Ctc1 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Ctc1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Ctc1 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
ORa33312 XM_006246700.1
Latest version!
Rattus norvegicus CTS telomere maintenance complex component 1 (Ctc1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 12-14 $475.30
$679.00
ORa02726 NM_001107010.1
Latest version!
Rattus norvegicus CST telomere replication complex component 1 (Ctc1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00
ORa33311 XM_006246699.3
Latest version!
Rattus norvegicus CTS telomere maintenance complex component 1 (Ctc1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 20 $643.30
$919.00

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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 ORa33312
    Clone ID Related Accession (Same CDS sequence) XM_006246700.1
    Accession Version XM_006246700.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 2931bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product CST complex subunit CTC1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005109.4) 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 :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    ATGGTAACTC AGAACAAAAG GTACTTCATC ATGACACTTG GTGAATTAGC CCAAGCTGGC 
    AGCCAGGTGT CCGTCATTGT CCAGATTCCT GCTCAGATGG TGTGGCACCG AGTCCTCCGG
    CCTGGTAGGG CCTATGTGCT GACAAAATTG CGAATAACCA AGACCCGGGG TCACCGTTCC
    TGTATTTGGA CAACCATTCC ATCTTCAACT CTGATGCCAC TGAGACCAGG CTATGTGCAA
    GAGCTGGAGC TGGACGTAGC GTTTGCAGAC GCTGGCCATA AACCGCTGCC CGAGCCCACC
    AGCTCCAGAG ACAGCAGAGG CCAAGAGGGG CTTGTCCGAG GTTCCAAAGT CTTGCATTAT
    TTGGGAACAG TCACTGACGT GTTGAACGAG TCTGCCAGCC TCTACATTCT TGATGGGCAG
    CTGATTCTCT GCCTTGCATA CCAGAAGATC CATGGCCTCA GGCGGGTTAT TCGACCAGGG
    GTCTGTCTGG AGCTCCGTGA TGTTCATCTC CTCCAGGGCC TGGGTGGAGG AACAACAAAA
    CCTGTGCTGG CCCTTTGTCT CCATGGCACT GTTCGCCTGC AAGGCTTTTC TTGTCTTAAG
    CCTCAGAACT TGCCGTCCTA CAAAGTTCAT GGTGCCTCCT TGTATGAGCA ATTGGTGTGG
    AAATGTCAGT TAGGACTTCC CTTATACTTA TGGGCTACCA AGGCCCTGGA GGAGCTGGTC
    TACAAGCTCT GTCCCCATGT GTTGAGATGT CAACAGTTCC TGAAGCACTC CTCTCCTGGG
    AAGCCCAGCT TGGGACTGCA GCTCCTGGCT CCCTCCTGGG ATGTTCTTAT TCCACCTGGC
    AGCCCCATTC GGCATGCACA CAGTGAGATC CTGGAAGAAC CACATAACTG TCCCCTTCAG
    AAGTATACTC CGCTGCAGAC CCCCTACACT TTCCCTACTA TACTTGCCCT GGCAGAGGAA
    GGGCAGCACA GGGCTTGGGC TACCTTTGAC CCAAGGGCCC TGCTGCCTTT CCCAGAAGCC
    TTTCACCTGA CAAGCTGTCA ACTGAATCGT CGCCTAGCCT GGTCCTGGCT CTGTCTGCCA
    TCCAGTATGT TCCAGCCAGC CCCGGTTTTA CTTGGGGTCC TGGTGGCTTC GTCTCATAAA
    GGTTGTCTGC AGCTTCGGGA CGTAAGAGGT TCACTGCCCT GTATACCCTT GCCTGAGAGT
    TCACAGCCCC TCATTGACCC AAAGCTCATA GGCTGCCTGG TGCGGGTAGA GAAATTCCAG
    CTGGTAGTAG AGAGAGAAGT CAGGAGCAGC TTCCCTTCCT GGGAGGAGCT GGGCATGGCA
    AGCCTCATCC AGAAGAAGCA GGCCAGAGTC TATGTCCAGT TCTACCTGGC TGATGCCCTG
    ATCCTGCCTG TGCCCAGACC CACTGTTGGT TTAGAACCAT CTGAGACAGC CTCCTCCTGC
    CCAGAGGGAC CCCAGGTGGG ACAGAGCCGG CTGTTCTTAC TGTTCTACAA GGAGGCCCTC
    ATGAAACGTA ACTTTTGTCT CCTTCCGGGA GATAGTTCAC GACCTGCAGA GCCCACCCTG
    AGTTTCCGTG TGTCAGGAAC TTGGCTTTGT GGCACACAGA AGAGGGAGGG TTCTGGATGG
    AGCCCACCTG AGTCTCTGGC CGCAGAGAAC AAGGACCAAA AGGTCTTCTT CATCTTCCTT
    GGCTCTTCAG TTCAGTGGTT TCCGTTCTTG TACCCAAACC AAGTCTACCG GCTCGTGGCT
    CCTGACTCAC AGACACCAGC GTTGTTTGAG ACAAACCATT CATCTGGCAC ACCTCACCGT
    CCTCTGGAAT TGACTGACTA TGTGTCTTGC CTCACTATCC AAGAGGACTG GACCCTGGAA
    CTTGGGAGCT CTCAGGACAT ACCTAATGTA CTAGAGGTCC CTAGAACACT GTCTGAGTCC
    TCACTGGCTC ACCTGCTCAG TGACAACTCC CCCAATTTCT TGGTGTCTTT CTCTGCTGAG
    GTTTTGTCTC GGATACTGTG TGAACCACCT CTGGCCCTTC GCAGGATAAA ACCTGGGAAT
    GCTGGGGCTA TTAAAGCAGG TGTGAAGCTA ACAGTAGCTC TAGAAATGGA GGACTGTGAC
    TATCCCCCTC ACCTGGACAT ATATATCGAA GATCCACACT TGCCTCCCCC AATAGGACTC
    CTTCCAGGAG CCCGAGTCCA CTTTAGCCAG CTGGAGAAAA AGATTTCCAG ATCCAACGTT
    GTTTACTGTT GCTTCCGGTC AACCACTTCT GTGCAGGTCC TGAGCTTCCC CCCAGAGACC
    AAAGCCAGTG CTCCCTTGCC CCACATCTGC CTGGCTGAAC TTCTCCAAGG TGACCGGCCT
    CCCTTCCAGG CCACTACCTC TTGCCATATT GTGTATGTCC TGAGCCTTCA GATCCTGTGG
    GTGTGTGCCC ATTGCACCAG CATCTGTCCC CAGGGGAAGT GTAGTCGTCA GGACCCCAGT
    TGTCCATCTC AGAGGGCTAT AAGCCAGGCC AGCATCAGGC TCCTGGTAGA AGATGGCACC
    GCAGAAGCCA CAGTGACCTG TAGGAATCAT CATGTGGCAA CAACACTAGG ACTGAGTCCT
    AGTGAGTGGT CCAATGTCCT AGATCGTGCA AGGGGGCCAG GGAGAGTGGC CTTGCAGTTT
    AAAGGGCCAG GAGCCCAAAC AGAGTCTGCA AGCAAAACCG GTGAACCCTT GACCCTGCTC
    CTCCAGACAC TTTGTACCAG CCCCTTTGTC CTCCGACCCA TTAAGCTTTC CTTTGCGCTT
    GAAAGGAGAC CTTGTGATAT TACCCCAATA GAACCACCCC GGCTGCAGCA GTTCCAGTGT
    GGAGAGCTCC CTCTGCTGAC CAGAGTGAAT CCCAGGCTCC GATTGGTCTG CCTTTCTCTG
    CAGGAGCCAG AGCTCCCCAG CCCTCCACAA GCTTCTGCTG CTGCTTCTTA A

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

    RefSeq XP_006246762.1
    CDS152..3082
    Translation

    Target ORF information:

    RefSeq Version XM_006246700.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus CTS telomere maintenance complex component 1 (Ctc1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006246700.1

    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
    ATGGTAACTC AGAACAAAAG GTACTTCATC ATGACACTTG GTGAATTAGC CCAAGCTGGC 
    AGCCAGGTGT CCGTCATTGT CCAGATTCCT GCTCAGATGG TGTGGCACCG AGTCCTCCGG
    CCTGGTAGGG CCTATGTGCT GACAAAATTG CGAATAACCA AGACCCGGGG TCACCGTTCC
    TGTATTTGGA CAACCATTCC ATCTTCAACT CTGATGCCAC TGAGACCAGG CTATGTGCAA
    GAGCTGGAGC TGGACGTAGC GTTTGCAGAC GCTGGCCATA AACCGCTGCC CGAGCCCACC
    AGCTCCAGAG ACAGCAGAGG CCAAGAGGGG CTTGTCCGAG GTTCCAAAGT CTTGCATTAT
    TTGGGAACAG TCACTGACGT GTTGAACGAG TCTGCCAGCC TCTACATTCT TGATGGGCAG
    CTGATTCTCT GCCTTGCATA CCAGAAGATC CATGGCCTCA GGCGGGTTAT TCGACCAGGG
    GTCTGTCTGG AGCTCCGTGA TGTTCATCTC CTCCAGGGCC TGGGTGGAGG AACAACAAAA
    CCTGTGCTGG CCCTTTGTCT CCATGGCACT GTTCGCCTGC AAGGCTTTTC TTGTCTTAAG
    CCTCAGAACT TGCCGTCCTA CAAAGTTCAT GGTGCCTCCT TGTATGAGCA ATTGGTGTGG
    AAATGTCAGT TAGGACTTCC CTTATACTTA TGGGCTACCA AGGCCCTGGA GGAGCTGGTC
    TACAAGCTCT GTCCCCATGT GTTGAGATGT CAACAGTTCC TGAAGCACTC CTCTCCTGGG
    AAGCCCAGCT TGGGACTGCA GCTCCTGGCT CCCTCCTGGG ATGTTCTTAT TCCACCTGGC
    AGCCCCATTC GGCATGCACA CAGTGAGATC CTGGAAGAAC CACATAACTG TCCCCTTCAG
    AAGTATACTC CGCTGCAGAC CCCCTACACT TTCCCTACTA TACTTGCCCT GGCAGAGGAA
    GGGCAGCACA GGGCTTGGGC TACCTTTGAC CCAAGGGCCC TGCTGCCTTT CCCAGAAGCC
    TTTCACCTGA CAAGCTGTCA ACTGAATCGT CGCCTAGCCT GGTCCTGGCT CTGTCTGCCA
    TCCAGTATGT TCCAGCCAGC CCCGGTTTTA CTTGGGGTCC TGGTGGCTTC GTCTCATAAA
    GGTTGTCTGC AGCTTCGGGA CGTAAGAGGT TCACTGCCCT GTATACCCTT GCCTGAGAGT
    TCACAGCCCC TCATTGACCC AAAGCTCATA GGCTGCCTGG TGCGGGTAGA GAAATTCCAG
    CTGGTAGTAG AGAGAGAAGT CAGGAGCAGC TTCCCTTCCT GGGAGGAGCT GGGCATGGCA
    AGCCTCATCC AGAAGAAGCA GGCCAGAGTC TATGTCCAGT TCTACCTGGC TGATGCCCTG
    ATCCTGCCTG TGCCCAGACC CACTGTTGGT TTAGAACCAT CTGAGACAGC CTCCTCCTGC
    CCAGAGGGAC CCCAGGTGGG ACAGAGCCGG CTGTTCTTAC TGTTCTACAA GGAGGCCCTC
    ATGAAACGTA ACTTTTGTCT CCTTCCGGGA GATAGTTCAC GACCTGCAGA GCCCACCCTG
    AGTTTCCGTG TGTCAGGAAC TTGGCTTTGT GGCACACAGA AGAGGGAGGG TTCTGGATGG
    AGCCCACCTG AGTCTCTGGC CGCAGAGAAC AAGGACCAAA AGGTCTTCTT CATCTTCCTT
    GGCTCTTCAG TTCAGTGGTT TCCGTTCTTG TACCCAAACC AAGTCTACCG GCTCGTGGCT
    CCTGACTCAC AGACACCAGC GTTGTTTGAG ACAAACCATT CATCTGGCAC ACCTCACCGT
    CCTCTGGAAT TGACTGACTA TGTGTCTTGC CTCACTATCC AAGAGGACTG GACCCTGGAA
    CTTGGGAGCT CTCAGGACAT ACCTAATGTA CTAGAGGTCC CTAGAACACT GTCTGAGTCC
    TCACTGGCTC ACCTGCTCAG TGACAACTCC CCCAATTTCT TGGTGTCTTT CTCTGCTGAG
    GTTTTGTCTC GGATACTGTG TGAACCACCT CTGGCCCTTC GCAGGATAAA ACCTGGGAAT
    GCTGGGGCTA TTAAAGCAGG TGTGAAGCTA ACAGTAGCTC TAGAAATGGA GGACTGTGAC
    TATCCCCCTC ACCTGGACAT ATATATCGAA GATCCACACT TGCCTCCCCC AATAGGACTC
    CTTCCAGGAG CCCGAGTCCA CTTTAGCCAG CTGGAGAAAA AGATTTCCAG ATCCAACGTT
    GTTTACTGTT GCTTCCGGTC AACCACTTCT GTGCAGGTCC TGAGCTTCCC CCCAGAGACC
    AAAGCCAGTG CTCCCTTGCC CCACATCTGC CTGGCTGAAC TTCTCCAAGG TGACCGGCCT
    CCCTTCCAGG CCACTACCTC TTGCCATATT GTGTATGTCC TGAGCCTTCA GATCCTGTGG
    GTGTGTGCCC ATTGCACCAG CATCTGTCCC CAGGGGAAGT GTAGTCGTCA GGACCCCAGT
    TGTCCATCTC AGAGGGCTAT AAGCCAGGCC AGCATCAGGC TCCTGGTAGA AGATGGCACC
    GCAGAAGCCA CAGTGACCTG TAGGAATCAT CATGTGGCAA CAACACTAGG ACTGAGTCCT
    AGTGAGTGGT CCAATGTCCT AGATCGTGCA AGGGGGCCAG GGAGAGTGGC CTTGCAGTTT
    AAAGGGCCAG GAGCCCAAAC AGAGTCTGCA AGCAAAACCG GTGAACCCTT GACCCTGCTC
    CTCCAGACAC TTTGTACCAG CCCCTTTGTC CTCCGACCCA TTAAGCTTTC CTTTGCGCTT
    GAAAGGAGAC CTTGTGATAT TACCCCAATA GAACCACCCC GGCTGCAGCA GTTCCAGTGT
    GGAGAGCTCC CTCTGCTGAC CAGAGTGAAT CCCAGGCTCC GATTGGTCTG CCTTTCTCTG
    CAGGAGCCAG AGCTCCCCAG CCCTCCACAA GCTTCTGCTG CTGCTTCTTA A

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

    CloneID ORa02726
    Clone ID Related Accession (Same CDS sequence) NM_001107010.1
    Accession Version NM_001107010.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3636bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2018-05-27
    Organism Rattus norvegicus(Norway rat)
    Product CST complex subunit CTC1
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from CH473948.1. On or before Oct 4, 2007 this sequence version replaced XM_220595.4, XM_001078525.1. ##Evidence-Data-START## RNAseq introns :: single sample supports all introns SAMD00052296, SAMD00052297 [ECO:0000348] ##Evidence-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    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
    ATGGCTGCTT GCCGAGCACA ACCACCTACC TCCGAGGAAG CCTGGCTTGA GGCTGCCCAG 
    GCCTTCATCC AAGAGACCCT TTGTCCAGTG GACGAGGAGC CTAATGAACA GGTGACTCGC
    TCAGTAATTG ACTGTGTGAA GGAGACATGG CTGTCCCAGG GGGAGAACCA GGACTTAACC
    TTGCCCCTCA GCTACAGCTT TGTCTCAGTA CAGAATCTGA AGACGAATCA GCATCTCCCA
    TGCTGCAGCC ACCTGTCCTG GAGTGACAAT GCTTACCAGG CTTGGACCCG AGGAGCTGGG
    CCAGGAGGCA GTGTCCTGCC CCGGGAACAG CTGTTACTTT TAGGGACACT AGTAGACCTA
    TTAGGAGATT TGGAACAAGA GTCTAGGAGT GGAGGCCTGT ATGTGAGAGA TAACACTGGA
    ACCTTGGACT GTGAGCTTAT AGATCTAGAC CTTTCTTGGT TGGGCCATCT CTTCCTGTTC
    CCCAGTTGGA GTTACCTCCC TCCCGCCAAG AGGAATTCCT TGGGGGCAGG GCACTTGGAG
    CTGTGGGGTA CACCTGTGCC AGTATTTCCT TTGACTGTCA GTCCTGGCCC CCTCACGCCT
    ATCCCTGTCC TCTACCCAGA AAAGGCGTCC TACCTGCTCA GATACAGAAA GAAATGCAAA
    ATAAAGGAGC TAAATCTTGC TGGAAAACTG GTCCATCTGA GTGCCCTGAT GGTAACTCAG
    AACAAAAGGT ACTTCATCAT GACACTTGGT GAATTAGCCC AAGCTGGCAG CCAGGTGTCC
    GTCATTGTCC AGATTCCTGC TCAGATGGTG TGGCACCGAG TCCTCCGGCC TGGTAGGGCC
    TATGTGCTGA CAAAATTGCG AATAACCAAG ACCCGGGGTC ACCGTTCCTG TATTTGGACA
    ACCATTCCAT CTTCAACTCT GATGCCACTG AGACCAGGCT ATGTGCAAGA GCTGGAGCTG
    GACGTAGCGT TTGCAGACGC TGGCCATAAA CCGCTGCCCG AGCCCACCAG CTCCAGAGAC
    AGCAGAGGCC AAGAGGGGCT TGTCCGAGGT TCCAAAGTCT TGCATTATTT GGGAACAGTC
    ACTGACGTGT TGAACGAGTC TGCCAGCCTC TACATTCTTG ATGGGCAGCT GATTCTCTGC
    CTTGCATACC AGAAGATCCA TGGCCTCAGG CGGGTTATTC GACCAGGGGT CTGTCTGGAG
    CTCCGTGATG TTCATCTCCT CCAGGGCCTG GGTGGAGGAA CAACAAAACC TGTGCTGGCC
    CTTTGTCTCC ATGGCACTGT TCGCCTGCAA GGCTTTTCTT GTCTTAAGCC TCAGAACTTG
    CCGTCCTACA AAGTTCATGG TGCCTCCTTG TATGAGCAAT TGGTGTGGAA ATGTCAGTTA
    GGACTTCCCT TATACTTATG GGCTACCAAG GCCCTGGAGG AGCTGGTCTA CAAGCTCTGT
    CCCCATGTGT TGAGATGTCA ACAGTTCCTG AAGCACTCCT CTCCTGGGAA GCCCAGCTTG
    GGACTGCAGC TCCTGGCTCC CTCCTGGGAT GTTCTTATTC CACCTGGCAG CCCCATTCGG
    CATGCACACA GTGAGATCCT GGAAGAACCA CATAACTGTC CCCTTCAGAA GTATACTCCG
    CTGCAGACCC CCTACACTTT CCCTACTATA CTTGCCCTGG CAGAGGAAGG GCAGCACAGG
    GCTTGGGCTA CCTTTGACCC AAGGGCCCTG CTGCCTTTCC CAGAAGCCTT TCACCTGACA
    AGCTGTCAAC TGAATCGTCG CCTAGCCTGG TCCTGGCTCT GTCTGCCATC CAGTATGTTC
    CAGCCAGCCC CGGTTTTACT TGGGGTCCTG GTGGCTTCGT CTCATAAAGG TTGTCTGCAG
    CTTCGGGACG TAAGAGGTTC ACTGCCCTGT ATACCCTTGC CTGAGAGTTC ACAGCCCCTC
    ATTGACCCAA AGCTCATAGG CTGCCTGGTG CGGGTAGAGA AATTCCAGCT GGTAGTAGAG
    AGAGAAGTCA GGAGCAGCTT CCCTTCCTGG GAGGAGCTGG GCATGGCAAG CCTCATCCAG
    AAGAAGCAGG CCAGAGTCTA TGTCCAGTTC TACCTGGCTG ATGCCCTGAT CCTGCCTGTG
    CCCAGACCCA CTGTTGGTTT AGAACCATCT GAGACAGCCT CCTCCTGCCC AGAGGGACCC
    CAGGTGGGAC AGAGCCGGCT GTTCTTACTG TTCTACAAGG AGGCCCTCAT GAAACGTAAC
    TTTTGTCTCC TTCCGGGAGA TAGTTCACGA CCTGCAGAGC CCACCCTGAG TTTCCGTGTG
    TCAGGAACTT GGCTTTGTGG CACACAGAAG AGGGAGGGTT CTGGATGGAG CCCACCTGAG
    TCTCTGGCCG CAGAGAACAA GGACCAAAAG GTCTTCTTCA TCTTCCTTGG CTCTTCAGTT
    CAGTGGTTTC CGTTCTTGTA CCCAAACCAA GTCTACCGGC TCGTGGCTCC TGACTCAACA
    CCAGCGTTGT TTGAGACAAA CCATTCATCT GGCACACCTC ACCGTCCTCT GGAATTGACT
    GACTATGTGT CTTGCCTCAC TATCCAAGAG GACTGGACCC TGGAACTTGG GAGCTCTCAG
    GACATACCTA ATGTACTAGA GGTCCCTAGA ACACTGTCTG AGTCCTCACT GGCTCACCTG
    CTCAGTGACA ACTCCCCCAA TTTCTTGGTG TCTTTCTCTG CTGAGGTTTT GTCTCGGATA
    CTGTGTGAAC CACCTCTGGC CCTTCGCAGG ATAAAACCTG GGAATGCTGG GGCTATTAAA
    GCAGGTGTGA AGCTAACAGT AGCTCTAGAA ATGGAGGACT GTGACTATCC CCCTCACCTG
    GACATATATA TCGAAGATCC ACACTTGCCT CCCCCAATAG GACTCCTTCC AGGAGCCCGA
    GTCCACTTTA GCCAGCTGGA GAAAAAGATT TCCAGATCCA ACGTTGTTTA CTGTTGCTTC
    CGGTCAACCA CTTCTGTGCA GGTCCTGAGC TTCCCCCCAG AGACCAAAGC CAGTGCTCCC
    TTGCCCCACA TCTGCCTGGC TGAACTTCTC CAAGGTGACC GGCCTCCCTT CCAGGCCACT
    ACCTCTTGCC ATATTGTGTA TGTCCTGAGC CTTCAGATCC TGTGGGTGTG TGCCCATTGC
    ACCAGCATCT GTCCCCAGGG GAAGTGTAGT CGTCAGGACC CCAGTTGTCC ATCTCAGAGG
    GCTATAAGCC AGGCCAGCAT CAGGCTCCTG GTAGAAGATG GCACCGCAGA AGCCACAGTG
    ACCTGTAGGA ATCATCATGT GGCAACAACA CTAGGACTGA GTCCTAGTGA GTGGTCCAAT
    GTCCTAGATC GTGCAAGGGG GCCAGGGAGA GTGGCCTTGC AGTTTAAAGG GCCAGGAGCC
    CAAACAGAGT CTGCAAGCAA AACCGGTGAA CCCTTGACCC TGCTCCTCCA GACACTTTGT
    ACCAGCCCCT TTGTCCTCCG ACCCATTAAG CTTTCCTTTG CGCTTGAAAG GAGACCTTGT
    GATATTACCC CAATAGAACC ACCCCGGCTG CAGCAGTTCC AGTGTGGAGA GCTCCCTCTG
    CTGACCAGAG TGAATCCCAG GCTCCGATTG GTCTGCCTTT CTCTGCAGGA GCCAGAGCTC
    CCCAGCCCTC CACAAGCTTC TGCTGCTGCT TCTTAA

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

    RefSeq NP_001100480.1
    CDS221..3856
    Translation

    Target ORF information:

    RefSeq Version NM_001107010.1
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus CST telomere replication complex component 1 (Ctc1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001107010.1

    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
    ATGGCTGCTT GCCGAGCACA ACCACCTACC TCCGAGGAAG CCTGGCTTGA GGCTGCCCAG 
    GCCTTCATCC AAGAGACCCT TTGTCCAGTG GACGAGGAGC CTAATGAACA GGTGACTCGC
    TCAGTAATTG ACTGTGTGAA GGAGACATGG CTGTCCCAGG GGGAGAACCA GGACTTAACC
    TTGCCCCTCA GCTACAGCTT TGTCTCAGTA CAGAATCTGA AGACGAATCA GCATCTCCCA
    TGCTGCAGCC ACCTGTCCTG GAGTGACAAT GCTTACCAGG CTTGGACCCG AGGAGCTGGG
    CCAGGAGGCA GTGTCCTGCC CCGGGAACAG CTGTTACTTT TAGGGACACT AGTAGACCTA
    TTAGGAGATT TGGAACAAGA GTCTAGGAGT GGAGGCCTGT ATGTGAGAGA TAACACTGGA
    ACCTTGGACT GTGAGCTTAT AGATCTAGAC CTTTCTTGGT TGGGCCATCT CTTCCTGTTC
    CCCAGTTGGA GTTACCTCCC TCCCGCCAAG AGGAATTCCT TGGGGGCAGG GCACTTGGAG
    CTGTGGGGTA CACCTGTGCC AGTATTTCCT TTGACTGTCA GTCCTGGCCC CCTCACGCCT
    ATCCCTGTCC TCTACCCAGA AAAGGCGTCC TACCTGCTCA GATACAGAAA GAAATGCAAA
    ATAAAGGAGC TAAATCTTGC TGGAAAACTG GTCCATCTGA GTGCCCTGAT GGTAACTCAG
    AACAAAAGGT ACTTCATCAT GACACTTGGT GAATTAGCCC AAGCTGGCAG CCAGGTGTCC
    GTCATTGTCC AGATTCCTGC TCAGATGGTG TGGCACCGAG TCCTCCGGCC TGGTAGGGCC
    TATGTGCTGA CAAAATTGCG AATAACCAAG ACCCGGGGTC ACCGTTCCTG TATTTGGACA
    ACCATTCCAT CTTCAACTCT GATGCCACTG AGACCAGGCT ATGTGCAAGA GCTGGAGCTG
    GACGTAGCGT TTGCAGACGC TGGCCATAAA CCGCTGCCCG AGCCCACCAG CTCCAGAGAC
    AGCAGAGGCC AAGAGGGGCT TGTCCGAGGT TCCAAAGTCT TGCATTATTT GGGAACAGTC
    ACTGACGTGT TGAACGAGTC TGCCAGCCTC TACATTCTTG ATGGGCAGCT GATTCTCTGC
    CTTGCATACC AGAAGATCCA TGGCCTCAGG CGGGTTATTC GACCAGGGGT CTGTCTGGAG
    CTCCGTGATG TTCATCTCCT CCAGGGCCTG GGTGGAGGAA CAACAAAACC TGTGCTGGCC
    CTTTGTCTCC ATGGCACTGT TCGCCTGCAA GGCTTTTCTT GTCTTAAGCC TCAGAACTTG
    CCGTCCTACA AAGTTCATGG TGCCTCCTTG TATGAGCAAT TGGTGTGGAA ATGTCAGTTA
    GGACTTCCCT TATACTTATG GGCTACCAAG GCCCTGGAGG AGCTGGTCTA CAAGCTCTGT
    CCCCATGTGT TGAGATGTCA ACAGTTCCTG AAGCACTCCT CTCCTGGGAA GCCCAGCTTG
    GGACTGCAGC TCCTGGCTCC CTCCTGGGAT GTTCTTATTC CACCTGGCAG CCCCATTCGG
    CATGCACACA GTGAGATCCT GGAAGAACCA CATAACTGTC CCCTTCAGAA GTATACTCCG
    CTGCAGACCC CCTACACTTT CCCTACTATA CTTGCCCTGG CAGAGGAAGG GCAGCACAGG
    GCTTGGGCTA CCTTTGACCC AAGGGCCCTG CTGCCTTTCC CAGAAGCCTT TCACCTGACA
    AGCTGTCAAC TGAATCGTCG CCTAGCCTGG TCCTGGCTCT GTCTGCCATC CAGTATGTTC
    CAGCCAGCCC CGGTTTTACT TGGGGTCCTG GTGGCTTCGT CTCATAAAGG TTGTCTGCAG
    CTTCGGGACG TAAGAGGTTC ACTGCCCTGT ATACCCTTGC CTGAGAGTTC ACAGCCCCTC
    ATTGACCCAA AGCTCATAGG CTGCCTGGTG CGGGTAGAGA AATTCCAGCT GGTAGTAGAG
    AGAGAAGTCA GGAGCAGCTT CCCTTCCTGG GAGGAGCTGG GCATGGCAAG CCTCATCCAG
    AAGAAGCAGG CCAGAGTCTA TGTCCAGTTC TACCTGGCTG ATGCCCTGAT CCTGCCTGTG
    CCCAGACCCA CTGTTGGTTT AGAACCATCT GAGACAGCCT CCTCCTGCCC AGAGGGACCC
    CAGGTGGGAC AGAGCCGGCT GTTCTTACTG TTCTACAAGG AGGCCCTCAT GAAACGTAAC
    TTTTGTCTCC TTCCGGGAGA TAGTTCACGA CCTGCAGAGC CCACCCTGAG TTTCCGTGTG
    TCAGGAACTT GGCTTTGTGG CACACAGAAG AGGGAGGGTT CTGGATGGAG CCCACCTGAG
    TCTCTGGCCG CAGAGAACAA GGACCAAAAG GTCTTCTTCA TCTTCCTTGG CTCTTCAGTT
    CAGTGGTTTC CGTTCTTGTA CCCAAACCAA GTCTACCGGC TCGTGGCTCC TGACTCAACA
    CCAGCGTTGT TTGAGACAAA CCATTCATCT GGCACACCTC ACCGTCCTCT GGAATTGACT
    GACTATGTGT CTTGCCTCAC TATCCAAGAG GACTGGACCC TGGAACTTGG GAGCTCTCAG
    GACATACCTA ATGTACTAGA GGTCCCTAGA ACACTGTCTG AGTCCTCACT GGCTCACCTG
    CTCAGTGACA ACTCCCCCAA TTTCTTGGTG TCTTTCTCTG CTGAGGTTTT GTCTCGGATA
    CTGTGTGAAC CACCTCTGGC CCTTCGCAGG ATAAAACCTG GGAATGCTGG GGCTATTAAA
    GCAGGTGTGA AGCTAACAGT AGCTCTAGAA ATGGAGGACT GTGACTATCC CCCTCACCTG
    GACATATATA TCGAAGATCC ACACTTGCCT CCCCCAATAG GACTCCTTCC AGGAGCCCGA
    GTCCACTTTA GCCAGCTGGA GAAAAAGATT TCCAGATCCA ACGTTGTTTA CTGTTGCTTC
    CGGTCAACCA CTTCTGTGCA GGTCCTGAGC TTCCCCCCAG AGACCAAAGC CAGTGCTCCC
    TTGCCCCACA TCTGCCTGGC TGAACTTCTC CAAGGTGACC GGCCTCCCTT CCAGGCCACT
    ACCTCTTGCC ATATTGTGTA TGTCCTGAGC CTTCAGATCC TGTGGGTGTG TGCCCATTGC
    ACCAGCATCT GTCCCCAGGG GAAGTGTAGT CGTCAGGACC CCAGTTGTCC ATCTCAGAGG
    GCTATAAGCC AGGCCAGCAT CAGGCTCCTG GTAGAAGATG GCACCGCAGA AGCCACAGTG
    ACCTGTAGGA ATCATCATGT GGCAACAACA CTAGGACTGA GTCCTAGTGA GTGGTCCAAT
    GTCCTAGATC GTGCAAGGGG GCCAGGGAGA GTGGCCTTGC AGTTTAAAGG GCCAGGAGCC
    CAAACAGAGT CTGCAAGCAA AACCGGTGAA CCCTTGACCC TGCTCCTCCA GACACTTTGT
    ACCAGCCCCT TTGTCCTCCG ACCCATTAAG CTTTCCTTTG CGCTTGAAAG GAGACCTTGT
    GATATTACCC CAATAGAACC ACCCCGGCTG CAGCAGTTCC AGTGTGGAGA GCTCCCTCTG
    CTGACCAGAG TGAATCCCAG GCTCCGATTG GTCTGCCTTT CTCTGCAGGA GCCAGAGCTC
    CCCAGCCCTC CACAAGCTTC TGCTGCTGCT TCTTAA

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

    CloneID ORa33311
    Clone ID Related Accession (Same CDS sequence) XM_006246699.3
    Accession Version XM_006246699.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3639bp)
    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 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product CST complex subunit CTC1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005109.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006246699.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCTGCTT GCCGAGCACA ACCACCTACC TCCGAGGAAG CCTGGCTTGA GGCTGCCCAG 
    GCCTTCATCC AAGAGACCCT TTGTCCAGTG GACGAGGAGC CTAATGAACA GGTGACTCGC
    TCAGTAATTG ACTGTGTGAA GGAGACATGG CTGTCCCAGG GGGAGAACCA GGACTTAACC
    TTGCCCCTCA GCTACAGCTT TGTCTCAGTA CAGAATCTGA AGACGAATCA GCATCTCCCA
    TGCTGCAGCC ACCTGTCCTG GAGTGACAAT GCTTACCAGG CTTGGACCCG AGGAGCTGGG
    CCAGGAGGCA GTGTCCTGCC CCGGGAACAG CTGTTACTTT TAGGGACACT AGTAGACCTA
    TTAGGAGATT TGGAACAAGA GTCTAGGAGT GGAGGCCTGT ATGTGAGAGA TAACACTGGA
    ACCTTGGACT GTGAGCTTAT AGATCTAGAC CTTTCTTGGT TGGGCCATCT CTTCCTGTTC
    CCCAGTTGGA GTTACCTCCC TCCCGCCAAG AGGAATTCCT TGGGGGCAGG GCACTTGGAG
    CTGTGGGGTA CACCTGTGCC AGTATTTCCT TTGACTGTCA GTCCTGGCCC CCTCACGCCT
    ATCCCTGTCC TCTACCCAGA AAAGGCGTCC TACCTGCTCA GATACAGAAA GAAATGCAAA
    ATAAAGGAGC TAAATCTTGC TGGAAAACTG GTCCATCTGA GTGCCCTGAT GGTAACTCAG
    AACAAAAGGT ACTTCATCAT GACACTTGGT GAATTAGCCC AAGCTGGCAG CCAGGTGTCC
    GTCATTGTCC AGATTCCTGC TCAGATGGTG TGGCACCGAG TCCTCCGGCC TGGTAGGGCC
    TATGTGCTGA CAAAATTGCG AATAACCAAG ACCCGGGGTC ACCGTTCCTG TATTTGGACA
    ACCATTCCAT CTTCAACTCT GATGCCACTG AGACCAGGCT ATGTGCAAGA GCTGGAGCTG
    GACGTAGCGT TTGCAGACGC TGGCCATAAA CCGCTGCCCG AGCCCACCAG CTCCAGAGAC
    AGCAGAGGCC AAGAGGGGCT TGTCCGAGGT TCCAAAGTCT TGCATTATTT GGGAACAGTC
    ACTGACGTGT TGAACGAGTC TGCCAGCCTC TACATTCTTG ATGGGCAGCT GATTCTCTGC
    CTTGCATACC AGAAGATCCA TGGCCTCAGG CGGGTTATTC GACCAGGGGT CTGTCTGGAG
    CTCCGTGATG TTCATCTCCT CCAGGGCCTG GGTGGAGGAA CAACAAAACC TGTGCTGGCC
    CTTTGTCTCC ATGGCACTGT TCGCCTGCAA GGCTTTTCTT GTCTTAAGCC TCAGAACTTG
    CCGTCCTACA AAGTTCATGG TGCCTCCTTG TATGAGCAAT TGGTGTGGAA ATGTCAGTTA
    GGACTTCCCT TATACTTATG GGCTACCAAG GCCCTGGAGG AGCTGGTCTA CAAGCTCTGT
    CCCCATGTGT TGAGATGTCA ACAGTTCCTG AAGCACTCCT CTCCTGGGAA GCCCAGCTTG
    GGACTGCAGC TCCTGGCTCC CTCCTGGGAT GTTCTTATTC CACCTGGCAG CCCCATTCGG
    CATGCACACA GTGAGATCCT GGAAGAACCA CATAACTGTC CCCTTCAGAA GTATACTCCG
    CTGCAGACCC CCTACACTTT CCCTACTATA CTTGCCCTGG CAGAGGAAGG GCAGCACAGG
    GCTTGGGCTA CCTTTGACCC AAGGGCCCTG CTGCCTTTCC CAGAAGCCTT TCACCTGACA
    AGCTGTCAAC TGAATCGTCG CCTAGCCTGG TCCTGGCTCT GTCTGCCATC CAGTATGTTC
    CAGCCAGCCC CGGTTTTACT TGGGGTCCTG GTGGCTTCGT CTCATAAAGG TTGTCTGCAG
    CTTCGGGACG TAAGAGGTTC ACTGCCCTGT ATACCCTTGC CTGAGAGTTC ACAGCCCCTC
    ATTGACCCAA AGCTCATAGG CTGCCTGGTG CGGGTAGAGA AATTCCAGCT GGTAGTAGAG
    AGAGAAGTCA GGAGCAGCTT CCCTTCCTGG GAGGAGCTGG GCATGGCAAG CCTCATCCAG
    AAGAAGCAGG CCAGAGTCTA TGTCCAGTTC TACCTGGCTG ATGCCCTGAT CCTGCCTGTG
    CCCAGACCCA CTGTTGGTTT AGAACCATCT GAGACAGCCT CCTCCTGCCC AGAGGGACCC
    CAGGTGGGAC AGAGCCGGCT GTTCTTACTG TTCTACAAGG AGGCCCTCAT GAAACGTAAC
    TTTTGTCTCC TTCCGGGAGA TAGTTCACGA CCTGCAGAGC CCACCCTGAG TTTCCGTGTG
    TCAGGAACTT GGCTTTGTGG CACACAGAAG AGGGAGGGTT CTGGATGGAG CCCACCTGAG
    TCTCTGGCCG CAGAGAACAA GGACCAAAAG GTCTTCTTCA TCTTCCTTGG CTCTTCAGTT
    CAGTGGTTTC CGTTCTTGTA CCCAAACCAA GTCTACCGGC TCGTGGCTCC TGACTCACAG
    ACACCAGCGT TGTTTGAGAC AAACCATTCA TCTGGCACAC CTCACCGTCC TCTGGAATTG
    ACTGACTATG TGTCTTGCCT CACTATCCAA GAGGACTGGA CCCTGGAACT TGGGAGCTCT
    CAGGACATAC CTAATGTACT AGAGGTCCCT AGAACACTGT CTGAGTCCTC ACTGGCTCAC
    CTGCTCAGTG ACAACTCCCC CAATTTCTTG GTGTCTTTCT CTGCTGAGGT TTTGTCTCGG
    ATACTGTGTG AACCACCTCT GGCCCTTCGC AGGATAAAAC CTGGGAATGC TGGGGCTATT
    AAAGCAGGTG TGAAGCTAAC AGTAGCTCTA GAAATGGAGG ACTGTGACTA TCCCCCTCAC
    CTGGACATAT ATATCGAAGA TCCACACTTG CCTCCCCCAA TAGGACTCCT TCCAGGAGCC
    CGAGTCCACT TTAGCCAGCT GGAGAAAAAG ATTTCCAGAT CCAACGTTGT TTACTGTTGC
    TTCCGGTCAA CCACTTCTGT GCAGGTCCTG AGCTTCCCCC CAGAGACCAA AGCCAGTGCT
    CCCTTGCCCC ACATCTGCCT GGCTGAACTT CTCCAAGGTG ACCGGCCTCC CTTCCAGGCC
    ACTACCTCTT GCCATATTGT GTATGTCCTG AGCCTTCAGA TCCTGTGGGT GTGTGCCCAT
    TGCACCAGCA TCTGTCCCCA GGGGAAGTGT AGTCGTCAGG ACCCCAGTTG TCCATCTCAG
    AGGGCTATAA GCCAGGCCAG CATCAGGCTC CTGGTAGAAG ATGGCACCGC AGAAGCCACA
    GTGACCTGTA GGAATCATCA TGTGGCAACA ACACTAGGAC TGAGTCCTAG TGAGTGGTCC
    AATGTCCTAG ATCGTGCAAG GGGGCCAGGG AGAGTGGCCT TGCAGTTTAA AGGGCCAGGA
    GCCCAAACAG AGTCTGCAAG CAAAACCGGT GAACCCTTGA CCCTGCTCCT CCAGACACTT
    TGTACCAGCC CCTTTGTCCT CCGACCCATT AAGCTTTCCT TTGCGCTTGA AAGGAGACCT
    TGTGATATTA CCCCAATAGA ACCACCCCGG CTGCAGCAGT TCCAGTGTGG AGAGCTCCCT
    CTGCTGACCA GAGTGAATCC CAGGCTCCGA TTGGTCTGCC TTTCTCTGCA GGAGCCAGAG
    CTCCCCAGCC CTCCACAAGC TTCTGCTGCT GCTTCTTAA

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

    RefSeq XP_006246761.1
    CDS265..3903
    Translation

    Target ORF information:

    RefSeq Version XM_006246699.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus CTS telomere maintenance complex component 1 (Ctc1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_006246699.3

    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
    ATGGCTGCTT GCCGAGCACA ACCACCTACC TCCGAGGAAG CCTGGCTTGA GGCTGCCCAG 
    GCCTTCATCC AAGAGACCCT TTGTCCAGTG GACGAGGAGC CTAATGAACA GGTGACTCGC
    TCAGTAATTG ACTGTGTGAA GGAGACATGG CTGTCCCAGG GGGAGAACCA GGACTTAACC
    TTGCCCCTCA GCTACAGCTT TGTCTCAGTA CAGAATCTGA AGACGAATCA GCATCTCCCA
    TGCTGCAGCC ACCTGTCCTG GAGTGACAAT GCTTACCAGG CTTGGACCCG AGGAGCTGGG
    CCAGGAGGCA GTGTCCTGCC CCGGGAACAG CTGTTACTTT TAGGGACACT AGTAGACCTA
    TTAGGAGATT TGGAACAAGA GTCTAGGAGT GGAGGCCTGT ATGTGAGAGA TAACACTGGA
    ACCTTGGACT GTGAGCTTAT AGATCTAGAC CTTTCTTGGT TGGGCCATCT CTTCCTGTTC
    CCCAGTTGGA GTTACCTCCC TCCCGCCAAG AGGAATTCCT TGGGGGCAGG GCACTTGGAG
    CTGTGGGGTA CACCTGTGCC AGTATTTCCT TTGACTGTCA GTCCTGGCCC CCTCACGCCT
    ATCCCTGTCC TCTACCCAGA AAAGGCGTCC TACCTGCTCA GATACAGAAA GAAATGCAAA
    ATAAAGGAGC TAAATCTTGC TGGAAAACTG GTCCATCTGA GTGCCCTGAT GGTAACTCAG
    AACAAAAGGT ACTTCATCAT GACACTTGGT GAATTAGCCC AAGCTGGCAG CCAGGTGTCC
    GTCATTGTCC AGATTCCTGC TCAGATGGTG TGGCACCGAG TCCTCCGGCC TGGTAGGGCC
    TATGTGCTGA CAAAATTGCG AATAACCAAG ACCCGGGGTC ACCGTTCCTG TATTTGGACA
    ACCATTCCAT CTTCAACTCT GATGCCACTG AGACCAGGCT ATGTGCAAGA GCTGGAGCTG
    GACGTAGCGT TTGCAGACGC TGGCCATAAA CCGCTGCCCG AGCCCACCAG CTCCAGAGAC
    AGCAGAGGCC AAGAGGGGCT TGTCCGAGGT TCCAAAGTCT TGCATTATTT GGGAACAGTC
    ACTGACGTGT TGAACGAGTC TGCCAGCCTC TACATTCTTG ATGGGCAGCT GATTCTCTGC
    CTTGCATACC AGAAGATCCA TGGCCTCAGG CGGGTTATTC GACCAGGGGT CTGTCTGGAG
    CTCCGTGATG TTCATCTCCT CCAGGGCCTG GGTGGAGGAA CAACAAAACC TGTGCTGGCC
    CTTTGTCTCC ATGGCACTGT TCGCCTGCAA GGCTTTTCTT GTCTTAAGCC TCAGAACTTG
    CCGTCCTACA AAGTTCATGG TGCCTCCTTG TATGAGCAAT TGGTGTGGAA ATGTCAGTTA
    GGACTTCCCT TATACTTATG GGCTACCAAG GCCCTGGAGG AGCTGGTCTA CAAGCTCTGT
    CCCCATGTGT TGAGATGTCA ACAGTTCCTG AAGCACTCCT CTCCTGGGAA GCCCAGCTTG
    GGACTGCAGC TCCTGGCTCC CTCCTGGGAT GTTCTTATTC CACCTGGCAG CCCCATTCGG
    CATGCACACA GTGAGATCCT GGAAGAACCA CATAACTGTC CCCTTCAGAA GTATACTCCG
    CTGCAGACCC CCTACACTTT CCCTACTATA CTTGCCCTGG CAGAGGAAGG GCAGCACAGG
    GCTTGGGCTA CCTTTGACCC AAGGGCCCTG CTGCCTTTCC CAGAAGCCTT TCACCTGACA
    AGCTGTCAAC TGAATCGTCG CCTAGCCTGG TCCTGGCTCT GTCTGCCATC CAGTATGTTC
    CAGCCAGCCC CGGTTTTACT TGGGGTCCTG GTGGCTTCGT CTCATAAAGG TTGTCTGCAG
    CTTCGGGACG TAAGAGGTTC ACTGCCCTGT ATACCCTTGC CTGAGAGTTC ACAGCCCCTC
    ATTGACCCAA AGCTCATAGG CTGCCTGGTG CGGGTAGAGA AATTCCAGCT GGTAGTAGAG
    AGAGAAGTCA GGAGCAGCTT CCCTTCCTGG GAGGAGCTGG GCATGGCAAG CCTCATCCAG
    AAGAAGCAGG CCAGAGTCTA TGTCCAGTTC TACCTGGCTG ATGCCCTGAT CCTGCCTGTG
    CCCAGACCCA CTGTTGGTTT AGAACCATCT GAGACAGCCT CCTCCTGCCC AGAGGGACCC
    CAGGTGGGAC AGAGCCGGCT GTTCTTACTG TTCTACAAGG AGGCCCTCAT GAAACGTAAC
    TTTTGTCTCC TTCCGGGAGA TAGTTCACGA CCTGCAGAGC CCACCCTGAG TTTCCGTGTG
    TCAGGAACTT GGCTTTGTGG CACACAGAAG AGGGAGGGTT CTGGATGGAG CCCACCTGAG
    TCTCTGGCCG CAGAGAACAA GGACCAAAAG GTCTTCTTCA TCTTCCTTGG CTCTTCAGTT
    CAGTGGTTTC CGTTCTTGTA CCCAAACCAA GTCTACCGGC TCGTGGCTCC TGACTCACAG
    ACACCAGCGT TGTTTGAGAC AAACCATTCA TCTGGCACAC CTCACCGTCC TCTGGAATTG
    ACTGACTATG TGTCTTGCCT CACTATCCAA GAGGACTGGA CCCTGGAACT TGGGAGCTCT
    CAGGACATAC CTAATGTACT AGAGGTCCCT AGAACACTGT CTGAGTCCTC ACTGGCTCAC
    CTGCTCAGTG ACAACTCCCC CAATTTCTTG GTGTCTTTCT CTGCTGAGGT TTTGTCTCGG
    ATACTGTGTG AACCACCTCT GGCCCTTCGC AGGATAAAAC CTGGGAATGC TGGGGCTATT
    AAAGCAGGTG TGAAGCTAAC AGTAGCTCTA GAAATGGAGG ACTGTGACTA TCCCCCTCAC
    CTGGACATAT ATATCGAAGA TCCACACTTG CCTCCCCCAA TAGGACTCCT TCCAGGAGCC
    CGAGTCCACT TTAGCCAGCT GGAGAAAAAG ATTTCCAGAT CCAACGTTGT TTACTGTTGC
    TTCCGGTCAA CCACTTCTGT GCAGGTCCTG AGCTTCCCCC CAGAGACCAA AGCCAGTGCT
    CCCTTGCCCC ACATCTGCCT GGCTGAACTT CTCCAAGGTG ACCGGCCTCC CTTCCAGGCC
    ACTACCTCTT GCCATATTGT GTATGTCCTG AGCCTTCAGA TCCTGTGGGT GTGTGCCCAT
    TGCACCAGCA TCTGTCCCCA GGGGAAGTGT AGTCGTCAGG ACCCCAGTTG TCCATCTCAG
    AGGGCTATAA GCCAGGCCAG CATCAGGCTC CTGGTAGAAG ATGGCACCGC AGAAGCCACA
    GTGACCTGTA GGAATCATCA TGTGGCAACA ACACTAGGAC TGAGTCCTAG TGAGTGGTCC
    AATGTCCTAG ATCGTGCAAG GGGGCCAGGG AGAGTGGCCT TGCAGTTTAA AGGGCCAGGA
    GCCCAAACAG AGTCTGCAAG CAAAACCGGT GAACCCTTGA CCCTGCTCCT CCAGACACTT
    TGTACCAGCC CCTTTGTCCT CCGACCCATT AAGCTTTCCT TTGCGCTTGA AAGGAGACCT
    TGTGATATTA CCCCAATAGA ACCACCCCGG CTGCAGCAGT TCCAGTGTGG AGAGCTCCCT
    CTGCTGACCA GAGTGAATCC CAGGCTCCGA TTGGTCTGCC TTTCTCTGCA GGAGCCAGAG
    CTCCCCAGCC CTCCACAAGC TTCTGCTGCT GCTTCTTAA

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