ORF » Species Summary » Xenopus tropicalis » uspl1 cDNA ORF clone

uspl1 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following uspl1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the uspl1 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
OXa52820 XM_018091733.2
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa52820 XM_018091731.2
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa52821 XM_018091734.2
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa42866 XM_018091733.1
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00
OXa42866 XM_018091732.1
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00
OXa42866 XM_018091731.1
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00
OXa42867 XM_018091734.1
Latest version!		 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $1021.30
$1459.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone 30% OFF
2-4 Clone 40% OFF
5 or more Clone 50% OFF
All Other ORF Clones
30% OFF

*Business Day

** 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)
    uspl1 ( XM_018091733.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947222.2 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa52820
    Clone ID Related Accession (Same CDS sequence) XM_018091733.2 , XM_018091731.2
    Accession Version XM_018091733.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5742bp)
    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 SUMO-specific isopeptidase USPL1 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 mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_018091733.1. ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCAGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GACCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCTC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTA ACAGCGCCAG TCCCCCTGCC CCTAACAGCG CCAGTACTCC CCTCCCTAAC 
    AGTTCCAGTT CAAAAAAAGC CTTTGTTGGA AGTTGGATGA AGAGTCTACT AAATAAAAAC 
    CCTTTGTTCC TGACATCTAA TGTGCCCTGT GCAAATAAGA AAACTGTGGC AAAAACTCCA 
    ATCCGATTTC CCCTGCTGAA GACAACAGAT TTGCAGGCAT CTACTAAACA GGCCCAGAGC 
    TTTGATGGTT TTAAAGCTAA ACGTGTCGGT AATTCATTCA GCTCGGACAA TTGCCTTGGT 
    GTAGGTCCCA CGAAGGATAA TTCCACTGCA CCCAAACCTG CCATCTCTAG CCAAACGTTC 
    CAGCCACTGG TTTCAAATCG ACTTAAAAAT GGGCGGTTAG GACTCGGTAA TACCAAAGAC 
    TTGGCAAAAA ATGTTTCTCT GTCTAAGGAG GATAAGGTGC TTAGGCTTAG ACTGAAAATG 
    CTGAAAAAGT TGAAGGCTAA GAAACATGAA TTGGCCGCCA TAGATATGCT TGGAAAGTCA 
    CAGGCTGGTA GTGATCTGGA GCGTAGCAGC ACCAGCAGGC GTGAACAATT ACGCGGGTTC 
    TTGCAGGAAC TCCAAGAGCA AATCGATAAT GCCGACACTG AATCAGTGTG CACTATGAGC 
    TCTTGCACGT CGATATGCAG CAGCCCAGGA GATGCGGAAT TCTTTGCGGA ATTGTTCTCC 
    CCACCCCCTA GCAACGCCCC GCAGGAGAGC ATGGATGACA GTAATTTTTT AGAGATGTAT 
    GTAGATGGTT ACAACCCCTC CTGTGGCAGT TATGGAACCA GTAACCCAAG TGGCAAAGAG 
    GTCTCACAGG ACAGTGCTAA TATCGGCCAG TCCAATTTAC AGCGTGCTTC CGACAGCCAC 
    AATAACACTA ACGTGGGGGA CGTCTTCCAT GATATGCTGT CAACCTCCAC AATGCACATG 
    CTGAACGAGG ATTATTTCTC ACCTTTTGAT GATATGTTTT AA

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

    RefSeq XP_017947222.2
    CDS362..6103
    Translation

    Target ORF information:

    RefSeq Version XM_018091733.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018091733.2

    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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCAGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GACCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCTC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTA ACAGCGCCAG TCCCCCTGCC CCTAACAGCG CCAGTACTCC CCTCCCTAAC 
    AGTTCCAGTT CAAAAAAAGC CTTTGTTGGA AGTTGGATGA AGAGTCTACT AAATAAAAAC 
    CCTTTGTTCC TGACATCTAA TGTGCCCTGT GCAAATAAGA AAACTGTGGC AAAAACTCCA 
    ATCCGATTTC CCCTGCTGAA GACAACAGAT TTGCAGGCAT CTACTAAACA GGCCCAGAGC 
    TTTGATGGTT TTAAAGCTAA ACGTGTCGGT AATTCATTCA GCTCGGACAA TTGCCTTGGT 
    GTAGGTCCCA CGAAGGATAA TTCCACTGCA CCCAAACCTG CCATCTCTAG CCAAACGTTC 
    CAGCCACTGG TTTCAAATCG ACTTAAAAAT GGGCGGTTAG GACTCGGTAA TACCAAAGAC 
    TTGGCAAAAA ATGTTTCTCT GTCTAAGGAG GATAAGGTGC TTAGGCTTAG ACTGAAAATG 
    CTGAAAAAGT TGAAGGCTAA GAAACATGAA TTGGCCGCCA TAGATATGCT TGGAAAGTCA 
    CAGGCTGGTA GTGATCTGGA GCGTAGCAGC ACCAGCAGGC GTGAACAATT ACGCGGGTTC 
    TTGCAGGAAC TCCAAGAGCA AATCGATAAT GCCGACACTG AATCAGTGTG CACTATGAGC 
    TCTTGCACGT CGATATGCAG CAGCCCAGGA GATGCGGAAT TCTTTGCGGA ATTGTTCTCC 
    CCACCCCCTA GCAACGCCCC GCAGGAGAGC ATGGATGACA GTAATTTTTT AGAGATGTAT 
    GTAGATGGTT ACAACCCCTC CTGTGGCAGT TATGGAACCA GTAACCCAAG TGGCAAAGAG 
    GTCTCACAGG ACAGTGCTAA TATCGGCCAG TCCAATTTAC AGCGTGCTTC CGACAGCCAC 
    AATAACACTA ACGTGGGGGA CGTCTTCCAT GATATGCTGT CAACCTCCAC AATGCACATG 
    CTGAACGAGG ATTATTTCTC ACCTTTTGAT GATATGTTTT AA

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

    uspl1 ( XM_018091731.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947220.2 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa52820
    Clone ID Related Accession (Same CDS sequence) XM_018091733.2 , XM_018091731.2
    Accession Version XM_018091731.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5742bp)
    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 SUMO-specific isopeptidase USPL1 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_018091731.1. ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCAGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GACCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCTC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTA ACAGCGCCAG TCCCCCTGCC CCTAACAGCG CCAGTACTCC CCTCCCTAAC 
    AGTTCCAGTT CAAAAAAAGC CTTTGTTGGA AGTTGGATGA AGAGTCTACT AAATAAAAAC 
    CCTTTGTTCC TGACATCTAA TGTGCCCTGT GCAAATAAGA AAACTGTGGC AAAAACTCCA 
    ATCCGATTTC CCCTGCTGAA GACAACAGAT TTGCAGGCAT CTACTAAACA GGCCCAGAGC 
    TTTGATGGTT TTAAAGCTAA ACGTGTCGGT AATTCATTCA GCTCGGACAA TTGCCTTGGT 
    GTAGGTCCCA CGAAGGATAA TTCCACTGCA CCCAAACCTG CCATCTCTAG CCAAACGTTC 
    CAGCCACTGG TTTCAAATCG ACTTAAAAAT GGGCGGTTAG GACTCGGTAA TACCAAAGAC 
    TTGGCAAAAA ATGTTTCTCT GTCTAAGGAG GATAAGGTGC TTAGGCTTAG ACTGAAAATG 
    CTGAAAAAGT TGAAGGCTAA GAAACATGAA TTGGCCGCCA TAGATATGCT TGGAAAGTCA 
    CAGGCTGGTA GTGATCTGGA GCGTAGCAGC ACCAGCAGGC GTGAACAATT ACGCGGGTTC 
    TTGCAGGAAC TCCAAGAGCA AATCGATAAT GCCGACACTG AATCAGTGTG CACTATGAGC 
    TCTTGCACGT CGATATGCAG CAGCCCAGGA GATGCGGAAT TCTTTGCGGA ATTGTTCTCC 
    CCACCCCCTA GCAACGCCCC GCAGGAGAGC ATGGATGACA GTAATTTTTT AGAGATGTAT 
    GTAGATGGTT ACAACCCCTC CTGTGGCAGT TATGGAACCA GTAACCCAAG TGGCAAAGAG 
    GTCTCACAGG ACAGTGCTAA TATCGGCCAG TCCAATTTAC AGCGTGCTTC CGACAGCCAC 
    AATAACACTA ACGTGGGGGA CGTCTTCCAT GATATGCTGT CAACCTCCAC AATGCACATG 
    CTGAACGAGG ATTATTTCTC ACCTTTTGAT GATATGTTTT AA

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

    RefSeq XP_017947220.2
    CDS2792..8533
    Translation

    Target ORF information:

    RefSeq Version XM_018091731.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018091731.2

    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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCAGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GACCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCTC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTA ACAGCGCCAG TCCCCCTGCC CCTAACAGCG CCAGTACTCC CCTCCCTAAC 
    AGTTCCAGTT CAAAAAAAGC CTTTGTTGGA AGTTGGATGA AGAGTCTACT AAATAAAAAC 
    CCTTTGTTCC TGACATCTAA TGTGCCCTGT GCAAATAAGA AAACTGTGGC AAAAACTCCA 
    ATCCGATTTC CCCTGCTGAA GACAACAGAT TTGCAGGCAT CTACTAAACA GGCCCAGAGC 
    TTTGATGGTT TTAAAGCTAA ACGTGTCGGT AATTCATTCA GCTCGGACAA TTGCCTTGGT 
    GTAGGTCCCA CGAAGGATAA TTCCACTGCA CCCAAACCTG CCATCTCTAG CCAAACGTTC 
    CAGCCACTGG TTTCAAATCG ACTTAAAAAT GGGCGGTTAG GACTCGGTAA TACCAAAGAC 
    TTGGCAAAAA ATGTTTCTCT GTCTAAGGAG GATAAGGTGC TTAGGCTTAG ACTGAAAATG 
    CTGAAAAAGT TGAAGGCTAA GAAACATGAA TTGGCCGCCA TAGATATGCT TGGAAAGTCA 
    CAGGCTGGTA GTGATCTGGA GCGTAGCAGC ACCAGCAGGC GTGAACAATT ACGCGGGTTC 
    TTGCAGGAAC TCCAAGAGCA AATCGATAAT GCCGACACTG AATCAGTGTG CACTATGAGC 
    TCTTGCACGT CGATATGCAG CAGCCCAGGA GATGCGGAAT TCTTTGCGGA ATTGTTCTCC 
    CCACCCCCTA GCAACGCCCC GCAGGAGAGC ATGGATGACA GTAATTTTTT AGAGATGTAT 
    GTAGATGGTT ACAACCCCTC CTGTGGCAGT TATGGAACCA GTAACCCAAG TGGCAAAGAG 
    GTCTCACAGG ACAGTGCTAA TATCGGCCAG TCCAATTTAC AGCGTGCTTC CGACAGCCAC 
    AATAACACTA ACGTGGGGGA CGTCTTCCAT GATATGCTGT CAACCTCCAC AATGCACATG 
    CTGAACGAGG ATTATTTCTC ACCTTTTGAT GATATGTTTT AA

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

    uspl1 ( XM_018091734.2 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947223.2 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa52821
    Clone ID Related Accession (Same CDS sequence) XM_018091734.2
    Accession Version XM_018091734.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5268bp)
    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 SUMO-specific isopeptidase USPL1 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_018091734.1. ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGTCTCCGT GTTTACCTAA AGAATCTCAT ACAAGTGTAC CTGGCCCTTC AGAGAATGGT 
    CAGGATGAGA GAAGTCAGCA GCAATATGGA ATGTGCAAAG TTTCAGCTTG CAATTCTGCA 
    AGTCCACATG GTGACAGGGC ACCTTCAGTT GAATTTGCTC TGCGGGACTC AAACCAACCT 
    AATCACCCGC AGGAAGCCTT AAATGCATTT CACGAAGAAG CTGTGCAAAA TCAAGTTATG 
    GGAATGACCA TTGCATCAAT TAATGGTCCT TCTCCTTTAA AATGGAATGT ACCTGCTACT 
    AAAGATATGC ACACATTATC ACAGTCGGTG AATGCTGCTA ATGACCCACC AACATGTATA 
    AACCAAAAGA CAGATGCTGG AATAGCTGAG GTTTTAAATG GATTTACAAA GGCTGAAGCC 
    AATATGTGCC ATTCAGTATC TGTCCTTAGT ACTTGTGCAC CTTTAGGCTC ACCTCGTTTA 
    AGGCTTAGTG CTCTAAAGGA GGGACATAAA CAGAGTGATA TACGGAGTGC CTCCTGCAGT 
    AGTGCTTGTC TTGAAAAAGT AGCATCAGAA ACAGCTCTTG CCGCCATGTC TGACAGCAAC 
    ATGAAGAAAG AGGATAGTTT CAACATGGCA TTTGAACTTT TACCGTCGTC TCCTCCATTG 
    CATTCATTTT TTGGGGCTTC ACAAAATGTG CACACATCTG AAGAATCATC CTCTTTGCTT 
    GGAACAGTGG GTCAAACAAA AGAAAATACC ATAAGTGTTA AATCAATTGG ATCCAGCAAT 
    GTTGTTCTTA ATGAAGGAAA GGGGGAAACC TCCCAGTTTA CGATATTGTC CAAATCACAC 
    AGTGAGGTAG AAGATGTTCA GAAAGTGTGT GTACGTTTGC CCTCTTCCCC ACTGCTTGAA 
    ACAGCTTTAC AAATGAAAGC GTATGCCCAC AGTGACAAGC TCAGTGCCTT CAACAATAAT 
    CCATGTCTTG AGAAAGTATT ACCAGAGGCA ACCCCAGTGG TTTTATCAGA AACATATAGG 
    GAGGTACAAG ATTGTTTTGG ATCTTTACCT TCATCTGATT TGCATGAAAA TGAGCCTCCA 
    CTGGAAGAGA GATCCCTGGT TGATAAATCT AATAGCTCCA GAAATTATAC TTGCCTTGAG 
    AAAGTAGTAC CAGAGGCAAC CTTATTGTTA AAAGAGTACT TTTCAGAATC CTGTAGTAAG 
    GTACAAGATG ATGAGAAATG TTTTGGATCT TTACCTTCAT CTGCTTTGCA AAGAAAAAAT 
    CCTCTAATTG AAAAAAACGG ACCGAGTGAC AAATCCAGTG CATCCAGCAA TAATGTTTGC 
    CTTGAGGAAG GAGAACCAGA GGCAGTCCCA TTGTTGGAAG ACTGTAAAAG TCAAACCCTT 
    GTTGTACCTT CCACATGCAG TCAATTGTCC ATAACAGATA AAATAGCAAA CAGTCTTGGA 
    GTACATAATT CCTCAGATTC ATGTCAGCTC ATCAGTGAAA TTCATCATGA TCATCCAAGC 
    GATGGAAATG ATCTCACTGT GTCCCATATT GCCTTCAATG TTGGTGGTGC TGACAAAATC 
    AATAAAGTTA AAAGCCTGCA GGTAACTCCA CTTCCAGAGG TTATATCTAC AGAACTATGT 
    AGGGGCAAGA GCAACAGTCA AAGCACTTGT GAACCTCCAT CCGTGCCAGT TCTGTCATGT 
    AAGCTTTCTT CTGAGCAAAA AGATGAAGGT ACATTGATGG AATTGTCTAG CTCTTTACAT 
    AGTGAAACAA CTGAGGAGGA AGAATGTGGA AATAAAATGG CTCTTGGAAG TTCAACATTG 
    GATGGGGAAA TATCTGACTA TAAGAAACTA AACAGTCAAA TTAAGCCTTT GCCACAAGCA 
    ATAGAAAGCT TGGTCATGGA CACGTGTGAT AGCAATCTGT GCAATAATAT TAATTTAAAA 
    GATAGCAGCA AAATAATTTC AGAGGAAGCT ACAGTACCAC ATTGTTTTCA GCCAGAACAG 
    CATGTTGTAT ACAGCCATCC TATGTCTGAC CCTGCAGTTA CTTGTGTGAC TCATGGCACT 
    GGATCTGAAA TGAAAGCATT GGATACACCA AGGAAGGAGT CTAATCCAGT GTGTAAGGAA 
    CTCCGTGAAA GAAATGTAAA TCCAATGAAA GAATTGTATA TATCTCTGAA CAATGCACCA 
    ACTGATTTGT CTAACTCTTT GTGCAGTGAC ACTACTAATG TGGAAGAATC TAGGGATGCC 
    ACAGCAAATG CAAGTTCTTT ATCCAACGGA GAAATATTGC ATTTATATCA CAAAACAAGC 
    AGCCCAGCTC TTGTTGATCC AAAAGCAGAA GCAAATACAG TTTTAGGCTT GTGTGACAGT 
    GTCCTCAGCA AAAACTCTAC AATGGGAAGT AGTGATAGCA TTAATCAGGA GAAAGCTATA 
    GCAACAACTT TTGCACACCC AGGACAGAGT GTGTTGTTCA GCCATGGGGC ATCTACAATT 
    ACAGTCTCCC CTGGTTTATT TCATAGTGCT GTACAGGCAT TAGATGTTTC TGATACACCA 
    GAGTTGGGGT GCAGTCCTGT GTGTAAGGAA CCCACTGTTG TACAAGATAA AAGCGATGGA 
    TCCTTTGATA CTTCTTTGGG CCATTTTGAA AGAGAAAAGC AAAATGAGAG CTTTGAAACA 
    GACAGTTCTG TAATGCTTAC TGATGATCAC ATAAAGGACC CAAAGGATGT AGATGTTGTA 
    TTGTCTTTGC CAGAGGGGAG CTTGGAAGAT TGCTGTCCCA AAAAAAAATC AAACTGCTCA 
    GAGAACATGC ATGTAGCCTT AAAGGGTACC TCCACAAACC CTTCCCTTGA ACTCGGTTCC 
    CACGATGCCC CGTGTGAAAA GAAGCTGCTT CAATGGAGAA ACACCCTCTT CCTCTGCTGG 
    TTGGACTGCA TATTGGCAGC ACTGGTGCAT TCTGCTAGCC TGAATAGCAT TGTGGCACAG 
    CGAAGGGTTG CAGAAAGCTC AATCATTCAC CTTCTTCTGG AGAAATACAA GGAGGCCAAT 
    GCATTAATAA AAAGCACATC CAGACGAGGA CGTCCAAAGA ATTTATCTCA AGCTGAAAAC 
    ATCCTGAATA AAGTGCGAAT GACCATCTTT GATGAAATAA AGCCCTTGTT AAAGTGTGAA 
    TTGGGAGATA AAGAGAGCCC TGTGTTTGCT TTGCCGTTAC TGCTGCAGCT GGTTCCAGAG 
    ATAGAATCCT GTTTTGTGCA CTCAGGTGTA TGGGAGTTTA CATGCAAGCT ATGTGGCTAC 
    CAATACCAAA ATAAGCACCA ACGGACTGTG TCCACATTCA CTAAGATCTT ACCTGAATGG 
    ACACCCCTAA ATGCTATCCA TAAAGCTCCT TGCAACAAAT GCCTGGGTAC AGATCAGATA 
    CGTGCTTTTC GTATTAAAAA GATCCATGAC CTATTCATAC TTCACTTTGT GGAAGGCCTG 
    CCAAGCAATG ATTTAGGCAT GTACTCGTTT CACTTTGAAG GCTGCCTGTA TGAAGTAAAG 
    ACTGTCATCC AGTATAGTGA AGACCATTTC TCATCTTGGA TTGCTAATGA GGATGGCACA 
    TGGCTGGAAT CTGATGACCT GAAAGGGTAT TTCTGCATAA AACAGAACTG TTTTGAGGTT 
    CCTGCTTCAG AAATTCATAT TGTAATATGG GAAAAGAAGA TTACCAACAG CACTGGAGCA 
    CACCATGCAA TGGAACCTGA AACAAAAAAC AAAGCACTTA ATTCTTTATC TACTTCACCT 
    TCATCTTTAT CTCAGACCCT GCACCTGTCT CCTTCAGCTG CTCCGAATGC TGCATCTTCA 
    CCTCTAAGAG ATGCTCCAAA TGCTTCCAGC GTACTCTCTG GAATGGAGGG TTTTCATGAT 
    GACGACATCA TAACGCTCAC TCTCATTGAA ATTCCAATTG ATGCATCGGG TAATGTGATT 
    GAGAACAACT CTGAGGCAGC CCAGCAGCCA AGTCTCATTG CTGAAACACA TTCATCCCCT 
    GTAACCCTCA AAGCAGTTGC TGATGGGCAA TGTGATCAAA ATCTATGTTC TGGTACAATG 
    AAGGAAAGCT CTTTCGCTGG TGGTTCTCTT CCAGTTCCTA ACATTTCCAG CCCTCCTGCC 
    CCTAACATTT CCAGCCCTCC TGCCCCTAAC ATTTCCAGCC CTCCTGCCCC TCACATTTCC 
    AGCCCTCCTG CCCCTCACAT TTCCAGCCCT CCTGCCCCTC ACATTTCCAG CCCTCCTGCC 
    CCTCACATTT CCAGCCCTCC TGCCCCTCAC ATTTCCAGCC CTCCTGCCCC TCACATTTCC 
    AGCCCTCCTG CCCCTAACAG CGCCAGTCCC CCTGCCCCTA ACAGCGCCAG TACTCCCCTC 
    CCTAACAGTT CCAGTTCAAA AAAAGCCTTT GTTGGAAGTT GGATGAAGAG TCTACTAAAT 
    AAAAACCCTT TGTTCCTGAC ATCTAATGTG CCCTGTGCAA ATAAGAAAAC TGTGGCAAAA 
    ACTCCAATCC GATTTCCCCT GCTGAAGACA ACAGATTTGC AGGCATCTAC TAAACAGGCC 
    CAGAGCTTTG ATGGTTTTAA AGCTAAACGT GTCGGTAATT CATTCAGCTC GGACAATTGC 
    CTTGGTGTAG GTCCCACGAA GGATAATTCC ACTGCACCCA AACCTGCCAT CTCTAGCCAA 
    ACGTTCCAGC CACTGGTTTC AAATCGACTT AAAAATGGGC GGTTAGGACT CGGTAATACC 
    AAAGACTTGG CAAAAAATGT TTCTCTGTCT AAGGAGGATA AGGTGCTTAG GCTTAGACTG 
    AAAATGCTGA AAAAGTTGAA GGCTAAGAAA CATGAATTGG CCGCCATAGA TATGCTTGGA 
    AAGTCACAGG CTGGTAGTGA TCTGGAGCGT AGCAGCACCA GCAGGCGTGA ACAATTACGC 
    GGGTTCTTGC AGGAACTCCA AGAGCAAATC GATAATGCCG ACACTGAATC AGTGTGCACT 
    ATGAGCTCTT GCACGTCGAT ATGCAGCAGC CCAGGAGATG CGGAATTCTT TGCGGAATTG 
    TTCTCCCCAC CCCCTAGCAA CGCCCCGCAG GAGAGCATGG ATGACAGTAA TTTTTTAGAG 
    ATGTATGTAG ATGGTTACAA CCCCTCCTGT GGCAGTTATG GAACCAGTAA CCCAAGTGGC 
    AAAGAGGTCT CACAGGACAG TGCTAATATC GGCCAGTCCA ATTTACAGCG TGCTTCCGAC 
    AGCCACAATA ACACTAACGT GGGGGACGTC TTCCATGATA TGCTGTCAAC CTCCACAATG 
    CACATGCTGA ACGAGGATTA TTTCTCACCT TTTGATGATA TGTTTTAA

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

    RefSeq XP_017947223.2
    CDS683..5950
    Translation

    Target ORF information:

    RefSeq Version XM_018091734.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018091734.2

    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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    ATGTCTCCGT GTTTACCTAA AGAATCTCAT ACAAGTGTAC CTGGCCCTTC AGAGAATGGT 
    CAGGATGAGA GAAGTCAGCA GCAATATGGA ATGTGCAAAG TTTCAGCTTG CAATTCTGCA 
    AGTCCACATG GTGACAGGGC ACCTTCAGTT GAATTTGCTC TGCGGGACTC AAACCAACCT 
    AATCACCCGC AGGAAGCCTT AAATGCATTT CACGAAGAAG CTGTGCAAAA TCAAGTTATG 
    GGAATGACCA TTGCATCAAT TAATGGTCCT TCTCCTTTAA AATGGAATGT ACCTGCTACT 
    AAAGATATGC ACACATTATC ACAGTCGGTG AATGCTGCTA ATGACCCACC AACATGTATA 
    AACCAAAAGA CAGATGCTGG AATAGCTGAG GTTTTAAATG GATTTACAAA GGCTGAAGCC 
    AATATGTGCC ATTCAGTATC TGTCCTTAGT ACTTGTGCAC CTTTAGGCTC ACCTCGTTTA 
    AGGCTTAGTG CTCTAAAGGA GGGACATAAA CAGAGTGATA TACGGAGTGC CTCCTGCAGT 
    AGTGCTTGTC TTGAAAAAGT AGCATCAGAA ACAGCTCTTG CCGCCATGTC TGACAGCAAC 
    ATGAAGAAAG AGGATAGTTT CAACATGGCA TTTGAACTTT TACCGTCGTC TCCTCCATTG 
    CATTCATTTT TTGGGGCTTC ACAAAATGTG CACACATCTG AAGAATCATC CTCTTTGCTT 
    GGAACAGTGG GTCAAACAAA AGAAAATACC ATAAGTGTTA AATCAATTGG ATCCAGCAAT 
    GTTGTTCTTA ATGAAGGAAA GGGGGAAACC TCCCAGTTTA CGATATTGTC CAAATCACAC 
    AGTGAGGTAG AAGATGTTCA GAAAGTGTGT GTACGTTTGC CCTCTTCCCC ACTGCTTGAA 
    ACAGCTTTAC AAATGAAAGC GTATGCCCAC AGTGACAAGC TCAGTGCCTT CAACAATAAT 
    CCATGTCTTG AGAAAGTATT ACCAGAGGCA ACCCCAGTGG TTTTATCAGA AACATATAGG 
    GAGGTACAAG ATTGTTTTGG ATCTTTACCT TCATCTGATT TGCATGAAAA TGAGCCTCCA 
    CTGGAAGAGA GATCCCTGGT TGATAAATCT AATAGCTCCA GAAATTATAC TTGCCTTGAG 
    AAAGTAGTAC CAGAGGCAAC CTTATTGTTA AAAGAGTACT TTTCAGAATC CTGTAGTAAG 
    GTACAAGATG ATGAGAAATG TTTTGGATCT TTACCTTCAT CTGCTTTGCA AAGAAAAAAT 
    CCTCTAATTG AAAAAAACGG ACCGAGTGAC AAATCCAGTG CATCCAGCAA TAATGTTTGC 
    CTTGAGGAAG GAGAACCAGA GGCAGTCCCA TTGTTGGAAG ACTGTAAAAG TCAAACCCTT 
    GTTGTACCTT CCACATGCAG TCAATTGTCC ATAACAGATA AAATAGCAAA CAGTCTTGGA 
    GTACATAATT CCTCAGATTC ATGTCAGCTC ATCAGTGAAA TTCATCATGA TCATCCAAGC 
    GATGGAAATG ATCTCACTGT GTCCCATATT GCCTTCAATG TTGGTGGTGC TGACAAAATC 
    AATAAAGTTA AAAGCCTGCA GGTAACTCCA CTTCCAGAGG TTATATCTAC AGAACTATGT 
    AGGGGCAAGA GCAACAGTCA AAGCACTTGT GAACCTCCAT CCGTGCCAGT TCTGTCATGT 
    AAGCTTTCTT CTGAGCAAAA AGATGAAGGT ACATTGATGG AATTGTCTAG CTCTTTACAT 
    AGTGAAACAA CTGAGGAGGA AGAATGTGGA AATAAAATGG CTCTTGGAAG TTCAACATTG 
    GATGGGGAAA TATCTGACTA TAAGAAACTA AACAGTCAAA TTAAGCCTTT GCCACAAGCA 
    ATAGAAAGCT TGGTCATGGA CACGTGTGAT AGCAATCTGT GCAATAATAT TAATTTAAAA 
    GATAGCAGCA AAATAATTTC AGAGGAAGCT ACAGTACCAC ATTGTTTTCA GCCAGAACAG 
    CATGTTGTAT ACAGCCATCC TATGTCTGAC CCTGCAGTTA CTTGTGTGAC TCATGGCACT 
    GGATCTGAAA TGAAAGCATT GGATACACCA AGGAAGGAGT CTAATCCAGT GTGTAAGGAA 
    CTCCGTGAAA GAAATGTAAA TCCAATGAAA GAATTGTATA TATCTCTGAA CAATGCACCA 
    ACTGATTTGT CTAACTCTTT GTGCAGTGAC ACTACTAATG TGGAAGAATC TAGGGATGCC 
    ACAGCAAATG CAAGTTCTTT ATCCAACGGA GAAATATTGC ATTTATATCA CAAAACAAGC 
    AGCCCAGCTC TTGTTGATCC AAAAGCAGAA GCAAATACAG TTTTAGGCTT GTGTGACAGT 
    GTCCTCAGCA AAAACTCTAC AATGGGAAGT AGTGATAGCA TTAATCAGGA GAAAGCTATA 
    GCAACAACTT TTGCACACCC AGGACAGAGT GTGTTGTTCA GCCATGGGGC ATCTACAATT 
    ACAGTCTCCC CTGGTTTATT TCATAGTGCT GTACAGGCAT TAGATGTTTC TGATACACCA 
    GAGTTGGGGT GCAGTCCTGT GTGTAAGGAA CCCACTGTTG TACAAGATAA AAGCGATGGA 
    TCCTTTGATA CTTCTTTGGG CCATTTTGAA AGAGAAAAGC AAAATGAGAG CTTTGAAACA 
    GACAGTTCTG TAATGCTTAC TGATGATCAC ATAAAGGACC CAAAGGATGT AGATGTTGTA 
    TTGTCTTTGC CAGAGGGGAG CTTGGAAGAT TGCTGTCCCA AAAAAAAATC AAACTGCTCA 
    GAGAACATGC ATGTAGCCTT AAAGGGTACC TCCACAAACC CTTCCCTTGA ACTCGGTTCC 
    CACGATGCCC CGTGTGAAAA GAAGCTGCTT CAATGGAGAA ACACCCTCTT CCTCTGCTGG 
    TTGGACTGCA TATTGGCAGC ACTGGTGCAT TCTGCTAGCC TGAATAGCAT TGTGGCACAG 
    CGAAGGGTTG CAGAAAGCTC AATCATTCAC CTTCTTCTGG AGAAATACAA GGAGGCCAAT 
    GCATTAATAA AAAGCACATC CAGACGAGGA CGTCCAAAGA ATTTATCTCA AGCTGAAAAC 
    ATCCTGAATA AAGTGCGAAT GACCATCTTT GATGAAATAA AGCCCTTGTT AAAGTGTGAA 
    TTGGGAGATA AAGAGAGCCC TGTGTTTGCT TTGCCGTTAC TGCTGCAGCT GGTTCCAGAG 
    ATAGAATCCT GTTTTGTGCA CTCAGGTGTA TGGGAGTTTA CATGCAAGCT ATGTGGCTAC 
    CAATACCAAA ATAAGCACCA ACGGACTGTG TCCACATTCA CTAAGATCTT ACCTGAATGG 
    ACACCCCTAA ATGCTATCCA TAAAGCTCCT TGCAACAAAT GCCTGGGTAC AGATCAGATA 
    CGTGCTTTTC GTATTAAAAA GATCCATGAC CTATTCATAC TTCACTTTGT GGAAGGCCTG 
    CCAAGCAATG ATTTAGGCAT GTACTCGTTT CACTTTGAAG GCTGCCTGTA TGAAGTAAAG 
    ACTGTCATCC AGTATAGTGA AGACCATTTC TCATCTTGGA TTGCTAATGA GGATGGCACA 
    TGGCTGGAAT CTGATGACCT GAAAGGGTAT TTCTGCATAA AACAGAACTG TTTTGAGGTT 
    CCTGCTTCAG AAATTCATAT TGTAATATGG GAAAAGAAGA TTACCAACAG CACTGGAGCA 
    CACCATGCAA TGGAACCTGA AACAAAAAAC AAAGCACTTA ATTCTTTATC TACTTCACCT 
    TCATCTTTAT CTCAGACCCT GCACCTGTCT CCTTCAGCTG CTCCGAATGC TGCATCTTCA 
    CCTCTAAGAG ATGCTCCAAA TGCTTCCAGC GTACTCTCTG GAATGGAGGG TTTTCATGAT 
    GACGACATCA TAACGCTCAC TCTCATTGAA ATTCCAATTG ATGCATCGGG TAATGTGATT 
    GAGAACAACT CTGAGGCAGC CCAGCAGCCA AGTCTCATTG CTGAAACACA TTCATCCCCT 
    GTAACCCTCA AAGCAGTTGC TGATGGGCAA TGTGATCAAA ATCTATGTTC TGGTACAATG 
    AAGGAAAGCT CTTTCGCTGG TGGTTCTCTT CCAGTTCCTA ACATTTCCAG CCCTCCTGCC 
    CCTAACATTT CCAGCCCTCC TGCCCCTAAC ATTTCCAGCC CTCCTGCCCC TCACATTTCC 
    AGCCCTCCTG CCCCTCACAT TTCCAGCCCT CCTGCCCCTC ACATTTCCAG CCCTCCTGCC 
    CCTCACATTT CCAGCCCTCC TGCCCCTCAC ATTTCCAGCC CTCCTGCCCC TCACATTTCC 
    AGCCCTCCTG CCCCTAACAG CGCCAGTCCC CCTGCCCCTA ACAGCGCCAG TACTCCCCTC 
    CCTAACAGTT CCAGTTCAAA AAAAGCCTTT GTTGGAAGTT GGATGAAGAG TCTACTAAAT 
    AAAAACCCTT TGTTCCTGAC ATCTAATGTG CCCTGTGCAA ATAAGAAAAC TGTGGCAAAA 
    ACTCCAATCC GATTTCCCCT GCTGAAGACA ACAGATTTGC AGGCATCTAC TAAACAGGCC 
    CAGAGCTTTG ATGGTTTTAA AGCTAAACGT GTCGGTAATT CATTCAGCTC GGACAATTGC 
    CTTGGTGTAG GTCCCACGAA GGATAATTCC ACTGCACCCA AACCTGCCAT CTCTAGCCAA 
    ACGTTCCAGC CACTGGTTTC AAATCGACTT AAAAATGGGC GGTTAGGACT CGGTAATACC 
    AAAGACTTGG CAAAAAATGT TTCTCTGTCT AAGGAGGATA AGGTGCTTAG GCTTAGACTG 
    AAAATGCTGA AAAAGTTGAA GGCTAAGAAA CATGAATTGG CCGCCATAGA TATGCTTGGA 
    AAGTCACAGG CTGGTAGTGA TCTGGAGCGT AGCAGCACCA GCAGGCGTGA ACAATTACGC 
    GGGTTCTTGC AGGAACTCCA AGAGCAAATC GATAATGCCG ACACTGAATC AGTGTGCACT 
    ATGAGCTCTT GCACGTCGAT ATGCAGCAGC CCAGGAGATG CGGAATTCTT TGCGGAATTG 
    TTCTCCCCAC CCCCTAGCAA CGCCCCGCAG GAGAGCATGG ATGACAGTAA TTTTTTAGAG 
    ATGTATGTAG ATGGTTACAA CCCCTCCTGT GGCAGTTATG GAACCAGTAA CCCAAGTGGC 
    AAAGAGGTCT CACAGGACAG TGCTAATATC GGCCAGTCCA ATTTACAGCG TGCTTCCGAC 
    AGCCACAATA ACACTAACGT GGGGGACGTC TTCCATGATA TGCTGTCAAC CTCCACAATG 
    CACATGCTGA ACGAGGATTA TTTCTCACCT TTTGATGATA TGTTTTAA

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

    uspl1 ( XM_018091733.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947222.1 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OXa42866
    Clone ID Related Accession (Same CDS sequence) XM_018091733.1 , XM_018091731.1 , XM_018091732.1
    Accession Version XM_018091733.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5790bp)
    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 SUMO-specific isopeptidase USPL1 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 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 :: 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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCTGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GATCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCCC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTAACAT TTCCAGCCCT 
    CCTGCCTCTA ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTAAC 
    AGCGCCAGTC CCCCTGCCCC TAACAGCGCC AGTACTCCCC TCCCTAACAG TTCCAGTTCA 
    AAAAAAGCCT TTGTTGGAAG TTGGATGAAG AGTCTACTAA ATAAAAACCC TTTGTTCCTG 
    ACATCTAATG TGCCCTGTGC AAATAAGAAA ACTGTGGCAA AAACTCCAAT CCGATTTCCC 
    CTGCTGAAGA CAACAGATTT GCAGGCATCT ACTAAACAGG CCCAGAGCTT TGATGGTTTT 
    AAAGCTAAAC GTGTCGGTAA TTCATTCAGC TCGGACAATT GCCTTGGTGT AGGTCCCACG 
    AAGGATAATT CCACTGCACC CAAACCTGCC ATCTCTAGCC AAACGTTCCA GCCACTGGTT 
    TCAAATCGAC TTAAAAATGG GCGGTTAGGA CTCGGTAATA CCAAAGACTT GGCAAAAAAT 
    GTTTCTCTGT CTAAGGAGGA TAAGGTGCTT AGGCTTAGAC TGAAAATGCT GAAAAAGTTG 
    AAGGCTAAGA AACATGAATT GGCCGCCATA GATATGCTTG GAAAGTCACA GGCTGGTAGT 
    GATCTGGAGC GTAGCAGCAC CAGCAGGCGT GAACAATTAC GCGGGTTCTT GCAGGAACTC 
    CAAGAGCAAA TCGATAATGC CGACACTGAA TCAGTGTGCA CTATGAGCTC TTGCACGTCG 
    ATATGCAGCA GCCCAGGAGA TGCGGAATTC TTTGCGGAAT TGTTCTCCCC ACCCCCTAGC 
    AACGCCCCGC AGGAGAGCAT GGATGACAGT AATTTTTTAG AGATGTATGT AGATGGTTAC 
    AACCCCTCCT GTGGCAGTTA TGGAACCAGT AACCCAAGTG GCAAAGAGGT CTCACAGGAC 
    AGTGCTAATA TCGGCCAGTC CAATTTACAG CGTGCTTCCG ACAGCCACAA TAACACTAAC 
    GTGGGGGACG TCTTCCATGA TATGCTGTCA ACCTCCACAA TGCACATGCT GAACGAGGAT 
    TATTTCTCAC CTTTTGATGA TATGTTTTAA

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

    RefSeq XP_017947222.1
    CDS528..6317
    Translation

    Target ORF information:

    RefSeq Version XM_018091733.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018091733.1

    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
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCTGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GATCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCCC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTAACAT TTCCAGCCCT 
    CCTGCCTCTA ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTAAC 
    AGCGCCAGTC CCCCTGCCCC TAACAGCGCC AGTACTCCCC TCCCTAACAG TTCCAGTTCA 
    AAAAAAGCCT TTGTTGGAAG TTGGATGAAG AGTCTACTAA ATAAAAACCC TTTGTTCCTG 
    ACATCTAATG TGCCCTGTGC AAATAAGAAA ACTGTGGCAA AAACTCCAAT CCGATTTCCC 
    CTGCTGAAGA CAACAGATTT GCAGGCATCT ACTAAACAGG CCCAGAGCTT TGATGGTTTT 
    AAAGCTAAAC GTGTCGGTAA TTCATTCAGC TCGGACAATT GCCTTGGTGT AGGTCCCACG 
    AAGGATAATT CCACTGCACC CAAACCTGCC ATCTCTAGCC AAACGTTCCA GCCACTGGTT 
    TCAAATCGAC TTAAAAATGG GCGGTTAGGA CTCGGTAATA CCAAAGACTT GGCAAAAAAT 
    GTTTCTCTGT CTAAGGAGGA TAAGGTGCTT AGGCTTAGAC TGAAAATGCT GAAAAAGTTG 
    AAGGCTAAGA AACATGAATT GGCCGCCATA GATATGCTTG GAAAGTCACA GGCTGGTAGT 
    GATCTGGAGC GTAGCAGCAC CAGCAGGCGT GAACAATTAC GCGGGTTCTT GCAGGAACTC 
    CAAGAGCAAA TCGATAATGC CGACACTGAA TCAGTGTGCA CTATGAGCTC TTGCACGTCG 
    ATATGCAGCA GCCCAGGAGA TGCGGAATTC TTTGCGGAAT TGTTCTCCCC ACCCCCTAGC 
    AACGCCCCGC AGGAGAGCAT GGATGACAGT AATTTTTTAG AGATGTATGT AGATGGTTAC 
    AACCCCTCCT GTGGCAGTTA TGGAACCAGT AACCCAAGTG GCAAAGAGGT CTCACAGGAC 
    AGTGCTAATA TCGGCCAGTC CAATTTACAG CGTGCTTCCG ACAGCCACAA TAACACTAAC 
    GTGGGGGACG TCTTCCATGA TATGCTGTCA ACCTCCACAA TGCACATGCT GAACGAGGAT 
    TATTTCTCAC CTTTTGATGA TATGTTTTAA

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

    uspl1 ( XM_018091731.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947220.1 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OXa42866
    Clone ID Related Accession (Same CDS sequence) XM_018091733.1 , XM_018091731.1 , XM_018091732.1
    Accession Version XM_018091731.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5790bp)
    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 SUMO-specific isopeptidase USPL1 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 ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCTGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GATCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCCC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTAACAT TTCCAGCCCT 
    CCTGCCTCTA ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTAAC 
    AGCGCCAGTC CCCCTGCCCC TAACAGCGCC AGTACTCCCC TCCCTAACAG TTCCAGTTCA 
    AAAAAAGCCT TTGTTGGAAG TTGGATGAAG AGTCTACTAA ATAAAAACCC TTTGTTCCTG 
    ACATCTAATG TGCCCTGTGC AAATAAGAAA ACTGTGGCAA AAACTCCAAT CCGATTTCCC 
    CTGCTGAAGA CAACAGATTT GCAGGCATCT ACTAAACAGG CCCAGAGCTT TGATGGTTTT 
    AAAGCTAAAC GTGTCGGTAA TTCATTCAGC TCGGACAATT GCCTTGGTGT AGGTCCCACG 
    AAGGATAATT CCACTGCACC CAAACCTGCC ATCTCTAGCC AAACGTTCCA GCCACTGGTT 
    TCAAATCGAC TTAAAAATGG GCGGTTAGGA CTCGGTAATA CCAAAGACTT GGCAAAAAAT 
    GTTTCTCTGT CTAAGGAGGA TAAGGTGCTT AGGCTTAGAC TGAAAATGCT GAAAAAGTTG 
    AAGGCTAAGA AACATGAATT GGCCGCCATA GATATGCTTG GAAAGTCACA GGCTGGTAGT 
    GATCTGGAGC GTAGCAGCAC CAGCAGGCGT GAACAATTAC GCGGGTTCTT GCAGGAACTC 
    CAAGAGCAAA TCGATAATGC CGACACTGAA TCAGTGTGCA CTATGAGCTC TTGCACGTCG 
    ATATGCAGCA GCCCAGGAGA TGCGGAATTC TTTGCGGAAT TGTTCTCCCC ACCCCCTAGC 
    AACGCCCCGC AGGAGAGCAT GGATGACAGT AATTTTTTAG AGATGTATGT AGATGGTTAC 
    AACCCCTCCT GTGGCAGTTA TGGAACCAGT AACCCAAGTG GCAAAGAGGT CTCACAGGAC 
    AGTGCTAATA TCGGCCAGTC CAATTTACAG CGTGCTTCCG ACAGCCACAA TAACACTAAC 
    GTGGGGGACG TCTTCCATGA TATGCTGTCA ACCTCCACAA TGCACATGCT GAACGAGGAT 
    TATTTCTCAC CTTTTGATGA TATGTTTTAA

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

    RefSeq XP_017947220.1
    CDS2802..8591
    Translation

    Target ORF information:

    RefSeq Version XM_018091731.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018091731.1

    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
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCTGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GATCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCCC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTAACAT TTCCAGCCCT 
    CCTGCCTCTA ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTAAC 
    AGCGCCAGTC CCCCTGCCCC TAACAGCGCC AGTACTCCCC TCCCTAACAG TTCCAGTTCA 
    AAAAAAGCCT TTGTTGGAAG TTGGATGAAG AGTCTACTAA ATAAAAACCC TTTGTTCCTG 
    ACATCTAATG TGCCCTGTGC AAATAAGAAA ACTGTGGCAA AAACTCCAAT CCGATTTCCC 
    CTGCTGAAGA CAACAGATTT GCAGGCATCT ACTAAACAGG CCCAGAGCTT TGATGGTTTT 
    AAAGCTAAAC GTGTCGGTAA TTCATTCAGC TCGGACAATT GCCTTGGTGT AGGTCCCACG 
    AAGGATAATT CCACTGCACC CAAACCTGCC ATCTCTAGCC AAACGTTCCA GCCACTGGTT 
    TCAAATCGAC TTAAAAATGG GCGGTTAGGA CTCGGTAATA CCAAAGACTT GGCAAAAAAT 
    GTTTCTCTGT CTAAGGAGGA TAAGGTGCTT AGGCTTAGAC TGAAAATGCT GAAAAAGTTG 
    AAGGCTAAGA AACATGAATT GGCCGCCATA GATATGCTTG GAAAGTCACA GGCTGGTAGT 
    GATCTGGAGC GTAGCAGCAC CAGCAGGCGT GAACAATTAC GCGGGTTCTT GCAGGAACTC 
    CAAGAGCAAA TCGATAATGC CGACACTGAA TCAGTGTGCA CTATGAGCTC TTGCACGTCG 
    ATATGCAGCA GCCCAGGAGA TGCGGAATTC TTTGCGGAAT TGTTCTCCCC ACCCCCTAGC 
    AACGCCCCGC AGGAGAGCAT GGATGACAGT AATTTTTTAG AGATGTATGT AGATGGTTAC 
    AACCCCTCCT GTGGCAGTTA TGGAACCAGT AACCCAAGTG GCAAAGAGGT CTCACAGGAC 
    AGTGCTAATA TCGGCCAGTC CAATTTACAG CGTGCTTCCG ACAGCCACAA TAACACTAAC 
    GTGGGGGACG TCTTCCATGA TATGCTGTCA ACCTCCACAA TGCACATGCT GAACGAGGAT 
    TATTTCTCAC CTTTTGATGA TATGTTTTAA

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

    uspl1 ( XM_018091732.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947221.1 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OXa42866
    Clone ID Related Accession (Same CDS sequence) XM_018091733.1 , XM_018091731.1 , XM_018091732.1
    Accession Version XM_018091732.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5790bp)
    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 SUMO-specific isopeptidase USPL1 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 ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCTGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GATCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCCC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTAACAT TTCCAGCCCT 
    CCTGCCTCTA ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTAAC 
    AGCGCCAGTC CCCCTGCCCC TAACAGCGCC AGTACTCCCC TCCCTAACAG TTCCAGTTCA 
    AAAAAAGCCT TTGTTGGAAG TTGGATGAAG AGTCTACTAA ATAAAAACCC TTTGTTCCTG 
    ACATCTAATG TGCCCTGTGC AAATAAGAAA ACTGTGGCAA AAACTCCAAT CCGATTTCCC 
    CTGCTGAAGA CAACAGATTT GCAGGCATCT ACTAAACAGG CCCAGAGCTT TGATGGTTTT 
    AAAGCTAAAC GTGTCGGTAA TTCATTCAGC TCGGACAATT GCCTTGGTGT AGGTCCCACG 
    AAGGATAATT CCACTGCACC CAAACCTGCC ATCTCTAGCC AAACGTTCCA GCCACTGGTT 
    TCAAATCGAC TTAAAAATGG GCGGTTAGGA CTCGGTAATA CCAAAGACTT GGCAAAAAAT 
    GTTTCTCTGT CTAAGGAGGA TAAGGTGCTT AGGCTTAGAC TGAAAATGCT GAAAAAGTTG 
    AAGGCTAAGA AACATGAATT GGCCGCCATA GATATGCTTG GAAAGTCACA GGCTGGTAGT 
    GATCTGGAGC GTAGCAGCAC CAGCAGGCGT GAACAATTAC GCGGGTTCTT GCAGGAACTC 
    CAAGAGCAAA TCGATAATGC CGACACTGAA TCAGTGTGCA CTATGAGCTC TTGCACGTCG 
    ATATGCAGCA GCCCAGGAGA TGCGGAATTC TTTGCGGAAT TGTTCTCCCC ACCCCCTAGC 
    AACGCCCCGC AGGAGAGCAT GGATGACAGT AATTTTTTAG AGATGTATGT AGATGGTTAC 
    AACCCCTCCT GTGGCAGTTA TGGAACCAGT AACCCAAGTG GCAAAGAGGT CTCACAGGAC 
    AGTGCTAATA TCGGCCAGTC CAATTTACAG CGTGCTTCCG ACAGCCACAA TAACACTAAC 
    GTGGGGGACG TCTTCCATGA TATGCTGTCA ACCTCCACAA TGCACATGCT GAACGAGGAT 
    TATTTCTCAC CTTTTGATGA TATGTTTTAA

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

    RefSeq XP_017947221.1
    CDS2422..8211
    Translation

    Target ORF information:

    RefSeq Version XM_018091732.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018091732.1

    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
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    ATGACTAAAG TAAGCCAATG GTTCACAACG ATGGCTTCAG AGACTCCTGG ATCTACAGTG 
    TCACTGGTTG GACAAGGGTC TATTTTAGAT AAATCTTCAC TCCACACGGT GGGGTGCTTG 
    GGAAAAAATG TTGACCCCTG TGCAGCTCCT GCTGATGGAT TTTGCCCAGT ATGCAAGGCC 
    AAAGGCCAGC TGCAAGCTCT CCGGACATAT CGCTTTAATT TCACTCAGTC TATATATCTC 
    TGTGCCAATC CACAGTGCAT ATATCCCTTG GGATATACAC CTCTGGATAA CATAATTGCA 
    AACACAGCAG ATCTACAGAA ACACCATAGC CCTGGAAAGC AGAAGAAGCG GTGTCTTTTA 
    GACACCTCTG TAACAACTAA CTGTGTGAAG AAGCATAAGA CTGATTCTTT TGTCTCTGGA 
    GAGTACATTT CAGAAAACCT ATTTTTATCT GCACAAAATA AAGGCTACAA ATCAATGTCT 
    CCGTGTTTAC CTAAAGAATC TCATACAAGT GTACCTGGCC CTTCAGAGAA TGGTCAGGAT 
    GAGAGAAGTC AGCAGCAATA TGGAATGTGC AAAGTTTCAG CTTGCAATTC TGCAAGTCCA 
    CATGGTGACA GGGCACCTTC AGTTGAATTT GCTCTGCGGG ACTCAAACCA ACCTAATCAC 
    CCGCAGGAAG CCTTAAATGC ATTTCACGAA GAAGCTGTGC AAAATCAAGT TATGGGAATG 
    ACCATTGCAT CAATTAATGG TCCTTCTCCT TTAAAATGGA ATGTACCTGC TACTAAAGAT 
    ATGCACACAT TATCACAGTC GGTGAATGCT GCTAATGACC CACCAACATG TATAAACCAA 
    AAGACAGATG CTGGAATAGC TGAGGTTTTA AATGGATTTA CAAAGGCTGA AGCCAATATG 
    TGCCATTCAG TATCTGTCCT TAGTACTTGT GCACCTTTAG GCTCACCTCG TTTAAGGCTT 
    AGTGCTCTAA AGGAGGGACA TAAACAGAGT GATATACGGA GTGCCTCCTG CAGTAGTGCT 
    TGTCTTGAAA AAGTAGCATC AGAAACAGCT CTTGCCGCCA TGTCTGACAG CAACATGAAG 
    AAAGAGGATA GTTTCAACAT GGCATTTGAA CTTTTACCGT CGTCTCCTCC ATTGCATTCA 
    TTTTTTGGGG CTTCACAAAA TGTGCACACA TCTGAAGAAT CATCCTCTTT GCTTGGAACA 
    GTGGGTCAAA CAAAAGAAAA TACCATAAGT GTTAAATCAA TTGGATCCAG CAATGTTGTT 
    CTTAATGAAG GAAAGGGGGA AACCTCCCAG TTTACGATAT TGTCCAAATC ACACAGTGAG 
    GTAGAAGATG TTCAGAAAGT GTGTGTACGT TTGCCCTCTT CCCCACTGCT TGAAACAGCT 
    TTACAAATGA AAGCGTATGC CCACAGTGAC AAGCTCAGTG CCTTCAACAA TAATCCATGT 
    CTTGAGAAAG TATTACCAGA GGCAACCCCA GTGGTTTTAT CAGAAACATA TAGGGAGGTA 
    CAAGATTGTT TTGGATCTTT ACCTTCATCT GATTTGCATG AAAATGAGCC TCCACTGGAA 
    GAGAGATCCC TGGTTGATAA ATCTAATAGC TCCAGAAATT ATACTTGCCT TGAGAAAGTA 
    GTACCAGAGG CAACCTTATT GTTAAAAGAG TACTTTTCAG AATCCTGTAG TAAGGTACAA 
    GATGATGAGA AATGTTTTGG ATCTTTACCT TCATCTGCTT TGCAAAGAAA AAATCCTCTA 
    ATTGAAAAAA ACGGACCGAG TGACAAATCC AGTGCATCCA GCAATAATGT TTGCCTTGAG 
    GAAGGAGAAC CAGAGGCAGT CCCATTGTTG GAAGACTGTA AAAGTCAAAC CCTTGTTGTA 
    CCTTCCACAT GCAGTCAATT GTCCATAACA GATAAAATAG CAAACAGTCT TGGAGTACAT 
    AATTCCTCAG ATTCATGTCA GCTCATCAGT GAAATTCATC ATGATCATCC AAGCGATGGA 
    AATGATCTCA CTGTGTCCCA TATTGCCTTC AATGTTGGTG GTGCTGACAA AATCAATAAA 
    GTTAAAAGCC TGCAGGTAAC TCCACTTCCA GAGGTTATAT CTACAGAACT ATGTAGGGGC 
    AAGAGCAACA GTCAAAGCAC TTGTGAACCT CCATCCGTGC CAGTTCTGTC ATGTAAGCTT 
    TCTTCTGAGC AAAAAGATGA AGGTACATTG ATGGAATTGT CTAGCTCTTT ACATAGTGAA 
    ACAACTGAGG AGGAAGAATG TGGAAATAAA ATGGCTCTTG GAAGTTCAAC ATTGGATGGG 
    GAAATATCTG ACTATAAGAA ACTAAACAGT CAAATTAAGC CTTTGCCACA AGCAATAGAA 
    AGCTTGGTCA TGGACACGTG TGATAGCAAT CTGTGCAATA ATATTAATTT AAAAGATAGC 
    AGCAAAATAA TTTCAGAGGA AGCTACAGTA CCACATTGTT TTCAGCCAGA ACAGCATGTT 
    GTATACAGCC ATCCTATGTC TGACCCTGCA GTTACTTGTG TGACTCATGG CACTGGATCT 
    GAAATGAAAG CATTGGATAC ACCAAGGAAG GAGTCTAATC CAGTGTGTAA GGAACTCCGT 
    GAAAGAAATG TAAATCCAAT GAAAGAATTG TATATATCTC TGAACAATGC ACCAACTGAT 
    TTGTCTAACT CTTTGTGCAG TGACACTACT AATGTGGAAG AATCTAGGGA TGCCACAGCA 
    AATGCAAGTT CTTTATCCAA CGGAGAAATA TTGCATTTAT ATCACAAAAC AAGCAGCCCA 
    GCTCTTGTTG ATCCAAAAGC AGAAGCAAAT ACAGTTTTAG GCTTGTGTGA CAGTGTCCTC 
    AGCAAAAACT CTACAATGGG AAGTAGTGAT AGCATTAATC AGGAGAAAGC TATAGCAACA 
    ACTTTTGCAC ACCCAGGACA GAGTGTGTTG TTCAGCCATG GGGCATCTAC AATTACAGTC 
    TCCCCTGGTT TATTTCATAG TGCTGTACAG GCATTAGATG TTTCTGATAC ACCAGAGTTG 
    GGGTGCAGTC CTGTGTGTAA GGAACCCACT GTTGTACAAG ATAAAAGCGA TGGATCCTTT 
    GATACTTCTT TGGGCCATTT TGAAAGAGAA AAGCAAAATG AGAGCTTTGA AACAGACAGT 
    TCTGTAATGC TTACTGATGA TCACATAAAG GATCCAAAGG ATGTAGATGT TGTATTGTCT 
    TTGCCAGAGG GGAGCTTGGA AGATTGCTGT CCCAAAAAAA AATCAAACTG CTCAGAGAAC 
    ATGCATGTAG CCTTAAAGGG TACCTCCACA AACCCTTCCC TTGAACTCGG TTCCCACGAT 
    GCCCCGTGTG AAAAGAAGCT GCTTCAATGG AGAAACACCC TCTTCCTCTG CTGGTTGGAC 
    TGCATATTGG CAGCACTGGT GCATTCTGCT AGCCTGAATA GCATTGTGGC ACAGCGAAGG 
    GTTGCAGAAA GCTCAATCAT TCACCTTCTT CTGGAGAAAT ACAAGGAGGC CAATGCATTA 
    ATAAAAAGCA CATCCAGACG AGGACGTCCA AAGAATTTAT CTCAAGCTGA AAACATCCTG 
    AATAAAGTGC GAATGACCAT CTTTGATGAA ATAAAGCCCT TGTTAAAGTG TGAATTGGGA 
    GATAAAGAGA GCCCTGTGTT TGCTTTGCCG TTACTGCTGC AGCTGGTTCC AGAGATAGAA 
    TCCTGTTTTG TGCACTCAGG TGTATGGGAG TTTACATGCA AGCTATGTGG CTACCAATAC 
    CAAAATAAGC ACCAACGGAC TGTGTCCACA TTCACTAAGA TCTTACCTGA ATGGACACCC 
    CTAAATGCTA TCCATAAAGC TCCTTGCAAC AAATGCCTGG GTACAGATCA GATACGTGCT 
    TTTCGTATTA AAAAGATCCA TGACCTATTC ATACTTCACT TTGTGGAAGG CCTGCCAAGC 
    AATGATTTAG GCATGTACTC GTTTCACTTT GAAGGCTGCC TGTATGAAGT AAAGACTGTC 
    ATCCAGTATA GTGAAGACCA TTTCTCATCT TGGATTGCTA ATGAGGATGG CACATGGCTG 
    GAATCTGATG ACCTGAAAGG GTATTTCTGC ATAAAACAGA ACTGTTTTGA GGTTCCTGCT 
    TCAGAAATTC ATATTGTAAT ATGGGAAAAG AAGATTACCA ACAGCACTGG AGCACACCAT 
    GCAATGGAAC CTGAAACAAA AAACAAAGCA CTTAATTCTT TATCTACTTC ACCTTCATCT 
    TTATCTCAGA CCCTGCACCT GTCTCCTTCA GCTGCTCCGA ATGCTGCATC TTCACCTCTA 
    AGAGATGCCC CAAATGCTTC CAGCGTACTC TCTGGAATGG AGGGTTTTCA TGATGACGAC 
    ATCATAACGC TCACTCTCAT TGAAATTCCA ATTGATGCAT CGGGTAATGT GATTGAGAAC 
    AACTCTGAGG CAGCCCAGCA GCCAAGTCTC ATTGCTGAAA CACATTCATC CCCTGTAACC 
    CTCAAAGCAG TTGCTGATGG GCAATGTGAT CAAAATCTAT GTTCTGGTAC AATGAAGGAA 
    AGCTCTTTCG CTGGTGGTTC TCTTCCAGTT CCTAACATTT CCAGCCCTCC TGCCCCTAAC 
    ATTTCCAGCC CTCCTGCCCC TAACATTTCC AGCCCTCCTG CCCCTAACAT TTCCAGCCCT 
    CCTGCCTCTA ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTCAC 
    ATTTCCAGCC CTCCTGCCCC TCACATTTCC AGCCCTCCTG CCCCTCACAT TTCCAGCCCT 
    CCTGCCCCTC ACATTTCCAG CCCTCCTGCC CCTCACATTT CCAGCCCTCC TGCCCCTAAC 
    AGCGCCAGTC CCCCTGCCCC TAACAGCGCC AGTACTCCCC TCCCTAACAG TTCCAGTTCA 
    AAAAAAGCCT TTGTTGGAAG TTGGATGAAG AGTCTACTAA ATAAAAACCC TTTGTTCCTG 
    ACATCTAATG TGCCCTGTGC AAATAAGAAA ACTGTGGCAA AAACTCCAAT CCGATTTCCC 
    CTGCTGAAGA CAACAGATTT GCAGGCATCT ACTAAACAGG CCCAGAGCTT TGATGGTTTT 
    AAAGCTAAAC GTGTCGGTAA TTCATTCAGC TCGGACAATT GCCTTGGTGT AGGTCCCACG 
    AAGGATAATT CCACTGCACC CAAACCTGCC ATCTCTAGCC AAACGTTCCA GCCACTGGTT 
    TCAAATCGAC TTAAAAATGG GCGGTTAGGA CTCGGTAATA CCAAAGACTT GGCAAAAAAT 
    GTTTCTCTGT CTAAGGAGGA TAAGGTGCTT AGGCTTAGAC TGAAAATGCT GAAAAAGTTG 
    AAGGCTAAGA AACATGAATT GGCCGCCATA GATATGCTTG GAAAGTCACA GGCTGGTAGT 
    GATCTGGAGC GTAGCAGCAC CAGCAGGCGT GAACAATTAC GCGGGTTCTT GCAGGAACTC 
    CAAGAGCAAA TCGATAATGC CGACACTGAA TCAGTGTGCA CTATGAGCTC TTGCACGTCG 
    ATATGCAGCA GCCCAGGAGA TGCGGAATTC TTTGCGGAAT TGTTCTCCCC ACCCCCTAGC 
    AACGCCCCGC AGGAGAGCAT GGATGACAGT AATTTTTTAG AGATGTATGT AGATGGTTAC 
    AACCCCTCCT GTGGCAGTTA TGGAACCAGT AACCCAAGTG GCAAAGAGGT CTCACAGGAC 
    AGTGCTAATA TCGGCCAGTC CAATTTACAG CGTGCTTCCG ACAGCCACAA TAACACTAAC 
    GTGGGGGACG TCTTCCATGA TATGCTGTCA ACCTCCACAA TGCACATGCT GAACGAGGAT 
    TATTTCTCAC CTTTTGATGA TATGTTTTAA

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

    uspl1 ( XM_018091734.1 ) cDNA ORF clone, Xenopus tropicalis(tropical clawed frog) -> XP_017947223.1 Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OXa42867
    Clone ID Related Accession (Same CDS sequence) XM_018091734.1
    Accession Version XM_018091734.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5316bp)
    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 SUMO-specific isopeptidase USPL1 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 ##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
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGTCTCCGT GTTTACCTAA AGAATCTCAT ACAAGTGTAC CTGGCCCTTC AGAGAATGGT 
    CAGGATGAGA GAAGTCAGCA GCAATATGGA ATGTGCAAAG TTTCAGCTTG CAATTCTGCA 
    AGTCCACATG GTGACAGGGC ACCTTCAGTT GAATTTGCTC TGCGGGACTC AAACCAACCT 
    AATCACCCGC AGGAAGCCTT AAATGCATTT CACGAAGAAG CTGTGCAAAA TCAAGTTATG 
    GGAATGACCA TTGCATCAAT TAATGGTCCT TCTCCTTTAA AATGGAATGT ACCTGCTACT 
    AAAGATATGC ACACATTATC ACAGTCGGTG AATGCTGCTA ATGACCCACC AACATGTATA 
    AACCAAAAGA CAGATGCTGG AATAGCTGAG GTTTTAAATG GATTTACAAA GGCTGAAGCC 
    AATATGTGCC ATTCAGTATC TGTCCTTAGT ACTTGTGCAC CTTTAGGCTC ACCTCGTTTA 
    AGGCTTAGTG CTCTAAAGGA GGGACATAAA CAGAGTGATA TACGGAGTGC CTCCTGCAGT 
    AGTGCTTGTC TTGAAAAAGT AGCATCAGAA ACAGCTCTTG CCGCCATGTC TGACAGCAAC 
    ATGAAGAAAG AGGATAGTTT CAACATGGCA TTTGAACTTT TACCGTCGTC TCCTCCATTG 
    CATTCATTTT TTGGGGCTTC ACAAAATGTG CACACATCTG AAGAATCATC CTCTTTGCTT 
    GGAACAGTGG GTCAAACAAA AGAAAATACC ATAAGTGTTA AATCAATTGG ATCCAGCAAT 
    GTTGTTCTTA ATGAAGGAAA GGGGGAAACC TCCCAGTTTA CGATATTGTC CAAATCACAC 
    AGTGAGGTAG AAGATGTTCA GAAAGTGTGT GTACGTTTGC CCTCTTCCCC ACTGCTTGAA 
    ACAGCTTTAC AAATGAAAGC GTATGCCCAC AGTGACAAGC TCAGTGCCTT CAACAATAAT 
    CCATGTCTTG AGAAAGTATT ACCAGAGGCA ACCCCAGTGG TTTTATCAGA AACATATAGG 
    GAGGTACAAG ATTGTTTTGG ATCTTTACCT TCATCTGATT TGCATGAAAA TGAGCCTCCA 
    CTGGAAGAGA GATCCCTGGT TGATAAATCT AATAGCTCCA GAAATTATAC TTGCCTTGAG 
    AAAGTAGTAC CAGAGGCAAC CTTATTGTTA AAAGAGTACT TTTCAGAATC CTGTAGTAAG 
    GTACAAGATG ATGAGAAATG TTTTGGATCT TTACCTTCAT CTGCTTTGCA AAGAAAAAAT 
    CCTCTAATTG AAAAAAACGG ACCGAGTGAC AAATCCAGTG CATCCAGCAA TAATGTTTGC 
    CTTGAGGAAG GAGAACCAGA GGCAGTCCCA TTGTTGGAAG ACTGTAAAAG TCAAACCCTT 
    GTTGTACCTT CCACATGCAG TCAATTGTCC ATAACAGATA AAATAGCAAA CAGTCTTGGA 
    GTACATAATT CCTCAGATTC ATGTCAGCTC ATCAGTGAAA TTCATCATGA TCATCCAAGC 
    GATGGAAATG ATCTCACTGT GTCCCATATT GCCTTCAATG TTGGTGGTGC TGACAAAATC 
    AATAAAGTTA AAAGCCTGCA GGTAACTCCA CTTCCAGAGG TTATATCTAC AGAACTATGT 
    AGGGGCAAGA GCAACAGTCA AAGCACTTGT GAACCTCCAT CCGTGCCAGT TCTGTCATGT 
    AAGCTTTCTT CTGAGCAAAA AGATGAAGGT ACATTGATGG AATTGTCTAG CTCTTTACAT 
    AGTGAAACAA CTGAGGAGGA AGAATGTGGA AATAAAATGG CTCTTGGAAG TTCAACATTG 
    GATGGGGAAA TATCTGACTA TAAGAAACTA AACAGTCAAA TTAAGCCTTT GCCACAAGCA 
    ATAGAAAGCT TGGTCATGGA CACGTGTGAT AGCAATCTGT GCAATAATAT TAATTTAAAA 
    GATAGCAGCA AAATAATTTC AGAGGAAGCT ACAGTACCAC ATTGTTTTCA GCCAGAACAG 
    CATGTTGTAT ACAGCCATCC TATGTCTGAC CCTGCAGTTA CTTGTGTGAC TCATGGCACT 
    GGATCTGAAA TGAAAGCATT GGATACACCA AGGAAGGAGT CTAATCCAGT GTGTAAGGAA 
    CTCCGTGAAA GAAATGTAAA TCCAATGAAA GAATTGTATA TATCTCTGAA CAATGCACCA 
    ACTGATTTGT CTAACTCTTT GTGCAGTGAC ACTACTAATG TGGAAGAATC TAGGGATGCC 
    ACAGCAAATG CAAGTTCTTT ATCCAACGGA GAAATATTGC ATTTATATCA CAAAACAAGC 
    AGCCCAGCTC TTGTTGATCC AAAAGCAGAA GCAAATACAG TTTTAGGCTT GTGTGACAGT 
    GTCCTCAGCA AAAACTCTAC AATGGGAAGT AGTGATAGCA TTAATCAGGA GAAAGCTATA 
    GCAACAACTT TTGCACACCC AGGACAGAGT GTGTTGTTCA GCCATGGGGC ATCTACAATT 
    ACAGTCTCCC CTGGTTTATT TCATAGTGCT GTACAGGCAT TAGATGTTTC TGATACACCA 
    GAGTTGGGGT GCAGTCCTGT GTGTAAGGAA CCCACTGTTG TACAAGATAA AAGCGATGGA 
    TCCTTTGATA CTTCTTTGGG CCATTTTGAA AGAGAAAAGC AAAATGAGAG CTTTGAAACA 
    GACAGTTCTG TAATGCTTAC TGATGATCAC ATAAAGGATC CAAAGGATGT AGATGTTGTA 
    TTGTCTTTGC CAGAGGGGAG CTTGGAAGAT TGCTGTCCCA AAAAAAAATC AAACTGCTCA 
    GAGAACATGC ATGTAGCCTT AAAGGGTACC TCCACAAACC CTTCCCTTGA ACTCGGTTCC 
    CACGATGCCC CGTGTGAAAA GAAGCTGCTT CAATGGAGAA ACACCCTCTT CCTCTGCTGG 
    TTGGACTGCA TATTGGCAGC ACTGGTGCAT TCTGCTAGCC TGAATAGCAT TGTGGCACAG 
    CGAAGGGTTG CAGAAAGCTC AATCATTCAC CTTCTTCTGG AGAAATACAA GGAGGCCAAT 
    GCATTAATAA AAAGCACATC CAGACGAGGA CGTCCAAAGA ATTTATCTCA AGCTGAAAAC 
    ATCCTGAATA AAGTGCGAAT GACCATCTTT GATGAAATAA AGCCCTTGTT AAAGTGTGAA 
    TTGGGAGATA AAGAGAGCCC TGTGTTTGCT TTGCCGTTAC TGCTGCAGCT GGTTCCAGAG 
    ATAGAATCCT GTTTTGTGCA CTCAGGTGTA TGGGAGTTTA CATGCAAGCT ATGTGGCTAC 
    CAATACCAAA ATAAGCACCA ACGGACTGTG TCCACATTCA CTAAGATCTT ACCTGAATGG 
    ACACCCCTAA ATGCTATCCA TAAAGCTCCT TGCAACAAAT GCCTGGGTAC AGATCAGATA 
    CGTGCTTTTC GTATTAAAAA GATCCATGAC CTATTCATAC TTCACTTTGT GGAAGGCCTG 
    CCAAGCAATG ATTTAGGCAT GTACTCGTTT CACTTTGAAG GCTGCCTGTA TGAAGTAAAG 
    ACTGTCATCC AGTATAGTGA AGACCATTTC TCATCTTGGA TTGCTAATGA GGATGGCACA 
    TGGCTGGAAT CTGATGACCT GAAAGGGTAT TTCTGCATAA AACAGAACTG TTTTGAGGTT 
    CCTGCTTCAG AAATTCATAT TGTAATATGG GAAAAGAAGA TTACCAACAG CACTGGAGCA 
    CACCATGCAA TGGAACCTGA AACAAAAAAC AAAGCACTTA ATTCTTTATC TACTTCACCT 
    TCATCTTTAT CTCAGACCCT GCACCTGTCT CCTTCAGCTG CTCCGAATGC TGCATCTTCA 
    CCTCTAAGAG ATGCCCCAAA TGCTTCCAGC GTACTCTCTG GAATGGAGGG TTTTCATGAT 
    GACGACATCA TAACGCTCAC TCTCATTGAA ATTCCAATTG ATGCATCGGG TAATGTGATT 
    GAGAACAACT CTGAGGCAGC CCAGCAGCCA AGTCTCATTG CTGAAACACA TTCATCCCCT 
    GTAACCCTCA AAGCAGTTGC TGATGGGCAA TGTGATCAAA ATCTATGTTC TGGTACAATG 
    AAGGAAAGCT CTTTCGCTGG TGGTTCTCTT CCAGTTCCTA ACATTTCCAG CCCTCCTGCC 
    CCTAACATTT CCAGCCCTCC TGCCCCTAAC ATTTCCAGCC CTCCTGCCCC TAACATTTCC 
    AGCCCTCCTG CCTCTAACAT TTCCAGCCCT CCTGCCCCTC ACATTTCCAG CCCTCCTGCC 
    CCTCACATTT CCAGCCCTCC TGCCCCTCAC ATTTCCAGCC CTCCTGCCCC TCACATTTCC 
    AGCCCTCCTG CCCCTCACAT TTCCAGCCCT CCTGCCCCTC ACATTTCCAG CCCTCCTGCC 
    CCTAACAGCG CCAGTCCCCC TGCCCCTAAC AGCGCCAGTA CTCCCCTCCC TAACAGTTCC 
    AGTTCAAAAA AAGCCTTTGT TGGAAGTTGG ATGAAGAGTC TACTAAATAA AAACCCTTTG 
    TTCCTGACAT CTAATGTGCC CTGTGCAAAT AAGAAAACTG TGGCAAAAAC TCCAATCCGA 
    TTTCCCCTGC TGAAGACAAC AGATTTGCAG GCATCTACTA AACAGGCCCA GAGCTTTGAT 
    GGTTTTAAAG CTAAACGTGT CGGTAATTCA TTCAGCTCGG ACAATTGCCT TGGTGTAGGT 
    CCCACGAAGG ATAATTCCAC TGCACCCAAA CCTGCCATCT CTAGCCAAAC GTTCCAGCCA 
    CTGGTTTCAA ATCGACTTAA AAATGGGCGG TTAGGACTCG GTAATACCAA AGACTTGGCA 
    AAAAATGTTT CTCTGTCTAA GGAGGATAAG GTGCTTAGGC TTAGACTGAA AATGCTGAAA 
    AAGTTGAAGG CTAAGAAACA TGAATTGGCC GCCATAGATA TGCTTGGAAA GTCACAGGCT 
    GGTAGTGATC TGGAGCGTAG CAGCACCAGC AGGCGTGAAC AATTACGCGG GTTCTTGCAG 
    GAACTCCAAG AGCAAATCGA TAATGCCGAC ACTGAATCAG TGTGCACTAT GAGCTCTTGC 
    ACGTCGATAT GCAGCAGCCC AGGAGATGCG GAATTCTTTG CGGAATTGTT CTCCCCACCC 
    CCTAGCAACG CCCCGCAGGA GAGCATGGAT GACAGTAATT TTTTAGAGAT GTATGTAGAT 
    GGTTACAACC CCTCCTGTGG CAGTTATGGA ACCAGTAACC CAAGTGGCAA AGAGGTCTCA 
    CAGGACAGTG CTAATATCGG CCAGTCCAAT TTACAGCGTG CTTCCGACAG CCACAATAAC 
    ACTAACGTGG GGGACGTCTT CCATGATATG CTGTCAACCT CCACAATGCA CATGCTGAAC 
    GAGGATTATT TCTCACCTTT TGATGATATG TTTTAA

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

    RefSeq XP_017947223.1
    CDS829..6144
    Translation

    Target ORF information:

    RefSeq Version XM_018091734.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis ubiquitin specific peptidase like 1 (uspl1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_018091734.1

    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
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    ATGTCTCCGT GTTTACCTAA AGAATCTCAT ACAAGTGTAC CTGGCCCTTC AGAGAATGGT 
    CAGGATGAGA GAAGTCAGCA GCAATATGGA ATGTGCAAAG TTTCAGCTTG CAATTCTGCA 
    AGTCCACATG GTGACAGGGC ACCTTCAGTT GAATTTGCTC TGCGGGACTC AAACCAACCT 
    AATCACCCGC AGGAAGCCTT AAATGCATTT CACGAAGAAG CTGTGCAAAA TCAAGTTATG 
    GGAATGACCA TTGCATCAAT TAATGGTCCT TCTCCTTTAA AATGGAATGT ACCTGCTACT 
    AAAGATATGC ACACATTATC ACAGTCGGTG AATGCTGCTA ATGACCCACC AACATGTATA 
    AACCAAAAGA CAGATGCTGG AATAGCTGAG GTTTTAAATG GATTTACAAA GGCTGAAGCC 
    AATATGTGCC ATTCAGTATC TGTCCTTAGT ACTTGTGCAC CTTTAGGCTC ACCTCGTTTA 
    AGGCTTAGTG CTCTAAAGGA GGGACATAAA CAGAGTGATA TACGGAGTGC CTCCTGCAGT 
    AGTGCTTGTC TTGAAAAAGT AGCATCAGAA ACAGCTCTTG CCGCCATGTC TGACAGCAAC 
    ATGAAGAAAG AGGATAGTTT CAACATGGCA TTTGAACTTT TACCGTCGTC TCCTCCATTG 
    CATTCATTTT TTGGGGCTTC ACAAAATGTG CACACATCTG AAGAATCATC CTCTTTGCTT 
    GGAACAGTGG GTCAAACAAA AGAAAATACC ATAAGTGTTA AATCAATTGG ATCCAGCAAT 
    GTTGTTCTTA ATGAAGGAAA GGGGGAAACC TCCCAGTTTA CGATATTGTC CAAATCACAC 
    AGTGAGGTAG AAGATGTTCA GAAAGTGTGT GTACGTTTGC CCTCTTCCCC ACTGCTTGAA 
    ACAGCTTTAC AAATGAAAGC GTATGCCCAC AGTGACAAGC TCAGTGCCTT CAACAATAAT 
    CCATGTCTTG AGAAAGTATT ACCAGAGGCA ACCCCAGTGG TTTTATCAGA AACATATAGG 
    GAGGTACAAG ATTGTTTTGG ATCTTTACCT TCATCTGATT TGCATGAAAA TGAGCCTCCA 
    CTGGAAGAGA GATCCCTGGT TGATAAATCT AATAGCTCCA GAAATTATAC TTGCCTTGAG 
    AAAGTAGTAC CAGAGGCAAC CTTATTGTTA AAAGAGTACT TTTCAGAATC CTGTAGTAAG 
    GTACAAGATG ATGAGAAATG TTTTGGATCT TTACCTTCAT CTGCTTTGCA AAGAAAAAAT 
    CCTCTAATTG AAAAAAACGG ACCGAGTGAC AAATCCAGTG CATCCAGCAA TAATGTTTGC 
    CTTGAGGAAG GAGAACCAGA GGCAGTCCCA TTGTTGGAAG ACTGTAAAAG TCAAACCCTT 
    GTTGTACCTT CCACATGCAG TCAATTGTCC ATAACAGATA AAATAGCAAA CAGTCTTGGA 
    GTACATAATT CCTCAGATTC ATGTCAGCTC ATCAGTGAAA TTCATCATGA TCATCCAAGC 
    GATGGAAATG ATCTCACTGT GTCCCATATT GCCTTCAATG TTGGTGGTGC TGACAAAATC 
    AATAAAGTTA AAAGCCTGCA GGTAACTCCA CTTCCAGAGG TTATATCTAC AGAACTATGT 
    AGGGGCAAGA GCAACAGTCA AAGCACTTGT GAACCTCCAT CCGTGCCAGT TCTGTCATGT 
    AAGCTTTCTT CTGAGCAAAA AGATGAAGGT ACATTGATGG AATTGTCTAG CTCTTTACAT 
    AGTGAAACAA CTGAGGAGGA AGAATGTGGA AATAAAATGG CTCTTGGAAG TTCAACATTG 
    GATGGGGAAA TATCTGACTA TAAGAAACTA AACAGTCAAA TTAAGCCTTT GCCACAAGCA 
    ATAGAAAGCT TGGTCATGGA CACGTGTGAT AGCAATCTGT GCAATAATAT TAATTTAAAA 
    GATAGCAGCA AAATAATTTC AGAGGAAGCT ACAGTACCAC ATTGTTTTCA GCCAGAACAG 
    CATGTTGTAT ACAGCCATCC TATGTCTGAC CCTGCAGTTA CTTGTGTGAC TCATGGCACT 
    GGATCTGAAA TGAAAGCATT GGATACACCA AGGAAGGAGT CTAATCCAGT GTGTAAGGAA 
    CTCCGTGAAA GAAATGTAAA TCCAATGAAA GAATTGTATA TATCTCTGAA CAATGCACCA 
    ACTGATTTGT CTAACTCTTT GTGCAGTGAC ACTACTAATG TGGAAGAATC TAGGGATGCC 
    ACAGCAAATG CAAGTTCTTT ATCCAACGGA GAAATATTGC ATTTATATCA CAAAACAAGC 
    AGCCCAGCTC TTGTTGATCC AAAAGCAGAA GCAAATACAG TTTTAGGCTT GTGTGACAGT 
    GTCCTCAGCA AAAACTCTAC AATGGGAAGT AGTGATAGCA TTAATCAGGA GAAAGCTATA 
    GCAACAACTT TTGCACACCC AGGACAGAGT GTGTTGTTCA GCCATGGGGC ATCTACAATT 
    ACAGTCTCCC CTGGTTTATT TCATAGTGCT GTACAGGCAT TAGATGTTTC TGATACACCA 
    GAGTTGGGGT GCAGTCCTGT GTGTAAGGAA CCCACTGTTG TACAAGATAA AAGCGATGGA 
    TCCTTTGATA CTTCTTTGGG CCATTTTGAA AGAGAAAAGC AAAATGAGAG CTTTGAAACA 
    GACAGTTCTG TAATGCTTAC TGATGATCAC ATAAAGGATC CAAAGGATGT AGATGTTGTA 
    TTGTCTTTGC CAGAGGGGAG CTTGGAAGAT TGCTGTCCCA AAAAAAAATC AAACTGCTCA 
    GAGAACATGC ATGTAGCCTT AAAGGGTACC TCCACAAACC CTTCCCTTGA ACTCGGTTCC 
    CACGATGCCC CGTGTGAAAA GAAGCTGCTT CAATGGAGAA ACACCCTCTT CCTCTGCTGG 
    TTGGACTGCA TATTGGCAGC ACTGGTGCAT TCTGCTAGCC TGAATAGCAT TGTGGCACAG 
    CGAAGGGTTG CAGAAAGCTC AATCATTCAC CTTCTTCTGG AGAAATACAA GGAGGCCAAT 
    GCATTAATAA AAAGCACATC CAGACGAGGA CGTCCAAAGA ATTTATCTCA AGCTGAAAAC 
    ATCCTGAATA AAGTGCGAAT GACCATCTTT GATGAAATAA AGCCCTTGTT AAAGTGTGAA 
    TTGGGAGATA AAGAGAGCCC TGTGTTTGCT TTGCCGTTAC TGCTGCAGCT GGTTCCAGAG 
    ATAGAATCCT GTTTTGTGCA CTCAGGTGTA TGGGAGTTTA CATGCAAGCT ATGTGGCTAC 
    CAATACCAAA ATAAGCACCA ACGGACTGTG TCCACATTCA CTAAGATCTT ACCTGAATGG 
    ACACCCCTAA ATGCTATCCA TAAAGCTCCT TGCAACAAAT GCCTGGGTAC AGATCAGATA 
    CGTGCTTTTC GTATTAAAAA GATCCATGAC CTATTCATAC TTCACTTTGT GGAAGGCCTG 
    CCAAGCAATG ATTTAGGCAT GTACTCGTTT CACTTTGAAG GCTGCCTGTA TGAAGTAAAG 
    ACTGTCATCC AGTATAGTGA AGACCATTTC TCATCTTGGA TTGCTAATGA GGATGGCACA 
    TGGCTGGAAT CTGATGACCT GAAAGGGTAT TTCTGCATAA AACAGAACTG TTTTGAGGTT 
    CCTGCTTCAG AAATTCATAT TGTAATATGG GAAAAGAAGA TTACCAACAG CACTGGAGCA 
    CACCATGCAA TGGAACCTGA AACAAAAAAC AAAGCACTTA ATTCTTTATC TACTTCACCT 
    TCATCTTTAT CTCAGACCCT GCACCTGTCT CCTTCAGCTG CTCCGAATGC TGCATCTTCA 
    CCTCTAAGAG ATGCCCCAAA TGCTTCCAGC GTACTCTCTG GAATGGAGGG TTTTCATGAT 
    GACGACATCA TAACGCTCAC TCTCATTGAA ATTCCAATTG ATGCATCGGG TAATGTGATT 
    GAGAACAACT CTGAGGCAGC CCAGCAGCCA AGTCTCATTG CTGAAACACA TTCATCCCCT 
    GTAACCCTCA AAGCAGTTGC TGATGGGCAA TGTGATCAAA ATCTATGTTC TGGTACAATG 
    AAGGAAAGCT CTTTCGCTGG TGGTTCTCTT CCAGTTCCTA ACATTTCCAG CCCTCCTGCC 
    CCTAACATTT CCAGCCCTCC TGCCCCTAAC ATTTCCAGCC CTCCTGCCCC TAACATTTCC 
    AGCCCTCCTG CCTCTAACAT TTCCAGCCCT CCTGCCCCTC ACATTTCCAG CCCTCCTGCC 
    CCTCACATTT CCAGCCCTCC TGCCCCTCAC ATTTCCAGCC CTCCTGCCCC TCACATTTCC 
    AGCCCTCCTG CCCCTCACAT TTCCAGCCCT CCTGCCCCTC ACATTTCCAG CCCTCCTGCC 
    CCTAACAGCG CCAGTCCCCC TGCCCCTAAC AGCGCCAGTA CTCCCCTCCC TAACAGTTCC 
    AGTTCAAAAA AAGCCTTTGT TGGAAGTTGG ATGAAGAGTC TACTAAATAA AAACCCTTTG 
    TTCCTGACAT CTAATGTGCC CTGTGCAAAT AAGAAAACTG TGGCAAAAAC TCCAATCCGA 
    TTTCCCCTGC TGAAGACAAC AGATTTGCAG GCATCTACTA AACAGGCCCA GAGCTTTGAT 
    GGTTTTAAAG CTAAACGTGT CGGTAATTCA TTCAGCTCGG ACAATTGCCT TGGTGTAGGT 
    CCCACGAAGG ATAATTCCAC TGCACCCAAA CCTGCCATCT CTAGCCAAAC GTTCCAGCCA 
    CTGGTTTCAA ATCGACTTAA AAATGGGCGG TTAGGACTCG GTAATACCAA AGACTTGGCA 
    AAAAATGTTT CTCTGTCTAA GGAGGATAAG GTGCTTAGGC TTAGACTGAA AATGCTGAAA 
    AAGTTGAAGG CTAAGAAACA TGAATTGGCC GCCATAGATA TGCTTGGAAA GTCACAGGCT 
    GGTAGTGATC TGGAGCGTAG CAGCACCAGC AGGCGTGAAC AATTACGCGG GTTCTTGCAG 
    GAACTCCAAG AGCAAATCGA TAATGCCGAC ACTGAATCAG TGTGCACTAT GAGCTCTTGC 
    ACGTCGATAT GCAGCAGCCC AGGAGATGCG GAATTCTTTG CGGAATTGTT CTCCCCACCC 
    CCTAGCAACG CCCCGCAGGA GAGCATGGAT GACAGTAATT TTTTAGAGAT GTATGTAGAT 
    GGTTACAACC CCTCCTGTGG CAGTTATGGA ACCAGTAACC CAAGTGGCAA AGAGGTCTCA 
    CAGGACAGTG CTAATATCGG CCAGTCCAAT TTACAGCGTG CTTCCGACAG CCACAATAAC 
    ACTAACGTGG GGGACGTCTT CCATGATATG CTGTCAACCT CCACAATGCA CATGCTGAAC 
    GAGGATTATT TCTCACCTTT TGATGATATG TTTTAA

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

見積依頼

Eメール

japanmarket@genscript.com

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

オンラインフォーム

オンライン注文