTGG GTCGAACTTA AGTTTTACAG ATGAAAAATC ACCAGATAAC 
    ATATCATCTG CTTCAGAAGC TTCAGAATCA ACTACAACCG GTTTCACTTA TTCGAGCAAT 
    ACAACCTCAG ACATGTGCTT TGCACGTCAG CATAACACTT CAGATAATAA TAACCAGTGT 
    ATGCTCAGTG CCAATGGGAA TGCATTATTG CAGCTTAATC CACAGAAACC TGGAGCTATT 
    GACAACCAGC CTCTAGTTAC ACAAGAAACT GTAAAGGTTC CTTCCTTAAC ACTTGAAGGG 
    GGGCGACTAA AACAGAGTCC ATCTCTGCTC CGAGGTAAAG ACTATGAGAT TGTTCCAGAG 
    CCTGTGTGGA GAGCCTTGTA TCACTGGTAT GGGGCAAACC TTTCCTTACC ACGTCCAGTT 
    ATCAAAAACT GCAAAACAGA TCTTCCAGAA CTTGAGCTTT TCCCACGCTA TTTGCTTTTC 
    TTGAGACAGC AGCCCGTAAC TCGCCAACAA CAGTCAAACA TCTGGGTGAA TATGGGTAAT 
    GTTCCCTCGC CAAATGCTCC ACTGAAACGT GTGCTGGCAT ACACTGGCTG TTTCAGCCGC 
    ATGCAGACAA TAAAAGAAAT TCATGAATAT CTTTCTCAGC GGCTGCGCAT TAAGGAAGAA 
    GATATGAGGT TGTGGTTGTA TAATAGTGAG AATTACCTCA CTTTACTTGA TGATGAAGAC 
    CACACATTAG AGGGCCTGAA AATACAAGAT GAGCAGCACT TGGTAATAGA AGTCAGGAAC 
    AAAGACATGA GCTGGCCTGA AGAGATGTCA TTTATTGCAA ACAGCAGTAA AATTGATAGA 
    CATAAAGTTC CAACAGAAAA AGGTGCCACG GGTCTGAGCA ACTTAGGGAA CACATGCTTT 
    ATGAATTCAA GTATCCAATG TGTTAGCAAC ACACAGCCAC TTACTAAATA TTTTATCTCA 
    GGAAGGCATT TGTATGAGCT CAACAGAACA AATCCTATTG GAATGAAAGG ACACATGGCA 
    AAATGTTACG GTGATTTGGT ACAAGAGCTG TGGAGTGGAA CCCAGAAAAA TGTGGCACCT 
    CTTAAATTAC GGTGGACAAT AGCAAAATAT GCACCAAGGT TCAATGGCTT TCAACAGCAG 
    GATTCTCAGG AGCTGCTAGC TTTTCTTTTA GATGGTCTTC ATGAAGATCT GAACCGAGTT 
    CACGACAAAC CTTACGTTGA ACTCAAAGAC AGTGATGGTC GCCCAGACTG GGAAGTTGCT 
    GCAGAGGCAT GGGATAACCA TTTAAGGAGA AACAAATCAA TAGTTGTGGA TTTGTTTCAT 
    GGACAGCTGA GATCCCAAGT GAAATGTAAA ACATGTGGAC ACATAAGTGT AAGATTTGAT 
    CCTTTCAACT TTCTTTCGCT CCCTCTTCCC ATGGACAGCT ATATGCACTT GGAAATTACA 
    GTTATTAAAC TAGATGGTAC AACCCCTGTG CGATATGGAC TCAGGCTGAA CATGGATGAG 
    AAATACACAG GCTTGAAAAA ACAGCTTAGT GACCTGTGTG GATTAAAACC TGAGCAGATT 
    CTCCTTGCAG AGGTTCATGG ATCCAACATA AAGAATTTTC CCCAGGATAA CCAAAAAGTT 
    CGCCTTTCTG TAAGTGGTTT TCTGTGTGCT TTTGAGATAC CTATTCCAGG ATCTCCAACA 
    TCTGCCACAA GTCCCACACA GACAGATCCC AACACAATAC TATTATCAAA TGGGCCGCAC 
    AGTCTAATCT CAAATGGAGG ACTGAATCGA CCAACACTAA TTCCTAATGG GCTGCCAAAC 
    ACAGTAGTGC CATGTGGAAC AGAAAAAAAT CTGGTGAATG GAGTTCTTAA TGGTCATGTC 
    TCTGTGCATC CAGAAGGTCC CTTCATAGGG TATATCATTG CAATCCACAG AAAGATGATG 
    AGGACTGAGT TGTACTTTTT GTCATTTCAA AAAAATCGCC CCAGCCTTTT TGGAATGCCC 
    TTAATTGTCC CATGCACGGT GCACACAAGA AAAAAAGACT TGTACGATGC CGTTTGGATT 
    CAGGTTTCCA GGCTTGCAAG TCCTCTTCCG CCACAGGAAG CAAGTAACCA TGCACAAGAC 
    TGTGATGATA GCATGGGGTA TCAGTATCCT TTCACTCTGC GAGTGGTTCA GAAAGATGGT 
    AATTCATGTG CTTCTTGCCC TTGGTACAGG TTCTGTAGAG GGTGTAAAAT TGAATGTTCT 
    GAGGATCGGG CTTATATCGG CAATGCATAC ATTGCTGTGG ATTGGGACCC CACTGCACTT 
    CATCTTCGCT ACCAGACATC GCAAGAACGG ATTGTTGAAG AGCATGAGAG TGTTGAACAG 
    AGTCGTCGAG CACAAGCTGA GCCTATAAAC CTCGATAGCT GTCTCAGAGC TTTCACTAGT 
    GAGGAGGAAC TTGGAGAAGA TGAAATGTAT TATTGTTCCA AATGTAAAAC CCACTGTTTA 
    GCCACCAAAA AACTTGACCT TTGGAGACTT CCACCGATCT TGATAATCCA CTTGAAAAGA 
    TTCCAGTTTG TAAATGGGCG CTGGATAAAG TCTCAGAAAA TAGTAAAATT TCCTCGAGAG 
    AACTTTGATC CGAGTGCCTT TTTGGTTCCT AAAGGACCAA TACAGTACCA GAAAAAGCAA 
    ATGGTGCTTC AAAATGAAGA TCAGTCAGAC ACACGTCTAA CCCAGGTGGA AGGGAAGAAG 
    GAGCTTGCAA ACTCTGTCCT TCCCGGAGAT ACAGATGCAG CTTGCCGAAA TCAGCCTGCC 
    CTCAACCCCT CAACGGGGAA TAATATCAAA GCTTCCCCCT CTCAAGGAAG AAAAGGGAAT 
    ATCAACTGCA CAAGCAAAAA TAATAGCCCA AACCATAGCC CCAGAACTCT AGGAAGGGGT 
    AAAGGTCGTC TTCGTTTGCC TCAGATCGGA GTCAAAAAAC TTTCAAGTAG CAAAGAAAAT 
    CTGGATCAAA ACAAAGAAAA TGGCACTGAT AATGAAATGA GAGAAGGTCC AGATACTGTA 
    GATTCCAATA AGGGGCTTTG TGGAAGTCAA GGGGAGGTTG CCACTGTTCA GGATACAGAG 
    GTGGTCTTGA CCAATGGGCT TAATTATGAA CAAAACTCAT GCAGCAATGG GCAGCTGGAA 
    AACCACACAG GGGAAGAAGA GGACAGCACT GATGACCAAA GAGATGACAT TGGCTGTCAA 
    CCTATTTACA ACCTTTATGC AATTTCGTGC CATTCAGGAA TATTGGGTGG AGGTCATTAT 
    GTCACTTATG CCAAAAATCC AAATGCGAAA TGGTACTGCT ACAATGACAG CAGCTGCAAG 
    GAATTGCACC CTGATGAAAT TGACACAGAC TCTGCGTACA TCCTTTTCTA CGAACAGCAA 
    GGGGTGGACT ATGCACAATT TCTGCCAAAG ATAGATGGGA AAAAGATGGC AGACACTAGC 
    AGCATGGATG AAGATTTTGA ATCCGACTAT AAAAAATATT GCGTGCTGCA ATGA

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

    RefSeq XP_002933869.1
    CDS232..5025
    Translation

    Target ORF information:

    RefSeq Version XM_002933823.5
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_002933823.5

    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
    ATGGGGGCCA AGGAGTCTCG GATCGGGTTT CTGACGTATG ATGAAGCCGT GAAAAGAGTG 
    ACTGACGTTG AACTGAAGAG GCTGAAAGAT GCCTTCAAGA GAACTTGTGG AGGACCTTCC 
    TACTACATGA ATCAGCAATG TTTTATAAGG GAAGTCCTTG GGGATGGGGT CCCCCCTAAG 
    GTTGCAGAGG TCATCTATTG CTCATTTGGT GGAACCTCCA AAGGGTTACA TTTCAACAAC 
    CTGATAGTGG GACTTGTCCT TCTAACAAGA GGTCGAGATG AAGAGAAGGC AAAATACATT 
    TTTAGTCTCT TTTCAAATGA ATCTGGCAGC TGTGTTGTAC GAGAGGAAAT GGAGAGCATG 
    CTGTGCATGG TGGATGGAGA AGTTCCTCTG TCACTTAAGA AATGTTTTGC TGAGGGTGAA 
    AAGGTGAACT ATGACAAATT TCGAAACTGG CTACTGCAGA ATAAGGATGC ATTTACGTTT 
    TCTCGATGGT TGCTTTCTGG AGGAGTTTTC GTTACCCTCA CAGATGATAG TGACACTCCC 
    ACTTTTTATC AGACTTTAGC TGGAGTTACA CACTTGGAAG AGTCTGACAT CATCGATCTG 
    GAGAAAAGAT ACTGGTTATT GAAGGCACAG TCACGTACTG GACGGTTCGA TTTAGAAACA 
    TTTGTCCCCT TGGTTTCACC TCCTATTCAT CAGTCCTTGA GTGAAGGGTT ATTCAATGCG 
    TTTGATGAAA ACCGGGACAA TCACATTGAC TTCAAAGAAA TTTCGTGTGG GCTGTCTGCA 
    TGTTGCAGGG GACCCCTAGC TGAGAGACAA AAATTTTGTT TCAAGGTATT TGACATAGAT 
    CGTGATGGTA TTCTGTCTCG CACGGAGCTG GAAGAGATGG TCCTTGCGCT TTTGGAGGTT 
    TGGAAGGATA ACCGTATTGA TGCCATACCT GAATTGCACT TAAATCTGTC TAACATCACA 
    GACAATATAC TGCAGTCCCA TGATACAACA AAGATTGGAC ATCTGACACT GGAAGATTAT 
    CAGATATGGA GTGTTAAAAG TGCCCTTGCC AATGAGTTTT TAAATCTTCT TTTTCAGGTG 
    TGTCATATAG TCTTGGGGTT AAAACCAGCC ACTCCCGAGG AGGAAGGACA AATTATTAGA 
    GGTTGGCTAG AAAGAGAAAG TCGGTATGGA CTACAGTTTG GTCACAACTG GTTTCTTATC 
    TCTATGCAGT GGTGGCAGCA GTGGAAAGAA TATGTCAGAT ATGATTCTAA GCCAACTGTT 
    GTACCATGCT CTACATTAAG TGGGGGAAGG AATTTATCAG GTACAACCTC ACCGGATCAA 
    AAGGAAGATG ACAGGACTGG GTCGAACTTA AGTTTTACAG ATGAAAAATC ACCAGATAAC 
    ATATCATCTG CTTCAGAAGC TTCAGAATCA ACTACAACCG GTTTCACTTA TTCGAGCAAT 
    ACAACCTCAG ACATGTGCTT TGCACGTCAG CATAACACTT CAGATAATAA TAACCAGTGT 
    ATGCTCAGTG CCAATGGGAA TGCATTATTG CAGCTTAATC CACAGAAACC TGGAGCTATT 
    GACAACCAGC CTCTAGTTAC ACAAGAAACT GTAAAGGTTC CTTCCTTAAC ACTTGAAGGG 
    GGGCGACTAA AACAGAGTCC ATCTCTGCTC CGAGGTAAAG ACTATGAGAT TGTTCCAGAG 
    CCTGTGTGGA GAGCCTTGTA TCACTGGTAT GGGGCAAACC TTTCCTTACC ACGTCCAGTT 
    ATCAAAAACT GCAAAACAGA TCTTCCAGAA CTTGAGCTTT TCCCACGCTA TTTGCTTTTC 
    TTGAGACAGC AGCCCGTAAC TCGCCAACAA CAGTCAAACA TCTGGGTGAA TATGGGTAAT 
    GTTCCCTCGC CAAATGCTCC ACTGAAACGT GTGCTGGCAT ACACTGGCTG TTTCAGCCGC 
    ATGCAGACAA TAAAAGAAAT TCATGAATAT CTTTCTCAGC GGCTGCGCAT TAAGGAAGAA 
    GATATGAGGT TGTGGTTGTA TAATAGTGAG AATTACCTCA CTTTACTTGA TGATGAAGAC 
    CACACATTAG AGGGCCTGAA AATACAAGAT GAGCAGCACT TGGTAATAGA AGTCAGGAAC 
    AAAGACATGA GCTGGCCTGA AGAGATGTCA TTTATTGCAA ACAGCAGTAA AATTGATAGA 
    CATAAAGTTC CAACAGAAAA AGGTGCCACG GGTCTGAGCA ACTTAGGGAA CACATGCTTT 
    ATGAATTCAA GTATCCAATG TGTTAGCAAC ACACAGCCAC TTACTAAATA TTTTATCTCA 
    GGAAGGCATT TGTATGAGCT CAACAGAACA AATCCTATTG GAATGAAAGG ACACATGGCA 
    AAATGTTACG GTGATTTGGT ACAAGAGCTG TGGAGTGGAA CCCAGAAAAA TGTGGCACCT 
    CTTAAATTAC GGTGGACAAT AGCAAAATAT GCACCAAGGT TCAATGGCTT TCAACAGCAG 
    GATTCTCAGG AGCTGCTAGC TTTTCTTTTA GATGGTCTTC ATGAAGATCT GAACCGAGTT 
    CACGACAAAC CTTACGTTGA ACTCAAAGAC AGTGATGGTC GCCCAGACTG GGAAGTTGCT 
    GCAGAGGCAT GGGATAACCA TTTAAGGAGA AACAAATCAA TAGTTGTGGA TTTGTTTCAT 
    GGACAGCTGA GATCCCAAGT GAAATGTAAA ACATGTGGAC ACATAAGTGT AAGATTTGAT 
    CCTTTCAACT TTCTTTCGCT CCCTCTTCCC ATGGACAGCT ATATGCACTT GGAAATTACA 
    GTTATTAAAC TAGATGGTAC AACCCCTGTG CGATATGGAC TCAGGCTGAA CATGGATGAG 
    AAATACACAG GCTTGAAAAA ACAGCTTAGT GACCTGTGTG GATTAAAACC TGAGCAGATT 
    CTCCTTGCAG AGGTTCATGG ATCCAACATA AAGAATTTTC CCCAGGATAA CCAAAAAGTT 
    CGCCTTTCTG TAAGTGGTTT TCTGTGTGCT TTTGAGATAC CTATTCCAGG ATCTCCAACA 
    TCTGCCACAA GTCCCACACA GACAGATCCC AACACAATAC TATTATCAAA TGGGCCGCAC 
    AGTCTAATCT CAAATGGAGG ACTGAATCGA CCAACACTAA TTCCTAATGG GCTGCCAAAC 
    ACAGTAGTGC CATGTGGAAC AGAAAAAAAT CTGGTGAATG GAGTTCTTAA TGGTCATGTC 
    TCTGTGCATC CAGAAGGTCC CTTCATAGGG TATATCATTG CAATCCACAG AAAGATGATG 
    AGGACTGAGT TGTACTTTTT GTCATTTCAA AAAAATCGCC CCAGCCTTTT TGGAATGCCC 
    TTAATTGTCC CATGCACGGT GCACACAAGA AAAAAAGACT TGTACGATGC CGTTTGGATT 
    CAGGTTTCCA GGCTTGCAAG TCCTCTTCCG CCACAGGAAG CAAGTAACCA TGCACAAGAC 
    TGTGATGATA GCATGGGGTA TCAGTATCCT TTCACTCTGC GAGTGGTTCA GAAAGATGGT 
    AATTCATGTG CTTCTTGCCC TTGGTACAGG TTCTGTAGAG GGTGTAAAAT TGAATGTTCT 
    GAGGATCGGG CTTATATCGG CAATGCATAC ATTGCTGTGG ATTGGGACCC CACTGCACTT 
    CATCTTCGCT ACCAGACATC GCAAGAACGG ATTGTTGAAG AGCATGAGAG TGTTGAACAG 
    AGTCGTCGAG CACAAGCTGA GCCTATAAAC CTCGATAGCT GTCTCAGAGC TTTCACTAGT 
    GAGGAGGAAC TTGGAGAAGA TGAAATGTAT TATTGTTCCA AATGTAAAAC CCACTGTTTA 
    GCCACCAAAA AACTTGACCT TTGGAGACTT CCACCGATCT TGATAATCCA CTTGAAAAGA 
    TTCCAGTTTG TAAATGGGCG CTGGATAAAG TCTCAGAAAA TAGTAAAATT TCCTCGAGAG 
    AACTTTGATC CGAGTGCCTT TTTGGTTCCT AAAGGACCAA TACAGTACCA GAAAAAGCAA 
    ATGGTGCTTC AAAATGAAGA TCAGTCAGAC ACACGTCTAA CCCAGGTGGA AGGGAAGAAG 
    GAGCTTGCAA ACTCTGTCCT TCCCGGAGAT ACAGATGCAG CTTGCCGAAA TCAGCCTGCC 
    CTCAACCCCT CAACGGGGAA TAATATCAAA GCTTCCCCCT CTCAAGGAAG AAAAGGGAAT 
    ATCAACTGCA CAAGCAAAAA TAATAGCCCA AACCATAGCC CCAGAACTCT AGGAAGGGGT 
    AAAGGTCGTC TTCGTTTGCC TCAGATCGGA GTCAAAAAAC TTTCAAGTAG CAAAGAAAAT 
    CTGGATCAAA ACAAAGAAAA TGGCACTGAT AATGAAATGA GAGAAGGTCC AGATACTGTA 
    GATTCCAATA AGGGGCTTTG TGGAAGTCAA GGGGAGGTTG CCACTGTTCA GGATACAGAG 
    GTGGTCTTGA CCAATGGGCT TAATTATGAA CAAAACTCAT GCAGCAATGG GCAGCTGGAA 
    AACCACACAG GGGAAGAAGA GGACAGCACT GATGACCAAA GAGATGACAT TGGCTGTCAA 
    CCTATTTACA ACCTTTATGC AATTTCGTGC CATTCAGGAA TATTGGGTGG AGGTCATTAT 
    GTCACTTATG CCAAAAATCC AAATGCGAAA TGGTACTGCT ACAATGACAG CAGCTGCAAG 
    GAATTGCACC CTGATGAAAT TGACACAGAC TCTGCGTACA TCCTTTTCTA CGAACAGCAA 
    GGGGTGGACT ATGCACAATT TCTGCCAAAG ATAGATGGGA AAAAGATGGC AGACACTAGC 
    AGCATGGATG AAGATTTTGA ATCCGACTAT AAAAAATATT GCGTGCTGCA ATGA

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

    usp32 ( XM_012957447.3 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012812901.1 Xenopus tropicalis ubiquitin specific peptidase 32 (usp32), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa33916
    Clone ID Related Accession (Same CDS sequence) XM_012957447.3 , XM_012957447.2
    Accession Version XM_012957447.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4836bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030678.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957447.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGGGCCA AGGAGTCTCG GATCGGGTTT CTGACGTATG ATGAAGCCGT GAAAAGAGTG 
    ACTGACGTTG AACTGAAGAG GCTGAAAGAT GCCTTCAAGA GAACTTGTGG AGGACCTTCC 
    TACTACATGA ATCAGCAATG TTTTATAAGG GAAGTCCTTG GGGATGGGGT CCCCCCTAAG 
    GTTGCAGAGG TCATCTATTG CTCATTTGGT GGAACCTCCA AAGGGTTACA TTTCAACAAC 
    CTGATAGTGG GACTTGTCCT TCTAACAAGA GGTCGAGATG AAGAGAAGGC AAAATACATT 
    TTTAGTCTCT TTTCAAATGA ATCTGGCAGC TGTGTTGTAC GAGAGGAAAT GGAGAGCATG 
    CTGTGCATGG TGGATGGAGA AGTTCCTCTG TCACTTAAGA AATGTTTTGC TGAGGGTGAA 
    AAGGTGAACT ATGACAAATT TCGAAACTGG CTACTGCAGA ATAAGGATGC ATTTACGTTT 
    TCTCGATGGT TGCTTTCTGG AGGAGTTTTC GTTACCCTCA CAGATGATAG TGACACTCCC 
    ACTTTTTATC AGACTTTAGC TGGAGTTACA CACTTGGAAG AGTCTGACAT CATCGATCTG 
    GAGAAAAGAT ACTGGTTATT GAAGGCACAG TCACGTACTG GACGGTTCGA TTTAGAAACA 
    TTTGTCCCCT TGGTTTCACC TCCTATTCAT CAGTCCTTGA GTGAAGGGTT ATTCAATGCG 
    TTTGATGAAA ACCGGGACAA TCACATTGAC TTCAAAGAAA TTTCGTGTGG GCTGTCTGCA 
    TGTTGCAGGG GACCCCTAGC TGAGAGACAA AAATTTTGTT TCAAGGTATT TGACATAGAT 
    CGTGATGGTA TTCTGTCTCG CACGGAGCTG GAAGAGATGG TCCTTGCGCT TTTGGAGGTT 
    TGGAAGGATA ACCGTATTGA TGCCATACCT GAATTGCACT TAAATCTGTC TAACATCACA 
    GACAATATAC TGCAGTCCCA TGATACAACA AAGATTGGAC ATCTGACACT GGAAGATTAT 
    CAGATATGGA GTGTTAAAAG TGCCCTTGCC AATGAGTTTT TAAATCTTCT TTTTCAGGTG 
    TGTCATATAG TCTTGGGGTT AAAACCAGCC ACTCCCGAGG AGGAAGGACA AATTATTAGA 
    GGTTGGCTAG AAAGAGAAAG TCGGTATGGA CTACAGTTTG GTCACAACTG GTTTCTTATC 
    TCTATGCAGT GGTGGCAGCA GTGGAAAGAA TATGTCAGAT ATGATTCTAA GCCAACTGTT 
    GTACCATGCT CTACATTAAG TGGGGGAAGG AATTTATCAG GTACAACCTC ACCGGATCAA 
    AAGGAAGATG ACAGGACTGG GTCGAACTTA AGTTTTACAG ATGAAAAATC ACCAGATAAC 
    ATATCATCTG CTTCAGAAGC TTCAGAATCA ACTACAACCG GTTTCACTTA TTCGAGCAAT 
    ACAACCTCAG ACATGTGCTT TGCACGTCAG CATAACACTT CAGATAATAA TAACCAGTGT 
    ATGCTCAGTG CCAATGGGAA TGCATTATTG CAGCTTAATC CACAGAAACC TGGAGCTATT 
    GACAACCAGC CTCTAGTTAC ACAAGAAACT GTAAAGGTTC CTTCCTTAAC ACTTGAAGGG 
    GGGCGACTAA AACAGAGTCC ATCTCTGCTC CGAGGTAAAG ACTATGAGAT TGTTCCAGAG 
    CCTGTGTGGA GAGCCTTGTA TCACTGGTAT GGGGCAAACC TTTCCTTACC ACGTCCAGTT 
    ATCAAAAACT GCAAAACAGA TCTTCCAGAA CTTGAGCTTT TCCCACGCTA TTTGCTTTTC 
    TTGAGACAGC AGCCCGTAAC TCGCCAACAA CAGTCAAACA TCTGGGTGAA TATGGGTATG 
    ATGAGCCTCA GAATGTTTCC TCAGCATTTA CCCAGAGGTA ATGTTCCCTC GCCAAATGCT 
    CCACTGAAAC GTGTGCTGGC ATACACTGGC TGTTTCAGCC GCATGCAGAC AATAAAAGAA 
    ATTCATGAAT ATCTTTCTCA GCGGCTGCGC ATTAAGGAAG AAGATATGAG GTTGTGGTTG 
    TATAATAGTG AGAATTACCT CACTTTACTT GATGATGAAG ACCACACATT AGAGGGCCTG 
    AAAATACAAG ATGAGCAGCA CTTGGTAATA GAAGTCAGGA ACAAAGACAT GAGCTGGCCT 
    GAAGAGATGT CATTTATTGC AAACAGCAGT AAAATTGATA GACATAAAGT TCCAACAGAA 
    AAAGGTGCCA CGGGTCTGAG CAACTTAGGG AACACATGCT TTATGAATTC AAGTATCCAA 
    TGTGTTAGCA ACACACAGCC ACTTACTAAA TATTTTATCT CAGGAAGGCA TTTGTATGAG 
    CTCAACAGAA CAAATCCTAT TGGAATGAAA GGACACATGG CAAAATGTTA CGGTGATTTG 
    GTACAAGAGC TGTGGAGTGG AACCCAGAAA AATGTGGCAC CTCTTAAATT ACGGTGGACA 
    ATAGCAAAAT ATGCACCAAG GTTCAATGGC TTTCAACAGC AGGATTCTCA GGAGCTGCTA 
    GCTTTTCTTT TAGATGGTCT TCATGAAGAT CTGAACCGAG TTCACGACAA ACCTTACGTT 
    GAACTCAAAG ACAGTGATGG TCGCCCAGAC TGGGAAGTTG CTGCAGAGGC ATGGGATAAC 
    CATTTAAGGA GAAACAAATC AATAGTTGTG GATTTGTTTC ATGGACAGCT GAGATCCCAA 
    GTGAAATGTA AAACATGTGG ACACATAAGT GTAAGATTTG ATCCTTTCAA CTTTCTTTCG 
    CTCCCTCTTC CCATGGACAG CTATATGCAC TTGGAAATTA CAGTTATTAA ACTAGATGGT 
    ACAACCCCTG TGCGATATGG ACTCAGGCTG AACATGGATG AGAAATACAC AGGCTTGAAA 
    AAACAGCTTA GTGACCTGTG TGGATTAAAA CCTGAGCAGA TTCTCCTTGC AGAGGTTCAT 
    GGATCCAACA TAAAGAATTT TCCCCAGGAT AACCAAAAAG TTCGCCTTTC TGTAAGTGGT 
    TTTCTGTGTG CTTTTGAGAT ACCTATTCCA GGATCTCCAA CATCTGCCAC AAGTCCCACA 
    CAGACAGATC CCAACACAAT ACTATTATCA AATGGGCCGC ACAGTCTAAT CTCAAATGGA 
    GGACTGAATC GACCAACACT AATTCCTAAT GGGCTGCCAA ACACAGTAGT GCCATGTGGA 
    ACAGAAAAAA ATCTGGTGAA TGGAGTTCTT AATGGTCATG TCTCTGTGCA TCCAGAAGGT 
    CCCTTCATAG GGTATATCAT TGCAATCCAC AGAAAGATGA TGAGGACTGA GTTGTACTTT 
    TTGTCATTTC AAAAAAATCG CCCCAGCCTT TTTGGAATGC CCTTAATTGT CCCATGCACG 
    GTGCACACAA GAAAAAAAGA CTTGTACGAT GCCGTTTGGA TTCAGGTTTC CAGGCTTGCA 
    AGTCCTCTTC CGCCACAGGA AGCAAGTAAC CATGCACAAG ACTGTGATGA TAGCATGGGG 
    TATCAGTATC CTTTCACTCT GCGAGTGGTT CAGAAAGATG GTAATTCATG TGCTTCTTGC 
    CCTTGGTACA GGTTCTGTAG AGGGTGTAAA ATTGAATGTT CTGAGGATCG GGCTTATATC 
    GGCAATGCAT ACATTGCTGT GGATTGGGAC CCCACTGCAC TTCATCTTCG CTACCAGACA 
    TCGCAAGAAC GGATTGTTGA AGAGCATGAG AGTGTTGAAC AGAGTCGTCG AGCACAAGCT 
    GAGCCTATAA ACCTCGATAG CTGTCTCAGA GCTTTCACTA GTGAGGAGGA ACTTGGAGAA 
    GATGAAATGT ATTATTGTTC CAAATGTAAA ACCCACTGTT TAGCCACCAA AAAACTTGAC 
    CTTTGGAGAC TTCCACCGAT CTTGATAATC CACTTGAAAA GATTCCAGTT TGTAAATGGG 
    CGCTGGATAA AGTCTCAGAA AATAGTAAAA TTTCCTCGAG AGAACTTTGA TCCGAGTGCC 
    TTTTTGGTTC CTAAAGGACC AATACAGTAC CAGAAAAAGC AAATGGTGCT TCAAAATGAA 
    GATCAGTCAG ACACACGTCT AACCCAGGTG GAAGGGAAGA AGGAGCTTGC AAACTCTGTC 
    CTTCCCGGAG ATACAGATGC AGCTTGCCGA AATCAGCCTG CCCTCAACCC CTCAACGGGG 
    AATAATATCA AAGCTTCCCC CTCTCAAGGA AGAAAAGGGA ATATCAACTG CACAAGCAAA 
    AATAATAGCC CAAACCATAG CCCCAGAACT CTAGGAAGGG GTAAAGGTCG TCTTCGTTTG 
    CCTCAGATCG GAGTCAAAAA ACTTTCAAGT AGCAAAGAAA ATCTGGATCA AAACAAAGAA 
    AATGGCACTG ATAATGAAAT GAGAGAAGGT CCAGATACTG TAGATTCCAA TAAGGGGCTT 
    TGTGGAAGTC AAGGGGAGGT TGCCACTGTT CAGGATACAG AGGTGGTCTT GACCAATGGG 
    CTTAATTATG AACAAAACTC ATGCAGCAAT GGGCAGCTGG AAAACCACAC AGGGGAAGAA 
    GAGGACAGCA CTGATGACCA AAGAGATGAC ATTGGCTGTC AACCTATTTA CAACCTTTAT 
    GCAATTTCGT GCCATTCAGG AATATTGGGT GGAGGTCATT ATGTCACTTA TGCCAAAAAT 
    CCAAATGCGA AATGGTACTG CTACAATGAC AGCAGCTGCA AGGAATTGCA CCCTGATGAA 
    ATTGACACAG ACTCTGCGTA CATCCTTTTC TACGAACAGC AAGGGGTGGA CTATGCACAA 
    TTTCTGCCAA AGATAGATGG GAAAAAGATG GCAGACACTA GCAGCATGGA TGAAGATTTT 
    GAATCCGACT ATAAAAAATA TTGCGTGCTG CAATGA

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

    RefSeq XP_012812901.1
    CDS233..5068
    Translation

    Target ORF information:

    RefSeq Version XM_012957447.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012957447.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    ATGGGGGCCA AGGAGTCTCG GATCGGGTTT CTGACGTATG ATGAAGCCGT GAAAAGAGTG 
    ACTGACGTTG AACTGAAGAG GCTGAAAGAT GCCTTCAAGA GAACTTGTGG AGGACCTTCC 
    TACTACATGA ATCAGCAATG TTTTATAAGG GAAGTCCTTG GGGATGGGGT CCCCCCTAAG 
    GTTGCAGAGG TCATCTATTG CTCATTTGGT GGAACCTCCA AAGGGTTACA TTTCAACAAC 
    CTGATAGTGG GACTTGTCCT TCTAACAAGA GGTCGAGATG AAGAGAAGGC AAAATACATT 
    TTTAGTCTCT TTTCAAATGA ATCTGGCAGC TGTGTTGTAC GAGAGGAAAT GGAGAGCATG 
    CTGTGCATGG TGGATGGAGA AGTTCCTCTG TCACTTAAGA AATGTTTTGC TGAGGGTGAA 
    AAGGTGAACT ATGACAAATT TCGAAACTGG CTACTGCAGA ATAAGGATGC ATTTACGTTT 
    TCTCGATGGT TGCTTTCTGG AGGAGTTTTC GTTACCCTCA CAGATGATAG TGACACTCCC 
    ACTTTTTATC AGACTTTAGC TGGAGTTACA CACTTGGAAG AGTCTGACAT CATCGATCTG 
    GAGAAAAGAT ACTGGTTATT GAAGGCACAG TCACGTACTG GACGGTTCGA TTTAGAAACA 
    TTTGTCCCCT TGGTTTCACC TCCTATTCAT CAGTCCTTGA GTGAAGGGTT ATTCAATGCG 
    TTTGATGAAA ACCGGGACAA TCACATTGAC TTCAAAGAAA TTTCGTGTGG GCTGTCTGCA 
    TGTTGCAGGG GACCCCTAGC TGAGAGACAA AAATTTTGTT TCAAGGTATT TGACATAGAT 
    CGTGATGGTA TTCTGTCTCG CACGGAGCTG GAAGAGATGG TCCTTGCGCT TTTGGAGGTT 
    TGGAAGGATA ACCGTATTGA TGCCATACCT GAATTGCACT TAAATCTGTC TAACATCACA 
    GACAATATAC TGCAGTCCCA TGATACAACA AAGATTGGAC ATCTGACACT GGAAGATTAT 
    CAGATATGGA GTGTTAAAAG TGCCCTTGCC AATGAGTTTT TAAATCTTCT TTTTCAGGTG 
    TGTCATATAG TCTTGGGGTT AAAACCAGCC ACTCCCGAGG AGGAAGGACA AATTATTAGA 
    GGTTGGCTAG AAAGAGAAAG TCGGTATGGA CTACAGTTTG GTCACAACTG GTTTCTTATC 
    TCTATGCAGT GGTGGCAGCA GTGGAAAGAA TATGTCAGAT ATGATTCTAA GCCAACTGTT 
    GTACCATGCT CTACATTAAG TGGGGGAAGG AATTTATCAG GTACAACCTC ACCGGATCAA 
    AAGGAAGATG ACAGGACTGG GTCGAACTTA AGTTTTACAG ATGAAAAATC ACCAGATAAC 
    ATATCATCTG CTTCAGAAGC TTCAGAATCA ACTACAACCG GTTTCACTTA TTCGAGCAAT 
    ACAACCTCAG ACATGTGCTT TGCACGTCAG CATAACACTT CAGATAATAA TAACCAGTGT 
    ATGCTCAGTG CCAATGGGAA TGCATTATTG CAGCTTAATC CACAGAAACC TGGAGCTATT 
    GACAACCAGC CTCTAGTTAC ACAAGAAACT GTAAAGGTTC CTTCCTTAAC ACTTGAAGGG 
    GGGCGACTAA AACAGAGTCC ATCTCTGCTC CGAGGTAAAG ACTATGAGAT TGTTCCAGAG 
    CCTGTGTGGA GAGCCTTGTA TCACTGGTAT GGGGCAAACC TTTCCTTACC ACGTCCAGTT 
    ATCAAAAACT GCAAAACAGA TCTTCCAGAA CTTGAGCTTT TCCCACGCTA TTTGCTTTTC 
    TTGAGACAGC AGCCCGTAAC TCGCCAACAA CAGTCAAACA TCTGGGTGAA TATGGGTATG 
    ATGAGCCTCA GAATGTTTCC TCAGCATTTA CCCAGAGGTA ATGTTCCCTC GCCAAATGCT 
    CCACTGAAAC GTGTGCTGGC ATACACTGGC TGTTTCAGCC GCATGCAGAC AATAAAAGAA 
    ATTCATGAAT ATCTTTCTCA GCGGCTGCGC ATTAAGGAAG AAGATATGAG GTTGTGGTTG 
    TATAATAGTG AGAATTACCT CACTTTACTT GATGATGAAG ACCACACATT AGAGGGCCTG 
    AAAATACAAG ATGAGCAGCA CTTGGTAATA GAAGTCAGGA ACAAAGACAT GAGCTGGCCT 
    GAAGAGATGT CATTTATTGC AAACAGCAGT AAAATTGATA GACATAAAGT TCCAACAGAA 
    AAAGGTGCCA CGGGTCTGAG CAACTTAGGG AACACATGCT TTATGAATTC AAGTATCCAA 
    TGTGTTAGCA ACACACAGCC ACTTACTAAA TATTTTATCT CAGGAAGGCA TTTGTATGAG 
    CTCAACAGAA CAAATCCTAT TGGAATGAAA GGACACATGG CAAAATGTTA CGGTGATTTG 
    GTACAAGAGC TGTGGAGTGG AACCCAGAAA AATGTGGCAC CTCTTAAATT ACGGTGGACA 
    ATAGCAAAAT ATGCACCAAG GTTCAATGGC TTTCAACAGC AGGATTCTCA GGAGCTGCTA 
    GCTTTTCTTT TAGATGGTCT TCATGAAGAT CTGAACCGAG TTCACGACAA ACCTTACGTT 
    GAACTCAAAG ACAGTGATGG TCGCCCAGAC TGGGAAGTTG CTGCAGAGGC ATGGGATAAC 
    CATTTAAGGA GAAACAAATC AATAGTTGTG GATTTGTTTC ATGGACAGCT GAGATCCCAA 
    GTGAAATGTA AAACATGTGG ACACATAAGT GTAAGATTTG ATCCTTTCAA CTTTCTTTCG 
    CTCCCTCTTC CCATGGACAG CTATATGCAC TTGGAAATTA CAGTTATTAA ACTAGATGGT 
    ACAACCCCTG TGCGATATGG ACTCAGGCTG AACATGGATG AGAAATACAC AGGCTTGAAA 
    AAACAGCTTA GTGACCTGTG TGGATTAAAA CCTGAGCAGA TTCTCCTTGC AGAGGTTCAT 
    GGATCCAACA TAAAGAATTT TCCCCAGGAT AACCAAAAAG TTCGCCTTTC TGTAAGTGGT 
    TTTCTGTGTG CTTTTGAGAT ACCTATTCCA GGATCTCCAA CATCTGCCAC AAGTCCCACA 
    CAGACAGATC CCAACACAAT ACTATTATCA AATGGGCCGC ACAGTCTAAT CTCAAATGGA 
    GGACTGAATC GACCAACACT AATTCCTAAT GGGCTGCCAA ACACAGTAGT GCCATGTGGA 
    ACAGAAAAAA ATCTGGTGAA TGGAGTTCTT AATGGTCATG TCTCTGTGCA TCCAGAAGGT 
    CCCTTCATAG GGTATATCAT TGCAATCCAC AGAAAGATGA TGAGGACTGA GTTGTACTTT 
    TTGTCATTTC AAAAAAATCG CCCCAGCCTT TTTGGAATGC CCTTAATTGT CCCATGCACG 
    GTGCACACAA GAAAAAAAGA CTTGTACGAT GCCGTTTGGA TTCAGGTTTC CAGGCTTGCA 
    AGTCCTCTTC CGCCACAGGA AGCAAGTAAC CATGCACAAG ACTGTGATGA TAGCATGGGG 
    TATCAGTATC CTTTCACTCT GCGAGTGGTT CAGAAAGATG GTAATTCATG TGCTTCTTGC 
    CCTTGGTACA GGTTCTGTAG AGGGTGTAAA ATTGAATGTT CTGAGGATCG GGCTTATATC 
    GGCAATGCAT ACATTGCTGT GGATTGGGAC CCCACTGCAC TTCATCTTCG CTACCAGACA 
    TCGCAAGAAC GGATTGTTGA AGAGCATGAG AGTGTTGAAC AGAGTCGTCG AGCACAAGCT 
    GAGCCTATAA ACCTCGATAG CTGTCTCAGA GCTTTCACTA GTGAGGAGGA ACTTGGAGAA 
    GATGAAATGT ATTATTGTTC CAAATGTAAA ACCCACTGTT TAGCCACCAA AAAACTTGAC 
    CTTTGGAGAC TTCCACCGAT CTTGATAATC CACTTGAAAA GATTCCAGTT TGTAAATGGG 
    CGCTGGATAA AGTCTCAGAA AATAGTAAAA TTTCCTCGAG AGAACTTTGA TCCGAGTGCC 
    TTTTTGGTTC CTAAAGGACC AATACAGTAC CAGAAAAAGC AAATGGTGCT TCAAAATGAA 
    GATCAGTCAG ACACACGTCT AACCCAGGTG GAAGGGAAGA AGGAGCTTGC AAACTCTGTC 
    CTTCCCGGAG ATACAGATGC AGCTTGCCGA AATCAGCCTG CCCTCAACCC CTCAACGGGG 
    AATAATATCA AAGCTTCCCC CTCTCAAGGA AGAAAAGGGA ATATCAACTG CACAAGCAAA 
    AATAATAGCC CAAACCATAG CCCCAGAACT CTAGGAAGGG GTAAAGGTCG TCTTCGTTTG 
    CCTCAGATCG GAGTCAAAAA ACTTTCAAGT AGCAAAGAAA ATCTGGATCA AAACAAAGAA 
    AATGGCACTG ATAATGAAAT GAGAGAAGGT CCAGATACTG TAGATTCCAA TAAGGGGCTT 
    TGTGGAAGTC AAGGGGAGGT TGCCACTGTT CAGGATACAG AGGTGGTCTT GACCAATGGG 
    CTTAATTATG AACAAAACTC ATGCAGCAAT GGGCAGCTGG AAAACCACAC AGGGGAAGAA 
    GAGGACAGCA CTGATGACCA AAGAGATGAC ATTGGCTGTC AACCTATTTA CAACCTTTAT 
    GCAATTTCGT GCCATTCAGG AATATTGGGT GGAGGTCATT ATGTCACTTA TGCCAAAAAT 
    CCAAATGCGA AATGGTACTG CTACAATGAC AGCAGCTGCA AGGAATTGCA CCCTGATGAA 
    ATTGACACAG ACTCTGCGTA CATCCTTTTC TACGAACAGC AAGGGGTGGA CTATGCACAA 
    TTTCTGCCAA AGATAGATGG GAAAAAGATG GCAGACACTA GCAGCATGGA TGAAGATTTT 
    GAATCCGACT ATAAAAAATA TTGCGTGCTG CAATGA

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

    usp32 ( XM_002933823.4 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_002933869.1 Xenopus tropicalis ubiquitin specific peptidase 32 (usp32), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa05536
    Clone ID Related Accession (Same CDS sequence) XM_002933823.5 , XM_002933823.4
    Accession Version XM_002933823.4 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4794bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_002933823.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGGGGGCCA AGGAGTCTCG GATCGGGTTT CTGACGTATG ATGAAGCCGT GAAAAGAGTG 
    ACTGACGTTG AACTGAAGAG GCTGAAAGAT GCCTTCAAGA GAACTTGTGG AGGACCTTCC 
    TACTACATGA ATCAGCAATG TTTTATAAGG GAAGTCCTTG GGGATGGGGT CCCCCCTAAG 
    GTTGCAGAGG TCATCTATTG CTCATTTGGT GGAACCTCCA AAGGGTTACA TTTCAACAAC 
    CTGATAGTGG GACTTGTCCT TCTAACAAGA GGTCGAGATG AAGAGAAGGC AAAATACATT 
    TTTAGTCTCT TTTCAAATGA ATCTGGCAGC TGTGTTGTAC GAGAGGAAAT GGAGAGCATG 
    CTGTGCATGG TGGATGGAGA AGTTCCTCTG TCACTTAAGA AATGTTTTGC TGAGGGTGAA 
    AAGGTGAACT ATGACAAATT TCGAAACTGG CTACTGCAGA ATAAGGATGC ATTTACGTTT 
    TCTCGATGGT TGCTTTCTGG AGGAGTTTTC GTTACCCTCA CAGATGATAG TGACACTCCC 
    ACTTTTTATC AGACTTTAGC TGGAGTTACA CACTTGGAAG AGTCTGACAT CATCGATCTG 
    GAGAAAAGAT ACTGGTTATT GAAGGCACAG TCACGTACTG GACGGTTCGA TTTAGAAACA 
    TTTGTCCCCT TGGTTTCACC TCCTATTCAT CAGTCCTTGA GTGAAGGGTT ATTCAATGCG 
    TTTGATGAAA ACCGGGACAA TCACATTGAC TTCAAAGAAA TTTCGTGTGG GCTGTCTGCA 
    TGTTGCAGGG GACCCCTAGC TGAGAGACAA AAATTTTGTT TCAAGGTATT TGACATAGAT 
    CGTGATGGTA TTCTGTCTCG CACGGAGCTG GAAGAGATGG TCCTTGCGCT TTTGGAGGTT 
    TGGAAGGATA ACCGTATTGA TGCCATACCT GAATTGCACT TAAATCTGTC TAACATCACA 
    GACAATATAC TGCAGTCCCA TGATACAACA AAGATTGGAC ATCTGACACT GGAAGATTAT 
    CAGATATGGA GTGTTAAAAG TGCCCTTGCC AATGAGTTTT TAAATCTTCT TTTTCAGGTG 
    TGTCATATAG TCTTGGGGTT AAAACCAGCC ACTCCCGAGG AGGAAGGACA AATTATTAGA 
    GGTTGGCTAG AAAGAGAAAG TCGGTATGGA CTACAGTTTG GTCACAACTG GTTTCTTATC 
    TCTATGCAGT GGTGGCAGCA GTGGAAAGAA TATGTCAGAT ATGATTCTAA GCCAACTGTT 
    GTACCATGCT CTACATTAAG TGGGGGAAGG AATTTATCAG GTACAACCTC ACCGGATCAA 
    AAGGAAGATG ACAGGACTGG GTCGAACTTA AGTTTTACAG ATGAAAAATC ACCAGATAAC 
    ATATCATCTG CTTCAGAAGC TTCAGAATCA ACTACAACCG GTTTCACTTA TTCGAGCAAT 
    ACAACCTCAG ACATGTGCTT TGCACGTCAG CATAACACTT CAGATAATAA TAACCAGTGT 
    ATGCTCAGTG CCAATGGGAA TGCATTATTG CAGCTTAATC CACAGAAACC TGGAGCTATT 
    GACAACCAGC CTCTAGTTAC ACAAGAAACT GTAAAGGTTC CTTCCTTAAC ACTTGAAGGG 
    GGGCGACTAA AACAGAGTCC ATCTCTGCTC CGAGGTAAAG ACTATGAGAT TGTTCCAGAG 
    CCTGTGTGGA GAGCCTTGTA TCACTGGTAT GGGGCAAACC TTTCCTTACC ACGTCCAGTT 
    ATCAAAAACT GCAAAACAGA TCTTCCAGAA CTTGAGCTTT TCCCACGCTA TTTGCTTTTC 
    TTGAGACAGC AGCCCGTAAC TCGCCAACAA CAGTCAAACA TCTGGGTGAA TATGGGTAAT 
    GTTCCCTCGC CAAATGCTCC ACTGAAACGT GTGCTGGCAT ACACTGGCTG TTTCAGCCGC 
    ATGCAGACAA TAAAAGAAAT TCATGAATAT CTTTCTCAGC GGCTGCGCAT TAAGGAAGAA 
    GATATGAGGT TGTGGTTGTA TAATAGTGAG AATTACCTCA CTTTACTTGA TGATGAAGAC 
    CACACATTAG AGGGCCTGAA AATACAAGAT GAGCAGCACT TGGTAATAGA AGTCAGGAAC 
    AAAGACATGA GCTGGCCTGA AGAGATGTCA TTTATTGCAA ACAGCAGTAA AATTGATAGA 
    CATAAAGTTC CAACAGAAAA AGGTGCCACG GGTCTGAGCA ACTTAGGGAA CACATGCTTT 
    ATGAATTCAA GTATCCAATG TGTTAGCAAC ACACAGCCAC TTACTAAATA TTTTATCTCA 
    GGAAGGCATT TGTATGAGCT CAACAGAACA AATCCTATTG GAATGAAAGG ACACATGGCA 
    AAATGTTACG GTGATTTGGT ACAAGAGCTG TGGAGTGGAA CCCAGAAAAA TGTGGCACCT 
    CTTAAATTAC GGTGGACAAT AGCAAAATAT GCACCAAGGT TCAATGGCTT TCAACAGCAG 
    GATTCTCAGG AGCTGCTAGC TTTTCTTTTA GATGGTCTTC ATGAAGATCT GAACCGAGTT 
    CACGACAAAC CTTACGTTGA ACTCAAAGAC AGTGATGGTC GCCCAGACTG GGAAGTTGCT 
    GCAGAGGCAT GGGATAACCA TTTAAGGAGA AACAAATCAA TAGTTGTGGA TTTGTTTCAT 
    GGACAGCTGA GATCCCAAGT GAAATGTAAA ACATGTGGAC ACATAAGTGT AAGATTTGAT 
    CCTTTCAACT TTCTTTCGCT CCCTCTTCCC ATGGACAGCT ATATGCACTT GGAAATTACA 
    GTTATTAAAC TAGATGGTAC AACCCCTGTG CGATATGGAC TCAGGCTGAA CATGGATGAG 
    AAATACACAG GCTTGAAAAA ACAGCTTAGT GACCTGTGTG GATTAAAACC TGAGCAGATT 
    CTCCTTGCAG AGGTTCATGG ATCCAACATA AAGAATTTTC CCCAGGATAA CCAAAAAGTT 
    CGCCTTTCTG TAAGTGGTTT TCTGTGTGCT TTTGAGATAC CTATTCCAGG ATCTCCAACA 
    TCTGCCACAA GTCCCACACA GACAGATCCC AACACAATAC TATTATCAAA TGGGCCGCAC 
    AGTCTAATCT CAAATGGAGG ACTGAATCGA CCAACACTAA TTCCTAATGG GCTGCCAAAC 
    ACAGTAGTGC CATGTGGAAC AGAAAAAAAT CTGGTGAATG GAGTTCTTAA TGGTCATGTC 
    TCTGTGCATC CAGAAGGTCC CTTCATAGGG TATATCATTG CAATCCACAG AAAGATGATG 
    AGGACTGAGT TGTACTTTTT GTCATTTCAA AAAAATCGCC CCAGCCTTTT TGGAATGCCC 
    TTAATTGTCC CATGCACGGT GCACACAAGA AAAAAAGACT TGTACGATGC CGTTTGGATT 
    CAGGTTTCCA GGCTTGCAAG TCCTCTTCCG CCACAGGAAG CAAGTAACCA TGCACAAGAC 
    TGTGATGATA GCATGGGGTA TCAGTATCCT TTCACTCTGC GAGTGGTTCA GAAAGATGGT 
    AATTCATGTG CTTCTTGCCC TTGGTACAGG TTCTGTAGAG GGTGTAAAAT TGAATGTTCT 
    GAGGATCGGG CTTATATCGG CAATGCATAC ATTGCTGTGG ATTGGGACCC CACTGCACTT 
    CATCTTCGCT ACCAGACATC GCAAGAACGG ATTGTTGAAG AGCATGAGAG TGTTGAACAG 
    AGTCGTCGAG CACAAGCTGA GCCTATAAAC CTCGATAGCT GTCTCAGAGC TTTCACTAGT 
    GAGGAGGAAC TTGGAGAAGA TGAAATGTAT TATTGTTCCA AATGTAAAAC CCACTGTTTA 
    GCCACCAAAA AACTTGACCT TTGGAGACTT CCACCGATCT TGATAATCCA CTTGAAAAGA 
    TTCCAGTTTG TAAATGGGCG CTGGATAAAG TCTCAGAAAA TAGTAAAATT TCCTCGAGAG 
    AACTTTGATC CGAGTGCCTT TTTGGTTCCT AAAGGACCAA TACAGTACCA GAAAAAGCAA 
    ATGGTGCTTC AAAATGAAGA TCAGTCAGAC ACACGTCTAA CCCAGGTGGA AGGGAAGAAG 
    GAGCTTGCAA ACTCTGTCCT TCCCGGAGAT ACAGATGCAG CTTGCCGAAA TCAGCCTGCC 
    CTCAACCCCT CAACGGGGAA TAATATCAAA GCTTCCCCCT CTCAAGGAAG AAAAGGGAAT 
    ATCAACTGCA CAAGCAAAAA TAATAGCCCA AACCATAGCC CCAGAACTCT AGGAAGGGGT 
    AAAGGTCGTC TTCGTTTGCC TCAGATCGGA GTCAAAAAAC TTTCAAGTAG CAAAGAAAAT 
    CTGGATCAAA ACAAAGAAAA TGGCACTGAT AATGAAATGA GAGAAGGTCC AGATACTGTA 
    GATTCCAATA AGGGGCTTTG TGGAAGTCAA GGGGAGGTTG CCACTGTTCA GGATACAGAG 
    GTGGTCTTGA CCAATGGGCT TAATTATGAA CAAAACTCAT GCAGCAATGG GCAGCTGGAA 
    AACCACACAG GGGAAGAAGA GGACAGCACT GATGACCAAA GAGATGACAT TGGCTGTCAA 
    CCTATTTACA ACCTTTATGC AATTTCGTGC CATTCAGGAA TATTGGGTGG AGGTCATTAT 
    GTCACTTATG CCAAAAATCC AAATGCGAAA TGGTACTGCT ACAATGACAG CAGCTGCAAG 
    GAATTGCACC CTGATGAAAT TGACACAGAC TCTGCGTACA TCCTTTTCTA CGAACAGCAA 
    GGGGTGGACT ATGCACAATT TCTGCCAAAG ATAGATGGGA AAAAGATGGC AGACACTAGC 
    AGCATGGATG AAGATTTTGA ATCCGACTAT AAAAAATATT GCGTGCTGCA ATGA

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

    RefSeq XP_002933869.1
    CDS318..5111
    Translation

    Target ORF information:

    RefSeq Version XM_002933823.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_002933823.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    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
    ATGGGGGCCA AGGAGTCTCG GATCGGGTTT CTGACGTATG ATGAAGCCGT GAAAAGAGTG 
    ACTGACGTTG AACTGAAGAG GCTGAAAGAT GCCTTCAAGA GAACTTGTGG AGGACCTTCC 
    TACTACATGA ATCAGCAATG TTTTATAAGG GAAGTCCTTG GGGATGGGGT CCCCCCTAAG 
    GTTGCAGAGG TCATCTATTG CTCATTTGGT GGAACCTCCA AAGGGTTACA TTTCAACAAC 
    CTGATAGTGG GACTTGTCCT TCTAACAAGA GGTCGAGATG AAGAGAAGGC AAAATACATT 
    TTTAGTCTCT TTTCAAATGA ATCTGGCAGC TGTGTTGTAC GAGAGGAAAT GGAGAGCATG 
    CTGTGCATGG TGGATGGAGA AGTTCCTCTG TCACTTAAGA AATGTTTTGC TGAGGGTGAA 
    AAGGTGAACT ATGACAAATT TCGAAACTGG CTACTGCAGA ATAAGGATGC ATTTACGTTT 
    TCTCGATGGT TGCTTTCTGG AGGAGTTTTC GTTACCCTCA CAGATGATAG TGACACTCCC 
    ACTTTTTATC AGACTTTAGC TGGAGTTACA CACTTGGAAG AGTCTGACAT CATCGATCTG 
    GAGAAAAGAT ACTGGTTATT GAAGGCACAG TCACGTACTG GACGGTTCGA TTTAGAAACA 
    TTTGTCCCCT TGGTTTCACC TCCTATTCAT CAGTCCTTGA GTGAAGGGTT ATTCAATGCG 
    TTTGATGAAA ACCGGGACAA TCACATTGAC TTCAAAGAAA TTTCGTGTGG GCTGTCTGCA 
    TGTTGCAGGG GACCCCTAGC TGAGAGACAA AAATTTTGTT TCAAGGTATT TGACATAGAT 
    CGTGATGGTA TTCTGTCTCG CACGGAGCTG GAAGAGATGG TCCTTGCGCT TTTGGAGGTT 
    TGGAAGGATA ACCGTATTGA TGCCATACCT GAATTGCACT TAAATCTGTC TAACATCACA 
    GACAATATAC TGCAGTCCCA TGATACAACA AAGATTGGAC ATCTGACACT GGAAGATTAT 
    CAGATATGGA GTGTTAAAAG TGCCCTTGCC AATGAGTTTT TAAATCTTCT TTTTCAGGTG 
    TGTCATATAG TCTTGGGGTT AAAACCAGCC ACTCCCGAGG AGGAAGGACA AATTATTAGA 
    GGTTGGCTAG AAAGAGAAAG TCGGTATGGA CTACAGTTTG GTCACAACTG GTTTCTTATC 
    TCTATGCAGT GGTGGCAGCA GTGGAAAGAA TATGTCAGAT ATGATTCTAA GCCAACTGTT 
    GTACCATGCT CTACATTAAG TGGGGGAAGG AATTTATCAG GTACAACCTC ACCGGATCAA 
    AAGGAAGATG ACAGGACTGG GTCGAACTTA AGTTTTACAG ATGAAAAATC ACCAGATAAC 
    ATATCATCTG CTTCAGAAGC TTCAGAATCA ACTACAACCG GTTTCACTTA TTCGAGCAAT 
    ACAACCTCAG ACATGTGCTT TGCACGTCAG CATAACACTT CAGATAATAA TAACCAGTGT 
    ATGCTCAGTG CCAATGGGAA TGCATTATTG CAGCTTAATC CACAGAAACC TGGAGCTATT 
    GACAACCAGC CTCTAGTTAC ACAAGAAACT GTAAAGGTTC CTTCCTTAAC ACTTGAAGGG 
    GGGCGACTAA AACAGAGTCC ATCTCTGCTC CGAGGTAAAG ACTATGAGAT TGTTCCAGAG 
    CCTGTGTGGA GAGCCTTGTA TCACTGGTAT GGGGCAAACC TTTCCTTACC ACGTCCAGTT 
    ATCAAAAACT GCAAAACAGA TCTTCCAGAA CTTGAGCTTT TCCCACGCTA TTTGCTTTTC 
    TTGAGACAGC AGCCCGTAAC TCGCCAACAA CAGTCAAACA TCTGGGTGAA TATGGGTAAT 
    GTTCCCTCGC CAAATGCTCC ACTGAAACGT GTGCTGGCAT ACACTGGCTG TTTCAGCCGC 
    ATGCAGACAA TAAAAGAAAT TCATGAATAT CTTTCTCAGC GGCTGCGCAT TAAGGAAGAA 
    GATATGAGGT TGTGGTTGTA TAATAGTGAG AATTACCTCA CTTTACTTGA TGATGAAGAC 
    CACACATTAG AGGGCCTGAA AATACAAGAT GAGCAGCACT TGGTAATAGA AGTCAGGAAC 
    AAAGACATGA GCTGGCCTGA AGAGATGTCA TTTATTGCAA ACAGCAGTAA AATTGATAGA 
    CATAAAGTTC CAACAGAAAA AGGTGCCACG GGTCTGAGCA ACTTAGGGAA CACATGCTTT 
    ATGAATTCAA GTATCCAATG TGTTAGCAAC ACACAGCCAC TTACTAAATA TTTTATCTCA 
    GGAAGGCATT TGTATGAGCT CAACAGAACA AATCCTATTG GAATGAAAGG ACACATGGCA 
    AAATGTTACG GTGATTTGGT ACAAGAGCTG TGGAGTGGAA CCCAGAAAAA TGTGGCACCT 
    CTTAAATTAC GGTGGACAAT AGCAAAATAT GCACCAAGGT TCAATGGCTT TCAACAGCAG 
    GATTCTCAGG AGCTGCTAGC TTTTCTTTTA GATGGTCTTC ATGAAGATCT GAACCGAGTT 
    CACGACAAAC CTTACGTTGA ACTCAAAGAC AGTGATGGTC GCCCAGACTG GGAAGTTGCT 
    GCAGAGGCAT GGGATAACCA TTTAAGGAGA AACAAATCAA TAGTTGTGGA TTTGTTTCAT 
    GGACAGCTGA GATCCCAAGT GAAATGTAAA ACATGTGGAC ACATAAGTGT AAGATTTGAT 
    CCTTTCAACT TTCTTTCGCT CCCTCTTCCC ATGGACAGCT ATATGCACTT GGAAATTACA 
    GTTATTAAAC TAGATGGTAC AACCCCTGTG CGATATGGAC TCAGGCTGAA CATGGATGAG 
    AAATACACAG GCTTGAAAAA ACAGCTTAGT GACCTGTGTG GATTAAAACC TGAGCAGATT 
    CTCCTTGCAG AGGTTCATGG ATCCAACATA AAGAATTTTC CCCAGGATAA CCAAAAAGTT 
    CGCCTTTCTG TAAGTGGTTT TCTGTGTGCT TTTGAGATAC CTATTCCAGG ATCTCCAACA 
    TCTGCCACAA GTCCCACACA GACAGATCCC AACACAATAC TATTATCAAA TGGGCCGCAC 
    AGTCTAATCT CAAATGGAGG ACTGAATCGA CCAACACTAA TTCCTAATGG GCTGCCAAAC 
    ACAGTAGTGC CATGTGGAAC AGAAAAAAAT CTGGTGAATG GAGTTCTTAA TGGTCATGTC 
    TCTGTGCATC CAGAAGGTCC CTTCATAGGG TATATCATTG CAATCCACAG AAAGATGATG 
    AGGACTGAGT TGTACTTTTT GTCATTTCAA AAAAATCGCC CCAGCCTTTT TGGAATGCCC 
    TTAATTGTCC CATGCACGGT GCACACAAGA AAAAAAGACT TGTACGATGC CGTTTGGATT 
    CAGGTTTCCA GGCTTGCAAG TCCTCTTCCG CCACAGGAAG CAAGTAACCA TGCACAAGAC 
    TGTGATGATA GCATGGGGTA TCAGTATCCT TTCACTCTGC GAGTGGTTCA GAAAGATGGT 
    AATTCATGTG CTTCTTGCCC TTGGTACAGG TTCTGTAGAG GGTGTAAAAT TGAATGTTCT 
    GAGGATCGGG CTTATATCGG CAATGCATAC ATTGCTGTGG ATTGGGACCC CACTGCACTT 
    CATCTTCGCT ACCAGACATC GCAAGAACGG ATTGTTGAAG AGCATGAGAG TGTTGAACAG 
    AGTCGTCGAG CACAAGCTGA GCCTATAAAC CTCGATAGCT GTCTCAGAGC TTTCACTAGT 
    GAGGAGGAAC TTGGAGAAGA TGAAATGTAT TATTGTTCCA AATGTAAAAC CCACTGTTTA 
    GCCACCAAAA AACTTGACCT TTGGAGACTT CCACCGATCT TGATAATCCA CTTGAAAAGA 
    TTCCAGTTTG TAAATGGGCG CTGGATAAAG TCTCAGAAAA TAGTAAAATT TCCTCGAGAG 
    AACTTTGATC CGAGTGCCTT TTTGGTTCCT AAAGGACCAA TACAGTACCA GAAAAAGCAA 
    ATGGTGCTTC AAAATGAAGA TCAGTCAGAC ACACGTCTAA CCCAGGTGGA AGGGAAGAAG 
    GAGCTTGCAA ACTCTGTCCT TCCCGGAGAT ACAGATGCAG CTTGCCGAAA TCAGCCTGCC 
    CTCAACCCCT CAACGGGGAA TAATATCAAA GCTTCCCCCT CTCAAGGAAG AAAAGGGAAT 
    ATCAACTGCA CAAGCAAAAA TAATAGCCCA AACCATAGCC CCAGAACTCT AGGAAGGGGT 
    AAAGGTCGTC TTCGTTTGCC TCAGATCGGA GTCAAAAAAC TTTCAAGTAG CAAAGAAAAT 
    CTGGATCAAA ACAAAGAAAA TGGCACTGAT AATGAAATGA GAGAAGGTCC AGATACTGTA 
    GATTCCAATA AGGGGCTTTG TGGAAGTCAA GGGGAGGTTG CCACTGTTCA GGATACAGAG 
    GTGGTCTTGA CCAATGGGCT TAATTATGAA CAAAACTCAT GCAGCAATGG GCAGCTGGAA 
    AACCACACAG GGGAAGAAGA GGACAGCACT GATGACCAAA GAGATGACAT TGGCTGTCAA 
    CCTATTTACA ACCTTTATGC AATTTCGTGC CATTCAGGAA TATTGGGTGG AGGTCATTAT 
    GTCACTTATG CCAAAAATCC AAATGCGAAA TGGTACTGCT ACAATGACAG CAGCTGCAAG 
    GAATTGCACC CTGATGAAAT TGACACAGAC TCTGCGTACA TCCTTTTCTA CGAACAGCAA 
    GGGGTGGACT ATGCACAATT TCTGCCAAAG ATAGATGGGA AAAAGATGGC AGACACTAGC 
    AGCATGGATG AAGATTTTGA ATCCGACTAT AAAAAATATT GCGTGCTGCA ATGA

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

    usp32 ( XM_012957447.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_012812901.1 Xenopus tropicalis ubiquitin specific peptidase 32 (usp32), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa33916
    Clone ID Related Accession (Same CDS sequence) XM_012957447.3 , XM_012957447.2
    Accession Version XM_012957447.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4836bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    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_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957447.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGGGGGCCA AGGAGTCTCG GATCGGGTTT CTGACGTATG ATGAAGCCGT GAAAAGAGTG 
    ACTGACGTTG AACTGAAGAG GCTGAAAGAT GCCTTCAAGA GAACTTGTGG AGGACCTTCC 
    TACTACATGA ATCAGCAATG TTTTATAAGG GAAGTCCTTG GGGATGGGGT CCCCCCTAAG 
    GTTGCAGAGG TCATCTATTG CTCATTTGGT GGAACCTCCA AAGGGTTACA TTTCAACAAC 
    CTGATAGTGG GACTTGTCCT TCTAACAAGA GGTCGAGATG AAGAGAAGGC AAAATACATT 
    TTTAGTCTCT TTTCAAATGA ATCTGGCAGC TGTGTTGTAC GAGAGGAAAT GGAGAGCATG 
    CTGTGCATGG TGGATGGAGA AGTTCCTCTG TCACTTAAGA AATGTTTTGC TGAGGGTGAA 
    AAGGTGAACT ATGACAAATT TCGAAACTGG CTACTGCAGA ATAAGGATGC ATTTACGTTT 
    TCTCGATGGT TGCTTTCTGG AGGAGTTTTC GTTACCCTCA CAGATGATAG TGACACTCCC 
    ACTTTTTATC AGACTTTAGC TGGAGTTACA CACTTGGAAG AGTCTGACAT CATCGATCTG 
    GAGAAAAGAT ACTGGTTATT GAAGGCACAG TCACGTACTG GACGGTTCGA TTTAGAAACA 
    TTTGTCCCCT TGGTTTCACC TCCTATTCAT CAGTCCTTGA GTGAAGGGTT ATTCAATGCG 
    TTTGATGAAA ACCGGGACAA TCACATTGAC TTCAAAGAAA TTTCGTGTGG GCTGTCTGCA 
    TGTTGCAGGG GACCCCTAGC TGAGAGACAA AAATTTTGTT TCAAGGTATT TGACATAGAT 
    CGTGATGGTA TTCTGTCTCG CACGGAGCTG GAAGAGATGG TCCTTGCGCT TTTGGAGGTT 
    TGGAAGGATA ACCGTATTGA TGCCATACCT GAATTGCACT TAAATCTGTC TAACATCACA 
    GACAATATAC TGCAGTCCCA TGATACAACA AAGATTGGAC ATCTGACACT GGAAGATTAT 
    CAGATATGGA GTGTTAAAAG TGCCCTTGCC AATGAGTTTT TAAATCTTCT TTTTCAGGTG 
    TGTCATATAG TCTTGGGGTT AAAACCAGCC ACTCCCGAGG AGGAAGGACA AATTATTAGA 
    GGTTGGCTAG AAAGAGAAAG TCGGTATGGA CTACAGTTTG GTCACAACTG GTTTCTTATC 
    TCTATGCAGT GGTGGCAGCA GTGGAAAGAA TATGTCAGAT ATGATTCTAA GCCAACTGTT 
    GTACCATGCT CTACATTAAG TGGGGGAAGG AATTTATCAG GTACAACCTC ACCGGATCAA 
    AAGGAAGATG ACAGGACTGG GTCGAACTTA AGTTTTACAG ATGAAAAATC ACCAGATAAC 
    ATATCATCTG CTTCAGAAGC TTCAGAATCA ACTACAACCG GTTTCACTTA TTCGAGCAAT 
    ACAACCTCAG ACATGTGCTT TGCACGTCAG CATAACACTT CAGATAATAA TAACCAGTGT 
    ATGCTCAGTG CCAATGGGAA TGCATTATTG CAGCTTAATC CACAGAAACC TGGAGCTATT 
    GACAACCAGC CTCTAGTTAC ACAAGAAACT GTAAAGGTTC CTTCCTTAAC ACTTGAAGGG 
    GGGCGACTAA AACAGAGTCC ATCTCTGCTC CGAGGTAAAG ACTATGAGAT TGTTCCAGAG 
    CCTGTGTGGA GAGCCTTGTA TCACTGGTAT GGGGCAAACC TTTCCTTACC ACGTCCAGTT 
    ATCAAAAACT GCAAAACAGA TCTTCCAGAA CTTGAGCTTT TCCCACGCTA TTTGCTTTTC 
    TTGAGACAGC AGCCCGTAAC TCGCCAACAA CAGTCAAACA TCTGGGTGAA TATGGGTATG 
    ATGAGCCTCA GAATGTTTCC TCAGCATTTA CCCAGAGGTA ATGTTCCCTC GCCAAATGCT 
    CCACTGAAAC GTGTGCTGGC ATACACTGGC TGTTTCAGCC GCATGCAGAC AATAAAAGAA 
    ATTCATGAAT ATCTTTCTCA GCGGCTGCGC ATTAAGGAAG AAGATATGAG GTTGTGGTTG 
    TATAATAGTG AGAATTACCT CACTTTACTT GATGATGAAG ACCACACATT AGAGGGCCTG 
    AAAATACAAG ATGAGCAGCA CTTGGTAATA GAAGTCAGGA ACAAAGACAT GAGCTGGCCT 
    GAAGAGATGT CATTTATTGC AAACAGCAGT AAAATTGATA GACATAAAGT TCCAACAGAA 
    AAAGGTGCCA CGGGTCTGAG CAACTTAGGG AACACATGCT TTATGAATTC AAGTATCCAA 
    TGTGTTAGCA ACACACAGCC ACTTACTAAA TATTTTATCT CAGGAAGGCA TTTGTATGAG 
    CTCAACAGAA CAAATCCTAT TGGAATGAAA GGACACATGG CAAAATGTTA CGGTGATTTG 
    GTACAAGAGC TGTGGAGTGG AACCCAGAAA AATGTGGCAC CTCTTAAATT ACGGTGGACA 
    ATAGCAAAAT ATGCACCAAG GTTCAATGGC TTTCAACAGC AGGATTCTCA GGAGCTGCTA 
    GCTTTTCTTT TAGATGGTCT TCATGAAGAT CTGAACCGAG TTCACGACAA ACCTTACGTT 
    GAACTCAAAG ACAGTGATGG TCGCCCAGAC TGGGAAGTTG CTGCAGAGGC ATGGGATAAC 
    CATTTAAGGA GAAACAAATC AATAGTTGTG GATTTGTTTC ATGGACAGCT GAGATCCCAA 
    GTGAAATGTA AAACATGTGG ACACATAAGT GTAAGATTTG ATCCTTTCAA CTTTCTTTCG 
    CTCCCTCTTC CCATGGACAG CTATATGCAC TTGGAAATTA CAGTTATTAA ACTAGATGGT 
    ACAACCCCTG TGCGATATGG ACTCAGGCTG AACATGGATG AGAAATACAC AGGCTTGAAA 
    AAACAGCTTA GTGACCTGTG TGGATTAAAA CCTGAGCAGA TTCTCCTTGC AGAGGTTCAT 
    GGATCCAACA TAAAGAATTT TCCCCAGGAT AACCAAAAAG TTCGCCTTTC TGTAAGTGGT 
    TTTCTGTGTG CTTTTGAGAT ACCTATTCCA GGATCTCCAA CATCTGCCAC AAGTCCCACA 
    CAGACAGATC CCAACACAAT ACTATTATCA AATGGGCCGC ACAGTCTAAT CTCAAATGGA 
    GGACTGAATC GACCAACACT AATTCCTAAT GGGCTGCCAA ACACAGTAGT GCCATGTGGA 
    ACAGAAAAAA ATCTGGTGAA TGGAGTTCTT AATGGTCATG TCTCTGTGCA TCCAGAAGGT 
    CCCTTCATAG GGTATATCAT TGCAATCCAC AGAAAGATGA TGAGGACTGA GTTGTACTTT 
    TTGTCATTTC AAAAAAATCG CCCCAGCCTT TTTGGAATGC CCTTAATTGT CCCATGCACG 
    GTGCACACAA GAAAAAAAGA CTTGTACGAT GCCGTTTGGA TTCAGGTTTC CAGGCTTGCA 
    AGTCCTCTTC CGCCACAGGA AGCAAGTAAC CATGCACAAG ACTGTGATGA TAGCATGGGG 
    TATCAGTATC CTTTCACTCT GCGAGTGGTT CAGAAAGATG GTAATTCATG TGCTTCTTGC 
    CCTTGGTACA GGTTCTGTAG AGGGTGTAAA ATTGAATGTT CTGAGGATCG GGCTTATATC 
    GGCAATGCAT ACATTGCTGT GGATTGGGAC CCCACTGCAC TTCATCTTCG CTACCAGACA 
    TCGCAAGAAC GGATTGTTGA AGAGCATGAG AGTGTTGAAC AGAGTCGTCG AGCACAAGCT 
    GAGCCTATAA ACCTCGATAG CTGTCTCAGA GCTTTCACTA GTGAGGAGGA ACTTGGAGAA 
    GATGAAATGT ATTATTGTTC CAAATGTAAA ACCCACTGTT TAGCCACCAA AAAACTTGAC 
    CTTTGGAGAC TTCCACCGAT CTTGATAATC CACTTGAAAA GATTCCAGTT TGTAAATGGG 
    CGCTGGATAA AGTCTCAGAA AATAGTAAAA TTTCCTCGAG AGAACTTTGA TCCGAGTGCC 
    TTTTTGGTTC CTAAAGGACC AATACAGTAC CAGAAAAAGC AAATGGTGCT TCAAAATGAA 
    GATCAGTCAG ACACACGTCT AACCCAGGTG GAAGGGAAGA AGGAGCTTGC AAACTCTGTC 
    CTTCCCGGAG ATACAGATGC AGCTTGCCGA AATCAGCCTG CCCTCAACCC CTCAACGGGG 
    AATAATATCA AAGCTTCCCC CTCTCAAGGA AGAAAAGGGA ATATCAACTG CACAAGCAAA 
    AATAATAGCC CAAACCATAG CCCCAGAACT CTAGGAAGGG GTAAAGGTCG TCTTCGTTTG 
    CCTCAGATCG GAGTCAAAAA ACTTTCAAGT AGCAAAGAAA ATCTGGATCA AAACAAAGAA 
    AATGGCACTG ATAATGAAAT GAGAGAAGGT CCAGATACTG TAGATTCCAA TAAGGGGCTT 
    TGTGGAAGTC AAGGGGAGGT TGCCACTGTT CAGGATACAG AGGTGGTCTT GACCAATGGG 
    CTTAATTATG AACAAAACTC ATGCAGCAAT GGGCAGCTGG AAAACCACAC AGGGGAAGAA 
    GAGGACAGCA CTGATGACCA AAGAGATGAC ATTGGCTGTC AACCTATTTA CAACCTTTAT 
    GCAATTTCGT GCCATTCAGG AATATTGGGT GGAGGTCATT ATGTCACTTA TGCCAAAAAT 
    CCAAATGCGA AATGGTACTG CTACAATGAC AGCAGCTGCA AGGAATTGCA CCCTGATGAA 
    ATTGACACAG ACTCTGCGTA CATCCTTTTC TACGAACAGC AAGGGGTGGA CTATGCACAA 
    TTTCTGCCAA AGATAGATGG GAAAAAGATG GCAGACACTA GCAGCATGGA TGAAGATTTT 
    GAATCCGACT ATAAAAAATA TTGCGTGCTG CAATGA

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

    RefSeq XP_012812901.1
    CDS319..5154
    Translation

    Target ORF information:

    RefSeq Version XM_012957447.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis 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_012957447.2

    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
    4681
    4741
    4801
    ATGGGGGCCA AGGAGTCTCG GATCGGGTTT CTGACGTATG ATGAAGCCGT GAAAAGAGTG 
    ACTGACGTTG AACTGAAGAG GCTGAAAGAT GCCTTCAAGA GAACTTGTGG AGGACCTTCC 
    TACTACATGA ATCAGCAATG TTTTATAAGG GAAGTCCTTG GGGATGGGGT CCCCCCTAAG 
    GTTGCAGAGG TCATCTATTG CTCATTTGGT GGAACCTCCA AAGGGTTACA TTTCAACAAC 
    CTGATAGTGG GACTTGTCCT TCTAACAAGA GGTCGAGATG AAGAGAAGGC AAAATACATT 
    TTTAGTCTCT TTTCAAATGA ATCTGGCAGC TGTGTTGTAC GAGAGGAAAT GGAGAGCATG 
    CTGTGCATGG TGGATGGAGA AGTTCCTCTG TCACTTAAGA AATGTTTTGC TGAGGGTGAA 
    AAGGTGAACT ATGACAAATT TCGAAACTGG CTACTGCAGA ATAAGGATGC ATTTACGTTT 
    TCTCGATGGT TGCTTTCTGG AGGAGTTTTC GTTACCCTCA CAGATGATAG TGACACTCCC 
    ACTTTTTATC AGACTTTAGC TGGAGTTACA CACTTGGAAG AGTCTGACAT CATCGATCTG 
    GAGAAAAGAT ACTGGTTATT GAAGGCACAG TCACGTACTG GACGGTTCGA TTTAGAAACA 
    TTTGTCCCCT TGGTTTCACC TCCTATTCAT CAGTCCTTGA GTGAAGGGTT ATTCAATGCG 
    TTTGATGAAA ACCGGGACAA TCACATTGAC TTCAAAGAAA TTTCGTGTGG GCTGTCTGCA 
    TGTTGCAGGG GACCCCTAGC TGAGAGACAA AAATTTTGTT TCAAGGTATT TGACATAGAT 
    CGTGATGGTA TTCTGTCTCG CACGGAGCTG GAAGAGATGG TCCTTGCGCT TTTGGAGGTT 
    TGGAAGGATA ACCGTATTGA TGCCATACCT GAATTGCACT TAAATCTGTC TAACATCACA 
    GACAATATAC TGCAGTCCCA TGATACAACA AAGATTGGAC ATCTGACACT GGAAGATTAT 
    CAGATATGGA GTGTTAAAAG TGCCCTTGCC AATGAGTTTT TAAATCTTCT TTTTCAGGTG 
    TGTCATATAG TCTTGGGGTT AAAACCAGCC ACTCCCGAGG AGGAAGGACA AATTATTAGA 
    GGTTGGCTAG AAAGAGAAAG TCGGTATGGA CTACAGTTTG GTCACAACTG GTTTCTTATC 
    TCTATGCAGT GGTGGCAGCA GTGGAAAGAA TATGTCAGAT ATGATTCTAA GCCAACTGTT 
    GTACCATGCT CTACATTAAG TGGGGGAAGG AATTTATCAG GTACAACCTC ACCGGATCAA 
    AAGGAAGATG ACAGGACTGG GTCGAACTTA AGTTTTACAG ATGAAAAATC ACCAGATAAC 
    ATATCATCTG CTTCAGAAGC TTCAGAATCA ACTACAACCG GTTTCACTTA TTCGAGCAAT 
    ACAACCTCAG ACATGTGCTT TGCACGTCAG CATAACACTT CAGATAATAA TAACCAGTGT 
    ATGCTCAGTG CCAATGGGAA TGCATTATTG CAGCTTAATC CACAGAAACC TGGAGCTATT 
    GACAACCAGC CTCTAGTTAC ACAAGAAACT GTAAAGGTTC CTTCCTTAAC ACTTGAAGGG 
    GGGCGACTAA AACAGAGTCC ATCTCTGCTC CGAGGTAAAG ACTATGAGAT TGTTCCAGAG 
    CCTGTGTGGA GAGCCTTGTA TCACTGGTAT GGGGCAAACC TTTCCTTACC ACGTCCAGTT 
    ATCAAAAACT GCAAAACAGA TCTTCCAGAA CTTGAGCTTT TCCCACGCTA TTTGCTTTTC 
    TTGAGACAGC AGCCCGTAAC TCGCCAACAA CAGTCAAACA TCTGGGTGAA TATGGGTATG 
    ATGAGCCTCA GAATGTTTCC TCAGCATTTA CCCAGAGGTA ATGTTCCCTC GCCAAATGCT 
    CCACTGAAAC GTGTGCTGGC ATACACTGGC TGTTTCAGCC GCATGCAGAC AATAAAAGAA 
    ATTCATGAAT ATCTTTCTCA GCGGCTGCGC ATTAAGGAAG AAGATATGAG GTTGTGGTTG 
    TATAATAGTG AGAATTACCT CACTTTACTT GATGATGAAG ACCACACATT AGAGGGCCTG 
    AAAATACAAG ATGAGCAGCA CTTGGTAATA GAAGTCAGGA ACAAAGACAT GAGCTGGCCT 
    GAAGAGATGT CATTTATTGC AAACAGCAGT AAAATTGATA GACATAAAGT TCCAACAGAA 
    AAAGGTGCCA CGGGTCTGAG CAACTTAGGG AACACATGCT TTATGAATTC AAGTATCCAA 
    TGTGTTAGCA ACACACAGCC ACTTACTAAA TATTTTATCT CAGGAAGGCA TTTGTATGAG 
    CTCAACAGAA CAAATCCTAT TGGAATGAAA GGACACATGG CAAAATGTTA CGGTGATTTG 
    GTACAAGAGC TGTGGAGTGG AACCCAGAAA AATGTGGCAC CTCTTAAATT ACGGTGGACA 
    ATAGCAAAAT ATGCACCAAG GTTCAATGGC TTTCAACAGC AGGATTCTCA GGAGCTGCTA 
    GCTTTTCTTT TAGATGGTCT TCATGAAGAT CTGAACCGAG TTCACGACAA ACCTTACGTT 
    GAACTCAAAG ACAGTGATGG TCGCCCAGAC TGGGAAGTTG CTGCAGAGGC ATGGGATAAC 
    CATTTAAGGA GAAACAAATC AATAGTTGTG GATTTGTTTC ATGGACAGCT GAGATCCCAA 
    GTGAAATGTA AAACATGTGG ACACATAAGT GTAAGATTTG ATCCTTTCAA CTTTCTTTCG 
    CTCCCTCTTC CCATGGACAG CTATATGCAC TTGGAAATTA CAGTTATTAA ACTAGATGGT 
    ACAACCCCTG TGCGATATGG ACTCAGGCTG AACATGGATG AGAAATACAC AGGCTTGAAA 
    AAACAGCTTA GTGACCTGTG TGGATTAAAA CCTGAGCAGA TTCTCCTTGC AGAGGTTCAT 
    GGATCCAACA TAAAGAATTT TCCCCAGGAT AACCAAAAAG TTCGCCTTTC TGTAAGTGGT 
    TTTCTGTGTG CTTTTGAGAT ACCTATTCCA GGATCTCCAA CATCTGCCAC AAGTCCCACA 
    CAGACAGATC CCAACACAAT ACTATTATCA AATGGGCCGC ACAGTCTAAT CTCAAATGGA 
    GGACTGAATC GACCAACACT AATTCCTAAT GGGCTGCCAA ACACAGTAGT GCCATGTGGA 
    ACAGAAAAAA ATCTGGTGAA TGGAGTTCTT AATGGTCATG TCTCTGTGCA TCCAGAAGGT 
    CCCTTCATAG GGTATATCAT TGCAATCCAC AGAAAGATGA TGAGGACTGA GTTGTACTTT 
    TTGTCATTTC AAAAAAATCG CCCCAGCCTT TTTGGAATGC CCTTAATTGT CCCATGCACG 
    GTGCACACAA GAAAAAAAGA CTTGTACGAT GCCGTTTGGA TTCAGGTTTC CAGGCTTGCA 
    AGTCCTCTTC CGCCACAGGA AGCAAGTAAC CATGCACAAG ACTGTGATGA TAGCATGGGG 
    TATCAGTATC CTTTCACTCT GCGAGTGGTT CAGAAAGATG GTAATTCATG TGCTTCTTGC 
    CCTTGGTACA GGTTCTGTAG AGGGTGTAAA ATTGAATGTT CTGAGGATCG GGCTTATATC 
    GGCAATGCAT ACATTGCTGT GGATTGGGAC CCCACTGCAC TTCATCTTCG CTACCAGACA 
    TCGCAAGAAC GGATTGTTGA AGAGCATGAG AGTGTTGAAC AGAGTCGTCG AGCACAAGCT 
    GAGCCTATAA ACCTCGATAG CTGTCTCAGA GCTTTCACTA GTGAGGAGGA ACTTGGAGAA 
    GATGAAATGT ATTATTGTTC CAAATGTAAA ACCCACTGTT TAGCCACCAA AAAACTTGAC 
    CTTTGGAGAC TTCCACCGAT CTTGATAATC CACTTGAAAA GATTCCAGTT TGTAAATGGG 
    CGCTGGATAA AGTCTCAGAA AATAGTAAAA TTTCCTCGAG AGAACTTTGA TCCGAGTGCC 
    TTTTTGGTTC CTAAAGGACC AATACAGTAC CAGAAAAAGC AAATGGTGCT TCAAAATGAA 
    GATCAGTCAG ACACACGTCT AACCCAGGTG GAAGGGAAGA AGGAGCTTGC AAACTCTGTC 
    CTTCCCGGAG ATACAGATGC AGCTTGCCGA AATCAGCCTG CCCTCAACCC CTCAACGGGG 
    AATAATATCA AAGCTTCCCC CTCTCAAGGA AGAAAAGGGA ATATCAACTG CACAAGCAAA 
    AATAATAGCC CAAACCATAG CCCCAGAACT CTAGGAAGGG GTAAAGGTCG TCTTCGTTTG 
    CCTCAGATCG GAGTCAAAAA ACTTTCAAGT AGCAAAGAAA ATCTGGATCA AAACAAAGAA 
    AATGGCACTG ATAATGAAAT GAGAGAAGGT CCAGATACTG TAGATTCCAA TAAGGGGCTT 
    TGTGGAAGTC AAGGGGAGGT TGCCACTGTT CAGGATACAG AGGTGGTCTT GACCAATGGG 
    CTTAATTATG AACAAAACTC ATGCAGCAAT GGGCAGCTGG AAAACCACAC AGGGGAAGAA 
    GAGGACAGCA CTGATGACCA AAGAGATGAC ATTGGCTGTC AACCTATTTA CAACCTTTAT 
    GCAATTTCGT GCCATTCAGG AATATTGGGT GGAGGTCATT ATGTCACTTA TGCCAAAAAT 
    CCAAATGCGA AATGGTACTG CTACAATGAC AGCAGCTGCA AGGAATTGCA CCCTGATGAA 
    ATTGACACAG ACTCTGCGTA CATCCTTTTC TACGAACAGC AAGGGGTGGA CTATGCACAA 
    TTTCTGCCAA AGATAGATGG GAAAAAGATG GCAGACACTA GCAGCATGGA TGAAGATTTT 
    GAATCCGACT ATAAAAAATA TTGCGTGCTG CAATGA

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

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