TTC6 cDNA ORF clone, Homo sapiens(human)

The following TTC6 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TTC6 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
OHu107915 NM_001368142.1
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 14-16 $307.30
$439.00
OHu79159 XM_011537431.2
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
OHu103887 XM_024449560.1
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OHu84884 XM_017021256.1
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
OHu79158 XM_011537430.2
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu79154 NM_001310135.2
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu79157 XM_011537432.2
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
OHu84882 XM_017021254.1
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu84883 XM_017021255.1
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
OHu84885 XM_017021257.1
Latest version!
Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $559.30
$799.00
View Old Accession Versions >>
OHu79154 NM_001310135.1 Homo sapiens tetratricopeptide repeat domain 6 (TTC6), mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $951.30
$1359.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu107915
    Clone ID Related Accession (Same CDS sequence) NM_001368142.1
    Accession Version NM_001368142.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 1563bp)
    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 2019-01-15
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform 2
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL136296.3 and AL163151.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## Transcript exon combination :: BX161415.1 [ECO:0000332] ##Evidence-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
    ATGATGAAAT ATTATGATCT TGCAAAGTTT ACTATTTATC AAATAGCAGA AATGGACAAA 
    GGTCTCAGTG AGTTGAGTCC TATGCAGCAA GCCCTTATTT ATTCATTTTG TGAAAACCAT
    GACAAGGCCA TTGAGGTCTT GGACGGAATC AGCTGGAATA GAGCTGAGAT GACCATGTGT
    GCTCTATTAG CAAAAGTTCA AATGAAGGCC AAGAGAACCA AGGAAGCTGT GGAAGTGCTT
    AAGAAGGCTT TGGATGCCAT TTCTCATTCT GATAAAGGAC CAGATGCCAC AGCAATTTCA
    GCAGACTGTC TGTATAACTT GGGTCTTTGT TACATGGAGG AAGGCAATTT ACAAATGACT
    TATAAGCTAG CAATTACAGA TTTAACTACA GCTATCAGCA TGGACAAAAA TAGTTATACA
    GCATTTTATA ACAGAGCATT ATGTTACACC AAGATAAGGG AACTTCAAAT GGCATTAACA
    GATTATGGAA TTGTGCTGCT TCTTGATGCT ACAGAAACTG TAAAACTAAA TACCTTCCTT
    AATCGTGGAC TCATCTACGT AGAACTAGGC CAGTATGGCT TTGCACTAGA GGATTTTAAA
    CAAGCTGCAC TGATAAGCCG GACTAACGGG AGCCTTTGTC ACGCCACTGC CATGTGCCAT
    CACAGAATTA ATGAGTTTGA AGAAGCTGTC AATTTCTTTA CTTGGGCTCT TAAAATTAAC
    CCATGTTTTC TGGATGCTTA TGTTGGACGG GGAAATTCTT ACATGGAATA CGGTCATGAT
    GAAGCCACCA AGCAAGCACA GAAAGACTTT CTGAAAGCAC TGCATATTAA TCCAGCATAC
    ATAAAAGCCA GAATTAGTTT TGGCTATAAT TTGCAGGCCC AAGGAAAATT CCAGAAAGCT
    TGGAACCACT TTACCATTGC CATAGATACT GATCCAAAGA ACTACCTAGC CTATGAAGGA
    AGAGCTGTGG TCTGTCTTCA GATGGGTAAT AATTTTGCTG CAATGCAGGA TATTAATGCT
    GCCATGAAGA TCAGTACTAC AGCAGAATTC TTAACAAATC GTGGGGTGAT TCATGAGTTT
    ATGGGCCACA AACAGAATGC AATGAAAGAC TACCAAGATG CAATTACTCT AAACCCCAAG
    TACTCGCTGG CTTACTTTAA TGCAGGAAAT ATCTACTTTC ACCACAGGCA GTTTTCCCAG
    GCCAGTGACT ACTTCTCAAA AGCTTTAAAA TTTGATCCAG AAAATGAATA TGTTCTCATG
    AATCGAGCTA TTACAAATAC AATATTAAAG AAATATGAAG AAGCAAAAGA AGATTTTGCA
    AATGTAATTG AAAGCTGTCC CTTTTGGGCT GCAGTATATT TTAATAGAGC ACATTTCTAC
    TACTGCTTAA AGCAATATGA ACTAGCTGAG GAAGACCTTA ATAAAGCCCT GTCTTTGAAG
    CCTAATGATG CTCTAGTATA TAATTTTAGA GCAAAAGTTC GTGGTAAAAT AGGTCTGATT
    GAGGAAGCTA TGGCTGACTA TAACCAAGCA CTTGATCTTG AAGACTATGC CTCAGTTATA
    TGA

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

    RefSeq NP_001355071.1
    CDS288..1850
    Translation

    Target ORF information:

    RefSeq Version NM_001368142.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001368142.1

    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
    ATGATGAAAT ATTATGATCT TGCAAAGTTT ACTATTTATC AAATAGCAGA AATGGACAAA 
    GGTCTCAGTG AGTTGAGTCC TATGCAGCAA GCCCTTATTT ATTCATTTTG TGAAAACCAT
    GACAAGGCCA TTGAGGTCTT GGACGGAATC AGCTGGAATA GAGCTGAGAT GACCATGTGT
    GCTCTATTAG CAAAAGTTCA AATGAAGGCC AAGAGAACCA AGGAAGCTGT GGAAGTGCTT
    AAGAAGGCTT TGGATGCCAT TTCTCATTCT GATAAAGGAC CAGATGCCAC AGCAATTTCA
    GCAGACTGTC TGTATAACTT GGGTCTTTGT TACATGGAGG AAGGCAATTT ACAAATGACT
    TATAAGCTAG CAATTACAGA TTTAACTACA GCTATCAGCA TGGACAAAAA TAGTTATACA
    GCATTTTATA ACAGAGCATT ATGTTACACC AAGATAAGGG AACTTCAAAT GGCATTAACA
    GATTATGGAA TTGTGCTGCT TCTTGATGCT ACAGAAACTG TAAAACTAAA TACCTTCCTT
    AATCGTGGAC TCATCTACGT AGAACTAGGC CAGTATGGCT TTGCACTAGA GGATTTTAAA
    CAAGCTGCAC TGATAAGCCG GACTAACGGG AGCCTTTGTC ACGCCACTGC CATGTGCCAT
    CACAGAATTA ATGAGTTTGA AGAAGCTGTC AATTTCTTTA CTTGGGCTCT TAAAATTAAC
    CCATGTTTTC TGGATGCTTA TGTTGGACGG GGAAATTCTT ACATGGAATA CGGTCATGAT
    GAAGCCACCA AGCAAGCACA GAAAGACTTT CTGAAAGCAC TGCATATTAA TCCAGCATAC
    ATAAAAGCCA GAATTAGTTT TGGCTATAAT TTGCAGGCCC AAGGAAAATT CCAGAAAGCT
    TGGAACCACT TTACCATTGC CATAGATACT GATCCAAAGA ACTACCTAGC CTATGAAGGA
    AGAGCTGTGG TCTGTCTTCA GATGGGTAAT AATTTTGCTG CAATGCAGGA TATTAATGCT
    GCCATGAAGA TCAGTACTAC AGCAGAATTC TTAACAAATC GTGGGGTGAT TCATGAGTTT
    ATGGGCCACA AACAGAATGC AATGAAAGAC TACCAAGATG CAATTACTCT AAACCCCAAG
    TACTCGCTGG CTTACTTTAA TGCAGGAAAT ATCTACTTTC ACCACAGGCA GTTTTCCCAG
    GCCAGTGACT ACTTCTCAAA AGCTTTAAAA TTTGATCCAG AAAATGAATA TGTTCTCATG
    AATCGAGCTA TTACAAATAC AATATTAAAG AAATATGAAG AAGCAAAAGA AGATTTTGCA
    AATGTAATTG AAAGCTGTCC CTTTTGGGCT GCAGTATATT TTAATAGAGC ACATTTCTAC
    TACTGCTTAA AGCAATATGA ACTAGCTGAG GAAGACCTTA ATAAAGCCCT GTCTTTGAAG
    CCTAATGATG CTCTAGTATA TAATTTTAGA GCAAAAGTTC GTGGTAAAAT AGGTCTGATT
    GAGGAAGCTA TGGCTGACTA TAACCAAGCA CTTGATCTTG AAGACTATGC CTCAGTTATA
    TGA

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

    CloneID OHu79159
    Clone ID Related Accession (Same CDS sequence) XM_011537431.2
    Accession Version XM_011537431.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3972bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011537431.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGTATGCTT ATCCAGAATT CACGAAGTTG TTTTGGAATA CAGCTGCACC TAAATTCTCT 
    GTTCCAGAAT CTGTCATGAA GGAAACTCTA TATCCAAAAT ATGAGAGTGT TCAAGCAAGC
    AGACTTTTAA CTGATAAATT GTCATATAAA AGCAGTGTCA TTACTTTACA TCAACATAGC
    AGAACAAATT TTTGGTGTTT CTTACCAAGA AAATCTGCAT CATTTGAAAG TATCCAAAAA
    TGGTTTAGTG CACAACCTAC ACAACTAAGG CGAGTAAAAT CTTCTGTAGA CTTGAGGAAG
    GAGAAGATCA TAGCTCCTTT GGAAATCAAG AATGATATGC AAAGCAGTAT AAAAGAGGTT
    ATGTTTCAGA AAGCAAAGGA ATTGAAACGT CAGCTCCAGC TCACTAAGCA AAATAAAACT
    GAGGAGCCCA ACTATGTGAA AGAAAGTATA GATGACATCT TTGATAACAT GTGCGAAAAA
    CACAGTTTGA GAAATCTCTC TTTGACTCTC ATTGAAGCGT CTAAAAAAGC TGGCATTAGT
    TACATTGTTT ATCCCAAGAA AAAGAAGATG AGATGGAAGA AAAGATTGAA ACAACAAAAA
    CTTATATTCG TGCATGAAGA GTTATCCAAG CCTCCAAAAT CTCTTGAAAG ATCAGCATCT
    CATGGAATAC TTCCGGGACA GAAGAAATAT TTGTTCAAAG TTCCATTATA TGAACGTCAA
    ATACGGTGTC CCAGTTTACC TTTGTATTTA AATTTTGAAA AATTCGTCCA AGCTAAGGGA
    GGAATTCCAG AAAATATTGA TCCTCGGACA TGGGCTCTTG ATAGGCTCAT TGAGTACAAA
    GATGCGAGCA TACCTGTAAA AGAGAAAGAT GATAAAATAT CAGTTCCTGA AGACCCACCT
    GAAAGAGTGA AAGAACCACC AAAACTAAAA TTAAATGATT ATGTGGAGTC TGATCTTCCA
    CAAGAGGTCA TTAAATATTA TGAATCTGAA GTGAAGATTT TGACTGAAGA AATAAATGAT
    AAGACAAAAT ATCCTGCATT TGCATATTGT AGGCGTGGAG CTATTTATAG GAAACTGGGA
    AAGTTGCAGA GTGCCATGAA TGATCTGCAG AGAGTAATAC TCTTGGAACC ATTGTTTCTC
    AATGCCTATT GGCATCGACA TTTAATTTAT CTTTTCCAAG ACAAAATTAA TGAAGCTTTG
    GATGACTTGA ATTATATACA TAAATATAAT AAAAATAATA CAGAGGCATA TTTGTCAAAA
    GCAGAAATTT ACAGGGGAAA AAAAGACATA ACTTTGGCAA TTCTAAACTA TACCCAGGCA
    ATTAAATCCA CGCCCACAGA TGCTGATATC TATTTCAGGA GGGGTGAGAT GTATGAAATA
    ACAAACAAAG TACTGGCCAT TGATGACTTT TCGAAATGTA TTTTTTATGA TCCCAAAAGA
    ACAGATGCAT TATTGAAACG TGGGCTGTTT TATTGTGAAA ATGAAAACTG GTTTGCAGCC
    ATAGAGGATT TTACAGCCTT GTTAAATATA GATCACCAAA ATTCTCAAGC AAGGACATAC
    CGAGGGATTG CATATGTTAA ATGGAAATTT TATAAAGAAG CAACTCAAGA TTTTTCTGCT
    GCAATTCACT TAGATCCTAA TAACTGGTTA GCGTTGTATT ATCGAGGTTG CTTATTCAGA
    AAGAGTAACC CTTTTAGAGC GCTACAGGAT TATAGTGTTT CAGCACTCAT AAATGATGGC
    TATGAGAATC TTGGTTGTTT TCTACATCGG GGAATAGTCT ATGCACATCT AAAACTTTGG
    CTGCTGGCAA TTTGTGACTT TGAAACTGTC ATTTCTCTAG AAAGAACTAT TACTTTGGCT
    TATGTAAATA TTGGCCTCAT ACATCTGCTA CACCTGGATA ACTACACGGA AGCTATTTGG
    CAATTTTCTG AGGCTATTAG AATTGATCCT TTATGTATTC AAAGCTATCT TTGTCGGGCG
    GAAACCTATT TTAAGTTGCA TAAATTGAAA AAGGCAGTAA ATGAATTGTC TCGTGCTATC
    CACCTTCAGC CAGATGGAAT CCAATTATAC ATAAGAAGAG GACAATATCT TCTTATGATG
    AAATATTATG ATCTTGCAAA GTTTACTATT TATCAAATAG CAGAAATGGA CAAAGGTCTC
    AGTGAGTTGA GTCCTATGCA GCAAGCCCTT ATTTATTCAT TTTGTGAAAA CCATGACAAG
    GCCATTGAGG TCTTGGACGG AATCAGCTGG AATAGAGCTG AGATGACCAT GTGTGCTCTA
    TTAGCAAAAG TTCAAATGAA GGCCAAGAGA ACCAAGGAAG CTGTGGAAGT GCTTAAGAAG
    GCTTTGGATG CCATTTCTCA TTCTGATAAA GGACCAGATG CCACAGCAAT TTCAGCAGAC
    TGTCTGTATA ACTTGGGTCT TTGTTACATG GAGGAAGGCA ATTTACAAAT GGCTTTTGAT
    TCTTTTACAA AAGCTGTGAA AGCAAATCCA GATTTTGCAG AAAGCTTTTA TCAGCGAGGG
    CTTTGTAAAG TGAAACTCCA CAAGGATAGC TCGATTCTGG ATTTTAATCG TGCAATTACC
    CTCAATCCAA AACATTACCA GGAGATGCAT ACTGGAGGAC TTGGGGCATA TTTAAGCCGA
    GTAGCATTCT ATGGTTTAAA AGGCAGGTAT TCCAAAGCAA TCTTGAATTG TAACAAGGCT
    ATTAAAATTT ACCCTGAAAG CGTACGTGCC TATCTCTACA GAGGAGTTCT GAAATACTAC
    AACAAGACTT ATAAGCTAGC AATTACAGAT TTAACTACAG CTATCAGCAT GGACAAAAAT
    AGTTATACAG CATTTTATAA CAGAGCATTA TGTTACACCA AGATAAGGGA ACTTCAAATG
    GCATTAACAG ATTATGGAAT TGTGCTGCTT CTTGATGCTA CAGAAACTGT AAAACTAAAT
    ACCTTCCTTA ATCGTGGACT CATCTACGTA GAACTAGGCC AGTATGGCTT TGCACTAGAG
    GATTTTAAAC AAGCTGCACT GATAAGCCGG ACTAACGGGA GCCTTTGTCA CGCCACTGCC
    ATGTGCCATC ACAGAATTAA TGAGTTTGAA GAAGCTGTCA ATTTCTTTAC TTGGGCTCTT
    AAAATTAACC CATGTTTTCT GGATGCTTAT GTTGGACGGG GAAATTCTTA CATGGAATAC
    GGTCATGATG AAGCCACCAA GCAAGCACAG AAAGACTTTC TGAAAGCACT GCATATTAAT
    CCAGCATACA TAAAAGCCAG AATTAGTTTT GGCTATAATT TGCAGGCCCA AGGAAAATTC
    CAGAAAGCTT GGAACCACTT TACCATTGCC ATAGATACTG ATCCAAAGAA CTACCTAGCC
    TATGAAGGAA GAGCTGTGGT CTGTCTTCAG ATGGGTAATA ATTTTGCTGC AATGCAGGAT
    ATTAATGCTG CCATGAAGAT CAGTACTACA GCAGAATTCT TAACAAATCG TGGGGTGATT
    CATGAGTTTA TGGGCCACAA ACAGAATGCA ATGAAAGACT ACCAAGATGC AATTACTCTA
    AACCCCAAGT ACTCGCTGGC TTACTTTAAT GCAGGAAATA TCTACTTTCA CCACAGGCAG
    TTTTCCCAGG CCAGTGACTA CTTCTCAAAA GCTTTAAAAT TTGATCCAGA AAATGAATAT
    GTTCTCATGA ATCGAGCTAT TACAAATACA ATATTAAAGA AATATGAAGA AGCAAAAGAA
    GATTTTGCAA ATGTAATTGA AAGCTGTCCC TTTTGGGCTG CAGTATATTT TAATAGAGCA
    CATTTCTACT ACTGCTTAAA GCAATATGAA CTAGCTGAGG AAGACCTTAA TAAAGCCCTG
    TCTTTGAAGC CTAATGATGC TCTAGTATAT AATTTTAGAG CAAAAGTTCG TGGTAAAATA
    GGTCTGATTG AGGAAGCTAT GGCTGACTAT AACCAAGCAC TTGATCTTGA AGACTATGCC
    TCAGTTATAT GA

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

    RefSeq XP_011535733.1
    CDS84..4055
    Translation

    Target ORF information:

    RefSeq Version XM_011537431.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011537431.2

    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
    ATGTATGCTT ATCCAGAATT CACGAAGTTG TTTTGGAATA CAGCTGCACC TAAATTCTCT 
    GTTCCAGAAT CTGTCATGAA GGAAACTCTA TATCCAAAAT ATGAGAGTGT TCAAGCAAGC
    AGACTTTTAA CTGATAAATT GTCATATAAA AGCAGTGTCA TTACTTTACA TCAACATAGC
    AGAACAAATT TTTGGTGTTT CTTACCAAGA AAATCTGCAT CATTTGAAAG TATCCAAAAA
    TGGTTTAGTG CACAACCTAC ACAACTAAGG CGAGTAAAAT CTTCTGTAGA CTTGAGGAAG
    GAGAAGATCA TAGCTCCTTT GGAAATCAAG AATGATATGC AAAGCAGTAT AAAAGAGGTT
    ATGTTTCAGA AAGCAAAGGA ATTGAAACGT CAGCTCCAGC TCACTAAGCA AAATAAAACT
    GAGGAGCCCA ACTATGTGAA AGAAAGTATA GATGACATCT TTGATAACAT GTGCGAAAAA
    CACAGTTTGA GAAATCTCTC TTTGACTCTC ATTGAAGCGT CTAAAAAAGC TGGCATTAGT
    TACATTGTTT ATCCCAAGAA AAAGAAGATG AGATGGAAGA AAAGATTGAA ACAACAAAAA
    CTTATATTCG TGCATGAAGA GTTATCCAAG CCTCCAAAAT CTCTTGAAAG ATCAGCATCT
    CATGGAATAC TTCCGGGACA GAAGAAATAT TTGTTCAAAG TTCCATTATA TGAACGTCAA
    ATACGGTGTC CCAGTTTACC TTTGTATTTA AATTTTGAAA AATTCGTCCA AGCTAAGGGA
    GGAATTCCAG AAAATATTGA TCCTCGGACA TGGGCTCTTG ATAGGCTCAT TGAGTACAAA
    GATGCGAGCA TACCTGTAAA AGAGAAAGAT GATAAAATAT CAGTTCCTGA AGACCCACCT
    GAAAGAGTGA AAGAACCACC AAAACTAAAA TTAAATGATT ATGTGGAGTC TGATCTTCCA
    CAAGAGGTCA TTAAATATTA TGAATCTGAA GTGAAGATTT TGACTGAAGA AATAAATGAT
    AAGACAAAAT ATCCTGCATT TGCATATTGT AGGCGTGGAG CTATTTATAG GAAACTGGGA
    AAGTTGCAGA GTGCCATGAA TGATCTGCAG AGAGTAATAC TCTTGGAACC ATTGTTTCTC
    AATGCCTATT GGCATCGACA TTTAATTTAT CTTTTCCAAG ACAAAATTAA TGAAGCTTTG
    GATGACTTGA ATTATATACA TAAATATAAT AAAAATAATA CAGAGGCATA TTTGTCAAAA
    GCAGAAATTT ACAGGGGAAA AAAAGACATA ACTTTGGCAA TTCTAAACTA TACCCAGGCA
    ATTAAATCCA CGCCCACAGA TGCTGATATC TATTTCAGGA GGGGTGAGAT GTATGAAATA
    ACAAACAAAG TACTGGCCAT TGATGACTTT TCGAAATGTA TTTTTTATGA TCCCAAAAGA
    ACAGATGCAT TATTGAAACG TGGGCTGTTT TATTGTGAAA ATGAAAACTG GTTTGCAGCC
    ATAGAGGATT TTACAGCCTT GTTAAATATA GATCACCAAA ATTCTCAAGC AAGGACATAC
    CGAGGGATTG CATATGTTAA ATGGAAATTT TATAAAGAAG CAACTCAAGA TTTTTCTGCT
    GCAATTCACT TAGATCCTAA TAACTGGTTA GCGTTGTATT ATCGAGGTTG CTTATTCAGA
    AAGAGTAACC CTTTTAGAGC GCTACAGGAT TATAGTGTTT CAGCACTCAT AAATGATGGC
    TATGAGAATC TTGGTTGTTT TCTACATCGG GGAATAGTCT ATGCACATCT AAAACTTTGG
    CTGCTGGCAA TTTGTGACTT TGAAACTGTC ATTTCTCTAG AAAGAACTAT TACTTTGGCT
    TATGTAAATA TTGGCCTCAT ACATCTGCTA CACCTGGATA ACTACACGGA AGCTATTTGG
    CAATTTTCTG AGGCTATTAG AATTGATCCT TTATGTATTC AAAGCTATCT TTGTCGGGCG
    GAAACCTATT TTAAGTTGCA TAAATTGAAA AAGGCAGTAA ATGAATTGTC TCGTGCTATC
    CACCTTCAGC CAGATGGAAT CCAATTATAC ATAAGAAGAG GACAATATCT TCTTATGATG
    AAATATTATG ATCTTGCAAA GTTTACTATT TATCAAATAG CAGAAATGGA CAAAGGTCTC
    AGTGAGTTGA GTCCTATGCA GCAAGCCCTT ATTTATTCAT TTTGTGAAAA CCATGACAAG
    GCCATTGAGG TCTTGGACGG AATCAGCTGG AATAGAGCTG AGATGACCAT GTGTGCTCTA
    TTAGCAAAAG TTCAAATGAA GGCCAAGAGA ACCAAGGAAG CTGTGGAAGT GCTTAAGAAG
    GCTTTGGATG CCATTTCTCA TTCTGATAAA GGACCAGATG CCACAGCAAT TTCAGCAGAC
    TGTCTGTATA ACTTGGGTCT TTGTTACATG GAGGAAGGCA ATTTACAAAT GGCTTTTGAT
    TCTTTTACAA AAGCTGTGAA AGCAAATCCA GATTTTGCAG AAAGCTTTTA TCAGCGAGGG
    CTTTGTAAAG TGAAACTCCA CAAGGATAGC TCGATTCTGG ATTTTAATCG TGCAATTACC
    CTCAATCCAA AACATTACCA GGAGATGCAT ACTGGAGGAC TTGGGGCATA TTTAAGCCGA
    GTAGCATTCT ATGGTTTAAA AGGCAGGTAT TCCAAAGCAA TCTTGAATTG TAACAAGGCT
    ATTAAAATTT ACCCTGAAAG CGTACGTGCC TATCTCTACA GAGGAGTTCT GAAATACTAC
    AACAAGACTT ATAAGCTAGC AATTACAGAT TTAACTACAG CTATCAGCAT GGACAAAAAT
    AGTTATACAG CATTTTATAA CAGAGCATTA TGTTACACCA AGATAAGGGA ACTTCAAATG
    GCATTAACAG ATTATGGAAT TGTGCTGCTT CTTGATGCTA CAGAAACTGT AAAACTAAAT
    ACCTTCCTTA ATCGTGGACT CATCTACGTA GAACTAGGCC AGTATGGCTT TGCACTAGAG
    GATTTTAAAC AAGCTGCACT GATAAGCCGG ACTAACGGGA GCCTTTGTCA CGCCACTGCC
    ATGTGCCATC ACAGAATTAA TGAGTTTGAA GAAGCTGTCA ATTTCTTTAC TTGGGCTCTT
    AAAATTAACC CATGTTTTCT GGATGCTTAT GTTGGACGGG GAAATTCTTA CATGGAATAC
    GGTCATGATG AAGCCACCAA GCAAGCACAG AAAGACTTTC TGAAAGCACT GCATATTAAT
    CCAGCATACA TAAAAGCCAG AATTAGTTTT GGCTATAATT TGCAGGCCCA AGGAAAATTC
    CAGAAAGCTT GGAACCACTT TACCATTGCC ATAGATACTG ATCCAAAGAA CTACCTAGCC
    TATGAAGGAA GAGCTGTGGT CTGTCTTCAG ATGGGTAATA ATTTTGCTGC AATGCAGGAT
    ATTAATGCTG CCATGAAGAT CAGTACTACA GCAGAATTCT TAACAAATCG TGGGGTGATT
    CATGAGTTTA TGGGCCACAA ACAGAATGCA ATGAAAGACT ACCAAGATGC AATTACTCTA
    AACCCCAAGT ACTCGCTGGC TTACTTTAAT GCAGGAAATA TCTACTTTCA CCACAGGCAG
    TTTTCCCAGG CCAGTGACTA CTTCTCAAAA GCTTTAAAAT TTGATCCAGA AAATGAATAT
    GTTCTCATGA ATCGAGCTAT TACAAATACA ATATTAAAGA AATATGAAGA AGCAAAAGAA
    GATTTTGCAA ATGTAATTGA AAGCTGTCCC TTTTGGGCTG CAGTATATTT TAATAGAGCA
    CATTTCTACT ACTGCTTAAA GCAATATGAA CTAGCTGAGG AAGACCTTAA TAAAGCCCTG
    TCTTTGAAGC CTAATGATGC TCTAGTATAT AATTTTAGAG CAAAAGTTCG TGGTAAAATA
    GGTCTGATTG AGGAAGCTAT GGCTGACTAT AACCAAGCAC TTGATCTTGA AGACTATGCC
    TCAGTTATAT GA

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

    CloneID OHu103887
    Clone ID Related Accession (Same CDS sequence) XM_024449560.1
    Accession Version XM_024449560.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5733bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGAA
    GCTGTGGAAG TGCTTAAGAA GGCTTTGGAT GCCATTTCTC ATTCTGATAA AGGACCAGAT
    GCCACAGCAA TTTCAGCAGA CTGTCTGTAT AACTTGGGTC TTTGTTACAT GGAGGAAGGC
    AATTTACAAA TGGCTTTTGA TTCTTTTACA AAAGCTGTGA AAGCAAATCC AGATTTTGCA
    GAAAGCTTTT ATCAGCGAGG GCTTTGTAAA GTGAAACTCC ACAAGGATAG CTCGATTCTG
    GATTTTAATC GTGCAATTAC CCTCAATCCA AAACATTACC AGGAGATGCA TACTGGAGGA
    CTTGGGGCAT ATTTAAGCCG AGTAGCATTC TATGGTTTAA AAGGCAGGTA TTCCAAAGCA
    ATCTTGAATT GTAACAAGGC TATTAAAATT TACCCTGAAA GCGTACGTGC CTATCTCTAC
    AGAGGAGTTC TGAAATACTA CAACAAGACT TATAAGCTAG CAATTACAGA TTTAACTACA
    GCTATCAGCA TGGACAAAAA TAGTTATACA GCATTTTATA ACAGAGCATT ATGTTACACC
    AAGATAAGGG AACTTCAAAT GGCATTAACA GATTATGGAA TTGTGCTGCT TCTTGATGCT
    ACAGAAACTG TAAAACTAAA TACCTTCCTT AATCGTGGAC TCATCTACGT AGAACTAGGC
    CAGTATGGCT TTGCACTAGA GGATTTTAAA CAAGCTGCAC TGATAAGCCG GACTAACGGG
    AGCCTTTGTC ACGCCACTGC CATGTGCCAT CACAGAATTA ATGAGTTTGA AGAAGCTGTC
    AATTTCTTTA CTTGGGCTCT TAAAATTAAC CCATGTTTTC TGGATGCTTA TGTTGGACGG
    GGAAATTCTT ACATGGAATA CGGTCATGAT GAAGCCACCA AGCAAGCACA GAAAGACTTT
    CTGAAAGCAC TGCATATTAA TCCAGCATAC ATAAAAGCCA GAATTAGTTT TGGCTATAAT
    TTGCAGGCCC AAGGAAAATT CCAGAAAGCT TGGAACCACT TTACCATTGC CATAGATACT
    GATCCAAAGA ACTACCTAGC CTATGAAGGA AGAGCTGTGG TCTGTCTTCA GATGGGTAAT
    AATTTTGCTG CAATGCAGGA TATTAATGCT GCCATGAAGA TCAGTACTAC AGCAGAATTC
    TTAACAAATC GTGGGGTGAT TCATGAGTTT ATGGGCCACA AACAGAATGC AATGAAAGAC
    TACCAAGATG CAATTACTCT AAACCCCAAG TACTCGCTGG CTTACTTTAA TGCAGGAAAT
    ATCTACTTTC ACCACAGGCA GTTTTCCCAG GCCAGTGACT ACTTCTCAAA AGCTTTAAAA
    TTTGATCCAG AAAATGAATA TGTTCTCATG AATCGAGCTA TTACAAATAC AATATTAAAG
    AAATATGAAG AAGCAAAAGA AGATTTTGCA AATGTAATTG AAAGCTGTCC CTTTTGGGCT
    GCAGTATATT TTAATAGAGC ACATTTCTAC TACTGCTTAA AGCAATATGA ACTAGCTGAG
    GAAGACCTTA ATAAAGCCCT GTCTTTGAAG CCTAATGATG CTCTAGTATA TAATTTTAGA
    GCAAAAGTTC GTGGTAAAAT AGGTCTGATT GAGGAAGCTA TGGCTGACTA TAACCAAGCA
    CTTGATCTTG AAGACTATGC CTCAGTTATA TGA

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

    RefSeq XP_024305328.1
    CDS704..6436
    Translation

    Target ORF information:

    RefSeq Version XM_024449560.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024449560.1

    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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGAA
    GCTGTGGAAG TGCTTAAGAA GGCTTTGGAT GCCATTTCTC ATTCTGATAA AGGACCAGAT
    GCCACAGCAA TTTCAGCAGA CTGTCTGTAT AACTTGGGTC TTTGTTACAT GGAGGAAGGC
    AATTTACAAA TGGCTTTTGA TTCTTTTACA AAAGCTGTGA AAGCAAATCC AGATTTTGCA
    GAAAGCTTTT ATCAGCGAGG GCTTTGTAAA GTGAAACTCC ACAAGGATAG CTCGATTCTG
    GATTTTAATC GTGCAATTAC CCTCAATCCA AAACATTACC AGGAGATGCA TACTGGAGGA
    CTTGGGGCAT ATTTAAGCCG AGTAGCATTC TATGGTTTAA AAGGCAGGTA TTCCAAAGCA
    ATCTTGAATT GTAACAAGGC TATTAAAATT TACCCTGAAA GCGTACGTGC CTATCTCTAC
    AGAGGAGTTC TGAAATACTA CAACAAGACT TATAAGCTAG CAATTACAGA TTTAACTACA
    GCTATCAGCA TGGACAAAAA TAGTTATACA GCATTTTATA ACAGAGCATT ATGTTACACC
    AAGATAAGGG AACTTCAAAT GGCATTAACA GATTATGGAA TTGTGCTGCT TCTTGATGCT
    ACAGAAACTG TAAAACTAAA TACCTTCCTT AATCGTGGAC TCATCTACGT AGAACTAGGC
    CAGTATGGCT TTGCACTAGA GGATTTTAAA CAAGCTGCAC TGATAAGCCG GACTAACGGG
    AGCCTTTGTC ACGCCACTGC CATGTGCCAT CACAGAATTA ATGAGTTTGA AGAAGCTGTC
    AATTTCTTTA CTTGGGCTCT TAAAATTAAC CCATGTTTTC TGGATGCTTA TGTTGGACGG
    GGAAATTCTT ACATGGAATA CGGTCATGAT GAAGCCACCA AGCAAGCACA GAAAGACTTT
    CTGAAAGCAC TGCATATTAA TCCAGCATAC ATAAAAGCCA GAATTAGTTT TGGCTATAAT
    TTGCAGGCCC AAGGAAAATT CCAGAAAGCT TGGAACCACT TTACCATTGC CATAGATACT
    GATCCAAAGA ACTACCTAGC CTATGAAGGA AGAGCTGTGG TCTGTCTTCA GATGGGTAAT
    AATTTTGCTG CAATGCAGGA TATTAATGCT GCCATGAAGA TCAGTACTAC AGCAGAATTC
    TTAACAAATC GTGGGGTGAT TCATGAGTTT ATGGGCCACA AACAGAATGC AATGAAAGAC
    TACCAAGATG CAATTACTCT AAACCCCAAG TACTCGCTGG CTTACTTTAA TGCAGGAAAT
    ATCTACTTTC ACCACAGGCA GTTTTCCCAG GCCAGTGACT ACTTCTCAAA AGCTTTAAAA
    TTTGATCCAG AAAATGAATA TGTTCTCATG AATCGAGCTA TTACAAATAC AATATTAAAG
    AAATATGAAG AAGCAAAAGA AGATTTTGCA AATGTAATTG AAAGCTGTCC CTTTTGGGCT
    GCAGTATATT TTAATAGAGC ACATTTCTAC TACTGCTTAA AGCAATATGA ACTAGCTGAG
    GAAGACCTTA ATAAAGCCCT GTCTTTGAAG CCTAATGATG CTCTAGTATA TAATTTTAGA
    GCAAAAGTTC GTGGTAAAAT AGGTCTGATT GAGGAAGCTA TGGCTGACTA TAACCAAGCA
    CTTGATCTTG AAGACTATGC CTCAGTTATA TGA

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

    CloneID OHu84884
    Clone ID Related Accession (Same CDS sequence) XM_017021256.1
    Accession Version XM_017021256.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4734bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGGAAAAA TGTACCTCAA AACATCACCT ATGCAAGCAG AAACACCTGA GATACAAGCA 
    GAGTATAAAT TCCAGATGGG TGCTGAGGAA TCGCAAATGA GCGTGCATAA GGAACTTTCT
    GAAACCATGT CAAGTATTCT CCAGATTGAA CAAGAGGATA TAGAATGGGG ACCCTCAGAA
    GCAGAAAGCA TAGTATTTAA ACCTCAGGAA ATTTCGCAAG TTCAGCCAGC AGAGGAATTA
    AGTAAACCTT TGGAAGATGG ACAGCCCACA AGTGATTCAA AAGAAGCCAA GTGGGTGTCT
    TTAACGGCAA AATCACCAGA ATTCTTGCAA ATCGAAGGAA AAGAAATTAA GCGAATGCGG
    AAACGTAAAT CACTGAGACC AAGAAAGTCT TCAAAACCTC TTTGTGATAA AAAACTACAT
    AAAAAAATTC CACAAGACTA CTCCATGCCG CACCTTCATG ATCTGTGCAC CACCATCCCA
    GCCCAGGAGC TGCCTGTTGA CTTGCGCCTG GCTTCTCGAG TGTATCACAC TGCTAACAGG
    AAAGGCCACG ATACCCTGCT TGGAAAATTT GGAACCTCTT TCTTAGATGA TCGCTTTACA
    GATGAAGAAC AAACAGATAG AATATTGTAT GGAATTCCTG TTATGGATGA CAACCAAGAA
    TATGTCCATA TTCCTCCGAC ACCGCAAGGG ATACCACCTG AATTGGCACA AGGAACTAGA
    GAGCGTGCTC ACAAACCACA CTTGGAAGTC TTGGGAGAGG AAATGTATGC TTATCCAGAA
    TTCACGAAGT TGTTTTGGAA TACAGCTGCA CCTAAATTCT CTGTTCCAGA ATCTGTCATG
    AAGGAAACTC TATATCCAAA ATATGAGAGT GTTCAAGCAA GCAGACTTTT AACTGATAAA
    TTGTCATATA AAAGCAGTGT CATTACTTTA CATCAACATA GCAGAACAAA TTTTTGGTGT
    TTCTTACCAA GAAAATCTGC ATCATTTGAA AGTATCCAAA AATGGTTTAG TGCACAACCT
    ACACAACTAA GGCGAGTAAA ATCTTCTGTA GACTTGAGGA AGGAGAAGAT CATAGCTCCT
    TTGGAAATCA AGAATGATAT GCAAAGCAGT ATAAAAGAGG TTATGTTTCA GAAAGCAAAG
    GAATTGAAAC GTCAGCTCCA GCTCACTAAG CAAAATAAAA CTGAGGAGCC CAACTATGTG
    AAAGAAAGTA TAGATGACAT CTTTGATAAC ATGTGCGAAA AACACAGTTT GAGAAATCTC
    TCTTTGACTC TCATTGAAGC GTCTAAAAAA GCTGGCATTA GTTACATTGT TTATCCCAAG
    AAAAAGAAGA TGAGATGGAA GAAAAGATTG AAACAACAAA AACTTATATT CGTGCATGAA
    GAGTTATCCA AGCCTCCAAA ATCTCTTGAA AGATCAGCAT CTCATGGAAT ACTTCCGGGA
    CAGAAGAAAT ATTTGTTCAA AGTTCCATTA TATGAACGTC AAATACGGTG TCCCAGTTTA
    CCTTTGTATT TAAATTTTGA AAAATTCGTC CAAGCTAAGG GAGGAATTCC AGAAAATATT
    GATCCTCGGA CATGGGCTCT TGATAGGCTC ATTGAGTACA AAGATGCGAG CATACCTGTA
    AAAGAGAAAG ATGATAAAAT ATCAGTTCCT GAAGACCCAC CTGAAAGAGT GAAAGAACCA
    CCAAAACTAA AATTAAATGA TTATGTGGAG TCTGATCTTC CACAAGAGGT CATTAAATAT
    TATGAATCTG AAGTGAAGAT TTTGACTGAA GAAATAAATG ATAAGACAAA ATATCCTGCA
    TTTGCATATT GTAGGCGTGG AGCTATTTAT AGGAAACTGG GAAAGTTGCA GAGTGCCATG
    AATGATCTGC AGAGAGTAAT ACTCTTGGAA CCATTGTTTC TCAATGCCTA TTGGCATCGA
    CATTTAATTT ATCTTTTCCA AGACAAAATT AATGAAGCTT TGGATGACTT GAATTATATA
    CATAAATATA ATAAAAATAA TACAGAGGCA TATTTGTCAA AAGCAGAAAT TTACAGGGGA
    AAAAAAGACA TAACTTTGGC AATTCTAAAC TATACCCAGG CAATTAAATC CACGCCCACA
    GATGCTGATA TCTATTTCAG GAGGGGTGAG ATGTATGAAA TAACAAACAA AGTACTGGCC
    ATTGATGACT TTTCGAAATG TATTTTTTAT GATCCCAAAA GAACAGATGC ATTATTGAAA
    CGTGGGCTGT TTTATTGTGA AAATGAAAAC TGGTTTGCAG CCATAGAGGA TTTTACAGCC
    TTGTTAAATA TAGATCACCA AAATTCTCAA GCAAGGACAT ACCGAGGGAT TGCATATGTT
    AAATGGAAAT TTTATAAAGA AGCAACTCAA GATTTTTCTG CTGCAATTCA CTTAGATCCT
    AATAACTGGT TAGCGTTGTA TTATCGAGGT TGCTTATTCA GAAAGAGTAA CCCTTTTAGA
    GCGCTACAGG ATTATAGTGT TTCAGCACTC ATAAATGATG GCTATGAGAA TCTTGGTTGT
    TTTCTACATC GGGGAATAGT CTATGCACAT CTAAAACTTT GGCTGCTGGC AATTTGTGAC
    TTTGAAACTG TCATTTCTCT AGAAAGAACT ATTACTTTGG CTTATGTAAA TATTGGCCTC
    ATACATCTGC TACACCTGGA TAACTACACG GAAGCTATTT GGCAATTTTC TGAGGCTATT
    AGAATTGATC CTTTATGTAT TCAAAGCTAT CTTTGTCGGG CGGAAACCTA TTTTAAGTTG
    CATAAATTGA AAAAGGCAGT AAATGAATTG TCTCGTGCTA TCCACCTTCA GCCAGATGGA
    ATCCAATTAT ACATAAGAAG AGGACAATAT CTTCTTATGA TGAAATATTA TGATCTTGCA
    AAGTTTACTA TTTATCAAAT AGCAGAAATG GACAAAGGTC TCAGTGAGTT GAGTCCTATG
    CAGCAAGCCC TTATTTATTC ATTTTGTGAA AACCATGACA AGGCCATTGA GGTCTTGGAC
    GGAATCAGCT GGAATAGAGC TGAGATGACC ATGTGTGCTC TATTAGCAAA AGTTCAAATG
    AAGGCCAAGA GAACCAAGGA AGCTGTGGAA GTGCTTAAGA AGGCTTTGGA TGCCATTTCT
    CATTCTGATA AAGGACCAGA TGCCACAGCA ATTTCAGCAG ACTGTCTGTA TAACTTGGGT
    CTTTGTTACA TGGAGGAAGG CAATTTACAA ATGGCTTTTG ATTCTTTTAC AAAAGCTGTG
    AAAGCAAATC CAGATTTTGC AGAAAGCTTT TATCAGCGAG GGCTTTGTAA AGTGAAACTC
    CACAAGGATA GCTCGATTCT GGATTTTAAT CGTGCAATTA CCCTCAATCC AAAACATTAC
    CAGGAGATGC ATACTGGAGG ACTTGGGGCA TATTTAAGCC GAGTAGCATT CTATGGTTTA
    AAAGGCAGGT ATTCCAAAGC AATCTTGAAT TGTAACAAGG CTATTAAAAT TTACCCTGAA
    AGCGTACGTG CCTATCTCTA CAGAGGAGTT CTGAAATACT ACAACAAGAC TTATAAGCTA
    GCAATTACAG ATTTAACTAC AGCTATCAGC ATGGACAAAA ATAGTTATAC AGCATTTTAT
    AACAGAGCAT TATGTTACAC CAAGATAAGG GAACTTCAAA TGGCATTAAC AGATTATGGA
    ATTGTGCTGC TTCTTGATGC TACAGAAACT GTAAAACTAA ATACCTTCCT TAATCGTGGA
    CTCATCTACG TAGAACTAGG CCAGTATGGC TTTGCACTAG AGGATTTTAA ACAAGCTGCA
    CTGATAAGCC GGACTAACGG GAGCCTTTGT CACGCCACTG CCATGTGCCA TCACAGAATT
    AATGAGTTTG AAGAAGCTGT CAATTTCTTT ACTTGGGCTC TTAAAATTAA CCCATGTTTT
    CTGGATGCTT ATGTTGGACG GGGAAATTCT TACATGGAAT ACGGTCATGA TGAAGCCACC
    AAGCAAGCAC AGAAAGACTT TCTGAAAGCA CTGCATATTA ATCCAGCATA CATAAAAGCC
    AGAATTAGTT TTGGCTATAA TTTGCAGGCC CAAGGAAAAT TCCAGAAAGC TTGGAACCAC
    TTTACCATTG CCATAGATAC TGATCCAAAG AACTACCTAG CCTATGAAGG AAGAGCTGTG
    GTCTGTCTTC AGATGGGTAA TAATTTTGCT GCAATGCAGG ATATTAATGC TGCCATGAAG
    ATCAGTACTA CAGCAGAATT CTTAACAAAT CGTGGGGTGA TTCATGAGTT TATGGGCCAC
    AAACAGAATG CAATGAAAGA CTACCAAGAT GCAATTACTC TAAACCCCAA GTACTCGCTG
    GCTTACTTTA ATGCAGGAAA TATCTACTTT CACCACAGGC AGTTTTCCCA GGCCAGTGAC
    TACTTCTCAA AAGCTTTAAA ATTTGATCCA GAAAATGAAT ATGTTCTCAT GAATCGAGCT
    ATTACAAATA CAATATTAAA GAAATATGAA GAAGCAAAAG AAGATTTTGC AAATGTAATT
    GAAAGCTGTC CCTTTTGGGC TGCAGTATAT TTTAATAGAG CACATTTCTA CTACTGCTTA
    AAGCAATATG AACTAGCTGA GGAAGACCTT AATAAAGCCC TGTCTTTGAA GCCTAATGAT
    GCTCTAGTAT ATAATTTTAG AGCAAAAGTT CGTGGTAAAA TAGGTCTGAT TGAGGAAGCT
    ATGGCTGACT ATAACCAAGC ACTTGATCTT GAAGACTATG CCTCAGTTAT ATGA

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

    RefSeq XP_016876745.1
    CDS1947..6680
    Translation

    Target ORF information:

    RefSeq Version XM_017021256.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017021256.1

    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
    ATGGGAAAAA TGTACCTCAA AACATCACCT ATGCAAGCAG AAACACCTGA GATACAAGCA 
    GAGTATAAAT TCCAGATGGG TGCTGAGGAA TCGCAAATGA GCGTGCATAA GGAACTTTCT
    GAAACCATGT CAAGTATTCT CCAGATTGAA CAAGAGGATA TAGAATGGGG ACCCTCAGAA
    GCAGAAAGCA TAGTATTTAA ACCTCAGGAA ATTTCGCAAG TTCAGCCAGC AGAGGAATTA
    AGTAAACCTT TGGAAGATGG ACAGCCCACA AGTGATTCAA AAGAAGCCAA GTGGGTGTCT
    TTAACGGCAA AATCACCAGA ATTCTTGCAA ATCGAAGGAA AAGAAATTAA GCGAATGCGG
    AAACGTAAAT CACTGAGACC AAGAAAGTCT TCAAAACCTC TTTGTGATAA AAAACTACAT
    AAAAAAATTC CACAAGACTA CTCCATGCCG CACCTTCATG ATCTGTGCAC CACCATCCCA
    GCCCAGGAGC TGCCTGTTGA CTTGCGCCTG GCTTCTCGAG TGTATCACAC TGCTAACAGG
    AAAGGCCACG ATACCCTGCT TGGAAAATTT GGAACCTCTT TCTTAGATGA TCGCTTTACA
    GATGAAGAAC AAACAGATAG AATATTGTAT GGAATTCCTG TTATGGATGA CAACCAAGAA
    TATGTCCATA TTCCTCCGAC ACCGCAAGGG ATACCACCTG AATTGGCACA AGGAACTAGA
    GAGCGTGCTC ACAAACCACA CTTGGAAGTC TTGGGAGAGG AAATGTATGC TTATCCAGAA
    TTCACGAAGT TGTTTTGGAA TACAGCTGCA CCTAAATTCT CTGTTCCAGA ATCTGTCATG
    AAGGAAACTC TATATCCAAA ATATGAGAGT GTTCAAGCAA GCAGACTTTT AACTGATAAA
    TTGTCATATA AAAGCAGTGT CATTACTTTA CATCAACATA GCAGAACAAA TTTTTGGTGT
    TTCTTACCAA GAAAATCTGC ATCATTTGAA AGTATCCAAA AATGGTTTAG TGCACAACCT
    ACACAACTAA GGCGAGTAAA ATCTTCTGTA GACTTGAGGA AGGAGAAGAT CATAGCTCCT
    TTGGAAATCA AGAATGATAT GCAAAGCAGT ATAAAAGAGG TTATGTTTCA GAAAGCAAAG
    GAATTGAAAC GTCAGCTCCA GCTCACTAAG CAAAATAAAA CTGAGGAGCC CAACTATGTG
    AAAGAAAGTA TAGATGACAT CTTTGATAAC ATGTGCGAAA AACACAGTTT GAGAAATCTC
    TCTTTGACTC TCATTGAAGC GTCTAAAAAA GCTGGCATTA GTTACATTGT TTATCCCAAG
    AAAAAGAAGA TGAGATGGAA GAAAAGATTG AAACAACAAA AACTTATATT CGTGCATGAA
    GAGTTATCCA AGCCTCCAAA ATCTCTTGAA AGATCAGCAT CTCATGGAAT ACTTCCGGGA
    CAGAAGAAAT ATTTGTTCAA AGTTCCATTA TATGAACGTC AAATACGGTG TCCCAGTTTA
    CCTTTGTATT TAAATTTTGA AAAATTCGTC CAAGCTAAGG GAGGAATTCC AGAAAATATT
    GATCCTCGGA CATGGGCTCT TGATAGGCTC ATTGAGTACA AAGATGCGAG CATACCTGTA
    AAAGAGAAAG ATGATAAAAT ATCAGTTCCT GAAGACCCAC CTGAAAGAGT GAAAGAACCA
    CCAAAACTAA AATTAAATGA TTATGTGGAG TCTGATCTTC CACAAGAGGT CATTAAATAT
    TATGAATCTG AAGTGAAGAT TTTGACTGAA GAAATAAATG ATAAGACAAA ATATCCTGCA
    TTTGCATATT GTAGGCGTGG AGCTATTTAT AGGAAACTGG GAAAGTTGCA GAGTGCCATG
    AATGATCTGC AGAGAGTAAT ACTCTTGGAA CCATTGTTTC TCAATGCCTA TTGGCATCGA
    CATTTAATTT ATCTTTTCCA AGACAAAATT AATGAAGCTT TGGATGACTT GAATTATATA
    CATAAATATA ATAAAAATAA TACAGAGGCA TATTTGTCAA AAGCAGAAAT TTACAGGGGA
    AAAAAAGACA TAACTTTGGC AATTCTAAAC TATACCCAGG CAATTAAATC CACGCCCACA
    GATGCTGATA TCTATTTCAG GAGGGGTGAG ATGTATGAAA TAACAAACAA AGTACTGGCC
    ATTGATGACT TTTCGAAATG TATTTTTTAT GATCCCAAAA GAACAGATGC ATTATTGAAA
    CGTGGGCTGT TTTATTGTGA AAATGAAAAC TGGTTTGCAG CCATAGAGGA TTTTACAGCC
    TTGTTAAATA TAGATCACCA AAATTCTCAA GCAAGGACAT ACCGAGGGAT TGCATATGTT
    AAATGGAAAT TTTATAAAGA AGCAACTCAA GATTTTTCTG CTGCAATTCA CTTAGATCCT
    AATAACTGGT TAGCGTTGTA TTATCGAGGT TGCTTATTCA GAAAGAGTAA CCCTTTTAGA
    GCGCTACAGG ATTATAGTGT TTCAGCACTC ATAAATGATG GCTATGAGAA TCTTGGTTGT
    TTTCTACATC GGGGAATAGT CTATGCACAT CTAAAACTTT GGCTGCTGGC AATTTGTGAC
    TTTGAAACTG TCATTTCTCT AGAAAGAACT ATTACTTTGG CTTATGTAAA TATTGGCCTC
    ATACATCTGC TACACCTGGA TAACTACACG GAAGCTATTT GGCAATTTTC TGAGGCTATT
    AGAATTGATC CTTTATGTAT TCAAAGCTAT CTTTGTCGGG CGGAAACCTA TTTTAAGTTG
    CATAAATTGA AAAAGGCAGT AAATGAATTG TCTCGTGCTA TCCACCTTCA GCCAGATGGA
    ATCCAATTAT ACATAAGAAG AGGACAATAT CTTCTTATGA TGAAATATTA TGATCTTGCA
    AAGTTTACTA TTTATCAAAT AGCAGAAATG GACAAAGGTC TCAGTGAGTT GAGTCCTATG
    CAGCAAGCCC TTATTTATTC ATTTTGTGAA AACCATGACA AGGCCATTGA GGTCTTGGAC
    GGAATCAGCT GGAATAGAGC TGAGATGACC ATGTGTGCTC TATTAGCAAA AGTTCAAATG
    AAGGCCAAGA GAACCAAGGA AGCTGTGGAA GTGCTTAAGA AGGCTTTGGA TGCCATTTCT
    CATTCTGATA AAGGACCAGA TGCCACAGCA ATTTCAGCAG ACTGTCTGTA TAACTTGGGT
    CTTTGTTACA TGGAGGAAGG CAATTTACAA ATGGCTTTTG ATTCTTTTAC AAAAGCTGTG
    AAAGCAAATC CAGATTTTGC AGAAAGCTTT TATCAGCGAG GGCTTTGTAA AGTGAAACTC
    CACAAGGATA GCTCGATTCT GGATTTTAAT CGTGCAATTA CCCTCAATCC AAAACATTAC
    CAGGAGATGC ATACTGGAGG ACTTGGGGCA TATTTAAGCC GAGTAGCATT CTATGGTTTA
    AAAGGCAGGT ATTCCAAAGC AATCTTGAAT TGTAACAAGG CTATTAAAAT TTACCCTGAA
    AGCGTACGTG CCTATCTCTA CAGAGGAGTT CTGAAATACT ACAACAAGAC TTATAAGCTA
    GCAATTACAG ATTTAACTAC AGCTATCAGC ATGGACAAAA ATAGTTATAC AGCATTTTAT
    AACAGAGCAT TATGTTACAC CAAGATAAGG GAACTTCAAA TGGCATTAAC AGATTATGGA
    ATTGTGCTGC TTCTTGATGC TACAGAAACT GTAAAACTAA ATACCTTCCT TAATCGTGGA
    CTCATCTACG TAGAACTAGG CCAGTATGGC TTTGCACTAG AGGATTTTAA ACAAGCTGCA
    CTGATAAGCC GGACTAACGG GAGCCTTTGT CACGCCACTG CCATGTGCCA TCACAGAATT
    AATGAGTTTG AAGAAGCTGT CAATTTCTTT ACTTGGGCTC TTAAAATTAA CCCATGTTTT
    CTGGATGCTT ATGTTGGACG GGGAAATTCT TACATGGAAT ACGGTCATGA TGAAGCCACC
    AAGCAAGCAC AGAAAGACTT TCTGAAAGCA CTGCATATTA ATCCAGCATA CATAAAAGCC
    AGAATTAGTT TTGGCTATAA TTTGCAGGCC CAAGGAAAAT TCCAGAAAGC TTGGAACCAC
    TTTACCATTG CCATAGATAC TGATCCAAAG AACTACCTAG CCTATGAAGG AAGAGCTGTG
    GTCTGTCTTC AGATGGGTAA TAATTTTGCT GCAATGCAGG ATATTAATGC TGCCATGAAG
    ATCAGTACTA CAGCAGAATT CTTAACAAAT CGTGGGGTGA TTCATGAGTT TATGGGCCAC
    AAACAGAATG CAATGAAAGA CTACCAAGAT GCAATTACTC TAAACCCCAA GTACTCGCTG
    GCTTACTTTA ATGCAGGAAA TATCTACTTT CACCACAGGC AGTTTTCCCA GGCCAGTGAC
    TACTTCTCAA AAGCTTTAAA ATTTGATCCA GAAAATGAAT ATGTTCTCAT GAATCGAGCT
    ATTACAAATA CAATATTAAA GAAATATGAA GAAGCAAAAG AAGATTTTGC AAATGTAATT
    GAAAGCTGTC CCTTTTGGGC TGCAGTATAT TTTAATAGAG CACATTTCTA CTACTGCTTA
    AAGCAATATG AACTAGCTGA GGAAGACCTT AATAAAGCCC TGTCTTTGAA GCCTAATGAT
    GCTCTAGTAT ATAATTTTAG AGCAAAAGTT CGTGGTAAAA TAGGTCTGAT TGAGGAAGCT
    ATGGCTGACT ATAACCAAGC ACTTGATCTT GAAGACTATG CCTCAGTTAT ATGA

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

    CloneID OHu79158
    Clone ID Related Accession (Same CDS sequence) XM_011537430.2
    Accession Version XM_011537430.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4290bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011537430.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGCCGCACC TTCATGATCT GTGCACCACC ATCCCAGCCC AGGAGCTGCC TGTTGACTTG 
    CGCCTGGCTT CTCGAGTGTA TCACACTGCT AACAGGAAAG GCCACGATAC CCTGCTTGGA
    AAATTTGGAA CCTCTTTCTT AGATGATCGC TTTACAGATG AAGAACAAAC AGATAGAATA
    TTGTATGGAA TTCCTGTTAT GGATGACAAC CAAGAATATG TCCATATTCC TCCGACACCG
    CAAGGGATAC CACCTGAATT GGCACAAGGA ACTAGAGAGC GTGCTCACAA ACCACACTTG
    GAAGTCTTGG GAGAGGAAAT GTATGCTTAT CCAGAATTCA CGAAGTTGTT TTGGAATACA
    GCTGCACCTA AATTCTCTGT TCCAGAATCT GTCATGAAGG AAACTCTATA TCCAAAATAT
    GAGAGTGTTC AAGCAAGCAG ACTTTTAACT GATAAATTGT CATATAAAAG CAGTGTCATT
    ACTTTACATC AACATAGCAG AACAAATTTT TGGTGTTTCT TACCAAGAAA ATCTGCATCA
    TTTGAAAGTA TCCAAAAATG GTTTAGTGCA CAACCTACAC AACTAAGGCG AGTAAAATCT
    TCTGTAGACT TGAGGAAGGA GAAGATCATA GCTCCTTTGG AAATCAAGAA TGATATGCAA
    AGCAGTATAA AAGAGGTTAT GTTTCAGAAA GCAAAGGAAT TGAAACGTCA GCTCCAGCTC
    ACTAAGCAAA ATAAAACTGA GGAGCCCAAC TATGTGAAAG AAAGTATAGA TGACATCTTT
    GATAACATGT GCGAAAAACA CAGTTTGAGA AATCTCTCTT TGACTCTCAT TGAAGCGTCT
    AAAAAAGCTG GCATTAGTTA CATTGTTTAT CCCAAGAAAA AGAAGATGAG ATGGAAGAAA
    AGATTGAAAC AACAAAAACT TATATTCGTG CATGAAGAGT TATCCAAGCC TCCAAAATCT
    CTTGAAAGAT CAGCATCTCA TGGAATACTT CCGGGACAGA AGAAATATTT GTTCAAAGTT
    CCATTATATG AACGTCAAAT ACGGTGTCCC AGTTTACCTT TGTATTTAAA TTTTGAAAAA
    TTCGTCCAAG CTAAGGGAGG AATTCCAGAA AATATTGATC CTCGGACATG GGCTCTTGAT
    AGGCTCATTG AGTACAAAGA TGCGAGCATA CCTGTAAAAG AGAAAGATGA TAAAATATCA
    GTTCCTGAAG ACCCACCTGA AAGAGTGAAA GAACCACCAA AACTAAAATT AAATGATTAT
    GTGGAGTCTG ATCTTCCACA AGAGGTCATT AAATATTATG AATCTGAAGT GAAGATTTTG
    ACTGAAGAAA TAAATGATAA GACAAAATAT CCTGCATTTG CATATTGTAG GCGTGGAGCT
    ATTTATAGGA AACTGGGAAA GTTGCAGAGT GCCATGAATG ATCTGCAGAG AGTAATACTC
    TTGGAACCAT TGTTTCTCAA TGCCTATTGG CATCGACATT TAATTTATCT TTTCCAAGAC
    AAAATTAATG AAGCTTTGGA TGACTTGAAT TATATACATA AATATAATAA AAATAATACA
    GAGGCATATT TGTCAAAAGC AGAAATTTAC AGGGGAAAAA AAGACATAAC TTTGGCAATT
    CTAAACTATA CCCAGGCAAT TAAATCCACG CCCACAGATG CTGATATCTA TTTCAGGAGG
    GGTGAGATGT ATGAAATAAC AAACAAAGTA CTGGCCATTG ATGACTTTTC GAAATGTATT
    TTTTATGATC CCAAAAGAAC AGATGCATTA TTGAAACGTG GGCTGTTTTA TTGTGAAAAT
    GAAAACTGGT TTGCAGCCAT AGAGGATTTT ACAGCCTTGT TAAATATAGA TCACCAAAAT
    TCTCAAGCAA GGACATACCG AGGGATTGCA TATGTTAAAT GGAAATTTTA TAAAGAAGCA
    ACTCAAGATT TTTCTGCTGC AATTCACTTA GATCCTAATA ACTGGTTAGC GTTGTATTAT
    CGAGGTTGCT TATTCAGAAA GAGTAACCCT TTTAGAGCGC TACAGGATTA TAGTGTTTCA
    GCACTCATAA ATGATGGCTA TGAGAATCTT GGTTGTTTTC TACATCGGGG AATAGTCTAT
    GCACATCTAA AACTTTGGCT GCTGGCAATT TGTGACTTTG AAACTGTCAT TTCTCTAGAA
    AGAACTATTA CTTTGGCTTA TGTAAATATT GGCCTCATAC ATCTGCTACA CCTGGATAAC
    TACACGGAAG CTATTTGGCA ATTTTCTGAG GCTATTAGAA TTGATCCTTT ATGTATTCAA
    AGCTATCTTT GTCGGGCGGA AACCTATTTT AAGTTGCATA AATTGAAAAA GGCAGTAAAT
    GAATTGTCTC GTGCTATCCA CCTTCAGCCA GATGGAATCC AATTATACAT AAGAAGAGGA
    CAATATCTTC TTATGATGAA ATATTATGAT CTTGCAAAGT TTACTATTTA TCAAATAGCA
    GAAATGGACA AAGGTCTCAG TGAGTTGAGT CCTATGCAGC AAGCCCTTAT TTATTCATTT
    TGTGAAAACC ATGACAAGGC CATTGAGGTC TTGGACGGAA TCAGCTGGAA TAGAGCTGAG
    ATGACCATGT GTGCTCTATT AGCAAAAGTT CAAATGAAGG CCAAGAGAAC CAAGGAAGCT
    GTGGAAGTGC TTAAGAAGGC TTTGGATGCC ATTTCTCATT CTGATAAAGG ACCAGATGCC
    ACAGCAATTT CAGCAGACTG TCTGTATAAC TTGGGTCTTT GTTACATGGA GGAAGGCAAT
    TTACAAATGG CTTTTGATTC TTTTACAAAA GCTGTGAAAG CAAATCCAGA TTTTGCAGAA
    AGCTTTTATC AGCGAGGGCT TTGTAAAGTG AAACTCCACA AGGATAGCTC GATTCTGGAT
    TTTAATCGTG CAATTACCCT CAATCCAAAA CATTACCAGG AGATGCATAC TGGAGGACTT
    GGGGCATATT TAAGCCGAGT AGCATTCTAT GGTTTAAAAG GCAGGTATTC CAAAGCAATC
    TTGAATTGTA ACAAGGCTAT TAAAATTTAC CCTGAAAGCG TACGTGCCTA TCTCTACAGA
    GGAGTTCTGA AATACTACAA CAAGACTTAT AAGCTAGCAA TTACAGATTT AACTACAGCT
    ATCAGCATGG ACAAAAATAG TTATACAGCA TTTTATAACA GAGCATTATG TTACACCAAG
    ATAAGGGAAC TTCAAATGGC ATTAACAGAT TATGGAATTG TGCTGCTTCT TGATGCTACA
    GAAACTGTAA AACTAAATAC CTTCCTTAAT CGTGGACTCA TCTACGTAGA ACTAGGCCAG
    TATGGCTTTG CACTAGAGGA TTTTAAACAA GCTGCACTGA TAAGCCGGAC TAACGGGAGC
    CTTTGTCACG CCACTGCCAT GTGCCATCAC AGAATTAATG AGTTTGAAGA AGCTGTCAAT
    TTCTTTACTT GGGCTCTTAA AATTAACCCA TGTTTTCTGG ATGCTTATGT TGGACGGGGA
    AATTCTTACA TGGAATACGG TCATGATGAA GCCACCAAGC AAGCACAGAA AGACTTTCTG
    AAAGCACTGC ATATTAATCC AGCATACATA AAAGCCAGAA TTAGTTTTGG CTATAATTTG
    CAGGCCCAAG GAAAATTCCA GAAAGCTTGG AACCACTTTA CCATTGCCAT AGATACTGAT
    CCAAAGAACT ACCTAGCCTA TGAAGGAAGA GCTGTGGTCT GTCTTCAGAT GGGTAATAAT
    TTTGCTGCAA TGCAGGATAT TAATGCTGCC ATGAAGATCA GTACTACAGC AGAATTCTTA
    ACAAATCGTG GGGTGATTCA TGAGTTTATG GGCCACAAAC AGAATGCAAT GAAAGACTAC
    CAAGATGCAA TTACTCTAAA CCCCAAGTAC TCGCTGGCTT ACTTTAATGC AGGAAATATC
    TACTTTCACC ACAGGCAGTT TTCCCAGGCC AGTGACTACT TCTCAAAAGC TTTAAAATTT
    GATCCAGAAA ATGAATATGT TCTCATGAAT CGAGCTATTA CAAATACAAT ATTAAAGAAA
    TATGAAGAAG CAAAAGAAGA TTTTGCAAAT GTAATTGAAA GCTGTCCCTT TTGGGCTGCA
    GTATATTTTA ATAGAGCACA TTTCTACTAC TGCTTAAAGC AATATGAACT AGCTGAGGAA
    GACCTTAATA AAGCCCTGTC TTTGAAGCCT AATGATGCTC TAGTATATAA TTTTAGAGCA
    AAAGTTCGTG GTAAAATAGG TCTGATTGAG GAAGCTATGG CTGACTATAA CCAAGCACTT
    GATCTTGAAG ACTATGCCTC AGTTATATGA

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

    RefSeq XP_011535732.1
    CDS109..4398
    Translation

    Target ORF information:

    RefSeq Version XM_011537430.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011537430.2

    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
    ATGCCGCACC TTCATGATCT GTGCACCACC ATCCCAGCCC AGGAGCTGCC TGTTGACTTG 
    CGCCTGGCTT CTCGAGTGTA TCACACTGCT AACAGGAAAG GCCACGATAC CCTGCTTGGA
    AAATTTGGAA CCTCTTTCTT AGATGATCGC TTTACAGATG AAGAACAAAC AGATAGAATA
    TTGTATGGAA TTCCTGTTAT GGATGACAAC CAAGAATATG TCCATATTCC TCCGACACCG
    CAAGGGATAC CACCTGAATT GGCACAAGGA ACTAGAGAGC GTGCTCACAA ACCACACTTG
    GAAGTCTTGG GAGAGGAAAT GTATGCTTAT CCAGAATTCA CGAAGTTGTT TTGGAATACA
    GCTGCACCTA AATTCTCTGT TCCAGAATCT GTCATGAAGG AAACTCTATA TCCAAAATAT
    GAGAGTGTTC AAGCAAGCAG ACTTTTAACT GATAAATTGT CATATAAAAG CAGTGTCATT
    ACTTTACATC AACATAGCAG AACAAATTTT TGGTGTTTCT TACCAAGAAA ATCTGCATCA
    TTTGAAAGTA TCCAAAAATG GTTTAGTGCA CAACCTACAC AACTAAGGCG AGTAAAATCT
    TCTGTAGACT TGAGGAAGGA GAAGATCATA GCTCCTTTGG AAATCAAGAA TGATATGCAA
    AGCAGTATAA AAGAGGTTAT GTTTCAGAAA GCAAAGGAAT TGAAACGTCA GCTCCAGCTC
    ACTAAGCAAA ATAAAACTGA GGAGCCCAAC TATGTGAAAG AAAGTATAGA TGACATCTTT
    GATAACATGT GCGAAAAACA CAGTTTGAGA AATCTCTCTT TGACTCTCAT TGAAGCGTCT
    AAAAAAGCTG GCATTAGTTA CATTGTTTAT CCCAAGAAAA AGAAGATGAG ATGGAAGAAA
    AGATTGAAAC AACAAAAACT TATATTCGTG CATGAAGAGT TATCCAAGCC TCCAAAATCT
    CTTGAAAGAT CAGCATCTCA TGGAATACTT CCGGGACAGA AGAAATATTT GTTCAAAGTT
    CCATTATATG AACGTCAAAT ACGGTGTCCC AGTTTACCTT TGTATTTAAA TTTTGAAAAA
    TTCGTCCAAG CTAAGGGAGG AATTCCAGAA AATATTGATC CTCGGACATG GGCTCTTGAT
    AGGCTCATTG AGTACAAAGA TGCGAGCATA CCTGTAAAAG AGAAAGATGA TAAAATATCA
    GTTCCTGAAG ACCCACCTGA AAGAGTGAAA GAACCACCAA AACTAAAATT AAATGATTAT
    GTGGAGTCTG ATCTTCCACA AGAGGTCATT AAATATTATG AATCTGAAGT GAAGATTTTG
    ACTGAAGAAA TAAATGATAA GACAAAATAT CCTGCATTTG CATATTGTAG GCGTGGAGCT
    ATTTATAGGA AACTGGGAAA GTTGCAGAGT GCCATGAATG ATCTGCAGAG AGTAATACTC
    TTGGAACCAT TGTTTCTCAA TGCCTATTGG CATCGACATT TAATTTATCT TTTCCAAGAC
    AAAATTAATG AAGCTTTGGA TGACTTGAAT TATATACATA AATATAATAA AAATAATACA
    GAGGCATATT TGTCAAAAGC AGAAATTTAC AGGGGAAAAA AAGACATAAC TTTGGCAATT
    CTAAACTATA CCCAGGCAAT TAAATCCACG CCCACAGATG CTGATATCTA TTTCAGGAGG
    GGTGAGATGT ATGAAATAAC AAACAAAGTA CTGGCCATTG ATGACTTTTC GAAATGTATT
    TTTTATGATC CCAAAAGAAC AGATGCATTA TTGAAACGTG GGCTGTTTTA TTGTGAAAAT
    GAAAACTGGT TTGCAGCCAT AGAGGATTTT ACAGCCTTGT TAAATATAGA TCACCAAAAT
    TCTCAAGCAA GGACATACCG AGGGATTGCA TATGTTAAAT GGAAATTTTA TAAAGAAGCA
    ACTCAAGATT TTTCTGCTGC AATTCACTTA GATCCTAATA ACTGGTTAGC GTTGTATTAT
    CGAGGTTGCT TATTCAGAAA GAGTAACCCT TTTAGAGCGC TACAGGATTA TAGTGTTTCA
    GCACTCATAA ATGATGGCTA TGAGAATCTT GGTTGTTTTC TACATCGGGG AATAGTCTAT
    GCACATCTAA AACTTTGGCT GCTGGCAATT TGTGACTTTG AAACTGTCAT TTCTCTAGAA
    AGAACTATTA CTTTGGCTTA TGTAAATATT GGCCTCATAC ATCTGCTACA CCTGGATAAC
    TACACGGAAG CTATTTGGCA ATTTTCTGAG GCTATTAGAA TTGATCCTTT ATGTATTCAA
    AGCTATCTTT GTCGGGCGGA AACCTATTTT AAGTTGCATA AATTGAAAAA GGCAGTAAAT
    GAATTGTCTC GTGCTATCCA CCTTCAGCCA GATGGAATCC AATTATACAT AAGAAGAGGA
    CAATATCTTC TTATGATGAA ATATTATGAT CTTGCAAAGT TTACTATTTA TCAAATAGCA
    GAAATGGACA AAGGTCTCAG TGAGTTGAGT CCTATGCAGC AAGCCCTTAT TTATTCATTT
    TGTGAAAACC ATGACAAGGC CATTGAGGTC TTGGACGGAA TCAGCTGGAA TAGAGCTGAG
    ATGACCATGT GTGCTCTATT AGCAAAAGTT CAAATGAAGG CCAAGAGAAC CAAGGAAGCT
    GTGGAAGTGC TTAAGAAGGC TTTGGATGCC ATTTCTCATT CTGATAAAGG ACCAGATGCC
    ACAGCAATTT CAGCAGACTG TCTGTATAAC TTGGGTCTTT GTTACATGGA GGAAGGCAAT
    TTACAAATGG CTTTTGATTC TTTTACAAAA GCTGTGAAAG CAAATCCAGA TTTTGCAGAA
    AGCTTTTATC AGCGAGGGCT TTGTAAAGTG AAACTCCACA AGGATAGCTC GATTCTGGAT
    TTTAATCGTG CAATTACCCT CAATCCAAAA CATTACCAGG AGATGCATAC TGGAGGACTT
    GGGGCATATT TAAGCCGAGT AGCATTCTAT GGTTTAAAAG GCAGGTATTC CAAAGCAATC
    TTGAATTGTA ACAAGGCTAT TAAAATTTAC CCTGAAAGCG TACGTGCCTA TCTCTACAGA
    GGAGTTCTGA AATACTACAA CAAGACTTAT AAGCTAGCAA TTACAGATTT AACTACAGCT
    ATCAGCATGG ACAAAAATAG TTATACAGCA TTTTATAACA GAGCATTATG TTACACCAAG
    ATAAGGGAAC TTCAAATGGC ATTAACAGAT TATGGAATTG TGCTGCTTCT TGATGCTACA
    GAAACTGTAA AACTAAATAC CTTCCTTAAT CGTGGACTCA TCTACGTAGA ACTAGGCCAG
    TATGGCTTTG CACTAGAGGA TTTTAAACAA GCTGCACTGA TAAGCCGGAC TAACGGGAGC
    CTTTGTCACG CCACTGCCAT GTGCCATCAC AGAATTAATG AGTTTGAAGA AGCTGTCAAT
    TTCTTTACTT GGGCTCTTAA AATTAACCCA TGTTTTCTGG ATGCTTATGT TGGACGGGGA
    AATTCTTACA TGGAATACGG TCATGATGAA GCCACCAAGC AAGCACAGAA AGACTTTCTG
    AAAGCACTGC ATATTAATCC AGCATACATA AAAGCCAGAA TTAGTTTTGG CTATAATTTG
    CAGGCCCAAG GAAAATTCCA GAAAGCTTGG AACCACTTTA CCATTGCCAT AGATACTGAT
    CCAAAGAACT ACCTAGCCTA TGAAGGAAGA GCTGTGGTCT GTCTTCAGAT GGGTAATAAT
    TTTGCTGCAA TGCAGGATAT TAATGCTGCC ATGAAGATCA GTACTACAGC AGAATTCTTA
    ACAAATCGTG GGGTGATTCA TGAGTTTATG GGCCACAAAC AGAATGCAAT GAAAGACTAC
    CAAGATGCAA TTACTCTAAA CCCCAAGTAC TCGCTGGCTT ACTTTAATGC AGGAAATATC
    TACTTTCACC ACAGGCAGTT TTCCCAGGCC AGTGACTACT TCTCAAAAGC TTTAAAATTT
    GATCCAGAAA ATGAATATGT TCTCATGAAT CGAGCTATTA CAAATACAAT ATTAAAGAAA
    TATGAAGAAG CAAAAGAAGA TTTTGCAAAT GTAATTGAAA GCTGTCCCTT TTGGGCTGCA
    GTATATTTTA ATAGAGCACA TTTCTACTAC TGCTTAAAGC AATATGAACT AGCTGAGGAA
    GACCTTAATA AAGCCCTGTC TTTGAAGCCT AATGATGCTC TAGTATATAA TTTTAGAGCA
    AAAGTTCGTG GTAAAATAGG TCTGATTGAG GAAGCTATGG CTGACTATAA CCAAGCACTT
    GATCTTGAAG ACTATGCCTC AGTTATATGA

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

    CloneID OHu79154
    Clone ID Related Accession (Same CDS sequence) NM_001310135.1 , NM_001310135.2
    Accession Version NM_001310135.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5709bp)
    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 2018-07-22
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL121790.4, AL136296.3 and AL163151.1. On or before Jun 30, 2015 this sequence version replaced XM_006720346.2, XM_006726554.2. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2153427, SAMN04284274 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGAA
    GCTGTGGAAG TGCTTAAGAA GGCTTTGGAT GCCATTTCTC ATTCTGATAA AGGACCAGAT
    GCCACAGCAA TTTCAGCAGA CTGTCTGTAT AACTTGGGTC TTTGTTACAT GGAGGAAGGC
    AATTTACAAA TGGCTTTTGA TTCTTTTACA AAAGCTGTGA AAGCAAATCC AGATTTTGCA
    GAAAGCTTTT ATCAGCGAGG GCTTTGTAAA GTGAAACTCC ACAAGGATAG CTCGATTCTG
    GATTTTAATC GTGCAATTAC CCTCAATCCA AAACATTACC AGGCATATTT AAGCCGAGTA
    GCATTCTATG GTTTAAAAGG CAGGTATTCC AAAGCAATCT TGAATTGTAA CAAGGCTATT
    AAAATTTACC CTGAAAGCGT ACGTGCCTAT CTCTACAGAG GAGTTCTGAA ATACTACAAC
    AAGACTTATA AGCTAGCAAT TACAGATTTA ACTACAGCTA TCAGCATGGA CAAAAATAGT
    TATACAGCAT TTTATAACAG AGCATTATGT TACACCAAGA TAAGGGAACT TCAAATGGCA
    TTAACAGATT ATGGAATTGT GCTGCTTCTT GATGCTACAG AAACTGTAAA ACTAAATACC
    TTCCTTAATC GTGGACTCAT CTACGTAGAA CTAGGCCAGT ATGGCTTTGC ACTAGAGGAT
    TTTAAACAAG CTGCACTGAT AAGCCGGACT AACGGGAGCC TTTGTCACGC CACTGCCATG
    TGCCATCACA GAATTAATGA GTTTGAAGAA GCTGTCAATT TCTTTACTTG GGCTCTTAAA
    ATTAACCCAT GTTTTCTGGA TGCTTATGTT GGACGGGGAA ATTCTTACAT GGAATACGGT
    CATGATGAAG CCACCAAGCA AGCACAGAAA GACTTTCTGA AAGCACTGCA TATTAATCCA
    GCATACATAA AAGCCAGAAT TAGTTTTGGC TATAATTTGC AGGCCCAAGG AAAATTCCAG
    AAAGCTTGGA ACCACTTTAC CATTGCCATA GATACTGATC CAAAGAACTA CCTAGCCTAT
    GAAGGAAGAG CTGTGGTCTG TCTTCAGATG GGTAATAATT TTGCTGCAAT GCAGGATATT
    AATGCTGCCA TGAAGATCAG TACTACAGCA GAATTCTTAA CAAATCGTGG GGTGATTCAT
    GAGTTTATGG GCCACAAACA GAATGCAATG AAAGACTACC AAGATGCAAT TACTCTAAAC
    CCCAAGTACT CGCTGGCTTA CTTTAATGCA GGAAATATCT ACTTTCACCA CAGGCAGTTT
    TCCCAGGCCA GTGACTACTT CTCAAAAGCT TTAAAATTTG ATCCAGAAAA TGAATATGTT
    CTCATGAATC GAGCTATTAC AAATACAATA TTAAAGAAAT ATGAAGAAGC AAAAGAAGAT
    TTTGCAAATG TAATTGAAAG CTGTCCCTTT TGGGCTGCAG TATATTTTAA TAGAGCACAT
    TTCTACTACT GCTTAAAGCA ATATGAACTA GCTGAGGAAG ACCTTAATAA AGCCCTGTCT
    TTGAAGCCTA ATGATGCTCT AGTATATAAT TTTAGAGCAA AAGTTCGTGG TAAAATAGGT
    CTGATTGAGG AAGCTATGGC TGACTATAAC CAAGCACTTG ATCTTGAAGA CTATGCCTCA
    GTTATATGA

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

    RefSeq NP_001297064.1
    CDS858..6566
    Translation

    Target ORF information:

    RefSeq Version NM_001310135.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001310135.1

    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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGAA
    GCTGTGGAAG TGCTTAAGAA GGCTTTGGAT GCCATTTCTC ATTCTGATAA AGGACCAGAT
    GCCACAGCAA TTTCAGCAGA CTGTCTGTAT AACTTGGGTC TTTGTTACAT GGAGGAAGGC
    AATTTACAAA TGGCTTTTGA TTCTTTTACA AAAGCTGTGA AAGCAAATCC AGATTTTGCA
    GAAAGCTTTT ATCAGCGAGG GCTTTGTAAA GTGAAACTCC ACAAGGATAG CTCGATTCTG
    GATTTTAATC GTGCAATTAC CCTCAATCCA AAACATTACC AGGCATATTT AAGCCGAGTA
    GCATTCTATG GTTTAAAAGG CAGGTATTCC AAAGCAATCT TGAATTGTAA CAAGGCTATT
    AAAATTTACC CTGAAAGCGT ACGTGCCTAT CTCTACAGAG GAGTTCTGAA ATACTACAAC
    AAGACTTATA AGCTAGCAAT TACAGATTTA ACTACAGCTA TCAGCATGGA CAAAAATAGT
    TATACAGCAT TTTATAACAG AGCATTATGT TACACCAAGA TAAGGGAACT TCAAATGGCA
    TTAACAGATT ATGGAATTGT GCTGCTTCTT GATGCTACAG AAACTGTAAA ACTAAATACC
    TTCCTTAATC GTGGACTCAT CTACGTAGAA CTAGGCCAGT ATGGCTTTGC ACTAGAGGAT
    TTTAAACAAG CTGCACTGAT AAGCCGGACT AACGGGAGCC TTTGTCACGC CACTGCCATG
    TGCCATCACA GAATTAATGA GTTTGAAGAA GCTGTCAATT TCTTTACTTG GGCTCTTAAA
    ATTAACCCAT GTTTTCTGGA TGCTTATGTT GGACGGGGAA ATTCTTACAT GGAATACGGT
    CATGATGAAG CCACCAAGCA AGCACAGAAA GACTTTCTGA AAGCACTGCA TATTAATCCA
    GCATACATAA AAGCCAGAAT TAGTTTTGGC TATAATTTGC AGGCCCAAGG AAAATTCCAG
    AAAGCTTGGA ACCACTTTAC CATTGCCATA GATACTGATC CAAAGAACTA CCTAGCCTAT
    GAAGGAAGAG CTGTGGTCTG TCTTCAGATG GGTAATAATT TTGCTGCAAT GCAGGATATT
    AATGCTGCCA TGAAGATCAG TACTACAGCA GAATTCTTAA CAAATCGTGG GGTGATTCAT
    GAGTTTATGG GCCACAAACA GAATGCAATG AAAGACTACC AAGATGCAAT TACTCTAAAC
    CCCAAGTACT CGCTGGCTTA CTTTAATGCA GGAAATATCT ACTTTCACCA CAGGCAGTTT
    TCCCAGGCCA GTGACTACTT CTCAAAAGCT TTAAAATTTG ATCCAGAAAA TGAATATGTT
    CTCATGAATC GAGCTATTAC AAATACAATA TTAAAGAAAT ATGAAGAAGC AAAAGAAGAT
    TTTGCAAATG TAATTGAAAG CTGTCCCTTT TGGGCTGCAG TATATTTTAA TAGAGCACAT
    TTCTACTACT GCTTAAAGCA ATATGAACTA GCTGAGGAAG ACCTTAATAA AGCCCTGTCT
    TTGAAGCCTA ATGATGCTCT AGTATATAAT TTTAGAGCAA AAGTTCGTGG TAAAATAGGT
    CTGATTGAGG AAGCTATGGC TGACTATAAC CAAGCACTTG ATCTTGAAGA CTATGCCTCA
    GTTATATGA

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

    CloneID OHu79154
    Clone ID Related Accession (Same CDS sequence) NM_001310135.1 , NM_001310135.2
    Accession Version NM_001310135.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5709bp)
    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 2019-08-07
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform 1
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AL121790.4, AL136296.3 and AL163151.1. On Jan 16, 2019 this sequence version replaced NM_001310135.1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMEA2153427, SAMN04284274 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGAA
    GCTGTGGAAG TGCTTAAGAA GGCTTTGGAT GCCATTTCTC ATTCTGATAA AGGACCAGAT
    GCCACAGCAA TTTCAGCAGA CTGTCTGTAT AACTTGGGTC TTTGTTACAT GGAGGAAGGC
    AATTTACAAA TGGCTTTTGA TTCTTTTACA AAAGCTGTGA AAGCAAATCC AGATTTTGCA
    GAAAGCTTTT ATCAGCGAGG GCTTTGTAAA GTGAAACTCC ACAAGGATAG CTCGATTCTG
    GATTTTAATC GTGCAATTAC CCTCAATCCA AAACATTACC AGGCATATTT AAGCCGAGTA
    GCATTCTATG GTTTAAAAGG CAGGTATTCC AAAGCAATCT TGAATTGTAA CAAGGCTATT
    AAAATTTACC CTGAAAGCGT ACGTGCCTAT CTCTACAGAG GAGTTCTGAA ATACTACAAC
    AAGACTTATA AGCTAGCAAT TACAGATTTA ACTACAGCTA TCAGCATGGA CAAAAATAGT
    TATACAGCAT TTTATAACAG AGCATTATGT TACACCAAGA TAAGGGAACT TCAAATGGCA
    TTAACAGATT ATGGAATTGT GCTGCTTCTT GATGCTACAG AAACTGTAAA ACTAAATACC
    TTCCTTAATC GTGGACTCAT CTACGTAGAA CTAGGCCAGT ATGGCTTTGC ACTAGAGGAT
    TTTAAACAAG CTGCACTGAT AAGCCGGACT AACGGGAGCC TTTGTCACGC CACTGCCATG
    TGCCATCACA GAATTAATGA GTTTGAAGAA GCTGTCAATT TCTTTACTTG GGCTCTTAAA
    ATTAACCCAT GTTTTCTGGA TGCTTATGTT GGACGGGGAA ATTCTTACAT GGAATACGGT
    CATGATGAAG CCACCAAGCA AGCACAGAAA GACTTTCTGA AAGCACTGCA TATTAATCCA
    GCATACATAA AAGCCAGAAT TAGTTTTGGC TATAATTTGC AGGCCCAAGG AAAATTCCAG
    AAAGCTTGGA ACCACTTTAC CATTGCCATA GATACTGATC CAAAGAACTA CCTAGCCTAT
    GAAGGAAGAG CTGTGGTCTG TCTTCAGATG GGTAATAATT TTGCTGCAAT GCAGGATATT
    AATGCTGCCA TGAAGATCAG TACTACAGCA GAATTCTTAA CAAATCGTGG GGTGATTCAT
    GAGTTTATGG GCCACAAACA GAATGCAATG AAAGACTACC AAGATGCAAT TACTCTAAAC
    CCCAAGTACT CGCTGGCTTA CTTTAATGCA GGAAATATCT ACTTTCACCA CAGGCAGTTT
    TCCCAGGCCA GTGACTACTT CTCAAAAGCT TTAAAATTTG ATCCAGAAAA TGAATATGTT
    CTCATGAATC GAGCTATTAC AAATACAATA TTAAAGAAAT ATGAAGAAGC AAAAGAAGAT
    TTTGCAAATG TAATTGAAAG CTGTCCCTTT TGGGCTGCAG TATATTTTAA TAGAGCACAT
    TTCTACTACT GCTTAAAGCA ATATGAACTA GCTGAGGAAG ACCTTAATAA AGCCCTGTCT
    TTGAAGCCTA ATGATGCTCT AGTATATAAT TTTAGAGCAA AAGTTCGTGG TAAAATAGGT
    CTGATTGAGG AAGCTATGGC TGACTATAAC CAAGCACTTG ATCTTGAAGA CTATGCCTCA
    GTTATATGA

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

    RefSeq NP_001297064.1
    CDS428..6136
    Translation

    Target ORF information:

    RefSeq Version NM_001310135.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001310135.2

    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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGAA
    GCTGTGGAAG TGCTTAAGAA GGCTTTGGAT GCCATTTCTC ATTCTGATAA AGGACCAGAT
    GCCACAGCAA TTTCAGCAGA CTGTCTGTAT AACTTGGGTC TTTGTTACAT GGAGGAAGGC
    AATTTACAAA TGGCTTTTGA TTCTTTTACA AAAGCTGTGA AAGCAAATCC AGATTTTGCA
    GAAAGCTTTT ATCAGCGAGG GCTTTGTAAA GTGAAACTCC ACAAGGATAG CTCGATTCTG
    GATTTTAATC GTGCAATTAC CCTCAATCCA AAACATTACC AGGCATATTT AAGCCGAGTA
    GCATTCTATG GTTTAAAAGG CAGGTATTCC AAAGCAATCT TGAATTGTAA CAAGGCTATT
    AAAATTTACC CTGAAAGCGT ACGTGCCTAT CTCTACAGAG GAGTTCTGAA ATACTACAAC
    AAGACTTATA AGCTAGCAAT TACAGATTTA ACTACAGCTA TCAGCATGGA CAAAAATAGT
    TATACAGCAT TTTATAACAG AGCATTATGT TACACCAAGA TAAGGGAACT TCAAATGGCA
    TTAACAGATT ATGGAATTGT GCTGCTTCTT GATGCTACAG AAACTGTAAA ACTAAATACC
    TTCCTTAATC GTGGACTCAT CTACGTAGAA CTAGGCCAGT ATGGCTTTGC ACTAGAGGAT
    TTTAAACAAG CTGCACTGAT AAGCCGGACT AACGGGAGCC TTTGTCACGC CACTGCCATG
    TGCCATCACA GAATTAATGA GTTTGAAGAA GCTGTCAATT TCTTTACTTG GGCTCTTAAA
    ATTAACCCAT GTTTTCTGGA TGCTTATGTT GGACGGGGAA ATTCTTACAT GGAATACGGT
    CATGATGAAG CCACCAAGCA AGCACAGAAA GACTTTCTGA AAGCACTGCA TATTAATCCA
    GCATACATAA AAGCCAGAAT TAGTTTTGGC TATAATTTGC AGGCCCAAGG AAAATTCCAG
    AAAGCTTGGA ACCACTTTAC CATTGCCATA GATACTGATC CAAAGAACTA CCTAGCCTAT
    GAAGGAAGAG CTGTGGTCTG TCTTCAGATG GGTAATAATT TTGCTGCAAT GCAGGATATT
    AATGCTGCCA TGAAGATCAG TACTACAGCA GAATTCTTAA CAAATCGTGG GGTGATTCAT
    GAGTTTATGG GCCACAAACA GAATGCAATG AAAGACTACC AAGATGCAAT TACTCTAAAC
    CCCAAGTACT CGCTGGCTTA CTTTAATGCA GGAAATATCT ACTTTCACCA CAGGCAGTTT
    TCCCAGGCCA GTGACTACTT CTCAAAAGCT TTAAAATTTG ATCCAGAAAA TGAATATGTT
    CTCATGAATC GAGCTATTAC AAATACAATA TTAAAGAAAT ATGAAGAAGC AAAAGAAGAT
    TTTGCAAATG TAATTGAAAG CTGTCCCTTT TGGGCTGCAG TATATTTTAA TAGAGCACAT
    TTCTACTACT GCTTAAAGCA ATATGAACTA GCTGAGGAAG ACCTTAATAA AGCCCTGTCT
    TTGAAGCCTA ATGATGCTCT AGTATATAAT TTTAGAGCAA AAGTTCGTGG TAAAATAGGT
    CTGATTGAGG AAGCTATGGC TGACTATAAC CAAGCACTTG ATCTTGAAGA CTATGCCTCA
    GTTATATGA

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

    CloneID OHu79157
    Clone ID Related Accession (Same CDS sequence) XM_011537432.2
    Accession Version XM_011537432.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3495bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011537432.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGAACCTG AATGA

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

    RefSeq XP_011535734.1
    CDS858..4352
    Translation

    Target ORF information:

    RefSeq Version XM_011537432.2
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011537432.2

    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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGAACCTG AATGA

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

    CloneID OHu84882
    Clone ID Related Accession (Same CDS sequence) XM_017021254.1
    Accession Version XM_017021254.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5559bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGAA
    GCTGTGGAAG TGCTTAAGAA GGCTTTGGAT GCCATTTCTC ATTCTGATAA AGGACCAGAT
    GCCACAGCAA TTTCAGCAGA CTGTCTGTAT AACTTGGGTC TTTGTTACAT GGAGGAAGGC
    AATTTACAAA TGGCATATTT AAGCCGAGTA GCATTCTATG GTTTAAAAGG CAGGTATTCC
    AAAGCAATCT TGAATTGTAA CAAGGCTATT AAAATTTACC CTGAAAGCGT ACGTGCCTAT
    CTCTACAGAG GAGTTCTGAA ATACTACAAC AAGACTTATA AGCTAGCAAT TACAGATTTA
    ACTACAGCTA TCAGCATGGA CAAAAATAGT TATACAGCAT TTTATAACAG AGCATTATGT
    TACACCAAGA TAAGGGAACT TCAAATGGCA TTAACAGATT ATGGAATTGT GCTGCTTCTT
    GATGCTACAG AAACTGTAAA ACTAAATACC TTCCTTAATC GTGGACTCAT CTACGTAGAA
    CTAGGCCAGT ATGGCTTTGC ACTAGAGGAT TTTAAACAAG CTGCACTGAT AAGCCGGACT
    AACGGGAGCC TTTGTCACGC CACTGCCATG TGCCATCACA GAATTAATGA GTTTGAAGAA
    GCTGTCAATT TCTTTACTTG GGCTCTTAAA ATTAACCCAT GTTTTCTGGA TGCTTATGTT
    GGACGGGGAA ATTCTTACAT GGAATACGGT CATGATGAAG CCACCAAGCA AGCACAGAAA
    GACTTTCTGA AAGCACTGCA TATTAATCCA GCATACATAA AAGCCAGAAT TAGTTTTGGC
    TATAATTTGC AGGCCCAAGG AAAATTCCAG AAAGCTTGGA ACCACTTTAC CATTGCCATA
    GATACTGATC CAAAGAACTA CCTAGCCTAT GAAGGAAGAG CTGTGGTCTG TCTTCAGATG
    GGTAATAATT TTGCTGCAAT GCAGGATATT AATGCTGCCA TGAAGATCAG TACTACAGCA
    GAATTCTTAA CAAATCGTGG GGTGATTCAT GAGTTTATGG GCCACAAACA GAATGCAATG
    AAAGACTACC AAGATGCAAT TACTCTAAAC CCCAAGTACT CGCTGGCTTA CTTTAATGCA
    GGAAATATCT ACTTTCACCA CAGGCAGTTT TCCCAGGCCA GTGACTACTT CTCAAAAGCT
    TTAAAATTTG ATCCAGAAAA TGAATATGTT CTCATGAATC GAGCTATTAC AAATACAATA
    TTAAAGAAAT ATGAAGAAGC AAAAGAAGAT TTTGCAAATG TAATTGAAAG CTGTCCCTTT
    TGGGCTGCAG TATATTTTAA TAGAGCACAT TTCTACTACT GCTTAAAGCA ATATGAACTA
    GCTGAGGAAG ACCTTAATAA AGCCCTGTCT TTGAAGCCTA ATGATGCTCT AGTATATAAT
    TTTAGAGCAA AAGTTCGTGG TAAAATAGGT CTGATTGAGG AAGCTATGGC TGACTATAAC
    CAAGCACTTG ATCTTGAAGA CTATGCCTCA GTTATATGA

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

    RefSeq XP_016876743.1
    CDS858..6416
    Translation

    Target ORF information:

    RefSeq Version XM_017021254.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017021254.1

    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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGAA
    GCTGTGGAAG TGCTTAAGAA GGCTTTGGAT GCCATTTCTC ATTCTGATAA AGGACCAGAT
    GCCACAGCAA TTTCAGCAGA CTGTCTGTAT AACTTGGGTC TTTGTTACAT GGAGGAAGGC
    AATTTACAAA TGGCATATTT AAGCCGAGTA GCATTCTATG GTTTAAAAGG CAGGTATTCC
    AAAGCAATCT TGAATTGTAA CAAGGCTATT AAAATTTACC CTGAAAGCGT ACGTGCCTAT
    CTCTACAGAG GAGTTCTGAA ATACTACAAC AAGACTTATA AGCTAGCAAT TACAGATTTA
    ACTACAGCTA TCAGCATGGA CAAAAATAGT TATACAGCAT TTTATAACAG AGCATTATGT
    TACACCAAGA TAAGGGAACT TCAAATGGCA TTAACAGATT ATGGAATTGT GCTGCTTCTT
    GATGCTACAG AAACTGTAAA ACTAAATACC TTCCTTAATC GTGGACTCAT CTACGTAGAA
    CTAGGCCAGT ATGGCTTTGC ACTAGAGGAT TTTAAACAAG CTGCACTGAT AAGCCGGACT
    AACGGGAGCC TTTGTCACGC CACTGCCATG TGCCATCACA GAATTAATGA GTTTGAAGAA
    GCTGTCAATT TCTTTACTTG GGCTCTTAAA ATTAACCCAT GTTTTCTGGA TGCTTATGTT
    GGACGGGGAA ATTCTTACAT GGAATACGGT CATGATGAAG CCACCAAGCA AGCACAGAAA
    GACTTTCTGA AAGCACTGCA TATTAATCCA GCATACATAA AAGCCAGAAT TAGTTTTGGC
    TATAATTTGC AGGCCCAAGG AAAATTCCAG AAAGCTTGGA ACCACTTTAC CATTGCCATA
    GATACTGATC CAAAGAACTA CCTAGCCTAT GAAGGAAGAG CTGTGGTCTG TCTTCAGATG
    GGTAATAATT TTGCTGCAAT GCAGGATATT AATGCTGCCA TGAAGATCAG TACTACAGCA
    GAATTCTTAA CAAATCGTGG GGTGATTCAT GAGTTTATGG GCCACAAACA GAATGCAATG
    AAAGACTACC AAGATGCAAT TACTCTAAAC CCCAAGTACT CGCTGGCTTA CTTTAATGCA
    GGAAATATCT ACTTTCACCA CAGGCAGTTT TCCCAGGCCA GTGACTACTT CTCAAAAGCT
    TTAAAATTTG ATCCAGAAAA TGAATATGTT CTCATGAATC GAGCTATTAC AAATACAATA
    TTAAAGAAAT ATGAAGAAGC AAAAGAAGAT TTTGCAAATG TAATTGAAAG CTGTCCCTTT
    TGGGCTGCAG TATATTTTAA TAGAGCACAT TTCTACTACT GCTTAAAGCA ATATGAACTA
    GCTGAGGAAG ACCTTAATAA AGCCCTGTCT TTGAAGCCTA ATGATGCTCT AGTATATAAT
    TTTAGAGCAA AAGTTCGTGG TAAAATAGGT CTGATTGAGG AAGCTATGGC TGACTATAAC
    CAAGCACTTG ATCTTGAAGA CTATGCCTCA GTTATATGA

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

    CloneID OHu84883
    Clone ID Related Accession (Same CDS sequence) XM_017021255.1
    Accession Version XM_017021255.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5424bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGCA
    TATTTAAGCC GAGTAGCATT CTATGGTTTA AAAGGCAGGT ATTCCAAAGC AATCTTGAAT
    TGTAACAAGG CTATTAAAAT TTACCCTGAA AGCGTACGTG CCTATCTCTA CAGAGGAGTT
    CTGAAATACT ACAACAAGAC TTATAAGCTA GCAATTACAG ATTTAACTAC AGCTATCAGC
    ATGGACAAAA ATAGTTATAC AGCATTTTAT AACAGAGCAT TATGTTACAC CAAGATAAGG
    GAACTTCAAA TGGCATTAAC AGATTATGGA ATTGTGCTGC TTCTTGATGC TACAGAAACT
    GTAAAACTAA ATACCTTCCT TAATCGTGGA CTCATCTACG TAGAACTAGG CCAGTATGGC
    TTTGCACTAG AGGATTTTAA ACAAGCTGCA CTGATAAGCC GGACTAACGG GAGCCTTTGT
    CACGCCACTG CCATGTGCCA TCACAGAATT AATGAGTTTG AAGAAGCTGT CAATTTCTTT
    ACTTGGGCTC TTAAAATTAA CCCATGTTTT CTGGATGCTT ATGTTGGACG GGGAAATTCT
    TACATGGAAT ACGGTCATGA TGAAGCCACC AAGCAAGCAC AGAAAGACTT TCTGAAAGCA
    CTGCATATTA ATCCAGCATA CATAAAAGCC AGAATTAGTT TTGGCTATAA TTTGCAGGCC
    CAAGGAAAAT TCCAGAAAGC TTGGAACCAC TTTACCATTG CCATAGATAC TGATCCAAAG
    AACTACCTAG CCTATGAAGG AAGAGCTGTG GTCTGTCTTC AGATGGGTAA TAATTTTGCT
    GCAATGCAGG ATATTAATGC TGCCATGAAG ATCAGTACTA CAGCAGAATT CTTAACAAAT
    CGTGGGGTGA TTCATGAGTT TATGGGCCAC AAACAGAATG CAATGAAAGA CTACCAAGAT
    GCAATTACTC TAAACCCCAA GTACTCGCTG GCTTACTTTA ATGCAGGAAA TATCTACTTT
    CACCACAGGC AGTTTTCCCA GGCCAGTGAC TACTTCTCAA AAGCTTTAAA ATTTGATCCA
    GAAAATGAAT ATGTTCTCAT GAATCGAGCT ATTACAAATA CAATATTAAA GAAATATGAA
    GAAGCAAAAG AAGATTTTGC AAATGTAATT GAAAGCTGTC CCTTTTGGGC TGCAGTATAT
    TTTAATAGAG CACATTTCTA CTACTGCTTA AAGCAATATG AACTAGCTGA GGAAGACCTT
    AATAAAGCCC TGTCTTTGAA GCCTAATGAT GCTCTAGTAT ATAATTTTAG AGCAAAAGTT
    CGTGGTAAAA TAGGTCTGAT TGAGGAAGCT ATGGCTGACT ATAACCAAGC ACTTGATCTT
    GAAGACTATG CCTCAGTTAT ATGA

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

    RefSeq XP_016876744.1
    CDS858..6281
    Translation

    Target ORF information:

    RefSeq Version XM_017021255.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017021255.1

    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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGAGGCAT ATTTGTCAAA AGCAGAAATT TACAGGGGAA AAAAAGACAT AACTTTGGCA
    ATTCTAAACT ATACCCAGGC AATTAAATCC ACGCCCACAG ATGCTGATAT CTATTTCAGG
    AGGGGTGAGA TGTATGAAAT AACAAACAAA GTACTGGCCA TTGATGACTT TTCGAAATGT
    ATTTTTTATG ATCCCAAAAG AACAGATGCA TTATTGAAAC GTGGGCTGTT TTATTGTGAA
    AATGAAAACT GGTTTGCAGC CATAGAGGAT TTTACAGCCT TGTTAAATAT AGATCACCAA
    AATTCTCAAG CAAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA
    GCAACTCAAG ATTTTTCTGC TGCAATTCAC TTAGATCCTA ATAACTGGTT AGCGTTGTAT
    TATCGAGGTT GCTTATTCAG AAAGAGTAAC CCTTTTAGAG CGCTACAGGA TTATAGTGTT
    TCAGCACTCA TAAATGATGG CTATGAGAAT CTTGGTTGTT TTCTACATCG GGGAATAGTC
    TATGCACATC TAAAACTTTG GCTGCTGGCA ATTTGTGACT TTGAAACTGT CATTTCTCTA
    GAAAGAACTA TTACTTTGGC TTATGTAAAT ATTGGCCTCA TACATCTGCT ACACCTGGAT
    AACTACACGG AAGCTATTTG GCAATTTTCT GAGGCTATTA GAATTGATCC TTTATGTATT
    CAAAGCTATC TTTGTCGGGC GGAAACCTAT TTTAAGTTGC ATAAATTGAA AAAGGCAGTA
    AATGAATTGT CTCGTGCTAT CCACCTTCAG CCAGATGGAA TCCAATTATA CATAAGAAGA
    GGACAATATC TTCTTATGAT GAAATATTAT GATCTTGCAA AGTTTACTAT TTATCAAATA
    GCAGAAATGG ACAAAGGTCT CAGTGAGTTG AGTCCTATGC AGCAAGCCCT TATTTATTCA
    TTTTGTGAAA ACCATGACAA GGCCATTGAG GTCTTGGACG GAATCAGCTG GAATAGAGCT
    GAGATGACCA TGTGTGCTCT ATTAGCAAAA GTTCAAATGA AGGCCAAGAG AACCAAGGCA
    TATTTAAGCC GAGTAGCATT CTATGGTTTA AAAGGCAGGT ATTCCAAAGC AATCTTGAAT
    TGTAACAAGG CTATTAAAAT TTACCCTGAA AGCGTACGTG CCTATCTCTA CAGAGGAGTT
    CTGAAATACT ACAACAAGAC TTATAAGCTA GCAATTACAG ATTTAACTAC AGCTATCAGC
    ATGGACAAAA ATAGTTATAC AGCATTTTAT AACAGAGCAT TATGTTACAC CAAGATAAGG
    GAACTTCAAA TGGCATTAAC AGATTATGGA ATTGTGCTGC TTCTTGATGC TACAGAAACT
    GTAAAACTAA ATACCTTCCT TAATCGTGGA CTCATCTACG TAGAACTAGG CCAGTATGGC
    TTTGCACTAG AGGATTTTAA ACAAGCTGCA CTGATAAGCC GGACTAACGG GAGCCTTTGT
    CACGCCACTG CCATGTGCCA TCACAGAATT AATGAGTTTG AAGAAGCTGT CAATTTCTTT
    ACTTGGGCTC TTAAAATTAA CCCATGTTTT CTGGATGCTT ATGTTGGACG GGGAAATTCT
    TACATGGAAT ACGGTCATGA TGAAGCCACC AAGCAAGCAC AGAAAGACTT TCTGAAAGCA
    CTGCATATTA ATCCAGCATA CATAAAAGCC AGAATTAGTT TTGGCTATAA TTTGCAGGCC
    CAAGGAAAAT TCCAGAAAGC TTGGAACCAC TTTACCATTG CCATAGATAC TGATCCAAAG
    AACTACCTAG CCTATGAAGG AAGAGCTGTG GTCTGTCTTC AGATGGGTAA TAATTTTGCT
    GCAATGCAGG ATATTAATGC TGCCATGAAG ATCAGTACTA CAGCAGAATT CTTAACAAAT
    CGTGGGGTGA TTCATGAGTT TATGGGCCAC AAACAGAATG CAATGAAAGA CTACCAAGAT
    GCAATTACTC TAAACCCCAA GTACTCGCTG GCTTACTTTA ATGCAGGAAA TATCTACTTT
    CACCACAGGC AGTTTTCCCA GGCCAGTGAC TACTTCTCAA AAGCTTTAAA ATTTGATCCA
    GAAAATGAAT ATGTTCTCAT GAATCGAGCT ATTACAAATA CAATATTAAA GAAATATGAA
    GAAGCAAAAG AAGATTTTGC AAATGTAATT GAAAGCTGTC CCTTTTGGGC TGCAGTATAT
    TTTAATAGAG CACATTTCTA CTACTGCTTA AAGCAATATG AACTAGCTGA GGAAGACCTT
    AATAAAGCCC TGTCTTTGAA GCCTAATGAT GCTCTAGTAT ATAATTTTAG AGCAAAAGTT
    CGTGGTAAAA TAGGTCTGAT TGAGGAAGCT ATGGCTGACT ATAACCAAGC ACTTGATCTT
    GAAGACTATG CCTCAGTTAT ATGA

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

    CloneID OHu84885
    Clone ID Related Accession (Same CDS sequence) XM_017021257.1
    Accession Version XM_017021257.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3084bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product tetratricopeptide repeat protein 6 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000014.9) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA GCAACTCAAG
    ATTTTTCTGC TGCAATTCAC TTAG

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

    RefSeq XP_016876746.1
    CDS858..3941
    Translation

    Target ORF information:

    RefSeq Version XM_017021257.1
    Organism Homo sapiens(human)
    Definition Homo sapiens tetratricopeptide repeat domain 6 (TTC6), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017021257.1

    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
    ATGAGGAGAG GAACAAGGAT TCATGGAAGT GAGGTCAAAT TTGTCAAGAT GTCCACAATC 
    CCGAGACACT TTGGCCTGAA ATACAAAGAG GAATCGTATA TGTTTAAAGA GCTTGAGAAA
    GTTCGGCAGG AAACTAAAAA GGATTTTCTC CGATTCAAGC AGAAGTTGGC CTCCAAGCCG
    GCTGTAGATG AAAGCCCAGT CCACAGCCTC CATGCCCCCG GCCCGGCCCG CCCCGCGCGC
    GTTTCCTGCG CCGCAGCCCG GACGTCGAGA AGATACCCTT CGCTTAAAGG CCCTGCGATG
    TCCGCGGCCG CCCTCCTGCA GGAGGTGCTC GGAGGCGCGC CGCGTCCCTC GGGCCTGGGT
    GAGGCGGCGG CTCCAGGCAA GACCCGGTCG TTTCGCCCCC GGGACTTTTA CTTGCGGAGC
    TCCGCGTTCC TACGGCACCA GGCCCTGAAA AAGCCCCCAG TCATCGCCTC GGGGTTCGGC
    ACGGCCAGAC CCGTGGTCCT GCTGCCTCCG CCCGAGCCAC CCGTGAAGCG CAGAGCGCGC
    GGGGTCTTGG AGAGCTCGCG GCACGCGGCT CCCAGGCGGG TCTTCCACTT GGGAAGGGAG
    CGCGAACAGA GCCAGGAGGT AGCTCCTCTC GCAGGGCCCT GCATGGCCAA AGAGAGGAAG
    GCCAGCTCCG TCTCCGCAGA GGACGGCTAC ATGGAGGCCA GCAGCGGGCG GAGGAAAGTG
    AGGATCCGCA GCAACTTCGT GAGCGAGAGC GGGGCCCGCG AGGCGCGGGA AGCGGCGGGG
    TTAGGAGCCC AGGGAGAACA GGAGAGCTGG CCGCCCAGCG ACGCGCGGGA GGCCGCCTGG
    CAGGCGCTGC TGCCCTCCCG CGTGATCCCC ACGTCCATCG AAGAGATCAT CGCCTCTCTG
    CAGTCCGAGG CCCAGCTGGC CTCCGACCAG ACCATCAAAG AGCTCATACG GAGCGTCCTT
    GGCCAGAACT ACGACATTAC AATGGAAGAT ATTTCTTTAA TGGGAAAAAT GTACCTCAAA
    ACATCACCTA TGCAAGCAGA AACACCTGAG ATACAAGCAG AGTATAAATT CCAGATGGGT
    GCTGAGGAAT CGCAAATGAG CGTGCATAAG GAACTTTCTG AAACCATGTC AAGTATTCTC
    CAGATTGAAC AAGAGGATAT AGAATGGGGA CCCTCAGAAG CAGAAAGCAT AGTATTTAAA
    CCTCAGGAAA TTTCGCAAGT TCAGCCAGCA GAGGAATTAA GTAAACCTTT GGAAGATGGA
    CAGCCCACAA GTGATTCAAA AGAAGCCAAG TGGGTGTCTT TAACGGCAAA ATCACCAGAA
    TTCTTGCAAA TCGAAGGAAA AGAAATTAAG CGAATGCGGA AACGTAAATC ACTGAGACCA
    AGAAAGTCTT CAAAACCTCT TTGTGATAAA AAACTACATA AAAAAATTCC ACAAGACTAC
    TCCATGCCGC ACCTTCATGA TCTGTGCACC ACCATCCCAG CCCAGGAGCT GCCTGTTGAC
    TTGCGCCTGG CTTCTCGAGT GTATCACACT GCTAACAGGA AAGGCCACGA TACCCTGCTT
    GGAAAATTTG GAACCTCTTT CTTAGATGAT CGCTTTACAG ATGAAGAACA AACAGATAGA
    ATATTGTATG GAATTCCTGT TATGGATGAC AACCAAGAAT ATGTCCATAT TCCTCCGACA
    CCGCAAGGGA TACCACCTGA ATTGGCACAA GGAACTAGAG AGCGTGCTCA CAAACCACAC
    TTGGAAGTCT TGGGAGAGGA AATGTATGCT TATCCAGAAT TCACGAAGTT GTTTTGGAAT
    ACAGCTGCAC CTAAATTCTC TGTTCCAGAA TCTGTCATGA AGGAAACTCT ATATCCAAAA
    TATGAGAGTG TTCAAGCAAG CAGACTTTTA ACTGATAAAT TGTCATATAA AAGCAGTGTC
    ATTACTTTAC ATCAACATAG CAGAACAAAT TTTTGGTGTT TCTTACCAAG AAAATCTGCA
    TCATTTGAAA GTATCCAAAA ATGGTTTAGT GCACAACCTA CACAACTAAG GCGAGTAAAA
    TCTTCTGTAG ACTTGAGGAA GGAGAAGATC ATAGCTCCTT TGGAAATCAA GAATGATATG
    CAAAGCAGTA TAAAAGAGGT TATGTTTCAG AAAGCAAAGG AATTGAAACG TCAGCTCCAG
    CTCACTAAGC AAAATAAAAC TGAGGAGCCC AACTATGTGA AAGAAAGTAT AGATGACATC
    TTTGATAACA TGTGCGAAAA ACACAGTTTG AGAAATCTCT CTTTGACTCT CATTGAAGCG
    TCTAAAAAAG CTGGCATTAG TTACATTGTT TATCCCAAGA AAAAGAAGAT GAGATGGAAG
    AAAAGATTGA AACAACAAAA ACTTATATTC GTGCATGAAG AGTTATCCAA GCCTCCAAAA
    TCTCTTGAAA GATCAGCATC TCATGGAATA CTTCCGGGAC AGAAGAAATA TTTGTTCAAA
    GTTCCATTAT ATGAACGTCA AATACGGTGT CCCAGTTTAC CTTTGTATTT AAATTTTGAA
    AAATTCGTCC AAGCTAAGGG AGGAATTCCA GAAAATATTG ATCCTCGGAC ATGGGCTCTT
    GATAGGCTCA TTGAGTACAA AGATGCGAGC ATACCTGTAA AAGAGAAAGA TGATAAAATA
    TCAGTTCCTG AAGACCCACC TGAAAGAGTG AAAGAACCAC CAAAACTAAA ATTAAATGAT
    TATGTGGAGT CTGATCTTCC ACAAGAGGTC ATTAAATATT ATGAATCTGA AGTGAAGATT
    TTGACTGAAG AAATAAATGA TAAGACAAAA TATCCTGCAT TTGCATATTG TAGGCGTGGA
    GCTATTTATA GGAAACTGGG AAAGTTGCAG AGTGCCATGA ATGATCTGCA GAGAGTAATA
    CTCTTGGAAC CATTGTTTCT CAATGCCTAT TGGCATCGAC ATTTAATTTA TCTTTTCCAA
    GACAAAATTA ATGAAGCTTT GGATGACTTG AATTATATAC ATAAATATAA TAAAAATAAT
    ACAGGACATA CCGAGGGATT GCATATGTTA AATGGAAATT TTATAAAGAA GCAACTCAAG
    ATTTTTCTGC TGCAATTCAC TTAG

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