Naca cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Naca gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Naca 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
OMv24586 XM_021173852.1
Latest version!
Mus caroli nascent polypeptide associated complex subunit alpha (Naca), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 9-11 $174.30
$249.00
OMv67089 XM_029482739.1
Latest version!
Mus caroli nascent polypeptide associated complex subunit alpha (Naca), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 29-31 $1091.30
$1559.00

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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 OMv24586
    Clone ID Related Accession (Same CDS sequence) XM_021173852.1
    Accession Version XM_021173852.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 648bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nascent polypeptide-associated complex subunit alpha isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034579.1) 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 Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    ATGCCCGGTG AAGCCACCGA AACCGTCCCT GCTACAGAGC AGGAGTTGCC ACAGCCTCAG 
    GCTGAGACAG GATCGGGAAC AGAGTCTGAC AGTGATGAGT CAGTGCCAGA GCTCGAGGAA
    CAAGACTCCA CACAGACGGC CACACAGCAA GCCCAGCTGG CAGCCGCAGC TGAGATCGAT
    GAAGAACCTG TTAGTAAAGC CAAGCAGAGT CGGAGTGAGA AGAAGGCAAG GAAGGCGATG
    TCCAAACTGG GTCTTCGGCA GGTTACAGGG GTTACGAGAG TCACTATCCG AAAATCTAAA
    AATATCCTCT TTGTCATCAC GAAGCCAGAT GTCTACAAGA GCCCAGCTTC AGACACCTAC
    ATAGTGTTTG GGGAAGCCAA GATTGAAGAT TTGTCTCAGC AAGCACAGTT AGCAGCTGCT
    GAGAAATTCA AGGTTCAAGG TGAAGCTGTT TCAAACATTC AGGAAAACAC TCAGACTCCA
    ACCGTCCAAG AGGAGAGTGA AGAAGAGGAG GTTGATGAAA CGGGTGTGGA AGTTAAGGAC
    ATAGAATTGG TCATGTCACA AGCAAACGTA TCAAGAGCAA AGGCTGTTCG AGCCCTGAAA
    AACAACAGTA ACGATATTGT AAATGCTATT ATGGAATTAA CAATGTAA

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

    RefSeq XP_021029511.1
    CDS342..989
    Translation

    Target ORF information:

    RefSeq Version XM_021173852.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nascent polypeptide associated complex subunit alpha (Naca), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021173852.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    ATGCCCGGTG AAGCCACCGA AACCGTCCCT GCTACAGAGC AGGAGTTGCC ACAGCCTCAG 
    GCTGAGACAG GATCGGGAAC AGAGTCTGAC AGTGATGAGT CAGTGCCAGA GCTCGAGGAA
    CAAGACTCCA CACAGACGGC CACACAGCAA GCCCAGCTGG CAGCCGCAGC TGAGATCGAT
    GAAGAACCTG TTAGTAAAGC CAAGCAGAGT CGGAGTGAGA AGAAGGCAAG GAAGGCGATG
    TCCAAACTGG GTCTTCGGCA GGTTACAGGG GTTACGAGAG TCACTATCCG AAAATCTAAA
    AATATCCTCT TTGTCATCAC GAAGCCAGAT GTCTACAAGA GCCCAGCTTC AGACACCTAC
    ATAGTGTTTG GGGAAGCCAA GATTGAAGAT TTGTCTCAGC AAGCACAGTT AGCAGCTGCT
    GAGAAATTCA AGGTTCAAGG TGAAGCTGTT TCAAACATTC AGGAAAACAC TCAGACTCCA
    ACCGTCCAAG AGGAGAGTGA AGAAGAGGAG GTTGATGAAA CGGGTGTGGA AGTTAAGGAC
    ATAGAATTGG TCATGTCACA AGCAAACGTA TCAAGAGCAA AGGCTGTTCG AGCCCTGAAA
    AACAACAGTA ACGATATTGT AAATGCTATT ATGGAATTAA CAATGTAA

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

    CloneID OMv67089
    Clone ID Related Accession (Same CDS sequence) XM_029482739.1
    Accession Version XM_029482739.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 6564bp)
    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 2019-06-09
    Organism Mus caroli(Ryukyu mouse)
    Product nascent polypeptide-associated complex subunit alpha isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034579.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 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
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    ATGCCCGGTG AAGCCACCGA AACCGTCCCT GCTACAGAGC AGGAGTTGCC ACAGCCTCAG 
    GCTGAGACAG CTGTGCTTCC TATGTCTTCA GCCTTGAAAG TTGCTGCTGT AGGGCAGCCT
    GGACCTCCCC CTCCTTCTTC CCTGGGCCCC CAGCAAAACC CTATAGTAAC TGCTCATCAG
    CCTTCTCCAC TCCCTTCTAG TGTTCCCTCG ACCCCCTTTG AAGTTCCTTT TGCCCAGCCC
    ACACCAGCTG AAACTGCTCT GCCCTCAGGA ACTGCCCCTC CCACCCCAAC TTTCCTGCCA
    CACCTGATAG GGCCTCCCAT TTCCCCAGCT GCCCTAGCCT TGGCCTCTCC CATGATAGGT
    CTAGCTCAGA AAGGTGCCCG TTCCTCCTCG GCTCCCTTGT CTCTGGTCGC ATTAGCTCCT
    CATTCAGTTC AGAAGAGCTC TGTGTGTCCC CCTCACCCTC TCACCTCACC TCCATCAGCT
    GCTGGAGCAG AGTTGGGGGC ATTGACAGCT TCCATCCCTC CCTTAGAACC GAAGGCTTCT
    TCCAGTCAAG TTCCCTCTCA GGGAACCCTG AATCTAAAAG GCCCTACCCC ACGTCCTCCA
    GATGTAGTCA GTGCTTTCCC TTCCCACCTT GAAAACCCCC TGGCCTCTGT GCAGCCTGGT
    TTAATGGCCT GTCCTCAAAC ACTATCCATC ACTCCCCCAG TGAAGGGTGT CCCCATTTCC
    TCAGCTCTGA CACAAAGTCG GCTAAGCCTT AACCTAAAGG GACCTGTTAG TCCACCTGCT
    CAAAACACTG CAGCTCCCAG CATCCCCCCA GCACCCTCTA CTTCTCTGGG CTGTCATCTT
    CCACTTCTGC ATCACATTTC TTTGGATTCT CCCATCCAAT CTCCAGGTCA GTCAGGTCTT
    GCAGTGAATA ATCCCACTTC TGTAGGTCAC TCTGATATTG CAGCCTCTTG CCCACCTGAG
    AGATGTGTAG CTCCTACCCT TCCCTCCAGG CTGCTGGCTG CTGATTCTGG GGCAGCTCCA
    TCTGCCGACA AAGGCTCCTC TGCTGTTACT AATGAACTCT GCAGTCCTCC TGGCTCTTCA
    AATGTAGCTG GTACTTCCTT GTCTCCTACA GCCTCTCTCG TTCCCAAGGG TTCTAATGTT
    GCTCTACAGC CTTTGGTGAC TCAAGTTCCC GCTTCTCAAA AAACTGGATT AAAAGAAATT
    CCTGTCTCCT GTATTGGAGC CACCCACCAT GCCCTGGATA ACCCTTCTGC CATTTCTGTT
    GCACCTGCCA CTCATGTGCC TCCTCCAGCT TCATCAGGTC TTGTAAGTAG TAAAGACCCA
    GCTTCCCCCT TCACTTCACT TGTGGTACCT GCTGCTCACA AGCAGTTTCC TGCTCCTCCA
    GTATCAACTA CTCTAGGGGT GCCAGTGTCT CCTCTGCCAG CCACTGAAGG CCTTAAAAAT
    CTTCCTATTT CAGTATTAGT AAATGTAGGA GCCCCTGTTT CTCCAGCCCA GGCAGGGCTC
    CCCACCAGAA AAGACACCAC TCTGCAGCCC TTGGCCCCCA TAGCACTTAA AGACCCTCCC
    TCTTCTCAGA GTGCATCATC TCTGCAGGTA CTTTCAGAAG ACACTGTAAC AAAGACAACT
    ACAGGAGGAC CTGCCCCTGT GGTGCAGCCA GCCATTGCTG GGGTTGCTAC TACTACTACT
    TCCCTGCGTG CTGACTCTCC ACCTGCTGTC ATCAGAGCAG ATTCTTGTGT CAGCCCAAAC
    ACTGTCAGTC AGCCTCTCGA AAGTTCTGTT ACTGCCCCAG CAATGGCTCC TAGAACTGCC
    AAAAATACTG TTCCTTCTAC CACTTCACCT CTGGTTCCTT TAGCCTCTGA AGGCTGTCCT
    GTGGCTTCAT CTATGTCCCC TGAAATTCCC AAGTCTGTGC CCTTTCCTGA TCCTCCCTTA
    GCTGAGATTT CTTTTTCCAG TGCAAGGAAA GTTGATGCTG TCTCTCATAT GGAGTCTTCA
    GGCTCCTCCC GTGAGGGGCA CCCAGATGCT TCTGTGACTT CCAAAGGGAC TGTGGTTTGT
    CTAGCTGACT CCTCACCTTT AGACACTGGT GTGTCTGCAT CCAAGAAGGG CTCTGCTCTC
    TCGTCTCCTC TCTGCCCACC TGAGGCTTCT TTCCTTCCAG AGGCAGGTCT GGCTGTTCAA
    GGCCCTAAAG GCTCACTTAA TAAGCTTTCT CCCATTCCTC CATCCTCCAA AGGGGCCCCT
    GTTCCTTCAA CTGGGGCTCC TCCCTCCCCT AAAGGGGCCC CTATTGTTCC AACAGAAGCT
    TCTATATCCT CCAAAATGGT CCCAGCAGAA ATTCTTCCTT CCCCCCAAAA GACTCCAGAA
    GTTACAGCTT CCAAACTGAT CTCGGCAGTC CAGTCTCCTA AAGTAGACCC TATTATGTCA
    GACGTGACTC CTATCTCTCC CAAAAAGACT TCGGCAACTG CAGTCCCCAA AGATACTTCA
    GCAACCCTGT CTCTCAAAAG TGTCCCGGCT GTGACTTCCC TGTCTCCCCC AAAGGCTCCT
    GTAGCCCCAT CTCCTAATGA AGCCACCATT GCTCCTACTG AGATTCCTAC CTCCCTCAAA
    AATGCCCTAG CAGCTGCAAC TCCCAAAGTG ACTTCTTCCC CACAAAAGAC TCCAAAATCC
    GTATCCCCTA AGAGTGCCCC GGCTATGACC TCCAAAAAGG CGACAGAAAT TACAGCCTCC
    AAAGACATCT CACCATCCCA GTTTCCCAAA GAGGTTCCTC TTCTACCACA TGTGGCTCCT
    ACTTCCCCAC CAAAGTCCCC AGCGAGTGAT ACGCTCAGTG GGGCTCTAAC AAGCCCACCC
    CCCAAAGGTG ACCCTGCCAC CCTAGCTGAG ACTCCTACCT GTCCTAAAAA GTCCCCCAAA
    ACTGCAGCAC CCAAAAAAAC TCCAGCGACT CCATCTCCTG AAGGGGTCAC AGCTGTACCA
    CTGGAGATTC CTCCTTGCTC CAAAAAGGCC CCCAAAACTG TAGCCCCCAA AGAAACTCCA
    GCGACTCCAT CTCCTGAAGG GGTCACAGCT GTTCCGCTGG AGATTCCTCC TTGCTCCAAA
    AAGGCCCCCA AAGAAAGTTC AGCAACCTCA TCTTCTAAAA GGGCCCCTAA AACTGCAGTT
    TCCAAAGAAA TTCCTTCTAA AGGGGTCACA GCTGTGCCAT TGGAGGTTTC TCTGCCTCTA
    AAAGAGACCT CCAAAAGTGC AACTCCTGGT GAAAATTCAG CCTCATCCCC AAAAAGGTCC
    CCCAAAACTG CAGGCCCCAA AGAAACTCCA CCTGAAGGGG TCAGAGCTGT GCCCCTGGAG
    ATTTCTCTGC CTCCAAAAGA GACACCCCAA AATGCAACCC CTAATGAAAG CTTAGCAGCC
    TCATCCCAGA AAAGGTCTCC CAAAACTTCA GGCCCCAAAG AAACTCCACC TGAAGGGGTC
    ACAGCTGTGC CACTGGAAAT TCCTCCTACC CCAAAAAAGG CCCCCAAAAC TGCAGTCCCT
    AAACAGATTC CTTCTCCCGA AGCTGAAAGT CCTCTCTCTC CCAAAAAGGC ATCCAAAACT
    GCAGCCCCCA AAGAGAATTC AGCAACCTTA TCCCCAAAAA GATCCCCCAA AACTGCAACC
    CACAAAGAAA ATATGACTTC ATCCCCCAAA AGGTCCCCCA AAACTGCAGC CCCCAAAGAA
    ACTCCAGCCA CATCTTCTGA GGGGGTTACA GCTGTGCCAT CTGAGATTTC TCCTTCACCC
    CCAACTCCAG CCTCCAAAGG GGTTTCTGTG ACCCTAGCTC CCAAAGGTGC CCCTAATGCC
    CTAGCTGAGA GTCCTGCCTC CCATAAAAAG GCTCCTAAAA CTGCAGCCCC CAAAGAAACT
    TCAACAATTC CATCCCCCCA AAAAATTCCC AAAGTGGCAG GTCCCAAAGA GACTTCAGCG
    ACCCCACCTT CAAAAAAGAC CCCCAAAACT GCAGTCCCCA AAGAAACTTC AGCACCTTCT
    GAGGGGGTCA CAGCTGTACC AGTGGAAATT CCTCCCTCCC CCAGAAAGGC CCCTAAAACT
    GCAGCTCCCA AAGAAACTCC AGCTCCATCT CCTGAAGGGG CCACCACTGT ACCAGTGCAG
    ATTCCTCCCT CCCCCAGGAA GGGCTCTAAG AAAGCAGGCT CCAAAGAAAC ACCTACAGCC
    CCATCTCCTG AAGGAGTTAC AGCTGCACCT CTAGAAATTC CCATATCTTC CAAAAAGACT
    TCCAAAATGG CAAGTCCTAA AGAAACGCTA GTAACCCCAT CTTCCAAAAC ACTCTCCCAA
    ACTGTAGGTC CCAAAGAAAC TTCACTTGAA GGGGTCCCAG CTGTGCCCCT GGAGATTCCT
    TCTTCCCACA AAAAGGCCCC CAAAACTGTA GATCCTAAAC AGGATCCTCT AACCCCATCT
    CCTAAAGATG CCCCTACTAC TCTAGCTGAA AGTCCTTCCT CCCCCAAAAA GGCACCCAAA
    ACTGCAGCCC CACCCTCTGA AAGGGTCACC ACTGCGCCAC CAGAAAAGCC TGCCACCCCA
    CAGAAGGCCT CAGAAACTAC AGCCTCCAAA GTCCCTGCCA AGACACAGGA AGTTGCTGAC
    TCCCCAAGAG AGACTCCAGT AGCCCCAGCT GTGCCCCCAG TCAAGAGTCC TTCCTCCCAT
    AAGAAGACCT CAAAGACTGT AGATCTCAAA GAAGCCCCAT CAACCCTCCC TCCCTCCCCA
    ACAAAGAGCC CCAAAATTCC ATCATCCAAA AAGGCACCAA GGACTTCAGC CCCTAAAGGG
    TTTCCAGCAA GCCCCTCTAT TAAAGCTGTC ACCACCTCAC TGGCACAGAC AGCTCCTCCC
    AGTCTGCAAA AGGCGCCATC CACTACAATC CCCAAGGAGA ATTTAGCTGC CCCGGCTGTT
    CTGCCTGTCT CCAGCAAAAG CCCAGCAGCT CCAGCTGCTG CAAATGCTTC CACTGCCCTA
    GCTGCTGCTT CCCTTTCCCC AGCTCCCCCA GTCACGATTT CTCCCTCCAA AAAGACCCCA
    GCTACTGCAG CTCCTCAAAC AGCTCCAAAA GAGGCCACAA CAATCCCATC TTGTAAAAAG
    GCTGCAGCTA CGGAGACCCC CATTGAGACT TCAACAGCTC CATCTCTTGA AGGGGCCCCC
    AAGGAGACCT CAGAAACTTC AATGTCCAAA GTTCTCATGT CTTCCCCTCC TAAAAAGGCT
    CCATCCTCCA AAAGGGCCTC TACTCTCCCA GCTACAACTC TTCCCTCTCT TAAAGAGGCC
    TCTGTTCTCT CACCCACTGC CACTTCTTCC GAAAAAGACT CTCATGTTTC CCCTGTAACC
    GATGCTTGTA GCACAGGAGC TACTACCCCT CAGGCATCTG AAAAGCTCCC AGCACCGAAA
    GGTCCTACAG CTTTCACGGA AGTGCTTGCT GTACCTGCTC CAGAAAGTGC TTTGGTCATC
    ACTGCTCCCA TTCAGAAAAG CCCAGGAGCC AACAGCAATT CTGCTTCCTC TCCTAAGTGC
    CCAGACCCCT CCGCTAAGAA AGACACAAAG GGCCTCCCTT CTGCAGTAGC TCTAGCCCCT
    CAGACAGTCC CTGTTGAGAA AGACACTTCA AAGGCTATAG GAACTCTGCC TGTTTGCCCT
    GCAAAAGGCA GTGATTGTCT TCATTCCCCA AAGGGTCCTG TGGGGTCTCA GGTAGCTACT
    CCACTAGCAG CGTTTACCTC TGACAAAGTT CCTCCGGAAG CTGTGTCTGC ATCTGTGGCT
    CCAAAGCCTA CCCCAGCAGC TTCCCTGACT CTTGCTCCCT CCCCAGTTGC CCCTCTGCCT
    CCTAAACAGC CACTTCTTGA GTCCGCACCT GGATCAGTGC TGGAGTCACC CTCTAAGCTC
    CCAGTCCCTG CTGAGGAGGA TGAGCTGCCG CCTCTGATTC CCCCGGAAGC GGTCTCTGGG
    GGAGAGCCTT TCCAGCCGAT CCTCGTCAAC ATGCCCACCC CTAAACCTGC TGGGACCCCT
    GCCCCAGCCC CCTCTGCCAA GCAGCCTGTT CTGAAGAACA ACAAGGGATC GGGAACAGAG
    TCTGACAGTG ATGAGTCAGT GCCAGAGCTC GAGGAACAAG ACTCCACACA GACGGCCACA
    CAGCAAGCCC AGCTGGCAGC CGCAGCTGAG ATCGATGAAG AACCTGTTAG TAAAGCCAAG
    CAGAGTCGGA GTGAGAAGAA GGCAAGGAAG GCGATGTCCA AACTGGGTCT TCGGCAGGTT
    ACAGGGGTTA CGAGAGTCAC TATCCGAAAA TCTAAAAATA TCCTCTTTGT CATCACGAAG
    CCAGATGTCT ACAAGAGCCC AGCTTCAGAC ACCTACATAG TGTTTGGGGA AGCCAAGATT
    GAAGATTTGT CTCAGCAAGC ACAGTTAGCA GCTGCTGAGA AATTCAAGGT TCAAGGTGAA
    GCTGTTTCAA ACATTCAGGA AAACACTCAG ACTCCAACCG TCCAAGAGGA GAGTGAAGAA
    GAGGAGGTTG ATGAAACGGG TGTGGAAGTT AAGGACATAG AATTGGTCAT GTCACAAGCA
    AACGTATCAA GAGCAAAGGC TGTTCGAGCC CTGAAAAACA ACAGTAACGA TATTGTAAAT
    GCTATTATGG AATTAACAAT GTAA

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

    RefSeq XP_029338599.1
    CDS137..6700
    Translation

    Target ORF information:

    RefSeq Version XM_029482739.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli nascent polypeptide associated complex subunit alpha (Naca), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029482739.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    ATGCCCGGTG AAGCCACCGA AACCGTCCCT GCTACAGAGC AGGAGTTGCC ACAGCCTCAG 
    GCTGAGACAG CTGTGCTTCC TATGTCTTCA GCCTTGAAAG TTGCTGCTGT AGGGCAGCCT
    GGACCTCCCC CTCCTTCTTC CCTGGGCCCC CAGCAAAACC CTATAGTAAC TGCTCATCAG
    CCTTCTCCAC TCCCTTCTAG TGTTCCCTCG ACCCCCTTTG AAGTTCCTTT TGCCCAGCCC
    ACACCAGCTG AAACTGCTCT GCCCTCAGGA ACTGCCCCTC CCACCCCAAC TTTCCTGCCA
    CACCTGATAG GGCCTCCCAT TTCCCCAGCT GCCCTAGCCT TGGCCTCTCC CATGATAGGT
    CTAGCTCAGA AAGGTGCCCG TTCCTCCTCG GCTCCCTTGT CTCTGGTCGC ATTAGCTCCT
    CATTCAGTTC AGAAGAGCTC TGTGTGTCCC CCTCACCCTC TCACCTCACC TCCATCAGCT
    GCTGGAGCAG AGTTGGGGGC ATTGACAGCT TCCATCCCTC CCTTAGAACC GAAGGCTTCT
    TCCAGTCAAG TTCCCTCTCA GGGAACCCTG AATCTAAAAG GCCCTACCCC ACGTCCTCCA
    GATGTAGTCA GTGCTTTCCC TTCCCACCTT GAAAACCCCC TGGCCTCTGT GCAGCCTGGT
    TTAATGGCCT GTCCTCAAAC ACTATCCATC ACTCCCCCAG TGAAGGGTGT CCCCATTTCC
    TCAGCTCTGA CACAAAGTCG GCTAAGCCTT AACCTAAAGG GACCTGTTAG TCCACCTGCT
    CAAAACACTG CAGCTCCCAG CATCCCCCCA GCACCCTCTA CTTCTCTGGG CTGTCATCTT
    CCACTTCTGC ATCACATTTC TTTGGATTCT CCCATCCAAT CTCCAGGTCA GTCAGGTCTT
    GCAGTGAATA ATCCCACTTC TGTAGGTCAC TCTGATATTG CAGCCTCTTG CCCACCTGAG
    AGATGTGTAG CTCCTACCCT TCCCTCCAGG CTGCTGGCTG CTGATTCTGG GGCAGCTCCA
    TCTGCCGACA AAGGCTCCTC TGCTGTTACT AATGAACTCT GCAGTCCTCC TGGCTCTTCA
    AATGTAGCTG GTACTTCCTT GTCTCCTACA GCCTCTCTCG TTCCCAAGGG TTCTAATGTT
    GCTCTACAGC CTTTGGTGAC TCAAGTTCCC GCTTCTCAAA AAACTGGATT AAAAGAAATT
    CCTGTCTCCT GTATTGGAGC CACCCACCAT GCCCTGGATA ACCCTTCTGC CATTTCTGTT
    GCACCTGCCA CTCATGTGCC TCCTCCAGCT TCATCAGGTC TTGTAAGTAG TAAAGACCCA
    GCTTCCCCCT TCACTTCACT TGTGGTACCT GCTGCTCACA AGCAGTTTCC TGCTCCTCCA
    GTATCAACTA CTCTAGGGGT GCCAGTGTCT CCTCTGCCAG CCACTGAAGG CCTTAAAAAT
    CTTCCTATTT CAGTATTAGT AAATGTAGGA GCCCCTGTTT CTCCAGCCCA GGCAGGGCTC
    CCCACCAGAA AAGACACCAC TCTGCAGCCC TTGGCCCCCA TAGCACTTAA AGACCCTCCC
    TCTTCTCAGA GTGCATCATC TCTGCAGGTA CTTTCAGAAG ACACTGTAAC AAAGACAACT
    ACAGGAGGAC CTGCCCCTGT GGTGCAGCCA GCCATTGCTG GGGTTGCTAC TACTACTACT
    TCCCTGCGTG CTGACTCTCC ACCTGCTGTC ATCAGAGCAG ATTCTTGTGT CAGCCCAAAC
    ACTGTCAGTC AGCCTCTCGA AAGTTCTGTT ACTGCCCCAG CAATGGCTCC TAGAACTGCC
    AAAAATACTG TTCCTTCTAC CACTTCACCT CTGGTTCCTT TAGCCTCTGA AGGCTGTCCT
    GTGGCTTCAT CTATGTCCCC TGAAATTCCC AAGTCTGTGC CCTTTCCTGA TCCTCCCTTA
    GCTGAGATTT CTTTTTCCAG TGCAAGGAAA GTTGATGCTG TCTCTCATAT GGAGTCTTCA
    GGCTCCTCCC GTGAGGGGCA CCCAGATGCT TCTGTGACTT CCAAAGGGAC TGTGGTTTGT
    CTAGCTGACT CCTCACCTTT AGACACTGGT GTGTCTGCAT CCAAGAAGGG CTCTGCTCTC
    TCGTCTCCTC TCTGCCCACC TGAGGCTTCT TTCCTTCCAG AGGCAGGTCT GGCTGTTCAA
    GGCCCTAAAG GCTCACTTAA TAAGCTTTCT CCCATTCCTC CATCCTCCAA AGGGGCCCCT
    GTTCCTTCAA CTGGGGCTCC TCCCTCCCCT AAAGGGGCCC CTATTGTTCC AACAGAAGCT
    TCTATATCCT CCAAAATGGT CCCAGCAGAA ATTCTTCCTT CCCCCCAAAA GACTCCAGAA
    GTTACAGCTT CCAAACTGAT CTCGGCAGTC CAGTCTCCTA AAGTAGACCC TATTATGTCA
    GACGTGACTC CTATCTCTCC CAAAAAGACT TCGGCAACTG CAGTCCCCAA AGATACTTCA
    GCAACCCTGT CTCTCAAAAG TGTCCCGGCT GTGACTTCCC TGTCTCCCCC AAAGGCTCCT
    GTAGCCCCAT CTCCTAATGA AGCCACCATT GCTCCTACTG AGATTCCTAC CTCCCTCAAA
    AATGCCCTAG CAGCTGCAAC TCCCAAAGTG ACTTCTTCCC CACAAAAGAC TCCAAAATCC
    GTATCCCCTA AGAGTGCCCC GGCTATGACC TCCAAAAAGG CGACAGAAAT TACAGCCTCC
    AAAGACATCT CACCATCCCA GTTTCCCAAA GAGGTTCCTC TTCTACCACA TGTGGCTCCT
    ACTTCCCCAC CAAAGTCCCC AGCGAGTGAT ACGCTCAGTG GGGCTCTAAC AAGCCCACCC
    CCCAAAGGTG ACCCTGCCAC CCTAGCTGAG ACTCCTACCT GTCCTAAAAA GTCCCCCAAA
    ACTGCAGCAC CCAAAAAAAC TCCAGCGACT CCATCTCCTG AAGGGGTCAC AGCTGTACCA
    CTGGAGATTC CTCCTTGCTC CAAAAAGGCC CCCAAAACTG TAGCCCCCAA AGAAACTCCA
    GCGACTCCAT CTCCTGAAGG GGTCACAGCT GTTCCGCTGG AGATTCCTCC TTGCTCCAAA
    AAGGCCCCCA AAGAAAGTTC AGCAACCTCA TCTTCTAAAA GGGCCCCTAA AACTGCAGTT
    TCCAAAGAAA TTCCTTCTAA AGGGGTCACA GCTGTGCCAT TGGAGGTTTC TCTGCCTCTA
    AAAGAGACCT CCAAAAGTGC AACTCCTGGT GAAAATTCAG CCTCATCCCC AAAAAGGTCC
    CCCAAAACTG CAGGCCCCAA AGAAACTCCA CCTGAAGGGG TCAGAGCTGT GCCCCTGGAG
    ATTTCTCTGC CTCCAAAAGA GACACCCCAA AATGCAACCC CTAATGAAAG CTTAGCAGCC
    TCATCCCAGA AAAGGTCTCC CAAAACTTCA GGCCCCAAAG AAACTCCACC TGAAGGGGTC
    ACAGCTGTGC CACTGGAAAT TCCTCCTACC CCAAAAAAGG CCCCCAAAAC TGCAGTCCCT
    AAACAGATTC CTTCTCCCGA AGCTGAAAGT CCTCTCTCTC CCAAAAAGGC ATCCAAAACT
    GCAGCCCCCA AAGAGAATTC AGCAACCTTA TCCCCAAAAA GATCCCCCAA AACTGCAACC
    CACAAAGAAA ATATGACTTC ATCCCCCAAA AGGTCCCCCA AAACTGCAGC CCCCAAAGAA
    ACTCCAGCCA CATCTTCTGA GGGGGTTACA GCTGTGCCAT CTGAGATTTC TCCTTCACCC
    CCAACTCCAG CCTCCAAAGG GGTTTCTGTG ACCCTAGCTC CCAAAGGTGC CCCTAATGCC
    CTAGCTGAGA GTCCTGCCTC CCATAAAAAG GCTCCTAAAA CTGCAGCCCC CAAAGAAACT
    TCAACAATTC CATCCCCCCA AAAAATTCCC AAAGTGGCAG GTCCCAAAGA GACTTCAGCG
    ACCCCACCTT CAAAAAAGAC CCCCAAAACT GCAGTCCCCA AAGAAACTTC AGCACCTTCT
    GAGGGGGTCA CAGCTGTACC AGTGGAAATT CCTCCCTCCC CCAGAAAGGC CCCTAAAACT
    GCAGCTCCCA AAGAAACTCC AGCTCCATCT CCTGAAGGGG CCACCACTGT ACCAGTGCAG
    ATTCCTCCCT CCCCCAGGAA GGGCTCTAAG AAAGCAGGCT CCAAAGAAAC ACCTACAGCC
    CCATCTCCTG AAGGAGTTAC AGCTGCACCT CTAGAAATTC CCATATCTTC CAAAAAGACT
    TCCAAAATGG CAAGTCCTAA AGAAACGCTA GTAACCCCAT CTTCCAAAAC ACTCTCCCAA
    ACTGTAGGTC CCAAAGAAAC TTCACTTGAA GGGGTCCCAG CTGTGCCCCT GGAGATTCCT
    TCTTCCCACA AAAAGGCCCC CAAAACTGTA GATCCTAAAC AGGATCCTCT AACCCCATCT
    CCTAAAGATG CCCCTACTAC TCTAGCTGAA AGTCCTTCCT CCCCCAAAAA GGCACCCAAA
    ACTGCAGCCC CACCCTCTGA AAGGGTCACC ACTGCGCCAC CAGAAAAGCC TGCCACCCCA
    CAGAAGGCCT CAGAAACTAC AGCCTCCAAA GTCCCTGCCA AGACACAGGA AGTTGCTGAC
    TCCCCAAGAG AGACTCCAGT AGCCCCAGCT GTGCCCCCAG TCAAGAGTCC TTCCTCCCAT
    AAGAAGACCT CAAAGACTGT AGATCTCAAA GAAGCCCCAT CAACCCTCCC TCCCTCCCCA
    ACAAAGAGCC CCAAAATTCC ATCATCCAAA AAGGCACCAA GGACTTCAGC CCCTAAAGGG
    TTTCCAGCAA GCCCCTCTAT TAAAGCTGTC ACCACCTCAC TGGCACAGAC AGCTCCTCCC
    AGTCTGCAAA AGGCGCCATC CACTACAATC CCCAAGGAGA ATTTAGCTGC CCCGGCTGTT
    CTGCCTGTCT CCAGCAAAAG CCCAGCAGCT CCAGCTGCTG CAAATGCTTC CACTGCCCTA
    GCTGCTGCTT CCCTTTCCCC AGCTCCCCCA GTCACGATTT CTCCCTCCAA AAAGACCCCA
    GCTACTGCAG CTCCTCAAAC AGCTCCAAAA GAGGCCACAA CAATCCCATC TTGTAAAAAG
    GCTGCAGCTA CGGAGACCCC CATTGAGACT TCAACAGCTC CATCTCTTGA AGGGGCCCCC
    AAGGAGACCT CAGAAACTTC AATGTCCAAA GTTCTCATGT CTTCCCCTCC TAAAAAGGCT
    CCATCCTCCA AAAGGGCCTC TACTCTCCCA GCTACAACTC TTCCCTCTCT TAAAGAGGCC
    TCTGTTCTCT CACCCACTGC CACTTCTTCC GAAAAAGACT CTCATGTTTC CCCTGTAACC
    GATGCTTGTA GCACAGGAGC TACTACCCCT CAGGCATCTG AAAAGCTCCC AGCACCGAAA
    GGTCCTACAG CTTTCACGGA AGTGCTTGCT GTACCTGCTC CAGAAAGTGC TTTGGTCATC
    ACTGCTCCCA TTCAGAAAAG CCCAGGAGCC AACAGCAATT CTGCTTCCTC TCCTAAGTGC
    CCAGACCCCT CCGCTAAGAA AGACACAAAG GGCCTCCCTT CTGCAGTAGC TCTAGCCCCT
    CAGACAGTCC CTGTTGAGAA AGACACTTCA AAGGCTATAG GAACTCTGCC TGTTTGCCCT
    GCAAAAGGCA GTGATTGTCT TCATTCCCCA AAGGGTCCTG TGGGGTCTCA GGTAGCTACT
    CCACTAGCAG CGTTTACCTC TGACAAAGTT CCTCCGGAAG CTGTGTCTGC ATCTGTGGCT
    CCAAAGCCTA CCCCAGCAGC TTCCCTGACT CTTGCTCCCT CCCCAGTTGC CCCTCTGCCT
    CCTAAACAGC CACTTCTTGA GTCCGCACCT GGATCAGTGC TGGAGTCACC CTCTAAGCTC
    CCAGTCCCTG CTGAGGAGGA TGAGCTGCCG CCTCTGATTC CCCCGGAAGC GGTCTCTGGG
    GGAGAGCCTT TCCAGCCGAT CCTCGTCAAC ATGCCCACCC CTAAACCTGC TGGGACCCCT
    GCCCCAGCCC CCTCTGCCAA GCAGCCTGTT CTGAAGAACA ACAAGGGATC GGGAACAGAG
    TCTGACAGTG ATGAGTCAGT GCCAGAGCTC GAGGAACAAG ACTCCACACA GACGGCCACA
    CAGCAAGCCC AGCTGGCAGC CGCAGCTGAG ATCGATGAAG AACCTGTTAG TAAAGCCAAG
    CAGAGTCGGA GTGAGAAGAA GGCAAGGAAG GCGATGTCCA AACTGGGTCT TCGGCAGGTT
    ACAGGGGTTA CGAGAGTCAC TATCCGAAAA TCTAAAAATA TCCTCTTTGT CATCACGAAG
    CCAGATGTCT ACAAGAGCCC AGCTTCAGAC ACCTACATAG TGTTTGGGGA AGCCAAGATT
    GAAGATTTGT CTCAGCAAGC ACAGTTAGCA GCTGCTGAGA AATTCAAGGT TCAAGGTGAA
    GCTGTTTCAA ACATTCAGGA AAACACTCAG ACTCCAACCG TCCAAGAGGA GAGTGAAGAA
    GAGGAGGTTG ATGAAACGGG TGTGGAAGTT AAGGACATAG AATTGGTCAT GTCACAAGCA
    AACGTATCAA GAGCAAAGGC TGTTCGAGCC CTGAAAAACA ACAGTAACGA TATTGTAAAT
    GCTATTATGG AATTAACAAT GTAA

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