ttc3 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following ttc3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ttc3 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
OXa42624 XM_018091392.1
Latest version!
Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa42625 XM_018091393.1
Latest version!
Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $1021.30
$1459.00
OXa51934 XM_004912114.4
Latest version!
Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa51935 XM_031896550.1
Latest version!
Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OXa06400 XM_004912114.3
Latest version!
Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $1021.30
$1459.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa42624
    Clone ID Related Accession (Same CDS sequence) XM_018091392.1
    Accession Version XM_018091392.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5697bp)
    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 E3 ubiquitin-protein ligase TTC3 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
    ATGGGGGTTC CGGGGCGCTA TTGCTACTTC CCCCTGAGTA GAAGCCGGAT ATGGGCAGGA 
    GGCTTGCCTT GCTCCTTCAG CATCAGTGCC CCCTGGGATT GCGGCTGGGA CCCTTCAGCA
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA TACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGAA GAGAAATCCA ATGGCAACTC TCTCCTTGCA GGGTTTTATC
    CGTGTGATAT GTTGCCTGTC ATGTAAAGTG GAGTTCCATG TTTGCTGCTG GAAGAAGCTG
    AAGGCCAACA ACTATTCCGA TAAAGCTGAC AGGGATTTTC TAACTATCTC TTGTTTTACA
    CCTGACTGTA AAGGCAAAAT CTCTAATATA ATTATTTATG ACTCCACTGG ACTTGTAAAA
    CGTGAGTTTG CAGATAAGTC TGTTAAGAAG AAAGAACCAC AAAGGCCAAC AGTTAAGAAT
    AAAGGAAGTA GCAATAAGAA GTTAAAGATT AAGCCTGAGA GTAAAACACA AGCAAAGAAG
    ACCTCACCTG AAGAGAACAG GAGCTTGATA CACAATGAGA AATCACAGAA GCAGCAAGAA
    AATATCTCCT CTAACCAACG GAATAATATA TGTAATAACC GTTATAGTGT AGCACCTCAT
    GATTTAATGA TGACGCTTAT ATTGAATAAG GAGGAGGTTT TTAAAACAGG AGTGGAGAGC
    ACCAAAGCAT TGTGCAACTC ATTAATCTCA TGGAATGTTA TAAGTCAGGA AGAACTTGAT
    GGTTTTTCCT TTGAAACAAC ATGTAGATCG TCTTCTGATG AAATGGCAGT CCTGCTCGCT
    CATCTGTGCA GCTTAAATAA TAGAGTAAAG ACAAGAATAT TCCTCTACCT GCTGGAAGAT
    TATCCTTTAA CTTTAGAACT GCCTGCATTT ATAAAGATGA TTAGAGATAC GGGTCATCGG
    GCAGCAAAGA AGTTCCAAGA GATAAACAGC AGCCTCCTGA AAGAGCTTAA TTTCGAGTTG
    CTAGCCGGTC GGTGGAACGA AACCTACGGA AAACTTTTAA ACTTCTTCAT GTCTATATCT
    GTGGAAACAG CTGAGAAACT AAGTCAAGCA AATATCCAAA TATTCCGCTG CTTCATATGG
    TTTCTAGACG ACAATAGATA TGTCCCCATG CCTGCCGGGC TGGATAAATA TTTAGATAAA
    TATTTTATAG ATATGGATAT ACCATATTCC AAAAATGATG TGCTCGACTC TGTTAATAAA
    GACCCTATAG AAGCCCCTTG TTGCATCAAT ATACGAATGA AGTCAGATGA AGAGCAGCCT
    ACTAAATGTA TCAAGGTTAA GAACAAACAC AAGAAAAAGA AGCAAAATCA GCCCAAGACT
    TTGTATAAGG TTTCTGGTGC AGTAAGTACC AGGCCTCCAG AAGATGACAT TTTTACAGAA
    GAAAATACTC TAAGCCTGTT GGATCCTTAT GAACCCTTTA TAATCCCAGA ATATTTGCGT
    CCTGATGTGG AAGAATTTGA AACCCTTTAT GATCCCACTC CTGGCGGATA CCGGTTACCA
    TGGCAACCTG ATAATGCCAT GCAAGAAACC CTCTATGAAT ATTTTTCTGA GATCCTGGAA
    GAGCATGGGC CTTTGGAACT GGATGATGAC ATTCTGATTG GGACATTTAA GGAGTTCCCA
    GAGGAGGCAC ACCAGCTGGT ACAGGAGGCC GGCAGCCTAA AGGACTTCCT TCTGCAATCA
    ACTAAGTTTG TCATGGTGGG AAAGCTCCTG GGACTGCGCC CTCACAAAGT TATATTGGAA
    GAAGCATCCG GAAAAGCCAA ACTCAACCCA ACCGCTAAAG AATTCCAGCC TTCATCTAAT
    AATCCTTTTG ATTCAATAAT AAGCGAGACT TTGGAAATAA GTCCTGAATA CAATCCACTT
    GAGCCATCCA ATCCCTTTGT TTTACTGCCC AATCAAAGCC CAGTTTTTAA TGGCAATTGT
    ATAGTCCCTT GTCTTCCGCT GTATGGACTG AATCCTTTGC CTGTAGTTTC TGTAGGGCAC
    CCATTTATAC CTGGTCTCGG CATTGGAATG CAGCCTACGA TAACAGTTAA TAGTGCTGTT
    ATGTGTAATT TAGGCGTGCC GCTTCCTAAT AGAGCAAAGG AGCCAGAGCA GTCAAGTCCA
    ATAATGCATA ACACTTTGAC TGGGAATTTG AATCCCAAAA ATGACACTGC ATCAGAGACC
    ACCATGACCC AGACTGTTCC TTTAAGAAGA AATATTCACA CCGGGGTAGT GTCAGTACAG
    GTAGACAGAG ACTTATCTGA GCAAGAAGTA AATACTGAGC CTTATTATCC TTTTGAAGTG
    CAGCAGGGAG ATATCCTACG GATAGAGAAA GAGCATCTCG TTCTACAGGA GCAGCTAAAA
    GAAGCAACAG AGAAGTATGA GAATCTGCAG GGCCGCTACA AGGAGGAAAT CGCTGGGTTG
    CATAAGCAAA TTAGGGAAAC GGCTGACAAT AATAAGATTA TAAAGAAAGA ACTTGAAATG
    TTTAACCACG AGATGGATAA CGACACCAAA AAATGGCAAC TAGAGAAAAA AGAGTATCAT
    GATAAGCTGA GAGTGGTAAA GAGCGGCATT AAGGCGGCAA ATGAAACTGT CGATAAGTAT
    TCAAGGGAGA TTGAAGAAAA GAAACAACAG TATGAAGCAT ACATAGAGAC ATTCGTACAG
    TCTGGTTTTA ATATTGAAAA TGAAAAGGCA AAGTTGGAAA AGCATATTAA AAGCAACGAG
    GATAAGCTCC AGGAAAGCAA GAAGAGAGCT ATGACTGCTG AGGTCCACTT CCTTGAGAAC
    AAAAAACAGA CTGATTTATT AAAGCTGAGG ATTATGGCTG CAAAGGTGGA ACACAGCGCC
    AACAAGTTAA AAGCCAATGG CTCTGCCACA CCTTTTGCAC AAAAAAGCAT AGCGGATTTA
    TCCCCCTCTT ATCTAAAATC TGAAAGTGAG AAAATAAAGT CCCAGTTTGA TGAGAAGATT
    AAATTAGTGG AAAGTGGATA TAAGTTGGCA AATATACAAG CAAACAATCT GGCAGCTCCA
    TTCAATGCAT CTGCTTTTCA AACACCTCTG CTGCCCCCTT CTCCCACCCC CAAGCTCCCT
    ACAACCAAAC CCAGCACCCC GCTGCCAGCT TCCAGTTCTG CACCTCCAGC TTCCCTCAAG
    TCCCCATTAA AGCCGACTCG CGAAACCAAG AAAAGCAAAT CTAAAGATAT TAATAAGGAT
    CCGAAACCAC CACCTCCTGC AATTAATCCA AAGGCCACGG CATTAGCAGG GAAGGGCCCG
    GGAGCACCCG TCATGGAGAA GAAAGGAAAG CCCAACTTAG AGGCACAACA TCAGTCTCCC
    GGAAAGCCGA CTGCGTTTGA TAAGATTATT GAGGAGCTGC ATGAGATTTT TCCTGACTAC
    AAAAGTGCGG AGCTTACCAA CTTCATCAAG GAGCTGCGCA ATAAGACTGG CGGAACACTG
    GCTGGCATGA AGCACGATGA CATTGTTAGC AGGGTGACTG AGTATATACT GGACTCCCAG
    GATAAGGCCC CCCCACAGGC ACCTTGGGTA CAAGCAAGTG GCAATGTATA TCCTTCAGCA
    GTGAAACCCC AGGCCCCATC GCCCCAGCCC AAACAGCCCT GGAGAGTGGT CACTGGTCCC
    TCCAAGAACA AGTGGCAGAA GTCTGATGAT ACAGAGTGCT ATAATGATGA GCCGTGCATT
    ATCTGCCATG ATGAGCTGCA ACAGTATCCG GTGCAGAAGC TGGACTGTGG GCACTGCTTC
    CATAGACACT GCATAAAGAC CTGGCTGAAC ACACAGAGCA CCTGCCCGAC CTGCAGAGAT
    CACGCTCTCC TTCCTGAGGA CTTCCCGGCC CTTTCTGGGC GCATAAGAAC CACCTAG

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

    RefSeq XP_017946881.1
    CDS133..5829
    Translation

    Target ORF information:

    RefSeq Version XM_018091392.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018091392.1

    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
    ATGGGGGTTC CGGGGCGCTA TTGCTACTTC CCCCTGAGTA GAAGCCGGAT ATGGGCAGGA 
    GGCTTGCCTT GCTCCTTCAG CATCAGTGCC CCCTGGGATT GCGGCTGGGA CCCTTCAGCA
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA TACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGAA GAGAAATCCA ATGGCAACTC TCTCCTTGCA GGGTTTTATC
    CGTGTGATAT GTTGCCTGTC ATGTAAAGTG GAGTTCCATG TTTGCTGCTG GAAGAAGCTG
    AAGGCCAACA ACTATTCCGA TAAAGCTGAC AGGGATTTTC TAACTATCTC TTGTTTTACA
    CCTGACTGTA AAGGCAAAAT CTCTAATATA ATTATTTATG ACTCCACTGG ACTTGTAAAA
    CGTGAGTTTG CAGATAAGTC TGTTAAGAAG AAAGAACCAC AAAGGCCAAC AGTTAAGAAT
    AAAGGAAGTA GCAATAAGAA GTTAAAGATT AAGCCTGAGA GTAAAACACA AGCAAAGAAG
    ACCTCACCTG AAGAGAACAG GAGCTTGATA CACAATGAGA AATCACAGAA GCAGCAAGAA
    AATATCTCCT CTAACCAACG GAATAATATA TGTAATAACC GTTATAGTGT AGCACCTCAT
    GATTTAATGA TGACGCTTAT ATTGAATAAG GAGGAGGTTT TTAAAACAGG AGTGGAGAGC
    ACCAAAGCAT TGTGCAACTC ATTAATCTCA TGGAATGTTA TAAGTCAGGA AGAACTTGAT
    GGTTTTTCCT TTGAAACAAC ATGTAGATCG TCTTCTGATG AAATGGCAGT CCTGCTCGCT
    CATCTGTGCA GCTTAAATAA TAGAGTAAAG ACAAGAATAT TCCTCTACCT GCTGGAAGAT
    TATCCTTTAA CTTTAGAACT GCCTGCATTT ATAAAGATGA TTAGAGATAC GGGTCATCGG
    GCAGCAAAGA AGTTCCAAGA GATAAACAGC AGCCTCCTGA AAGAGCTTAA TTTCGAGTTG
    CTAGCCGGTC GGTGGAACGA AACCTACGGA AAACTTTTAA ACTTCTTCAT GTCTATATCT
    GTGGAAACAG CTGAGAAACT AAGTCAAGCA AATATCCAAA TATTCCGCTG CTTCATATGG
    TTTCTAGACG ACAATAGATA TGTCCCCATG CCTGCCGGGC TGGATAAATA TTTAGATAAA
    TATTTTATAG ATATGGATAT ACCATATTCC AAAAATGATG TGCTCGACTC TGTTAATAAA
    GACCCTATAG AAGCCCCTTG TTGCATCAAT ATACGAATGA AGTCAGATGA AGAGCAGCCT
    ACTAAATGTA TCAAGGTTAA GAACAAACAC AAGAAAAAGA AGCAAAATCA GCCCAAGACT
    TTGTATAAGG TTTCTGGTGC AGTAAGTACC AGGCCTCCAG AAGATGACAT TTTTACAGAA
    GAAAATACTC TAAGCCTGTT GGATCCTTAT GAACCCTTTA TAATCCCAGA ATATTTGCGT
    CCTGATGTGG AAGAATTTGA AACCCTTTAT GATCCCACTC CTGGCGGATA CCGGTTACCA
    TGGCAACCTG ATAATGCCAT GCAAGAAACC CTCTATGAAT ATTTTTCTGA GATCCTGGAA
    GAGCATGGGC CTTTGGAACT GGATGATGAC ATTCTGATTG GGACATTTAA GGAGTTCCCA
    GAGGAGGCAC ACCAGCTGGT ACAGGAGGCC GGCAGCCTAA AGGACTTCCT TCTGCAATCA
    ACTAAGTTTG TCATGGTGGG AAAGCTCCTG GGACTGCGCC CTCACAAAGT TATATTGGAA
    GAAGCATCCG GAAAAGCCAA ACTCAACCCA ACCGCTAAAG AATTCCAGCC TTCATCTAAT
    AATCCTTTTG ATTCAATAAT AAGCGAGACT TTGGAAATAA GTCCTGAATA CAATCCACTT
    GAGCCATCCA ATCCCTTTGT TTTACTGCCC AATCAAAGCC CAGTTTTTAA TGGCAATTGT
    ATAGTCCCTT GTCTTCCGCT GTATGGACTG AATCCTTTGC CTGTAGTTTC TGTAGGGCAC
    CCATTTATAC CTGGTCTCGG CATTGGAATG CAGCCTACGA TAACAGTTAA TAGTGCTGTT
    ATGTGTAATT TAGGCGTGCC GCTTCCTAAT AGAGCAAAGG AGCCAGAGCA GTCAAGTCCA
    ATAATGCATA ACACTTTGAC TGGGAATTTG AATCCCAAAA ATGACACTGC ATCAGAGACC
    ACCATGACCC AGACTGTTCC TTTAAGAAGA AATATTCACA CCGGGGTAGT GTCAGTACAG
    GTAGACAGAG ACTTATCTGA GCAAGAAGTA AATACTGAGC CTTATTATCC TTTTGAAGTG
    CAGCAGGGAG ATATCCTACG GATAGAGAAA GAGCATCTCG TTCTACAGGA GCAGCTAAAA
    GAAGCAACAG AGAAGTATGA GAATCTGCAG GGCCGCTACA AGGAGGAAAT CGCTGGGTTG
    CATAAGCAAA TTAGGGAAAC GGCTGACAAT AATAAGATTA TAAAGAAAGA ACTTGAAATG
    TTTAACCACG AGATGGATAA CGACACCAAA AAATGGCAAC TAGAGAAAAA AGAGTATCAT
    GATAAGCTGA GAGTGGTAAA GAGCGGCATT AAGGCGGCAA ATGAAACTGT CGATAAGTAT
    TCAAGGGAGA TTGAAGAAAA GAAACAACAG TATGAAGCAT ACATAGAGAC ATTCGTACAG
    TCTGGTTTTA ATATTGAAAA TGAAAAGGCA AAGTTGGAAA AGCATATTAA AAGCAACGAG
    GATAAGCTCC AGGAAAGCAA GAAGAGAGCT ATGACTGCTG AGGTCCACTT CCTTGAGAAC
    AAAAAACAGA CTGATTTATT AAAGCTGAGG ATTATGGCTG CAAAGGTGGA ACACAGCGCC
    AACAAGTTAA AAGCCAATGG CTCTGCCACA CCTTTTGCAC AAAAAAGCAT AGCGGATTTA
    TCCCCCTCTT ATCTAAAATC TGAAAGTGAG AAAATAAAGT CCCAGTTTGA TGAGAAGATT
    AAATTAGTGG AAAGTGGATA TAAGTTGGCA AATATACAAG CAAACAATCT GGCAGCTCCA
    TTCAATGCAT CTGCTTTTCA AACACCTCTG CTGCCCCCTT CTCCCACCCC CAAGCTCCCT
    ACAACCAAAC CCAGCACCCC GCTGCCAGCT TCCAGTTCTG CACCTCCAGC TTCCCTCAAG
    TCCCCATTAA AGCCGACTCG CGAAACCAAG AAAAGCAAAT CTAAAGATAT TAATAAGGAT
    CCGAAACCAC CACCTCCTGC AATTAATCCA AAGGCCACGG CATTAGCAGG GAAGGGCCCG
    GGAGCACCCG TCATGGAGAA GAAAGGAAAG CCCAACTTAG AGGCACAACA TCAGTCTCCC
    GGAAAGCCGA CTGCGTTTGA TAAGATTATT GAGGAGCTGC ATGAGATTTT TCCTGACTAC
    AAAAGTGCGG AGCTTACCAA CTTCATCAAG GAGCTGCGCA ATAAGACTGG CGGAACACTG
    GCTGGCATGA AGCACGATGA CATTGTTAGC AGGGTGACTG AGTATATACT GGACTCCCAG
    GATAAGGCCC CCCCACAGGC ACCTTGGGTA CAAGCAAGTG GCAATGTATA TCCTTCAGCA
    GTGAAACCCC AGGCCCCATC GCCCCAGCCC AAACAGCCCT GGAGAGTGGT CACTGGTCCC
    TCCAAGAACA AGTGGCAGAA GTCTGATGAT ACAGAGTGCT ATAATGATGA GCCGTGCATT
    ATCTGCCATG ATGAGCTGCA ACAGTATCCG GTGCAGAAGC TGGACTGTGG GCACTGCTTC
    CATAGACACT GCATAAAGAC CTGGCTGAAC ACACAGAGCA CCTGCCCGAC CTGCAGAGAT
    CACGCTCTCC TTCCTGAGGA CTTCCCGGCC CTTTCTGGGC GCATAAGAAC CACCTAG

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

    CloneID OXa42625
    Clone ID Related Accession (Same CDS sequence) XM_018091393.1
    Accession Version XM_018091393.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5577bp)
    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 E3 ubiquitin-protein ligase TTC3 isoform X3
    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
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT 
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA TACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGAA GAGAAATCCA ATGGCAACTC TCTCCTTGCA GGGTTTTATC
    CGTGTGATAT GTTGCCTGTC ATGTAAAGTG GAGTTCCATG TTTGCTGCTG GAAGAAGCTG
    AAGGCCAACA ACTATTCCGA TAAAGCTGAC AGGGATTTTC TAACTATCTC TTGTTTTACA
    CCTGACTGTA AAGGCAAAAT CTCTAATATA ATTATTTATG ACTCCACTGG ACTTGTAAAA
    CGTGAGTTTG CAGATAAGTC TGTTAAGAAG AAAGAACCAC AAAGGCCAAC AGTTAAGAAT
    AAAGGAAGTA GCAATAAGAA GTTAAAGATT AAGCCTGAGA GTAAAACACA AGCAAAGAAG
    ACCTCACCTG AAGAGAACAG GAGCTTGATA CACAATGAGA AATCACAGAA GCAGCAAGAA
    AATATCTCCT CTAACCAACG GAATAATATA TGTAATAACC GTTATAGTGT AGCACCTCAT
    GATTTAATGA TGACGCTTAT ATTGAATAAG GAGGAGGTTT TTAAAACAGG AGTGGAGAGC
    ACCAAAGCAT TGTGCAACTC ATTAATCTCA TGGAATGTTA TAAGTCAGGA AGAACTTGAT
    GGTTTTTCCT TTGAAACAAC ATGTAGATCG TCTTCTGATG AAATGGCAGT CCTGCTCGCT
    CATCTGTGCA GCTTAAATAA TAGAGTAAAG ACAAGAATAT TCCTCTACCT GCTGGAAGAT
    TATCCTTTAA CTTTAGAACT GCCTGCATTT ATAAAGATGA TTAGAGATAC GGGTCATCGG
    GCAGCAAAGA AGTTCCAAGA GATAAACAGC AGCCTCCTGA AAGAGCTTAA TTTCGAGTTG
    CTAGCCGGTC GGTGGAACGA AACCTACGGA AAACTTTTAA ACTTCTTCAT GTCTATATCT
    GTGGAAACAG CTGAGAAACT AAGTCAAGCA AATATCCAAA TATTCCGCTG CTTCATATGG
    TTTCTAGACG ACAATAGATA TGTCCCCATG CCTGCCGGGC TGGATAAATA TTTAGATAAA
    TATTTTATAG ATATGGATAT ACCATATTCC AAAAATGATG TGCTCGACTC TGTTAATAAA
    GACCCTATAG AAGCCCCTTG TTGCATCAAT ATACGAATGA AGTCAGATGA AGAGCAGCCT
    ACTAAATGTA TCAAGGTTAA GAACAAACAC AAGAAAAAGA AGCAAAATCA GCCCAAGACT
    TTGTATAAGG TTTCTGGTGC AGTAAGTACC AGGCCTCCAG AAGATGACAT TTTTACAGAA
    GAAAATACTC TAAGCCTGTT GGATCCTTAT GAACCCTTTA TAATCCCAGA ATATTTGCGT
    CCTGATGTGG AAGAATTTGA AACCCTTTAT GATCCCACTC CTGGCGGATA CCGGTTACCA
    TGGCAACCTG ATAATGCCAT GCAAGAAACC CTCTATGAAT ATTTTTCTGA GATCCTGGAA
    GAGCATGGGC CTTTGGAACT GGATGATGAC ATTCTGATTG GGACATTTAA GGAGTTCCCA
    GAGGAGGCAC ACCAGCTGGT ACAGGAGGCC GGCAGCCTAA AGGACTTCCT TCTGCAATCA
    ACTAAGTTTG TCATGGTGGG AAAGCTCCTG GGACTGCGCC CTCACAAAGT TATATTGGAA
    GAAGCATCCG GAAAAGCCAA ACTCAACCCA ACCGCTAAAG AATTCCAGCC TTCATCTAAT
    AATCCTTTTG ATTCAATAAT AAGCGAGACT TTGGAAATAA GTCCTGAATA CAATCCACTT
    GAGCCATCCA ATCCCTTTGT TTTACTGCCC AATCAAAGCC CAGTTTTTAA TGGCAATTGT
    ATAGTCCCTT GTCTTCCGCT GTATGGACTG AATCCTTTGC CTGTAGTTTC TGTAGGGCAC
    CCATTTATAC CTGGTCTCGG CATTGGAATG CAGCCTACGA TAACAGTTAA TAGTGCTGTT
    ATGTGTAATT TAGGCGTGCC GCTTCCTAAT AGAGCAAAGG AGCCAGAGCA GTCAAGTCCA
    ATAATGCATA ACACTTTGAC TGGGAATTTG AATCCCAAAA ATGACACTGC ATCAGAGACC
    ACCATGACCC AGACTGTTCC TTTAAGAAGA AATATTCACA CCGGGGTAGT GTCAGTACAG
    GTAGACAGAG ACTTATCTGA GCAAGAAGTA AATACTGAGC CTTATTATCC TTTTGAAGTG
    CAGCAGGGAG ATATCCTACG GATAGAGAAA GAGCATCTCG TTCTACAGGA GCAGCTAAAA
    GAAGCAACAG AGAAGTATGA GAATCTGCAG GGCCGCTACA AGGAGGAAAT CGCTGGGTTG
    CATAAGCAAA TTAGGGAAAC GGCTGACAAT AATAAGATTA TAAAGAAAGA ACTTGAAATG
    TTTAACCACG AGATGGATAA CGACACCAAA AAATGGCAAC TAGAGAAAAA AGAGTATCAT
    GATAAGCTGA GAGTGGTAAA GAGCGGCATT AAGGCGGCAA ATGAAACTGT CGATAAGTAT
    TCAAGGGAGA TTGAAGAAAA GAAACAACAG TATGAAGCAT ACATAGAGAC ATTCGTACAG
    TCTGGTTTTA ATATTGAAAA TGAAAAGGCA AAGTTGGAAA AGCATATTAA AAGCAACGAG
    GATAAGCTCC AGGAAAGCAA GAAGAGAGCT ATGACTGCTG AGGTCCACTT CCTTGAGAAC
    AAAAAACAGA CTGATTTATT AAAGCTGAGG ATTATGGCTG CAAAGGTGGA ACACAGCGCC
    AACAAGTTAA AAGCCAATGG CTCTGCCACA CCTTTTGCAC AAAAAAGCAT AGCGGATTTA
    TCCCCCTCTT ATCTAAAATC TGAAAGTGAG AAAATAAAGT CCCAGTTTGA TGAGAAGATT
    AAATTAGTGG AAAGTGGATA TAAGTTGGCA AATATACAAG CAAACAATCT GGCAGCTCCA
    TTCAATGCAT CTGCTTTTCA AACACCTCTG CTGCCCCCTT CTCCCACCCC CAAGCTCCCT
    ACAACCAAAC CCAGCACCCC GCTGCCAGCT TCCAGTTCTG CACCTCCAGC TTCCCTCAAG
    TCCCCATTAA AGCCGACTCG CGAAACCAAG AAAAGCAAAT CTAAAGATAT TAATAAGGAT
    CCGAAACCAC CACCTCCTGC AATTAATCCA AAGGCCACGG CATTAGCAGG GAAGGGCCCG
    GGAGCACCCG TCATGGAGAA GAAAGGAAAG CCCAACTTAG AGGCACAACA TCAGTCTCCC
    GGAAAGCCGA CTGCGTTTGA TAAGATTATT GAGGAGCTGC ATGAGATTTT TCCTGACTAC
    AAAAGTGCGG AGCTTACCAA CTTCATCAAG GAGCTGCGCA ATAAGACTGG CGGAACACTG
    GCTGGCATGA AGCACGATGA CATTGTTAGC AGGGTGACTG AGTATATACT GGACTCCCAG
    GATAAGGCCC CCCCACAGGC ACCTTGGGTA CAAGCAAGTG GCAATGTATA TCCTTCAGCA
    GTGAAACCCC AGGCCCCATC GCCCCAGCCC AAACAGCCCT GGAGAGTGGT CACTGGTCCC
    TCCAAGAACA AGTGGCAGAA GTCTGATGAT ACAGAGTGCT ATAATGATGA GCCGTGCATT
    ATCTGCCATG ATGAGCTGCA ACAGTATCCG GTGCAGAAGC TGGACTGTGG GCACTGCTTC
    CATAGACACT GCATAAAGAC CTGGCTGAAC ACACAGAGCA CCTGCCCGAC CTGCAGAGAT
    CACGCTCTCC TTCCTGAGGA CTTCCCGGCC CTTTCTGGGC GCATAAGAAC CACCTAG

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

    RefSeq XP_017946882.1
    CDS146..5722
    Translation

    Target ORF information:

    RefSeq Version XM_018091393.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_018091393.1

    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
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT 
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA TACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGAA GAGAAATCCA ATGGCAACTC TCTCCTTGCA GGGTTTTATC
    CGTGTGATAT GTTGCCTGTC ATGTAAAGTG GAGTTCCATG TTTGCTGCTG GAAGAAGCTG
    AAGGCCAACA ACTATTCCGA TAAAGCTGAC AGGGATTTTC TAACTATCTC TTGTTTTACA
    CCTGACTGTA AAGGCAAAAT CTCTAATATA ATTATTTATG ACTCCACTGG ACTTGTAAAA
    CGTGAGTTTG CAGATAAGTC TGTTAAGAAG AAAGAACCAC AAAGGCCAAC AGTTAAGAAT
    AAAGGAAGTA GCAATAAGAA GTTAAAGATT AAGCCTGAGA GTAAAACACA AGCAAAGAAG
    ACCTCACCTG AAGAGAACAG GAGCTTGATA CACAATGAGA AATCACAGAA GCAGCAAGAA
    AATATCTCCT CTAACCAACG GAATAATATA TGTAATAACC GTTATAGTGT AGCACCTCAT
    GATTTAATGA TGACGCTTAT ATTGAATAAG GAGGAGGTTT TTAAAACAGG AGTGGAGAGC
    ACCAAAGCAT TGTGCAACTC ATTAATCTCA TGGAATGTTA TAAGTCAGGA AGAACTTGAT
    GGTTTTTCCT TTGAAACAAC ATGTAGATCG TCTTCTGATG AAATGGCAGT CCTGCTCGCT
    CATCTGTGCA GCTTAAATAA TAGAGTAAAG ACAAGAATAT TCCTCTACCT GCTGGAAGAT
    TATCCTTTAA CTTTAGAACT GCCTGCATTT ATAAAGATGA TTAGAGATAC GGGTCATCGG
    GCAGCAAAGA AGTTCCAAGA GATAAACAGC AGCCTCCTGA AAGAGCTTAA TTTCGAGTTG
    CTAGCCGGTC GGTGGAACGA AACCTACGGA AAACTTTTAA ACTTCTTCAT GTCTATATCT
    GTGGAAACAG CTGAGAAACT AAGTCAAGCA AATATCCAAA TATTCCGCTG CTTCATATGG
    TTTCTAGACG ACAATAGATA TGTCCCCATG CCTGCCGGGC TGGATAAATA TTTAGATAAA
    TATTTTATAG ATATGGATAT ACCATATTCC AAAAATGATG TGCTCGACTC TGTTAATAAA
    GACCCTATAG AAGCCCCTTG TTGCATCAAT ATACGAATGA AGTCAGATGA AGAGCAGCCT
    ACTAAATGTA TCAAGGTTAA GAACAAACAC AAGAAAAAGA AGCAAAATCA GCCCAAGACT
    TTGTATAAGG TTTCTGGTGC AGTAAGTACC AGGCCTCCAG AAGATGACAT TTTTACAGAA
    GAAAATACTC TAAGCCTGTT GGATCCTTAT GAACCCTTTA TAATCCCAGA ATATTTGCGT
    CCTGATGTGG AAGAATTTGA AACCCTTTAT GATCCCACTC CTGGCGGATA CCGGTTACCA
    TGGCAACCTG ATAATGCCAT GCAAGAAACC CTCTATGAAT ATTTTTCTGA GATCCTGGAA
    GAGCATGGGC CTTTGGAACT GGATGATGAC ATTCTGATTG GGACATTTAA GGAGTTCCCA
    GAGGAGGCAC ACCAGCTGGT ACAGGAGGCC GGCAGCCTAA AGGACTTCCT TCTGCAATCA
    ACTAAGTTTG TCATGGTGGG AAAGCTCCTG GGACTGCGCC CTCACAAAGT TATATTGGAA
    GAAGCATCCG GAAAAGCCAA ACTCAACCCA ACCGCTAAAG AATTCCAGCC TTCATCTAAT
    AATCCTTTTG ATTCAATAAT AAGCGAGACT TTGGAAATAA GTCCTGAATA CAATCCACTT
    GAGCCATCCA ATCCCTTTGT TTTACTGCCC AATCAAAGCC CAGTTTTTAA TGGCAATTGT
    ATAGTCCCTT GTCTTCCGCT GTATGGACTG AATCCTTTGC CTGTAGTTTC TGTAGGGCAC
    CCATTTATAC CTGGTCTCGG CATTGGAATG CAGCCTACGA TAACAGTTAA TAGTGCTGTT
    ATGTGTAATT TAGGCGTGCC GCTTCCTAAT AGAGCAAAGG AGCCAGAGCA GTCAAGTCCA
    ATAATGCATA ACACTTTGAC TGGGAATTTG AATCCCAAAA ATGACACTGC ATCAGAGACC
    ACCATGACCC AGACTGTTCC TTTAAGAAGA AATATTCACA CCGGGGTAGT GTCAGTACAG
    GTAGACAGAG ACTTATCTGA GCAAGAAGTA AATACTGAGC CTTATTATCC TTTTGAAGTG
    CAGCAGGGAG ATATCCTACG GATAGAGAAA GAGCATCTCG TTCTACAGGA GCAGCTAAAA
    GAAGCAACAG AGAAGTATGA GAATCTGCAG GGCCGCTACA AGGAGGAAAT CGCTGGGTTG
    CATAAGCAAA TTAGGGAAAC GGCTGACAAT AATAAGATTA TAAAGAAAGA ACTTGAAATG
    TTTAACCACG AGATGGATAA CGACACCAAA AAATGGCAAC TAGAGAAAAA AGAGTATCAT
    GATAAGCTGA GAGTGGTAAA GAGCGGCATT AAGGCGGCAA ATGAAACTGT CGATAAGTAT
    TCAAGGGAGA TTGAAGAAAA GAAACAACAG TATGAAGCAT ACATAGAGAC ATTCGTACAG
    TCTGGTTTTA ATATTGAAAA TGAAAAGGCA AAGTTGGAAA AGCATATTAA AAGCAACGAG
    GATAAGCTCC AGGAAAGCAA GAAGAGAGCT ATGACTGCTG AGGTCCACTT CCTTGAGAAC
    AAAAAACAGA CTGATTTATT AAAGCTGAGG ATTATGGCTG CAAAGGTGGA ACACAGCGCC
    AACAAGTTAA AAGCCAATGG CTCTGCCACA CCTTTTGCAC AAAAAAGCAT AGCGGATTTA
    TCCCCCTCTT ATCTAAAATC TGAAAGTGAG AAAATAAAGT CCCAGTTTGA TGAGAAGATT
    AAATTAGTGG AAAGTGGATA TAAGTTGGCA AATATACAAG CAAACAATCT GGCAGCTCCA
    TTCAATGCAT CTGCTTTTCA AACACCTCTG CTGCCCCCTT CTCCCACCCC CAAGCTCCCT
    ACAACCAAAC CCAGCACCCC GCTGCCAGCT TCCAGTTCTG CACCTCCAGC TTCCCTCAAG
    TCCCCATTAA AGCCGACTCG CGAAACCAAG AAAAGCAAAT CTAAAGATAT TAATAAGGAT
    CCGAAACCAC CACCTCCTGC AATTAATCCA AAGGCCACGG CATTAGCAGG GAAGGGCCCG
    GGAGCACCCG TCATGGAGAA GAAAGGAAAG CCCAACTTAG AGGCACAACA TCAGTCTCCC
    GGAAAGCCGA CTGCGTTTGA TAAGATTATT GAGGAGCTGC ATGAGATTTT TCCTGACTAC
    AAAAGTGCGG AGCTTACCAA CTTCATCAAG GAGCTGCGCA ATAAGACTGG CGGAACACTG
    GCTGGCATGA AGCACGATGA CATTGTTAGC AGGGTGACTG AGTATATACT GGACTCCCAG
    GATAAGGCCC CCCCACAGGC ACCTTGGGTA CAAGCAAGTG GCAATGTATA TCCTTCAGCA
    GTGAAACCCC AGGCCCCATC GCCCCAGCCC AAACAGCCCT GGAGAGTGGT CACTGGTCCC
    TCCAAGAACA AGTGGCAGAA GTCTGATGAT ACAGAGTGCT ATAATGATGA GCCGTGCATT
    ATCTGCCATG ATGAGCTGCA ACAGTATCCG GTGCAGAAGC TGGACTGTGG GCACTGCTTC
    CATAGACACT GCATAAAGAC CTGGCTGAAC ACACAGAGCA CCTGCCCGAC CTGCAGAGAT
    CACGCTCTCC TTCCTGAGGA CTTCCCGGCC CTTTCTGGGC GCATAAGAAC CACCTAG

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

    CloneID OXa51934
    Clone ID Related Accession (Same CDS sequence) XM_004912114.4
    Accession Version XM_004912114.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5664bp)
    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 E3 ubiquitin-protein ligase TTC3 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_004912114.3. ##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
    ATGGGGGTTC CGGGGCGCTA TTGCTACTTC CCCCTGAGTA GAAGCCGGAT ATGGGCAGGA 
    GGCTTGCCTT GCTCCTTCAG CATCAGTGCC CCCTGGGATT GCGGCTGGGA CCCTTCAGCA
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA AACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGGG TTTTATCCGT GTGATATGTT GCCTGTCATG TAAAGTGGAG
    TTCCATGTTT GCTGCTGGAA GAAGCTGAAG GCCAACAACT ATTCCGATAA AGCTGACAGG
    GATTTTCTAA CTATCTCTTG TTTTACACCT GACTGTAAAG GCAAAATCTC TAATATAATT
    ATTTATGACT CCACTGGACT TGTAAAACGT GAGTTTGCAG ATAAGTCTGT TAAGAAGAAA
    GAACCACAAA GGCCAACAGT TAAGAATAAA GGAAGTAGCA ATAAGAAGTT AAAGATTAAG
    CCTGAGAGTA AAACACAAGC AAAGAAGACC TCACCTGAAG AGAACAGGAG CTTGATACAC
    AATGAGAAAT CACAGAAGCA GCAAGAAAAT ATCTCCTCTA ACCAACGGAA TAATATATGT
    AATAACCGTT ATAGTGTAGC ACCTCATGAT TTAATGATGA CGCTTATATT GAATAAGGAG
    GAGGTTTTTA AAACAGGAGT GGAGAGCACC AAAGCATTGT GCAACTCATT AATCTCATGG
    AATGTTATAA GTCAGGAAGA ACTTGATGGT TTTTCCTTTG AAACAACATG TAGATCGTCT
    TCTGATGAAA TGGCAGTCCT GCTCGCTCAT CTGTGCAGCT TAAATAATAG AGTAAAGACA
    AGAATATTCC TCTACCTGCT GGAAGATTAT CCTTTAACTT TAGAACTGCC TGCATTTATA
    AAGATGATTA GAGATACGGG TCATCGGGCA GCAAAGAAGT TCCAAGAGAT AAACAGCAGC
    CTCCTGAAAG AGCTTAATTT CGAGTTGCTA GCCGGTCGGT GGAACGAAAC CTACGGAAAA
    CTTTTAAACT TCTTCATGTC TATATCTGTG GAAACAGCTG AGAAACTAAG TCAAGCAAAT
    ATCCAAATAT TCCGCTGCTT CATATGGTTT CTAGACGACA ATAGATATGT CCCCATGCCT
    GCCGGGCTGG ATAAATATTT AGATAAATAT TTTATAGATA TGGATATACC ATATTCCAAA
    AATGATGTGC TCGACTCTGT TAATAAAGAC CCTATAGAAG CCCCTTGTTG CATCAATATA
    CGAATGAAGT CAGATGAAGA GCAGCCTACT AAATGTATCA AGGTTAAGAA CAAACACAAG
    AAAAAGAAGC AAAATCAGCC CAAGACTTTG TATAAGGTTT CTGGTGCAGT AAGTACCAGG
    CCTCCAGAAG ATGACATTTT TACAGAAGAA AATACTCTAA GCCTGTTGGA TCCTTATGAA
    CCCTTTATAA TCCCAGAATA TTTGCGTCCT GATGTGGAAG AATTTGAAAC CCTTTATGAT
    CCCACTCCTG GCGGATACCG GTTACCATGG CAACCTGATA ATGCCATGCA AGAAACCCTC
    TATGAATATT TTTCTGAGAT CCTGGAAGAG CATGGGCCTT TGGAACTGGA TGATGACATT
    CTGATTGGGA CATTTAAGGA GTTCCCAGAG GAGGCACACC AGCTGGTACA GGAGGCCGGC
    AGCCTAAAGG ACTTCCTTCT GCAATCAACT AAGTTTGTCA TGGTGGGAAA GCTCCTGGGA
    CTGCGCCCTC ACAAAGTTAT ATTGGAAGAA GCATCCGGAA AAGCCAAACT CAACCCAACC
    GCTAAAGAAT TCCAGCCTTC ATCTAATAAT CCTTTTGATT CAATAATAAG CGAGACTTTG
    GAAATAAGTC CTGAATACAA TCCACTTGAG CCATCCAATC CCTTTGTTTT ACTGCCCAAT
    CAAAGCCCAG TTTTTAATGG CAATTGTATA GTCCCTTGTC TTCCGCTGTA TGGACTGAAT
    CCTTTGCCTG TAGTTTCTGT AGGGCACCCA TTTATACCTG GTCTCGGCAT TGGAATGCAG
    CCTACGATAA CAGTTAATAG TGCTGTTATG TGTAATTTAG GCGTGCCGCT TCCTAATAGA
    GCAAAGGAGC CAGAGCAGTC AAGTCCAATA ATGCATAACA CTTTGACTGG GAATTTGAAT
    CCCAAAAATG ACACTGCATC AGAGACCACC ATGACCCAGA CTGTTCCTTT AAGAAGAAAT
    ATTCACACCG GGGTAGTGTC AGTACAGGTA GACAGAGACT TATCTGAGCA AGAAGTAAAT
    ACTGAGCCTT ATTATCCTTT TGAAGTGCAG CAGGGAGATA TCCTACGGAT AGAGAAAGAG
    CATCTCGTTC TACAGGAGCA GCTAAAAGAA GCAACAGAGA AGTATGAGAA TCTGCAGGGC
    CGCTACAAGG AGGAAATCGC TGGGTTGCAT AAGCAAATTA GGGAAACGGC TGACAATAAT
    AAGATTATAA AGAAAGAACT TGAAATGTTT AACCACGAGA TGGATAACGA CACCAAAAAA
    TGGCAACTAG AGAAAAAAGA GTATCATGAT AAGCTGAGAG TGGTAAAGAG CGGCATTAAG
    GCGGCAAATG AAACTGTCGA TAAGTATTCA AGGGAGATTG AAGAAAAGAA ACAACAGTAT
    GAAGCATACA TAGAGACATT CGTACAGTCT GGTTTTAATA TTGAAAATGA AAAGGCAAAG
    TTGGAAAAGC ATATTAAAAG CAACGAGGAT AAGCTCCAGG AAAGCAAGAA GAGAGCTATG
    ACTGCTGAGG TCCACTTCCT TGAGAACAAA AAACAGACTG ATTTATTAAA GCTGAGGATT
    ATGGCTGCAA AGGTGGAACA CAGCGCCAAC AAGTTAAAAG CCAATGGCTC TGCCACACCT
    TTTGCACAAA AAAGCATAGC GGATTTATCC CCCTCTTATC TAAAATCTGA AAGTGAGAAA
    ATAAAGTCCC AGTTTGATGA GAAGATTAAA TTAGTGGAAA GTGGATATAA GTTGGCAAAT
    ATACAAGCAA ACAATCTGGC AGCTCCATTC AATGCATCTG CTTTTCAAAC ACCTCTGCTG
    CCCCCTTCTC CCACCCCCAA GCTCCCTACA ACCAAACCCA GCACCCCGCT GCCAGCTTCC
    AGTTCTGCAC CTCCAGCTTC CCTCAAGTCC CCATTAAAGC CGACTCGCGA AACCAAGAAA
    AGCAAATCTA AAGATATTAA TAAGGATCCG AAACCACCAC CTCCTGCAAT TAATCCAAAG
    GCCACGGCAT TAGCAGGGAA GGGCCCGGGA GCACCCGTCA TGGAGAAGAA AGGAAAGCCC
    AACTTAGAGG CACAACATCA GTCTCCCGGA AAGCCGACTG CGTTTGATAA GATTATTGAG
    GAGCTGCATG AGATTTTTCC TGACTACAAA AGTGCGGAGC TTACCAACTT CATCAAGGAG
    CTGCGCAATA AGACTGGCGG AACACTGGCT GGCATGAAGC ACGATGACAT TGTTAGCAGG
    GTGACTGAGT ATATACTGGA CTCCCAGGAT AAGGCCCCCC CACAGGCACC TTGGGTACAA
    GCAAGTGGCA ATGTATATCC TTCAGCAGTG AAACCCCAGG CCCCATCGCC CCAGCCCAAA
    CAGCCCTGGA GAGTGGTCAC TGGTCCCTCC AAGAACAAGT GGCAGAAGTC TGATGATACA
    GAGTGCTATA ATGATGAGCC GTGCATTATC TGCCATGATG AGCTGCAACA GTATCCGGTG
    CAGAAGCTGG ACTGTGGGCA CTGCTTCCAT AGACACTGCA TAAAGACCTG GCTGAACACA
    CAGAGCACCT GCCCGACCTG CAGAGATCAC GCTCTCCTTC CTGAGGACTT CCCGGCCCTT
    TCTGGGCGCA TAAGAACCAC CTAG

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

    RefSeq XP_004912171.2
    CDS91..5754
    Translation

    Target ORF information:

    RefSeq Version XM_004912114.4
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004912114.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    ATGGGGGTTC CGGGGCGCTA TTGCTACTTC CCCCTGAGTA GAAGCCGGAT ATGGGCAGGA 
    GGCTTGCCTT GCTCCTTCAG CATCAGTGCC CCCTGGGATT GCGGCTGGGA CCCTTCAGCA
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA AACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGGG TTTTATCCGT GTGATATGTT GCCTGTCATG TAAAGTGGAG
    TTCCATGTTT GCTGCTGGAA GAAGCTGAAG GCCAACAACT ATTCCGATAA AGCTGACAGG
    GATTTTCTAA CTATCTCTTG TTTTACACCT GACTGTAAAG GCAAAATCTC TAATATAATT
    ATTTATGACT CCACTGGACT TGTAAAACGT GAGTTTGCAG ATAAGTCTGT TAAGAAGAAA
    GAACCACAAA GGCCAACAGT TAAGAATAAA GGAAGTAGCA ATAAGAAGTT AAAGATTAAG
    CCTGAGAGTA AAACACAAGC AAAGAAGACC TCACCTGAAG AGAACAGGAG CTTGATACAC
    AATGAGAAAT CACAGAAGCA GCAAGAAAAT ATCTCCTCTA ACCAACGGAA TAATATATGT
    AATAACCGTT ATAGTGTAGC ACCTCATGAT TTAATGATGA CGCTTATATT GAATAAGGAG
    GAGGTTTTTA AAACAGGAGT GGAGAGCACC AAAGCATTGT GCAACTCATT AATCTCATGG
    AATGTTATAA GTCAGGAAGA ACTTGATGGT TTTTCCTTTG AAACAACATG TAGATCGTCT
    TCTGATGAAA TGGCAGTCCT GCTCGCTCAT CTGTGCAGCT TAAATAATAG AGTAAAGACA
    AGAATATTCC TCTACCTGCT GGAAGATTAT CCTTTAACTT TAGAACTGCC TGCATTTATA
    AAGATGATTA GAGATACGGG TCATCGGGCA GCAAAGAAGT TCCAAGAGAT AAACAGCAGC
    CTCCTGAAAG AGCTTAATTT CGAGTTGCTA GCCGGTCGGT GGAACGAAAC CTACGGAAAA
    CTTTTAAACT TCTTCATGTC TATATCTGTG GAAACAGCTG AGAAACTAAG TCAAGCAAAT
    ATCCAAATAT TCCGCTGCTT CATATGGTTT CTAGACGACA ATAGATATGT CCCCATGCCT
    GCCGGGCTGG ATAAATATTT AGATAAATAT TTTATAGATA TGGATATACC ATATTCCAAA
    AATGATGTGC TCGACTCTGT TAATAAAGAC CCTATAGAAG CCCCTTGTTG CATCAATATA
    CGAATGAAGT CAGATGAAGA GCAGCCTACT AAATGTATCA AGGTTAAGAA CAAACACAAG
    AAAAAGAAGC AAAATCAGCC CAAGACTTTG TATAAGGTTT CTGGTGCAGT AAGTACCAGG
    CCTCCAGAAG ATGACATTTT TACAGAAGAA AATACTCTAA GCCTGTTGGA TCCTTATGAA
    CCCTTTATAA TCCCAGAATA TTTGCGTCCT GATGTGGAAG AATTTGAAAC CCTTTATGAT
    CCCACTCCTG GCGGATACCG GTTACCATGG CAACCTGATA ATGCCATGCA AGAAACCCTC
    TATGAATATT TTTCTGAGAT CCTGGAAGAG CATGGGCCTT TGGAACTGGA TGATGACATT
    CTGATTGGGA CATTTAAGGA GTTCCCAGAG GAGGCACACC AGCTGGTACA GGAGGCCGGC
    AGCCTAAAGG ACTTCCTTCT GCAATCAACT AAGTTTGTCA TGGTGGGAAA GCTCCTGGGA
    CTGCGCCCTC ACAAAGTTAT ATTGGAAGAA GCATCCGGAA AAGCCAAACT CAACCCAACC
    GCTAAAGAAT TCCAGCCTTC ATCTAATAAT CCTTTTGATT CAATAATAAG CGAGACTTTG
    GAAATAAGTC CTGAATACAA TCCACTTGAG CCATCCAATC CCTTTGTTTT ACTGCCCAAT
    CAAAGCCCAG TTTTTAATGG CAATTGTATA GTCCCTTGTC TTCCGCTGTA TGGACTGAAT
    CCTTTGCCTG TAGTTTCTGT AGGGCACCCA TTTATACCTG GTCTCGGCAT TGGAATGCAG
    CCTACGATAA CAGTTAATAG TGCTGTTATG TGTAATTTAG GCGTGCCGCT TCCTAATAGA
    GCAAAGGAGC CAGAGCAGTC AAGTCCAATA ATGCATAACA CTTTGACTGG GAATTTGAAT
    CCCAAAAATG ACACTGCATC AGAGACCACC ATGACCCAGA CTGTTCCTTT AAGAAGAAAT
    ATTCACACCG GGGTAGTGTC AGTACAGGTA GACAGAGACT TATCTGAGCA AGAAGTAAAT
    ACTGAGCCTT ATTATCCTTT TGAAGTGCAG CAGGGAGATA TCCTACGGAT AGAGAAAGAG
    CATCTCGTTC TACAGGAGCA GCTAAAAGAA GCAACAGAGA AGTATGAGAA TCTGCAGGGC
    CGCTACAAGG AGGAAATCGC TGGGTTGCAT AAGCAAATTA GGGAAACGGC TGACAATAAT
    AAGATTATAA AGAAAGAACT TGAAATGTTT AACCACGAGA TGGATAACGA CACCAAAAAA
    TGGCAACTAG AGAAAAAAGA GTATCATGAT AAGCTGAGAG TGGTAAAGAG CGGCATTAAG
    GCGGCAAATG AAACTGTCGA TAAGTATTCA AGGGAGATTG AAGAAAAGAA ACAACAGTAT
    GAAGCATACA TAGAGACATT CGTACAGTCT GGTTTTAATA TTGAAAATGA AAAGGCAAAG
    TTGGAAAAGC ATATTAAAAG CAACGAGGAT AAGCTCCAGG AAAGCAAGAA GAGAGCTATG
    ACTGCTGAGG TCCACTTCCT TGAGAACAAA AAACAGACTG ATTTATTAAA GCTGAGGATT
    ATGGCTGCAA AGGTGGAACA CAGCGCCAAC AAGTTAAAAG CCAATGGCTC TGCCACACCT
    TTTGCACAAA AAAGCATAGC GGATTTATCC CCCTCTTATC TAAAATCTGA AAGTGAGAAA
    ATAAAGTCCC AGTTTGATGA GAAGATTAAA TTAGTGGAAA GTGGATATAA GTTGGCAAAT
    ATACAAGCAA ACAATCTGGC AGCTCCATTC AATGCATCTG CTTTTCAAAC ACCTCTGCTG
    CCCCCTTCTC CCACCCCCAA GCTCCCTACA ACCAAACCCA GCACCCCGCT GCCAGCTTCC
    AGTTCTGCAC CTCCAGCTTC CCTCAAGTCC CCATTAAAGC CGACTCGCGA AACCAAGAAA
    AGCAAATCTA AAGATATTAA TAAGGATCCG AAACCACCAC CTCCTGCAAT TAATCCAAAG
    GCCACGGCAT TAGCAGGGAA GGGCCCGGGA GCACCCGTCA TGGAGAAGAA AGGAAAGCCC
    AACTTAGAGG CACAACATCA GTCTCCCGGA AAGCCGACTG CGTTTGATAA GATTATTGAG
    GAGCTGCATG AGATTTTTCC TGACTACAAA AGTGCGGAGC TTACCAACTT CATCAAGGAG
    CTGCGCAATA AGACTGGCGG AACACTGGCT GGCATGAAGC ACGATGACAT TGTTAGCAGG
    GTGACTGAGT ATATACTGGA CTCCCAGGAT AAGGCCCCCC CACAGGCACC TTGGGTACAA
    GCAAGTGGCA ATGTATATCC TTCAGCAGTG AAACCCCAGG CCCCATCGCC CCAGCCCAAA
    CAGCCCTGGA GAGTGGTCAC TGGTCCCTCC AAGAACAAGT GGCAGAAGTC TGATGATACA
    GAGTGCTATA ATGATGAGCC GTGCATTATC TGCCATGATG AGCTGCAACA GTATCCGGTG
    CAGAAGCTGG ACTGTGGGCA CTGCTTCCAT AGACACTGCA TAAAGACCTG GCTGAACACA
    CAGAGCACCT GCCCGACCTG CAGAGATCAC GCTCTCCTTC CTGAGGACTT CCCGGCCCTT
    TCTGGGCGCA TAAGAACCAC CTAG

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

    CloneID OXa51935
    Clone ID Related Accession (Same CDS sequence) XM_031896550.1
    Accession Version XM_031896550.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5544bp)
    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 E3 ubiquitin-protein ligase TTC3 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 ##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
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT 
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA AACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGGG TTTTATCCGT GTGATATGTT GCCTGTCATG TAAAGTGGAG
    TTCCATGTTT GCTGCTGGAA GAAGCTGAAG GCCAACAACT ATTCCGATAA AGCTGACAGG
    GATTTTCTAA CTATCTCTTG TTTTACACCT GACTGTAAAG GCAAAATCTC TAATATAATT
    ATTTATGACT CCACTGGACT TGTAAAACGT GAGTTTGCAG ATAAGTCTGT TAAGAAGAAA
    GAACCACAAA GGCCAACAGT TAAGAATAAA GGAAGTAGCA ATAAGAAGTT AAAGATTAAG
    CCTGAGAGTA AAACACAAGC AAAGAAGACC TCACCTGAAG AGAACAGGAG CTTGATACAC
    AATGAGAAAT CACAGAAGCA GCAAGAAAAT ATCTCCTCTA ACCAACGGAA TAATATATGT
    AATAACCGTT ATAGTGTAGC ACCTCATGAT TTAATGATGA CGCTTATATT GAATAAGGAG
    GAGGTTTTTA AAACAGGAGT GGAGAGCACC AAAGCATTGT GCAACTCATT AATCTCATGG
    AATGTTATAA GTCAGGAAGA ACTTGATGGT TTTTCCTTTG AAACAACATG TAGATCGTCT
    TCTGATGAAA TGGCAGTCCT GCTCGCTCAT CTGTGCAGCT TAAATAATAG AGTAAAGACA
    AGAATATTCC TCTACCTGCT GGAAGATTAT CCTTTAACTT TAGAACTGCC TGCATTTATA
    AAGATGATTA GAGATACGGG TCATCGGGCA GCAAAGAAGT TCCAAGAGAT AAACAGCAGC
    CTCCTGAAAG AGCTTAATTT CGAGTTGCTA GCCGGTCGGT GGAACGAAAC CTACGGAAAA
    CTTTTAAACT TCTTCATGTC TATATCTGTG GAAACAGCTG AGAAACTAAG TCAAGCAAAT
    ATCCAAATAT TCCGCTGCTT CATATGGTTT CTAGACGACA ATAGATATGT CCCCATGCCT
    GCCGGGCTGG ATAAATATTT AGATAAATAT TTTATAGATA TGGATATACC ATATTCCAAA
    AATGATGTGC TCGACTCTGT TAATAAAGAC CCTATAGAAG CCCCTTGTTG CATCAATATA
    CGAATGAAGT CAGATGAAGA GCAGCCTACT AAATGTATCA AGGTTAAGAA CAAACACAAG
    AAAAAGAAGC AAAATCAGCC CAAGACTTTG TATAAGGTTT CTGGTGCAGT AAGTACCAGG
    CCTCCAGAAG ATGACATTTT TACAGAAGAA AATACTCTAA GCCTGTTGGA TCCTTATGAA
    CCCTTTATAA TCCCAGAATA TTTGCGTCCT GATGTGGAAG AATTTGAAAC CCTTTATGAT
    CCCACTCCTG GCGGATACCG GTTACCATGG CAACCTGATA ATGCCATGCA AGAAACCCTC
    TATGAATATT TTTCTGAGAT CCTGGAAGAG CATGGGCCTT TGGAACTGGA TGATGACATT
    CTGATTGGGA CATTTAAGGA GTTCCCAGAG GAGGCACACC AGCTGGTACA GGAGGCCGGC
    AGCCTAAAGG ACTTCCTTCT GCAATCAACT AAGTTTGTCA TGGTGGGAAA GCTCCTGGGA
    CTGCGCCCTC ACAAAGTTAT ATTGGAAGAA GCATCCGGAA AAGCCAAACT CAACCCAACC
    GCTAAAGAAT TCCAGCCTTC ATCTAATAAT CCTTTTGATT CAATAATAAG CGAGACTTTG
    GAAATAAGTC CTGAATACAA TCCACTTGAG CCATCCAATC CCTTTGTTTT ACTGCCCAAT
    CAAAGCCCAG TTTTTAATGG CAATTGTATA GTCCCTTGTC TTCCGCTGTA TGGACTGAAT
    CCTTTGCCTG TAGTTTCTGT AGGGCACCCA TTTATACCTG GTCTCGGCAT TGGAATGCAG
    CCTACGATAA CAGTTAATAG TGCTGTTATG TGTAATTTAG GCGTGCCGCT TCCTAATAGA
    GCAAAGGAGC CAGAGCAGTC AAGTCCAATA ATGCATAACA CTTTGACTGG GAATTTGAAT
    CCCAAAAATG ACACTGCATC AGAGACCACC ATGACCCAGA CTGTTCCTTT AAGAAGAAAT
    ATTCACACCG GGGTAGTGTC AGTACAGGTA GACAGAGACT TATCTGAGCA AGAAGTAAAT
    ACTGAGCCTT ATTATCCTTT TGAAGTGCAG CAGGGAGATA TCCTACGGAT AGAGAAAGAG
    CATCTCGTTC TACAGGAGCA GCTAAAAGAA GCAACAGAGA AGTATGAGAA TCTGCAGGGC
    CGCTACAAGG AGGAAATCGC TGGGTTGCAT AAGCAAATTA GGGAAACGGC TGACAATAAT
    AAGATTATAA AGAAAGAACT TGAAATGTTT AACCACGAGA TGGATAACGA CACCAAAAAA
    TGGCAACTAG AGAAAAAAGA GTATCATGAT AAGCTGAGAG TGGTAAAGAG CGGCATTAAG
    GCGGCAAATG AAACTGTCGA TAAGTATTCA AGGGAGATTG AAGAAAAGAA ACAACAGTAT
    GAAGCATACA TAGAGACATT CGTACAGTCT GGTTTTAATA TTGAAAATGA AAAGGCAAAG
    TTGGAAAAGC ATATTAAAAG CAACGAGGAT AAGCTCCAGG AAAGCAAGAA GAGAGCTATG
    ACTGCTGAGG TCCACTTCCT TGAGAACAAA AAACAGACTG ATTTATTAAA GCTGAGGATT
    ATGGCTGCAA AGGTGGAACA CAGCGCCAAC AAGTTAAAAG CCAATGGCTC TGCCACACCT
    TTTGCACAAA AAAGCATAGC GGATTTATCC CCCTCTTATC TAAAATCTGA AAGTGAGAAA
    ATAAAGTCCC AGTTTGATGA GAAGATTAAA TTAGTGGAAA GTGGATATAA GTTGGCAAAT
    ATACAAGCAA ACAATCTGGC AGCTCCATTC AATGCATCTG CTTTTCAAAC ACCTCTGCTG
    CCCCCTTCTC CCACCCCCAA GCTCCCTACA ACCAAACCCA GCACCCCGCT GCCAGCTTCC
    AGTTCTGCAC CTCCAGCTTC CCTCAAGTCC CCATTAAAGC CGACTCGCGA AACCAAGAAA
    AGCAAATCTA AAGATATTAA TAAGGATCCG AAACCACCAC CTCCTGCAAT TAATCCAAAG
    GCCACGGCAT TAGCAGGGAA GGGCCCGGGA GCACCCGTCA TGGAGAAGAA AGGAAAGCCC
    AACTTAGAGG CACAACATCA GTCTCCCGGA AAGCCGACTG CGTTTGATAA GATTATTGAG
    GAGCTGCATG AGATTTTTCC TGACTACAAA AGTGCGGAGC TTACCAACTT CATCAAGGAG
    CTGCGCAATA AGACTGGCGG AACACTGGCT GGCATGAAGC ACGATGACAT TGTTAGCAGG
    GTGACTGAGT ATATACTGGA CTCCCAGGAT AAGGCCCCCC CACAGGCACC TTGGGTACAA
    GCAAGTGGCA ATGTATATCC TTCAGCAGTG AAACCCCAGG CCCCATCGCC CCAGCCCAAA
    CAGCCCTGGA GAGTGGTCAC TGGTCCCTCC AAGAACAAGT GGCAGAAGTC TGATGATACA
    GAGTGCTATA ATGATGAGCC GTGCATTATC TGCCATGATG AGCTGCAACA GTATCCGGTG
    CAGAAGCTGG ACTGTGGGCA CTGCTTCCAT AGACACTGCA TAAAGACCTG GCTGAACACA
    CAGAGCACCT GCCCGACCTG CAGAGATCAC GCTCTCCTTC CTGAGGACTT CCCGGCCCTT
    TCTGGGCGCA TAAGAACCAC CTAG

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

    RefSeq XP_031752410.1
    CDS152..5695
    Translation

    Target ORF information:

    RefSeq Version XM_031896550.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896550.1

    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
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT 
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA AACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGGG TTTTATCCGT GTGATATGTT GCCTGTCATG TAAAGTGGAG
    TTCCATGTTT GCTGCTGGAA GAAGCTGAAG GCCAACAACT ATTCCGATAA AGCTGACAGG
    GATTTTCTAA CTATCTCTTG TTTTACACCT GACTGTAAAG GCAAAATCTC TAATATAATT
    ATTTATGACT CCACTGGACT TGTAAAACGT GAGTTTGCAG ATAAGTCTGT TAAGAAGAAA
    GAACCACAAA GGCCAACAGT TAAGAATAAA GGAAGTAGCA ATAAGAAGTT AAAGATTAAG
    CCTGAGAGTA AAACACAAGC AAAGAAGACC TCACCTGAAG AGAACAGGAG CTTGATACAC
    AATGAGAAAT CACAGAAGCA GCAAGAAAAT ATCTCCTCTA ACCAACGGAA TAATATATGT
    AATAACCGTT ATAGTGTAGC ACCTCATGAT TTAATGATGA CGCTTATATT GAATAAGGAG
    GAGGTTTTTA AAACAGGAGT GGAGAGCACC AAAGCATTGT GCAACTCATT AATCTCATGG
    AATGTTATAA GTCAGGAAGA ACTTGATGGT TTTTCCTTTG AAACAACATG TAGATCGTCT
    TCTGATGAAA TGGCAGTCCT GCTCGCTCAT CTGTGCAGCT TAAATAATAG AGTAAAGACA
    AGAATATTCC TCTACCTGCT GGAAGATTAT CCTTTAACTT TAGAACTGCC TGCATTTATA
    AAGATGATTA GAGATACGGG TCATCGGGCA GCAAAGAAGT TCCAAGAGAT AAACAGCAGC
    CTCCTGAAAG AGCTTAATTT CGAGTTGCTA GCCGGTCGGT GGAACGAAAC CTACGGAAAA
    CTTTTAAACT TCTTCATGTC TATATCTGTG GAAACAGCTG AGAAACTAAG TCAAGCAAAT
    ATCCAAATAT TCCGCTGCTT CATATGGTTT CTAGACGACA ATAGATATGT CCCCATGCCT
    GCCGGGCTGG ATAAATATTT AGATAAATAT TTTATAGATA TGGATATACC ATATTCCAAA
    AATGATGTGC TCGACTCTGT TAATAAAGAC CCTATAGAAG CCCCTTGTTG CATCAATATA
    CGAATGAAGT CAGATGAAGA GCAGCCTACT AAATGTATCA AGGTTAAGAA CAAACACAAG
    AAAAAGAAGC AAAATCAGCC CAAGACTTTG TATAAGGTTT CTGGTGCAGT AAGTACCAGG
    CCTCCAGAAG ATGACATTTT TACAGAAGAA AATACTCTAA GCCTGTTGGA TCCTTATGAA
    CCCTTTATAA TCCCAGAATA TTTGCGTCCT GATGTGGAAG AATTTGAAAC CCTTTATGAT
    CCCACTCCTG GCGGATACCG GTTACCATGG CAACCTGATA ATGCCATGCA AGAAACCCTC
    TATGAATATT TTTCTGAGAT CCTGGAAGAG CATGGGCCTT TGGAACTGGA TGATGACATT
    CTGATTGGGA CATTTAAGGA GTTCCCAGAG GAGGCACACC AGCTGGTACA GGAGGCCGGC
    AGCCTAAAGG ACTTCCTTCT GCAATCAACT AAGTTTGTCA TGGTGGGAAA GCTCCTGGGA
    CTGCGCCCTC ACAAAGTTAT ATTGGAAGAA GCATCCGGAA AAGCCAAACT CAACCCAACC
    GCTAAAGAAT TCCAGCCTTC ATCTAATAAT CCTTTTGATT CAATAATAAG CGAGACTTTG
    GAAATAAGTC CTGAATACAA TCCACTTGAG CCATCCAATC CCTTTGTTTT ACTGCCCAAT
    CAAAGCCCAG TTTTTAATGG CAATTGTATA GTCCCTTGTC TTCCGCTGTA TGGACTGAAT
    CCTTTGCCTG TAGTTTCTGT AGGGCACCCA TTTATACCTG GTCTCGGCAT TGGAATGCAG
    CCTACGATAA CAGTTAATAG TGCTGTTATG TGTAATTTAG GCGTGCCGCT TCCTAATAGA
    GCAAAGGAGC CAGAGCAGTC AAGTCCAATA ATGCATAACA CTTTGACTGG GAATTTGAAT
    CCCAAAAATG ACACTGCATC AGAGACCACC ATGACCCAGA CTGTTCCTTT AAGAAGAAAT
    ATTCACACCG GGGTAGTGTC AGTACAGGTA GACAGAGACT TATCTGAGCA AGAAGTAAAT
    ACTGAGCCTT ATTATCCTTT TGAAGTGCAG CAGGGAGATA TCCTACGGAT AGAGAAAGAG
    CATCTCGTTC TACAGGAGCA GCTAAAAGAA GCAACAGAGA AGTATGAGAA TCTGCAGGGC
    CGCTACAAGG AGGAAATCGC TGGGTTGCAT AAGCAAATTA GGGAAACGGC TGACAATAAT
    AAGATTATAA AGAAAGAACT TGAAATGTTT AACCACGAGA TGGATAACGA CACCAAAAAA
    TGGCAACTAG AGAAAAAAGA GTATCATGAT AAGCTGAGAG TGGTAAAGAG CGGCATTAAG
    GCGGCAAATG AAACTGTCGA TAAGTATTCA AGGGAGATTG AAGAAAAGAA ACAACAGTAT
    GAAGCATACA TAGAGACATT CGTACAGTCT GGTTTTAATA TTGAAAATGA AAAGGCAAAG
    TTGGAAAAGC ATATTAAAAG CAACGAGGAT AAGCTCCAGG AAAGCAAGAA GAGAGCTATG
    ACTGCTGAGG TCCACTTCCT TGAGAACAAA AAACAGACTG ATTTATTAAA GCTGAGGATT
    ATGGCTGCAA AGGTGGAACA CAGCGCCAAC AAGTTAAAAG CCAATGGCTC TGCCACACCT
    TTTGCACAAA AAAGCATAGC GGATTTATCC CCCTCTTATC TAAAATCTGA AAGTGAGAAA
    ATAAAGTCCC AGTTTGATGA GAAGATTAAA TTAGTGGAAA GTGGATATAA GTTGGCAAAT
    ATACAAGCAA ACAATCTGGC AGCTCCATTC AATGCATCTG CTTTTCAAAC ACCTCTGCTG
    CCCCCTTCTC CCACCCCCAA GCTCCCTACA ACCAAACCCA GCACCCCGCT GCCAGCTTCC
    AGTTCTGCAC CTCCAGCTTC CCTCAAGTCC CCATTAAAGC CGACTCGCGA AACCAAGAAA
    AGCAAATCTA AAGATATTAA TAAGGATCCG AAACCACCAC CTCCTGCAAT TAATCCAAAG
    GCCACGGCAT TAGCAGGGAA GGGCCCGGGA GCACCCGTCA TGGAGAAGAA AGGAAAGCCC
    AACTTAGAGG CACAACATCA GTCTCCCGGA AAGCCGACTG CGTTTGATAA GATTATTGAG
    GAGCTGCATG AGATTTTTCC TGACTACAAA AGTGCGGAGC TTACCAACTT CATCAAGGAG
    CTGCGCAATA AGACTGGCGG AACACTGGCT GGCATGAAGC ACGATGACAT TGTTAGCAGG
    GTGACTGAGT ATATACTGGA CTCCCAGGAT AAGGCCCCCC CACAGGCACC TTGGGTACAA
    GCAAGTGGCA ATGTATATCC TTCAGCAGTG AAACCCCAGG CCCCATCGCC CCAGCCCAAA
    CAGCCCTGGA GAGTGGTCAC TGGTCCCTCC AAGAACAAGT GGCAGAAGTC TGATGATACA
    GAGTGCTATA ATGATGAGCC GTGCATTATC TGCCATGATG AGCTGCAACA GTATCCGGTG
    CAGAAGCTGG ACTGTGGGCA CTGCTTCCAT AGACACTGCA TAAAGACCTG GCTGAACACA
    CAGAGCACCT GCCCGACCTG CAGAGATCAC GCTCTCCTTC CTGAGGACTT CCCGGCCCTT
    TCTGGGCGCA TAAGAACCAC CTAG

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

    CloneID OXa06400
    Clone ID Related Accession (Same CDS sequence) XM_004912114.3
    Accession Version XM_004912114.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5664bp)
    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 E3 ubiquitin-protein ligase TTC3 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030678.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_004912114.2. ##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
    ATGGGGGTTC CGGGGCGCTA TTGCTACTTC CCCCTGAGTA GAAGCCGGAT ATGGGCAGGA 
    GGCTTGCCTT GCTCCTTCAG CATCAGTGCC CCCTGGGATT GCGGCTGGGA CCCTTCAGCA
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA TACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGGG TTTTATCCGT GTGATATGTT GCCTGTCATG TAAAGTGGAG
    TTCCATGTTT GCTGCTGGAA GAAGCTGAAG GCCAACAACT ATTCCGATAA AGCTGACAGG
    GATTTTCTAA CTATCTCTTG TTTTACACCT GACTGTAAAG GCAAAATCTC TAATATAATT
    ATTTATGACT CCACTGGACT TGTAAAACGT GAGTTTGCAG ATAAGTCTGT TAAGAAGAAA
    GAACCACAAA GGCCAACAGT TAAGAATAAA GGAAGTAGCA ATAAGAAGTT AAAGATTAAG
    CCTGAGAGTA AAACACAAGC AAAGAAGACC TCACCTGAAG AGAACAGGAG CTTGATACAC
    AATGAGAAAT CACAGAAGCA GCAAGAAAAT ATCTCCTCTA ACCAACGGAA TAATATATGT
    AATAACCGTT ATAGTGTAGC ACCTCATGAT TTAATGATGA CGCTTATATT GAATAAGGAG
    GAGGTTTTTA AAACAGGAGT GGAGAGCACC AAAGCATTGT GCAACTCATT AATCTCATGG
    AATGTTATAA GTCAGGAAGA ACTTGATGGT TTTTCCTTTG AAACAACATG TAGATCGTCT
    TCTGATGAAA TGGCAGTCCT GCTCGCTCAT CTGTGCAGCT TAAATAATAG AGTAAAGACA
    AGAATATTCC TCTACCTGCT GGAAGATTAT CCTTTAACTT TAGAACTGCC TGCATTTATA
    AAGATGATTA GAGATACGGG TCATCGGGCA GCAAAGAAGT TCCAAGAGAT AAACAGCAGC
    CTCCTGAAAG AGCTTAATTT CGAGTTGCTA GCCGGTCGGT GGAACGAAAC CTACGGAAAA
    CTTTTAAACT TCTTCATGTC TATATCTGTG GAAACAGCTG AGAAACTAAG TCAAGCAAAT
    ATCCAAATAT TCCGCTGCTT CATATGGTTT CTAGACGACA ATAGATATGT CCCCATGCCT
    GCCGGGCTGG ATAAATATTT AGATAAATAT TTTATAGATA TGGATATACC ATATTCCAAA
    AATGATGTGC TCGACTCTGT TAATAAAGAC CCTATAGAAG CCCCTTGTTG CATCAATATA
    CGAATGAAGT CAGATGAAGA GCAGCCTACT AAATGTATCA AGGTTAAGAA CAAACACAAG
    AAAAAGAAGC AAAATCAGCC CAAGACTTTG TATAAGGTTT CTGGTGCAGT AAGTACCAGG
    CCTCCAGAAG ATGACATTTT TACAGAAGAA AATACTCTAA GCCTGTTGGA TCCTTATGAA
    CCCTTTATAA TCCCAGAATA TTTGCGTCCT GATGTGGAAG AATTTGAAAC CCTTTATGAT
    CCCACTCCTG GCGGATACCG GTTACCATGG CAACCTGATA ATGCCATGCA AGAAACCCTC
    TATGAATATT TTTCTGAGAT CCTGGAAGAG CATGGGCCTT TGGAACTGGA TGATGACATT
    CTGATTGGGA CATTTAAGGA GTTCCCAGAG GAGGCACACC AGCTGGTACA GGAGGCCGGC
    AGCCTAAAGG ACTTCCTTCT GCAATCAACT AAGTTTGTCA TGGTGGGAAA GCTCCTGGGA
    CTGCGCCCTC ACAAAGTTAT ATTGGAAGAA GCATCCGGAA AAGCCAAACT CAACCCAACC
    GCTAAAGAAT TCCAGCCTTC ATCTAATAAT CCTTTTGATT CAATAATAAG CGAGACTTTG
    GAAATAAGTC CTGAATACAA TCCACTTGAG CCATCCAATC CCTTTGTTTT ACTGCCCAAT
    CAAAGCCCAG TTTTTAATGG CAATTGTATA GTCCCTTGTC TTCCGCTGTA TGGACTGAAT
    CCTTTGCCTG TAGTTTCTGT AGGGCACCCA TTTATACCTG GTCTCGGCAT TGGAATGCAG
    CCTACGATAA CAGTTAATAG TGCTGTTATG TGTAATTTAG GCGTGCCGCT TCCTAATAGA
    GCAAAGGAGC CAGAGCAGTC AAGTCCAATA ATGCATAACA CTTTGACTGG GAATTTGAAT
    CCCAAAAATG ACACTGCATC AGAGACCACC ATGACCCAGA CTGTTCCTTT AAGAAGAAAT
    ATTCACACCG GGGTAGTGTC AGTACAGGTA GACAGAGACT TATCTGAGCA AGAAGTAAAT
    ACTGAGCCTT ATTATCCTTT TGAAGTGCAG CAGGGAGATA TCCTACGGAT AGAGAAAGAG
    CATCTCGTTC TACAGGAGCA GCTAAAAGAA GCAACAGAGA AGTATGAGAA TCTGCAGGGC
    CGCTACAAGG AGGAAATCGC TGGGTTGCAT AAGCAAATTA GGGAAACGGC TGACAATAAT
    AAGATTATAA AGAAAGAACT TGAAATGTTT AACCACGAGA TGGATAACGA CACCAAAAAA
    TGGCAACTAG AGAAAAAAGA GTATCATGAT AAGCTGAGAG TGGTAAAGAG CGGCATTAAG
    GCGGCAAATG AAACTGTCGA TAAGTATTCA AGGGAGATTG AAGAAAAGAA ACAACAGTAT
    GAAGCATACA TAGAGACATT CGTACAGTCT GGTTTTAATA TTGAAAATGA AAAGGCAAAG
    TTGGAAAAGC ATATTAAAAG CAACGAGGAT AAGCTCCAGG AAAGCAAGAA GAGAGCTATG
    ACTGCTGAGG TCCACTTCCT TGAGAACAAA AAACAGACTG ATTTATTAAA GCTGAGGATT
    ATGGCTGCAA AGGTGGAACA CAGCGCCAAC AAGTTAAAAG CCAATGGCTC TGCCACACCT
    TTTGCACAAA AAAGCATAGC GGATTTATCC CCCTCTTATC TAAAATCTGA AAGTGAGAAA
    ATAAAGTCCC AGTTTGATGA GAAGATTAAA TTAGTGGAAA GTGGATATAA GTTGGCAAAT
    ATACAAGCAA ACAATCTGGC AGCTCCATTC AATGCATCTG CTTTTCAAAC ACCTCTGCTG
    CCCCCTTCTC CCACCCCCAA GCTCCCTACA ACCAAACCCA GCACCCCGCT GCCAGCTTCC
    AGTTCTGCAC CTCCAGCTTC CCTCAAGTCC CCATTAAAGC CGACTCGCGA AACCAAGAAA
    AGCAAATCTA AAGATATTAA TAAGGATCCG AAACCACCAC CTCCTGCAAT TAATCCAAAG
    GCCACGGCAT TAGCAGGGAA GGGCCCGGGA GCACCCGTCA TGGAGAAGAA AGGAAAGCCC
    AACTTAGAGG CACAACATCA GTCTCCCGGA AAGCCGACTG CGTTTGATAA GATTATTGAG
    GAGCTGCATG AGATTTTTCC TGACTACAAA AGTGCGGAGC TTACCAACTT CATCAAGGAG
    CTGCGCAATA AGACTGGCGG AACACTGGCT GGCATGAAGC ACGATGACAT TGTTAGCAGG
    GTGACTGAGT ATATACTGGA CTCCCAGGAT AAGGCCCCCC CACAGGCACC TTGGGTACAA
    GCAAGTGGCA ATGTATATCC TTCAGCAGTG AAACCCCAGG CCCCATCGCC CCAGCCCAAA
    CAGCCCTGGA GAGTGGTCAC TGGTCCCTCC AAGAACAAGT GGCAGAAGTC TGATGATACA
    GAGTGCTATA ATGATGAGCC GTGCATTATC TGCCATGATG AGCTGCAACA GTATCCGGTG
    CAGAAGCTGG ACTGTGGGCA CTGCTTCCAT AGACACTGCA TAAAGACCTG GCTGAACACA
    CAGAGCACCT GCCCGACCTG CAGAGATCAC GCTCTCCTTC CTGAGGACTT CCCGGCCCTT
    TCTGGGCGCA TAAGAACCAC CTAG

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

    RefSeq XP_004912171.1
    CDS133..5796
    Translation

    Target ORF information:

    RefSeq Version XM_004912114.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis tetratricopeptide repeat domain 3 (ttc3), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_004912114.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    ATGGGGGTTC CGGGGCGCTA TTGCTACTTC CCCCTGAGTA GAAGCCGGAT ATGGGCAGGA 
    GGCTTGCCTT GCTCCTTCAG CATCAGTGCC CCCTGGGATT GCGGCTGGGA CCCTTCAGCA
    ATGGATGGGA TCGGGTACAC AGATATTGGC AATGGAAGCT CGCACGTTAT TGCCACCTGT
    TTCCGAGGTC ATGAATATCC TATGCAAAGA CCACCTGTAC CTGTTGGGGA GAAAGTCGAT
    CCTGTTACAT TCTGGCTCTC TCATCCATTA GACGTTATAC ATGAACACTG TGATTTAATT
    AAAGTCTATA TTTTGTGGCC AGTCCTTAAG GCAGATGCAT CTCCAGTGTA CAAAGGACCA
    TGGGTTGATC ATGATGGTTC TGGCCTGTGT ATTCAAGAAC TAAACTTCGT TGAGATGTTA
    GAAGATCTCC TGGATGTAGT AAAGAAAGTG GCGCATGAGC GACGGTTTAT AGAGGGCTTA
    TTAAAGATTG CGAAGACAAT GGAAATGGTT CAGTTAAATT ATCAGCATCT ATCAGAAGCA
    ATGAGCTGGC TGAGATCGAC AGGGGAACTA CAAATTTGCA AGAAACTGGA AGAACAAGAT
    AATTTAAGCC TCTTTCCTCT GCAGATATTA TTTATTGACT ATGCACATTA CATAAACAGT
    ATGGCTGACC AGAGGTGCAG TTTATCCTTT ATGTGGAAAA AAAAACATAT TTGTGACTGC
    TGTGCTGTGG AGTCAGAAGG TATGAAGCAA CGTGGTAATG AAGAGTTTTC TAAATCAAAT
    TTTTGCTTGG CTGCTGATCT GTATTCTAAA GCCATAGAAT ATAGTCCTGA TAATCATCTT
    CTATTTGGCA ACAGATCTCT CTGCTTCTTG CGTATGGGCG AATACATGAA TGCTCTGTCT
    GATGGCAAGA AGGCTACAGT TCTCAAGCAT AAATGGCCAA AGGGTCACTA CCGTTTCTGT
    GAAGCCCTGT TTCTTATGGG AGAGCGAGAG CGAGCGCTTG CTTCCAACGA GAAGGCTCAG
    CTGCTTTGCA AGGACAGCCC TGAAGGCATC AGAGACTTAA TTCAGCAACA TACAAAGATC
    AAGAGAAAAA TAGAGGAGAT GAAAGATGGA AAGCATCGGA GATCTACTAA CAAAAAGTTT
    ATCCGTGACA AAAAGATTGC ACCCTATTCG GGTCCCATGT CAGTCTTGAA GGAAAAAAAG
    AAAATACCAT CTAGTAATAA AGAAGATATC CCCAATAAGG AAAGTGATGG GGCCACTTTA
    GAAAATAAGG ACATTATTTC TGATAATGTA ACTGGGCAAA ATCAGAAGAA GGGCAAATCA
    AAGGGGAAAG GGGGAGAATC TGAAAAATTA AGGGTATCTA ATGCAAAGTC TGATCCTAAG
    GAAAACCAGA AGGATGTATC ATGTAATTAT TCACAGATGG ATCTATCAAC TCTGCAAGAC
    ATGGTTAAGT CGTTAGTGCG CGATGGGTGT GAGGCGCTTG CAGACAGCCG GTGCCATAAT
    GCACTAGGAT ATTTTTCTAA ATTGTTGGAT ATCTTGGCTG CATCTGACCT CCAGAGATTC
    TATCTATCTA ATATAGACTA TGTGGTGCTC CTCTACGGCT ATGCTAATGC ACTGCTTGGC
    ACTGGGCAAT GTGAGGAGCT GACCAAAGCT GAAGACCAGC TGAAGAAAAT TATAACTCAG
    TTCACCAAAG AGAGGTTTAA CTGCTTGGCT TTTTATGGCA TCGGCAATGT ATATTATAGG
    CAAAATAGAT TTTCTGATGC ATTAAATCAG TACGTCAAAT CACATACTAT GGTAAAGCTC
    AAGATGATGC CAGGGATTCT AACGTGGCCG ACTACACCTA TAGTCCTTGA AGAGTCAAGG
    CCTGAAAAAC TGCAGTCACT TTTAGAAAAC CGTATAGAAG AATGCAAGTT TCCTCCAAAG
    CCAGATGCCA TTTGTCGGTA TAAGCAATGC CTTAGTTTGC CAAAACCGCA GATATATTTT
    ACGGATCCTG ATTTCAAGGG TTTTATCCGT GTGATATGTT GCCTGTCATG TAAAGTGGAG
    TTCCATGTTT GCTGCTGGAA GAAGCTGAAG GCCAACAACT ATTCCGATAA AGCTGACAGG
    GATTTTCTAA CTATCTCTTG TTTTACACCT GACTGTAAAG GCAAAATCTC TAATATAATT
    ATTTATGACT CCACTGGACT TGTAAAACGT GAGTTTGCAG ATAAGTCTGT TAAGAAGAAA
    GAACCACAAA GGCCAACAGT TAAGAATAAA GGAAGTAGCA ATAAGAAGTT AAAGATTAAG
    CCTGAGAGTA AAACACAAGC AAAGAAGACC TCACCTGAAG AGAACAGGAG CTTGATACAC
    AATGAGAAAT CACAGAAGCA GCAAGAAAAT ATCTCCTCTA ACCAACGGAA TAATATATGT
    AATAACCGTT ATAGTGTAGC ACCTCATGAT TTAATGATGA CGCTTATATT GAATAAGGAG
    GAGGTTTTTA AAACAGGAGT GGAGAGCACC AAAGCATTGT GCAACTCATT AATCTCATGG
    AATGTTATAA GTCAGGAAGA ACTTGATGGT TTTTCCTTTG AAACAACATG TAGATCGTCT
    TCTGATGAAA TGGCAGTCCT GCTCGCTCAT CTGTGCAGCT TAAATAATAG AGTAAAGACA
    AGAATATTCC TCTACCTGCT GGAAGATTAT CCTTTAACTT TAGAACTGCC TGCATTTATA
    AAGATGATTA GAGATACGGG TCATCGGGCA GCAAAGAAGT TCCAAGAGAT AAACAGCAGC
    CTCCTGAAAG AGCTTAATTT CGAGTTGCTA GCCGGTCGGT GGAACGAAAC CTACGGAAAA
    CTTTTAAACT TCTTCATGTC TATATCTGTG GAAACAGCTG AGAAACTAAG TCAAGCAAAT
    ATCCAAATAT TCCGCTGCTT CATATGGTTT CTAGACGACA ATAGATATGT CCCCATGCCT
    GCCGGGCTGG ATAAATATTT AGATAAATAT TTTATAGATA TGGATATACC ATATTCCAAA
    AATGATGTGC TCGACTCTGT TAATAAAGAC CCTATAGAAG CCCCTTGTTG CATCAATATA
    CGAATGAAGT CAGATGAAGA GCAGCCTACT AAATGTATCA AGGTTAAGAA CAAACACAAG
    AAAAAGAAGC AAAATCAGCC CAAGACTTTG TATAAGGTTT CTGGTGCAGT AAGTACCAGG
    CCTCCAGAAG ATGACATTTT TACAGAAGAA AATACTCTAA GCCTGTTGGA TCCTTATGAA
    CCCTTTATAA TCCCAGAATA TTTGCGTCCT GATGTGGAAG AATTTGAAAC CCTTTATGAT
    CCCACTCCTG GCGGATACCG GTTACCATGG CAACCTGATA ATGCCATGCA AGAAACCCTC
    TATGAATATT TTTCTGAGAT CCTGGAAGAG CATGGGCCTT TGGAACTGGA TGATGACATT
    CTGATTGGGA CATTTAAGGA GTTCCCAGAG GAGGCACACC AGCTGGTACA GGAGGCCGGC
    AGCCTAAAGG ACTTCCTTCT GCAATCAACT AAGTTTGTCA TGGTGGGAAA GCTCCTGGGA
    CTGCGCCCTC ACAAAGTTAT ATTGGAAGAA GCATCCGGAA AAGCCAAACT CAACCCAACC
    GCTAAAGAAT TCCAGCCTTC ATCTAATAAT CCTTTTGATT CAATAATAAG CGAGACTTTG
    GAAATAAGTC CTGAATACAA TCCACTTGAG CCATCCAATC CCTTTGTTTT ACTGCCCAAT
    CAAAGCCCAG TTTTTAATGG CAATTGTATA GTCCCTTGTC TTCCGCTGTA TGGACTGAAT
    CCTTTGCCTG TAGTTTCTGT AGGGCACCCA TTTATACCTG GTCTCGGCAT TGGAATGCAG
    CCTACGATAA CAGTTAATAG TGCTGTTATG TGTAATTTAG GCGTGCCGCT TCCTAATAGA
    GCAAAGGAGC CAGAGCAGTC AAGTCCAATA ATGCATAACA CTTTGACTGG GAATTTGAAT
    CCCAAAAATG ACACTGCATC AGAGACCACC ATGACCCAGA CTGTTCCTTT AAGAAGAAAT
    ATTCACACCG GGGTAGTGTC AGTACAGGTA GACAGAGACT TATCTGAGCA AGAAGTAAAT
    ACTGAGCCTT ATTATCCTTT TGAAGTGCAG CAGGGAGATA TCCTACGGAT AGAGAAAGAG
    CATCTCGTTC TACAGGAGCA GCTAAAAGAA GCAACAGAGA AGTATGAGAA TCTGCAGGGC
    CGCTACAAGG AGGAAATCGC TGGGTTGCAT AAGCAAATTA GGGAAACGGC TGACAATAAT
    AAGATTATAA AGAAAGAACT TGAAATGTTT AACCACGAGA TGGATAACGA CACCAAAAAA
    TGGCAACTAG AGAAAAAAGA GTATCATGAT AAGCTGAGAG TGGTAAAGAG CGGCATTAAG
    GCGGCAAATG AAACTGTCGA TAAGTATTCA AGGGAGATTG AAGAAAAGAA ACAACAGTAT
    GAAGCATACA TAGAGACATT CGTACAGTCT GGTTTTAATA TTGAAAATGA AAAGGCAAAG
    TTGGAAAAGC ATATTAAAAG CAACGAGGAT AAGCTCCAGG AAAGCAAGAA GAGAGCTATG
    ACTGCTGAGG TCCACTTCCT TGAGAACAAA AAACAGACTG ATTTATTAAA GCTGAGGATT
    ATGGCTGCAA AGGTGGAACA CAGCGCCAAC AAGTTAAAAG CCAATGGCTC TGCCACACCT
    TTTGCACAAA AAAGCATAGC GGATTTATCC CCCTCTTATC TAAAATCTGA AAGTGAGAAA
    ATAAAGTCCC AGTTTGATGA GAAGATTAAA TTAGTGGAAA GTGGATATAA GTTGGCAAAT
    ATACAAGCAA ACAATCTGGC AGCTCCATTC AATGCATCTG CTTTTCAAAC ACCTCTGCTG
    CCCCCTTCTC CCACCCCCAA GCTCCCTACA ACCAAACCCA GCACCCCGCT GCCAGCTTCC
    AGTTCTGCAC CTCCAGCTTC CCTCAAGTCC CCATTAAAGC CGACTCGCGA AACCAAGAAA
    AGCAAATCTA AAGATATTAA TAAGGATCCG AAACCACCAC CTCCTGCAAT TAATCCAAAG
    GCCACGGCAT TAGCAGGGAA GGGCCCGGGA GCACCCGTCA TGGAGAAGAA AGGAAAGCCC
    AACTTAGAGG CACAACATCA GTCTCCCGGA AAGCCGACTG CGTTTGATAA GATTATTGAG
    GAGCTGCATG AGATTTTTCC TGACTACAAA AGTGCGGAGC TTACCAACTT CATCAAGGAG
    CTGCGCAATA AGACTGGCGG AACACTGGCT GGCATGAAGC ACGATGACAT TGTTAGCAGG
    GTGACTGAGT ATATACTGGA CTCCCAGGAT AAGGCCCCCC CACAGGCACC TTGGGTACAA
    GCAAGTGGCA ATGTATATCC TTCAGCAGTG AAACCCCAGG CCCCATCGCC CCAGCCCAAA
    CAGCCCTGGA GAGTGGTCAC TGGTCCCTCC AAGAACAAGT GGCAGAAGTC TGATGATACA
    GAGTGCTATA ATGATGAGCC GTGCATTATC TGCCATGATG AGCTGCAACA GTATCCGGTG
    CAGAAGCTGG ACTGTGGGCA CTGCTTCCAT AGACACTGCA TAAAGACCTG GCTGAACACA
    CAGAGCACCT GCCCGACCTG CAGAGATCAC GCTCTCCTTC CTGAGGACTT CCCGGCCCTT
    TCTGGGCGCA TAAGAACCAC CTAG

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