TEX14 cDNA ORF clone, Homo sapiens(human)

The following TEX14 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TEX14 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
OHu86992 XM_017024860.1
Latest version!
Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu69948 XM_017024861.1
Latest version!
Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $559.30
$799.00
OHu13861 NM_031272.4
Latest version!
Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant 2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu13985 NM_198393.3
Latest version!
Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant 1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $923.30
$1319.00
OHu13988 NM_001201457.1
Latest version!
Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant 3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $727.30
$1039.00
OHu69944 XM_011525029.3
Latest version!
Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
View Old Accession Versions >>
OHu69944 XM_011525029.2 Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $811.30
$1159.00
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 OHu86992
    Clone ID Related Accession (Same CDS sequence) XM_017024860.1
    Accession Version XM_017024860.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3933bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product inactive serine/threonine-protein kinase TEX14 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGCAGCGCT GTGCCTCACA CATGCAGGCC ATCATCCAGG GCTTCTCTTA CGACCTCCTG 
    AAGAAGATAG ACTCCCCGCA GCGGCTTGTC TACAGCCCGT CCTGGTGTGG GGGCCTCGTG
    CAGGGAAACC CTAATGGCTC TCCTAACCGA CTGCTTAAAG CTGGAGTCAT TTCTGCTCAA
    AATATCTACA GCTTTGGTTT TGGGAAGTTT TATCTTACTG GGGCGACACA GATGGCCTAT
    CTAGGATCTC TTCCGGTCAT TGGAGAAAAG GAAGTGATTC AAGCTGATGA TGAGCCCACC
    TTCTCTTTCT TCAGCGGCCC CTACATGGTC ATGACCAACA AGCTGCGGCA CCCCTACTTG
    CTACAGTTGA TGGCTGTGTG TCTCTCCCAG GACCTAGAGA AAACCCGCCT TGTGTACGAG
    CGCATCACTA TCGGCACATT GTTCAGTGTC CTTCATGAAC GACGGTCCCA GTTCCCAGTG
    CTGCACATGG AGGTGATTGT GCACCTGCTG CTCCAGATAT CTGATGCCCT GAGATACCTG
    CATTTCCAGG GGTTTATCCA CCGCTCCCTC AGCTCCTATG CTGTCCATAT CATCTCCCCA
    GGTGAAGCGA GGCTGACCAA CCTGGAGTAC ATGTTGGAAA GCGAGGACAG AGGTGTACAG
    AGGGACCTGA CTCGAGTGCC CCTTCCTACG CAGCTATACA ACTGGGCCGC ACCAGAAGTG
    ATCTTACAGA AGGCAGCCAC AGTGAAATCA GACATCTACA GCTTTTCTAT GATCATGCAG
    GAGATTTTAA CAGATGACAT ACCCTGGAAG GGCTTAGATG GCTCAGTTGT TAAAAAAGCC
    GTAGTCTCGG GGAATTATTT AGAAGCTGAT GTCAGGCTTC CGAAACCTTA CTATGATATT
    GTTAAGTCAG GCATCCACGT CAAGCAGAAA GACCGAACTA TGAACCTTCA AGATATCCGG
    TATATTCTGA AGAATGACTT AAAGGATTTT ACTGGAGCCC AGAGAACTCA ACCAACCGAG
    AGCCCCAGAG TGCAGAGATA CGGACTCCAT CCCGATGTCA ATGTCTATCT AGGACTGACT
    TCAGAACACC CCAGAGAGAC ACCTGACATG GAAATCATAG AACTAAAGGA AATGGGCAGT
    CAACCTCATT CACCAAGGGT TCACTCTTTA TTCACTGAGG GGACACTAGA TCCTCAGGCC
    CCAGATCCAT GTCTGATGGC CAGGGAGACT CAGAATCAAG ATGCTCCTTG CCCTGCTCCA
    TTTATGGCAG AAGAGGCCAG CAGCCCCAGC ACAGGTCAGC CAAGCCTCTG CAGTTTCGAA
    ATCAACGAGA TCTACTCAGG CTGCTTGATT TTGGAAGATG ACATAGAAGA GCCTCCAGGA
    GCTGCTTCAT CTTTGGAGGC AGACGGACCT AACCAGGTAG ATGAACTGAA ATCCATGGAA
    GAAGAGCTGG ATAAGATGGA GAGAGAGGCG TGTTGTTTTG GCAGTGAGGA TGAGAGCTCT
    TCAAAAGCTG AGACAGAGTA CTCTTTTGAT GACTGGGACT GGCAAAACGG TTCACTCAGT
    TCACTCAGCC TTCCTGAGTC AACCAGAGAA GCCAAGAGCA ATTTGAACAA CATGTCCACG
    ACTGAGGAGT ATCTCATCAG TAAGTGTGTG CTGGATCTAA AGATTATGCA GACAATAATG
    CACGAGAATG ATGATAGGCT GAGGAATATC GAGCAGATAT TAGATGAAGT CGAGATGAAA
    CAGAAGGAAC AGGAAGAGCG CATGTCTTTA TGGGCCACTT CAAGAGAGTT TACAAATGCC
    TACAAGTTAC CTCTGGCCGT GGGCCCTCCA TCTTTAAACT ATATTCCTCC TGTCCTACAG
    CTTTCAGGGG GTCAGAAGCC AGACACCAGT GGCAACTACC CAACCCTACC AAGATTTCCA
    AGAATGCTGC CGACTCTTTG TGACCCTGGA AAACAGAACA CAGATGAACA ATTTCAGTGC
    ACTCAAGGAG CCAAGGACAG TTTGGAAACA AGCAGGATCC AAAATACCAG TAGCCAGGGA
    AGACCTAGAG AGTCCACTGC CCAAGCCAAA GCCACACAGT TTAATAGTGC ACTCTTCACT
    CTGTCAAGCC ACCGGCAGGG ACCTTCTGCA TCACCCAGCT GTCACTGGGA CTCTACCAGG
    ATGAGTGTGG AACCTGTTTC TTCTGAAATC TATAATGCAG AGTCCAGAAA TAAAGATGAT
    GGAAAGGTAC ACTTAAAATG GAAAATGGAG GTGAAAGAAA TGGCAAAGAA AGCAGCTACT
    GGACAGCTCA CAGTACCTCC TTGGCATCCT CAGAGTAGTC TGACTTTAGA GAGCGAGGCT
    GAAAATGAGC CCGACGCCCT GCTGCAGCCC CCCATTAGGA GCCCAGAAAA CACGGATTGG
    CAGCGAGTTA TTGAGTATCA TAGGGAAAAT GATGAGCCCA GAGGAAATGG CAAGTTTGAC
    AAGACGGGCA ACAATGACTG TGACAGTGAC CAGCATGGCA GACAGCCCAG GCTTGGAAGC
    TTCACCAGTA TCAGGCACCC ATCTCCCAGA CAAAAGGAGC AACCAGAGCA TAGTGAAGCC
    TTCCAAGCAA GTTCTGACAC ATTGGTGGCT GTAGAGAAAT CTTACAGTCA TCAGTCCATG
    CAATCAACTT GTTCACCAGA GTCTTCTGAG GATATAACAG ATGAATTTTT AACTCCAGAC
    GGTGAATATT TTTACTCCTC GACTGCTCAA GAAAACTTAG CTCTAGAGAC CTCGAGTCCC
    ATAGAAGAGG ACTTTGAAGG AATACAAGGT GCATTTGCCC AACCTCAAGT CTCTGGTGAG
    GAAAAGTTCC AAATGAGAAA AATTCTTGGA AAGAATGCTG AGATTTTGCC CAGGTCTCAA
    TTTCAACCTG TACGAAGTAC TGAAGATGAA CAAGAAGAGA CATCAAAGGA GTCACCAAAG
    GAACTGAAAG AGAAAGACAT ATCATTGACG GATATTCAAG ACCTGTCTAG TATCTCCTAT
    GAACCAGACA GCTCTTTTAA GGAAGCTTCA TGCAAAACAC CCAAAATAAA CCATGCACCT
    ACCAGTGTCA GCACTCCACT CAGCCCAGGG TCCGTTTCTT CAGCTGCCAG TCAGTATAAA
    GACTGCCTTG AAAGTATCAC ATTTCAGGTT AAGACAGAGT TTGCCTCTTG CTGGAACAGT
    CAAGAATTTA TTCAAACTTT GTCTGATGAC TTTATAAGTG TCCGAGAGAG AGCAAAGAAA
    CTGGATTCTC TCCTTACTTC CTCTGAAACT CCCCCTTCAA GACTGACTGG TCTTAAAAGA
    TTGTCTTCAT TTATTGGGGC TGGATCCCCC AGCCTTGTTA AGGCATGTGA CTCATCACCA
    CCCCATGCCA CCCAGAGAAG GAGCCTGCCT AAAGTAGAAG CCTTCTCACA GCATCACATT
    GATGAGCTGC CACCACCATC TCAGGAGCTA CTTGATGACA TTGAGCTCTT GAAACAGCAG
    CAGGGCTCAT CCACGGTGTT GCATGAGAAC ACAGCAAGTG ATGGAGGAGG CACTGCAAAT
    GATCAAAGGC ACTTAGAAGA ACAAGAAACT GACAGTAAAA AAGAAGATAG TAGTATGCTT
    TTGTCCAAAG AAACTGAAGA TCTTGGAGAG GACACAGAGA GAGCTCACTC TACTCTGGAT
    GAGGACCTGG AAAGATGGCT GCAGCCACCT GAGGAGAGCG TGGAGCTACA AGACCTTCCC
    AAGGGCTCTG AAAGGGAGAC AAATATCAAA GATCAAAAAG TTGGTGAAGA GAAAAGAAAA
    AGGGAAGATA GCATTACACC AGAAAGAAGG AAATCAGAGG GTGTTCTAGG GACTTCTGAA
    GAAGATGAAC TAAAATCCTG TTTTTGGAAG CGACTAGGTT GGTCCGAATC ATCCAGGATA
    ATCGTGCTGG ATCAGAGTGA CTTGTCAGAC TGA

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

    RefSeq XP_016880349.1
    CDS312..4244
    Translation

    Target ORF information:

    RefSeq Version XM_017024860.1
    Organism Homo sapiens(human)
    Definition Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024860.1

    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
    ATGCAGCGCT GTGCCTCACA CATGCAGGCC ATCATCCAGG GCTTCTCTTA CGACCTCCTG 
    AAGAAGATAG ACTCCCCGCA GCGGCTTGTC TACAGCCCGT CCTGGTGTGG GGGCCTCGTG
    CAGGGAAACC CTAATGGCTC TCCTAACCGA CTGCTTAAAG CTGGAGTCAT TTCTGCTCAA
    AATATCTACA GCTTTGGTTT TGGGAAGTTT TATCTTACTG GGGCGACACA GATGGCCTAT
    CTAGGATCTC TTCCGGTCAT TGGAGAAAAG GAAGTGATTC AAGCTGATGA TGAGCCCACC
    TTCTCTTTCT TCAGCGGCCC CTACATGGTC ATGACCAACA AGCTGCGGCA CCCCTACTTG
    CTACAGTTGA TGGCTGTGTG TCTCTCCCAG GACCTAGAGA AAACCCGCCT TGTGTACGAG
    CGCATCACTA TCGGCACATT GTTCAGTGTC CTTCATGAAC GACGGTCCCA GTTCCCAGTG
    CTGCACATGG AGGTGATTGT GCACCTGCTG CTCCAGATAT CTGATGCCCT GAGATACCTG
    CATTTCCAGG GGTTTATCCA CCGCTCCCTC AGCTCCTATG CTGTCCATAT CATCTCCCCA
    GGTGAAGCGA GGCTGACCAA CCTGGAGTAC ATGTTGGAAA GCGAGGACAG AGGTGTACAG
    AGGGACCTGA CTCGAGTGCC CCTTCCTACG CAGCTATACA ACTGGGCCGC ACCAGAAGTG
    ATCTTACAGA AGGCAGCCAC AGTGAAATCA GACATCTACA GCTTTTCTAT GATCATGCAG
    GAGATTTTAA CAGATGACAT ACCCTGGAAG GGCTTAGATG GCTCAGTTGT TAAAAAAGCC
    GTAGTCTCGG GGAATTATTT AGAAGCTGAT GTCAGGCTTC CGAAACCTTA CTATGATATT
    GTTAAGTCAG GCATCCACGT CAAGCAGAAA GACCGAACTA TGAACCTTCA AGATATCCGG
    TATATTCTGA AGAATGACTT AAAGGATTTT ACTGGAGCCC AGAGAACTCA ACCAACCGAG
    AGCCCCAGAG TGCAGAGATA CGGACTCCAT CCCGATGTCA ATGTCTATCT AGGACTGACT
    TCAGAACACC CCAGAGAGAC ACCTGACATG GAAATCATAG AACTAAAGGA AATGGGCAGT
    CAACCTCATT CACCAAGGGT TCACTCTTTA TTCACTGAGG GGACACTAGA TCCTCAGGCC
    CCAGATCCAT GTCTGATGGC CAGGGAGACT CAGAATCAAG ATGCTCCTTG CCCTGCTCCA
    TTTATGGCAG AAGAGGCCAG CAGCCCCAGC ACAGGTCAGC CAAGCCTCTG CAGTTTCGAA
    ATCAACGAGA TCTACTCAGG CTGCTTGATT TTGGAAGATG ACATAGAAGA GCCTCCAGGA
    GCTGCTTCAT CTTTGGAGGC AGACGGACCT AACCAGGTAG ATGAACTGAA ATCCATGGAA
    GAAGAGCTGG ATAAGATGGA GAGAGAGGCG TGTTGTTTTG GCAGTGAGGA TGAGAGCTCT
    TCAAAAGCTG AGACAGAGTA CTCTTTTGAT GACTGGGACT GGCAAAACGG TTCACTCAGT
    TCACTCAGCC TTCCTGAGTC AACCAGAGAA GCCAAGAGCA ATTTGAACAA CATGTCCACG
    ACTGAGGAGT ATCTCATCAG TAAGTGTGTG CTGGATCTAA AGATTATGCA GACAATAATG
    CACGAGAATG ATGATAGGCT GAGGAATATC GAGCAGATAT TAGATGAAGT CGAGATGAAA
    CAGAAGGAAC AGGAAGAGCG CATGTCTTTA TGGGCCACTT CAAGAGAGTT TACAAATGCC
    TACAAGTTAC CTCTGGCCGT GGGCCCTCCA TCTTTAAACT ATATTCCTCC TGTCCTACAG
    CTTTCAGGGG GTCAGAAGCC AGACACCAGT GGCAACTACC CAACCCTACC AAGATTTCCA
    AGAATGCTGC CGACTCTTTG TGACCCTGGA AAACAGAACA CAGATGAACA ATTTCAGTGC
    ACTCAAGGAG CCAAGGACAG TTTGGAAACA AGCAGGATCC AAAATACCAG TAGCCAGGGA
    AGACCTAGAG AGTCCACTGC CCAAGCCAAA GCCACACAGT TTAATAGTGC ACTCTTCACT
    CTGTCAAGCC ACCGGCAGGG ACCTTCTGCA TCACCCAGCT GTCACTGGGA CTCTACCAGG
    ATGAGTGTGG AACCTGTTTC TTCTGAAATC TATAATGCAG AGTCCAGAAA TAAAGATGAT
    GGAAAGGTAC ACTTAAAATG GAAAATGGAG GTGAAAGAAA TGGCAAAGAA AGCAGCTACT
    GGACAGCTCA CAGTACCTCC TTGGCATCCT CAGAGTAGTC TGACTTTAGA GAGCGAGGCT
    GAAAATGAGC CCGACGCCCT GCTGCAGCCC CCCATTAGGA GCCCAGAAAA CACGGATTGG
    CAGCGAGTTA TTGAGTATCA TAGGGAAAAT GATGAGCCCA GAGGAAATGG CAAGTTTGAC
    AAGACGGGCA ACAATGACTG TGACAGTGAC CAGCATGGCA GACAGCCCAG GCTTGGAAGC
    TTCACCAGTA TCAGGCACCC ATCTCCCAGA CAAAAGGAGC AACCAGAGCA TAGTGAAGCC
    TTCCAAGCAA GTTCTGACAC ATTGGTGGCT GTAGAGAAAT CTTACAGTCA TCAGTCCATG
    CAATCAACTT GTTCACCAGA GTCTTCTGAG GATATAACAG ATGAATTTTT AACTCCAGAC
    GGTGAATATT TTTACTCCTC GACTGCTCAA GAAAACTTAG CTCTAGAGAC CTCGAGTCCC
    ATAGAAGAGG ACTTTGAAGG AATACAAGGT GCATTTGCCC AACCTCAAGT CTCTGGTGAG
    GAAAAGTTCC AAATGAGAAA AATTCTTGGA AAGAATGCTG AGATTTTGCC CAGGTCTCAA
    TTTCAACCTG TACGAAGTAC TGAAGATGAA CAAGAAGAGA CATCAAAGGA GTCACCAAAG
    GAACTGAAAG AGAAAGACAT ATCATTGACG GATATTCAAG ACCTGTCTAG TATCTCCTAT
    GAACCAGACA GCTCTTTTAA GGAAGCTTCA TGCAAAACAC CCAAAATAAA CCATGCACCT
    ACCAGTGTCA GCACTCCACT CAGCCCAGGG TCCGTTTCTT CAGCTGCCAG TCAGTATAAA
    GACTGCCTTG AAAGTATCAC ATTTCAGGTT AAGACAGAGT TTGCCTCTTG CTGGAACAGT
    CAAGAATTTA TTCAAACTTT GTCTGATGAC TTTATAAGTG TCCGAGAGAG AGCAAAGAAA
    CTGGATTCTC TCCTTACTTC CTCTGAAACT CCCCCTTCAA GACTGACTGG TCTTAAAAGA
    TTGTCTTCAT TTATTGGGGC TGGATCCCCC AGCCTTGTTA AGGCATGTGA CTCATCACCA
    CCCCATGCCA CCCAGAGAAG GAGCCTGCCT AAAGTAGAAG CCTTCTCACA GCATCACATT
    GATGAGCTGC CACCACCATC TCAGGAGCTA CTTGATGACA TTGAGCTCTT GAAACAGCAG
    CAGGGCTCAT CCACGGTGTT GCATGAGAAC ACAGCAAGTG ATGGAGGAGG CACTGCAAAT
    GATCAAAGGC ACTTAGAAGA ACAAGAAACT GACAGTAAAA AAGAAGATAG TAGTATGCTT
    TTGTCCAAAG AAACTGAAGA TCTTGGAGAG GACACAGAGA GAGCTCACTC TACTCTGGAT
    GAGGACCTGG AAAGATGGCT GCAGCCACCT GAGGAGAGCG TGGAGCTACA AGACCTTCCC
    AAGGGCTCTG AAAGGGAGAC AAATATCAAA GATCAAAAAG TTGGTGAAGA GAAAAGAAAA
    AGGGAAGATA GCATTACACC AGAAAGAAGG AAATCAGAGG GTGTTCTAGG GACTTCTGAA
    GAAGATGAAC TAAAATCCTG TTTTTGGAAG CGACTAGGTT GGTCCGAATC ATCCAGGATA
    ATCGTGCTGG ATCAGAGTGA CTTGTCAGAC TGA

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

    CloneID OHu69948
    Clone ID Related Accession (Same CDS sequence) XM_017024861.1
    Accession Version XM_017024861.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3300bp)
    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 inactive serine/threonine-protein kinase TEX14 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) 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
    3121
    3181
    3241
    ATGAACGACG AGGACAGAGG TGTACAGAGG GACCTGACTC GAGTGCCCCT TCCTACGCAG 
    CTATACAACT GGGCCGCACC AGAAGTGATC TTACAGAAGG CAGCCACAGT GAAATCAGAC
    ATCTACAGCT TTTCTATGAT CATGCAGGAG ATTTTAACAG ATGACATACC CTGGAAGGGC
    TTAGATGGCT CAGTTGTTAA AAAAGCCGTA GTCTCGGGGA ATTATTTAGA AGCTGATGTC
    AGGCTTCCGA AACCTTACTA TGATATTGTT AAGTCAGGCA TCCACGTCAA GCAGAAAGAC
    CGAACTATGA ACCTTCAAGA TATCCGGTAT ATTCTGAAGA ATGACTTAAA GGATTTTACT
    GGAGCCCAGA GAACTCAACC AACCGAGAGC CCCAGAGTGC AGAGATACGG ACTCCATCCC
    GATGTCAATG TCTATCTAGG ACTGACTTCA GAACACCCCA GAGAGACACC TGACATGGAA
    ATCATAGAAC TAAAGGAAAT GGGCAGTCAA CCTCATTCAC CAAGGGTTCA CTCTTTATTC
    ACTGAGGGGA CACTAGATCC TCAGGCCCCA GATCCATGTC TGATGGCCAG GGAGACTCAG
    AATCAAGATG CTCCTTGCCC TGCTCCATTT ATGGCAGAAG AGGCCAGCAG CCCCAGCACA
    GGTCAGCCAA GCCTCTGCAG TTTCGAAATC AACGAGATCT ACTCAGGCTG CTTGATTTTG
    GAAGATGACA TAGAAGAGCC TCCAGGAGCT GCTTCATCTT TGGAGGCAGA CGGACCTAAC
    CAGGTAGATG AACTGAAATC CATGGAAGAA GAGCTGGATA AGATGGAGAG AGAGGCGTGT
    TGTTTTGGCA GTGAGGATGA GAGCTCTTCA AAAGCTGAGA CAGAGTACTC TTTTGATGAC
    TGGGACTGGC AAAACGGTTC ACTCAGTTCA CTCAGCCTTC CTGAGTCAAC CAGAGAAGCC
    AAGAGCAATT TGAACAACAT GTCCACGACT GAGGAGTATC TCATCAGTAA GTGTGTGCTG
    GATCTAAAGA TTATGCAGAC AATAATGCAC GAGAATGATG ATAGGCTGAG GAATATCGAG
    CAGATATTAG ATGAAGTCGA GATGAAACAG AAGGAACAGG AAGAGCGCAT GTCTTTATGG
    GCCACTTCAA GAGAGTTTAC AAATGCCTAC AAGTTACCTC TGGCCGTGGG CCCTCCATCT
    TTAAACTATA TTCCTCCTGT CCTACAGCTT TCAGGGGGTC AGAAGCCAGA CACCAGTGGC
    AACTACCCAA CCCTACCAAG ATTTCCAAGA ATGCTGCCGA CTCTTTGTGA CCCTGGAAAA
    CAGAACACAG ATGAACAATT TCAGTGCACT CAAGGAGCCA AGGACAGTTT GGAAACAAGC
    AGGATCCAAA ATACCAGTAG CCAGGGAAGA CCTAGAGAGT CCACTGCCCA AGCCAAAGCC
    ACACAGTTTA ATAGTGCACT CTTCACTCTG TCAAGCCACC GGCAGGGACC TTCTGCATCA
    CCCAGCTGTC ACTGGGACTC TACCAGGATG AGTGTGGAAC CTGTTTCTTC TGAAATCTAT
    AATGCAGAGT CCAGAAATAA AGATGATGGA AAGGTACACT TAAAATGGAA AATGGAGGTG
    AAAGAAATGG CAAAGAAAGC AGCTACTGGA CAGCTCACAG TACCTCCTTG GCATCCTCAG
    AGTAGTCTGA CTTTAGAGAG CGAGGCTGAA AATGAGCCCG ACGCCCTGCT GCAGCCCCCC
    ATTAGGAGCC CAGAAAACAC GGATTGGCAG CGAGTTATTG AGTATCATAG GGAAAATGAT
    GAGCCCAGAG GAAATGGCAA GTTTGACAAG ACGGGCAACA ATGACTGTGA CAGTGACCAG
    CATGGCAGAC AGCCCAGGCT TGGAAGCTTC ACCAGTATCA GGCACCCATC TCCCAGACAA
    AAGGAGCAAC CAGAGCATAG TGAAGCCTTC CAAGCAAGTT CTGACACATT GGTGGCTGTA
    GAGAAATCTT ACAGTCATCA GTCCATGCAA TCAACTTGTT CACCAGAGTC TTCTGAGGAT
    ATAACAGATG AATTTTTAAC TCCAGACGGT GAATATTTTT ACTCCTCGAC TGCTCAAGAA
    AACTTAGCTC TAGAGACCTC GAGTCCCATA GAAGAGGACT TTGAAGGAAT ACAAGGTGCA
    TTTGCCCAAC CTCAAGTCTC TGGTGAGGAA AAGTTCCAAA TGAGAAAAAT TCTTGGAAAG
    AATGCTGAGA TTTTGCCCAG GTCTCAATTT CAACCTGTAC GAAGTACTGA AGATGAACAA
    GAAGAGACAT CAAAGGAGTC ACCAAAGGAA CTGAAAGAGA AAGACATATC ATTGACGGAT
    ATTCAAGACC TGTCTAGTAT CTCCTATGAA CCAGACAGCT CTTTTAAGGA AGCTTCATGC
    AAAACACCCA AAATAAACCA TGCACCTACC AGTGTCAGCA CTCCACTCAG CCCAGGGTCC
    GTTTCTTCAG CTGCCAGTCA GTATAAAGAC TGCCTTGAAA GTATCACATT TCAGGTTAAG
    ACAGAGTTTG CCTCTTGCTG GAACAGTCAA GAATTTATTC AAACTTTGTC TGATGACTTT
    ATAAGTGTCC GAGAGAGAGC AAAGAAACTG GATTCTCTCC TTACTTCCTC TGAAACTCCC
    CCTTCAAGAC TGACTGGTCT TAAAAGATTG TCTTCATTTA TTGGGGCTGG ATCCCCCAGC
    CTTGTTAAGG CATGTGACTC ATCACCACCC CATGCCACCC AGAGAAGGAG CCTGCCTAAA
    GTAGAAGCCT TCTCACAGCA TCACATTGAT GAGCTGCCAC CACCATCTCA GGAGCTACTT
    GATGACATTG AGCTCTTGAA ACAGCAGCAG GGCTCATCCA CGGTGTTGCA TGAGAACACA
    GCAAGTGATG GAGGAGGCAC TGCAAATGAT CAAAGGCACT TAGAAGAACA AGAAACTGAC
    AGTAAAAAAG AAGATAGTAG TATGCTTTTG TCCAAAGAAA CTGAAGATCT TGGAGAGGAC
    ACAGAGAGAG CTCACTCTAC TCTGGATGAG GACCTGGAAA GATGGCTGCA GCCACCTGAG
    GAGAGCGTGG AGCTACAAGA CCTTCCCAAG GGCTCTGAAA GGGAGACAAA TATCAAAGAT
    CAAAAAGTTG GTGAAGAGAA AAGAAAAAGG GAAGATAGCA TTACACCAGA AAGAAGGAAA
    TCAGAGGGTG TTCTAGGGAC TTCTGAAGAA GATGAACTAA AATCCTGTTT TTGGAAGCGA
    CTAGGTTGGT CCGAATCATC CAGGATAATC GTGCTGGATC AGAGTGACTT GTCAGACTGA

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

    RefSeq XP_016880350.1
    CDS1120..4419
    Translation

    Target ORF information:

    RefSeq Version XM_017024861.1
    Organism Homo sapiens(human)
    Definition Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017024861.1

    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
    ATGAACGACG AGGACAGAGG TGTACAGAGG GACCTGACTC GAGTGCCCCT TCCTACGCAG 
    CTATACAACT GGGCCGCACC AGAAGTGATC TTACAGAAGG CAGCCACAGT GAAATCAGAC
    ATCTACAGCT TTTCTATGAT CATGCAGGAG ATTTTAACAG ATGACATACC CTGGAAGGGC
    TTAGATGGCT CAGTTGTTAA AAAAGCCGTA GTCTCGGGGA ATTATTTAGA AGCTGATGTC
    AGGCTTCCGA AACCTTACTA TGATATTGTT AAGTCAGGCA TCCACGTCAA GCAGAAAGAC
    CGAACTATGA ACCTTCAAGA TATCCGGTAT ATTCTGAAGA ATGACTTAAA GGATTTTACT
    GGAGCCCAGA GAACTCAACC AACCGAGAGC CCCAGAGTGC AGAGATACGG ACTCCATCCC
    GATGTCAATG TCTATCTAGG ACTGACTTCA GAACACCCCA GAGAGACACC TGACATGGAA
    ATCATAGAAC TAAAGGAAAT GGGCAGTCAA CCTCATTCAC CAAGGGTTCA CTCTTTATTC
    ACTGAGGGGA CACTAGATCC TCAGGCCCCA GATCCATGTC TGATGGCCAG GGAGACTCAG
    AATCAAGATG CTCCTTGCCC TGCTCCATTT ATGGCAGAAG AGGCCAGCAG CCCCAGCACA
    GGTCAGCCAA GCCTCTGCAG TTTCGAAATC AACGAGATCT ACTCAGGCTG CTTGATTTTG
    GAAGATGACA TAGAAGAGCC TCCAGGAGCT GCTTCATCTT TGGAGGCAGA CGGACCTAAC
    CAGGTAGATG AACTGAAATC CATGGAAGAA GAGCTGGATA AGATGGAGAG AGAGGCGTGT
    TGTTTTGGCA GTGAGGATGA GAGCTCTTCA AAAGCTGAGA CAGAGTACTC TTTTGATGAC
    TGGGACTGGC AAAACGGTTC ACTCAGTTCA CTCAGCCTTC CTGAGTCAAC CAGAGAAGCC
    AAGAGCAATT TGAACAACAT GTCCACGACT GAGGAGTATC TCATCAGTAA GTGTGTGCTG
    GATCTAAAGA TTATGCAGAC AATAATGCAC GAGAATGATG ATAGGCTGAG GAATATCGAG
    CAGATATTAG ATGAAGTCGA GATGAAACAG AAGGAACAGG AAGAGCGCAT GTCTTTATGG
    GCCACTTCAA GAGAGTTTAC AAATGCCTAC AAGTTACCTC TGGCCGTGGG CCCTCCATCT
    TTAAACTATA TTCCTCCTGT CCTACAGCTT TCAGGGGGTC AGAAGCCAGA CACCAGTGGC
    AACTACCCAA CCCTACCAAG ATTTCCAAGA ATGCTGCCGA CTCTTTGTGA CCCTGGAAAA
    CAGAACACAG ATGAACAATT TCAGTGCACT CAAGGAGCCA AGGACAGTTT GGAAACAAGC
    AGGATCCAAA ATACCAGTAG CCAGGGAAGA CCTAGAGAGT CCACTGCCCA AGCCAAAGCC
    ACACAGTTTA ATAGTGCACT CTTCACTCTG TCAAGCCACC GGCAGGGACC TTCTGCATCA
    CCCAGCTGTC ACTGGGACTC TACCAGGATG AGTGTGGAAC CTGTTTCTTC TGAAATCTAT
    AATGCAGAGT CCAGAAATAA AGATGATGGA AAGGTACACT TAAAATGGAA AATGGAGGTG
    AAAGAAATGG CAAAGAAAGC AGCTACTGGA CAGCTCACAG TACCTCCTTG GCATCCTCAG
    AGTAGTCTGA CTTTAGAGAG CGAGGCTGAA AATGAGCCCG ACGCCCTGCT GCAGCCCCCC
    ATTAGGAGCC CAGAAAACAC GGATTGGCAG CGAGTTATTG AGTATCATAG GGAAAATGAT
    GAGCCCAGAG GAAATGGCAA GTTTGACAAG ACGGGCAACA ATGACTGTGA CAGTGACCAG
    CATGGCAGAC AGCCCAGGCT TGGAAGCTTC ACCAGTATCA GGCACCCATC TCCCAGACAA
    AAGGAGCAAC CAGAGCATAG TGAAGCCTTC CAAGCAAGTT CTGACACATT GGTGGCTGTA
    GAGAAATCTT ACAGTCATCA GTCCATGCAA TCAACTTGTT CACCAGAGTC TTCTGAGGAT
    ATAACAGATG AATTTTTAAC TCCAGACGGT GAATATTTTT ACTCCTCGAC TGCTCAAGAA
    AACTTAGCTC TAGAGACCTC GAGTCCCATA GAAGAGGACT TTGAAGGAAT ACAAGGTGCA
    TTTGCCCAAC CTCAAGTCTC TGGTGAGGAA AAGTTCCAAA TGAGAAAAAT TCTTGGAAAG
    AATGCTGAGA TTTTGCCCAG GTCTCAATTT CAACCTGTAC GAAGTACTGA AGATGAACAA
    GAAGAGACAT CAAAGGAGTC ACCAAAGGAA CTGAAAGAGA AAGACATATC ATTGACGGAT
    ATTCAAGACC TGTCTAGTAT CTCCTATGAA CCAGACAGCT CTTTTAAGGA AGCTTCATGC
    AAAACACCCA AAATAAACCA TGCACCTACC AGTGTCAGCA CTCCACTCAG CCCAGGGTCC
    GTTTCTTCAG CTGCCAGTCA GTATAAAGAC TGCCTTGAAA GTATCACATT TCAGGTTAAG
    ACAGAGTTTG CCTCTTGCTG GAACAGTCAA GAATTTATTC AAACTTTGTC TGATGACTTT
    ATAAGTGTCC GAGAGAGAGC AAAGAAACTG GATTCTCTCC TTACTTCCTC TGAAACTCCC
    CCTTCAAGAC TGACTGGTCT TAAAAGATTG TCTTCATTTA TTGGGGCTGG ATCCCCCAGC
    CTTGTTAAGG CATGTGACTC ATCACCACCC CATGCCACCC AGAGAAGGAG CCTGCCTAAA
    GTAGAAGCCT TCTCACAGCA TCACATTGAT GAGCTGCCAC CACCATCTCA GGAGCTACTT
    GATGACATTG AGCTCTTGAA ACAGCAGCAG GGCTCATCCA CGGTGTTGCA TGAGAACACA
    GCAAGTGATG GAGGAGGCAC TGCAAATGAT CAAAGGCACT TAGAAGAACA AGAAACTGAC
    AGTAAAAAAG AAGATAGTAG TATGCTTTTG TCCAAAGAAA CTGAAGATCT TGGAGAGGAC
    ACAGAGAGAG CTCACTCTAC TCTGGATGAG GACCTGGAAA GATGGCTGCA GCCACCTGAG
    GAGAGCGTGG AGCTACAAGA CCTTCCCAAG GGCTCTGAAA GGGAGACAAA TATCAAAGAT
    CAAAAAGTTG GTGAAGAGAA AAGAAAAAGG GAAGATAGCA TTACACCAGA AAGAAGGAAA
    TCAGAGGGTG TTCTAGGGAC TTCTGAAGAA GATGAACTAA AATCCTGTTT TTGGAAGCGA
    CTAGGTTGGT CCGAATCATC CAGGATAATC GTGCTGGATC AGAGTGACTT GTCAGACTGA

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

    CloneID OHu13861
    Clone ID Related Accession (Same CDS sequence) NM_031272.4
    Accession Version NM_031272.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    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 2019-12-24
    Organism Homo sapiens(human)
    Product inactive serine/threonine-protein kinase TEX14 isoform b
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB086121.1, BK000998.1, CB044007.1 and AI243203.1. On Jan 21, 2011 this sequence version replaced NM_031272.3. Transcript Variant: This variant (2) uses an alternate in-frame splice junction at the 5' end of an exon and lacks an alternate in-frame exon compared to variant 3. The resulting isoform (b) has the same N- and C-termini but is shorter compared to isoform c. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BK000998.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-END## ##RefSeq-Attributes-START## RefSeq Select criteria :: based on conservation, expression ##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
    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
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGTTTT ATCTTACTGG GGCGACACAG
    ATGGCCTATC TAGGATCTCT TCCGGTCATT GGAGAAAAGG AAGTGATTCA AGCTGATGAT
    GAGCCCACCT TCTCTTTCTT CAGCGGCCCC TACATGGTCA TGACCAACCT AGTGTGGAAT
    GGGAGCAGGG TCACAGTGAA AGAGCTGAAT CTCCCCACCC ACCCACACTG CAGCAGGCTG
    CGGCTGGCCG ACTTGTTAAT TGCCGAGCAG GAACACAGCA GCAAGCTGCG GCACCCCTAC
    TTGCTACAGT TGATGGCTGT GTGTCTCTCC CAGGACCTAG AGAAAACCCG CCTTGTGTAC
    GAGCGCATCA CTATCGGCAC ATTGTTCAGT GTCCTTCATG AACGACGGTC CCAGTTCCCA
    GTGCTGCACA TGGAGGTGAT TGTGCACCTG CTGCTCCAGA TATCTGATGC CCTGAGATAC
    CTGCATTTCC AGGGGTTTAT CCACCGCTCC CTCAGCTCCT ATGCTGTCCA TATCATCTCC
    CCAGGTGAAG CGAGGCTGAC CAACCTGGAG TACATGTTGG AAAGCGAGGA CAGAGGTGTA
    CAGAGGGACC TGACTCGAGT GCCCCTTCCT ACGCAGCTAT ACAACTGGGC CGCACCAGAA
    GTGATCTTAC AGAAGGCAGC CACAGTGAAA TCAGACATCT ACAGCTTTTC TATGATCATG
    CAGGAGATTT TAACAGATGA CATACCCTGG AAGGGCTTAG ATGGCTCAGT TGTTAAAAAA
    GCCGTAGTCT CGGGGAATTA TTTAGAAGCT GATGTCAGGC TTCCGAAACC TTACTATGAT
    ATTGTTAAGT CAGGCATCCA CGTCAAGCAG AAAGACCGAA CTATGAACCT TCAAGATATC
    CGGTATATTC TGAAGAATGA CTTAAAGGAT TTTACTGGAG CCCAGAGAAC TCAACCAACC
    GAGAGCCCCA GAGTGCAGAG ATACGGACTC CATCCCGATG TCAATGTCTA TCTAGGACTG
    ACTTCAGAAC ACCCCAGAGA GACACCTGAC ATGGAAATCA TAGAACTAAA GGAAATGGGC
    AGTCAACCTC ATTCACCAAG GGTTCACTCT TTATTCACTG AGGGGACACT AGATCCTCAG
    GCCCCAGATC CATGTCTGAT GGCCAGGGAG ACTCAGAATC AAGATGCTCC TTGCCCTGCT
    CCATTTATGG CAGAAGAGGC CAGCAGCCCC AGCACAGGTC AGCCAAGCCT CTGCAGTTTC
    GAAATCAACG AGATCTACTC AGGCTGCTTG ATTTTGGAAG ATGACATAGA AGAGCCTCCA
    GGAGCTGCTT CATCTTTGGA GGCAGACGGA CCTAACCAGG TAGATGAACT GAAATCCATG
    GAAGAAGAGC TGGATAAGAT GGAGAGAGAG GCGTGTTGTT TTGGCAGTGA GGATGAGAGC
    TCTTCAAAAG CTGAGACAGA GTACTCTTTT GATGACTGGG ACTGGCAAAA CGGTTCACTC
    AGTTCACTCA GCCTTCCTGA GTCAACCAGA GAAGCCAAGA GCAATTTGAA CAACATGTCC
    ACGACTGAGG AGTATCTCAT CAGTAAGTGT GTGCTGGATC TAAAGATTAT GCAGACAATA
    ATGCACGAGA ATGATGATAG GCTGAGGAAT ATCGAGCAGA TATTAGATGA AGTCGAGATG
    AAACAGAAGG AACAGGAAGA GCGCATGTCT TTATGGGCCA CTTCAAGAGA GTTTACAAAT
    GCCTACAAGT TACCTCTGGC CGTGGGCCCT CCATCTTTAA ACTATATTCC TCCTGTCCTA
    CAGCTTTCAG GGGGTCAGAA GCCAGACACC AGTGGCAACT ACCCAACCCT ACCAAGATTT
    CCAAGAATGC TGCCGACTCT TTGTGACCCT GGAAAACAGA ACACAGATGA ACAATTTCAG
    TGCACTCAAG GAGCCAAGGA CAGTTTGGAA ACAAGCAGGA TCCAAAATAC CAGTAGCCAG
    GGAAGACCTA GAGAGTCCAC TGCCCAAGCC AAAGCCACAC AGTTTAATAG TGCACTCTTC
    ACTCTGTCAA GCCACCGGCA GGGACCTTCT GCATCACCCA GCTGTCACTG GGACTCTACC
    AGGATGAGTG TGGAACCTGT TTCTTCTGAA ATCTATAATG CAGAGTCCAG AAATAAAGAT
    GATGGAAAGG TACACTTAAA ATGGAAAATG GAGGTGAAAG AAATGGCAAA GAAAGCAGCT
    ACTGGACAGC TCACAGTACC TCCTTGGCAT CCTCAGAGTA GTCTGACTTT AGAGAGCGAG
    GCTGAAAATG AGCCCGACGC CCTGCTGCAG CCCCCCATTA GGAGCCCAGA AAACACGGAT
    TGGCAGCGAG TTATTGAGTA TCATAGGGAA AATGATGAGC CCAGAGGAAA TGGCAAGTTT
    GACAAGACGG GCAACAATGA CTGTGACAGT GACCAGCATG GCAGACAGCC CAGGCTTGGA
    AGCTTCACCA GTATCAGGCA CCCATCTCCC AGACAAAAGG AGCAACCAGA GCATAGTGAA
    GCCTTCCAAG CAAGTTCTGA CACATTGGTG GCTGTAGAGA AATCTTACAG TACCTCGAGT
    CCCATAGAAG AGGACTTTGA AGGAATACAA GGTGCATTTG CCCAACCTCA AGTCTCTGGT
    GAGGAAAAGT TCCAAATGAG AAAAATTCTT GGAAAGAATG CTGAGATTTT GCCCAGGTCT
    CAATTTCAAC CTGTACGAAG TACTGAAGAT GAACAAGAAG AGACATCAAA GGAGTCACCA
    AAGGAACTGA AAGAGAAAGA CATATCATTG ACGGATATTC AAGACCTGTC TAGTATCTCC
    TATGAACCAG ACAGCTCTTT TAAGGAAGCT TCATGCAAAA CACCCAAAAT AAACCATGCA
    CCTACCAGTG TCAGCACTCC ACTCAGCCCA GGGTCCGTTT CTTCAGCTGC CAGTCAGTAT
    AAAGACTGCC TTGAAAGTAT CACATTTCAG GTTAAGACAG AGTTTGCCTC TTGCTGGAAC
    AGTCAAGAAT TTATTCAAAC TTTGTCTGAT GACTTTATAA GTGTCCGAGA GAGAGCAAAG
    AAACTGGATT CTCTCCTTAC TTCCTCTGAA ACTCCCCCTT CAAGACTGAC TGGTCTTAAA
    AGATTGTCTT CATTTATTGG GGCTGGATCC CCCAGCCTTG TTAAGGCATG TGACTCATCA
    CCACCCCATG CCACCCAGAG AAGGAGCCTG CCTAAAGTAG AAGCCTTCTC ACAGCATCAC
    ATTGATGAGC TGCCACCACC ATCTCAGGAG CTACTTGATG ACATTGAGCT CTTGAAACAG
    CAGCAGGGCT CATCCACGGT GTTGCATGAG AACACAGCAA GTGATGGAGG AGGCACTGCA
    AATGATCAAA GGCACTTAGA AGAACAAGAA ACTGACAGTA AAAAAGAAGA TAGTAGTATG
    CTTTTGTCCA AAGAAACTGA AGATCTTGGA GAGGACACAG AGAGAGCTCA CTCTACTCTG
    GATGAGGACC TGGAAAGATG GCTGCAGCCA CCTGAGGAGA GCGTGGAGCT ACAAGACCTT
    CCCAAGGGCT CTGAAAGGGA GACAAATATC AAAGATCAAA AAGTTGGTGA AGAGAAAAGA
    AAAAGGGAAG ATAGCATTAC ACCAGAAAGA AGGAAATCAG AGGGTGTTCT AGGGACTTCT
    GAAGAAGATG AACTAAAATC CTGTTTTTGG AAGCGACTAG GTTGGTCCGA ATCATCCAGG
    ATAATCGTGC TGGATCAGAG TGACTTGTCA GACTGA

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

    RefSeq NP_112562.3
    CDS119..4474
    Translation

    Target ORF information:

    RefSeq Version NM_031272.4
    Organism Homo sapiens(human)
    Definition Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant 2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_031272.4

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGTTTT ATCTTACTGG GGCGACACAG
    ATGGCCTATC TAGGATCTCT TCCGGTCATT GGAGAAAAGG AAGTGATTCA AGCTGATGAT
    GAGCCCACCT TCTCTTTCTT CAGCGGCCCC TACATGGTCA TGACCAACCT AGTGTGGAAT
    GGGAGCAGGG TCACAGTGAA AGAGCTGAAT CTCCCCACCC ACCCACACTG CAGCAGGCTG
    CGGCTGGCCG ACTTGTTAAT TGCCGAGCAG GAACACAGCA GCAAGCTGCG GCACCCCTAC
    TTGCTACAGT TGATGGCTGT GTGTCTCTCC CAGGACCTAG AGAAAACCCG CCTTGTGTAC
    GAGCGCATCA CTATCGGCAC ATTGTTCAGT GTCCTTCATG AACGACGGTC CCAGTTCCCA
    GTGCTGCACA TGGAGGTGAT TGTGCACCTG CTGCTCCAGA TATCTGATGC CCTGAGATAC
    CTGCATTTCC AGGGGTTTAT CCACCGCTCC CTCAGCTCCT ATGCTGTCCA TATCATCTCC
    CCAGGTGAAG CGAGGCTGAC CAACCTGGAG TACATGTTGG AAAGCGAGGA CAGAGGTGTA
    CAGAGGGACC TGACTCGAGT GCCCCTTCCT ACGCAGCTAT ACAACTGGGC CGCACCAGAA
    GTGATCTTAC AGAAGGCAGC CACAGTGAAA TCAGACATCT ACAGCTTTTC TATGATCATG
    CAGGAGATTT TAACAGATGA CATACCCTGG AAGGGCTTAG ATGGCTCAGT TGTTAAAAAA
    GCCGTAGTCT CGGGGAATTA TTTAGAAGCT GATGTCAGGC TTCCGAAACC TTACTATGAT
    ATTGTTAAGT CAGGCATCCA CGTCAAGCAG AAAGACCGAA CTATGAACCT TCAAGATATC
    CGGTATATTC TGAAGAATGA CTTAAAGGAT TTTACTGGAG CCCAGAGAAC TCAACCAACC
    GAGAGCCCCA GAGTGCAGAG ATACGGACTC CATCCCGATG TCAATGTCTA TCTAGGACTG
    ACTTCAGAAC ACCCCAGAGA GACACCTGAC ATGGAAATCA TAGAACTAAA GGAAATGGGC
    AGTCAACCTC ATTCACCAAG GGTTCACTCT TTATTCACTG AGGGGACACT AGATCCTCAG
    GCCCCAGATC CATGTCTGAT GGCCAGGGAG ACTCAGAATC AAGATGCTCC TTGCCCTGCT
    CCATTTATGG CAGAAGAGGC CAGCAGCCCC AGCACAGGTC AGCCAAGCCT CTGCAGTTTC
    GAAATCAACG AGATCTACTC AGGCTGCTTG ATTTTGGAAG ATGACATAGA AGAGCCTCCA
    GGAGCTGCTT CATCTTTGGA GGCAGACGGA CCTAACCAGG TAGATGAACT GAAATCCATG
    GAAGAAGAGC TGGATAAGAT GGAGAGAGAG GCGTGTTGTT TTGGCAGTGA GGATGAGAGC
    TCTTCAAAAG CTGAGACAGA GTACTCTTTT GATGACTGGG ACTGGCAAAA CGGTTCACTC
    AGTTCACTCA GCCTTCCTGA GTCAACCAGA GAAGCCAAGA GCAATTTGAA CAACATGTCC
    ACGACTGAGG AGTATCTCAT CAGTAAGTGT GTGCTGGATC TAAAGATTAT GCAGACAATA
    ATGCACGAGA ATGATGATAG GCTGAGGAAT ATCGAGCAGA TATTAGATGA AGTCGAGATG
    AAACAGAAGG AACAGGAAGA GCGCATGTCT TTATGGGCCA CTTCAAGAGA GTTTACAAAT
    GCCTACAAGT TACCTCTGGC CGTGGGCCCT CCATCTTTAA ACTATATTCC TCCTGTCCTA
    CAGCTTTCAG GGGGTCAGAA GCCAGACACC AGTGGCAACT ACCCAACCCT ACCAAGATTT
    CCAAGAATGC TGCCGACTCT TTGTGACCCT GGAAAACAGA ACACAGATGA ACAATTTCAG
    TGCACTCAAG GAGCCAAGGA CAGTTTGGAA ACAAGCAGGA TCCAAAATAC CAGTAGCCAG
    GGAAGACCTA GAGAGTCCAC TGCCCAAGCC AAAGCCACAC AGTTTAATAG TGCACTCTTC
    ACTCTGTCAA GCCACCGGCA GGGACCTTCT GCATCACCCA GCTGTCACTG GGACTCTACC
    AGGATGAGTG TGGAACCTGT TTCTTCTGAA ATCTATAATG CAGAGTCCAG AAATAAAGAT
    GATGGAAAGG TACACTTAAA ATGGAAAATG GAGGTGAAAG AAATGGCAAA GAAAGCAGCT
    ACTGGACAGC TCACAGTACC TCCTTGGCAT CCTCAGAGTA GTCTGACTTT AGAGAGCGAG
    GCTGAAAATG AGCCCGACGC CCTGCTGCAG CCCCCCATTA GGAGCCCAGA AAACACGGAT
    TGGCAGCGAG TTATTGAGTA TCATAGGGAA AATGATGAGC CCAGAGGAAA TGGCAAGTTT
    GACAAGACGG GCAACAATGA CTGTGACAGT GACCAGCATG GCAGACAGCC CAGGCTTGGA
    AGCTTCACCA GTATCAGGCA CCCATCTCCC AGACAAAAGG AGCAACCAGA GCATAGTGAA
    GCCTTCCAAG CAAGTTCTGA CACATTGGTG GCTGTAGAGA AATCTTACAG TACCTCGAGT
    CCCATAGAAG AGGACTTTGA AGGAATACAA GGTGCATTTG CCCAACCTCA AGTCTCTGGT
    GAGGAAAAGT TCCAAATGAG AAAAATTCTT GGAAAGAATG CTGAGATTTT GCCCAGGTCT
    CAATTTCAAC CTGTACGAAG TACTGAAGAT GAACAAGAAG AGACATCAAA GGAGTCACCA
    AAGGAACTGA AAGAGAAAGA CATATCATTG ACGGATATTC AAGACCTGTC TAGTATCTCC
    TATGAACCAG ACAGCTCTTT TAAGGAAGCT TCATGCAAAA CACCCAAAAT AAACCATGCA
    CCTACCAGTG TCAGCACTCC ACTCAGCCCA GGGTCCGTTT CTTCAGCTGC CAGTCAGTAT
    AAAGACTGCC TTGAAAGTAT CACATTTCAG GTTAAGACAG AGTTTGCCTC TTGCTGGAAC
    AGTCAAGAAT TTATTCAAAC TTTGTCTGAT GACTTTATAA GTGTCCGAGA GAGAGCAAAG
    AAACTGGATT CTCTCCTTAC TTCCTCTGAA ACTCCCCCTT CAAGACTGAC TGGTCTTAAA
    AGATTGTCTT CATTTATTGG GGCTGGATCC CCCAGCCTTG TTAAGGCATG TGACTCATCA
    CCACCCCATG CCACCCAGAG AAGGAGCCTG CCTAAAGTAG AAGCCTTCTC ACAGCATCAC
    ATTGATGAGC TGCCACCACC ATCTCAGGAG CTACTTGATG ACATTGAGCT CTTGAAACAG
    CAGCAGGGCT CATCCACGGT GTTGCATGAG AACACAGCAA GTGATGGAGG AGGCACTGCA
    AATGATCAAA GGCACTTAGA AGAACAAGAA ACTGACAGTA AAAAAGAAGA TAGTAGTATG
    CTTTTGTCCA AAGAAACTGA AGATCTTGGA GAGGACACAG AGAGAGCTCA CTCTACTCTG
    GATGAGGACC TGGAAAGATG GCTGCAGCCA CCTGAGGAGA GCGTGGAGCT ACAAGACCTT
    CCCAAGGGCT CTGAAAGGGA GACAAATATC AAAGATCAAA AAGTTGGTGA AGAGAAAAGA
    AAAAGGGAAG ATAGCATTAC ACCAGAAAGA AGGAAATCAG AGGGTGTTCT AGGGACTTCT
    GAAGAAGATG AACTAAAATC CTGTTTTTGG AAGCGACTAG GTTGGTCCGA ATCATCCAGG
    ATAATCGTGC TGGATCAGAG TGACTTGTCA GACTGA

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

    CloneID OHu13985
    Clone ID Related Accession (Same CDS sequence) NM_198393.3
    Accession Version NM_198393.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4476bp)
    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 2019-12-24
    Organism Homo sapiens(human)
    Product inactive serine/threonine-protein kinase TEX14 isoform a
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB086121.1, AL834143.1, CB044007.1 and AI243203.1. On Jan 21, 2011 this sequence version replaced NM_198393.2. Transcript Variant: This variant (1) uses an alternate in-frame splice junction at the 5' end of an exon compared to variant 3. The resulting isoform (a) has the same N- and C-termini but is shorter compared to isoform c. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: AL834143.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-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
    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
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGTTTT ATCTTACTGG GGCGACACAG
    ATGGCCTATC TAGGATCTCT TCCGGTCATT GGAGAAAAGG AAGTGATTCA AGCTGATGAT
    GAGCCCACCT TCTCTTTCTT CAGCGGCCCC TACATGGTCA TGACCAACCT AGTGTGGAAT
    GGGAGCAGGG TCACAGTGAA AGAGCTGAAT CTCCCCACCC ACCCACACTG CAGCAGGCTG
    CGGCTGGCCG ACTTGTTAAT TGCCGAGCAG GAACACAGCA GCAAGCTGCG GCACCCCTAC
    TTGCTACAGT TGATGGCTGT GTGTCTCTCC CAGGACCTAG AGAAAACCCG CCTTGTGTAC
    GAGCGCATCA CTATCGGCAC ATTGTTCAGT GTCCTTCATG AACGACGGTC CCAGTTCCCA
    GTGCTGCACA TGGAGGTGAT TGTGCACCTG CTGCTCCAGA TATCTGATGC CCTGAGATAC
    CTGCATTTCC AGGGGTTTAT CCACCGCTCC CTCAGCTCCT ATGCTGTCCA TATCATCTCC
    CCAGGTGAAG CGAGGCTGAC CAACCTGGAG TACATGTTGG AAAGCGAGGA CAGAGGTGTA
    CAGAGGGACC TGACTCGAGT GCCCCTTCCT ACGCAGCTAT ACAACTGGGC CGCACCAGAA
    GTGATCTTAC AGAAGGCAGC CACAGTGAAA TCAGACATCT ACAGCTTTTC TATGATCATG
    CAGGAGATTT TAACAGATGA CATACCCTGG AAGGGCTTAG ATGGCTCAGT TGTTAAAAAA
    GCCGTAGTCT CGGGGAATTA TTTAGAAGCT GATGTCAGGC TTCCGAAACC TTACTATGAT
    ATTGTTAAGT CAGGCATCCA CGTCAAGCAG AAAGACCGAA CTATGAACCT TCAAGATATC
    CGGTATATTC TGAAGAATGA CTTAAAGGAT TTTACTGGAG CCCAGAGAAC TCAACCAACC
    GAGAGCCCCA GAGTGCAGAG ATACGGACTC CATCCCGATG TCAATGTCTA TCTAGGACTG
    ACTTCAGAAC ACCCCAGAGA GACACCTGAC ATGGAAATCA TAGAACTAAA GGAAATGGGC
    AGTCAACCTC ATTCACCAAG GGTTCACTCT TTATTCACTG AGGGGACACT AGATCCTCAG
    GCCCCAGATC CATGTCTGAT GGCCAGGGAG ACTCAGAATC AAGATGCTCC TTGCCCTGCT
    CCATTTATGG CAGAAGAGGC CAGCAGCCCC AGCACAGGTC AGCCAAGCCT CTGCAGTTTC
    GAAATCAACG AGATCTACTC AGGCTGCTTG ATTTTGGAAG ATGACATAGA AGAGCCTCCA
    GGAGCTGCTT CATCTTTGGA GGCAGACGGA CCTAACCAGG TAGATGAACT GAAATCCATG
    GAAGAAGAGC TGGATAAGAT GGAGAGAGAG GCGTGTTGTT TTGGCAGTGA GGATGAGAGC
    TCTTCAAAAG CTGAGACAGA GTACTCTTTT GATGACTGGG ACTGGCAAAA CGGTTCACTC
    AGTTCACTCA GCCTTCCTGA GTCAACCAGA GAAGCCAAGA GCAATTTGAA CAACATGTCC
    ACGACTGAGG AGTATCTCAT CAGTAAGTGT GTGCTGGATC TAAAGATTAT GCAGACAATA
    ATGCACGAGA ATGATGATAG GCTGAGGAAT ATCGAGCAGA TATTAGATGA AGTCGAGATG
    AAACAGAAGG AACAGGAAGA GCGCATGTCT TTATGGGCCA CTTCAAGAGA GTTTACAAAT
    GCCTACAAGT TACCTCTGGC CGTGGGCCCT CCATCTTTAA ACTATATTCC TCCTGTCCTA
    CAGCTTTCAG GGGGTCAGAA GCCAGACACC AGTGGCAACT ACCCAACCCT ACCAAGATTT
    CCAAGAATGC TGCCGACTCT TTGTGACCCT GGAAAACAGA ACACAGATGA ACAATTTCAG
    TGCACTCAAG GAGCCAAGGA CAGTTTGGAA ACAAGCAGGA TCCAAAATAC CAGTAGCCAG
    GGAAGACCTA GAGAGTCCAC TGCCCAAGCC AAAGCCACAC AGTTTAATAG TGCACTCTTC
    ACTCTGTCAA GCCACCGGCA GGGACCTTCT GCATCACCCA GCTGTCACTG GGACTCTACC
    AGGATGAGTG TGGAACCTGT TTCTTCTGAA ATCTATAATG CAGAGTCCAG AAATAAAGAT
    GATGGAAAGG TACACTTAAA ATGGAAAATG GAGGTGAAAG AAATGGCAAA GAAAGCAGCT
    ACTGGACAGC TCACAGTACC TCCTTGGCAT CCTCAGAGTA GTCTGACTTT AGAGAGCGAG
    GCTGAAAATG AGCCCGACGC CCTGCTGCAG CCCCCCATTA GGAGCCCAGA AAACACGGAT
    TGGCAGCGAG TTATTGAGTA TCATAGGGAA AATGATGAGC CCAGAGGAAA TGGCAAGTTT
    GACAAGACGG GCAACAATGA CTGTGACAGT GACCAGCATG GCAGACAGCC CAGGCTTGGA
    AGCTTCACCA GTATCAGGCA CCCATCTCCC AGACAAAAGG AGCAACCAGA GCATAGTGAA
    GCCTTCCAAG CAAGTTCTGA CACATTGGTG GCTGTAGAGA AATCTTACAG TCATCAGTCC
    ATGCAATCAA CTTGTTCACC AGAGTCTTCT GAGGATATAA CAGATGAATT TTTAACTCCA
    GACGGTGAAT ATTTTTACTC CTCGACTGCT CAAGAAAACT TAGCTCTAGA GACCTCGAGT
    CCCATAGAAG AGGACTTTGA AGGAATACAA GGTGCATTTG CCCAACCTCA AGTCTCTGGT
    GAGGAAAAGT TCCAAATGAG AAAAATTCTT GGAAAGAATG CTGAGATTTT GCCCAGGTCT
    CAATTTCAAC CTGTACGAAG TACTGAAGAT GAACAAGAAG AGACATCAAA GGAGTCACCA
    AAGGAACTGA AAGAGAAAGA CATATCATTG ACGGATATTC AAGACCTGTC TAGTATCTCC
    TATGAACCAG ACAGCTCTTT TAAGGAAGCT TCATGCAAAA CACCCAAAAT AAACCATGCA
    CCTACCAGTG TCAGCACTCC ACTCAGCCCA GGGTCCGTTT CTTCAGCTGC CAGTCAGTAT
    AAAGACTGCC TTGAAAGTAT CACATTTCAG GTTAAGACAG AGTTTGCCTC TTGCTGGAAC
    AGTCAAGAAT TTATTCAAAC TTTGTCTGAT GACTTTATAA GTGTCCGAGA GAGAGCAAAG
    AAACTGGATT CTCTCCTTAC TTCCTCTGAA ACTCCCCCTT CAAGACTGAC TGGTCTTAAA
    AGATTGTCTT CATTTATTGG GGCTGGATCC CCCAGCCTTG TTAAGGCATG TGACTCATCA
    CCACCCCATG CCACCCAGAG AAGGAGCCTG CCTAAAGTAG AAGCCTTCTC ACAGCATCAC
    ATTGATGAGC TGCCACCACC ATCTCAGGAG CTACTTGATG ACATTGAGCT CTTGAAACAG
    CAGCAGGGCT CATCCACGGT GTTGCATGAG AACACAGCAA GTGATGGAGG AGGCACTGCA
    AATGATCAAA GGCACTTAGA AGAACAAGAA ACTGACAGTA AAAAAGAAGA TAGTAGTATG
    CTTTTGTCCA AAGAAACTGA AGATCTTGGA GAGGACACAG AGAGAGCTCA CTCTACTCTG
    GATGAGGACC TGGAAAGATG GCTGCAGCCA CCTGAGGAGA GCGTGGAGCT ACAAGACCTT
    CCCAAGGGCT CTGAAAGGGA GACAAATATC AAAGATCAAA AAGTTGGTGA AGAGAAAAGA
    AAAAGGGAAG ATAGCATTAC ACCAGAAAGA AGGAAATCAG AGGGTGTTCT AGGGACTTCT
    GAAGAAGATG AACTAAAATC CTGTTTTTGG AAGCGACTAG GTTGGTCCGA ATCATCCAGG
    ATAATCGTGC TGGATCAGAG TGACTTGTCA GACTGA

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

    RefSeq NP_938207.2
    CDS119..4594
    Translation

    Target ORF information:

    RefSeq Version NM_198393.3
    Organism Homo sapiens(human)
    Definition Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant 1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_198393.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGTTTT ATCTTACTGG GGCGACACAG
    ATGGCCTATC TAGGATCTCT TCCGGTCATT GGAGAAAAGG AAGTGATTCA AGCTGATGAT
    GAGCCCACCT TCTCTTTCTT CAGCGGCCCC TACATGGTCA TGACCAACCT AGTGTGGAAT
    GGGAGCAGGG TCACAGTGAA AGAGCTGAAT CTCCCCACCC ACCCACACTG CAGCAGGCTG
    CGGCTGGCCG ACTTGTTAAT TGCCGAGCAG GAACACAGCA GCAAGCTGCG GCACCCCTAC
    TTGCTACAGT TGATGGCTGT GTGTCTCTCC CAGGACCTAG AGAAAACCCG CCTTGTGTAC
    GAGCGCATCA CTATCGGCAC ATTGTTCAGT GTCCTTCATG AACGACGGTC CCAGTTCCCA
    GTGCTGCACA TGGAGGTGAT TGTGCACCTG CTGCTCCAGA TATCTGATGC CCTGAGATAC
    CTGCATTTCC AGGGGTTTAT CCACCGCTCC CTCAGCTCCT ATGCTGTCCA TATCATCTCC
    CCAGGTGAAG CGAGGCTGAC CAACCTGGAG TACATGTTGG AAAGCGAGGA CAGAGGTGTA
    CAGAGGGACC TGACTCGAGT GCCCCTTCCT ACGCAGCTAT ACAACTGGGC CGCACCAGAA
    GTGATCTTAC AGAAGGCAGC CACAGTGAAA TCAGACATCT ACAGCTTTTC TATGATCATG
    CAGGAGATTT TAACAGATGA CATACCCTGG AAGGGCTTAG ATGGCTCAGT TGTTAAAAAA
    GCCGTAGTCT CGGGGAATTA TTTAGAAGCT GATGTCAGGC TTCCGAAACC TTACTATGAT
    ATTGTTAAGT CAGGCATCCA CGTCAAGCAG AAAGACCGAA CTATGAACCT TCAAGATATC
    CGGTATATTC TGAAGAATGA CTTAAAGGAT TTTACTGGAG CCCAGAGAAC TCAACCAACC
    GAGAGCCCCA GAGTGCAGAG ATACGGACTC CATCCCGATG TCAATGTCTA TCTAGGACTG
    ACTTCAGAAC ACCCCAGAGA GACACCTGAC ATGGAAATCA TAGAACTAAA GGAAATGGGC
    AGTCAACCTC ATTCACCAAG GGTTCACTCT TTATTCACTG AGGGGACACT AGATCCTCAG
    GCCCCAGATC CATGTCTGAT GGCCAGGGAG ACTCAGAATC AAGATGCTCC TTGCCCTGCT
    CCATTTATGG CAGAAGAGGC CAGCAGCCCC AGCACAGGTC AGCCAAGCCT CTGCAGTTTC
    GAAATCAACG AGATCTACTC AGGCTGCTTG ATTTTGGAAG ATGACATAGA AGAGCCTCCA
    GGAGCTGCTT CATCTTTGGA GGCAGACGGA CCTAACCAGG TAGATGAACT GAAATCCATG
    GAAGAAGAGC TGGATAAGAT GGAGAGAGAG GCGTGTTGTT TTGGCAGTGA GGATGAGAGC
    TCTTCAAAAG CTGAGACAGA GTACTCTTTT GATGACTGGG ACTGGCAAAA CGGTTCACTC
    AGTTCACTCA GCCTTCCTGA GTCAACCAGA GAAGCCAAGA GCAATTTGAA CAACATGTCC
    ACGACTGAGG AGTATCTCAT CAGTAAGTGT GTGCTGGATC TAAAGATTAT GCAGACAATA
    ATGCACGAGA ATGATGATAG GCTGAGGAAT ATCGAGCAGA TATTAGATGA AGTCGAGATG
    AAACAGAAGG AACAGGAAGA GCGCATGTCT TTATGGGCCA CTTCAAGAGA GTTTACAAAT
    GCCTACAAGT TACCTCTGGC CGTGGGCCCT CCATCTTTAA ACTATATTCC TCCTGTCCTA
    CAGCTTTCAG GGGGTCAGAA GCCAGACACC AGTGGCAACT ACCCAACCCT ACCAAGATTT
    CCAAGAATGC TGCCGACTCT TTGTGACCCT GGAAAACAGA ACACAGATGA ACAATTTCAG
    TGCACTCAAG GAGCCAAGGA CAGTTTGGAA ACAAGCAGGA TCCAAAATAC CAGTAGCCAG
    GGAAGACCTA GAGAGTCCAC TGCCCAAGCC AAAGCCACAC AGTTTAATAG TGCACTCTTC
    ACTCTGTCAA GCCACCGGCA GGGACCTTCT GCATCACCCA GCTGTCACTG GGACTCTACC
    AGGATGAGTG TGGAACCTGT TTCTTCTGAA ATCTATAATG CAGAGTCCAG AAATAAAGAT
    GATGGAAAGG TACACTTAAA ATGGAAAATG GAGGTGAAAG AAATGGCAAA GAAAGCAGCT
    ACTGGACAGC TCACAGTACC TCCTTGGCAT CCTCAGAGTA GTCTGACTTT AGAGAGCGAG
    GCTGAAAATG AGCCCGACGC CCTGCTGCAG CCCCCCATTA GGAGCCCAGA AAACACGGAT
    TGGCAGCGAG TTATTGAGTA TCATAGGGAA AATGATGAGC CCAGAGGAAA TGGCAAGTTT
    GACAAGACGG GCAACAATGA CTGTGACAGT GACCAGCATG GCAGACAGCC CAGGCTTGGA
    AGCTTCACCA GTATCAGGCA CCCATCTCCC AGACAAAAGG AGCAACCAGA GCATAGTGAA
    GCCTTCCAAG CAAGTTCTGA CACATTGGTG GCTGTAGAGA AATCTTACAG TCATCAGTCC
    ATGCAATCAA CTTGTTCACC AGAGTCTTCT GAGGATATAA CAGATGAATT TTTAACTCCA
    GACGGTGAAT ATTTTTACTC CTCGACTGCT CAAGAAAACT TAGCTCTAGA GACCTCGAGT
    CCCATAGAAG AGGACTTTGA AGGAATACAA GGTGCATTTG CCCAACCTCA AGTCTCTGGT
    GAGGAAAAGT TCCAAATGAG AAAAATTCTT GGAAAGAATG CTGAGATTTT GCCCAGGTCT
    CAATTTCAAC CTGTACGAAG TACTGAAGAT GAACAAGAAG AGACATCAAA GGAGTCACCA
    AAGGAACTGA AAGAGAAAGA CATATCATTG ACGGATATTC AAGACCTGTC TAGTATCTCC
    TATGAACCAG ACAGCTCTTT TAAGGAAGCT TCATGCAAAA CACCCAAAAT AAACCATGCA
    CCTACCAGTG TCAGCACTCC ACTCAGCCCA GGGTCCGTTT CTTCAGCTGC CAGTCAGTAT
    AAAGACTGCC TTGAAAGTAT CACATTTCAG GTTAAGACAG AGTTTGCCTC TTGCTGGAAC
    AGTCAAGAAT TTATTCAAAC TTTGTCTGAT GACTTTATAA GTGTCCGAGA GAGAGCAAAG
    AAACTGGATT CTCTCCTTAC TTCCTCTGAA ACTCCCCCTT CAAGACTGAC TGGTCTTAAA
    AGATTGTCTT CATTTATTGG GGCTGGATCC CCCAGCCTTG TTAAGGCATG TGACTCATCA
    CCACCCCATG CCACCCAGAG AAGGAGCCTG CCTAAAGTAG AAGCCTTCTC ACAGCATCAC
    ATTGATGAGC TGCCACCACC ATCTCAGGAG CTACTTGATG ACATTGAGCT CTTGAAACAG
    CAGCAGGGCT CATCCACGGT GTTGCATGAG AACACAGCAA GTGATGGAGG AGGCACTGCA
    AATGATCAAA GGCACTTAGA AGAACAAGAA ACTGACAGTA AAAAAGAAGA TAGTAGTATG
    CTTTTGTCCA AAGAAACTGA AGATCTTGGA GAGGACACAG AGAGAGCTCA CTCTACTCTG
    GATGAGGACC TGGAAAGATG GCTGCAGCCA CCTGAGGAGA GCGTGGAGCT ACAAGACCTT
    CCCAAGGGCT CTGAAAGGGA GACAAATATC AAAGATCAAA AAGTTGGTGA AGAGAAAAGA
    AAAAGGGAAG ATAGCATTAC ACCAGAAAGA AGGAAATCAG AGGGTGTTCT AGGGACTTCT
    GAAGAAGATG AACTAAAATC CTGTTTTTGG AAGCGACTAG GTTGGTCCGA ATCATCCAGG
    ATAATCGTGC TGGATCAGAG TGACTTGTCA GACTGA

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

    CloneID OHu13988
    Clone ID Related Accession (Same CDS sequence) NM_001201457.1
    Accession Version NM_001201457.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4494bp)
    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 2019-12-24
    Organism Homo sapiens(human)
    Product inactive serine/threonine-protein kinase TEX14 isoform c
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB086121.1, BC040526.1, AL834143.1, CB044007.1 and AI243203.1. This sequence is a reference standard in the RefSeqGene project. Transcript Variant: This variant (3) represents the longest transcript and encodes the longest isoform (c). Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC040526.1 [ECO:0000332] RNAseq introns :: mixed/partial sample support SAMEA1965299, SAMEA1966682 [ECO:0000350] ##Evidence-Data-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
    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
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGGCTA TGCCTTGGTT TCAGTTTTAT
    CTTACTGGGG CGACACAGAT GGCCTATCTA GGATCTCTTC CGGTCATTGG AGAAAAGGAA
    GTGATTCAAG CTGATGATGA GCCCACCTTC TCTTTCTTCA GCGGCCCCTA CATGGTCATG
    ACCAACCTAG TGTGGAATGG GAGCAGGGTC ACAGTGAAAG AGCTGAATCT CCCCACCCAC
    CCACACTGCA GCAGGCTGCG GCTGGCCGAC TTGTTAATTG CCGAGCAGGA ACACAGCAGC
    AAGCTGCGGC ACCCCTACTT GCTACAGTTG ATGGCTGTGT GTCTCTCCCA GGACCTAGAG
    AAAACCCGCC TTGTGTACGA GCGCATCACT ATCGGCACAT TGTTCAGTGT CCTTCATGAA
    CGACGGTCCC AGTTCCCAGT GCTGCACATG GAGGTGATTG TGCACCTGCT GCTCCAGATA
    TCTGATGCCC TGAGATACCT GCATTTCCAG GGGTTTATCC ACCGCTCCCT CAGCTCCTAT
    GCTGTCCATA TCATCTCCCC AGGTGAAGCG AGGCTGACCA ACCTGGAGTA CATGTTGGAA
    AGCGAGGACA GAGGTGTACA GAGGGACCTG ACTCGAGTGC CCCTTCCTAC GCAGCTATAC
    AACTGGGCCG CACCAGAAGT GATCTTACAG AAGGCAGCCA CAGTGAAATC AGACATCTAC
    AGCTTTTCTA TGATCATGCA GGAGATTTTA ACAGATGACA TACCCTGGAA GGGCTTAGAT
    GGCTCAGTTG TTAAAAAAGC CGTAGTCTCG GGGAATTATT TAGAAGCTGA TGTCAGGCTT
    CCGAAACCTT ACTATGATAT TGTTAAGTCA GGCATCCACG TCAAGCAGAA AGACCGAACT
    ATGAACCTTC AAGATATCCG GTATATTCTG AAGAATGACT TAAAGGATTT TACTGGAGCC
    CAGAGAACTC AACCAACCGA GAGCCCCAGA GTGCAGAGAT ACGGACTCCA TCCCGATGTC
    AATGTCTATC TAGGACTGAC TTCAGAACAC CCCAGAGAGA CACCTGACAT GGAAATCATA
    GAACTAAAGG AAATGGGCAG TCAACCTCAT TCACCAAGGG TTCACTCTTT ATTCACTGAG
    GGGACACTAG ATCCTCAGGC CCCAGATCCA TGTCTGATGG CCAGGGAGAC TCAGAATCAA
    GATGCTCCTT GCCCTGCTCC ATTTATGGCA GAAGAGGCCA GCAGCCCCAG CACAGGTCAG
    CCAAGCCTCT GCAGTTTCGA AATCAACGAG ATCTACTCAG GCTGCTTGAT TTTGGAAGAT
    GACATAGAAG AGCCTCCAGG AGCTGCTTCA TCTTTGGAGG CAGACGGACC TAACCAGGTA
    GATGAACTGA AATCCATGGA AGAAGAGCTG GATAAGATGG AGAGAGAGGC GTGTTGTTTT
    GGCAGTGAGG ATGAGAGCTC TTCAAAAGCT GAGACAGAGT ACTCTTTTGA TGACTGGGAC
    TGGCAAAACG GTTCACTCAG TTCACTCAGC CTTCCTGAGT CAACCAGAGA AGCCAAGAGC
    AATTTGAACA ACATGTCCAC GACTGAGGAG TATCTCATCA GTAAGTGTGT GCTGGATCTA
    AAGATTATGC AGACAATAAT GCACGAGAAT GATGATAGGC TGAGGAATAT CGAGCAGATA
    TTAGATGAAG TCGAGATGAA ACAGAAGGAA CAGGAAGAGC GCATGTCTTT ATGGGCCACT
    TCAAGAGAGT TTACAAATGC CTACAAGTTA CCTCTGGCCG TGGGCCCTCC ATCTTTAAAC
    TATATTCCTC CTGTCCTACA GCTTTCAGGG GGTCAGAAGC CAGACACCAG TGGCAACTAC
    CCAACCCTAC CAAGATTTCC AAGAATGCTG CCGACTCTTT GTGACCCTGG AAAACAGAAC
    ACAGATGAAC AATTTCAGTG CACTCAAGGA GCCAAGGACA GTTTGGAAAC AAGCAGGATC
    CAAAATACCA GTAGCCAGGG AAGACCTAGA GAGTCCACTG CCCAAGCCAA AGCCACACAG
    TTTAATAGTG CACTCTTCAC TCTGTCAAGC CACCGGCAGG GACCTTCTGC ATCACCCAGC
    TGTCACTGGG ACTCTACCAG GATGAGTGTG GAACCTGTTT CTTCTGAAAT CTATAATGCA
    GAGTCCAGAA ATAAAGATGA TGGAAAGGTA CACTTAAAAT GGAAAATGGA GGTGAAAGAA
    ATGGCAAAGA AAGCAGCTAC TGGACAGCTC ACAGTACCTC CTTGGCATCC TCAGAGTAGT
    CTGACTTTAG AGAGCGAGGC TGAAAATGAG CCCGACGCCC TGCTGCAGCC CCCCATTAGG
    AGCCCAGAAA ACACGGATTG GCAGCGAGTT ATTGAGTATC ATAGGGAAAA TGATGAGCCC
    AGAGGAAATG GCAAGTTTGA CAAGACGGGC AACAATGACT GTGACAGTGA CCAGCATGGC
    AGACAGCCCA GGCTTGGAAG CTTCACCAGT ATCAGGCACC CATCTCCCAG ACAAAAGGAG
    CAACCAGAGC ATAGTGAAGC CTTCCAAGCA AGTTCTGACA CATTGGTGGC TGTAGAGAAA
    TCTTACAGTC ATCAGTCCAT GCAATCAACT TGTTCACCAG AGTCTTCTGA GGATATAACA
    GATGAATTTT TAACTCCAGA CGGTGAATAT TTTTACTCCT CGACTGCTCA AGAAAACTTA
    GCTCTAGAGA CCTCGAGTCC CATAGAAGAG GACTTTGAAG GAATACAAGG TGCATTTGCC
    CAACCTCAAG TCTCTGGTGA GGAAAAGTTC CAAATGAGAA AAATTCTTGG AAAGAATGCT
    GAGATTTTGC CCAGGTCTCA ATTTCAACCT GTACGAAGTA CTGAAGATGA ACAAGAAGAG
    ACATCAAAGG AGTCACCAAA GGAACTGAAA GAGAAAGACA TATCATTGAC GGATATTCAA
    GACCTGTCTA GTATCTCCTA TGAACCAGAC AGCTCTTTTA AGGAAGCTTC ATGCAAAACA
    CCCAAAATAA ACCATGCACC TACCAGTGTC AGCACTCCAC TCAGCCCAGG GTCCGTTTCT
    TCAGCTGCCA GTCAGTATAA AGACTGCCTT GAAAGTATCA CATTTCAGGT TAAGACAGAG
    TTTGCCTCTT GCTGGAACAG TCAAGAATTT ATTCAAACTT TGTCTGATGA CTTTATAAGT
    GTCCGAGAGA GAGCAAAGAA ACTGGATTCT CTCCTTACTT CCTCTGAAAC TCCCCCTTCA
    AGACTGACTG GTCTTAAAAG ATTGTCTTCA TTTATTGGGG CTGGATCCCC CAGCCTTGTT
    AAGGCATGTG ACTCATCACC ACCCCATGCC ACCCAGAGAA GGAGCCTGCC TAAAGTAGAA
    GCCTTCTCAC AGCATCACAT TGATGAGCTG CCACCACCAT CTCAGGAGCT ACTTGATGAC
    ATTGAGCTCT TGAAACAGCA GCAGGGCTCA TCCACGGTGT TGCATGAGAA CACAGCAAGT
    GATGGAGGAG GCACTGCAAA TGATCAAAGG CACTTAGAAG AACAAGAAAC TGACAGTAAA
    AAAGAAGATA GTAGTATGCT TTTGTCCAAA GAAACTGAAG ATCTTGGAGA GGACACAGAG
    AGAGCTCACT CTACTCTGGA TGAGGACCTG GAAAGATGGC TGCAGCCACC TGAGGAGAGC
    GTGGAGCTAC AAGACCTTCC CAAGGGCTCT GAAAGGGAGA CAAATATCAA AGATCAAAAA
    GTTGGTGAAG AGAAAAGAAA AAGGGAAGAT AGCATTACAC CAGAAAGAAG GAAATCAGAG
    GGTGTTCTAG GGACTTCTGA AGAAGATGAA CTAAAATCCT GTTTTTGGAA GCGACTAGGT
    TGGTCCGAAT CATCCAGGAT AATCGTGCTG GATCAGAGTG ACTTGTCAGA CTGA

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

    RefSeq NP_001188386.1
    CDS119..4612
    Translation

    Target ORF information:

    RefSeq Version NM_001201457.1
    Organism Homo sapiens(human)
    Definition Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant 3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001201457.1

    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
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGGCTA TGCCTTGGTT TCAGTTTTAT
    CTTACTGGGG CGACACAGAT GGCCTATCTA GGATCTCTTC CGGTCATTGG AGAAAAGGAA
    GTGATTCAAG CTGATGATGA GCCCACCTTC TCTTTCTTCA GCGGCCCCTA CATGGTCATG
    ACCAACCTAG TGTGGAATGG GAGCAGGGTC ACAGTGAAAG AGCTGAATCT CCCCACCCAC
    CCACACTGCA GCAGGCTGCG GCTGGCCGAC TTGTTAATTG CCGAGCAGGA ACACAGCAGC
    AAGCTGCGGC ACCCCTACTT GCTACAGTTG ATGGCTGTGT GTCTCTCCCA GGACCTAGAG
    AAAACCCGCC TTGTGTACGA GCGCATCACT ATCGGCACAT TGTTCAGTGT CCTTCATGAA
    CGACGGTCCC AGTTCCCAGT GCTGCACATG GAGGTGATTG TGCACCTGCT GCTCCAGATA
    TCTGATGCCC TGAGATACCT GCATTTCCAG GGGTTTATCC ACCGCTCCCT CAGCTCCTAT
    GCTGTCCATA TCATCTCCCC AGGTGAAGCG AGGCTGACCA ACCTGGAGTA CATGTTGGAA
    AGCGAGGACA GAGGTGTACA GAGGGACCTG ACTCGAGTGC CCCTTCCTAC GCAGCTATAC
    AACTGGGCCG CACCAGAAGT GATCTTACAG AAGGCAGCCA CAGTGAAATC AGACATCTAC
    AGCTTTTCTA TGATCATGCA GGAGATTTTA ACAGATGACA TACCCTGGAA GGGCTTAGAT
    GGCTCAGTTG TTAAAAAAGC CGTAGTCTCG GGGAATTATT TAGAAGCTGA TGTCAGGCTT
    CCGAAACCTT ACTATGATAT TGTTAAGTCA GGCATCCACG TCAAGCAGAA AGACCGAACT
    ATGAACCTTC AAGATATCCG GTATATTCTG AAGAATGACT TAAAGGATTT TACTGGAGCC
    CAGAGAACTC AACCAACCGA GAGCCCCAGA GTGCAGAGAT ACGGACTCCA TCCCGATGTC
    AATGTCTATC TAGGACTGAC TTCAGAACAC CCCAGAGAGA CACCTGACAT GGAAATCATA
    GAACTAAAGG AAATGGGCAG TCAACCTCAT TCACCAAGGG TTCACTCTTT ATTCACTGAG
    GGGACACTAG ATCCTCAGGC CCCAGATCCA TGTCTGATGG CCAGGGAGAC TCAGAATCAA
    GATGCTCCTT GCCCTGCTCC ATTTATGGCA GAAGAGGCCA GCAGCCCCAG CACAGGTCAG
    CCAAGCCTCT GCAGTTTCGA AATCAACGAG ATCTACTCAG GCTGCTTGAT TTTGGAAGAT
    GACATAGAAG AGCCTCCAGG AGCTGCTTCA TCTTTGGAGG CAGACGGACC TAACCAGGTA
    GATGAACTGA AATCCATGGA AGAAGAGCTG GATAAGATGG AGAGAGAGGC GTGTTGTTTT
    GGCAGTGAGG ATGAGAGCTC TTCAAAAGCT GAGACAGAGT ACTCTTTTGA TGACTGGGAC
    TGGCAAAACG GTTCACTCAG TTCACTCAGC CTTCCTGAGT CAACCAGAGA AGCCAAGAGC
    AATTTGAACA ACATGTCCAC GACTGAGGAG TATCTCATCA GTAAGTGTGT GCTGGATCTA
    AAGATTATGC AGACAATAAT GCACGAGAAT GATGATAGGC TGAGGAATAT CGAGCAGATA
    TTAGATGAAG TCGAGATGAA ACAGAAGGAA CAGGAAGAGC GCATGTCTTT ATGGGCCACT
    TCAAGAGAGT TTACAAATGC CTACAAGTTA CCTCTGGCCG TGGGCCCTCC ATCTTTAAAC
    TATATTCCTC CTGTCCTACA GCTTTCAGGG GGTCAGAAGC CAGACACCAG TGGCAACTAC
    CCAACCCTAC CAAGATTTCC AAGAATGCTG CCGACTCTTT GTGACCCTGG AAAACAGAAC
    ACAGATGAAC AATTTCAGTG CACTCAAGGA GCCAAGGACA GTTTGGAAAC AAGCAGGATC
    CAAAATACCA GTAGCCAGGG AAGACCTAGA GAGTCCACTG CCCAAGCCAA AGCCACACAG
    TTTAATAGTG CACTCTTCAC TCTGTCAAGC CACCGGCAGG GACCTTCTGC ATCACCCAGC
    TGTCACTGGG ACTCTACCAG GATGAGTGTG GAACCTGTTT CTTCTGAAAT CTATAATGCA
    GAGTCCAGAA ATAAAGATGA TGGAAAGGTA CACTTAAAAT GGAAAATGGA GGTGAAAGAA
    ATGGCAAAGA AAGCAGCTAC TGGACAGCTC ACAGTACCTC CTTGGCATCC TCAGAGTAGT
    CTGACTTTAG AGAGCGAGGC TGAAAATGAG CCCGACGCCC TGCTGCAGCC CCCCATTAGG
    AGCCCAGAAA ACACGGATTG GCAGCGAGTT ATTGAGTATC ATAGGGAAAA TGATGAGCCC
    AGAGGAAATG GCAAGTTTGA CAAGACGGGC AACAATGACT GTGACAGTGA CCAGCATGGC
    AGACAGCCCA GGCTTGGAAG CTTCACCAGT ATCAGGCACC CATCTCCCAG ACAAAAGGAG
    CAACCAGAGC ATAGTGAAGC CTTCCAAGCA AGTTCTGACA CATTGGTGGC TGTAGAGAAA
    TCTTACAGTC ATCAGTCCAT GCAATCAACT TGTTCACCAG AGTCTTCTGA GGATATAACA
    GATGAATTTT TAACTCCAGA CGGTGAATAT TTTTACTCCT CGACTGCTCA AGAAAACTTA
    GCTCTAGAGA CCTCGAGTCC CATAGAAGAG GACTTTGAAG GAATACAAGG TGCATTTGCC
    CAACCTCAAG TCTCTGGTGA GGAAAAGTTC CAAATGAGAA AAATTCTTGG AAAGAATGCT
    GAGATTTTGC CCAGGTCTCA ATTTCAACCT GTACGAAGTA CTGAAGATGA ACAAGAAGAG
    ACATCAAAGG AGTCACCAAA GGAACTGAAA GAGAAAGACA TATCATTGAC GGATATTCAA
    GACCTGTCTA GTATCTCCTA TGAACCAGAC AGCTCTTTTA AGGAAGCTTC ATGCAAAACA
    CCCAAAATAA ACCATGCACC TACCAGTGTC AGCACTCCAC TCAGCCCAGG GTCCGTTTCT
    TCAGCTGCCA GTCAGTATAA AGACTGCCTT GAAAGTATCA CATTTCAGGT TAAGACAGAG
    TTTGCCTCTT GCTGGAACAG TCAAGAATTT ATTCAAACTT TGTCTGATGA CTTTATAAGT
    GTCCGAGAGA GAGCAAAGAA ACTGGATTCT CTCCTTACTT CCTCTGAAAC TCCCCCTTCA
    AGACTGACTG GTCTTAAAAG ATTGTCTTCA TTTATTGGGG CTGGATCCCC CAGCCTTGTT
    AAGGCATGTG ACTCATCACC ACCCCATGCC ACCCAGAGAA GGAGCCTGCC TAAAGTAGAA
    GCCTTCTCAC AGCATCACAT TGATGAGCTG CCACCACCAT CTCAGGAGCT ACTTGATGAC
    ATTGAGCTCT TGAAACAGCA GCAGGGCTCA TCCACGGTGT TGCATGAGAA CACAGCAAGT
    GATGGAGGAG GCACTGCAAA TGATCAAAGG CACTTAGAAG AACAAGAAAC TGACAGTAAA
    AAAGAAGATA GTAGTATGCT TTTGTCCAAA GAAACTGAAG ATCTTGGAGA GGACACAGAG
    AGAGCTCACT CTACTCTGGA TGAGGACCTG GAAAGATGGC TGCAGCCACC TGAGGAGAGC
    GTGGAGCTAC AAGACCTTCC CAAGGGCTCT GAAAGGGAGA CAAATATCAA AGATCAAAAA
    GTTGGTGAAG AGAAAAGAAA AAGGGAAGAT AGCATTACAC CAGAAAGAAG GAAATCAGAG
    GGTGTTCTAG GGACTTCTGA AGAAGATGAA CTAAAATCCT GTTTTTGGAA GCGACTAGGT
    TGGTCCGAAT CATCCAGGAT AATCGTGCTG GATCAGAGTG ACTTGTCAGA CTGA

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

    CloneID OHu69944
    Clone ID Related Accession (Same CDS sequence) XM_011525029.2 , XM_011525029.3
    Accession Version XM_011525029.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4599bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-06-05
    Organism Homo sapiens(human)
    Product inactive serine/threonine-protein kinase TEX14 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) 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_011525029.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGTTTT ATCTTACTGG GGCGACACAG
    ATGGCCTATC TAGGATCTCT TCCGGTCATT GGAGAAAAGG AAGTGATTCA AGCTGATGAT
    GAGCCCACCT TCTCTTTCTT CAGCGGCCCC TACATGGTCA TGACCAACCT AGTGTGGAAT
    GGGAGCAGGG TCACAGTGAA AGAGCTGAAT CTCCCCACCC ACCCACACTG CAGCAGGCTG
    CGGCTGGCCG ACTTGTTAAT TGCCGAGCAG GAACACAGCA GCAAGCTGCG GCACCCCTAC
    TTGCTACAGT TGATGGCTGT GTGTCTCTCC CAGGACCTAG AGAAAACCCG CCTTGTGTAC
    GAGCGCATCA CTATCGGCAC ATTGTTCAGT GTCCTTCATG AACGACGGTC CCAGTTCCCA
    GTGCTGCACA TGGAGGTGAT TGTGCACCTG CTGCTCCAGA TATCTGATGC CCTGAGATAC
    CTGCATTTCC AGGGGTTTAT CCACCGCTCC CTCAGCTCCT ATGCTGTCCA TATCATCTCC
    CCAGGTGAAG CGAGGCTGAC CAACCTGGAG TACATGTTGG AAAGCGAGGA CAGAGGTGTA
    CAGAGGGACC TGACTCGAGT GCCCCTTCCT ACGCAGCTAT ACAACTGGGC CGCACCAGAA
    GTGATCTTAC AGAAGGCAGC CACAGTGAAA TCAGACATCT ACAGCTTTTC TATGATCATG
    CAGGAGATTT TAACAGATGA CATACCCTGG AAGGGCTTAG ATGGCTCAGT TGTTAAAAAA
    GCCGTAGTCT CGGGGAATTA TTTAGAAGCT GATGTCAGGC TTCCGAAACC TTACTATGAT
    ATTGTTAAGT CAGGCATCCA CGTCAAGCAG AAAGACCGAA CTATGAACCT TCAAGATATC
    CGGTATATTC TGAAGAATGA CTTAAAGGAT TTTACTGGAG CCCAGAGAAC TCAACCAACC
    GAGAGCCCCA GAGTGCAGAG ATACGGACTC CATCCCGATG TCAATGTCTA TCTAGGACTG
    ACTTCAGAAC ACCCCAGAGA GACACCTGAC ATGGAAATCA TAGAACTAAA GGAAATGGGC
    AGTCAACCTC ATTCACCAAG GGTTCACTCT TTATTCACTG AGGGGACACT AGATCCTCAG
    GCCCCAGATC CATGTCTGAT GGCCAGGGAG ACTCAGAATC AAGATGCTCC TTGCCCTGCT
    CCATTTATGG CAGAAGAGGC CAGCAGCCCC AGCACAGGTC AGCCAAGCCT CTGCAGTTTC
    GAAATCAACG AGATCTACTC AGGCTGCTTG ATTTTGGAAG ATGACATAGA AGAGCCTCCA
    GGAGCTGCTT CATCTTTGGA GGCAGACGGA CCTAACCAGG TAGATGAACT GAAATCCATG
    GAAGAAGAGC TGGATAAGAT GGAGAGAGAG GCGTGTTGTT TTGGCAGTGA GGATGAGAGC
    TCTTCAAAAG CTGAGACAGA GTACTCTTTT GATGACTGGG ACTGGCAAAA CGGTTCACTC
    AGTTCACTCA GCCTTCCTGA GTCAACCAGA GAAGCCAAGA GCAATTTGAA CAACATGTCC
    ACGACTGAGG AGTATCTCAT CAGTAAGTGT GTGCTGGATC TAAAGATTAT GCAGACAATA
    ATGCACGAGA ATGATGATAG GCTGAGGAAT ATCGAGCAGA TATTAGATGA AGTCGAGATG
    AAACAGAAGG AACAGGAAGA GCGCATGTCT TTATGGGCCA CTTCAAGAGA GTTTACAAAT
    GCCTACAAGT TACCTCTGGC CGTGGGCCCT CCATCTTTAA ACTATATTCC TCCTGTCCTA
    CAGCTTTCAG GGGGTCAGAA GCCAGACACC AGTGGCAACT ACCCAACCCT ACCAAGATTT
    CCAAGAATGG TAAGAGACTT TCAAGGGGGA CATTTTGGCA AAAGATCCAG GAAAAGAAAT
    GGTTGTGGCT GGAAACCTTT CACCCAAGTC TCCAAAGTAA ACACTGGGGA TCAGTCAGAG
    ATAAGCCATC AGCTGCCGAC TCTTTGTGAC CCTGGAAAAC AGAACACAGA TGAACAATTT
    CAGTGCACTC AAGGAGCCAA GGACAGTTTG GAAACAAGCA GGATCCAAAA TACCAGTAGC
    CAGGGAAGAC CTAGAGAGTC CACTGCCCAA GCCAAAGCCA CACAGTTTAA TAGTGCACTC
    TTCACTCTGT CAAGCCACCG GCAGGGACCT TCTGCATCAC CCAGCTGTCA CTGGGACTCT
    ACCAGGATGA GTGTGGAACC TGTTTCTTCT GAAATCTATA ATGCAGAGTC CAGAAATAAA
    GATGATGGAA AGGTACACTT AAAATGGAAA ATGGAGGTGA AAGAAATGGC AAAGAAAGCA
    GCTACTGGAC AGCTCACAGT ACCTCCTTGG CATCCTCAGA GTAGTCTGAC TTTAGAGAGC
    GAGGCTGAAA ATGAGCCCGA CGCCCTGCTG CAGCCCCCCA TTAGGAGCCC AGAAAACACG
    GATTGGCAGC GAGTTATTGA GTATCATAGG GAAAATGATG AGCCCAGAGG AAATGGCAAG
    TTTGACAAGA CGGGCAACAA TGACTGTGAC AGTGACCAGC ATGGCAGACA GCCCAGGCTT
    GGAAGCTTCA CCAGTATCAG GCACCCATCT CCCAGACAAA AGGAGCAACC AGAGCATAGT
    GAAGCCTTCC AAGCAAGTTC TGACACATTG GTGGCTGTAG AGAAATCTTA CAGTCATCAG
    TCCATGCAAT CAACTTGTTC ACCAGAGTCT TCTGAGGATA TAACAGATGA ATTTTTAACT
    CCAGACGGTG AATATTTTTA CTCCTCGACT GCTCAAGAAA ACTTAGCTCT AGAGACCTCG
    AGTCCCATAG AAGAGGACTT TGAAGGAATA CAAGGTGCAT TTGCCCAACC TCAAGTCTCT
    GGTGAGGAAA AGTTCCAAAT GAGAAAAATT CTTGGAAAGA ATGCTGAGAT TTTGCCCAGG
    TCTCAATTTC AACCTGTACG AAGTACTGAA GATGAACAAG AAGAGACATC AAAGGAGTCA
    CCAAAGGAAC TGAAAGAGAA AGACATATCA TTGACGGATA TTCAAGACCT GTCTAGTATC
    TCCTATGAAC CAGACAGCTC TTTTAAGGAA GCTTCATGCA AAACACCCAA AATAAACCAT
    GCACCTACCA GTGTCAGCAC TCCACTCAGC CCAGGGTCCG TTTCTTCAGC TGCCAGTCAG
    TATAAAGACT GCCTTGAAAG TATCACATTT CAGGTTAAGA CAGAGTTTGC CTCTTGCTGG
    AACAGTCAAG AATTTATTCA AACTTTGTCT GATGACTTTA TAAGTGTCCG AGAGAGAGCA
    AAGAAACTGG ATTCTCTCCT TACTTCCTCT GAAACTCCCC CTTCAAGACT GACTGGTCTT
    AAAAGATTGT CTTCATTTAT TGGGGCTGGA TCCCCCAGCC TTGTTAAGGC ATGTGACTCA
    TCACCACCCC ATGCCACCCA GAGAAGGAGC CTGCCTAAAG TAGAAGCCTT CTCACAGCAT
    CACATTGATG AGCTGCCACC ACCATCTCAG GAGCTACTTG ATGACATTGA GCTCTTGAAA
    CAGCAGCAGG GCTCATCCAC GGTGTTGCAT GAGAACACAG CAAGTGATGG AGGAGGCACT
    GCAAATGATC AAAGGCACTT AGAAGAACAA GAAACTGACA GTAAAAAAGA AGATAGTAGT
    ATGCTTTTGT CCAAAGAAAC TGAAGATCTT GGAGAGGACA CAGAGAGAGC TCACTCTACT
    CTGGATGAGG ACCTGGAAAG ATGGCTGCAG CCACCTGAGG AGAGCGTGGA GCTACAAGAC
    CTTCCCAAGG GCTCTGAAAG GGAGACAAAT ATCAAAGATC AAAAAGTTGG TGAAGAGAAA
    AGAAAAAGGG AAGATAGCAT TACACCAGAA AGAAGGAAAT CAGAGGGTGT TCTAGGGACT
    TCTGAAGAAG ATGAACTAAA ATCCTGTTTT TGGAAGCGAC TAGGTTGGTC CGAATCATCC
    AGGATAATCG TGCTGGATCA GAGTGACTTG TCAGACTGA

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

    RefSeq XP_011523331.1
    CDS98..4696
    Translation

    Target ORF information:

    RefSeq Version XM_011525029.2
    Organism Homo sapiens(human)
    Definition Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525029.2

    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
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGTTTT ATCTTACTGG GGCGACACAG
    ATGGCCTATC TAGGATCTCT TCCGGTCATT GGAGAAAAGG AAGTGATTCA AGCTGATGAT
    GAGCCCACCT TCTCTTTCTT CAGCGGCCCC TACATGGTCA TGACCAACCT AGTGTGGAAT
    GGGAGCAGGG TCACAGTGAA AGAGCTGAAT CTCCCCACCC ACCCACACTG CAGCAGGCTG
    CGGCTGGCCG ACTTGTTAAT TGCCGAGCAG GAACACAGCA GCAAGCTGCG GCACCCCTAC
    TTGCTACAGT TGATGGCTGT GTGTCTCTCC CAGGACCTAG AGAAAACCCG CCTTGTGTAC
    GAGCGCATCA CTATCGGCAC ATTGTTCAGT GTCCTTCATG AACGACGGTC CCAGTTCCCA
    GTGCTGCACA TGGAGGTGAT TGTGCACCTG CTGCTCCAGA TATCTGATGC CCTGAGATAC
    CTGCATTTCC AGGGGTTTAT CCACCGCTCC CTCAGCTCCT ATGCTGTCCA TATCATCTCC
    CCAGGTGAAG CGAGGCTGAC CAACCTGGAG TACATGTTGG AAAGCGAGGA CAGAGGTGTA
    CAGAGGGACC TGACTCGAGT GCCCCTTCCT ACGCAGCTAT ACAACTGGGC CGCACCAGAA
    GTGATCTTAC AGAAGGCAGC CACAGTGAAA TCAGACATCT ACAGCTTTTC TATGATCATG
    CAGGAGATTT TAACAGATGA CATACCCTGG AAGGGCTTAG ATGGCTCAGT TGTTAAAAAA
    GCCGTAGTCT CGGGGAATTA TTTAGAAGCT GATGTCAGGC TTCCGAAACC TTACTATGAT
    ATTGTTAAGT CAGGCATCCA CGTCAAGCAG AAAGACCGAA CTATGAACCT TCAAGATATC
    CGGTATATTC TGAAGAATGA CTTAAAGGAT TTTACTGGAG CCCAGAGAAC TCAACCAACC
    GAGAGCCCCA GAGTGCAGAG ATACGGACTC CATCCCGATG TCAATGTCTA TCTAGGACTG
    ACTTCAGAAC ACCCCAGAGA GACACCTGAC ATGGAAATCA TAGAACTAAA GGAAATGGGC
    AGTCAACCTC ATTCACCAAG GGTTCACTCT TTATTCACTG AGGGGACACT AGATCCTCAG
    GCCCCAGATC CATGTCTGAT GGCCAGGGAG ACTCAGAATC AAGATGCTCC TTGCCCTGCT
    CCATTTATGG CAGAAGAGGC CAGCAGCCCC AGCACAGGTC AGCCAAGCCT CTGCAGTTTC
    GAAATCAACG AGATCTACTC AGGCTGCTTG ATTTTGGAAG ATGACATAGA AGAGCCTCCA
    GGAGCTGCTT CATCTTTGGA GGCAGACGGA CCTAACCAGG TAGATGAACT GAAATCCATG
    GAAGAAGAGC TGGATAAGAT GGAGAGAGAG GCGTGTTGTT TTGGCAGTGA GGATGAGAGC
    TCTTCAAAAG CTGAGACAGA GTACTCTTTT GATGACTGGG ACTGGCAAAA CGGTTCACTC
    AGTTCACTCA GCCTTCCTGA GTCAACCAGA GAAGCCAAGA GCAATTTGAA CAACATGTCC
    ACGACTGAGG AGTATCTCAT CAGTAAGTGT GTGCTGGATC TAAAGATTAT GCAGACAATA
    ATGCACGAGA ATGATGATAG GCTGAGGAAT ATCGAGCAGA TATTAGATGA AGTCGAGATG
    AAACAGAAGG AACAGGAAGA GCGCATGTCT TTATGGGCCA CTTCAAGAGA GTTTACAAAT
    GCCTACAAGT TACCTCTGGC CGTGGGCCCT CCATCTTTAA ACTATATTCC TCCTGTCCTA
    CAGCTTTCAG GGGGTCAGAA GCCAGACACC AGTGGCAACT ACCCAACCCT ACCAAGATTT
    CCAAGAATGG TAAGAGACTT TCAAGGGGGA CATTTTGGCA AAAGATCCAG GAAAAGAAAT
    GGTTGTGGCT GGAAACCTTT CACCCAAGTC TCCAAAGTAA ACACTGGGGA TCAGTCAGAG
    ATAAGCCATC AGCTGCCGAC TCTTTGTGAC CCTGGAAAAC AGAACACAGA TGAACAATTT
    CAGTGCACTC AAGGAGCCAA GGACAGTTTG GAAACAAGCA GGATCCAAAA TACCAGTAGC
    CAGGGAAGAC CTAGAGAGTC CACTGCCCAA GCCAAAGCCA CACAGTTTAA TAGTGCACTC
    TTCACTCTGT CAAGCCACCG GCAGGGACCT TCTGCATCAC CCAGCTGTCA CTGGGACTCT
    ACCAGGATGA GTGTGGAACC TGTTTCTTCT GAAATCTATA ATGCAGAGTC CAGAAATAAA
    GATGATGGAA AGGTACACTT AAAATGGAAA ATGGAGGTGA AAGAAATGGC AAAGAAAGCA
    GCTACTGGAC AGCTCACAGT ACCTCCTTGG CATCCTCAGA GTAGTCTGAC TTTAGAGAGC
    GAGGCTGAAA ATGAGCCCGA CGCCCTGCTG CAGCCCCCCA TTAGGAGCCC AGAAAACACG
    GATTGGCAGC GAGTTATTGA GTATCATAGG GAAAATGATG AGCCCAGAGG AAATGGCAAG
    TTTGACAAGA CGGGCAACAA TGACTGTGAC AGTGACCAGC ATGGCAGACA GCCCAGGCTT
    GGAAGCTTCA CCAGTATCAG GCACCCATCT CCCAGACAAA AGGAGCAACC AGAGCATAGT
    GAAGCCTTCC AAGCAAGTTC TGACACATTG GTGGCTGTAG AGAAATCTTA CAGTCATCAG
    TCCATGCAAT CAACTTGTTC ACCAGAGTCT TCTGAGGATA TAACAGATGA ATTTTTAACT
    CCAGACGGTG AATATTTTTA CTCCTCGACT GCTCAAGAAA ACTTAGCTCT AGAGACCTCG
    AGTCCCATAG AAGAGGACTT TGAAGGAATA CAAGGTGCAT TTGCCCAACC TCAAGTCTCT
    GGTGAGGAAA AGTTCCAAAT GAGAAAAATT CTTGGAAAGA ATGCTGAGAT TTTGCCCAGG
    TCTCAATTTC AACCTGTACG AAGTACTGAA GATGAACAAG AAGAGACATC AAAGGAGTCA
    CCAAAGGAAC TGAAAGAGAA AGACATATCA TTGACGGATA TTCAAGACCT GTCTAGTATC
    TCCTATGAAC CAGACAGCTC TTTTAAGGAA GCTTCATGCA AAACACCCAA AATAAACCAT
    GCACCTACCA GTGTCAGCAC TCCACTCAGC CCAGGGTCCG TTTCTTCAGC TGCCAGTCAG
    TATAAAGACT GCCTTGAAAG TATCACATTT CAGGTTAAGA CAGAGTTTGC CTCTTGCTGG
    AACAGTCAAG AATTTATTCA AACTTTGTCT GATGACTTTA TAAGTGTCCG AGAGAGAGCA
    AAGAAACTGG ATTCTCTCCT TACTTCCTCT GAAACTCCCC CTTCAAGACT GACTGGTCTT
    AAAAGATTGT CTTCATTTAT TGGGGCTGGA TCCCCCAGCC TTGTTAAGGC ATGTGACTCA
    TCACCACCCC ATGCCACCCA GAGAAGGAGC CTGCCTAAAG TAGAAGCCTT CTCACAGCAT
    CACATTGATG AGCTGCCACC ACCATCTCAG GAGCTACTTG ATGACATTGA GCTCTTGAAA
    CAGCAGCAGG GCTCATCCAC GGTGTTGCAT GAGAACACAG CAAGTGATGG AGGAGGCACT
    GCAAATGATC AAAGGCACTT AGAAGAACAA GAAACTGACA GTAAAAAAGA AGATAGTAGT
    ATGCTTTTGT CCAAAGAAAC TGAAGATCTT GGAGAGGACA CAGAGAGAGC TCACTCTACT
    CTGGATGAGG ACCTGGAAAG ATGGCTGCAG CCACCTGAGG AGAGCGTGGA GCTACAAGAC
    CTTCCCAAGG GCTCTGAAAG GGAGACAAAT ATCAAAGATC AAAAAGTTGG TGAAGAGAAA
    AGAAAAAGGG AAGATAGCAT TACACCAGAA AGAAGGAAAT CAGAGGGTGT TCTAGGGACT
    TCTGAAGAAG ATGAACTAAA ATCCTGTTTT TGGAAGCGAC TAGGTTGGTC CGAATCATCC
    AGGATAATCG TGCTGGATCA GAGTGACTTG TCAGACTGA

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

    CloneID OHu69944
    Clone ID Related Accession (Same CDS sequence) XM_011525029.2 , XM_011525029.3
    Accession Version XM_011525029.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4599bp)
    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 inactive serine/threonine-protein kinase TEX14 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000017.11) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 26, 2018 this sequence version replaced XM_011525029.2. ##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
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGTTTT ATCTTACTGG GGCGACACAG
    ATGGCCTATC TAGGATCTCT TCCGGTCATT GGAGAAAAGG AAGTGATTCA AGCTGATGAT
    GAGCCCACCT TCTCTTTCTT CAGCGGCCCC TACATGGTCA TGACCAACCT AGTGTGGAAT
    GGGAGCAGGG TCACAGTGAA AGAGCTGAAT CTCCCCACCC ACCCACACTG CAGCAGGCTG
    CGGCTGGCCG ACTTGTTAAT TGCCGAGCAG GAACACAGCA GCAAGCTGCG GCACCCCTAC
    TTGCTACAGT TGATGGCTGT GTGTCTCTCC CAGGACCTAG AGAAAACCCG CCTTGTGTAC
    GAGCGCATCA CTATCGGCAC ATTGTTCAGT GTCCTTCATG AACGACGGTC CCAGTTCCCA
    GTGCTGCACA TGGAGGTGAT TGTGCACCTG CTGCTCCAGA TATCTGATGC CCTGAGATAC
    CTGCATTTCC AGGGGTTTAT CCACCGCTCC CTCAGCTCCT ATGCTGTCCA TATCATCTCC
    CCAGGTGAAG CGAGGCTGAC CAACCTGGAG TACATGTTGG AAAGCGAGGA CAGAGGTGTA
    CAGAGGGACC TGACTCGAGT GCCCCTTCCT ACGCAGCTAT ACAACTGGGC CGCACCAGAA
    GTGATCTTAC AGAAGGCAGC CACAGTGAAA TCAGACATCT ACAGCTTTTC TATGATCATG
    CAGGAGATTT TAACAGATGA CATACCCTGG AAGGGCTTAG ATGGCTCAGT TGTTAAAAAA
    GCCGTAGTCT CGGGGAATTA TTTAGAAGCT GATGTCAGGC TTCCGAAACC TTACTATGAT
    ATTGTTAAGT CAGGCATCCA CGTCAAGCAG AAAGACCGAA CTATGAACCT TCAAGATATC
    CGGTATATTC TGAAGAATGA CTTAAAGGAT TTTACTGGAG CCCAGAGAAC TCAACCAACC
    GAGAGCCCCA GAGTGCAGAG ATACGGACTC CATCCCGATG TCAATGTCTA TCTAGGACTG
    ACTTCAGAAC ACCCCAGAGA GACACCTGAC ATGGAAATCA TAGAACTAAA GGAAATGGGC
    AGTCAACCTC ATTCACCAAG GGTTCACTCT TTATTCACTG AGGGGACACT AGATCCTCAG
    GCCCCAGATC CATGTCTGAT GGCCAGGGAG ACTCAGAATC AAGATGCTCC TTGCCCTGCT
    CCATTTATGG CAGAAGAGGC CAGCAGCCCC AGCACAGGTC AGCCAAGCCT CTGCAGTTTC
    GAAATCAACG AGATCTACTC AGGCTGCTTG ATTTTGGAAG ATGACATAGA AGAGCCTCCA
    GGAGCTGCTT CATCTTTGGA GGCAGACGGA CCTAACCAGG TAGATGAACT GAAATCCATG
    GAAGAAGAGC TGGATAAGAT GGAGAGAGAG GCGTGTTGTT TTGGCAGTGA GGATGAGAGC
    TCTTCAAAAG CTGAGACAGA GTACTCTTTT GATGACTGGG ACTGGCAAAA CGGTTCACTC
    AGTTCACTCA GCCTTCCTGA GTCAACCAGA GAAGCCAAGA GCAATTTGAA CAACATGTCC
    ACGACTGAGG AGTATCTCAT CAGTAAGTGT GTGCTGGATC TAAAGATTAT GCAGACAATA
    ATGCACGAGA ATGATGATAG GCTGAGGAAT ATCGAGCAGA TATTAGATGA AGTCGAGATG
    AAACAGAAGG AACAGGAAGA GCGCATGTCT TTATGGGCCA CTTCAAGAGA GTTTACAAAT
    GCCTACAAGT TACCTCTGGC CGTGGGCCCT CCATCTTTAA ACTATATTCC TCCTGTCCTA
    CAGCTTTCAG GGGGTCAGAA GCCAGACACC AGTGGCAACT ACCCAACCCT ACCAAGATTT
    CCAAGAATGG TAAGAGACTT TCAAGGGGGA CATTTTGGCA AAAGATCCAG GAAAAGAAAT
    GGTTGTGGCT GGAAACCTTT CACCCAAGTC TCCAAAGTAA ACACTGGGGA TCAGTCAGAG
    ATAAGCCATC AGCTGCCGAC TCTTTGTGAC CCTGGAAAAC AGAACACAGA TGAACAATTT
    CAGTGCACTC AAGGAGCCAA GGACAGTTTG GAAACAAGCA GGATCCAAAA TACCAGTAGC
    CAGGGAAGAC CTAGAGAGTC CACTGCCCAA GCCAAAGCCA CACAGTTTAA TAGTGCACTC
    TTCACTCTGT CAAGCCACCG GCAGGGACCT TCTGCATCAC CCAGCTGTCA CTGGGACTCT
    ACCAGGATGA GTGTGGAACC TGTTTCTTCT GAAATCTATA ATGCAGAGTC CAGAAATAAA
    GATGATGGAA AGGTACACTT AAAATGGAAA ATGGAGGTGA AAGAAATGGC AAAGAAAGCA
    GCTACTGGAC AGCTCACAGT ACCTCCTTGG CATCCTCAGA GTAGTCTGAC TTTAGAGAGC
    GAGGCTGAAA ATGAGCCCGA CGCCCTGCTG CAGCCCCCCA TTAGGAGCCC AGAAAACACG
    GATTGGCAGC GAGTTATTGA GTATCATAGG GAAAATGATG AGCCCAGAGG AAATGGCAAG
    TTTGACAAGA CGGGCAACAA TGACTGTGAC AGTGACCAGC ATGGCAGACA GCCCAGGCTT
    GGAAGCTTCA CCAGTATCAG GCACCCATCT CCCAGACAAA AGGAGCAACC AGAGCATAGT
    GAAGCCTTCC AAGCAAGTTC TGACACATTG GTGGCTGTAG AGAAATCTTA CAGTCATCAG
    TCCATGCAAT CAACTTGTTC ACCAGAGTCT TCTGAGGATA TAACAGATGA ATTTTTAACT
    CCAGACGGTG AATATTTTTA CTCCTCGACT GCTCAAGAAA ACTTAGCTCT AGAGACCTCG
    AGTCCCATAG AAGAGGACTT TGAAGGAATA CAAGGTGCAT TTGCCCAACC TCAAGTCTCT
    GGTGAGGAAA AGTTCCAAAT GAGAAAAATT CTTGGAAAGA ATGCTGAGAT TTTGCCCAGG
    TCTCAATTTC AACCTGTACG AAGTACTGAA GATGAACAAG AAGAGACATC AAAGGAGTCA
    CCAAAGGAAC TGAAAGAGAA AGACATATCA TTGACGGATA TTCAAGACCT GTCTAGTATC
    TCCTATGAAC CAGACAGCTC TTTTAAGGAA GCTTCATGCA AAACACCCAA AATAAACCAT
    GCACCTACCA GTGTCAGCAC TCCACTCAGC CCAGGGTCCG TTTCTTCAGC TGCCAGTCAG
    TATAAAGACT GCCTTGAAAG TATCACATTT CAGGTTAAGA CAGAGTTTGC CTCTTGCTGG
    AACAGTCAAG AATTTATTCA AACTTTGTCT GATGACTTTA TAAGTGTCCG AGAGAGAGCA
    AAGAAACTGG ATTCTCTCCT TACTTCCTCT GAAACTCCCC CTTCAAGACT GACTGGTCTT
    AAAAGATTGT CTTCATTTAT TGGGGCTGGA TCCCCCAGCC TTGTTAAGGC ATGTGACTCA
    TCACCACCCC ATGCCACCCA GAGAAGGAGC CTGCCTAAAG TAGAAGCCTT CTCACAGCAT
    CACATTGATG AGCTGCCACC ACCATCTCAG GAGCTACTTG ATGACATTGA GCTCTTGAAA
    CAGCAGCAGG GCTCATCCAC GGTGTTGCAT GAGAACACAG CAAGTGATGG AGGAGGCACT
    GCAAATGATC AAAGGCACTT AGAAGAACAA GAAACTGACA GTAAAAAAGA AGATAGTAGT
    ATGCTTTTGT CCAAAGAAAC TGAAGATCTT GGAGAGGACA CAGAGAGAGC TCACTCTACT
    CTGGATGAGG ACCTGGAAAG ATGGCTGCAG CCACCTGAGG AGAGCGTGGA GCTACAAGAC
    CTTCCCAAGG GCTCTGAAAG GGAGACAAAT ATCAAAGATC AAAAAGTTGG TGAAGAGAAA
    AGAAAAAGGG AAGATAGCAT TACACCAGAA AGAAGGAAAT CAGAGGGTGT TCTAGGGACT
    TCTGAAGAAG ATGAACTAAA ATCCTGTTTT TGGAAGCGAC TAGGTTGGTC CGAATCATCC
    AGGATAATCG TGCTGGATCA GAGTGACTTG TCAGACTGA

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

    RefSeq XP_011523331.1
    CDS99..4697
    Translation

    Target ORF information:

    RefSeq Version XM_011525029.3
    Organism Homo sapiens(human)
    Definition Homo sapiens testis expressed 14, intercellular bridge forming factor (TEX14), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011525029.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    ATGTCTCGGG CTGTTCGTCT TCCAGTCCCC TGTCCTGTTC AACTTGGTAC CTTAAGAAAT 
    GACTCCCTGG AAGCTCAGCT TCATGAGTAT GTCAAACAAG GGAACTATGT GAAAGTGAAG
    AAAATTCTTA AGAAAGGAAT TTATGTTGAT GCAGTTAACT CCTTGGGCCA AACAGCACTT
    TTTGTTGCGG CGTTATTGGG CCTTAGGAAA TTCGTTGATG TTCTGGTGGA TTATGGATCA
    GATCCAAATC ACCGCTGCTT TGATGGGAGC ACCCCTGTCC ATGCAGCAGC ATTTTCGGGC
    AATCAGTGGA TCCTTAGCAA ACTGCTGGAT GCAGGAGGTG ACCTGCGACT CCACGATGAG
    AGGGGTCAAA ACCCGAAGAC TTGGGCTTTG ACAGCAGGAA AGGAGCGTAG CACCCAGATA
    GTGGAGTTCA TGCAGCGCTG TGCCTCACAC ATGCAGGCCA TCATCCAGGG CTTCTCTTAC
    GACCTCCTGA AGAAGATAGA CTCCCCGCAG CGGCTTGTCT ACAGCCCGTC CTGGTGTGGG
    GGCCTCGTGC AGGGAAACCC TAATGGCTCT CCTAACCGAC TGCTTAAAGC TGGAGTCATT
    TCTGCTCAAA ATATCTACAG CTTTGGTTTT GGGAAGTTTT ATCTTACTGG GGCGACACAG
    ATGGCCTATC TAGGATCTCT TCCGGTCATT GGAGAAAAGG AAGTGATTCA AGCTGATGAT
    GAGCCCACCT TCTCTTTCTT CAGCGGCCCC TACATGGTCA TGACCAACCT AGTGTGGAAT
    GGGAGCAGGG TCACAGTGAA AGAGCTGAAT CTCCCCACCC ACCCACACTG CAGCAGGCTG
    CGGCTGGCCG ACTTGTTAAT TGCCGAGCAG GAACACAGCA GCAAGCTGCG GCACCCCTAC
    TTGCTACAGT TGATGGCTGT GTGTCTCTCC CAGGACCTAG AGAAAACCCG CCTTGTGTAC
    GAGCGCATCA CTATCGGCAC ATTGTTCAGT GTCCTTCATG AACGACGGTC CCAGTTCCCA
    GTGCTGCACA TGGAGGTGAT TGTGCACCTG CTGCTCCAGA TATCTGATGC CCTGAGATAC
    CTGCATTTCC AGGGGTTTAT CCACCGCTCC CTCAGCTCCT ATGCTGTCCA TATCATCTCC
    CCAGGTGAAG CGAGGCTGAC CAACCTGGAG TACATGTTGG AAAGCGAGGA CAGAGGTGTA
    CAGAGGGACC TGACTCGAGT GCCCCTTCCT ACGCAGCTAT ACAACTGGGC CGCACCAGAA
    GTGATCTTAC AGAAGGCAGC CACAGTGAAA TCAGACATCT ACAGCTTTTC TATGATCATG
    CAGGAGATTT TAACAGATGA CATACCCTGG AAGGGCTTAG ATGGCTCAGT TGTTAAAAAA
    GCCGTAGTCT CGGGGAATTA TTTAGAAGCT GATGTCAGGC TTCCGAAACC TTACTATGAT
    ATTGTTAAGT CAGGCATCCA CGTCAAGCAG AAAGACCGAA CTATGAACCT TCAAGATATC
    CGGTATATTC TGAAGAATGA CTTAAAGGAT TTTACTGGAG CCCAGAGAAC TCAACCAACC
    GAGAGCCCCA GAGTGCAGAG ATACGGACTC CATCCCGATG TCAATGTCTA TCTAGGACTG
    ACTTCAGAAC ACCCCAGAGA GACACCTGAC ATGGAAATCA TAGAACTAAA GGAAATGGGC
    AGTCAACCTC ATTCACCAAG GGTTCACTCT TTATTCACTG AGGGGACACT AGATCCTCAG
    GCCCCAGATC CATGTCTGAT GGCCAGGGAG ACTCAGAATC AAGATGCTCC TTGCCCTGCT
    CCATTTATGG CAGAAGAGGC CAGCAGCCCC AGCACAGGTC AGCCAAGCCT CTGCAGTTTC
    GAAATCAACG AGATCTACTC AGGCTGCTTG ATTTTGGAAG ATGACATAGA AGAGCCTCCA
    GGAGCTGCTT CATCTTTGGA GGCAGACGGA CCTAACCAGG TAGATGAACT GAAATCCATG
    GAAGAAGAGC TGGATAAGAT GGAGAGAGAG GCGTGTTGTT TTGGCAGTGA GGATGAGAGC
    TCTTCAAAAG CTGAGACAGA GTACTCTTTT GATGACTGGG ACTGGCAAAA CGGTTCACTC
    AGTTCACTCA GCCTTCCTGA GTCAACCAGA GAAGCCAAGA GCAATTTGAA CAACATGTCC
    ACGACTGAGG AGTATCTCAT CAGTAAGTGT GTGCTGGATC TAAAGATTAT GCAGACAATA
    ATGCACGAGA ATGATGATAG GCTGAGGAAT ATCGAGCAGA TATTAGATGA AGTCGAGATG
    AAACAGAAGG AACAGGAAGA GCGCATGTCT TTATGGGCCA CTTCAAGAGA GTTTACAAAT
    GCCTACAAGT TACCTCTGGC CGTGGGCCCT CCATCTTTAA ACTATATTCC TCCTGTCCTA
    CAGCTTTCAG GGGGTCAGAA GCCAGACACC AGTGGCAACT ACCCAACCCT ACCAAGATTT
    CCAAGAATGG TAAGAGACTT TCAAGGGGGA CATTTTGGCA AAAGATCCAG GAAAAGAAAT
    GGTTGTGGCT GGAAACCTTT CACCCAAGTC TCCAAAGTAA ACACTGGGGA TCAGTCAGAG
    ATAAGCCATC AGCTGCCGAC TCTTTGTGAC CCTGGAAAAC AGAACACAGA TGAACAATTT
    CAGTGCACTC AAGGAGCCAA GGACAGTTTG GAAACAAGCA GGATCCAAAA TACCAGTAGC
    CAGGGAAGAC CTAGAGAGTC CACTGCCCAA GCCAAAGCCA CACAGTTTAA TAGTGCACTC
    TTCACTCTGT CAAGCCACCG GCAGGGACCT TCTGCATCAC CCAGCTGTCA CTGGGACTCT
    ACCAGGATGA GTGTGGAACC TGTTTCTTCT GAAATCTATA ATGCAGAGTC CAGAAATAAA
    GATGATGGAA AGGTACACTT AAAATGGAAA ATGGAGGTGA AAGAAATGGC AAAGAAAGCA
    GCTACTGGAC AGCTCACAGT ACCTCCTTGG CATCCTCAGA GTAGTCTGAC TTTAGAGAGC
    GAGGCTGAAA ATGAGCCCGA CGCCCTGCTG CAGCCCCCCA TTAGGAGCCC AGAAAACACG
    GATTGGCAGC GAGTTATTGA GTATCATAGG GAAAATGATG AGCCCAGAGG AAATGGCAAG
    TTTGACAAGA CGGGCAACAA TGACTGTGAC AGTGACCAGC ATGGCAGACA GCCCAGGCTT
    GGAAGCTTCA CCAGTATCAG GCACCCATCT CCCAGACAAA AGGAGCAACC AGAGCATAGT
    GAAGCCTTCC AAGCAAGTTC TGACACATTG GTGGCTGTAG AGAAATCTTA CAGTCATCAG
    TCCATGCAAT CAACTTGTTC ACCAGAGTCT TCTGAGGATA TAACAGATGA ATTTTTAACT
    CCAGACGGTG AATATTTTTA CTCCTCGACT GCTCAAGAAA ACTTAGCTCT AGAGACCTCG
    AGTCCCATAG AAGAGGACTT TGAAGGAATA CAAGGTGCAT TTGCCCAACC TCAAGTCTCT
    GGTGAGGAAA AGTTCCAAAT GAGAAAAATT CTTGGAAAGA ATGCTGAGAT TTTGCCCAGG
    TCTCAATTTC AACCTGTACG AAGTACTGAA GATGAACAAG AAGAGACATC AAAGGAGTCA
    CCAAAGGAAC TGAAAGAGAA AGACATATCA TTGACGGATA TTCAAGACCT GTCTAGTATC
    TCCTATGAAC CAGACAGCTC TTTTAAGGAA GCTTCATGCA AAACACCCAA AATAAACCAT
    GCACCTACCA GTGTCAGCAC TCCACTCAGC CCAGGGTCCG TTTCTTCAGC TGCCAGTCAG
    TATAAAGACT GCCTTGAAAG TATCACATTT CAGGTTAAGA CAGAGTTTGC CTCTTGCTGG
    AACAGTCAAG AATTTATTCA AACTTTGTCT GATGACTTTA TAAGTGTCCG AGAGAGAGCA
    AAGAAACTGG ATTCTCTCCT TACTTCCTCT GAAACTCCCC CTTCAAGACT GACTGGTCTT
    AAAAGATTGT CTTCATTTAT TGGGGCTGGA TCCCCCAGCC TTGTTAAGGC ATGTGACTCA
    TCACCACCCC ATGCCACCCA GAGAAGGAGC CTGCCTAAAG TAGAAGCCTT CTCACAGCAT
    CACATTGATG AGCTGCCACC ACCATCTCAG GAGCTACTTG ATGACATTGA GCTCTTGAAA
    CAGCAGCAGG GCTCATCCAC GGTGTTGCAT GAGAACACAG CAAGTGATGG AGGAGGCACT
    GCAAATGATC AAAGGCACTT AGAAGAACAA GAAACTGACA GTAAAAAAGA AGATAGTAGT
    ATGCTTTTGT CCAAAGAAAC TGAAGATCTT GGAGAGGACA CAGAGAGAGC TCACTCTACT
    CTGGATGAGG ACCTGGAAAG ATGGCTGCAG CCACCTGAGG AGAGCGTGGA GCTACAAGAC
    CTTCCCAAGG GCTCTGAAAG GGAGACAAAT ATCAAAGATC AAAAAGTTGG TGAAGAGAAA
    AGAAAAAGGG AAGATAGCAT TACACCAGAA AGAAGGAAAT CAGAGGGTGT TCTAGGGACT
    TCTGAAGAAG ATGAACTAAA ATCCTGTTTT TGGAAGCGAC TAGGTTGGTC CGAATCATCC
    AGGATAATCG TGCTGGATCA GAGTGACTTG TCAGACTGA

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