ORF » Species Summary » Homo sapiens » FPGT-TNNI3K cDNA ORF clone

FPGT-TNNI3K cDNA ORF clone, Homo sapiens(human)

  • Gene

  • Clones

  • gRNAs

The following FPGT-TNNI3K gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the FPGT-TNNI3K 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
OHu01365 NM_001199327.1
Latest version!		 Homo sapiens FPGT-TNNI3K readthrough (FPGT-TNNI3K), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
OHu01717 NM_001112808.2
Latest version!		 Homo sapiens FPGT-TNNI3K readthrough (FPGT-TNNI3K), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $657.30
$939.00

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

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

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

  • Reference Sequences (Refseq)
    FPGT-TNNI3K ( NM_001199327.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001186256.2 Homo sapiens FPGT-TNNI3K readthrough (FPGT-TNNI3K), transcript variant 2, mRNA.
    Price & Availability↑
    CloneID OHu01365
    Clone ID Related Accession (Same CDS sequence) NM_001199327.1
    Accession Version NM_001199327.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2571bp)
    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 2018-09-15
    Organism Homo sapiens(human)
    Product FPGT-TNNI3K fusion protein isoform b
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC098692.3, BC032865.1, AC093158.2, AC105271.2 and BQ447828.1. Transcript Variant: This variant (2) differs in the 3' UTR and coding region, compare to variant 1. The encoded isoform (2) is shorter and has a distinct C-terminus, compared to isoform a. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: BC032865.1, SRR1803617.172668.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2145240, SAMEA2145245 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## readthrough transcript :: includes exons from GeneID 8790, 51086 ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGCGTGCTG TGCGGCGCGG TCTCAGGGAA GGTGGGGCTA TGGCAGCTGC TAGGGACCCT 
    CCGGAAGTAT CGCTGCGAGA AGCCACCCAG CGAAAATTGC GGAGGTTTTC CGAGCTAAGA 
    GGCAAACTTG TAGCACGTGG AGAATTCTGG GACATAGTTG CAATAACAGC GGCTGATGAA 
    AAACAGGAAC TTGCTTACAA CCAACAGCTG TCAGAAAAGC TGAAAAGAAA GGAGTTACCC 
    CTTGGAGTTC AATATCACGT TTTTGTGGAT CCTGCTGGAG CCAAAATTGG AAATGGAGGA 
    TCAACACTTT GTGCCCTTCA ATGTTTGGAA AAGCTATATG GAGATAAATG GAATTCTTTT 
    ACCATCTTAT TAATTCACTC TGATGAATGG AAGAAAAAAG TCAGTGAATC ATATGTTATC 
    ACAATAGAAA GATTAGAAGA TGACCTGCAG ATCAAGGAAA AAGAACTGAC AGAACTAAGG 
    AATATATTTG GCTCTGATGA AGCCTTCAGT AAAGTCAATT TAAATTACCG CACTGAAAAT 
    GGGCTGTCTC TACTTCATTT ATGTTGCATT TGTGGAGGCA AGAAATCACA TATTCGAACT 
    CTTATGTTGA AAGGGCTCCG CCCATCTCGA CTGACAAGAA ATGGATTTAC AGCCTTGCAT 
    TTAGCAGTTT ACAAGGATAA TGCAGAATTG ATCACTTCTC TGCTTCACAG TGGAGCTGAT 
    ATACAGCAGG TTGGATACGG TGGCCTCACT GCCCTCCATA TTGCTACAAT AGCTGGCCAC 
    CTAGAGGCTG CTGATGTGCT GTTGCAACAT GGAGCTAATG TCAATATTCA AGATGCAGTT 
    TTTTTCACTC CATTGCATAT TGCAGCGTAC TATGGACATG AACAGGTAAC TCGCCTTCTT 
    TTGAAATTTG GTGCTGATGT AAATGTAAGT GGTGAAGTTG GAGATAGACC CCTCCACCTA 
    GCATCTGCAA AAGGATTCTT GAATATTGCA AAACTCTTGA TGGAAGAAGG CAGCAAAGCA 
    GATGTGAATG CTCAAGATAA TGAAGACCAT GTCCCACTCC ATTTCTGTTC TCGATTTGGA 
    CACCATGATA TAGTTAAGTA TCTGCTGCAA AGTGATTTGG AAGTTCAACC TCATGTTGTT 
    AATATCTATG GAGATACCCC CTTACACCTG GCATGCTACA ATGGCAAATT TGAAGTTGCC 
    AAGGAAATCA TCCAAATATC AGGAACAGAA AGTCTGACTA AGGAAAACAT CTTCAGTGAA 
    ACAGCTTTTC ATAGTGCTTG TACCTATGGC AAGAGCATTG ACCTAGTCAA ATTTCTTCTT 
    GATCAGAATG TCATAAACAT CAACCACCAA GGAAGGGATG GGCACACTGG ATTACACTCT 
    GCTTGCTACC ACGGTCACAT TCGCCTGGTT CAGTTCTTAC TGGATAATGG AGCTGATATG 
    AATCTAGTGG CTTGTGATCC CAGCAGGTCT AGTGGTGAAA AAGATGAGCA GACATGTTTG 
    ATGTGGGCTT ATGAAAAAGG GCATGATGCC ATTGTCACAC TCCTGAAGCA TTATAAGAGA 
    CCACAAGATG AATTGCCCTG TAATGAATAT TCTCAGCCTG GAGGAGATGG CTCCTATGTG 
    TCTGTTCCAT CACCCTTGGG GAAGATTAAA AGCATGACAA AAGAGAAGGC AGATATTCTC 
    CTCCTAAGAG CTGGATTGCC TTCACATTTC CATCTTCAGC TCTCAGAAAT TGAGTTCCAT 
    GAGATTATTG GCTCAGGTTC TTTTGGGAAA GTATATAAAG GACGATGCAG AAATAAAATA 
    GTGGCTATAA AACGTTATCG AGCCAATACC TACTGCTCCA AGTCAGATGT GGATATGTTT 
    TGCCGAGAGG TGTCCATTCT CTGCCAGCTC AATCATCCCT GCGTAATTCA GTTTGTGGGT 
    GCTTGCTTGA ATGATCCCAG CCAGTTTGCC ATTGTCACTC AATACATATC AGGGGGTTCT 
    CTGTTCTCCC TCCTTCATGA GCAGAAGAGG ATTCTTGATT TGCAGTCTAA ATTAATTATT 
    GCAGTAGATG TTGCCAAAGG CATGGAGTAC CTTCACAACC TGACACAGCC AATTATACAT 
    CGTGACTTGA ACAGTCACAA TATTCTTCTC TATGAGGATG GGCATGCTGT GGTGGCAGAT 
    TTTGGAGAAT CAAGATTTCT ACAGTCTCTG GATGAAGACA ACATGACAAA ACAACCTGGG 
    AACCTCCGTT GGATGGCTCC TGAGGTGTTC ACGCAGTGCA CTCGGTACAC CATCAAAGCA 
    GATGTCTTCA GCTATGCTCT GTGTCTGTGG GAAATTCTCA CTGGCGAAAT TCCATTCGCT 
    CATCTCAAGC CAGCGGCTGC GGCAGCAGAC ATGGCTTACC ACCACATCAG ACCTCCCATT 
    GGCTATTCCA TTCCCAAGCC CATATCATCT CTGCTGATAC GAGGGTGGAA CGCATGTCCT 
    GAAGCAAAAT CCAGACCAAG TCATTACCCA GTCTCATCTG TGTACACAGA AACTCTTAAG 
    AAGAAAAATG AAGATCGTTT TGGGATGTGG ATTGAGTATC TCAGAAGATA A

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

    RefSeq NP_001186256.2
    CDS29..2599
    Translation

    Target ORF information:

    RefSeq Version NM_001199327.1
    Organism Homo sapiens(human)
    Definition Homo sapiens FPGT-TNNI3K readthrough (FPGT-TNNI3K), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001199327.1

    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
    ATGCGTGCTG TGCGGCGCGG TCTCAGGGAA GGTGGGGCTA TGGCAGCTGC TAGGGACCCT 
    CCGGAAGTAT CGCTGCGAGA AGCCACCCAG CGAAAATTGC GGAGGTTTTC CGAGCTAAGA 
    GGCAAACTTG TAGCACGTGG AGAATTCTGG GACATAGTTG CAATAACAGC GGCTGATGAA 
    AAACAGGAAC TTGCTTACAA CCAACAGCTG TCAGAAAAGC TGAAAAGAAA GGAGTTACCC 
    CTTGGAGTTC AATATCACGT TTTTGTGGAT CCTGCTGGAG CCAAAATTGG AAATGGAGGA 
    TCAACACTTT GTGCCCTTCA ATGTTTGGAA AAGCTATATG GAGATAAATG GAATTCTTTT 
    ACCATCTTAT TAATTCACTC TGATGAATGG AAGAAAAAAG TCAGTGAATC ATATGTTATC 
    ACAATAGAAA GATTAGAAGA TGACCTGCAG ATCAAGGAAA AAGAACTGAC AGAACTAAGG 
    AATATATTTG GCTCTGATGA AGCCTTCAGT AAAGTCAATT TAAATTACCG CACTGAAAAT 
    GGGCTGTCTC TACTTCATTT ATGTTGCATT TGTGGAGGCA AGAAATCACA TATTCGAACT 
    CTTATGTTGA AAGGGCTCCG CCCATCTCGA CTGACAAGAA ATGGATTTAC AGCCTTGCAT 
    TTAGCAGTTT ACAAGGATAA TGCAGAATTG ATCACTTCTC TGCTTCACAG TGGAGCTGAT 
    ATACAGCAGG TTGGATACGG TGGCCTCACT GCCCTCCATA TTGCTACAAT AGCTGGCCAC 
    CTAGAGGCTG CTGATGTGCT GTTGCAACAT GGAGCTAATG TCAATATTCA AGATGCAGTT 
    TTTTTCACTC CATTGCATAT TGCAGCGTAC TATGGACATG AACAGGTAAC TCGCCTTCTT 
    TTGAAATTTG GTGCTGATGT AAATGTAAGT GGTGAAGTTG GAGATAGACC CCTCCACCTA 
    GCATCTGCAA AAGGATTCTT GAATATTGCA AAACTCTTGA TGGAAGAAGG CAGCAAAGCA 
    GATGTGAATG CTCAAGATAA TGAAGACCAT GTCCCACTCC ATTTCTGTTC TCGATTTGGA 
    CACCATGATA TAGTTAAGTA TCTGCTGCAA AGTGATTTGG AAGTTCAACC TCATGTTGTT 
    AATATCTATG GAGATACCCC CTTACACCTG GCATGCTACA ATGGCAAATT TGAAGTTGCC 
    AAGGAAATCA TCCAAATATC AGGAACAGAA AGTCTGACTA AGGAAAACAT CTTCAGTGAA 
    ACAGCTTTTC ATAGTGCTTG TACCTATGGC AAGAGCATTG ACCTAGTCAA ATTTCTTCTT 
    GATCAGAATG TCATAAACAT CAACCACCAA GGAAGGGATG GGCACACTGG ATTACACTCT 
    GCTTGCTACC ACGGTCACAT TCGCCTGGTT CAGTTCTTAC TGGATAATGG AGCTGATATG 
    AATCTAGTGG CTTGTGATCC CAGCAGGTCT AGTGGTGAAA AAGATGAGCA GACATGTTTG 
    ATGTGGGCTT ATGAAAAAGG GCATGATGCC ATTGTCACAC TCCTGAAGCA TTATAAGAGA 
    CCACAAGATG AATTGCCCTG TAATGAATAT TCTCAGCCTG GAGGAGATGG CTCCTATGTG 
    TCTGTTCCAT CACCCTTGGG GAAGATTAAA AGCATGACAA AAGAGAAGGC AGATATTCTC 
    CTCCTAAGAG CTGGATTGCC TTCACATTTC CATCTTCAGC TCTCAGAAAT TGAGTTCCAT 
    GAGATTATTG GCTCAGGTTC TTTTGGGAAA GTATATAAAG GACGATGCAG AAATAAAATA 
    GTGGCTATAA AACGTTATCG AGCCAATACC TACTGCTCCA AGTCAGATGT GGATATGTTT 
    TGCCGAGAGG TGTCCATTCT CTGCCAGCTC AATCATCCCT GCGTAATTCA GTTTGTGGGT 
    GCTTGCTTGA ATGATCCCAG CCAGTTTGCC ATTGTCACTC AATACATATC AGGGGGTTCT 
    CTGTTCTCCC TCCTTCATGA GCAGAAGAGG ATTCTTGATT TGCAGTCTAA ATTAATTATT 
    GCAGTAGATG TTGCCAAAGG CATGGAGTAC CTTCACAACC TGACACAGCC AATTATACAT 
    CGTGACTTGA ACAGTCACAA TATTCTTCTC TATGAGGATG GGCATGCTGT GGTGGCAGAT 
    TTTGGAGAAT CAAGATTTCT ACAGTCTCTG GATGAAGACA ACATGACAAA ACAACCTGGG 
    AACCTCCGTT GGATGGCTCC TGAGGTGTTC ACGCAGTGCA CTCGGTACAC CATCAAAGCA 
    GATGTCTTCA GCTATGCTCT GTGTCTGTGG GAAATTCTCA CTGGCGAAAT TCCATTCGCT 
    CATCTCAAGC CAGCGGCTGC GGCAGCAGAC ATGGCTTACC ACCACATCAG ACCTCCCATT 
    GGCTATTCCA TTCCCAAGCC CATATCATCT CTGCTGATAC GAGGGTGGAA CGCATGTCCT 
    GAAGCAAAAT CCAGACCAAG TCATTACCCA GTCTCATCTG TGTACACAGA AACTCTTAAG 
    AAGAAAAATG AAGATCGTTT TGGGATGTGG ATTGAGTATC TCAGAAGATA A

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

    FPGT-TNNI3K ( NM_001112808.2 ) cDNA ORF clone, Homo sapiens(human) -> NP_001106279.2 Homo sapiens FPGT-TNNI3K readthrough (FPGT-TNNI3K), transcript variant 1, mRNA.
    Price & Availability↑
    CloneID OHu01717
    Clone ID Related Accession (Same CDS sequence) NM_001112808.2
    Accession Version NM_001112808.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2850bp)
    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 2019-03-18
    Organism Homo sapiens(human)
    Product FPGT-TNNI3K fusion protein isoform a
    Comment Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AC098692.3, AB208941.1 and BX470253.2. On Dec 4, 2010 this sequence version replaced NM_001112808.1. Transcript Variant: This variant (1) represents the longer transcript and encodes the longer isoform (a). Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: SRR1660809.227156.1, AB208941.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2151741, SAMEA2155550 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## readthrough transcript :: includes exons from GeneID 8790, 51086 ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' 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
    ATGCGTGCTG TGCGGCGCGG TCTCAGGGAA GGTGGGGCTA TGGCAGCTGC TAGGGACCCT 
    CCGGAAGTAT CGCTGCGAGA AGCCACCCAG CGAAAATTGC GGAGGTTTTC CGAGCTAAGA 
    GGCAAACTTG TAGCACGTGG AGAATTCTGG GACATAGTTG CAATAACAGC GGCTGATGAA 
    AAACAGGAAC TTGCTTACAA CCAACAGCTG TCAGAAAAGC TGAAAAGAAA GGAGTTACCC 
    CTTGGAGTTC AATATCACGT TTTTGTGGAT CCTGCTGGAG CCAAAATTGG AAATGGAGGA 
    TCAACACTTT GTGCCCTTCA ATGTTTGGAA AAGCTATATG GAGATAAATG GAATTCTTTT 
    ACCATCTTAT TAATTCACTC TGATGAATGG AAGAAAAAAG TCAGTGAATC ATATGTTATC 
    ACAATAGAAA GATTAGAAGA TGACCTGCAG ATCAAGGAAA AAGAACTGAC AGAACTAAGG 
    AATATATTTG GCTCTGATGA AGCCTTCAGT AAAGTCAATT TAAATTACCG CACTGAAAAT 
    GGGCTGTCTC TACTTCATTT ATGTTGCATT TGTGGAGGCA AGAAATCACA TATTCGAACT 
    CTTATGTTGA AAGGGCTCCG CCCATCTCGA CTGACAAGAA ATGGATTTAC AGCCTTGCAT 
    TTAGCAGTTT ACAAGGATAA TGCAGAATTG ATCACTTCTC TGCTTCACAG TGGAGCTGAT 
    ATACAGCAGG TTGGATACGG TGGCCTCACT GCCCTCCATA TTGCTACAAT AGCTGGCCAC 
    CTAGAGGCTG CTGATGTGCT GTTGCAACAT GGAGCTAATG TCAATATTCA AGATGCAGTT 
    TTTTTCACTC CATTGCATAT TGCAGCGTAC TATGGACATG AACAGGTAAC TCGCCTTCTT 
    TTGAAATTTG GTGCTGATGT AAATGTAAGT GGTGAAGTTG GAGATAGACC CCTCCACCTA 
    GCATCTGCAA AAGGATTCTT GAATATTGCA AAACTCTTGA TGGAAGAAGG CAGCAAAGCA 
    GATGTGAATG CTCAAGATAA TGAAGACCAT GTCCCACTCC ATTTCTGTTC TCGATTTGGA 
    CACCATGATA TAGTTAAGTA TCTGCTGCAA AGTGATTTGG AAGTTCAACC TCATGTTGTT 
    AATATCTATG GAGATACCCC CTTACACCTG GCATGCTACA ATGGCAAATT TGAAGTTGCC 
    AAGGAAATCA TCCAAATATC AGGAACAGAA AGTCTGACTA AGGAAAACAT CTTCAGTGAA 
    ACAGCTTTTC ATAGTGCTTG TACCTATGGC AAGAGCATTG ACCTAGTCAA ATTTCTTCTT 
    GATCAGAATG TCATAAACAT CAACCACCAA GGAAGGGATG GGCACACTGG ATTACACTCT 
    GCTTGCTACC ACGGTCACAT TCGCCTGGTT CAGTTCTTAC TGGATAATGG AGCTGATATG 
    AATCTAGTGG CTTGTGATCC CAGCAGGTCT AGTGGTGAAA AAGATGAGCA GACATGTTTG 
    ATGTGGGCTT ATGAAAAAGG GCATGATGCC ATTGTCACAC TCCTGAAGCA TTATAAGAGA 
    CCACAAGATG AATTGCCCTG TAATGAATAT TCTCAGCCTG GAGGAGATGG CTCCTATGTG 
    TCTGTTCCAT CACCCTTGGG GAAGATTAAA AGCATGACAA AAGAGAAGGC AGATATTCTC 
    CTCCTAAGAG CTGGATTGCC TTCACATTTC CATCTTCAGC TCTCAGAAAT TGAGTTCCAT 
    GAGATTATTG GCTCAGGTTC TTTTGGGAAA GTATATAAAG GACGATGCAG AAATAAAATA 
    GTGGCTATAA AACGTTATCG AGCCAATACC TACTGCTCCA AGTCAGATGT GGATATGTTT 
    TGCCGAGAGG TGTCCATTCT CTGCCAGCTC AATCATCCCT GCGTAATTCA GTTTGTGGGT 
    GCTTGCTTGA ATGATCCCAG CCAGTTTGCC ATTGTCACTC AATACATATC AGGGGGTTCT 
    CTGTTCTCCC TCCTTCATGA GCAGAAGAGG ATTCTTGATT TGCAGTCTAA ATTAATTATT 
    GCAGTAGATG TTGCCAAAGG CATGGAGTAC CTTCACAACC TGACACAGCC AATTATACAT 
    CGTGACTTGA ACAGTCACAA TATTCTTCTC TATGAGGATG GGCATGCTGT GGTGGCAGAT 
    TTTGGAGAAT CAAGATTTCT ACAGTCTCTG GATGAAGACA ACATGACAAA ACAACCTGGG 
    AACCTCCGTT GGATGGCTCC TGAGGTGTTC ACGCAGTGCA CTCGGTACAC CATCAAAGCA 
    GATGTCTTCA GCTATGCTCT GTGTCTGTGG GAAATTCTCA CTGGCGAAAT TCCATTCGCT 
    CATCTCAAGC CAGCGGCTGC GGCAGCAGAC ATGGCTTACC ACCACATCAG ACCTCCCATT 
    GGCTATTCCA TTCCCAAGCC CATATCATCT CTGCTGATAC GAGGGTGGAA CGCATGTCCT 
    GAAGGAAGAC CCGAATTTTC TGAAGTTGTC ATGAAGTTAG AAGAGTGTCT CTGCAACATT 
    GAGCTGATGT CTCCTGCATC AAGTAACAGC AGTGGGTCTC TCTCACCTTC TTCTTCTTCT 
    GATTGCCTGG TGAACCGGGG AGGACCTGGC CGGAGTCATG TGGCAGCATT AAGAAGTCGT 
    TTCGAATTGG AATATGCTCT AAATGCAAGG TCCTATGCTG CTTTGTCCCA AAGTGCTGGA 
    CAATATTCCT CTCAAGGTCT GTCTTTGGAG GAGATGAAAA GAAGTCTTCA ATACACACCC 
    ATTGACAAAT ATGGCTATGT ATCCGATCCC ATGAGCTCAA TGCATTTTCA TTCTTGCCGA 
    AATAGTAGCA GCTTTGAGGA CAGCAGCTGA

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

    RefSeq NP_001106279.2
    CDS29..2878
    Translation

    Target ORF information:

    RefSeq Version NM_001112808.2
    Organism Homo sapiens(human)
    Definition Homo sapiens FPGT-TNNI3K readthrough (FPGT-TNNI3K), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 NM_001112808.2

    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
    ATGCGTGCTG TGCGGCGCGG TCTCAGGGAA GGTGGGGCTA TGGCAGCTGC TAGGGACCCT 
    CCGGAAGTAT CGCTGCGAGA AGCCACCCAG CGAAAATTGC GGAGGTTTTC CGAGCTAAGA 
    GGCAAACTTG TAGCACGTGG AGAATTCTGG GACATAGTTG CAATAACAGC GGCTGATGAA 
    AAACAGGAAC TTGCTTACAA CCAACAGCTG TCAGAAAAGC TGAAAAGAAA GGAGTTACCC 
    CTTGGAGTTC AATATCACGT TTTTGTGGAT CCTGCTGGAG CCAAAATTGG AAATGGAGGA 
    TCAACACTTT GTGCCCTTCA ATGTTTGGAA AAGCTATATG GAGATAAATG GAATTCTTTT 
    ACCATCTTAT TAATTCACTC TGATGAATGG AAGAAAAAAG TCAGTGAATC ATATGTTATC 
    ACAATAGAAA GATTAGAAGA TGACCTGCAG ATCAAGGAAA AAGAACTGAC AGAACTAAGG 
    AATATATTTG GCTCTGATGA AGCCTTCAGT AAAGTCAATT TAAATTACCG CACTGAAAAT 
    GGGCTGTCTC TACTTCATTT ATGTTGCATT TGTGGAGGCA AGAAATCACA TATTCGAACT 
    CTTATGTTGA AAGGGCTCCG CCCATCTCGA CTGACAAGAA ATGGATTTAC AGCCTTGCAT 
    TTAGCAGTTT ACAAGGATAA TGCAGAATTG ATCACTTCTC TGCTTCACAG TGGAGCTGAT 
    ATACAGCAGG TTGGATACGG TGGCCTCACT GCCCTCCATA TTGCTACAAT AGCTGGCCAC 
    CTAGAGGCTG CTGATGTGCT GTTGCAACAT GGAGCTAATG TCAATATTCA AGATGCAGTT 
    TTTTTCACTC CATTGCATAT TGCAGCGTAC TATGGACATG AACAGGTAAC TCGCCTTCTT 
    TTGAAATTTG GTGCTGATGT AAATGTAAGT GGTGAAGTTG GAGATAGACC CCTCCACCTA 
    GCATCTGCAA AAGGATTCTT GAATATTGCA AAACTCTTGA TGGAAGAAGG CAGCAAAGCA 
    GATGTGAATG CTCAAGATAA TGAAGACCAT GTCCCACTCC ATTTCTGTTC TCGATTTGGA 
    CACCATGATA TAGTTAAGTA TCTGCTGCAA AGTGATTTGG AAGTTCAACC TCATGTTGTT 
    AATATCTATG GAGATACCCC CTTACACCTG GCATGCTACA ATGGCAAATT TGAAGTTGCC 
    AAGGAAATCA TCCAAATATC AGGAACAGAA AGTCTGACTA AGGAAAACAT CTTCAGTGAA 
    ACAGCTTTTC ATAGTGCTTG TACCTATGGC AAGAGCATTG ACCTAGTCAA ATTTCTTCTT 
    GATCAGAATG TCATAAACAT CAACCACCAA GGAAGGGATG GGCACACTGG ATTACACTCT 
    GCTTGCTACC ACGGTCACAT TCGCCTGGTT CAGTTCTTAC TGGATAATGG AGCTGATATG 
    AATCTAGTGG CTTGTGATCC CAGCAGGTCT AGTGGTGAAA AAGATGAGCA GACATGTTTG 
    ATGTGGGCTT ATGAAAAAGG GCATGATGCC ATTGTCACAC TCCTGAAGCA TTATAAGAGA 
    CCACAAGATG AATTGCCCTG TAATGAATAT TCTCAGCCTG GAGGAGATGG CTCCTATGTG 
    TCTGTTCCAT CACCCTTGGG GAAGATTAAA AGCATGACAA AAGAGAAGGC AGATATTCTC 
    CTCCTAAGAG CTGGATTGCC TTCACATTTC CATCTTCAGC TCTCAGAAAT TGAGTTCCAT 
    GAGATTATTG GCTCAGGTTC TTTTGGGAAA GTATATAAAG GACGATGCAG AAATAAAATA 
    GTGGCTATAA AACGTTATCG AGCCAATACC TACTGCTCCA AGTCAGATGT GGATATGTTT 
    TGCCGAGAGG TGTCCATTCT CTGCCAGCTC AATCATCCCT GCGTAATTCA GTTTGTGGGT 
    GCTTGCTTGA ATGATCCCAG CCAGTTTGCC ATTGTCACTC AATACATATC AGGGGGTTCT 
    CTGTTCTCCC TCCTTCATGA GCAGAAGAGG ATTCTTGATT TGCAGTCTAA ATTAATTATT 
    GCAGTAGATG TTGCCAAAGG CATGGAGTAC CTTCACAACC TGACACAGCC AATTATACAT 
    CGTGACTTGA ACAGTCACAA TATTCTTCTC TATGAGGATG GGCATGCTGT GGTGGCAGAT 
    TTTGGAGAAT CAAGATTTCT ACAGTCTCTG GATGAAGACA ACATGACAAA ACAACCTGGG 
    AACCTCCGTT GGATGGCTCC TGAGGTGTTC ACGCAGTGCA CTCGGTACAC CATCAAAGCA 
    GATGTCTTCA GCTATGCTCT GTGTCTGTGG GAAATTCTCA CTGGCGAAAT TCCATTCGCT 
    CATCTCAAGC CAGCGGCTGC GGCAGCAGAC ATGGCTTACC ACCACATCAG ACCTCCCATT 
    GGCTATTCCA TTCCCAAGCC CATATCATCT CTGCTGATAC GAGGGTGGAA CGCATGTCCT 
    GAAGGAAGAC CCGAATTTTC TGAAGTTGTC ATGAAGTTAG AAGAGTGTCT CTGCAACATT 
    GAGCTGATGT CTCCTGCATC AAGTAACAGC AGTGGGTCTC TCTCACCTTC TTCTTCTTCT 
    GATTGCCTGG TGAACCGGGG AGGACCTGGC CGGAGTCATG TGGCAGCATT AAGAAGTCGT 
    TTCGAATTGG AATATGCTCT AAATGCAAGG TCCTATGCTG CTTTGTCCCA AAGTGCTGGA 
    CAATATTCCT CTCAAGGTCT GTCTTTGGAG GAGATGAAAA GAAGTCTTCA ATACACACCC 
    ATTGACAAAT ATGGCTATGT ATCCGATCCC ATGAGCTCAA TGCATTTTCA TTCTTGCCGA 
    AATAGTAGCA GCTTTGAGGA CAGCAGCTGA

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

  • PubMed

    Parent-of-origin-specific allelic associations among 106 genomic loci for age at menarche.
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    Genome-wide analysis of BMI in adolescents and young adults reveals additional insight into the effects of genetic loci over the life course.
    Human molecular genetics22(17)3597-607(2013 Sep)
    Graff M,Ngwa JS,Workalemahu T,Homuth G,Schipf S,Teumer A,V?lzke H,Wallaschofski H,Abecasis GR,Edward L,Francesco C,Sanna S,Scheet P,Schlessinger D,Sidore C,Xiao X,Wang Z,Chanock SJ,Jacobs KB,Hayes RB,Hu F,Van Dam RM,,Crout RJ,Marazita ML,Shaffer JR,Atwood LD,Fox CS,Heard-Costa NL,White C,Choh AC,Czerwinski SA,Demerath EW,Dyer TD,Towne B,Amin N,Oostra BA,Van Duijn CM,Zillikens MC,Esko T,Nelis M,Nikopensius T,Metspalu A,Strachan DP,Monda K,Qi L,North KE,Cupples LA,Gordon-Larsen P,Berndt SI


    Genome-wide association and longitudinal analyses reveal genetic loci linking pubertal height growth, pubertal timing and childhood adiposity.
    Human molecular genetics22(13)2735-47(2013 Jul)
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    Genome-wide meta-analysis identifies 11 new loci for anthropometric traits and provides insights into genetic architecture.
    Nature genetics45(5)501-12(2013 May)
    Berndt SI,Gustafsson S,M?gi R,Ganna A,Wheeler E,Feitosa MF,Justice AE,Monda KL,Croteau-Chonka DC,Day FR,Esko T,Fall T,Ferreira T,Gentilini D,Jackson AU,Luan J,Randall JC,Vedantam S,Willer CJ,Winkler TW,Wood AR,Workalemahu T,Hu YJ,Lee SH,Liang L,Lin DY,Min JL,Neale BM,Thorleifsson G,Yang J,Albrecht E,Amin N,Bragg-Gresham JL,Cadby G,den Heijer M,Eklund N,Fischer K,Goel A,Hottenga JJ,Huffman JE,Jarick I,Johansson ?,Johnson T,Kanoni S,Kleber ME,K?nig IR,Kristiansson K,Kutalik Z,Lamina C,Lecoeur C,Li G,Mangino M,McArdle WL,Medina-Gomez C,M?ller-Nurasyid M,Ngwa JS,Nolte IM,Paternoster L,Pechlivanis S,Perola M,Peters MJ,Preuss M,Rose LM,Shi J,Shungin D,Smith AV,Strawbridge RJ,Surakka I,Teumer A,Trip MD,Tyrer J,Van Vliet-Ostaptchouk JV,Vandenput L,Waite LL,Zhao JH,Absher D,Asselbergs FW,Atalay M,Attwood AP,Balmforth AJ,Basart H,Beilby J,Bonnycastle LL,Brambilla P,Bruinenberg M,Campbell H,Chasman DI,Chines PS,Collins FS,Connell JM,Cookson WO,de Faire U,de Vegt F,Dei M,Dimitriou M,Edkins S,Estrada K,Evans DM,Farrall M,Ferrario MM,Ferri?res J,Franke L,Frau F,Gejman PV,Grallert H,Gr?nberg H,Gudnason V,Hall AS,Hall P,Hartikainen AL,Hayward C,Heard-Costa NL,Heath AC,Hebebrand J,Homuth G,Hu FB,Hunt SE,Hypp?nen E,Iribarren C,Jacobs KB,Jansson JO,Jula A,K?h?nen M,Kathiresan S,Kee F,Khaw KT,Kivim?ki M,Koenig W,Kraja AT,Kumari M,Kuulasmaa K,Kuusisto J,Laitinen JH,Lakka TA,Langenberg C,Launer LJ,Lind L,Lindstr?m J,Liu J,Liuzzi A,Lokki ML,Lorentzon M,Madden PA,Magnusson PK,Manunta P,Marek D,M?rz W,Mateo Leach I,McKnight B,Medland SE,Mihailov E,Milani L,Montgomery GW,Mooser V,M?hleisen TW,Munroe PB,Musk AW,Narisu N,Navis G,Nicholson G,Nohr EA,Ong KK,Oostra BA,Palmer CN,Palotie A,Peden JF,Pedersen N,Peters A,Polasek O,Pouta A,Pramstaller PP,Prokopenko I,P?tter C,Radhakrishnan A,Raitakari O,Rendon A,Rivadeneira F,Rudan I,Saaristo TE,Sambrook JG,Sanders AR,Sanna S,Saramies J,Schipf S,Schreiber S,Schunkert H,Shin SY,Signorini S,Sinisalo J,Skrobek B,Soranzo N,Stan??kov? A,Stark K,Stephens JC,Stirrups K,Stolk RP,Stumvoll M,Swift AJ,Theodoraki EV,Thorand B,Tregouet DA,Tremoli E,Van der Klauw MM,van Meurs JB,Vermeulen SH,Viikari J,Virtamo J,Vitart V,Waeber G,Wang Z,Wid?n E,Wild SH,Willemsen G,Winkelmann BR,Witteman JC,Wolffenbuttel BH,Wong A,Wright AF,Zillikens MC,Amouyel P,Boehm BO,Boerwinkle E,Boomsma DI,Caulfield MJ,Chanock SJ,Cupples LA,Cusi D,Dedoussis GV,Erdmann J,Eriksson JG,Franks PW,Froguel P,Gieger C,Gyllensten U,Hamsten A,Harris TB,Hengstenberg C,Hicks AA,Hingorani A,Hinney A,Hofman A,Hovingh KG,Hveem K,Illig T,Jarvelin MR,J?ckel KH,Keinanen-Kiukaanniemi SM,Kiemeney LA,Kuh D,Laakso M,Lehtim?ki T,Levinson DF,Martin NG,Metspalu A,Morris AD,Nieminen MS,Nj?lstad I,Ohlsson C,Oldehinkel AJ,Ouwehand WH,Palmer LJ,Penninx B,Power C,Province MA,Psaty BM,Qi L,Rauramaa R,Ridker PM,Ripatti S,Salomaa V,Samani NJ,Snieder H,S?rensen TI,Spector TD,Stefansson K,T?njes A,Tuomilehto J,Uitterlinden AG,Uusitupa M,van der Harst P,Vollenweider P,Wallaschofski H,Wareham NJ,Watkins H,Wichmann HE,Wilson JF,Abecasis GR,Assimes TL,Barroso I,Boehnke M,Borecki IB,Deloukas P,Fox CS,Frayling T,Groop LC,Haritunian T,Heid IM,Hunter D,Kaplan RC,Karpe F,Moffatt MF,Mohlke KL,O'Connell JR,Pawitan Y,Schadt EE,Schlessinger D,Steinthorsdottir V,Strachan DP,Thorsteinsdottir U,van Duijn CM,Visscher PM,Di Blasio AM,Hirschhorn JN,Lindgren CM,Morris AP,Meyre D,Scherag A,McCarthy MI,Speliotes EK,North KE,Loos RJ,Ingelsson E


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