TERT cDNA ORF clone, Calidris pugnax(ruff)

The following TERT gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the TERT 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
OCa62671 XM_014938742.1
Latest version!
Calidris pugnax telomerase reverse transcriptase (TERT), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OCa62672 XM_014938743.1
Latest version!
Calidris pugnax telomerase reverse transcriptase (TERT), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OCa62673 XM_014938744.1
Latest version!
Calidris pugnax telomerase reverse transcriptase (TERT), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OCa62671
    Clone ID Related Accession (Same CDS sequence) XM_014938742.1
    Accession Version XM_014938742.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4089bp)
    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 2015-12-08
    Organism Calidris pugnax(ruff)
    Product telomerase reverse transcriptase isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015090810.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Calidris pugnax Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGCGGGCG CGGAGCCCTT CGCGGCGGTG CTGGCCGCCC TGCGCGGCTG CTACGCCGAG 
    GCCACCCCGC TGGAGACCTT CATCCGGCGG CTGCGGGAGA GCGGCGCCGG CGAGGCCGAG
    GTGCTGCGGG GCGACGACGC CCCCTCCTAC CGGACCTTCG TGAGGCAGTG CCTGGTGTGC
    GTCCCCCGCG GGGCCCGCGC CATCCCCCGG CCTTTAACCT TCCAGCAGGT AGGAGGCCGG
    GTGCCACTGA TGGTGGCCCG GCTCGCACCT GCCTCGGGCC CGAGGTCCGC CCGCCCCCCA
    CGGCCACCCG GCTGGCGGAG CGGGGCTTCC CCGTCGGCAG CGTTATCTAG TCAGAGTGAA
    GTCATCACAA GAGTTGTTCA GAGACTGTGT GAAAAAAGGA AGAAGAACAT CCTCGCATAT
    GGATACTCCT TACTGGATGA AAACAGTTCT CATTTCCAAA TCATGCCATC TTCAAATATA
    TACAGCTACC TACCCAATAC TGTGACTGAA ACCATTCGTA TCAGCGGCCT CTGGGAAACA
    CTGCTGAGCA GGATAGGGGA TGATGTGATG ATGTATTTAT TGGAACACTG TGCAATCTTT
    ATGCTGGTTC CCCCTAGTAA TTGTTACCAA GTTTGCGGGC AACCAGTTTA TGAACTTATT
    TCACATAATG TAGACTCACC CCCAGTGTTT GTTAAACAAA AGTTTTCGAA GCATAAACGT
    AGTAGCTTGC TTGACTATAT GCAAAAAAGA CTTACGTTTC ATAGACAGTA TCTTTCAAAG
    TTGCATTGGT GGAAACGCAG ACAAAGACTT GAAGCTAATG TCTCCAGCAT GGGAAATAAA
    AACATTAGCA AGACACAAAG CCTAGAGTCC AGTTGCCAGT ATTCTGCAAA AGTTGTTCCT
    AAAGCAAGCA AACAGATCAG AATGGTTAGC GAACATCTGG AAGAACAGAG TAGCTCCAGT
    TTATGTTTGT CAGCTACAGC ACCATCTTTA AAAAGGAAGC TTGATAGGGA ACAGCCTGAA
    ATTCCAGCTA AAAGAGCAAA AGTAGAGGAG AAAATGAGAG AGGAAAAGGC TTGTAATCTC
    ACTCTCGATG TAAACCAAAG CAGTTCCAAG AGATATGAAA CTGGGTATGT AGCATCACAT
    TCTGTAAGTT TCATTAAAGA AACGCACATT TCTCAAGGAA GTAACAGTGA TATGTCTGGT
    CCTTCTTTAG TGCACACGTC TCGTGACAGG AAGAAGTTTG TGGCAGGTGA AAGCTCTTTT
    CTGCAAATTG TTCAGAGTAA CAGACCTGTA AAGTCCAGCA TTGAAATGGA AGCAGAATCC
    CATAGGAAAG GAGTAGAGAT GCATGTGTAC CAACCTCAGT TGGATTCTGT ACAAATCAAA
    CCCACGGAGG GCATTTCTTC AGTTTGCCAG AGGCAGGAAA GTCCCTTAGC TCCTTTGGCA
    AAGAAGTTGC CAAATAAGCT CTTGCGTTCC GCAGTATGCA TTGACAGGAA GTTTCTTCTG
    TACTCCCACA GGAGTTTCCA AGAATGTTTT CCTAAATCAT TTCTATTGAA TCGCTTGCAG
    GGCTGTCAGG CAGGTGGAAG ACGGCTTGTA GAAGCTATAT TTTTAAGCCA AAATCTCTCA
    GAGCAAAAGC ATAACCAAAG TCAGCCACAT CACAACTGGA GAAAGAAGAA GCTGCCCAAA
    CGCTACTGGC AAATGAGACA TACATTTCAG AACCTGTTAA AGAACCATGG GAAGTGCCCT
    TACTTGGTTC TCTTGAAAAA AAATTGCCCT GTTTGGATAT CTCAAAGCAG TGTGAGAAAA
    ACTGAGCTGC CTTCTCAGGC AGCCTTGCCT GGGGAAGCGG AGGTTCACGA GCAAGCAGAA
    CAGTTTGGGA AAGAGCCTAC TAAGTGTGTG ACAAGCAGCA AATGTGAATC TGGTCACATT
    GACAATTTGG GCACTCCTCT TGCAAAATCT GTGCCTGGGG AGTCGGTGAG TGAGGAGCAA
    AGCCTGGGGG AGGTGTGTGA TGCCACCCTC AGGGATCTCC TGAGGCAGCA CAGCAGCCAC
    TGGCAGGTGT ATACCTTTGT GAGGGAGTGC CTGGAGCGGG TCATCCCTGC CGAGCTTTGG
    GGTTCAAACC ATAACAAGTG CCGGTTCTTA AAAAATGTGA AAGCGTTCAT TTCCATGGGG
    AAGTTTGCTA AGCTTTCGTT GCAGGAGTTG ATGTGGAAGA TGAGAGTGAA TGACTGCGTG
    TGGCTTCGTC TAGTCAAAGG TAGTGAAGGT GATCACTTTG TTCCTGCTCA TGAACATTGT
    TTCCGAGAAG AACTTTTGGC TAAATTCCTG TACTGGCTGA TGGATACCTA TGTTGTTGAG
    TTGCTCAGAT CATTTTTCTA TATCACTGAG ACCATGTTCC AGAAAAACAT GCTTTTCTAC
    TACCGAAAGT TTATCTGGGG CAAGTTACAG AACATTGGAA TTAGAAACCA TTTTGCCAAA
    GTACATCTAC GTGCTTTATC TTCAGAGGAG ATTGAAGCTG TCCGTCAAAA AAAATATGTT
    CCTATGGCAT CAAAACTCCG GTTCATTCCC AAAACGAATG GGTTAAGACC CATAGTAAAA
    GTGAGCAGTG TGGTTGAAGC ACGAGCATTC AGCAGGGAGA GCAGAGAAAA AAAGATGCAT
    CACTACAACA CTCGGCTAAA AAATCTATTT AGTGTCTTAA ATTATGAACG GACCATAAAC
    ACCAGTTTTA TCGGCTCTTC AGTGTTTGGG AAAGATGATA TCTACAAGAC ATGGAAGAAG
    TTTGTTACAA AGGTTCTTGA ATCAGGTGGT GAAATTCCTC ATTTCTACTA TGTAAAGGCT
    GATGTGTCCA GGGCTTATGA TACTATTCCT CATGATAAAC TTGTGGAAGT GATTTCACGG
    ATCTTAAACC CTGAGAAAAG AACTGTCTAC TGCATACGGC GCTATGCTGT GATTATGATT
    ACCACAAGTG GAAAAGCCAG GAGGTTCTAT AGGAGACATG TTTCTACTTT CAAGGATTTT
    ATGCCAGACA TGAAGCAGTT TGTGTGTCAG CTTCAGGAGA ATACCTCATT GCAAAATGCA
    ATAATAGTTG AACAGAGCTT AACTTTTAAT GAGACAAGTT CCAGCCTGTT TACTTTTTTC
    CTTCAAATGA TACATAACAA CATCCTGGAG ATTGGGAGCA GATACTACTT ACAGTGCTGT
    GGAATTCCAC AGGGCTCCAT TTTGTCAACT TTACTTTGCA GCTTATGCTA TGGAGACATG
    GAAAACAAAT TGCTCTGTGG AGTACAGCAG GATGGAGTCC TAATACGTCT CATTGATGAC
    TTTTTGCTGG TTACGCCACA TTTAACACAG GCAAGAACTT TTCTAAGGAC TCTAGCAACA
    GGTATTCCTG AGTATGGCTT TTTAATAAAC CCCAATAAGA CAGTCGTGAA TTTTCCTGTT
    GATGATATCC CAGGATGTTC CAAATTTAAA CAGCTGCCAG ATTGTCGTTT GATCCCGTGG
    TGTGGTTTAT TATTAGATAT ACAGACACTT GAGGTTTACT GCGATTACTC CAGTTATACC
    TGCACTTCTA TCAGATCAAG TCTTTCCTTC AATTCAAGTA GAACAGCTGG GAAAAACATG
    AAATACAAAC TGATCACAGT CCTCAAACTG AAATGCCATT GTTTATTTCT TGATTTACAG
    ATCAACAGCC TTAGAACAGT TTTCATTAAC ATCTACAAGA TATTTTTACT TCAGGCTTAC
    AGGTTCCATG CCTGTGTTCT CCAACTTCCA TTCAACCAGC AAGTTAGAAA CAATCCTTAT
    TTCTTCCTAA GGATCATCTC TGAAACTGCA TCATATGGCT ATTCTATCCT GAAAGCAAAA
    AATGCAGGGG TAACTTTAGG TAACAAAGGT GCATCTGGCC TGTTCCCTTC TGAGGCAGCA
    GAATGGCTCT GCTACCATGC TTTCACTGTC AAACTGGCAA ACCACAAAGT TGTTTACAAA
    TGCTTGCTTA AGCCCCTAAA AATCTGTAAG ATGCGGCTAT TCAAGAAGAT CCCCAAGGAT
    ACTATGGCAC TACTGAAGAC AGTGACAGAA CCGTCTCTTT GTCAAGATTT CAAAGCTATC
    CTGGACTAG

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

    RefSeq XP_014794228.1
    CDS135..4223
    Translation

    Target ORF information:

    RefSeq Version XM_014938742.1
    Organism Calidris pugnax(ruff)
    Definition Calidris pugnax telomerase reverse transcriptase (TERT), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014938742.1

    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
    ATGGCGGGCG CGGAGCCCTT CGCGGCGGTG CTGGCCGCCC TGCGCGGCTG CTACGCCGAG 
    GCCACCCCGC TGGAGACCTT CATCCGGCGG CTGCGGGAGA GCGGCGCCGG CGAGGCCGAG
    GTGCTGCGGG GCGACGACGC CCCCTCCTAC CGGACCTTCG TGAGGCAGTG CCTGGTGTGC
    GTCCCCCGCG GGGCCCGCGC CATCCCCCGG CCTTTAACCT TCCAGCAGGT AGGAGGCCGG
    GTGCCACTGA TGGTGGCCCG GCTCGCACCT GCCTCGGGCC CGAGGTCCGC CCGCCCCCCA
    CGGCCACCCG GCTGGCGGAG CGGGGCTTCC CCGTCGGCAG CGTTATCTAG TCAGAGTGAA
    GTCATCACAA GAGTTGTTCA GAGACTGTGT GAAAAAAGGA AGAAGAACAT CCTCGCATAT
    GGATACTCCT TACTGGATGA AAACAGTTCT CATTTCCAAA TCATGCCATC TTCAAATATA
    TACAGCTACC TACCCAATAC TGTGACTGAA ACCATTCGTA TCAGCGGCCT CTGGGAAACA
    CTGCTGAGCA GGATAGGGGA TGATGTGATG ATGTATTTAT TGGAACACTG TGCAATCTTT
    ATGCTGGTTC CCCCTAGTAA TTGTTACCAA GTTTGCGGGC AACCAGTTTA TGAACTTATT
    TCACATAATG TAGACTCACC CCCAGTGTTT GTTAAACAAA AGTTTTCGAA GCATAAACGT
    AGTAGCTTGC TTGACTATAT GCAAAAAAGA CTTACGTTTC ATAGACAGTA TCTTTCAAAG
    TTGCATTGGT GGAAACGCAG ACAAAGACTT GAAGCTAATG TCTCCAGCAT GGGAAATAAA
    AACATTAGCA AGACACAAAG CCTAGAGTCC AGTTGCCAGT ATTCTGCAAA AGTTGTTCCT
    AAAGCAAGCA AACAGATCAG AATGGTTAGC GAACATCTGG AAGAACAGAG TAGCTCCAGT
    TTATGTTTGT CAGCTACAGC ACCATCTTTA AAAAGGAAGC TTGATAGGGA ACAGCCTGAA
    ATTCCAGCTA AAAGAGCAAA AGTAGAGGAG AAAATGAGAG AGGAAAAGGC TTGTAATCTC
    ACTCTCGATG TAAACCAAAG CAGTTCCAAG AGATATGAAA CTGGGTATGT AGCATCACAT
    TCTGTAAGTT TCATTAAAGA AACGCACATT TCTCAAGGAA GTAACAGTGA TATGTCTGGT
    CCTTCTTTAG TGCACACGTC TCGTGACAGG AAGAAGTTTG TGGCAGGTGA AAGCTCTTTT
    CTGCAAATTG TTCAGAGTAA CAGACCTGTA AAGTCCAGCA TTGAAATGGA AGCAGAATCC
    CATAGGAAAG GAGTAGAGAT GCATGTGTAC CAACCTCAGT TGGATTCTGT ACAAATCAAA
    CCCACGGAGG GCATTTCTTC AGTTTGCCAG AGGCAGGAAA GTCCCTTAGC TCCTTTGGCA
    AAGAAGTTGC CAAATAAGCT CTTGCGTTCC GCAGTATGCA TTGACAGGAA GTTTCTTCTG
    TACTCCCACA GGAGTTTCCA AGAATGTTTT CCTAAATCAT TTCTATTGAA TCGCTTGCAG
    GGCTGTCAGG CAGGTGGAAG ACGGCTTGTA GAAGCTATAT TTTTAAGCCA AAATCTCTCA
    GAGCAAAAGC ATAACCAAAG TCAGCCACAT CACAACTGGA GAAAGAAGAA GCTGCCCAAA
    CGCTACTGGC AAATGAGACA TACATTTCAG AACCTGTTAA AGAACCATGG GAAGTGCCCT
    TACTTGGTTC TCTTGAAAAA AAATTGCCCT GTTTGGATAT CTCAAAGCAG TGTGAGAAAA
    ACTGAGCTGC CTTCTCAGGC AGCCTTGCCT GGGGAAGCGG AGGTTCACGA GCAAGCAGAA
    CAGTTTGGGA AAGAGCCTAC TAAGTGTGTG ACAAGCAGCA AATGTGAATC TGGTCACATT
    GACAATTTGG GCACTCCTCT TGCAAAATCT GTGCCTGGGG AGTCGGTGAG TGAGGAGCAA
    AGCCTGGGGG AGGTGTGTGA TGCCACCCTC AGGGATCTCC TGAGGCAGCA CAGCAGCCAC
    TGGCAGGTGT ATACCTTTGT GAGGGAGTGC CTGGAGCGGG TCATCCCTGC CGAGCTTTGG
    GGTTCAAACC ATAACAAGTG CCGGTTCTTA AAAAATGTGA AAGCGTTCAT TTCCATGGGG
    AAGTTTGCTA AGCTTTCGTT GCAGGAGTTG ATGTGGAAGA TGAGAGTGAA TGACTGCGTG
    TGGCTTCGTC TAGTCAAAGG TAGTGAAGGT GATCACTTTG TTCCTGCTCA TGAACATTGT
    TTCCGAGAAG AACTTTTGGC TAAATTCCTG TACTGGCTGA TGGATACCTA TGTTGTTGAG
    TTGCTCAGAT CATTTTTCTA TATCACTGAG ACCATGTTCC AGAAAAACAT GCTTTTCTAC
    TACCGAAAGT TTATCTGGGG CAAGTTACAG AACATTGGAA TTAGAAACCA TTTTGCCAAA
    GTACATCTAC GTGCTTTATC TTCAGAGGAG ATTGAAGCTG TCCGTCAAAA AAAATATGTT
    CCTATGGCAT CAAAACTCCG GTTCATTCCC AAAACGAATG GGTTAAGACC CATAGTAAAA
    GTGAGCAGTG TGGTTGAAGC ACGAGCATTC AGCAGGGAGA GCAGAGAAAA AAAGATGCAT
    CACTACAACA CTCGGCTAAA AAATCTATTT AGTGTCTTAA ATTATGAACG GACCATAAAC
    ACCAGTTTTA TCGGCTCTTC AGTGTTTGGG AAAGATGATA TCTACAAGAC ATGGAAGAAG
    TTTGTTACAA AGGTTCTTGA ATCAGGTGGT GAAATTCCTC ATTTCTACTA TGTAAAGGCT
    GATGTGTCCA GGGCTTATGA TACTATTCCT CATGATAAAC TTGTGGAAGT GATTTCACGG
    ATCTTAAACC CTGAGAAAAG AACTGTCTAC TGCATACGGC GCTATGCTGT GATTATGATT
    ACCACAAGTG GAAAAGCCAG GAGGTTCTAT AGGAGACATG TTTCTACTTT CAAGGATTTT
    ATGCCAGACA TGAAGCAGTT TGTGTGTCAG CTTCAGGAGA ATACCTCATT GCAAAATGCA
    ATAATAGTTG AACAGAGCTT AACTTTTAAT GAGACAAGTT CCAGCCTGTT TACTTTTTTC
    CTTCAAATGA TACATAACAA CATCCTGGAG ATTGGGAGCA GATACTACTT ACAGTGCTGT
    GGAATTCCAC AGGGCTCCAT TTTGTCAACT TTACTTTGCA GCTTATGCTA TGGAGACATG
    GAAAACAAAT TGCTCTGTGG AGTACAGCAG GATGGAGTCC TAATACGTCT CATTGATGAC
    TTTTTGCTGG TTACGCCACA TTTAACACAG GCAAGAACTT TTCTAAGGAC TCTAGCAACA
    GGTATTCCTG AGTATGGCTT TTTAATAAAC CCCAATAAGA CAGTCGTGAA TTTTCCTGTT
    GATGATATCC CAGGATGTTC CAAATTTAAA CAGCTGCCAG ATTGTCGTTT GATCCCGTGG
    TGTGGTTTAT TATTAGATAT ACAGACACTT GAGGTTTACT GCGATTACTC CAGTTATACC
    TGCACTTCTA TCAGATCAAG TCTTTCCTTC AATTCAAGTA GAACAGCTGG GAAAAACATG
    AAATACAAAC TGATCACAGT CCTCAAACTG AAATGCCATT GTTTATTTCT TGATTTACAG
    ATCAACAGCC TTAGAACAGT TTTCATTAAC ATCTACAAGA TATTTTTACT TCAGGCTTAC
    AGGTTCCATG CCTGTGTTCT CCAACTTCCA TTCAACCAGC AAGTTAGAAA CAATCCTTAT
    TTCTTCCTAA GGATCATCTC TGAAACTGCA TCATATGGCT ATTCTATCCT GAAAGCAAAA
    AATGCAGGGG TAACTTTAGG TAACAAAGGT GCATCTGGCC TGTTCCCTTC TGAGGCAGCA
    GAATGGCTCT GCTACCATGC TTTCACTGTC AAACTGGCAA ACCACAAAGT TGTTTACAAA
    TGCTTGCTTA AGCCCCTAAA AATCTGTAAG ATGCGGCTAT TCAAGAAGAT CCCCAAGGAT
    ACTATGGCAC TACTGAAGAC AGTGACAGAA CCGTCTCTTT GTCAAGATTT CAAAGCTATC
    CTGGACTAG

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

    CloneID OCa62672
    Clone ID Related Accession (Same CDS sequence) XM_014938743.1
    Accession Version XM_014938743.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4035bp)
    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 2015-12-08
    Organism Calidris pugnax(ruff)
    Product telomerase reverse transcriptase isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015090810.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Calidris pugnax Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGCGGGCG CGGAGCCCTT CGCGGCGGTG CTGGCCGCCC TGCGCGGCTG CTACGCCGAG 
    GCCACCCCGC TGGAGACCTT CATCCGGCGG CTGCGGGAGA GCGGCGCCGG CGAGGCCGAG
    GTGCTGCGGG GCGACGACGC CCCCTCCTAC CGGACCTTCG TGAGGCAGTG CCTGGTGTGC
    GTCCCCCGCG GGGCCCGCGC CATCCCCCGG CCTTTAACCT TCCAGCAGGT AGGAGGCCGG
    GTGCCACTGA TGGTGGCCCG GCTCGCACCT GCCTCGGGCC CGAGGTCCGC CCGCCCCCCA
    CGGCCACCCG GCTGGCGGAG CGGGGCTTCC CCGTCGGCAG CGTTATCTAG TCAGAGTGAA
    GTCATCACAA GAGTTGTTCA GAGACTGTGT GAAAAAAGGA AGAAGAACAT CCTCGCATAT
    GGATACTCCT TACTGGATGA AAACAGTTCT CATTTCCAAA TCATGCCATC TTCAAATATA
    TACAGCTACC TACCCAATAC TGTGACTGAA ACCATTCGTA TCAGCGGCCT CTGGGAAACA
    CTGCTGAGCA GGATAGGGGA TGATGTGATG ATGTATTTAT TGGAACACTG TGCAATCTTT
    ATGCTGGTTC CCCCTAGTAA TTGTTACCAA GTTTGCGGGC AACCAGTTTA TGAACTTATT
    TCACATAATG TAGACTCACC CCCAGTGTTT GTTAAACAAA AGTTTTCGAA GCATAAACGT
    AGTAGCTTGC TTGACTATAT GCAAAAAAGA CTTACGTTTC ATAGACAGTA TCTTTCAAAG
    TTGCATTGGT GGAAACGCAG ACAAAGACTT GAAGCTAATG TCTCCAGCAT GGGAAATAAA
    AACATTAGCA AGACACAAAG CCTAGAGTCC AGTTGCCAGT ATTCTGCAAA AGTTGTTCCT
    AAAGCAAGCA AACAGATCAG AATGGTTAGC GAACATCTGG AAGAACAGAG TAGCTCCAGT
    TTATGTTTGT CAGCTACAGC ACCATCTTTA AAAAGGAAGC TTGATAGGGA ACAGCCTGAA
    ATTCCAGCTA AAAGAGCAAA AGTAGAGGAG AAAATGAGAG AGGAAAAGGC TTGTAATCTC
    ACTCTCGATG TAAACCAAAG CAGTTCCAAG AGATATGAAA CTGGGTATGT AGCATCACAT
    TCTGTAAGTT TCATTAAAGA AACGCACATT TCTCAAGGAA GTAACAGTGA TATGTCTGGT
    CCTTCTTTAG TGCACACGTC TCGTGACAGG AAGAAGTTTG TGGCAGGTGA AAGCTCTTTT
    CTGCAAATTG TTCAGAGTAA CAGACCTGTA AAGTCCAGCA TTGAAATGGA AGCAGAATCC
    CATAGGAAAG GAGTAGAGAT GCATGTGTAC CAACCTCAGT TGGATTCTGT ACAAATCAAA
    CCCACGGAGG GCATTTCTTC AGTTTGCCAG AGGCAGGAAA GTCCCTTAGC TCCTTTGGCA
    AAGAAGTTGC CAAATAAGCT CTTGCGTTCC GCAGTATGCA TTGACAGGAA GTTTCTTCTG
    TACTCCCACA GGAGTTTCCA AGAATGTTTT CCTAAATCAT TTCTATTGAA TCGCTTGCAG
    GGCTGTCAGG CAGGTGGAAG ACGGCTTGTA GAAGCTATAT TTTTAAGCCA AAATCTCTCA
    GAGCAAAAGC ATAACCAAAG TCAGCCACAT CACAACTGGA GAAAGAAGAA GCTGCCCAAA
    CGCTACTGGC AAATGAGACA TACATTTCAG AACCTGTTAA AGAACCATGG GAAGTGCCCT
    TACTTGGTTC TCTTGAAAAA AAATTGCCCT GTTTGGATAT CTCAAAGCAG TGTGAGAAAA
    ACTGAGCTGC CTTCTCAGGC AGCCTTGCCT GGGGAAGCGG AGGTTCACGA GCAAGCAGAA
    CAGTTTGGGA AAGAGCCTAC TAAGTGTGTG ACAAGCAGCA AATGTGAATC TGGTCACATT
    GACAATTTGG GCACTCCTCT TGCAAAATCT GTGCCTGGGG AGTCGGTGAG TGAGGAGCAA
    AGCCTGGGGG AGGTGTGTGA TGCCACCCTC AGGGATCTCC TGAGGCAGCA CAGCAGCCAC
    TGGCAGGTGT ATACCTTTGT GAGGGAGTGC CTGGAGCGGG TCATCCCTGC CGAGCTTTGG
    GGTTCAAACC ATAACAAGTG CCGGTTCTTA AAAAATGTGA AAGCGTTCAT TTCCATGGGG
    AAGTTTGCTA AGCTTTCGTT GCAGGAGTTG ATGTGGAAGA TGAGAGTGAA TGACTGCGTG
    TGGCTTCGTC TAGTCAAAGG TAGTGAAGGT GATCACTTTG TTCCTGCTCA TGAACATTGT
    TTCCGAGAAG AACTTTTGGC TAAATTCCTG TACTGGCTGA TGGATACCTA TGTTGTTGAG
    TTGCTCAGAT CATTTTTCTA TATCACTGAG ACCATGTTCC AGAAAAACAT GCTTTTCTAC
    TACCGAAAGT TTATCTGGGG CAAGTTACAG AACATTGGAA TTAGAAACCA TTTTGCCAAA
    GTACATCTAC GTGCTTTATC TTCAGAGGAG ATTGAAGCTG TCCGTCAAAA AAAATATGTT
    CCTATGGCAT CAAAACTCCG GTTCATTCCC AAAACGAATG GGTTAAGACC CATAGTAAAA
    ATGCATCACT ACAACACTCG GCTAAAAAAT CTATTTAGTG TCTTAAATTA TGAACGGACC
    ATAAACACCA GTTTTATCGG CTCTTCAGTG TTTGGGAAAG ATGATATCTA CAAGACATGG
    AAGAAGTTTG TTACAAAGGT TCTTGAATCA GGTGGTGAAA TTCCTCATTT CTACTATGTA
    AAGGCTGATG TGTCCAGGGC TTATGATACT ATTCCTCATG ATAAACTTGT GGAAGTGATT
    TCACGGATCT TAAACCCTGA GAAAAGAACT GTCTACTGCA TACGGCGCTA TGCTGTGATT
    ATGATTACCA CAAGTGGAAA AGCCAGGAGG TTCTATAGGA GACATGTTTC TACTTTCAAG
    GATTTTATGC CAGACATGAA GCAGTTTGTG TGTCAGCTTC AGGAGAATAC CTCATTGCAA
    AATGCAATAA TAGTTGAACA GAGCTTAACT TTTAATGAGA CAAGTTCCAG CCTGTTTACT
    TTTTTCCTTC AAATGATACA TAACAACATC CTGGAGATTG GGAGCAGATA CTACTTACAG
    TGCTGTGGAA TTCCACAGGG CTCCATTTTG TCAACTTTAC TTTGCAGCTT ATGCTATGGA
    GACATGGAAA ACAAATTGCT CTGTGGAGTA CAGCAGGATG GAGTCCTAAT ACGTCTCATT
    GATGACTTTT TGCTGGTTAC GCCACATTTA ACACAGGCAA GAACTTTTCT AAGGACTCTA
    GCAACAGGTA TTCCTGAGTA TGGCTTTTTA ATAAACCCCA ATAAGACAGT CGTGAATTTT
    CCTGTTGATG ATATCCCAGG ATGTTCCAAA TTTAAACAGC TGCCAGATTG TCGTTTGATC
    CCGTGGTGTG GTTTATTATT AGATATACAG ACACTTGAGG TTTACTGCGA TTACTCCAGT
    TATACCTGCA CTTCTATCAG ATCAAGTCTT TCCTTCAATT CAAGTAGAAC AGCTGGGAAA
    AACATGAAAT ACAAACTGAT CACAGTCCTC AAACTGAAAT GCCATTGTTT ATTTCTTGAT
    TTACAGATCA ACAGCCTTAG AACAGTTTTC ATTAACATCT ACAAGATATT TTTACTTCAG
    GCTTACAGGT TCCATGCCTG TGTTCTCCAA CTTCCATTCA ACCAGCAAGT TAGAAACAAT
    CCTTATTTCT TCCTAAGGAT CATCTCTGAA ACTGCATCAT ATGGCTATTC TATCCTGAAA
    GCAAAAAATG CAGGGGTAAC TTTAGGTAAC AAAGGTGCAT CTGGCCTGTT CCCTTCTGAG
    GCAGCAGAAT GGCTCTGCTA CCATGCTTTC ACTGTCAAAC TGGCAAACCA CAAAGTTGTT
    TACAAATGCT TGCTTAAGCC CCTAAAAATC TGTAAGATGC GGCTATTCAA GAAGATCCCC
    AAGGATACTA TGGCACTACT GAAGACAGTG ACAGAACCGT CTCTTTGTCA AGATTTCAAA
    GCTATCCTGG ACTAG

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

    RefSeq XP_014794229.1
    CDS135..4169
    Translation

    Target ORF information:

    RefSeq Version XM_014938743.1
    Organism Calidris pugnax(ruff)
    Definition Calidris pugnax telomerase reverse transcriptase (TERT), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014938743.1

    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
    ATGGCGGGCG CGGAGCCCTT CGCGGCGGTG CTGGCCGCCC TGCGCGGCTG CTACGCCGAG 
    GCCACCCCGC TGGAGACCTT CATCCGGCGG CTGCGGGAGA GCGGCGCCGG CGAGGCCGAG
    GTGCTGCGGG GCGACGACGC CCCCTCCTAC CGGACCTTCG TGAGGCAGTG CCTGGTGTGC
    GTCCCCCGCG GGGCCCGCGC CATCCCCCGG CCTTTAACCT TCCAGCAGGT AGGAGGCCGG
    GTGCCACTGA TGGTGGCCCG GCTCGCACCT GCCTCGGGCC CGAGGTCCGC CCGCCCCCCA
    CGGCCACCCG GCTGGCGGAG CGGGGCTTCC CCGTCGGCAG CGTTATCTAG TCAGAGTGAA
    GTCATCACAA GAGTTGTTCA GAGACTGTGT GAAAAAAGGA AGAAGAACAT CCTCGCATAT
    GGATACTCCT TACTGGATGA AAACAGTTCT CATTTCCAAA TCATGCCATC TTCAAATATA
    TACAGCTACC TACCCAATAC TGTGACTGAA ACCATTCGTA TCAGCGGCCT CTGGGAAACA
    CTGCTGAGCA GGATAGGGGA TGATGTGATG ATGTATTTAT TGGAACACTG TGCAATCTTT
    ATGCTGGTTC CCCCTAGTAA TTGTTACCAA GTTTGCGGGC AACCAGTTTA TGAACTTATT
    TCACATAATG TAGACTCACC CCCAGTGTTT GTTAAACAAA AGTTTTCGAA GCATAAACGT
    AGTAGCTTGC TTGACTATAT GCAAAAAAGA CTTACGTTTC ATAGACAGTA TCTTTCAAAG
    TTGCATTGGT GGAAACGCAG ACAAAGACTT GAAGCTAATG TCTCCAGCAT GGGAAATAAA
    AACATTAGCA AGACACAAAG CCTAGAGTCC AGTTGCCAGT ATTCTGCAAA AGTTGTTCCT
    AAAGCAAGCA AACAGATCAG AATGGTTAGC GAACATCTGG AAGAACAGAG TAGCTCCAGT
    TTATGTTTGT CAGCTACAGC ACCATCTTTA AAAAGGAAGC TTGATAGGGA ACAGCCTGAA
    ATTCCAGCTA AAAGAGCAAA AGTAGAGGAG AAAATGAGAG AGGAAAAGGC TTGTAATCTC
    ACTCTCGATG TAAACCAAAG CAGTTCCAAG AGATATGAAA CTGGGTATGT AGCATCACAT
    TCTGTAAGTT TCATTAAAGA AACGCACATT TCTCAAGGAA GTAACAGTGA TATGTCTGGT
    CCTTCTTTAG TGCACACGTC TCGTGACAGG AAGAAGTTTG TGGCAGGTGA AAGCTCTTTT
    CTGCAAATTG TTCAGAGTAA CAGACCTGTA AAGTCCAGCA TTGAAATGGA AGCAGAATCC
    CATAGGAAAG GAGTAGAGAT GCATGTGTAC CAACCTCAGT TGGATTCTGT ACAAATCAAA
    CCCACGGAGG GCATTTCTTC AGTTTGCCAG AGGCAGGAAA GTCCCTTAGC TCCTTTGGCA
    AAGAAGTTGC CAAATAAGCT CTTGCGTTCC GCAGTATGCA TTGACAGGAA GTTTCTTCTG
    TACTCCCACA GGAGTTTCCA AGAATGTTTT CCTAAATCAT TTCTATTGAA TCGCTTGCAG
    GGCTGTCAGG CAGGTGGAAG ACGGCTTGTA GAAGCTATAT TTTTAAGCCA AAATCTCTCA
    GAGCAAAAGC ATAACCAAAG TCAGCCACAT CACAACTGGA GAAAGAAGAA GCTGCCCAAA
    CGCTACTGGC AAATGAGACA TACATTTCAG AACCTGTTAA AGAACCATGG GAAGTGCCCT
    TACTTGGTTC TCTTGAAAAA AAATTGCCCT GTTTGGATAT CTCAAAGCAG TGTGAGAAAA
    ACTGAGCTGC CTTCTCAGGC AGCCTTGCCT GGGGAAGCGG AGGTTCACGA GCAAGCAGAA
    CAGTTTGGGA AAGAGCCTAC TAAGTGTGTG ACAAGCAGCA AATGTGAATC TGGTCACATT
    GACAATTTGG GCACTCCTCT TGCAAAATCT GTGCCTGGGG AGTCGGTGAG TGAGGAGCAA
    AGCCTGGGGG AGGTGTGTGA TGCCACCCTC AGGGATCTCC TGAGGCAGCA CAGCAGCCAC
    TGGCAGGTGT ATACCTTTGT GAGGGAGTGC CTGGAGCGGG TCATCCCTGC CGAGCTTTGG
    GGTTCAAACC ATAACAAGTG CCGGTTCTTA AAAAATGTGA AAGCGTTCAT TTCCATGGGG
    AAGTTTGCTA AGCTTTCGTT GCAGGAGTTG ATGTGGAAGA TGAGAGTGAA TGACTGCGTG
    TGGCTTCGTC TAGTCAAAGG TAGTGAAGGT GATCACTTTG TTCCTGCTCA TGAACATTGT
    TTCCGAGAAG AACTTTTGGC TAAATTCCTG TACTGGCTGA TGGATACCTA TGTTGTTGAG
    TTGCTCAGAT CATTTTTCTA TATCACTGAG ACCATGTTCC AGAAAAACAT GCTTTTCTAC
    TACCGAAAGT TTATCTGGGG CAAGTTACAG AACATTGGAA TTAGAAACCA TTTTGCCAAA
    GTACATCTAC GTGCTTTATC TTCAGAGGAG ATTGAAGCTG TCCGTCAAAA AAAATATGTT
    CCTATGGCAT CAAAACTCCG GTTCATTCCC AAAACGAATG GGTTAAGACC CATAGTAAAA
    ATGCATCACT ACAACACTCG GCTAAAAAAT CTATTTAGTG TCTTAAATTA TGAACGGACC
    ATAAACACCA GTTTTATCGG CTCTTCAGTG TTTGGGAAAG ATGATATCTA CAAGACATGG
    AAGAAGTTTG TTACAAAGGT TCTTGAATCA GGTGGTGAAA TTCCTCATTT CTACTATGTA
    AAGGCTGATG TGTCCAGGGC TTATGATACT ATTCCTCATG ATAAACTTGT GGAAGTGATT
    TCACGGATCT TAAACCCTGA GAAAAGAACT GTCTACTGCA TACGGCGCTA TGCTGTGATT
    ATGATTACCA CAAGTGGAAA AGCCAGGAGG TTCTATAGGA GACATGTTTC TACTTTCAAG
    GATTTTATGC CAGACATGAA GCAGTTTGTG TGTCAGCTTC AGGAGAATAC CTCATTGCAA
    AATGCAATAA TAGTTGAACA GAGCTTAACT TTTAATGAGA CAAGTTCCAG CCTGTTTACT
    TTTTTCCTTC AAATGATACA TAACAACATC CTGGAGATTG GGAGCAGATA CTACTTACAG
    TGCTGTGGAA TTCCACAGGG CTCCATTTTG TCAACTTTAC TTTGCAGCTT ATGCTATGGA
    GACATGGAAA ACAAATTGCT CTGTGGAGTA CAGCAGGATG GAGTCCTAAT ACGTCTCATT
    GATGACTTTT TGCTGGTTAC GCCACATTTA ACACAGGCAA GAACTTTTCT AAGGACTCTA
    GCAACAGGTA TTCCTGAGTA TGGCTTTTTA ATAAACCCCA ATAAGACAGT CGTGAATTTT
    CCTGTTGATG ATATCCCAGG ATGTTCCAAA TTTAAACAGC TGCCAGATTG TCGTTTGATC
    CCGTGGTGTG GTTTATTATT AGATATACAG ACACTTGAGG TTTACTGCGA TTACTCCAGT
    TATACCTGCA CTTCTATCAG ATCAAGTCTT TCCTTCAATT CAAGTAGAAC AGCTGGGAAA
    AACATGAAAT ACAAACTGAT CACAGTCCTC AAACTGAAAT GCCATTGTTT ATTTCTTGAT
    TTACAGATCA ACAGCCTTAG AACAGTTTTC ATTAACATCT ACAAGATATT TTTACTTCAG
    GCTTACAGGT TCCATGCCTG TGTTCTCCAA CTTCCATTCA ACCAGCAAGT TAGAAACAAT
    CCTTATTTCT TCCTAAGGAT CATCTCTGAA ACTGCATCAT ATGGCTATTC TATCCTGAAA
    GCAAAAAATG CAGGGGTAAC TTTAGGTAAC AAAGGTGCAT CTGGCCTGTT CCCTTCTGAG
    GCAGCAGAAT GGCTCTGCTA CCATGCTTTC ACTGTCAAAC TGGCAAACCA CAAAGTTGTT
    TACAAATGCT TGCTTAAGCC CCTAAAAATC TGTAAGATGC GGCTATTCAA GAAGATCCCC
    AAGGATACTA TGGCACTACT GAAGACAGTG ACAGAACCGT CTCTTTGTCA AGATTTCAAA
    GCTATCCTGG ACTAG

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

    CloneID OCa62673
    Clone ID Related Accession (Same CDS sequence) XM_014938744.1
    Accession Version XM_014938744.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3975bp)
    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 2015-12-08
    Organism Calidris pugnax(ruff)
    Product telomerase reverse transcriptase isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_015090810.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Calidris pugnax Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGCGGGCG CGGAGCCCTT CGCGGCGGTG CTGGCCGCCC TGCGCGGCTG CTACGCCGAG 
    GCCACCCCGC TGGAGACCTT CATCCGGCGG CTGCGGGAGA GCGGCGCCGG CGAGGCCGAG
    GTGCTGCGGG GCGACGACGC CCCCTCCTAC CGGACCTTCG TGAGGCAGTG CCTGGTGTGC
    GTCCCCCGCG GGGCCCGCGC CATCCCCCGG CCTTTAACCT TCCAGCAGTT ATCTAGTCAG
    AGTGAAGTCA TCACAAGAGT TGTTCAGAGA CTGTGTGAAA AAAGGAAGAA GAACATCCTC
    GCATATGGAT ACTCCTTACT GGATGAAAAC AGTTCTCATT TCCAAATCAT GCCATCTTCA
    AATATATACA GCTACCTACC CAATACTGTG ACTGAAACCA TTCGTATCAG CGGCCTCTGG
    GAAACACTGC TGAGCAGGAT AGGGGATGAT GTGATGATGT ATTTATTGGA ACACTGTGCA
    ATCTTTATGC TGGTTCCCCC TAGTAATTGT TACCAAGTTT GCGGGCAACC AGTTTATGAA
    CTTATTTCAC ATAATGTAGA CTCACCCCCA GTGTTTGTTA AACAAAAGTT TTCGAAGCAT
    AAACGTAGTA GCTTGCTTGA CTATATGCAA AAAAGACTTA CGTTTCATAG ACAGTATCTT
    TCAAAGTTGC ATTGGTGGAA ACGCAGACAA AGACTTGAAG CTAATGTCTC CAGCATGGGA
    AATAAAAACA TTAGCAAGAC ACAAAGCCTA GAGTCCAGTT GCCAGTATTC TGCAAAAGTT
    GTTCCTAAAG CAAGCAAACA GATCAGAATG GTTAGCGAAC ATCTGGAAGA ACAGAGTAGC
    TCCAGTTTAT GTTTGTCAGC TACAGCACCA TCTTTAAAAA GGAAGCTTGA TAGGGAACAG
    CCTGAAATTC CAGCTAAAAG AGCAAAAGTA GAGGAGAAAA TGAGAGAGGA AAAGGCTTGT
    AATCTCACTC TCGATGTAAA CCAAAGCAGT TCCAAGAGAT ATGAAACTGG GTATGTAGCA
    TCACATTCTG TAAGTTTCAT TAAAGAAACG CACATTTCTC AAGGAAGTAA CAGTGATATG
    TCTGGTCCTT CTTTAGTGCA CACGTCTCGT GACAGGAAGA AGTTTGTGGC AGGTGAAAGC
    TCTTTTCTGC AAATTGTTCA GAGTAACAGA CCTGTAAAGT CCAGCATTGA AATGGAAGCA
    GAATCCCATA GGAAAGGAGT AGAGATGCAT GTGTACCAAC CTCAGTTGGA TTCTGTACAA
    ATCAAACCCA CGGAGGGCAT TTCTTCAGTT TGCCAGAGGC AGGAAAGTCC CTTAGCTCCT
    TTGGCAAAGA AGTTGCCAAA TAAGCTCTTG CGTTCCGCAG TATGCATTGA CAGGAAGTTT
    CTTCTGTACT CCCACAGGAG TTTCCAAGAA TGTTTTCCTA AATCATTTCT ATTGAATCGC
    TTGCAGGGCT GTCAGGCAGG TGGAAGACGG CTTGTAGAAG CTATATTTTT AAGCCAAAAT
    CTCTCAGAGC AAAAGCATAA CCAAAGTCAG CCACATCACA ACTGGAGAAA GAAGAAGCTG
    CCCAAACGCT ACTGGCAAAT GAGACATACA TTTCAGAACC TGTTAAAGAA CCATGGGAAG
    TGCCCTTACT TGGTTCTCTT GAAAAAAAAT TGCCCTGTTT GGATATCTCA AAGCAGTGTG
    AGAAAAACTG AGCTGCCTTC TCAGGCAGCC TTGCCTGGGG AAGCGGAGGT TCACGAGCAA
    GCAGAACAGT TTGGGAAAGA GCCTACTAAG TGTGTGACAA GCAGCAAATG TGAATCTGGT
    CACATTGACA ATTTGGGCAC TCCTCTTGCA AAATCTGTGC CTGGGGAGTC GGTGAGTGAG
    GAGCAAAGCC TGGGGGAGGT GTGTGATGCC ACCCTCAGGG ATCTCCTGAG GCAGCACAGC
    AGCCACTGGC AGGTGTATAC CTTTGTGAGG GAGTGCCTGG AGCGGGTCAT CCCTGCCGAG
    CTTTGGGGTT CAAACCATAA CAAGTGCCGG TTCTTAAAAA ATGTGAAAGC GTTCATTTCC
    ATGGGGAAGT TTGCTAAGCT TTCGTTGCAG GAGTTGATGT GGAAGATGAG AGTGAATGAC
    TGCGTGTGGC TTCGTCTAGT CAAAGGTAGT GAAGGTGATC ACTTTGTTCC TGCTCATGAA
    CATTGTTTCC GAGAAGAACT TTTGGCTAAA TTCCTGTACT GGCTGATGGA TACCTATGTT
    GTTGAGTTGC TCAGATCATT TTTCTATATC ACTGAGACCA TGTTCCAGAA AAACATGCTT
    TTCTACTACC GAAAGTTTAT CTGGGGCAAG TTACAGAACA TTGGAATTAG AAACCATTTT
    GCCAAAGTAC ATCTACGTGC TTTATCTTCA GAGGAGATTG AAGCTGTCCG TCAAAAAAAA
    TATGTTCCTA TGGCATCAAA ACTCCGGTTC ATTCCCAAAA CGAATGGGTT AAGACCCATA
    GTAAAAGTGA GCAGTGTGGT TGAAGCACGA GCATTCAGCA GGGAGAGCAG AGAAAAAAAG
    ATGCATCACT ACAACACTCG GCTAAAAAAT CTATTTAGTG TCTTAAATTA TGAACGGACC
    ATAAACACCA GTTTTATCGG CTCTTCAGTG TTTGGGAAAG ATGATATCTA CAAGACATGG
    AAGAAGTTTG TTACAAAGGT TCTTGAATCA GGTGGTGAAA TTCCTCATTT CTACTATGTA
    AAGGCTGATG TGTCCAGGGC TTATGATACT ATTCCTCATG ATAAACTTGT GGAAGTGATT
    TCACGGATCT TAAACCCTGA GAAAAGAACT GTCTACTGCA TACGGCGCTA TGCTGTGATT
    ATGATTACCA CAAGTGGAAA AGCCAGGAGG TTCTATAGGA GACATGTTTC TACTTTCAAG
    GATTTTATGC CAGACATGAA GCAGTTTGTG TGTCAGCTTC AGGAGAATAC CTCATTGCAA
    AATGCAATAA TAGTTGAACA GAGCTTAACT TTTAATGAGA CAAGTTCCAG CCTGTTTACT
    TTTTTCCTTC AAATGATACA TAACAACATC CTGGAGATTG GGAGCAGATA CTACTTACAG
    TGCTGTGGAA TTCCACAGGG CTCCATTTTG TCAACTTTAC TTTGCAGCTT ATGCTATGGA
    GACATGGAAA ACAAATTGCT CTGTGGAGTA CAGCAGGATG GAGTCCTAAT ACGTCTCATT
    GATGACTTTT TGCTGGTTAC GCCACATTTA ACACAGGCAA GAACTTTTCT AAGGACTCTA
    GCAACAGGTA TTCCTGAGTA TGGCTTTTTA ATAAACCCCA ATAAGACAGT CGTGAATTTT
    CCTGTTGATG ATATCCCAGG ATGTTCCAAA TTTAAACAGC TGCCAGATTG TCGTTTGATC
    CCGTGGTGTG GTTTATTATT AGATATACAG ACACTTGAGG TTTACTGCGA TTACTCCAGT
    TATACCTGCA CTTCTATCAG ATCAAGTCTT TCCTTCAATT CAAGTAGAAC AGCTGGGAAA
    AACATGAAAT ACAAACTGAT CACAGTCCTC AAACTGAAAT GCCATTGTTT ATTTCTTGAT
    TTACAGATCA ACAGCCTTAG AACAGTTTTC ATTAACATCT ACAAGATATT TTTACTTCAG
    GCTTACAGGT TCCATGCCTG TGTTCTCCAA CTTCCATTCA ACCAGCAAGT TAGAAACAAT
    CCTTATTTCT TCCTAAGGAT CATCTCTGAA ACTGCATCAT ATGGCTATTC TATCCTGAAA
    GCAAAAAATG CAGGGGTAAC TTTAGGTAAC AAAGGTGCAT CTGGCCTGTT CCCTTCTGAG
    GCAGCAGAAT GGCTCTGCTA CCATGCTTTC ACTGTCAAAC TGGCAAACCA CAAAGTTGTT
    TACAAATGCT TGCTTAAGCC CCTAAAAATC TGTAAGATGC GGCTATTCAA GAAGATCCCC
    AAGGATACTA TGGCACTACT GAAGACAGTG ACAGAACCGT CTCTTTGTCA AGATTTCAAA
    GCTATCCTGG ACTAG

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

    RefSeq XP_014794230.1
    CDS135..4109
    Translation

    Target ORF information:

    RefSeq Version XM_014938744.1
    Organism Calidris pugnax(ruff)
    Definition Calidris pugnax telomerase reverse transcriptase (TERT), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_014938744.1

    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
    ATGGCGGGCG CGGAGCCCTT CGCGGCGGTG CTGGCCGCCC TGCGCGGCTG CTACGCCGAG 
    GCCACCCCGC TGGAGACCTT CATCCGGCGG CTGCGGGAGA GCGGCGCCGG CGAGGCCGAG
    GTGCTGCGGG GCGACGACGC CCCCTCCTAC CGGACCTTCG TGAGGCAGTG CCTGGTGTGC
    GTCCCCCGCG GGGCCCGCGC CATCCCCCGG CCTTTAACCT TCCAGCAGTT ATCTAGTCAG
    AGTGAAGTCA TCACAAGAGT TGTTCAGAGA CTGTGTGAAA AAAGGAAGAA GAACATCCTC
    GCATATGGAT ACTCCTTACT GGATGAAAAC AGTTCTCATT TCCAAATCAT GCCATCTTCA
    AATATATACA GCTACCTACC CAATACTGTG ACTGAAACCA TTCGTATCAG CGGCCTCTGG
    GAAACACTGC TGAGCAGGAT AGGGGATGAT GTGATGATGT ATTTATTGGA ACACTGTGCA
    ATCTTTATGC TGGTTCCCCC TAGTAATTGT TACCAAGTTT GCGGGCAACC AGTTTATGAA
    CTTATTTCAC ATAATGTAGA CTCACCCCCA GTGTTTGTTA AACAAAAGTT TTCGAAGCAT
    AAACGTAGTA GCTTGCTTGA CTATATGCAA AAAAGACTTA CGTTTCATAG ACAGTATCTT
    TCAAAGTTGC ATTGGTGGAA ACGCAGACAA AGACTTGAAG CTAATGTCTC CAGCATGGGA
    AATAAAAACA TTAGCAAGAC ACAAAGCCTA GAGTCCAGTT GCCAGTATTC TGCAAAAGTT
    GTTCCTAAAG CAAGCAAACA GATCAGAATG GTTAGCGAAC ATCTGGAAGA ACAGAGTAGC
    TCCAGTTTAT GTTTGTCAGC TACAGCACCA TCTTTAAAAA GGAAGCTTGA TAGGGAACAG
    CCTGAAATTC CAGCTAAAAG AGCAAAAGTA GAGGAGAAAA TGAGAGAGGA AAAGGCTTGT
    AATCTCACTC TCGATGTAAA CCAAAGCAGT TCCAAGAGAT ATGAAACTGG GTATGTAGCA
    TCACATTCTG TAAGTTTCAT TAAAGAAACG CACATTTCTC AAGGAAGTAA CAGTGATATG
    TCTGGTCCTT CTTTAGTGCA CACGTCTCGT GACAGGAAGA AGTTTGTGGC AGGTGAAAGC
    TCTTTTCTGC AAATTGTTCA GAGTAACAGA CCTGTAAAGT CCAGCATTGA AATGGAAGCA
    GAATCCCATA GGAAAGGAGT AGAGATGCAT GTGTACCAAC CTCAGTTGGA TTCTGTACAA
    ATCAAACCCA CGGAGGGCAT TTCTTCAGTT TGCCAGAGGC AGGAAAGTCC CTTAGCTCCT
    TTGGCAAAGA AGTTGCCAAA TAAGCTCTTG CGTTCCGCAG TATGCATTGA CAGGAAGTTT
    CTTCTGTACT CCCACAGGAG TTTCCAAGAA TGTTTTCCTA AATCATTTCT ATTGAATCGC
    TTGCAGGGCT GTCAGGCAGG TGGAAGACGG CTTGTAGAAG CTATATTTTT AAGCCAAAAT
    CTCTCAGAGC AAAAGCATAA CCAAAGTCAG CCACATCACA ACTGGAGAAA GAAGAAGCTG
    CCCAAACGCT ACTGGCAAAT GAGACATACA TTTCAGAACC TGTTAAAGAA CCATGGGAAG
    TGCCCTTACT TGGTTCTCTT GAAAAAAAAT TGCCCTGTTT GGATATCTCA AAGCAGTGTG
    AGAAAAACTG AGCTGCCTTC TCAGGCAGCC TTGCCTGGGG AAGCGGAGGT TCACGAGCAA
    GCAGAACAGT TTGGGAAAGA GCCTACTAAG TGTGTGACAA GCAGCAAATG TGAATCTGGT
    CACATTGACA ATTTGGGCAC TCCTCTTGCA AAATCTGTGC CTGGGGAGTC GGTGAGTGAG
    GAGCAAAGCC TGGGGGAGGT GTGTGATGCC ACCCTCAGGG ATCTCCTGAG GCAGCACAGC
    AGCCACTGGC AGGTGTATAC CTTTGTGAGG GAGTGCCTGG AGCGGGTCAT CCCTGCCGAG
    CTTTGGGGTT CAAACCATAA CAAGTGCCGG TTCTTAAAAA ATGTGAAAGC GTTCATTTCC
    ATGGGGAAGT TTGCTAAGCT TTCGTTGCAG GAGTTGATGT GGAAGATGAG AGTGAATGAC
    TGCGTGTGGC TTCGTCTAGT CAAAGGTAGT GAAGGTGATC ACTTTGTTCC TGCTCATGAA
    CATTGTTTCC GAGAAGAACT TTTGGCTAAA TTCCTGTACT GGCTGATGGA TACCTATGTT
    GTTGAGTTGC TCAGATCATT TTTCTATATC ACTGAGACCA TGTTCCAGAA AAACATGCTT
    TTCTACTACC GAAAGTTTAT CTGGGGCAAG TTACAGAACA TTGGAATTAG AAACCATTTT
    GCCAAAGTAC ATCTACGTGC TTTATCTTCA GAGGAGATTG AAGCTGTCCG TCAAAAAAAA
    TATGTTCCTA TGGCATCAAA ACTCCGGTTC ATTCCCAAAA CGAATGGGTT AAGACCCATA
    GTAAAAGTGA GCAGTGTGGT TGAAGCACGA GCATTCAGCA GGGAGAGCAG AGAAAAAAAG
    ATGCATCACT ACAACACTCG GCTAAAAAAT CTATTTAGTG TCTTAAATTA TGAACGGACC
    ATAAACACCA GTTTTATCGG CTCTTCAGTG TTTGGGAAAG ATGATATCTA CAAGACATGG
    AAGAAGTTTG TTACAAAGGT TCTTGAATCA GGTGGTGAAA TTCCTCATTT CTACTATGTA
    AAGGCTGATG TGTCCAGGGC TTATGATACT ATTCCTCATG ATAAACTTGT GGAAGTGATT
    TCACGGATCT TAAACCCTGA GAAAAGAACT GTCTACTGCA TACGGCGCTA TGCTGTGATT
    ATGATTACCA CAAGTGGAAA AGCCAGGAGG TTCTATAGGA GACATGTTTC TACTTTCAAG
    GATTTTATGC CAGACATGAA GCAGTTTGTG TGTCAGCTTC AGGAGAATAC CTCATTGCAA
    AATGCAATAA TAGTTGAACA GAGCTTAACT TTTAATGAGA CAAGTTCCAG CCTGTTTACT
    TTTTTCCTTC AAATGATACA TAACAACATC CTGGAGATTG GGAGCAGATA CTACTTACAG
    TGCTGTGGAA TTCCACAGGG CTCCATTTTG TCAACTTTAC TTTGCAGCTT ATGCTATGGA
    GACATGGAAA ACAAATTGCT CTGTGGAGTA CAGCAGGATG GAGTCCTAAT ACGTCTCATT
    GATGACTTTT TGCTGGTTAC GCCACATTTA ACACAGGCAA GAACTTTTCT AAGGACTCTA
    GCAACAGGTA TTCCTGAGTA TGGCTTTTTA ATAAACCCCA ATAAGACAGT CGTGAATTTT
    CCTGTTGATG ATATCCCAGG ATGTTCCAAA TTTAAACAGC TGCCAGATTG TCGTTTGATC
    CCGTGGTGTG GTTTATTATT AGATATACAG ACACTTGAGG TTTACTGCGA TTACTCCAGT
    TATACCTGCA CTTCTATCAG ATCAAGTCTT TCCTTCAATT CAAGTAGAAC AGCTGGGAAA
    AACATGAAAT ACAAACTGAT CACAGTCCTC AAACTGAAAT GCCATTGTTT ATTTCTTGAT
    TTACAGATCA ACAGCCTTAG AACAGTTTTC ATTAACATCT ACAAGATATT TTTACTTCAG
    GCTTACAGGT TCCATGCCTG TGTTCTCCAA CTTCCATTCA ACCAGCAAGT TAGAAACAAT
    CCTTATTTCT TCCTAAGGAT CATCTCTGAA ACTGCATCAT ATGGCTATTC TATCCTGAAA
    GCAAAAAATG CAGGGGTAAC TTTAGGTAAC AAAGGTGCAT CTGGCCTGTT CCCTTCTGAG
    GCAGCAGAAT GGCTCTGCTA CCATGCTTTC ACTGTCAAAC TGGCAAACCA CAAAGTTGTT
    TACAAATGCT TGCTTAAGCC CCTAAAAATC TGTAAGATGC GGCTATTCAA GAAGATCCCC
    AAGGATACTA TGGCACTACT GAAGACAGTG ACAGAACCGT CTCTTTGTCA AGATTTCAAA
    GCTATCCTGG ACTAG

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

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