Gse1 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Gse1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Gse1 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
OMv75282 XM_021169948.2
Latest version!
Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75283 XM_029480386.1
Latest version!
Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OMv75284 XM_029480387.1
Latest version!
Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv75280 XM_021169947.2
Latest version!
Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv75281 XM_029480385.1
Latest version!
Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $951.30
$1359.00
OMv06875 XM_021169948.1
Latest version!
Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMv06875 XM_021169947.1
Latest version!
Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X1, 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 OMv75282
    Clone ID Related Accession (Same CDS sequence) XM_021169948.2
    Accession Version XM_021169948.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3660bp)
    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 genetic suppressor element 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021169948.1. ##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
    ATGTTCGGAC TGAAGCCGCC TCTCTATTAC TTACCAGGCA TGAGCCATGA GCCCAAGTCC 
    CCTTCCATAG GGATGCTTTC CACGGCGACC AGGACCACCG CCACCGTCAA CCCCCTCACC
    CCCTCGCCAC TCAATGGCGC CCTGGTGCCC ACCGGTAGCC CGGCCACCAG CAGTGCGCTA
    TCGGCCCAGG CCGCTCCATC CTCCAGCTTT GCTGCCGCGC TGCGCAAGCT CGCCAAACAG
    GCAGAGGAGC CCAGAGGGTC CTCACTGAGC AGCGAGTCAT CTCCAGTGTC CTCTCCAGCC
    ACCAACCATA GCTCTCCAGC TAGCACGCCC AAACGAGTGC CCATGGGCCC CATCATCGTC
    CCCCCTGGGG GTCACAGTGT CCCCAGCACT CCCCCAGTGG TCACTATTGC CCCCACTAAA
    ACCGTCAACG GAGTCTGGAG AAGCGAGAGC CGCCAGGACT CCGGCTCACG AGGCAGCAGC
    AGTGGTCGGG AGCGCCTATT GGTGGAGCCG CCTCTGGCCC AGGAAAAGGC CGCGGGCCCC
    ACCATCCCCT CCCACCTACT CAGCACTCCC TACCCCTTTG GCCTTTCCCC CGGCTCAGTT
    GTACAGGACT CCCGCTTCCA ACCACTCAAC CTCCAGCGGC CTGTGCACCA TGTGGTGCCC
    CCCAGCACGG TGACCGAGGA CTACCTGAGA AGTTTCCGGC CCTACCACAC TGCTGAAGAC
    TTACGCATGT CCTCCTTGCC CCCGCTCGGC CTGGACCCAG CCACTGCCGC AGCCTACTAT
    CACCCCAGCT ACCTGGCCCC ACACCCGTTC CCCCACCCGG CCTTCAGGAT GGATGACTCC
    TATTGCCTGT CAGCCTTAAG GTCTCCGTTC TACCCCATCC CCACCCCTGG CTCCCTGCCT
    CCACTGCATC CTTCGGCGAT GCACCTTCAT CTCTCTGGTG TACGGTACCC TCCTGAGCTC
    TCCCACTCGT CCCTGGCGGC GCTACACTCG GAGCGGATGT CCAGCCTCAG TGCAGAGAGG
    TTGCAAATGG ACGAGGAACT GAGGCGGGAG AGAGAGCGGG AGCGGGAACG GGAGGCCGAC
    CGGGAGCGGG AGAAGGAGCG GGAACGGGAG CAGCGGGAGA AGGAGCGGGA GAAGGAGCTG
    GAGCGCGAGC GGGAGAAGGA ACGGGAACGC GAGCTGGAGC GGCAGCGGGA GCAGCGGGCA
    AGGGAGAAGG AGCTGCTGGC TGCCAAGGCC TTAGAGCCCA CCTCCTTCCT GCCTGTGGCC
    GAGCTGCACG GACTCCGGGG TCACAGCACG GAGGAGCGGC CCAAGCCCTC GGAGCAGCTG
    ACCCCAACCC GAGCAGAGAA GCTGAAGGAC GTGGGCTTGC AGGCGCCCAA GCCCGTGCAG
    CACCCTCTGC ACCCAGTGCC TGCCCCACAC CACACGGTGC CCAGCCTCAT CTCCAGCCAC
    GGCATCTTCT CTCTGCCTGG AAGCAGCGCC ACCACTGCCC TGCTGATCCA GCGCACCAAC
    GAGGAGGAGA AGTGGCTGGC ACGGCAGCGC CGCCTGCGGC AGGAGAAGGA AGACCGCCAG
    TCCCAGGTGT CCGAGTTCCG GCAGCAGGTC CTGGAGCAGC ACCTAGACCT GGGCCGGCCC
    CCCGTGCCCA CAGAGGTGGA GCACAGGCCC GAGAGCACCA GGCCAGGAAC AAACCGGCAT
    GAGCAGGGCA GCCGTGAACC CCCACAGCAC TTTGGTGGCC CTCCACCACT CATCTCACCC
    AAGCCCCAGC ACCACACCGT ACCCACAGCC CTCTGGAACC CAGTGTCTCT GATAGACAAT
    GCTCTGGAGA CGCGGCGGGC CGAGAGCCAC CCTCTGCATA GCCACCCGAC TACTTTTGAG
    CCCAGCCGCC AGGCCGCCGT GCCACTGGTG AAGGTGGAGC GAGTTTACTG CTCAGAGAAG
    GCAGAGGAGC CCCGGAAGCG TGAGGCCACA CCACTGGACA AATACCAGCC GCCGCCGCCA
    CCACCGCGGG AGGCAGGAAG TCTGGAGCCT CAGACCTTTC CCCACGGACC TGGGCCTTTC
    CTTACTGAAC TTGAGAAGTC AACACAGACC ATCTTGGGCC AGCAGCGGCC CTCTCTTTCC
    CAGGCAACCT CCTTCGGGGA GCTCAGTGGG CCTCTGAAGC CAGGCTCTCC GTACTGCCAC
    CCCACAGCGA GGGGCCCCGA TCCAGCCTAC ATCTACGATG AGTTTCTTCA GCAGCGACGG
    AGGCTGGTCA GCAAACTGGA CCTGGAGGAA CGCAGGCGGC GCGAGGCTCA GGAGAAAGGG
    TACTATTACG ACCTCGATGA CTCGTACGAC GAGAGTGACG AGGAGGAGGT CAGGGCACAT
    CTCCGCTGTG TGGCTGAGCA GCCGCCCCTC AAACTGGACA CGTCCTCAGA GAAGCTAGAG
    TTCTTGCAGC TTTTTGGCTT GACCACCCAA CAGCAGAAGG AGGAACTGGT GGCGCAGAAG
    CGCCGGAAGC GGAGGCGGAT GCTCAGAGAG AGAAGCCCGT CGCCACCTGC CGTTCAGTGC
    AAGCGACAGA CGCCTTCCCC CAGGCTGGCT CTGTCCACCC GCTACAGCCC CGACGAGATG
    AACAACAGCC CCAACTTTGA GGAGAAGAGG AAGTTCCTGA CCTTCTTCAA CCTGACACAC
    ATCAGTGCGG AGAAGAGGAA AGACAAAGAG AGGCTTGTTG AAATGCTCCG AGCCATGAAG
    CAGAGAGCAC TGTCCGCAGC AGACTCAGTG ACAAACTCTT CGAGGGACAG TCCTCCCATC
    TCCCTAAGTG AACCAGCCAC ACAGCCAGCT CCTCTAGAGA CGGATCAGCC TGTCGGGGTC
    CCTGCCTCCT TGTCAGATGT CCCAAAGGCC GCGGAGACTG GGAGACTGGA ACAGCTCCGG
    CCCCAGGAGC TCTTGAGAGT CCAGGAGCCG GCTCCTCCCA GCGGTGAGAA GGCCAGGCTG
    AGTGAGGCCC CTGGTGGCAA GAAGAGCCTG AGCATGCTCC ATTACCTCCG GGGCGCTGCG
    CCCAAGGACA TTCCTGTGCC GTTGTCTCAC AGCGTCAACG GGAAGAGCAA GCCCTGGGAG
    CCTTTCGTGG CCGAAGAGTT TGCACATCAA TTCCATGAGT CCGTGCTGCA GTCCACACAG
    AAGGCTCTGC AGAAGCATAA AGGGAATTGT GCTTTGCTAT CTGCAGAGCA GAGCCACAAA
    GTCGACACGG CAGTCCACTA CAACATTCCC GAGCTGCAGT CCTCCAGCAG GGTCCCCTTG
    CCCCAGCACA ATGGACAACA GGAGCCCCTG ACGGGGAGGA AGGGCCCTCC TATGCAGGAG
    GTGGACCAGG ACTCTGAGGA GGACTCGGAG GAGGACAGCG AGGAGGAAGC TGAGGAAGCC
    CCCAGGCGCC AGTGGCAAGG GATTGAGGCA ATCTTTGAAG CTTACCAGGA ACACATAGAA
    GAGCAAAACC TGGAGCGGCA GGTGCTACAG ACGCAGTGCC GGCGGCTGGA GGCGCAGAAC
    TACAGCCTCA GCCTGACTGC AGAGCAGCTG TCTCACAGCA TGGCGGAGCT TCGGAGTCAG
    AAACAGAAGA TGGTCTCTGA GCGGGAGCGG CTCCAGGCGG AGCTGGACCA CTTGCGGAAG
    TGCCTTGCCT TGCCCACCAT GCACTGGCCT AGGGGCTACT TTAAGGGATA TCCGAGGTGA

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

    RefSeq XP_021025607.2
    CDS320..3979
    Translation

    Target ORF information:

    RefSeq Version XM_021169948.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021169948.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGTTCGGAC TGAAGCCGCC TCTCTATTAC TTACCAGGCA TGAGCCATGA GCCCAAGTCC 
    CCTTCCATAG GGATGCTTTC CACGGCGACC AGGACCACCG CCACCGTCAA CCCCCTCACC
    CCCTCGCCAC TCAATGGCGC CCTGGTGCCC ACCGGTAGCC CGGCCACCAG CAGTGCGCTA
    TCGGCCCAGG CCGCTCCATC CTCCAGCTTT GCTGCCGCGC TGCGCAAGCT CGCCAAACAG
    GCAGAGGAGC CCAGAGGGTC CTCACTGAGC AGCGAGTCAT CTCCAGTGTC CTCTCCAGCC
    ACCAACCATA GCTCTCCAGC TAGCACGCCC AAACGAGTGC CCATGGGCCC CATCATCGTC
    CCCCCTGGGG GTCACAGTGT CCCCAGCACT CCCCCAGTGG TCACTATTGC CCCCACTAAA
    ACCGTCAACG GAGTCTGGAG AAGCGAGAGC CGCCAGGACT CCGGCTCACG AGGCAGCAGC
    AGTGGTCGGG AGCGCCTATT GGTGGAGCCG CCTCTGGCCC AGGAAAAGGC CGCGGGCCCC
    ACCATCCCCT CCCACCTACT CAGCACTCCC TACCCCTTTG GCCTTTCCCC CGGCTCAGTT
    GTACAGGACT CCCGCTTCCA ACCACTCAAC CTCCAGCGGC CTGTGCACCA TGTGGTGCCC
    CCCAGCACGG TGACCGAGGA CTACCTGAGA AGTTTCCGGC CCTACCACAC TGCTGAAGAC
    TTACGCATGT CCTCCTTGCC CCCGCTCGGC CTGGACCCAG CCACTGCCGC AGCCTACTAT
    CACCCCAGCT ACCTGGCCCC ACACCCGTTC CCCCACCCGG CCTTCAGGAT GGATGACTCC
    TATTGCCTGT CAGCCTTAAG GTCTCCGTTC TACCCCATCC CCACCCCTGG CTCCCTGCCT
    CCACTGCATC CTTCGGCGAT GCACCTTCAT CTCTCTGGTG TACGGTACCC TCCTGAGCTC
    TCCCACTCGT CCCTGGCGGC GCTACACTCG GAGCGGATGT CCAGCCTCAG TGCAGAGAGG
    TTGCAAATGG ACGAGGAACT GAGGCGGGAG AGAGAGCGGG AGCGGGAACG GGAGGCCGAC
    CGGGAGCGGG AGAAGGAGCG GGAACGGGAG CAGCGGGAGA AGGAGCGGGA GAAGGAGCTG
    GAGCGCGAGC GGGAGAAGGA ACGGGAACGC GAGCTGGAGC GGCAGCGGGA GCAGCGGGCA
    AGGGAGAAGG AGCTGCTGGC TGCCAAGGCC TTAGAGCCCA CCTCCTTCCT GCCTGTGGCC
    GAGCTGCACG GACTCCGGGG TCACAGCACG GAGGAGCGGC CCAAGCCCTC GGAGCAGCTG
    ACCCCAACCC GAGCAGAGAA GCTGAAGGAC GTGGGCTTGC AGGCGCCCAA GCCCGTGCAG
    CACCCTCTGC ACCCAGTGCC TGCCCCACAC CACACGGTGC CCAGCCTCAT CTCCAGCCAC
    GGCATCTTCT CTCTGCCTGG AAGCAGCGCC ACCACTGCCC TGCTGATCCA GCGCACCAAC
    GAGGAGGAGA AGTGGCTGGC ACGGCAGCGC CGCCTGCGGC AGGAGAAGGA AGACCGCCAG
    TCCCAGGTGT CCGAGTTCCG GCAGCAGGTC CTGGAGCAGC ACCTAGACCT GGGCCGGCCC
    CCCGTGCCCA CAGAGGTGGA GCACAGGCCC GAGAGCACCA GGCCAGGAAC AAACCGGCAT
    GAGCAGGGCA GCCGTGAACC CCCACAGCAC TTTGGTGGCC CTCCACCACT CATCTCACCC
    AAGCCCCAGC ACCACACCGT ACCCACAGCC CTCTGGAACC CAGTGTCTCT GATAGACAAT
    GCTCTGGAGA CGCGGCGGGC CGAGAGCCAC CCTCTGCATA GCCACCCGAC TACTTTTGAG
    CCCAGCCGCC AGGCCGCCGT GCCACTGGTG AAGGTGGAGC GAGTTTACTG CTCAGAGAAG
    GCAGAGGAGC CCCGGAAGCG TGAGGCCACA CCACTGGACA AATACCAGCC GCCGCCGCCA
    CCACCGCGGG AGGCAGGAAG TCTGGAGCCT CAGACCTTTC CCCACGGACC TGGGCCTTTC
    CTTACTGAAC TTGAGAAGTC AACACAGACC ATCTTGGGCC AGCAGCGGCC CTCTCTTTCC
    CAGGCAACCT CCTTCGGGGA GCTCAGTGGG CCTCTGAAGC CAGGCTCTCC GTACTGCCAC
    CCCACAGCGA GGGGCCCCGA TCCAGCCTAC ATCTACGATG AGTTTCTTCA GCAGCGACGG
    AGGCTGGTCA GCAAACTGGA CCTGGAGGAA CGCAGGCGGC GCGAGGCTCA GGAGAAAGGG
    TACTATTACG ACCTCGATGA CTCGTACGAC GAGAGTGACG AGGAGGAGGT CAGGGCACAT
    CTCCGCTGTG TGGCTGAGCA GCCGCCCCTC AAACTGGACA CGTCCTCAGA GAAGCTAGAG
    TTCTTGCAGC TTTTTGGCTT GACCACCCAA CAGCAGAAGG AGGAACTGGT GGCGCAGAAG
    CGCCGGAAGC GGAGGCGGAT GCTCAGAGAG AGAAGCCCGT CGCCACCTGC CGTTCAGTGC
    AAGCGACAGA CGCCTTCCCC CAGGCTGGCT CTGTCCACCC GCTACAGCCC CGACGAGATG
    AACAACAGCC CCAACTTTGA GGAGAAGAGG AAGTTCCTGA CCTTCTTCAA CCTGACACAC
    ATCAGTGCGG AGAAGAGGAA AGACAAAGAG AGGCTTGTTG AAATGCTCCG AGCCATGAAG
    CAGAGAGCAC TGTCCGCAGC AGACTCAGTG ACAAACTCTT CGAGGGACAG TCCTCCCATC
    TCCCTAAGTG AACCAGCCAC ACAGCCAGCT CCTCTAGAGA CGGATCAGCC TGTCGGGGTC
    CCTGCCTCCT TGTCAGATGT CCCAAAGGCC GCGGAGACTG GGAGACTGGA ACAGCTCCGG
    CCCCAGGAGC TCTTGAGAGT CCAGGAGCCG GCTCCTCCCA GCGGTGAGAA GGCCAGGCTG
    AGTGAGGCCC CTGGTGGCAA GAAGAGCCTG AGCATGCTCC ATTACCTCCG GGGCGCTGCG
    CCCAAGGACA TTCCTGTGCC GTTGTCTCAC AGCGTCAACG GGAAGAGCAA GCCCTGGGAG
    CCTTTCGTGG CCGAAGAGTT TGCACATCAA TTCCATGAGT CCGTGCTGCA GTCCACACAG
    AAGGCTCTGC AGAAGCATAA AGGGAATTGT GCTTTGCTAT CTGCAGAGCA GAGCCACAAA
    GTCGACACGG CAGTCCACTA CAACATTCCC GAGCTGCAGT CCTCCAGCAG GGTCCCCTTG
    CCCCAGCACA ATGGACAACA GGAGCCCCTG ACGGGGAGGA AGGGCCCTCC TATGCAGGAG
    GTGGACCAGG ACTCTGAGGA GGACTCGGAG GAGGACAGCG AGGAGGAAGC TGAGGAAGCC
    CCCAGGCGCC AGTGGCAAGG GATTGAGGCA ATCTTTGAAG CTTACCAGGA ACACATAGAA
    GAGCAAAACC TGGAGCGGCA GGTGCTACAG ACGCAGTGCC GGCGGCTGGA GGCGCAGAAC
    TACAGCCTCA GCCTGACTGC AGAGCAGCTG TCTCACAGCA TGGCGGAGCT TCGGAGTCAG
    AAACAGAAGA TGGTCTCTGA GCGGGAGCGG CTCCAGGCGG AGCTGGACCA CTTGCGGAAG
    TGCCTTGCCT TGCCCACCAT GCACTGGCCT AGGGGCTACT TTAAGGGATA TCCGAGGTGA

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

    CloneID OMv75283
    Clone ID Related Accession (Same CDS sequence) XM_029480386.1
    Accession Version XM_029480386.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3441bp)
    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 genetic suppressor element 1 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) 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
    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
    ATGTTCGGAC TGAAGCCGCC TCTCTATTAC TTACCAGGGT CCTCACTGAG CAGCGAGTCA 
    TCTCCAGTGT CCTCTCCAGC CACCAACCAT AGCTCTCCAG CTAGCACGCC CAAACGAGTG
    CCCATGGGCC CCATCATCGT CCCCCCTGGG GGTCACAGTG TCCCCAGCAC TCCCCCAGTG
    GTCACTATTG CCCCCACTAA AACCGTCAAC GGAGTCTGGA GAAGCGAGAG CCGCCAGGAC
    TCCGGCTCAC GAGGCAGCAG CAGTGGTCGG GAGCGCCTAT TGGTGGAGCC GCCTCTGGCC
    CAGGAAAAGG CCGCGGGCCC CACCATCCCC TCCCACCTAC TCAGCACTCC CTACCCCTTT
    GGCCTTTCCC CCGGCTCAGT TGTACAGGAC TCCCGCTTCC AACCACTCAA CCTCCAGCGG
    CCTGTGCACC ATGTGGTGCC CCCCAGCACG GTGACCGAGG ACTACCTGAG AAGTTTCCGG
    CCCTACCACA CTGCTGAAGA CTTACGCATG TCCTCCTTGC CCCCGCTCGG CCTGGACCCA
    GCCACTGCCG CAGCCTACTA TCACCCCAGC TACCTGGCCC CACACCCGTT CCCCCACCCG
    GCCTTCAGGA TGGATGACTC CTATTGCCTG TCAGCCTTAA GGTCTCCGTT CTACCCCATC
    CCCACCCCTG GCTCCCTGCC TCCACTGCAT CCTTCGGCGA TGCACCTTCA TCTCTCTGGT
    GTACGGTACC CTCCTGAGCT CTCCCACTCG TCCCTGGCGG CGCTACACTC GGAGCGGATG
    TCCAGCCTCA GTGCAGAGAG GTTGCAAATG GACGAGGAAC TGAGGCGGGA GAGAGAGCGG
    GAGCGGGAAC GGGAGGCCGA CCGGGAGCGG GAGAAGGAGC GGGAACGGGA GCAGCGGGAG
    AAGGAGCGGG AGAAGGAGCT GGAGCGCGAG CGGGAGAAGG AACGGGAACG CGAGCTGGAG
    CGGCAGCGGG AGCAGCGGGC AAGGGAGAAG GAGCTGCTGG CTGCCAAGGC CTTAGAGCCC
    ACCTCCTTCC TGCCTGTGGC CGAGCTGCAC GGACTCCGGG GTCACAGCAC GGAGGAGCGG
    CCCAAGCCCT CGGAGCAGCT GACCCCAACC CGAGCAGAGA AGCTGAAGGA CGTGGGCTTG
    CAGGCGCCCA AGCCCGTGCA GCACCCTCTG CACCCAGTGC CTGCCCCACA CCACACGGTG
    CCCAGCCTCA TCTCCAGCCA CGGCATCTTC TCTCTGCCTG GAAGCAGCGC CACCACTGCC
    CTGCTGATCC AGCGCACCAA CGAGGAGGAG AAGTGGCTGG CACGGCAGCG CCGCCTGCGG
    CAGGAGAAGG AAGACCGCCA GTCCCAGGTG TCCGAGTTCC GGCAGCAGGT CCTGGAGCAG
    CACCTAGACC TGGGCCGGCC CCCCGTGCCC ACAGAGGTGG AGCACAGGCC CGAGAGCACC
    AGGCCAGGAA CAAACCGGCA TGAGCAGGGC AGCCGTGAAC CCCCACAGCA CTTTGGTGGC
    CCTCCACCAC TCATCTCACC CAAGCCCCAG CACCACACCG TACCCACAGC CCTCTGGAAC
    CCAGTGTCTC TGATAGACAA TGCTCTGGAG ACGCGGCGGG CCGAGAGCCA CCCTCTGCAT
    AGCCACCCGA CTACTTTTGA GCCCAGCCGC CAGGCCGCCG TGCCACTGGT GAAGGTGGAG
    CGAGTTTACT GCTCAGAGAA GGCAGAGGAG CCCCGGAAGC GTGAGGCCAC ACCACTGGAC
    AAATACCAGC CGCCGCCGCC ACCACCGCGG GAGGCAGGAA GTCTGGAGCC TCAGACCTTT
    CCCCACGGAC CTGGGCCTTT CCTTACTGAA CTTGAGAAGT CAACACAGAC CATCTTGGGC
    CAGCAGCGGC CCTCTCTTTC CCAGGCAACC TCCTTCGGGG AGCTCAGTGG GCCTCTGAAG
    CCAGGCTCTC CGTACTGCCA CCCCACAGCG AGGGGCCCCG ATCCAGCCTA CATCTACGAT
    GAGTTTCTTC AGCAGCGACG GAGGCTGGTC AGCAAACTGG ACCTGGAGGA ACGCAGGCGG
    CGCGAGGCTC AGGAGAAAGG GTACTATTAC GACCTCGATG ACTCGTACGA CGAGAGTGAC
    GAGGAGGAGG TCAGGGCACA TCTCCGCTGT GTGGCTGAGC AGCCGCCCCT CAAACTGGAC
    ACGTCCTCAG AGAAGCTAGA GTTCTTGCAG CTTTTTGGCT TGACCACCCA ACAGCAGAAG
    GAGGAACTGG TGGCGCAGAA GCGCCGGAAG CGGAGGCGGA TGCTCAGAGA GAGAAGCCCG
    TCGCCACCTG CCGTTCAGTG CAAGCGACAG ACGCCTTCCC CCAGGCTGGC TCTGTCCACC
    CGCTACAGCC CCGACGAGAT GAACAACAGC CCCAACTTTG AGGAGAAGAG GAAGTTCCTG
    ACCTTCTTCA ACCTGACACA CATCAGTGCG GAGAAGAGGA AAGACAAAGA GAGGCTTGTT
    GAAATGCTCC GAGCCATGAA GCAGAGAGCA CTGTCCGCAG CAGACTCAGT GACAAACTCT
    TCGAGGGACA GTCCTCCCAT CTCCCTAAGT GAACCAGCCA CACAGCCAGC TCCTCTAGAG
    ACGGATCAGC CTGTCGGGGT CCCTGCCTCC TTGTCAGATG TCCCAAAGGC CGCGGAGACT
    GGGAGACTGG AACAGCTCCG GCCCCAGGAG CTCTTGAGAG TCCAGGAGCC GGCTCCTCCC
    AGCGGTGAGA AGGCCAGGCT GAGTGAGGCC CCTGGTGGCA AGAAGAGCCT GAGCATGCTC
    CATTACCTCC GGGGCGCTGC GCCCAAGGAC ATTCCTGTGC CGTTGTCTCA CAGCGTCAAC
    GGGAAGAGCA AGCCCTGGGA GCCTTTCGTG GCCGAAGAGT TTGCACATCA ATTCCATGAG
    TCCGTGCTGC AGTCCACACA GAAGGCTCTG CAGAAGCATA AAGGGAATTG TGCTTTGCTA
    TCTGCAGAGC AGAGCCACAA AGTCGACACG GCAGTCCACT ACAACATTCC CGAGCTGCAG
    TCCTCCAGCA GGGTCCCCTT GCCCCAGCAC AATGGACAAC AGGAGCCCCT GACGGGGAGG
    AAGGGCCCTC CTATGCAGGA GGTGGACCAG GACTCTGAGG AGGACTCGGA GGAGGACAGC
    GAGGAGGAAG CTGAGGAAGC CCCCAGGCGC CAGTGGCAAG GGATTGAGGC AATCTTTGAA
    GCTTACCAGG AACACATAGA AGAGCAAAAC CTGGAGCGGC AGGTGCTACA GACGCAGTGC
    CGGCGGCTGG AGGCGCAGAA CTACAGCCTC AGCCTGACTG CAGAGCAGCT GTCTCACAGC
    ATGGCGGAGC TTCGGAGTCA GAAACAGAAG ATGGTCTCTG AGCGGGAGCG GCTCCAGGCG
    GAGCTGGACC ACTTGCGGAA GTGCCTTGCC TTGCCCACCA TGCACTGGCC TAGGGGCTAC
    TTTAAGGGAT ATCCGAGGTG A

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

    RefSeq XP_029336246.1
    CDS320..3760
    Translation

    Target ORF information:

    RefSeq Version XM_029480386.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029480386.1

    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
    ATGTTCGGAC TGAAGCCGCC TCTCTATTAC TTACCAGGGT CCTCACTGAG CAGCGAGTCA 
    TCTCCAGTGT CCTCTCCAGC CACCAACCAT AGCTCTCCAG CTAGCACGCC CAAACGAGTG
    CCCATGGGCC CCATCATCGT CCCCCCTGGG GGTCACAGTG TCCCCAGCAC TCCCCCAGTG
    GTCACTATTG CCCCCACTAA AACCGTCAAC GGAGTCTGGA GAAGCGAGAG CCGCCAGGAC
    TCCGGCTCAC GAGGCAGCAG CAGTGGTCGG GAGCGCCTAT TGGTGGAGCC GCCTCTGGCC
    CAGGAAAAGG CCGCGGGCCC CACCATCCCC TCCCACCTAC TCAGCACTCC CTACCCCTTT
    GGCCTTTCCC CCGGCTCAGT TGTACAGGAC TCCCGCTTCC AACCACTCAA CCTCCAGCGG
    CCTGTGCACC ATGTGGTGCC CCCCAGCACG GTGACCGAGG ACTACCTGAG AAGTTTCCGG
    CCCTACCACA CTGCTGAAGA CTTACGCATG TCCTCCTTGC CCCCGCTCGG CCTGGACCCA
    GCCACTGCCG CAGCCTACTA TCACCCCAGC TACCTGGCCC CACACCCGTT CCCCCACCCG
    GCCTTCAGGA TGGATGACTC CTATTGCCTG TCAGCCTTAA GGTCTCCGTT CTACCCCATC
    CCCACCCCTG GCTCCCTGCC TCCACTGCAT CCTTCGGCGA TGCACCTTCA TCTCTCTGGT
    GTACGGTACC CTCCTGAGCT CTCCCACTCG TCCCTGGCGG CGCTACACTC GGAGCGGATG
    TCCAGCCTCA GTGCAGAGAG GTTGCAAATG GACGAGGAAC TGAGGCGGGA GAGAGAGCGG
    GAGCGGGAAC GGGAGGCCGA CCGGGAGCGG GAGAAGGAGC GGGAACGGGA GCAGCGGGAG
    AAGGAGCGGG AGAAGGAGCT GGAGCGCGAG CGGGAGAAGG AACGGGAACG CGAGCTGGAG
    CGGCAGCGGG AGCAGCGGGC AAGGGAGAAG GAGCTGCTGG CTGCCAAGGC CTTAGAGCCC
    ACCTCCTTCC TGCCTGTGGC CGAGCTGCAC GGACTCCGGG GTCACAGCAC GGAGGAGCGG
    CCCAAGCCCT CGGAGCAGCT GACCCCAACC CGAGCAGAGA AGCTGAAGGA CGTGGGCTTG
    CAGGCGCCCA AGCCCGTGCA GCACCCTCTG CACCCAGTGC CTGCCCCACA CCACACGGTG
    CCCAGCCTCA TCTCCAGCCA CGGCATCTTC TCTCTGCCTG GAAGCAGCGC CACCACTGCC
    CTGCTGATCC AGCGCACCAA CGAGGAGGAG AAGTGGCTGG CACGGCAGCG CCGCCTGCGG
    CAGGAGAAGG AAGACCGCCA GTCCCAGGTG TCCGAGTTCC GGCAGCAGGT CCTGGAGCAG
    CACCTAGACC TGGGCCGGCC CCCCGTGCCC ACAGAGGTGG AGCACAGGCC CGAGAGCACC
    AGGCCAGGAA CAAACCGGCA TGAGCAGGGC AGCCGTGAAC CCCCACAGCA CTTTGGTGGC
    CCTCCACCAC TCATCTCACC CAAGCCCCAG CACCACACCG TACCCACAGC CCTCTGGAAC
    CCAGTGTCTC TGATAGACAA TGCTCTGGAG ACGCGGCGGG CCGAGAGCCA CCCTCTGCAT
    AGCCACCCGA CTACTTTTGA GCCCAGCCGC CAGGCCGCCG TGCCACTGGT GAAGGTGGAG
    CGAGTTTACT GCTCAGAGAA GGCAGAGGAG CCCCGGAAGC GTGAGGCCAC ACCACTGGAC
    AAATACCAGC CGCCGCCGCC ACCACCGCGG GAGGCAGGAA GTCTGGAGCC TCAGACCTTT
    CCCCACGGAC CTGGGCCTTT CCTTACTGAA CTTGAGAAGT CAACACAGAC CATCTTGGGC
    CAGCAGCGGC CCTCTCTTTC CCAGGCAACC TCCTTCGGGG AGCTCAGTGG GCCTCTGAAG
    CCAGGCTCTC CGTACTGCCA CCCCACAGCG AGGGGCCCCG ATCCAGCCTA CATCTACGAT
    GAGTTTCTTC AGCAGCGACG GAGGCTGGTC AGCAAACTGG ACCTGGAGGA ACGCAGGCGG
    CGCGAGGCTC AGGAGAAAGG GTACTATTAC GACCTCGATG ACTCGTACGA CGAGAGTGAC
    GAGGAGGAGG TCAGGGCACA TCTCCGCTGT GTGGCTGAGC AGCCGCCCCT CAAACTGGAC
    ACGTCCTCAG AGAAGCTAGA GTTCTTGCAG CTTTTTGGCT TGACCACCCA ACAGCAGAAG
    GAGGAACTGG TGGCGCAGAA GCGCCGGAAG CGGAGGCGGA TGCTCAGAGA GAGAAGCCCG
    TCGCCACCTG CCGTTCAGTG CAAGCGACAG ACGCCTTCCC CCAGGCTGGC TCTGTCCACC
    CGCTACAGCC CCGACGAGAT GAACAACAGC CCCAACTTTG AGGAGAAGAG GAAGTTCCTG
    ACCTTCTTCA ACCTGACACA CATCAGTGCG GAGAAGAGGA AAGACAAAGA GAGGCTTGTT
    GAAATGCTCC GAGCCATGAA GCAGAGAGCA CTGTCCGCAG CAGACTCAGT GACAAACTCT
    TCGAGGGACA GTCCTCCCAT CTCCCTAAGT GAACCAGCCA CACAGCCAGC TCCTCTAGAG
    ACGGATCAGC CTGTCGGGGT CCCTGCCTCC TTGTCAGATG TCCCAAAGGC CGCGGAGACT
    GGGAGACTGG AACAGCTCCG GCCCCAGGAG CTCTTGAGAG TCCAGGAGCC GGCTCCTCCC
    AGCGGTGAGA AGGCCAGGCT GAGTGAGGCC CCTGGTGGCA AGAAGAGCCT GAGCATGCTC
    CATTACCTCC GGGGCGCTGC GCCCAAGGAC ATTCCTGTGC CGTTGTCTCA CAGCGTCAAC
    GGGAAGAGCA AGCCCTGGGA GCCTTTCGTG GCCGAAGAGT TTGCACATCA ATTCCATGAG
    TCCGTGCTGC AGTCCACACA GAAGGCTCTG CAGAAGCATA AAGGGAATTG TGCTTTGCTA
    TCTGCAGAGC AGAGCCACAA AGTCGACACG GCAGTCCACT ACAACATTCC CGAGCTGCAG
    TCCTCCAGCA GGGTCCCCTT GCCCCAGCAC AATGGACAAC AGGAGCCCCT GACGGGGAGG
    AAGGGCCCTC CTATGCAGGA GGTGGACCAG GACTCTGAGG AGGACTCGGA GGAGGACAGC
    GAGGAGGAAG CTGAGGAAGC CCCCAGGCGC CAGTGGCAAG GGATTGAGGC AATCTTTGAA
    GCTTACCAGG AACACATAGA AGAGCAAAAC CTGGAGCGGC AGGTGCTACA GACGCAGTGC
    CGGCGGCTGG AGGCGCAGAA CTACAGCCTC AGCCTGACTG CAGAGCAGCT GTCTCACAGC
    ATGGCGGAGC TTCGGAGTCA GAAACAGAAG ATGGTCTCTG AGCGGGAGCG GCTCCAGGCG
    GAGCTGGACC ACTTGCGGAA GTGCCTTGCC TTGCCCACCA TGCACTGGCC TAGGGGCTAC
    TTTAAGGGAT ATCCGAGGTG A

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

    CloneID OMv75284
    Clone ID Related Accession (Same CDS sequence) XM_029480387.1
    Accession Version XM_029480387.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3630bp)
    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 genetic suppressor element 1 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) 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
    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
    ATGAAAGGCA TGAGCCATGA GCCCAAGTCC CCTTCCATAG GGATGCTTTC CACGGCGACC 
    AGGACCACCG CCACCGTCAA CCCCCTCACC CCCTCGCCAC TCAATGGCGC CCTGGTGCCC
    ACCGGTAGCC CGGCCACCAG CAGTGCGCTA TCGGCCCAGG CCGCTCCATC CTCCAGCTTT
    GCTGCCGCGC TGCGCAAGCT CGCCAAACAG GCAGAGGAGC CCAGAGGGTC CTCACTGAGC
    AGCGAGTCAT CTCCAGTGTC CTCTCCAGCC ACCAACCATA GCTCTCCAGC TAGCACGCCC
    AAACGAGTGC CCATGGGCCC CATCATCGTC CCCCCTGGGG GTCACAGTGT CCCCAGCACT
    CCCCCAGTGG TCACTATTGC CCCCACTAAA ACCGTCAACG GAGTCTGGAG AAGCGAGAGC
    CGCCAGGACT CCGGCTCACG AGGCAGCAGC AGTGGTCGGG AGCGCCTATT GGTGGAGCCG
    CCTCTGGCCC AGGAAAAGGC CGCGGGCCCC ACCATCCCCT CCCACCTACT CAGCACTCCC
    TACCCCTTTG GCCTTTCCCC CGGCTCAGTT GTACAGGACT CCCGCTTCCA ACCACTCAAC
    CTCCAGCGGC CTGTGCACCA TGTGGTGCCC CCCAGCACGG TGACCGAGGA CTACCTGAGA
    AGTTTCCGGC CCTACCACAC TGCTGAAGAC TTACGCATGT CCTCCTTGCC CCCGCTCGGC
    CTGGACCCAG CCACTGCCGC AGCCTACTAT CACCCCAGCT ACCTGGCCCC ACACCCGTTC
    CCCCACCCGG CCTTCAGGAT GGATGACTCC TATTGCCTGT CAGCCTTAAG GTCTCCGTTC
    TACCCCATCC CCACCCCTGG CTCCCTGCCT CCACTGCATC CTTCGGCGAT GCACCTTCAT
    CTCTCTGGTG TACGGTACCC TCCTGAGCTC TCCCACTCGT CCCTGGCGGC GCTACACTCG
    GAGCGGATGT CCAGCCTCAG TGCAGAGAGG TTGCAAATGG ACGAGGAACT GAGGCGGGAG
    AGAGAGCGGG AGCGGGAACG GGAGGCCGAC CGGGAGCGGG AGAAGGAGCG GGAACGGGAG
    CAGCGGGAGA AGGAGCGGGA GAAGGAGCTG GAGCGCGAGC GGGAGAAGGA ACGGGAACGC
    GAGCTGGAGC GGCAGCGGGA GCAGCGGGCA AGGGAGAAGG AGCTGCTGGC TGCCAAGGCC
    TTAGAGCCCA CCTCCTTCCT GCCTGTGGCC GAGCTGCACG GACTCCGGGG TCACAGCACG
    GAGGAGCGGC CCAAGCCCTC GGAGCAGCTG ACCCCAACCC GAGCAGAGAA GCTGAAGGAC
    GTGGGCTTGC AGGCGCCCAA GCCCGTGCAG CACCCTCTGC ACCCAGTGCC TGCCCCACAC
    CACACGGTGC CCAGCCTCAT CTCCAGCCAC GGCATCTTCT CTCTGCCTGG AAGCAGCGCC
    ACCACTGCCC TGCTGATCCA GCGCACCAAC GAGGAGGAGA AGTGGCTGGC ACGGCAGCGC
    CGCCTGCGGC AGGAGAAGGA AGACCGCCAG TCCCAGGTGT CCGAGTTCCG GCAGCAGGTC
    CTGGAGCAGC ACCTAGACCT GGGCCGGCCC CCCGTGCCCA CAGAGGTGGA GCACAGGCCC
    GAGAGCACCA GGCCAGGAAC AAACCGGCAT GAGCAGGGCA GCCGTGAACC CCCACAGCAC
    TTTGGTGGCC CTCCACCACT CATCTCACCC AAGCCCCAGC ACCACACCGT ACCCACAGCC
    CTCTGGAACC CAGTGTCTCT GATAGACAAT GCTCTGGAGA CGCGGCGGGC CGAGAGCCAC
    CCTCTGCATA GCCACCCGAC TACTTTTGAG CCCAGCCGCC AGGCCGCCGT GCCACTGGTG
    AAGGTGGAGC GAGTTTACTG CTCAGAGAAG GCAGAGGAGC CCCGGAAGCG TGAGGCCACA
    CCACTGGACA AATACCAGCC GCCGCCGCCA CCACCGCGGG AGGCAGGAAG TCTGGAGCCT
    CAGACCTTTC CCCACGGACC TGGGCCTTTC CTTACTGAAC TTGAGAAGTC AACACAGACC
    ATCTTGGGCC AGCAGCGGCC CTCTCTTTCC CAGGCAACCT CCTTCGGGGA GCTCAGTGGG
    CCTCTGAAGC CAGGCTCTCC GTACTGCCAC CCCACAGCGA GGGGCCCCGA TCCAGCCTAC
    ATCTACGATG AGTTTCTTCA GCAGCGACGG AGGCTGGTCA GCAAACTGGA CCTGGAGGAA
    CGCAGGCGGC GCGAGGCTCA GGAGAAAGGG TACTATTACG ACCTCGATGA CTCGTACGAC
    GAGAGTGACG AGGAGGAGGT CAGGGCACAT CTCCGCTGTG TGGCTGAGCA GCCGCCCCTC
    AAACTGGACA CGTCCTCAGA GAAGCTAGAG TTCTTGCAGC TTTTTGGCTT GACCACCCAA
    CAGCAGAAGG AGGAACTGGT GGCGCAGAAG CGCCGGAAGC GGAGGCGGAT GCTCAGAGAG
    AGAAGCCCGT CGCCACCTGC CGTTCAGTGC AAGCGACAGA CGCCTTCCCC CAGGCTGGCT
    CTGTCCACCC GCTACAGCCC CGACGAGATG AACAACAGCC CCAACTTTGA GGAGAAGAGG
    AAGTTCCTGA CCTTCTTCAA CCTGACACAC ATCAGTGCGG AGAAGAGGAA AGACAAAGAG
    AGGCTTGTTG AAATGCTCCG AGCCATGAAG CAGAGAGCAC TGTCCGCAGC AGACTCAGTG
    ACAAACTCTT CGAGGGACAG TCCTCCCATC TCCCTAAGTG AACCAGCCAC ACAGCCAGCT
    CCTCTAGAGA CGGATCAGCC TGTCGGGGTC CCTGCCTCCT TGTCAGATGT CCCAAAGGCC
    GCGGAGACTG GGAGACTGGA ACAGCTCCGG CCCCAGGAGC TCTTGAGAGT CCAGGAGCCG
    GCTCCTCCCA GCGGTGAGAA GGCCAGGCTG AGTGAGGCCC CTGGTGGCAA GAAGAGCCTG
    AGCATGCTCC ATTACCTCCG GGGCGCTGCG CCCAAGGACA TTCCTGTGCC GTTGTCTCAC
    AGCGTCAACG GGAAGAGCAA GCCCTGGGAG CCTTTCGTGG CCGAAGAGTT TGCACATCAA
    TTCCATGAGT CCGTGCTGCA GTCCACACAG AAGGCTCTGC AGAAGCATAA AGGGAATTGT
    GCTTTGCTAT CTGCAGAGCA GAGCCACAAA GTCGACACGG CAGTCCACTA CAACATTCCC
    GAGCTGCAGT CCTCCAGCAG GGTCCCCTTG CCCCAGCACA ATGGACAACA GGAGCCCCTG
    ACGGGGAGGA AGGGCCCTCC TATGCAGGAG GTGGACCAGG ACTCTGAGGA GGACTCGGAG
    GAGGACAGCG AGGAGGAAGC TGAGGAAGCC CCCAGGCGCC AGTGGCAAGG GATTGAGGCA
    ATCTTTGAAG CTTACCAGGA ACACATAGAA GAGCAAAACC TGGAGCGGCA GGTGCTACAG
    ACGCAGTGCC GGCGGCTGGA GGCGCAGAAC TACAGCCTCA GCCTGACTGC AGAGCAGCTG
    TCTCACAGCA TGGCGGAGCT TCGGAGTCAG AAACAGAAGA TGGTCTCTGA GCGGGAGCGG
    CTCCAGGCGG AGCTGGACCA CTTGCGGAAG TGCCTTGCCT TGCCCACCAT GCACTGGCCT
    AGGGGCTACT TTAAGGGATA TCCGAGGTGA

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

    RefSeq XP_029336247.1
    CDS301..3930
    Translation

    Target ORF information:

    RefSeq Version XM_029480387.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029480387.1

    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
    ATGAAAGGCA TGAGCCATGA GCCCAAGTCC CCTTCCATAG GGATGCTTTC CACGGCGACC 
    AGGACCACCG CCACCGTCAA CCCCCTCACC CCCTCGCCAC TCAATGGCGC CCTGGTGCCC
    ACCGGTAGCC CGGCCACCAG CAGTGCGCTA TCGGCCCAGG CCGCTCCATC CTCCAGCTTT
    GCTGCCGCGC TGCGCAAGCT CGCCAAACAG GCAGAGGAGC CCAGAGGGTC CTCACTGAGC
    AGCGAGTCAT CTCCAGTGTC CTCTCCAGCC ACCAACCATA GCTCTCCAGC TAGCACGCCC
    AAACGAGTGC CCATGGGCCC CATCATCGTC CCCCCTGGGG GTCACAGTGT CCCCAGCACT
    CCCCCAGTGG TCACTATTGC CCCCACTAAA ACCGTCAACG GAGTCTGGAG AAGCGAGAGC
    CGCCAGGACT CCGGCTCACG AGGCAGCAGC AGTGGTCGGG AGCGCCTATT GGTGGAGCCG
    CCTCTGGCCC AGGAAAAGGC CGCGGGCCCC ACCATCCCCT CCCACCTACT CAGCACTCCC
    TACCCCTTTG GCCTTTCCCC CGGCTCAGTT GTACAGGACT CCCGCTTCCA ACCACTCAAC
    CTCCAGCGGC CTGTGCACCA TGTGGTGCCC CCCAGCACGG TGACCGAGGA CTACCTGAGA
    AGTTTCCGGC CCTACCACAC TGCTGAAGAC TTACGCATGT CCTCCTTGCC CCCGCTCGGC
    CTGGACCCAG CCACTGCCGC AGCCTACTAT CACCCCAGCT ACCTGGCCCC ACACCCGTTC
    CCCCACCCGG CCTTCAGGAT GGATGACTCC TATTGCCTGT CAGCCTTAAG GTCTCCGTTC
    TACCCCATCC CCACCCCTGG CTCCCTGCCT CCACTGCATC CTTCGGCGAT GCACCTTCAT
    CTCTCTGGTG TACGGTACCC TCCTGAGCTC TCCCACTCGT CCCTGGCGGC GCTACACTCG
    GAGCGGATGT CCAGCCTCAG TGCAGAGAGG TTGCAAATGG ACGAGGAACT GAGGCGGGAG
    AGAGAGCGGG AGCGGGAACG GGAGGCCGAC CGGGAGCGGG AGAAGGAGCG GGAACGGGAG
    CAGCGGGAGA AGGAGCGGGA GAAGGAGCTG GAGCGCGAGC GGGAGAAGGA ACGGGAACGC
    GAGCTGGAGC GGCAGCGGGA GCAGCGGGCA AGGGAGAAGG AGCTGCTGGC TGCCAAGGCC
    TTAGAGCCCA CCTCCTTCCT GCCTGTGGCC GAGCTGCACG GACTCCGGGG TCACAGCACG
    GAGGAGCGGC CCAAGCCCTC GGAGCAGCTG ACCCCAACCC GAGCAGAGAA GCTGAAGGAC
    GTGGGCTTGC AGGCGCCCAA GCCCGTGCAG CACCCTCTGC ACCCAGTGCC TGCCCCACAC
    CACACGGTGC CCAGCCTCAT CTCCAGCCAC GGCATCTTCT CTCTGCCTGG AAGCAGCGCC
    ACCACTGCCC TGCTGATCCA GCGCACCAAC GAGGAGGAGA AGTGGCTGGC ACGGCAGCGC
    CGCCTGCGGC AGGAGAAGGA AGACCGCCAG TCCCAGGTGT CCGAGTTCCG GCAGCAGGTC
    CTGGAGCAGC ACCTAGACCT GGGCCGGCCC CCCGTGCCCA CAGAGGTGGA GCACAGGCCC
    GAGAGCACCA GGCCAGGAAC AAACCGGCAT GAGCAGGGCA GCCGTGAACC CCCACAGCAC
    TTTGGTGGCC CTCCACCACT CATCTCACCC AAGCCCCAGC ACCACACCGT ACCCACAGCC
    CTCTGGAACC CAGTGTCTCT GATAGACAAT GCTCTGGAGA CGCGGCGGGC CGAGAGCCAC
    CCTCTGCATA GCCACCCGAC TACTTTTGAG CCCAGCCGCC AGGCCGCCGT GCCACTGGTG
    AAGGTGGAGC GAGTTTACTG CTCAGAGAAG GCAGAGGAGC CCCGGAAGCG TGAGGCCACA
    CCACTGGACA AATACCAGCC GCCGCCGCCA CCACCGCGGG AGGCAGGAAG TCTGGAGCCT
    CAGACCTTTC CCCACGGACC TGGGCCTTTC CTTACTGAAC TTGAGAAGTC AACACAGACC
    ATCTTGGGCC AGCAGCGGCC CTCTCTTTCC CAGGCAACCT CCTTCGGGGA GCTCAGTGGG
    CCTCTGAAGC CAGGCTCTCC GTACTGCCAC CCCACAGCGA GGGGCCCCGA TCCAGCCTAC
    ATCTACGATG AGTTTCTTCA GCAGCGACGG AGGCTGGTCA GCAAACTGGA CCTGGAGGAA
    CGCAGGCGGC GCGAGGCTCA GGAGAAAGGG TACTATTACG ACCTCGATGA CTCGTACGAC
    GAGAGTGACG AGGAGGAGGT CAGGGCACAT CTCCGCTGTG TGGCTGAGCA GCCGCCCCTC
    AAACTGGACA CGTCCTCAGA GAAGCTAGAG TTCTTGCAGC TTTTTGGCTT GACCACCCAA
    CAGCAGAAGG AGGAACTGGT GGCGCAGAAG CGCCGGAAGC GGAGGCGGAT GCTCAGAGAG
    AGAAGCCCGT CGCCACCTGC CGTTCAGTGC AAGCGACAGA CGCCTTCCCC CAGGCTGGCT
    CTGTCCACCC GCTACAGCCC CGACGAGATG AACAACAGCC CCAACTTTGA GGAGAAGAGG
    AAGTTCCTGA CCTTCTTCAA CCTGACACAC ATCAGTGCGG AGAAGAGGAA AGACAAAGAG
    AGGCTTGTTG AAATGCTCCG AGCCATGAAG CAGAGAGCAC TGTCCGCAGC AGACTCAGTG
    ACAAACTCTT CGAGGGACAG TCCTCCCATC TCCCTAAGTG AACCAGCCAC ACAGCCAGCT
    CCTCTAGAGA CGGATCAGCC TGTCGGGGTC CCTGCCTCCT TGTCAGATGT CCCAAAGGCC
    GCGGAGACTG GGAGACTGGA ACAGCTCCGG CCCCAGGAGC TCTTGAGAGT CCAGGAGCCG
    GCTCCTCCCA GCGGTGAGAA GGCCAGGCTG AGTGAGGCCC CTGGTGGCAA GAAGAGCCTG
    AGCATGCTCC ATTACCTCCG GGGCGCTGCG CCCAAGGACA TTCCTGTGCC GTTGTCTCAC
    AGCGTCAACG GGAAGAGCAA GCCCTGGGAG CCTTTCGTGG CCGAAGAGTT TGCACATCAA
    TTCCATGAGT CCGTGCTGCA GTCCACACAG AAGGCTCTGC AGAAGCATAA AGGGAATTGT
    GCTTTGCTAT CTGCAGAGCA GAGCCACAAA GTCGACACGG CAGTCCACTA CAACATTCCC
    GAGCTGCAGT CCTCCAGCAG GGTCCCCTTG CCCCAGCACA ATGGACAACA GGAGCCCCTG
    ACGGGGAGGA AGGGCCCTCC TATGCAGGAG GTGGACCAGG ACTCTGAGGA GGACTCGGAG
    GAGGACAGCG AGGAGGAAGC TGAGGAAGCC CCCAGGCGCC AGTGGCAAGG GATTGAGGCA
    ATCTTTGAAG CTTACCAGGA ACACATAGAA GAGCAAAACC TGGAGCGGCA GGTGCTACAG
    ACGCAGTGCC GGCGGCTGGA GGCGCAGAAC TACAGCCTCA GCCTGACTGC AGAGCAGCTG
    TCTCACAGCA TGGCGGAGCT TCGGAGTCAG AAACAGAAGA TGGTCTCTGA GCGGGAGCGG
    CTCCAGGCGG AGCTGGACCA CTTGCGGAAG TGCCTTGCCT TGCCCACCAT GCACTGGCCT
    AGGGGCTACT TTAAGGGATA TCCGAGGTGA

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

    CloneID OMv75280
    Clone ID Related Accession (Same CDS sequence) XM_021169947.2
    Accession Version XM_021169947.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5712bp)
    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 genetic suppressor element 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021169947.1. ##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
    ATGGCAGCGG CGGGCGCGGC CCTGTCGTGC TTCATCTGCG GCGGCGGCAT CGCGCGCGGC 
    AAGGAGCTGA AGCTGCCGGT GAGGCCGGCG GGCCCCGCGC AGCCCTTCTT CCCGTTCCTG
    CAGCAGCAGG AGCCGGCGCC CGGCGCGCGC GGGCTGAGCG CGGCCGATGG CTGCGTGCTG
    GTGTGCGCCG TGTGCCGCTG CTTCCTGGCC GAGCAGTGGG CCGCCTTCGA GCGCGCGCGC
    ACGCCCGTGG ACAAGCGCGT GTACTGGCTC AAGAGGCCGC ATCAGTGCGA CGCGAGCGCG
    GCCGGCCGGC GCGGGGCCCG CGAGTGGAAC ACCGAGGACG CGCGCGACTC GGAGCTGTCG
    GAGCTGTCGG ACGCTGACGC GCTGCCGGAA CCTGAGCCTG AGCCCGAGCC CGAGCCGGAG
    CCGGAGCCTG AGTCCGAGGA TGCGCACGAC TCCAGCAAGT CCGGAGCCCG GCGCCGGCGC
    ACGGGGCCAG GGGCGCACTG GGCTCCGGAG CCGCGAGCCA GCGTGCTGAG GGGCATCCAG
    GAACCCTGGC CCGGCCCCGC TGCGCCCGAC GGCACGGACG GCGCCGCCTC CAGCCGGCCC
    GCGGCGCCCC CAGAGCGCAG TAGCACCCCC GAGGGCAGCG ACGTCGCCGG GAGCCTCGGG
    GACGAAGGGC TGGAGCGGCC TCCCCGGACG CCCGCGGACA GCCAGGCCCG CTGCTGCTAC
    GTCTGTGGCT CGGCGCTGTC ACCGGCCTCG CAGCAGCAGA TCCACGTGCA GAAGCAGGAG
    ACTCCCGCCC AGGCGCCCTT CTTCCCCTTC CTGTGGCTGC ATAGCCCCCC GCCCGGCGCC
    CAGCCCATCA CCGAGGCGGG CAGCACCCTC GTGTGTCCCT GCTGCTTCTC GTCCCTCACA
    CACCAGTGGC AGAGCTTTGA GCTGGCCAAC GTGCCGGTCT TGCAGCGGCT CTACGTGGTG
    CCCCTGAACA GCCACGCCCC CGGCATGGCC TCCAAGGCCC GGAGACTCCC TAGGGAAGAG
    GTTCCCGCCC CCACCGCGGG GCTACTGCGG GAAGCCTGCT ACCTCTGTGG GGAGGACTGT
    ACACGGGATG CCCGGGCTGT GCCCTCCCGC CTTGTCAACG GCAACTCTGG GGGCTCCATG
    CACTTCCCCT TCCTTAGCCT CCTGCCCTGC CCACCCAACG CTCGGCCCCC CAACAAGCGC
    TGCGAGGTTC GCAGCTGCCC CAAGTGCTTC AGCGTCCTGG AGGACGTCTG GGCCCTGTAC
    CGGGCATCGC ACAACCGTGA TCTCATCAGC TCTGTGCAAG GCTTCCTGGG CAGGTACCAC
    CAAGCCTTCT CTGCCTCGGA CCCTACCCTG AGCGAACTGC CCACTTCTGC GCAGGGAGGC
    CCGCCTGCGG TCTGCTACAT CTGCGGAGCT GAGCTGGGGC CGGGCAAGGA GTTCCAGCTC
    AGCATGAACC CCGCCAGCCA CCTGGGCGAG AAGGAACCCT TCTTTCCCTT CCTCACCGTC
    TATCCGCCCG CCCCACGGGC CAGGCCTGCA GACTCCACGG GCCTGGTGGC AACCTGTGTG
    CTCTGCTATC ATGACCTGCT GGGTCAGTGG CTGCAGCACG AAGCCAGAGC CGCTCACCAG
    CCGGTCAGCG CCTGGTCGAG GCAGTACCAA GTGGACACAT TCGTGTGCTT CTTCTGTCAG
    CAAGAGAAGA AACGGTGTCT GGGGCTGAAG TCCGTGAGAG TGGCCAGGCT CCCCTTGTTC
    CTGTATACCC TGAGAGCCAG CCACAGCCTG TTGGTGGATG ATGGCCGGCA GCTGATCATC
    GGTGCCTGCG TGGAATGCGG GACCCTGGTT TGTGCAGGCC AAGGGGTTGC CAGCCAGGGA
    CCCATGGGCT GGAGCTCTCC AACAGCAGGA GTAACAAAGG TTACCTCAGC TCCCCTGGAG
    GCACCTGCAA TTGTCCATGC TCCTGCATCA GAGCCCGAGC TACAGCCAGT GCCCCCCACA
    GACAGTCTAT CCAGGGGCAT CAGGACCACC CAGGAGCCGC TGCCAGTGTC GAGCCAGCAG
    AGCAGCCGGG ACAGCTGGGA TGGAGATGGC GTAGACCTCA CAGCTACAGG CATGAGCCAT
    GAGCCCAAGT CCCCTTCCAT AGGGATGCTT TCCACGGCGA CCAGGACCAC CGCCACCGTC
    AACCCCCTCA CCCCCTCGCC ACTCAATGGC GCCCTGGTGC CCACCGGTAG CCCGGCCACC
    AGCAGTGCGC TATCGGCCCA GGCCGCTCCA TCCTCCAGCT TTGCTGCCGC GCTGCGCAAG
    CTCGCCAAAC AGGCAGAGGA GCCCAGAGGG TCCTCACTGA GCAGCGAGTC ATCTCCAGTG
    TCCTCTCCAG CCACCAACCA TAGCTCTCCA GCTAGCACGC CCAAACGAGT GCCCATGGGC
    CCCATCATCG TCCCCCCTGG GGGTCACAGT GTCCCCAGCA CTCCCCCAGT GGTCACTATT
    GCCCCCACTA AAACCGTCAA CGGAGTCTGG AGAAGCGAGA GCCGCCAGGA CTCCGGCTCA
    CGAGGCAGCA GCAGTGGTCG GGAGCGCCTA TTGGTGGAGC CGCCTCTGGC CCAGGAAAAG
    GCCGCGGGCC CCACCATCCC CTCCCACCTA CTCAGCACTC CCTACCCCTT TGGCCTTTCC
    CCCGGCTCAG TTGTACAGGA CTCCCGCTTC CAACCACTCA ACCTCCAGCG GCCTGTGCAC
    CATGTGGTGC CCCCCAGCAC GGTGACCGAG GACTACCTGA GAAGTTTCCG GCCCTACCAC
    ACTGCTGAAG ACTTACGCAT GTCCTCCTTG CCCCCGCTCG GCCTGGACCC AGCCACTGCC
    GCAGCCTACT ATCACCCCAG CTACCTGGCC CCACACCCGT TCCCCCACCC GGCCTTCAGG
    ATGGATGACT CCTATTGCCT GTCAGCCTTA AGGTCTCCGT TCTACCCCAT CCCCACCCCT
    GGCTCCCTGC CTCCACTGCA TCCTTCGGCG ATGCACCTTC ATCTCTCTGG TGTACGGTAC
    CCTCCTGAGC TCTCCCACTC GTCCCTGGCG GCGCTACACT CGGAGCGGAT GTCCAGCCTC
    AGTGCAGAGA GGTTGCAAAT GGACGAGGAA CTGAGGCGGG AGAGAGAGCG GGAGCGGGAA
    CGGGAGGCCG ACCGGGAGCG GGAGAAGGAG CGGGAACGGG AGCAGCGGGA GAAGGAGCGG
    GAGAAGGAGC TGGAGCGCGA GCGGGAGAAG GAACGGGAAC GCGAGCTGGA GCGGCAGCGG
    GAGCAGCGGG CAAGGGAGAA GGAGCTGCTG GCTGCCAAGG CCTTAGAGCC CACCTCCTTC
    CTGCCTGTGG CCGAGCTGCA CGGACTCCGG GGTCACAGCA CGGAGGAGCG GCCCAAGCCC
    TCGGAGCAGC TGACCCCAAC CCGAGCAGAG AAGCTGAAGG ACGTGGGCTT GCAGGCGCCC
    AAGCCCGTGC AGCACCCTCT GCACCCAGTG CCTGCCCCAC ACCACACGGT GCCCAGCCTC
    ATCTCCAGCC ACGGCATCTT CTCTCTGCCT GGAAGCAGCG CCACCACTGC CCTGCTGATC
    CAGCGCACCA ACGAGGAGGA GAAGTGGCTG GCACGGCAGC GCCGCCTGCG GCAGGAGAAG
    GAAGACCGCC AGTCCCAGGT GTCCGAGTTC CGGCAGCAGG TCCTGGAGCA GCACCTAGAC
    CTGGGCCGGC CCCCCGTGCC CACAGAGGTG GAGCACAGGC CCGAGAGCAC CAGGCCAGGA
    ACAAACCGGC ATGAGCAGGG CAGCCGTGAA CCCCCACAGC ACTTTGGTGG CCCTCCACCA
    CTCATCTCAC CCAAGCCCCA GCACCACACC GTACCCACAG CCCTCTGGAA CCCAGTGTCT
    CTGATAGACA ATGCTCTGGA GACGCGGCGG GCCGAGAGCC ACCCTCTGCA TAGCCACCCG
    ACTACTTTTG AGCCCAGCCG CCAGGCCGCC GTGCCACTGG TGAAGGTGGA GCGAGTTTAC
    TGCTCAGAGA AGGCAGAGGA GCCCCGGAAG CGTGAGGCCA CACCACTGGA CAAATACCAG
    CCGCCGCCGC CACCACCGCG GGAGGCAGGA AGTCTGGAGC CTCAGACCTT TCCCCACGGA
    CCTGGGCCTT TCCTTACTGA ACTTGAGAAG TCAACACAGA CCATCTTGGG CCAGCAGCGG
    CCCTCTCTTT CCCAGGCAAC CTCCTTCGGG GAGCTCAGTG GGCCTCTGAA GCCAGGCTCT
    CCGTACTGCC ACCCCACAGC GAGGGGCCCC GATCCAGCCT ACATCTACGA TGAGTTTCTT
    CAGCAGCGAC GGAGGCTGGT CAGCAAACTG GACCTGGAGG AACGCAGGCG GCGCGAGGCT
    CAGGAGAAAG GGTACTATTA CGACCTCGAT GACTCGTACG ACGAGAGTGA CGAGGAGGAG
    GTCAGGGCAC ATCTCCGCTG TGTGGCTGAG CAGCCGCCCC TCAAACTGGA CACGTCCTCA
    GAGAAGCTAG AGTTCTTGCA GCTTTTTGGC TTGACCACCC AACAGCAGAA GGAGGAACTG
    GTGGCGCAGA AGCGCCGGAA GCGGAGGCGG ATGCTCAGAG AGAGAAGCCC GTCGCCACCT
    GCCGTTCAGT GCAAGCGACA GACGCCTTCC CCCAGGCTGG CTCTGTCCAC CCGCTACAGC
    CCCGACGAGA TGAACAACAG CCCCAACTTT GAGGAGAAGA GGAAGTTCCT GACCTTCTTC
    AACCTGACAC ACATCAGTGC GGAGAAGAGG AAAGACAAAG AGAGGCTTGT TGAAATGCTC
    CGAGCCATGA AGCAGAGAGC ACTGTCCGCA GCAGACTCAG TGACAAACTC TTCGAGGGAC
    AGTCCTCCCA TCTCCCTAAG TGAACCAGCC ACACAGCCAG CTCCTCTAGA GACGGATCAG
    CCTGTCGGGG TCCCTGCCTC CTTGTCAGAT GTCCCAAAGG CCGCGGAGAC TGGGAGACTG
    GAACAGCTCC GGCCCCAGGA GCTCTTGAGA GTCCAGGAGC CGGCTCCTCC CAGCGGTGAG
    AAGGCCAGGC TGAGTGAGGC CCCTGGTGGC AAGAAGAGCC TGAGCATGCT CCATTACCTC
    CGGGGCGCTG CGCCCAAGGA CATTCCTGTG CCGTTGTCTC ACAGCGTCAA CGGGAAGAGC
    AAGCCCTGGG AGCCTTTCGT GGCCGAAGAG TTTGCACATC AATTCCATGA GTCCGTGCTG
    CAGTCCACAC AGAAGGCTCT GCAGAAGCAT AAAGGGAATT GTGCTTTGCT ATCTGCAGAG
    CAGAGCCACA AAGTCGACAC GGCAGTCCAC TACAACATTC CCGAGCTGCA GTCCTCCAGC
    AGGGTCCCCT TGCCCCAGCA CAATGGACAA CAGGAGCCCC TGACGGGGAG GAAGGGCCCT
    CCTATGCAGG AGGTGGACCA GGACTCTGAG GAGGACTCGG AGGAGGACAG CGAGGAGGAA
    GCTGAGGAAG CCCCCAGGCG CCAGTGGCAA GGGATTGAGG CAATCTTTGA AGCTTACCAG
    GAACACATAG AAGAGCAAAA CCTGGAGCGG CAGGTGCTAC AGACGCAGTG CCGGCGGCTG
    GAGGCGCAGA ACTACAGCCT CAGCCTGACT GCAGAGCAGC TGTCTCACAG CATGGCGGAG
    CTTCGGAGTC AGAAACAGAA GATGGTCTCT GAGCGGGAGC GGCTCCAGGC GGAGCTGGAC
    CACTTGCGGA AGTGCCTTGC CTTGCCCACC ATGCACTGGC CTAGGGGCTA CTTTAAGGGA
    TATCCGAGGT GA

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

    RefSeq XP_021025606.2
    CDS32..5743
    Translation

    Target ORF information:

    RefSeq Version XM_021169947.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021169947.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    ATGGCAGCGG CGGGCGCGGC CCTGTCGTGC TTCATCTGCG GCGGCGGCAT CGCGCGCGGC 
    AAGGAGCTGA AGCTGCCGGT GAGGCCGGCG GGCCCCGCGC AGCCCTTCTT CCCGTTCCTG
    CAGCAGCAGG AGCCGGCGCC CGGCGCGCGC GGGCTGAGCG CGGCCGATGG CTGCGTGCTG
    GTGTGCGCCG TGTGCCGCTG CTTCCTGGCC GAGCAGTGGG CCGCCTTCGA GCGCGCGCGC
    ACGCCCGTGG ACAAGCGCGT GTACTGGCTC AAGAGGCCGC ATCAGTGCGA CGCGAGCGCG
    GCCGGCCGGC GCGGGGCCCG CGAGTGGAAC ACCGAGGACG CGCGCGACTC GGAGCTGTCG
    GAGCTGTCGG ACGCTGACGC GCTGCCGGAA CCTGAGCCTG AGCCCGAGCC CGAGCCGGAG
    CCGGAGCCTG AGTCCGAGGA TGCGCACGAC TCCAGCAAGT CCGGAGCCCG GCGCCGGCGC
    ACGGGGCCAG GGGCGCACTG GGCTCCGGAG CCGCGAGCCA GCGTGCTGAG GGGCATCCAG
    GAACCCTGGC CCGGCCCCGC TGCGCCCGAC GGCACGGACG GCGCCGCCTC CAGCCGGCCC
    GCGGCGCCCC CAGAGCGCAG TAGCACCCCC GAGGGCAGCG ACGTCGCCGG GAGCCTCGGG
    GACGAAGGGC TGGAGCGGCC TCCCCGGACG CCCGCGGACA GCCAGGCCCG CTGCTGCTAC
    GTCTGTGGCT CGGCGCTGTC ACCGGCCTCG CAGCAGCAGA TCCACGTGCA GAAGCAGGAG
    ACTCCCGCCC AGGCGCCCTT CTTCCCCTTC CTGTGGCTGC ATAGCCCCCC GCCCGGCGCC
    CAGCCCATCA CCGAGGCGGG CAGCACCCTC GTGTGTCCCT GCTGCTTCTC GTCCCTCACA
    CACCAGTGGC AGAGCTTTGA GCTGGCCAAC GTGCCGGTCT TGCAGCGGCT CTACGTGGTG
    CCCCTGAACA GCCACGCCCC CGGCATGGCC TCCAAGGCCC GGAGACTCCC TAGGGAAGAG
    GTTCCCGCCC CCACCGCGGG GCTACTGCGG GAAGCCTGCT ACCTCTGTGG GGAGGACTGT
    ACACGGGATG CCCGGGCTGT GCCCTCCCGC CTTGTCAACG GCAACTCTGG GGGCTCCATG
    CACTTCCCCT TCCTTAGCCT CCTGCCCTGC CCACCCAACG CTCGGCCCCC CAACAAGCGC
    TGCGAGGTTC GCAGCTGCCC CAAGTGCTTC AGCGTCCTGG AGGACGTCTG GGCCCTGTAC
    CGGGCATCGC ACAACCGTGA TCTCATCAGC TCTGTGCAAG GCTTCCTGGG CAGGTACCAC
    CAAGCCTTCT CTGCCTCGGA CCCTACCCTG AGCGAACTGC CCACTTCTGC GCAGGGAGGC
    CCGCCTGCGG TCTGCTACAT CTGCGGAGCT GAGCTGGGGC CGGGCAAGGA GTTCCAGCTC
    AGCATGAACC CCGCCAGCCA CCTGGGCGAG AAGGAACCCT TCTTTCCCTT CCTCACCGTC
    TATCCGCCCG CCCCACGGGC CAGGCCTGCA GACTCCACGG GCCTGGTGGC AACCTGTGTG
    CTCTGCTATC ATGACCTGCT GGGTCAGTGG CTGCAGCACG AAGCCAGAGC CGCTCACCAG
    CCGGTCAGCG CCTGGTCGAG GCAGTACCAA GTGGACACAT TCGTGTGCTT CTTCTGTCAG
    CAAGAGAAGA AACGGTGTCT GGGGCTGAAG TCCGTGAGAG TGGCCAGGCT CCCCTTGTTC
    CTGTATACCC TGAGAGCCAG CCACAGCCTG TTGGTGGATG ATGGCCGGCA GCTGATCATC
    GGTGCCTGCG TGGAATGCGG GACCCTGGTT TGTGCAGGCC AAGGGGTTGC CAGCCAGGGA
    CCCATGGGCT GGAGCTCTCC AACAGCAGGA GTAACAAAGG TTACCTCAGC TCCCCTGGAG
    GCACCTGCAA TTGTCCATGC TCCTGCATCA GAGCCCGAGC TACAGCCAGT GCCCCCCACA
    GACAGTCTAT CCAGGGGCAT CAGGACCACC CAGGAGCCGC TGCCAGTGTC GAGCCAGCAG
    AGCAGCCGGG ACAGCTGGGA TGGAGATGGC GTAGACCTCA CAGCTACAGG CATGAGCCAT
    GAGCCCAAGT CCCCTTCCAT AGGGATGCTT TCCACGGCGA CCAGGACCAC CGCCACCGTC
    AACCCCCTCA CCCCCTCGCC ACTCAATGGC GCCCTGGTGC CCACCGGTAG CCCGGCCACC
    AGCAGTGCGC TATCGGCCCA GGCCGCTCCA TCCTCCAGCT TTGCTGCCGC GCTGCGCAAG
    CTCGCCAAAC AGGCAGAGGA GCCCAGAGGG TCCTCACTGA GCAGCGAGTC ATCTCCAGTG
    TCCTCTCCAG CCACCAACCA TAGCTCTCCA GCTAGCACGC CCAAACGAGT GCCCATGGGC
    CCCATCATCG TCCCCCCTGG GGGTCACAGT GTCCCCAGCA CTCCCCCAGT GGTCACTATT
    GCCCCCACTA AAACCGTCAA CGGAGTCTGG AGAAGCGAGA GCCGCCAGGA CTCCGGCTCA
    CGAGGCAGCA GCAGTGGTCG GGAGCGCCTA TTGGTGGAGC CGCCTCTGGC CCAGGAAAAG
    GCCGCGGGCC CCACCATCCC CTCCCACCTA CTCAGCACTC CCTACCCCTT TGGCCTTTCC
    CCCGGCTCAG TTGTACAGGA CTCCCGCTTC CAACCACTCA ACCTCCAGCG GCCTGTGCAC
    CATGTGGTGC CCCCCAGCAC GGTGACCGAG GACTACCTGA GAAGTTTCCG GCCCTACCAC
    ACTGCTGAAG ACTTACGCAT GTCCTCCTTG CCCCCGCTCG GCCTGGACCC AGCCACTGCC
    GCAGCCTACT ATCACCCCAG CTACCTGGCC CCACACCCGT TCCCCCACCC GGCCTTCAGG
    ATGGATGACT CCTATTGCCT GTCAGCCTTA AGGTCTCCGT TCTACCCCAT CCCCACCCCT
    GGCTCCCTGC CTCCACTGCA TCCTTCGGCG ATGCACCTTC ATCTCTCTGG TGTACGGTAC
    CCTCCTGAGC TCTCCCACTC GTCCCTGGCG GCGCTACACT CGGAGCGGAT GTCCAGCCTC
    AGTGCAGAGA GGTTGCAAAT GGACGAGGAA CTGAGGCGGG AGAGAGAGCG GGAGCGGGAA
    CGGGAGGCCG ACCGGGAGCG GGAGAAGGAG CGGGAACGGG AGCAGCGGGA GAAGGAGCGG
    GAGAAGGAGC TGGAGCGCGA GCGGGAGAAG GAACGGGAAC GCGAGCTGGA GCGGCAGCGG
    GAGCAGCGGG CAAGGGAGAA GGAGCTGCTG GCTGCCAAGG CCTTAGAGCC CACCTCCTTC
    CTGCCTGTGG CCGAGCTGCA CGGACTCCGG GGTCACAGCA CGGAGGAGCG GCCCAAGCCC
    TCGGAGCAGC TGACCCCAAC CCGAGCAGAG AAGCTGAAGG ACGTGGGCTT GCAGGCGCCC
    AAGCCCGTGC AGCACCCTCT GCACCCAGTG CCTGCCCCAC ACCACACGGT GCCCAGCCTC
    ATCTCCAGCC ACGGCATCTT CTCTCTGCCT GGAAGCAGCG CCACCACTGC CCTGCTGATC
    CAGCGCACCA ACGAGGAGGA GAAGTGGCTG GCACGGCAGC GCCGCCTGCG GCAGGAGAAG
    GAAGACCGCC AGTCCCAGGT GTCCGAGTTC CGGCAGCAGG TCCTGGAGCA GCACCTAGAC
    CTGGGCCGGC CCCCCGTGCC CACAGAGGTG GAGCACAGGC CCGAGAGCAC CAGGCCAGGA
    ACAAACCGGC ATGAGCAGGG CAGCCGTGAA CCCCCACAGC ACTTTGGTGG CCCTCCACCA
    CTCATCTCAC CCAAGCCCCA GCACCACACC GTACCCACAG CCCTCTGGAA CCCAGTGTCT
    CTGATAGACA ATGCTCTGGA GACGCGGCGG GCCGAGAGCC ACCCTCTGCA TAGCCACCCG
    ACTACTTTTG AGCCCAGCCG CCAGGCCGCC GTGCCACTGG TGAAGGTGGA GCGAGTTTAC
    TGCTCAGAGA AGGCAGAGGA GCCCCGGAAG CGTGAGGCCA CACCACTGGA CAAATACCAG
    CCGCCGCCGC CACCACCGCG GGAGGCAGGA AGTCTGGAGC CTCAGACCTT TCCCCACGGA
    CCTGGGCCTT TCCTTACTGA ACTTGAGAAG TCAACACAGA CCATCTTGGG CCAGCAGCGG
    CCCTCTCTTT CCCAGGCAAC CTCCTTCGGG GAGCTCAGTG GGCCTCTGAA GCCAGGCTCT
    CCGTACTGCC ACCCCACAGC GAGGGGCCCC GATCCAGCCT ACATCTACGA TGAGTTTCTT
    CAGCAGCGAC GGAGGCTGGT CAGCAAACTG GACCTGGAGG AACGCAGGCG GCGCGAGGCT
    CAGGAGAAAG GGTACTATTA CGACCTCGAT GACTCGTACG ACGAGAGTGA CGAGGAGGAG
    GTCAGGGCAC ATCTCCGCTG TGTGGCTGAG CAGCCGCCCC TCAAACTGGA CACGTCCTCA
    GAGAAGCTAG AGTTCTTGCA GCTTTTTGGC TTGACCACCC AACAGCAGAA GGAGGAACTG
    GTGGCGCAGA AGCGCCGGAA GCGGAGGCGG ATGCTCAGAG AGAGAAGCCC GTCGCCACCT
    GCCGTTCAGT GCAAGCGACA GACGCCTTCC CCCAGGCTGG CTCTGTCCAC CCGCTACAGC
    CCCGACGAGA TGAACAACAG CCCCAACTTT GAGGAGAAGA GGAAGTTCCT GACCTTCTTC
    AACCTGACAC ACATCAGTGC GGAGAAGAGG AAAGACAAAG AGAGGCTTGT TGAAATGCTC
    CGAGCCATGA AGCAGAGAGC ACTGTCCGCA GCAGACTCAG TGACAAACTC TTCGAGGGAC
    AGTCCTCCCA TCTCCCTAAG TGAACCAGCC ACACAGCCAG CTCCTCTAGA GACGGATCAG
    CCTGTCGGGG TCCCTGCCTC CTTGTCAGAT GTCCCAAAGG CCGCGGAGAC TGGGAGACTG
    GAACAGCTCC GGCCCCAGGA GCTCTTGAGA GTCCAGGAGC CGGCTCCTCC CAGCGGTGAG
    AAGGCCAGGC TGAGTGAGGC CCCTGGTGGC AAGAAGAGCC TGAGCATGCT CCATTACCTC
    CGGGGCGCTG CGCCCAAGGA CATTCCTGTG CCGTTGTCTC ACAGCGTCAA CGGGAAGAGC
    AAGCCCTGGG AGCCTTTCGT GGCCGAAGAG TTTGCACATC AATTCCATGA GTCCGTGCTG
    CAGTCCACAC AGAAGGCTCT GCAGAAGCAT AAAGGGAATT GTGCTTTGCT ATCTGCAGAG
    CAGAGCCACA AAGTCGACAC GGCAGTCCAC TACAACATTC CCGAGCTGCA GTCCTCCAGC
    AGGGTCCCCT TGCCCCAGCA CAATGGACAA CAGGAGCCCC TGACGGGGAG GAAGGGCCCT
    CCTATGCAGG AGGTGGACCA GGACTCTGAG GAGGACTCGG AGGAGGACAG CGAGGAGGAA
    GCTGAGGAAG CCCCCAGGCG CCAGTGGCAA GGGATTGAGG CAATCTTTGA AGCTTACCAG
    GAACACATAG AAGAGCAAAA CCTGGAGCGG CAGGTGCTAC AGACGCAGTG CCGGCGGCTG
    GAGGCGCAGA ACTACAGCCT CAGCCTGACT GCAGAGCAGC TGTCTCACAG CATGGCGGAG
    CTTCGGAGTC AGAAACAGAA GATGGTCTCT GAGCGGGAGC GGCTCCAGGC GGAGCTGGAC
    CACTTGCGGA AGTGCCTTGC CTTGCCCACC ATGCACTGGC CTAGGGGCTA CTTTAAGGGA
    TATCCGAGGT GA

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

    CloneID OMv75281
    Clone ID Related Accession (Same CDS sequence) XM_029480385.1
    Accession Version XM_029480385.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 5604bp)
    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 genetic suppressor element 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) 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
    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
    ATGGCAGCGG CGGGCGCGGC CCTGTCGTGC TTCATCTGCG GCGGCGGCAT CGCGCGCGGC 
    AAGGAGCTGA AGCTGCCGGT GAGGCCGGCG GGCCCCGCGC AGCCCTTCTT CCCGTTCCTG
    CAGCAGCAGG AGCCGGCGCC CGGCGCGCGC GGGCTGAGCG CGGCCGATGG CTGCGTGCTG
    GTGTGCGCCG TGTGCCGCTG CTTCCTGGCC GAGCAGTGGG CCGCCTTCGA GCGCGCGCGC
    ACGCCCGTGG ACAAGCGCGT GTACTGGCTC AAGAGGCCGC ATCAGTGCGA CGCGAGCGCG
    GCCGGCCGGC GCGGGGCCCG CGAGTGGAAC ACCGAGGACG CGCGCGACTC GGAGCTGTCG
    GAGCTGTCGG ACGCTGACGC GCTGCCGGAA CCTGAGCCTG AGCCCGAGCC CGAGCCGGAG
    CCGGAGCCTG AGTCCGAGGA TGCGCACGAC TCCAGCAAGT CCGGAGCCCG GCGCCGGCGC
    ACGGGGCCAG GGGCGCACTG GGCTCCGGAG CCGCGAGCCA GCGTGCTGAG GGGCATCCAG
    GAACCCTGGC CCGGCCCCGC TGCGCCCGAC GGCACGGACG GCGCCGCCTC CAGCCGGCCC
    GCGGCGCCCC CAGAGCGCAG TAGCACCCCC GAGGGCAGCG ACGTCGCCGG GAGCCTCGGG
    GACGAAGGGC TGGAGCGGCC TCCCCGGACG CCCGCGGACA GCCAGGCCCG CTGCTGCTAC
    GTCTGTGGCT CGGCGCTGTC ACCGGCCTCG CAGCAGCAGA TCCACGTGCA GAAGCAGGAG
    ACTCCCGCCC AGGCGCCCTT CTTCCCCTTC CTGTGGCTGC ATAGCCCCCC GCCCGGCGCC
    CAGCCCATCA CCGAGGCGGG CAGCACCCTC GTGTGTCCCT GCTGCTTCTC GTCCCTCACA
    CACCAGTGGC AGAGCTTTGA GCTGGCCAAC GTGCCGGTCT TGCAGCGGCT CTACGTGGTG
    CCCCTGAACA GCCACGCCCC CGGCATGGCC TCCAAGGCCC GGAGACTCCC TAGGGAAGAG
    GTTCCCGCCC CCACCGCGGG GCTACTGCGG GAAGCCTGCT ACCTCTGTGG GGAGGACTGT
    ACACGGGATG CCCGGGCTGT GCCCTCCCGC CTTGTCAACG GCAACTCTGG GGGCTCCATG
    CACTTCCCCT TCCTTAGCCT CCTGCCCTGC CCACCCAACG CTCGGCCCCC CAACAAGCGC
    TGCGAGGTTC GCAGCTGCCC CAAGTGCTTC AGCGTCCTGG AGGACGTCTG GGCCCTGTAC
    CGGGCATCGC ACAACCGTGA TCTCATCAGC TCTGTGCAAG GCTTCCTGGG CAGGTACCAC
    CAAGCCTTCT CTGCCTCGGA CCCTACCCTG AGCGAACTGC CCACTTCTGC GCAGGGAGGC
    CCGCCTGCGG TCTGCTACAT CTGCGGAGCT GAGCTGGGGC CGGGCAAGGA GTTCCAGCTC
    AGCATGAACC CCGCCAGCCA CCTGGGCGAG AAGGAACCCT TCTTTCCCTT CCTCACCGTC
    TATCCGCCCG CCCCACGGGC CAGGCCTGCA GACTCCACGG GCCTGGTGGC AACCTGTGTG
    CTCTGCTATC ATGACCTGCT GGGTCAGTGG CTGCAGCACG AAGCCAGAGC CGCTCACCAG
    CCGGTCAGCG CCTGGTCGAG GCAGTACCAA GTGGACACAT TCGTGTGCTT CTTCTGTCAG
    CAAGAGAAGA AACGGTGTCT GGGGCTGAAG TCCGTGAGAG TGGCCAGGCT CCCCTTGTTC
    CTGTATACCC TGAGAGCCAG CCACAGCCTG TTGGTGGATG ATGGCCGGCA GCTGATCATC
    GGTGCCTGCG TGGAATGCGG GACCCTGGTT TGTGCAGGCC AAGGGGTTGC CAGCCAGGGA
    CCCATGGGCT GGAGCTCTCC AACAGCAGGA GTAACAAAGG TTACCTCAGC TCCCCTGGAG
    GCACCTGCAA TTGTCCATGC TCCTGCATCA GAGCCCGAGC TACAGCCAGT GCCCCCCACA
    GACAGTCTAT CCAGGGGCAT CAGGACCACC CAGGAGCCGC TGCCAGTGTC GAGCCAGCAG
    AGCAGCCGGG ACAGCTGGGA TGGAGATGGC GTAGACCTCA CAGCTACAGG CATGAGCCAT
    GAGCCCAAGT CCCCTTCCAT AGGGATGCTT TCCACGGCGA CCAGGACCAC CGCCACCGTC
    AACCCCCTCA CCCCCTCGCC ACTCAATGGC GCCCTGGTGC CCACCGGTAG CCCGGCCACC
    AGCAGTGCGC TATCGGCCCA GGCCGCTCCA TCCTCCAGCT TTGCTGCCGC GCTGCGCAAG
    CTCGCCAAAC AGGCAGAGGA GCCCAGAGGG TCCTCACTGA GCAGCGAGTC ATCTCCAGTG
    TCCTCTCCAG CCACCAACCA TAGCTCTCCA GCTAGCACGC CCAAACGAGT GCCCATGGGC
    CCCATCATCG TCCCCCCTGG GGGTCACAGT GTCCCCAGCA CTCCCCCAGT GGTCACTATT
    GCCCCCACTA AAACCGTCAA CGGAGTCTGG AGAAGCGAGA GCCGCCAGGA CTCCGGCTCA
    CGAGGCAGCA GCAGTGGTCG GGAGCGCCTA TTGGTGGAGC CGCCTCTGGC CCAGGAAAAG
    GCCGCGGGCC CCACCATCCC CTCCCACCTA CTCAGCACTC CCTACCCCTT TGGCCTTTCC
    CCCGGCTCAG TTGTACAGGA CTCCCGCTTC CAACCACTCA ACCTCCAGCG GCCTGTGCAC
    CATGTGGTGC CCCCCAGCAC GGTGACCGAG GACTACCTGA GAAGTTTCCG GCCCTACCAC
    ACTGCTGAAG ACTTACGCAT GTCCTCCTTG CCCCCGCTCG GCCTGGACCC AGCCACTGCC
    GCAGCCTACT ATCACCCCAG CTACCTGGCC CCACACCCGT TCCCCCACCC GGCCTTCAGG
    ATGGATGACT CCTATTGCCT GTCAGCCTTA AGGTCTCCGT TCTACCCCAT CCCCACCCCT
    GGCTCCCTGC CTCCACTGCA TCCTTCGGCG ATGCACCTTC ATCTCTCTGG TGTACGGTAC
    CCTCCTGAGC TCTCCCACTC GTCCCTGGCG GCGCTACACT CGGAGCGGAT GTCCAGCCTC
    AGTGCAGAGA GGTTGCAAAT GGACGAGGAA CTGAGGCGGG AGAGAGAGCG GGAGCGGGAA
    CGGGAGGCCG ACCGGGAGCG GGAGAAGGAG CGGGAACGGG AGCAGCGGGA GAAGGAGCGG
    GAGAAGGAGC TGGAGCGCGA GCGGGAGAAG GAACGGGAAC GCGAGCTGGA GCGGCAGCGG
    GAGCAGCGGG CAAGGGAGAA GGAGCTGCTG GCTGCCAAGG CCTTAGAGCC CACCTCCTTC
    CTGCCTGTGG CCGAGCTGCA CGGACTCCGG GGTCACAGCA CGGAGGAGCG GCCCAAGCCC
    TCGGAGCAGC TGACCCCAAC CCGAGCAGAG AAGCTGAAGG ACGTGGGCTT GCAGGCGCCC
    AAGCCCGTGC AGCACCCTCT GCACCCAGTG CCTGCCCCAC ACCACACGGT GCCCAGCCTC
    ATCTCCAGCC ACGGCATCTT CTCTCTGCCT GGAAGCAGCG CCACCACTGC CCTGCTGATC
    CAGCGCACCA ACGAGGAGGA GAAGTGGCTG GCACGGCAGC GCCGCCTGCG GCAGGAGAAG
    GAAGACCGCC AGTCCCAGGT GTCCGAGTTC CGGCAGCAGG TCCTGGAGCA GCACCTAGAC
    CTGGGCCGGC CCCCCGTGCC CACAGAGGTG GAGCACAGGC CCGAGAGCAC CAGGCCAGGA
    ACAAACCGGC ATGAGCAGGG CAGCCGTGAA CCCCCACAGC ACTTTGGTGG CCCTCCACCA
    CTCATCTCAC CCAAGCCCCA GCACCACACC GTACCCACAG CCCTCTGGAA CCCAGTGTCT
    CTGATAGACA ATGCTCTGGA GACGCGGCGG GCCGAGAGCC ACCCTCTGCA TAGCCACCCG
    ACTACTTTTG AGCCCAGCCG CCAGGCCGCC GTGCCACTGG TGAAGGTGGA GCGAGTTTAC
    TGCTCAGAGA AGGCAGAGGA GCCCCGGAAG CGTGAGGCCA CACCACTGGA CAAATACCAG
    CCGCCGCCGC CACCACCGCG GGAGGCAGGA AGTCTGGAGC CTCAGACCTT TCCCCACGGA
    CCTGGGCCTT TCCTTACTGA ACTTGAGAAG TCAACACAGA CCATCTTGGG CCAGCAGCGG
    CCCTCTCTTT CCCAGGCAAC CTCCTTCGGG GAGCTCAGTG GGCCTCTGAA GCCAGGCTCT
    CCGTACTGCC ACCCCACAGC GAGGGGCCCC GATCCAGCCT ACATCTACGA TGAGTTTCTT
    CAGCAGCGAC GGAGGCTGGT CAGCAAACTG GACCTGGAGG AACGCAGGCG GCGCGAGGCT
    CAGGAGAAAG GGTACTATTA CGACCTCGAT GACTCGTACG ACGAGAGTGA CGAGGAGGAG
    GTCAGGGCAC ATCTCCGCTG TGTGGCTGAG CAGCCGCCCC TCAAACTGGA CACGTCCTCA
    GAGAAGCTAG AGTTCTTGCA GCTTTTTGGC TTGACCACCC AACAGCAGAA GGAGGAACTG
    GTGGCGCAGA AGCGCCGGAA GCGGAGGCGG ATGCTCAGAG AGAGAAGCCC GTCGCCACCT
    GCCGTTCAGT GCAAGCGACA GACGCCTTCC CCCAGGCTGG CTCTGTCCAC CCGCTACAGC
    CCCGACGAGA TGAACAACAG CCCCAACTTT GAGGAGAAGA GGAAGTTCCT GACCTTCTTC
    AACCTGACAC ACATCAGTGC GGAGAAGAGG AAAGAACCAG CCACACAGCC AGCTCCTCTA
    GAGACGGATC AGCCTGTCGG GGTCCCTGCC TCCTTGTCAG ATGTCCCAAA GGCCGCGGAG
    ACTGGGAGAC TGGAACAGCT CCGGCCCCAG GAGCTCTTGA GAGTCCAGGA GCCGGCTCCT
    CCCAGCGGTG AGAAGGCCAG GCTGAGTGAG GCCCCTGGTG GCAAGAAGAG CCTGAGCATG
    CTCCATTACC TCCGGGGCGC TGCGCCCAAG GACATTCCTG TGCCGTTGTC TCACAGCGTC
    AACGGGAAGA GCAAGCCCTG GGAGCCTTTC GTGGCCGAAG AGTTTGCACA TCAATTCCAT
    GAGTCCGTGC TGCAGTCCAC ACAGAAGGCT CTGCAGAAGC ATAAAGGGAA TTGTGCTTTG
    CTATCTGCAG AGCAGAGCCA CAAAGTCGAC ACGGCAGTCC ACTACAACAT TCCCGAGCTG
    CAGTCCTCCA GCAGGGTCCC CTTGCCCCAG CACAATGGAC AACAGGAGCC CCTGACGGGG
    AGGAAGGGCC CTCCTATGCA GGAGGTGGAC CAGGACTCTG AGGAGGACTC GGAGGAGGAC
    AGCGAGGAGG AAGCTGAGGA AGCCCCCAGG CGCCAGTGGC AAGGGATTGA GGCAATCTTT
    GAAGCTTACC AGGAACACAT AGAAGAGCAA AACCTGGAGC GGCAGGTGCT ACAGACGCAG
    TGCCGGCGGC TGGAGGCGCA GAACTACAGC CTCAGCCTGA CTGCAGAGCA GCTGTCTCAC
    AGCATGGCGG AGCTTCGGAG TCAGAAACAG AAGATGGTCT CTGAGCGGGA GCGGCTCCAG
    GCGGAGCTGG ACCACTTGCG GAAGTGCCTT GCCTTGCCCA CCATGCACTG GCCTAGGGGC
    TACTTTAAGG GATATCCGAG GTGA

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

    RefSeq XP_029336245.1
    CDS32..5635
    Translation

    Target ORF information:

    RefSeq Version XM_029480385.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029480385.1

    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
    ATGGCAGCGG CGGGCGCGGC CCTGTCGTGC TTCATCTGCG GCGGCGGCAT CGCGCGCGGC 
    AAGGAGCTGA AGCTGCCGGT GAGGCCGGCG GGCCCCGCGC AGCCCTTCTT CCCGTTCCTG
    CAGCAGCAGG AGCCGGCGCC CGGCGCGCGC GGGCTGAGCG CGGCCGATGG CTGCGTGCTG
    GTGTGCGCCG TGTGCCGCTG CTTCCTGGCC GAGCAGTGGG CCGCCTTCGA GCGCGCGCGC
    ACGCCCGTGG ACAAGCGCGT GTACTGGCTC AAGAGGCCGC ATCAGTGCGA CGCGAGCGCG
    GCCGGCCGGC GCGGGGCCCG CGAGTGGAAC ACCGAGGACG CGCGCGACTC GGAGCTGTCG
    GAGCTGTCGG ACGCTGACGC GCTGCCGGAA CCTGAGCCTG AGCCCGAGCC CGAGCCGGAG
    CCGGAGCCTG AGTCCGAGGA TGCGCACGAC TCCAGCAAGT CCGGAGCCCG GCGCCGGCGC
    ACGGGGCCAG GGGCGCACTG GGCTCCGGAG CCGCGAGCCA GCGTGCTGAG GGGCATCCAG
    GAACCCTGGC CCGGCCCCGC TGCGCCCGAC GGCACGGACG GCGCCGCCTC CAGCCGGCCC
    GCGGCGCCCC CAGAGCGCAG TAGCACCCCC GAGGGCAGCG ACGTCGCCGG GAGCCTCGGG
    GACGAAGGGC TGGAGCGGCC TCCCCGGACG CCCGCGGACA GCCAGGCCCG CTGCTGCTAC
    GTCTGTGGCT CGGCGCTGTC ACCGGCCTCG CAGCAGCAGA TCCACGTGCA GAAGCAGGAG
    ACTCCCGCCC AGGCGCCCTT CTTCCCCTTC CTGTGGCTGC ATAGCCCCCC GCCCGGCGCC
    CAGCCCATCA CCGAGGCGGG CAGCACCCTC GTGTGTCCCT GCTGCTTCTC GTCCCTCACA
    CACCAGTGGC AGAGCTTTGA GCTGGCCAAC GTGCCGGTCT TGCAGCGGCT CTACGTGGTG
    CCCCTGAACA GCCACGCCCC CGGCATGGCC TCCAAGGCCC GGAGACTCCC TAGGGAAGAG
    GTTCCCGCCC CCACCGCGGG GCTACTGCGG GAAGCCTGCT ACCTCTGTGG GGAGGACTGT
    ACACGGGATG CCCGGGCTGT GCCCTCCCGC CTTGTCAACG GCAACTCTGG GGGCTCCATG
    CACTTCCCCT TCCTTAGCCT CCTGCCCTGC CCACCCAACG CTCGGCCCCC CAACAAGCGC
    TGCGAGGTTC GCAGCTGCCC CAAGTGCTTC AGCGTCCTGG AGGACGTCTG GGCCCTGTAC
    CGGGCATCGC ACAACCGTGA TCTCATCAGC TCTGTGCAAG GCTTCCTGGG CAGGTACCAC
    CAAGCCTTCT CTGCCTCGGA CCCTACCCTG AGCGAACTGC CCACTTCTGC GCAGGGAGGC
    CCGCCTGCGG TCTGCTACAT CTGCGGAGCT GAGCTGGGGC CGGGCAAGGA GTTCCAGCTC
    AGCATGAACC CCGCCAGCCA CCTGGGCGAG AAGGAACCCT TCTTTCCCTT CCTCACCGTC
    TATCCGCCCG CCCCACGGGC CAGGCCTGCA GACTCCACGG GCCTGGTGGC AACCTGTGTG
    CTCTGCTATC ATGACCTGCT GGGTCAGTGG CTGCAGCACG AAGCCAGAGC CGCTCACCAG
    CCGGTCAGCG CCTGGTCGAG GCAGTACCAA GTGGACACAT TCGTGTGCTT CTTCTGTCAG
    CAAGAGAAGA AACGGTGTCT GGGGCTGAAG TCCGTGAGAG TGGCCAGGCT CCCCTTGTTC
    CTGTATACCC TGAGAGCCAG CCACAGCCTG TTGGTGGATG ATGGCCGGCA GCTGATCATC
    GGTGCCTGCG TGGAATGCGG GACCCTGGTT TGTGCAGGCC AAGGGGTTGC CAGCCAGGGA
    CCCATGGGCT GGAGCTCTCC AACAGCAGGA GTAACAAAGG TTACCTCAGC TCCCCTGGAG
    GCACCTGCAA TTGTCCATGC TCCTGCATCA GAGCCCGAGC TACAGCCAGT GCCCCCCACA
    GACAGTCTAT CCAGGGGCAT CAGGACCACC CAGGAGCCGC TGCCAGTGTC GAGCCAGCAG
    AGCAGCCGGG ACAGCTGGGA TGGAGATGGC GTAGACCTCA CAGCTACAGG CATGAGCCAT
    GAGCCCAAGT CCCCTTCCAT AGGGATGCTT TCCACGGCGA CCAGGACCAC CGCCACCGTC
    AACCCCCTCA CCCCCTCGCC ACTCAATGGC GCCCTGGTGC CCACCGGTAG CCCGGCCACC
    AGCAGTGCGC TATCGGCCCA GGCCGCTCCA TCCTCCAGCT TTGCTGCCGC GCTGCGCAAG
    CTCGCCAAAC AGGCAGAGGA GCCCAGAGGG TCCTCACTGA GCAGCGAGTC ATCTCCAGTG
    TCCTCTCCAG CCACCAACCA TAGCTCTCCA GCTAGCACGC CCAAACGAGT GCCCATGGGC
    CCCATCATCG TCCCCCCTGG GGGTCACAGT GTCCCCAGCA CTCCCCCAGT GGTCACTATT
    GCCCCCACTA AAACCGTCAA CGGAGTCTGG AGAAGCGAGA GCCGCCAGGA CTCCGGCTCA
    CGAGGCAGCA GCAGTGGTCG GGAGCGCCTA TTGGTGGAGC CGCCTCTGGC CCAGGAAAAG
    GCCGCGGGCC CCACCATCCC CTCCCACCTA CTCAGCACTC CCTACCCCTT TGGCCTTTCC
    CCCGGCTCAG TTGTACAGGA CTCCCGCTTC CAACCACTCA ACCTCCAGCG GCCTGTGCAC
    CATGTGGTGC CCCCCAGCAC GGTGACCGAG GACTACCTGA GAAGTTTCCG GCCCTACCAC
    ACTGCTGAAG ACTTACGCAT GTCCTCCTTG CCCCCGCTCG GCCTGGACCC AGCCACTGCC
    GCAGCCTACT ATCACCCCAG CTACCTGGCC CCACACCCGT TCCCCCACCC GGCCTTCAGG
    ATGGATGACT CCTATTGCCT GTCAGCCTTA AGGTCTCCGT TCTACCCCAT CCCCACCCCT
    GGCTCCCTGC CTCCACTGCA TCCTTCGGCG ATGCACCTTC ATCTCTCTGG TGTACGGTAC
    CCTCCTGAGC TCTCCCACTC GTCCCTGGCG GCGCTACACT CGGAGCGGAT GTCCAGCCTC
    AGTGCAGAGA GGTTGCAAAT GGACGAGGAA CTGAGGCGGG AGAGAGAGCG GGAGCGGGAA
    CGGGAGGCCG ACCGGGAGCG GGAGAAGGAG CGGGAACGGG AGCAGCGGGA GAAGGAGCGG
    GAGAAGGAGC TGGAGCGCGA GCGGGAGAAG GAACGGGAAC GCGAGCTGGA GCGGCAGCGG
    GAGCAGCGGG CAAGGGAGAA GGAGCTGCTG GCTGCCAAGG CCTTAGAGCC CACCTCCTTC
    CTGCCTGTGG CCGAGCTGCA CGGACTCCGG GGTCACAGCA CGGAGGAGCG GCCCAAGCCC
    TCGGAGCAGC TGACCCCAAC CCGAGCAGAG AAGCTGAAGG ACGTGGGCTT GCAGGCGCCC
    AAGCCCGTGC AGCACCCTCT GCACCCAGTG CCTGCCCCAC ACCACACGGT GCCCAGCCTC
    ATCTCCAGCC ACGGCATCTT CTCTCTGCCT GGAAGCAGCG CCACCACTGC CCTGCTGATC
    CAGCGCACCA ACGAGGAGGA GAAGTGGCTG GCACGGCAGC GCCGCCTGCG GCAGGAGAAG
    GAAGACCGCC AGTCCCAGGT GTCCGAGTTC CGGCAGCAGG TCCTGGAGCA GCACCTAGAC
    CTGGGCCGGC CCCCCGTGCC CACAGAGGTG GAGCACAGGC CCGAGAGCAC CAGGCCAGGA
    ACAAACCGGC ATGAGCAGGG CAGCCGTGAA CCCCCACAGC ACTTTGGTGG CCCTCCACCA
    CTCATCTCAC CCAAGCCCCA GCACCACACC GTACCCACAG CCCTCTGGAA CCCAGTGTCT
    CTGATAGACA ATGCTCTGGA GACGCGGCGG GCCGAGAGCC ACCCTCTGCA TAGCCACCCG
    ACTACTTTTG AGCCCAGCCG CCAGGCCGCC GTGCCACTGG TGAAGGTGGA GCGAGTTTAC
    TGCTCAGAGA AGGCAGAGGA GCCCCGGAAG CGTGAGGCCA CACCACTGGA CAAATACCAG
    CCGCCGCCGC CACCACCGCG GGAGGCAGGA AGTCTGGAGC CTCAGACCTT TCCCCACGGA
    CCTGGGCCTT TCCTTACTGA ACTTGAGAAG TCAACACAGA CCATCTTGGG CCAGCAGCGG
    CCCTCTCTTT CCCAGGCAAC CTCCTTCGGG GAGCTCAGTG GGCCTCTGAA GCCAGGCTCT
    CCGTACTGCC ACCCCACAGC GAGGGGCCCC GATCCAGCCT ACATCTACGA TGAGTTTCTT
    CAGCAGCGAC GGAGGCTGGT CAGCAAACTG GACCTGGAGG AACGCAGGCG GCGCGAGGCT
    CAGGAGAAAG GGTACTATTA CGACCTCGAT GACTCGTACG ACGAGAGTGA CGAGGAGGAG
    GTCAGGGCAC ATCTCCGCTG TGTGGCTGAG CAGCCGCCCC TCAAACTGGA CACGTCCTCA
    GAGAAGCTAG AGTTCTTGCA GCTTTTTGGC TTGACCACCC AACAGCAGAA GGAGGAACTG
    GTGGCGCAGA AGCGCCGGAA GCGGAGGCGG ATGCTCAGAG AGAGAAGCCC GTCGCCACCT
    GCCGTTCAGT GCAAGCGACA GACGCCTTCC CCCAGGCTGG CTCTGTCCAC CCGCTACAGC
    CCCGACGAGA TGAACAACAG CCCCAACTTT GAGGAGAAGA GGAAGTTCCT GACCTTCTTC
    AACCTGACAC ACATCAGTGC GGAGAAGAGG AAAGAACCAG CCACACAGCC AGCTCCTCTA
    GAGACGGATC AGCCTGTCGG GGTCCCTGCC TCCTTGTCAG ATGTCCCAAA GGCCGCGGAG
    ACTGGGAGAC TGGAACAGCT CCGGCCCCAG GAGCTCTTGA GAGTCCAGGA GCCGGCTCCT
    CCCAGCGGTG AGAAGGCCAG GCTGAGTGAG GCCCCTGGTG GCAAGAAGAG CCTGAGCATG
    CTCCATTACC TCCGGGGCGC TGCGCCCAAG GACATTCCTG TGCCGTTGTC TCACAGCGTC
    AACGGGAAGA GCAAGCCCTG GGAGCCTTTC GTGGCCGAAG AGTTTGCACA TCAATTCCAT
    GAGTCCGTGC TGCAGTCCAC ACAGAAGGCT CTGCAGAAGC ATAAAGGGAA TTGTGCTTTG
    CTATCTGCAG AGCAGAGCCA CAAAGTCGAC ACGGCAGTCC ACTACAACAT TCCCGAGCTG
    CAGTCCTCCA GCAGGGTCCC CTTGCCCCAG CACAATGGAC AACAGGAGCC CCTGACGGGG
    AGGAAGGGCC CTCCTATGCA GGAGGTGGAC CAGGACTCTG AGGAGGACTC GGAGGAGGAC
    AGCGAGGAGG AAGCTGAGGA AGCCCCCAGG CGCCAGTGGC AAGGGATTGA GGCAATCTTT
    GAAGCTTACC AGGAACACAT AGAAGAGCAA AACCTGGAGC GGCAGGTGCT ACAGACGCAG
    TGCCGGCGGC TGGAGGCGCA GAACTACAGC CTCAGCCTGA CTGCAGAGCA GCTGTCTCAC
    AGCATGGCGG AGCTTCGGAG TCAGAAACAG AAGATGGTCT CTGAGCGGGA GCGGCTCCAG
    GCGGAGCTGG ACCACTTGCG GAAGTGCCTT GCCTTGCCCA CCATGCACTG GCCTAGGGGC
    TACTTTAAGG GATATCCGAG GTGA

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

    CloneID OMv06875
    Clone ID Related Accession (Same CDS sequence) XM_021169948.1 , XM_021169947.1
    Accession Version XM_021169948.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3621bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product genetic suppressor element 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) 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 :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAGCCATG AGCCCAAGTC CCCTTCCATA GGGATGCTTT CCACGGCGAC CAGGACCACC 
    GCCACCGTCA ACCCCCTCAC CCCCTCGCCA CTCAATGGCG CCCTGGTGCC CACCGGTAGC
    CCGGCCACCA GCAGTGCGCT ATCGGCCCAG GCCGCTCCAT CCTCCAGCTT TGCTGCCGCG
    CTGCGCAAGC TCGCCAAACA GGCAGAGGAG CCCAGAGGGT CCTCACTGAG CAGCGAGTCA
    TCTCCAGTGT CCTCTCCAGC CACCAACCAT AGCTCTCCAG CTAGCACGCC CAAACGAGTG
    CCCATGGGCC CCATCATCGT CCCCCCTGGG GGTCACAGTG TCCCCAGCAC TCCCCCAGTG
    GTCACTATTG CCCCCACTAA AACCGTCAAC GGAGTCTGGA GAAGCGAGAG CCGCCAGGAC
    TCCGGCTCAC GAGGCAGCAG CAGTGGTCGG GAGCGCCTAT TGGTGGAGCC GCCTCTGGCC
    CAGGAAAAGG CCGCGGGCCC CACCATCCCC TCCCACCTAC TCAGCACTCC CTACCCCTTT
    GGCCTTTCCC CCGGCTCAGT TGTACAGGAC TCCCGCTTCC AACCACTCAA CCTCCAGCGG
    CCTGTGCACC ATGTGGTGCC CCCCAGCACG GTGACCGAGG ACTACCTGAG AAGTTTCCGG
    CCCTACCACA CTGCTGAAGA CTTACGCATG TCCTCCTTGC CCCCGCTCGG CCTGGACCCA
    GCCACTGCCG CAGCCTACTA TCACCCCAGC TACCTGGCCC CACACCCGTT CCCCCACCCG
    GCCTTCAGGA TGGATGACTC CTATTGCCTG TCAGCCTTAA GGTCTCCGTT CTACCCCATC
    CCCACCCCTG GCTCCCTGCC TCCACTGCAT CCTTCGGCGA TGCACCTTCA TCTCTCTGGT
    GTACGGTACC CTCCTGAGCT CTCCCACTCG TCCCTGGCGG CGCTACACTC GGAGCGGATG
    TCCAGCCTCA GTGCAGAGAG GTTGCAAATG GACGAGGAAC TGAGGCGGGA GAGAGAGCGG
    GAGCGGGAAC GGGAGGCCGA CCGGGAGCGG GAGAAGGAGC GGGAACGGGA GCAGCGGGAG
    AAGGAGCGGG AGAAGGAGCT GGAGCGCGAG CGGGAGAAGG AACGGGAACG CGAGCTGGAG
    CGGCAGCGGG AGCAGCGGGC AAGGGAGAAG GAGCTGCTGG CTGCCAAGGC CTTAGAGCCC
    ACCTCCTTCC TGCCTGTGGC CGAGCTGCAC GGACTCCGGG GTCACAGCAC GGAGGAGCGG
    CCCAAGCCCT CGGAGCAGCT GACCCCAACC CGAGCAGAGA AGCTGAAGGA CGTGGGCTTG
    CAGGCGCCCA AGCCCGTGCA GCACCCTCTG CACCCAGTGC CTGCCCCACA CCACACGGTG
    CCCAGCCTCA TCTCCAGCCA CGGCATCTTC TCTCTGCCTG GAAGCAGCGC CACCACTGCC
    CTGCTGATCC AGCGCACCAA CGAGGAGGAG AAGTGGCTGG CACGGCAGCG CCGCCTGCGG
    CAGGAGAAGG AAGACCGCCA GTCCCAGGTG TCCGAGTTCC GGCAGCAGGT CCTGGAGCAG
    CACCTAGACC TGGGCCGGCC CCCCGTGCCC ACAGAGGTGG AGCACAGGCC CGAGAGCACC
    AGGCCAGGAA CAAACCGGCA TGAGCAGGGC AGCCGTGAAC CCCCACAGCA CTTTGGTGGC
    CCTCCACCAC TCATCTCACC CAAGCCCCAG CACCACACCG TACCCACAGC CCTCTGGAAC
    CCAGTGTCTC TGATAGACAA TGCTCTGGAG ACGCGGCGGG CCGAGAGCCA CCCTCTGCAT
    AGCCACCCGA CTACTTTTGA GCCCAGCCGC CAGGCCGCCG TGCCACTGGT GAAGGTGGAG
    CGAGTTTACT GCTCAGAGAA GGCAGAGGAG CCCCGGAAGC GTGAGGCCAC ACCACTGGAC
    AAATACCAGC CGCCGCCGCC ACCACCGCGG GAGGCAGGAA GTCTGGAGCC TCAGACCTTT
    CCCCACGGAC CTGGGCCTTT CCTTACTGAA CTTGAGAAGT CAACACAGAC CATCTTGGGC
    CAGCAGCGGC CCTCTCTTTC CCAGGCAACC TCCTTCGGGG AGCTCAGTGG GCCTCTGAAG
    CCAGGCTCTC CGTACTGCCA CCCCACAGCG AGGGGCCCCG ATCCAGCCTA CATCTACGAT
    GAGTTTCTTC AGCAGCGACG GAGGCTGGTC AGCAAACTGG ACCTGGAGGA ACGCAGGCGG
    CGCGAGGCTC AGGAGAAAGG GTACTATTAC GACCTCGATG ACTCGTACGA CGAGAGTGAC
    GAGGAGGAGG TCAGGGCACA TCTCCGCTGT GTGGCTGAGC AGCCGCCCCT CAAACTGGAC
    ACGTCCTCAG AGAAGCTAGA GTTCTTGCAG CTTTTTGGCT TGACCACCCA ACAGCAGAAG
    GAGGAACTGG TGGCGCAGAA GCGCCGGAAG CGGAGGCGGA TGCTCAGAGA GAGAAGCCCG
    TCGCCACCTG CCGTTCAGTG CAAGCGACAG ACGCCTTCCC CCAGGCTGGC TCTGTCCACC
    CGCTACAGCC CCGACGAGAT GAACAACAGC CCCAACTTTG AGGAGAAGAG GAAGTTCCTG
    ACCTTCTTCA ACCTGACACA CATCAGTGCG GAGAAGAGGA AAGACAAAGA GAGGCTTGTT
    GAAATGCTCC GAGCCATGAA GCAGAGAGCA CTGTCCGCAG CAGACTCAGT GACAAACTCT
    TCGAGGGACA GTCCTCCCAT CTCCCTAAGT GAACCAGCCA CACAGCCAGC TCCTCTAGAG
    ACGGATCAGC CTGTCGGGGT CCCTGCCTCC TTGTCAGATG TCCCAAAGGC CGCGGAGACT
    GGGAGACTGG AACAGCTCCG GCCCCAGGAG CTCTTGAGAG TCCAGGAGCC GGCTCCTCCC
    AGCGGTGAGA AGGCCAGGCT GAGTGAGGCC CCTGGTGGCA AGAAGAGCCT GAGCATGCTC
    CATTACCTCC GGGGCGCTGC GCCCAAGGAC ATTCCTGTGC CGTTGTCTCA CAGCGTCAAC
    GGGAAGAGCA AGCCCTGGGA GCCTTTCGTG GCCGAAGAGT TTGCACATCA ATTCCATGAG
    TCCGTGCTGC AGTCCACACA GAAGGCTCTG CAGAAGCATA AAGGGAATTG TGCTTTGCTA
    TCTGCAGAGC AGAGCCACAA AGTCGACACG GCAGTCCACT ACAACATTCC CGAGCTGCAG
    TCCTCCAGCA GGGTCCCCTT GCCCCAGCAC AATGGACAAC AGGAGCCCCT GACGGGGAGG
    AAGGGCCCTC CTATGCAGGA GGTGGACCAG GACTCTGAGG AGGACTCGGA GGAGGACAGC
    GAGGAGGAAG CTGAGGAAGC CCCCAGGCGC CAGTGGCAAG GGATTGAGGC AATCTTTGAA
    GCTTACCAGG AACACATAGA AGAGCAAAAC CTGGAGCGGC AGGTGCTACA GACGCAGTGC
    CGGCGGCTGG AGGCGCAGAA CTACAGCCTC AGCCTGACTG CAGAGCAGCT GTCTCACAGC
    ATGGCGGAGC TTCGGAGTCA GAAACAGAAG ATGGTCTCTG AGCGGGAGCG GCTCCAGGCG
    GAGCTGGACC ACTTGCGGAA GTGCCTTGCC TTGCCCACCA TGCACTGGCC TAGGGGCTAC
    TTTAAGGGAT ATCCGAGGTG A

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

    RefSeq XP_021025607.1
    CDS29..3649
    Translation

    Target ORF information:

    RefSeq Version XM_021169948.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021169948.1

    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
    ATGAGCCATG AGCCCAAGTC CCCTTCCATA GGGATGCTTT CCACGGCGAC CAGGACCACC 
    GCCACCGTCA ACCCCCTCAC CCCCTCGCCA CTCAATGGCG CCCTGGTGCC CACCGGTAGC
    CCGGCCACCA GCAGTGCGCT ATCGGCCCAG GCCGCTCCAT CCTCCAGCTT TGCTGCCGCG
    CTGCGCAAGC TCGCCAAACA GGCAGAGGAG CCCAGAGGGT CCTCACTGAG CAGCGAGTCA
    TCTCCAGTGT CCTCTCCAGC CACCAACCAT AGCTCTCCAG CTAGCACGCC CAAACGAGTG
    CCCATGGGCC CCATCATCGT CCCCCCTGGG GGTCACAGTG TCCCCAGCAC TCCCCCAGTG
    GTCACTATTG CCCCCACTAA AACCGTCAAC GGAGTCTGGA GAAGCGAGAG CCGCCAGGAC
    TCCGGCTCAC GAGGCAGCAG CAGTGGTCGG GAGCGCCTAT TGGTGGAGCC GCCTCTGGCC
    CAGGAAAAGG CCGCGGGCCC CACCATCCCC TCCCACCTAC TCAGCACTCC CTACCCCTTT
    GGCCTTTCCC CCGGCTCAGT TGTACAGGAC TCCCGCTTCC AACCACTCAA CCTCCAGCGG
    CCTGTGCACC ATGTGGTGCC CCCCAGCACG GTGACCGAGG ACTACCTGAG AAGTTTCCGG
    CCCTACCACA CTGCTGAAGA CTTACGCATG TCCTCCTTGC CCCCGCTCGG CCTGGACCCA
    GCCACTGCCG CAGCCTACTA TCACCCCAGC TACCTGGCCC CACACCCGTT CCCCCACCCG
    GCCTTCAGGA TGGATGACTC CTATTGCCTG TCAGCCTTAA GGTCTCCGTT CTACCCCATC
    CCCACCCCTG GCTCCCTGCC TCCACTGCAT CCTTCGGCGA TGCACCTTCA TCTCTCTGGT
    GTACGGTACC CTCCTGAGCT CTCCCACTCG TCCCTGGCGG CGCTACACTC GGAGCGGATG
    TCCAGCCTCA GTGCAGAGAG GTTGCAAATG GACGAGGAAC TGAGGCGGGA GAGAGAGCGG
    GAGCGGGAAC GGGAGGCCGA CCGGGAGCGG GAGAAGGAGC GGGAACGGGA GCAGCGGGAG
    AAGGAGCGGG AGAAGGAGCT GGAGCGCGAG CGGGAGAAGG AACGGGAACG CGAGCTGGAG
    CGGCAGCGGG AGCAGCGGGC AAGGGAGAAG GAGCTGCTGG CTGCCAAGGC CTTAGAGCCC
    ACCTCCTTCC TGCCTGTGGC CGAGCTGCAC GGACTCCGGG GTCACAGCAC GGAGGAGCGG
    CCCAAGCCCT CGGAGCAGCT GACCCCAACC CGAGCAGAGA AGCTGAAGGA CGTGGGCTTG
    CAGGCGCCCA AGCCCGTGCA GCACCCTCTG CACCCAGTGC CTGCCCCACA CCACACGGTG
    CCCAGCCTCA TCTCCAGCCA CGGCATCTTC TCTCTGCCTG GAAGCAGCGC CACCACTGCC
    CTGCTGATCC AGCGCACCAA CGAGGAGGAG AAGTGGCTGG CACGGCAGCG CCGCCTGCGG
    CAGGAGAAGG AAGACCGCCA GTCCCAGGTG TCCGAGTTCC GGCAGCAGGT CCTGGAGCAG
    CACCTAGACC TGGGCCGGCC CCCCGTGCCC ACAGAGGTGG AGCACAGGCC CGAGAGCACC
    AGGCCAGGAA CAAACCGGCA TGAGCAGGGC AGCCGTGAAC CCCCACAGCA CTTTGGTGGC
    CCTCCACCAC TCATCTCACC CAAGCCCCAG CACCACACCG TACCCACAGC CCTCTGGAAC
    CCAGTGTCTC TGATAGACAA TGCTCTGGAG ACGCGGCGGG CCGAGAGCCA CCCTCTGCAT
    AGCCACCCGA CTACTTTTGA GCCCAGCCGC CAGGCCGCCG TGCCACTGGT GAAGGTGGAG
    CGAGTTTACT GCTCAGAGAA GGCAGAGGAG CCCCGGAAGC GTGAGGCCAC ACCACTGGAC
    AAATACCAGC CGCCGCCGCC ACCACCGCGG GAGGCAGGAA GTCTGGAGCC TCAGACCTTT
    CCCCACGGAC CTGGGCCTTT CCTTACTGAA CTTGAGAAGT CAACACAGAC CATCTTGGGC
    CAGCAGCGGC CCTCTCTTTC CCAGGCAACC TCCTTCGGGG AGCTCAGTGG GCCTCTGAAG
    CCAGGCTCTC CGTACTGCCA CCCCACAGCG AGGGGCCCCG ATCCAGCCTA CATCTACGAT
    GAGTTTCTTC AGCAGCGACG GAGGCTGGTC AGCAAACTGG ACCTGGAGGA ACGCAGGCGG
    CGCGAGGCTC AGGAGAAAGG GTACTATTAC GACCTCGATG ACTCGTACGA CGAGAGTGAC
    GAGGAGGAGG TCAGGGCACA TCTCCGCTGT GTGGCTGAGC AGCCGCCCCT CAAACTGGAC
    ACGTCCTCAG AGAAGCTAGA GTTCTTGCAG CTTTTTGGCT TGACCACCCA ACAGCAGAAG
    GAGGAACTGG TGGCGCAGAA GCGCCGGAAG CGGAGGCGGA TGCTCAGAGA GAGAAGCCCG
    TCGCCACCTG CCGTTCAGTG CAAGCGACAG ACGCCTTCCC CCAGGCTGGC TCTGTCCACC
    CGCTACAGCC CCGACGAGAT GAACAACAGC CCCAACTTTG AGGAGAAGAG GAAGTTCCTG
    ACCTTCTTCA ACCTGACACA CATCAGTGCG GAGAAGAGGA AAGACAAAGA GAGGCTTGTT
    GAAATGCTCC GAGCCATGAA GCAGAGAGCA CTGTCCGCAG CAGACTCAGT GACAAACTCT
    TCGAGGGACA GTCCTCCCAT CTCCCTAAGT GAACCAGCCA CACAGCCAGC TCCTCTAGAG
    ACGGATCAGC CTGTCGGGGT CCCTGCCTCC TTGTCAGATG TCCCAAAGGC CGCGGAGACT
    GGGAGACTGG AACAGCTCCG GCCCCAGGAG CTCTTGAGAG TCCAGGAGCC GGCTCCTCCC
    AGCGGTGAGA AGGCCAGGCT GAGTGAGGCC CCTGGTGGCA AGAAGAGCCT GAGCATGCTC
    CATTACCTCC GGGGCGCTGC GCCCAAGGAC ATTCCTGTGC CGTTGTCTCA CAGCGTCAAC
    GGGAAGAGCA AGCCCTGGGA GCCTTTCGTG GCCGAAGAGT TTGCACATCA ATTCCATGAG
    TCCGTGCTGC AGTCCACACA GAAGGCTCTG CAGAAGCATA AAGGGAATTG TGCTTTGCTA
    TCTGCAGAGC AGAGCCACAA AGTCGACACG GCAGTCCACT ACAACATTCC CGAGCTGCAG
    TCCTCCAGCA GGGTCCCCTT GCCCCAGCAC AATGGACAAC AGGAGCCCCT GACGGGGAGG
    AAGGGCCCTC CTATGCAGGA GGTGGACCAG GACTCTGAGG AGGACTCGGA GGAGGACAGC
    GAGGAGGAAG CTGAGGAAGC CCCCAGGCGC CAGTGGCAAG GGATTGAGGC AATCTTTGAA
    GCTTACCAGG AACACATAGA AGAGCAAAAC CTGGAGCGGC AGGTGCTACA GACGCAGTGC
    CGGCGGCTGG AGGCGCAGAA CTACAGCCTC AGCCTGACTG CAGAGCAGCT GTCTCACAGC
    ATGGCGGAGC TTCGGAGTCA GAAACAGAAG ATGGTCTCTG AGCGGGAGCG GCTCCAGGCG
    GAGCTGGACC ACTTGCGGAA GTGCCTTGCC TTGCCCACCA TGCACTGGCC TAGGGGCTAC
    TTTAAGGGAT ATCCGAGGTG A

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

    CloneID OMv06875
    Clone ID Related Accession (Same CDS sequence) XM_021169948.1 , XM_021169947.1
    Accession Version XM_021169947.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3621bp)
    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 2017-05-20
    Organism Mus caroli(Ryukyu mouse)
    Product genetic suppressor element 1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034577.1) 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 :: Mus caroli Annotation Release 100 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.4 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
    ATGAGCCATG AGCCCAAGTC CCCTTCCATA GGGATGCTTT CCACGGCGAC CAGGACCACC 
    GCCACCGTCA ACCCCCTCAC CCCCTCGCCA CTCAATGGCG CCCTGGTGCC CACCGGTAGC
    CCGGCCACCA GCAGTGCGCT ATCGGCCCAG GCCGCTCCAT CCTCCAGCTT TGCTGCCGCG
    CTGCGCAAGC TCGCCAAACA GGCAGAGGAG CCCAGAGGGT CCTCACTGAG CAGCGAGTCA
    TCTCCAGTGT CCTCTCCAGC CACCAACCAT AGCTCTCCAG CTAGCACGCC CAAACGAGTG
    CCCATGGGCC CCATCATCGT CCCCCCTGGG GGTCACAGTG TCCCCAGCAC TCCCCCAGTG
    GTCACTATTG CCCCCACTAA AACCGTCAAC GGAGTCTGGA GAAGCGAGAG CCGCCAGGAC
    TCCGGCTCAC GAGGCAGCAG CAGTGGTCGG GAGCGCCTAT TGGTGGAGCC GCCTCTGGCC
    CAGGAAAAGG CCGCGGGCCC CACCATCCCC TCCCACCTAC TCAGCACTCC CTACCCCTTT
    GGCCTTTCCC CCGGCTCAGT TGTACAGGAC TCCCGCTTCC AACCACTCAA CCTCCAGCGG
    CCTGTGCACC ATGTGGTGCC CCCCAGCACG GTGACCGAGG ACTACCTGAG AAGTTTCCGG
    CCCTACCACA CTGCTGAAGA CTTACGCATG TCCTCCTTGC CCCCGCTCGG CCTGGACCCA
    GCCACTGCCG CAGCCTACTA TCACCCCAGC TACCTGGCCC CACACCCGTT CCCCCACCCG
    GCCTTCAGGA TGGATGACTC CTATTGCCTG TCAGCCTTAA GGTCTCCGTT CTACCCCATC
    CCCACCCCTG GCTCCCTGCC TCCACTGCAT CCTTCGGCGA TGCACCTTCA TCTCTCTGGT
    GTACGGTACC CTCCTGAGCT CTCCCACTCG TCCCTGGCGG CGCTACACTC GGAGCGGATG
    TCCAGCCTCA GTGCAGAGAG GTTGCAAATG GACGAGGAAC TGAGGCGGGA GAGAGAGCGG
    GAGCGGGAAC GGGAGGCCGA CCGGGAGCGG GAGAAGGAGC GGGAACGGGA GCAGCGGGAG
    AAGGAGCGGG AGAAGGAGCT GGAGCGCGAG CGGGAGAAGG AACGGGAACG CGAGCTGGAG
    CGGCAGCGGG AGCAGCGGGC AAGGGAGAAG GAGCTGCTGG CTGCCAAGGC CTTAGAGCCC
    ACCTCCTTCC TGCCTGTGGC CGAGCTGCAC GGACTCCGGG GTCACAGCAC GGAGGAGCGG
    CCCAAGCCCT CGGAGCAGCT GACCCCAACC CGAGCAGAGA AGCTGAAGGA CGTGGGCTTG
    CAGGCGCCCA AGCCCGTGCA GCACCCTCTG CACCCAGTGC CTGCCCCACA CCACACGGTG
    CCCAGCCTCA TCTCCAGCCA CGGCATCTTC TCTCTGCCTG GAAGCAGCGC CACCACTGCC
    CTGCTGATCC AGCGCACCAA CGAGGAGGAG AAGTGGCTGG CACGGCAGCG CCGCCTGCGG
    CAGGAGAAGG AAGACCGCCA GTCCCAGGTG TCCGAGTTCC GGCAGCAGGT CCTGGAGCAG
    CACCTAGACC TGGGCCGGCC CCCCGTGCCC ACAGAGGTGG AGCACAGGCC CGAGAGCACC
    AGGCCAGGAA CAAACCGGCA TGAGCAGGGC AGCCGTGAAC CCCCACAGCA CTTTGGTGGC
    CCTCCACCAC TCATCTCACC CAAGCCCCAG CACCACACCG TACCCACAGC CCTCTGGAAC
    CCAGTGTCTC TGATAGACAA TGCTCTGGAG ACGCGGCGGG CCGAGAGCCA CCCTCTGCAT
    AGCCACCCGA CTACTTTTGA GCCCAGCCGC CAGGCCGCCG TGCCACTGGT GAAGGTGGAG
    CGAGTTTACT GCTCAGAGAA GGCAGAGGAG CCCCGGAAGC GTGAGGCCAC ACCACTGGAC
    AAATACCAGC CGCCGCCGCC ACCACCGCGG GAGGCAGGAA GTCTGGAGCC TCAGACCTTT
    CCCCACGGAC CTGGGCCTTT CCTTACTGAA CTTGAGAAGT CAACACAGAC CATCTTGGGC
    CAGCAGCGGC CCTCTCTTTC CCAGGCAACC TCCTTCGGGG AGCTCAGTGG GCCTCTGAAG
    CCAGGCTCTC CGTACTGCCA CCCCACAGCG AGGGGCCCCG ATCCAGCCTA CATCTACGAT
    GAGTTTCTTC AGCAGCGACG GAGGCTGGTC AGCAAACTGG ACCTGGAGGA ACGCAGGCGG
    CGCGAGGCTC AGGAGAAAGG GTACTATTAC GACCTCGATG ACTCGTACGA CGAGAGTGAC
    GAGGAGGAGG TCAGGGCACA TCTCCGCTGT GTGGCTGAGC AGCCGCCCCT CAAACTGGAC
    ACGTCCTCAG AGAAGCTAGA GTTCTTGCAG CTTTTTGGCT TGACCACCCA ACAGCAGAAG
    GAGGAACTGG TGGCGCAGAA GCGCCGGAAG CGGAGGCGGA TGCTCAGAGA GAGAAGCCCG
    TCGCCACCTG CCGTTCAGTG CAAGCGACAG ACGCCTTCCC CCAGGCTGGC TCTGTCCACC
    CGCTACAGCC CCGACGAGAT GAACAACAGC CCCAACTTTG AGGAGAAGAG GAAGTTCCTG
    ACCTTCTTCA ACCTGACACA CATCAGTGCG GAGAAGAGGA AAGACAAAGA GAGGCTTGTT
    GAAATGCTCC GAGCCATGAA GCAGAGAGCA CTGTCCGCAG CAGACTCAGT GACAAACTCT
    TCGAGGGACA GTCCTCCCAT CTCCCTAAGT GAACCAGCCA CACAGCCAGC TCCTCTAGAG
    ACGGATCAGC CTGTCGGGGT CCCTGCCTCC TTGTCAGATG TCCCAAAGGC CGCGGAGACT
    GGGAGACTGG AACAGCTCCG GCCCCAGGAG CTCTTGAGAG TCCAGGAGCC GGCTCCTCCC
    AGCGGTGAGA AGGCCAGGCT GAGTGAGGCC CCTGGTGGCA AGAAGAGCCT GAGCATGCTC
    CATTACCTCC GGGGCGCTGC GCCCAAGGAC ATTCCTGTGC CGTTGTCTCA CAGCGTCAAC
    GGGAAGAGCA AGCCCTGGGA GCCTTTCGTG GCCGAAGAGT TTGCACATCA ATTCCATGAG
    TCCGTGCTGC AGTCCACACA GAAGGCTCTG CAGAAGCATA AAGGGAATTG TGCTTTGCTA
    TCTGCAGAGC AGAGCCACAA AGTCGACACG GCAGTCCACT ACAACATTCC CGAGCTGCAG
    TCCTCCAGCA GGGTCCCCTT GCCCCAGCAC AATGGACAAC AGGAGCCCCT GACGGGGAGG
    AAGGGCCCTC CTATGCAGGA GGTGGACCAG GACTCTGAGG AGGACTCGGA GGAGGACAGC
    GAGGAGGAAG CTGAGGAAGC CCCCAGGCGC CAGTGGCAAG GGATTGAGGC AATCTTTGAA
    GCTTACCAGG AACACATAGA AGAGCAAAAC CTGGAGCGGC AGGTGCTACA GACGCAGTGC
    CGGCGGCTGG AGGCGCAGAA CTACAGCCTC AGCCTGACTG CAGAGCAGCT GTCTCACAGC
    ATGGCGGAGC TTCGGAGTCA GAAACAGAAG ATGGTCTCTG AGCGGGAGCG GCTCCAGGCG
    GAGCTGGACC ACTTGCGGAA GTGCCTTGCC TTGCCCACCA TGCACTGGCC TAGGGGCTAC
    TTTAAGGGAT ATCCGAGGTG A

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

    RefSeq XP_021025606.1
    CDS32..3652
    Translation

    Target ORF information:

    RefSeq Version XM_021169947.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli Gse1 coiled-coil protein (Gse1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021169947.1

    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
    ATGAGCCATG AGCCCAAGTC CCCTTCCATA GGGATGCTTT CCACGGCGAC CAGGACCACC 
    GCCACCGTCA ACCCCCTCAC CCCCTCGCCA CTCAATGGCG CCCTGGTGCC CACCGGTAGC
    CCGGCCACCA GCAGTGCGCT ATCGGCCCAG GCCGCTCCAT CCTCCAGCTT TGCTGCCGCG
    CTGCGCAAGC TCGCCAAACA GGCAGAGGAG CCCAGAGGGT CCTCACTGAG CAGCGAGTCA
    TCTCCAGTGT CCTCTCCAGC CACCAACCAT AGCTCTCCAG CTAGCACGCC CAAACGAGTG
    CCCATGGGCC CCATCATCGT CCCCCCTGGG GGTCACAGTG TCCCCAGCAC TCCCCCAGTG
    GTCACTATTG CCCCCACTAA AACCGTCAAC GGAGTCTGGA GAAGCGAGAG CCGCCAGGAC
    TCCGGCTCAC GAGGCAGCAG CAGTGGTCGG GAGCGCCTAT TGGTGGAGCC GCCTCTGGCC
    CAGGAAAAGG CCGCGGGCCC CACCATCCCC TCCCACCTAC TCAGCACTCC CTACCCCTTT
    GGCCTTTCCC CCGGCTCAGT TGTACAGGAC TCCCGCTTCC AACCACTCAA CCTCCAGCGG
    CCTGTGCACC ATGTGGTGCC CCCCAGCACG GTGACCGAGG ACTACCTGAG AAGTTTCCGG
    CCCTACCACA CTGCTGAAGA CTTACGCATG TCCTCCTTGC CCCCGCTCGG CCTGGACCCA
    GCCACTGCCG CAGCCTACTA TCACCCCAGC TACCTGGCCC CACACCCGTT CCCCCACCCG
    GCCTTCAGGA TGGATGACTC CTATTGCCTG TCAGCCTTAA GGTCTCCGTT CTACCCCATC
    CCCACCCCTG GCTCCCTGCC TCCACTGCAT CCTTCGGCGA TGCACCTTCA TCTCTCTGGT
    GTACGGTACC CTCCTGAGCT CTCCCACTCG TCCCTGGCGG CGCTACACTC GGAGCGGATG
    TCCAGCCTCA GTGCAGAGAG GTTGCAAATG GACGAGGAAC TGAGGCGGGA GAGAGAGCGG
    GAGCGGGAAC GGGAGGCCGA CCGGGAGCGG GAGAAGGAGC GGGAACGGGA GCAGCGGGAG
    AAGGAGCGGG AGAAGGAGCT GGAGCGCGAG CGGGAGAAGG AACGGGAACG CGAGCTGGAG
    CGGCAGCGGG AGCAGCGGGC AAGGGAGAAG GAGCTGCTGG CTGCCAAGGC CTTAGAGCCC
    ACCTCCTTCC TGCCTGTGGC CGAGCTGCAC GGACTCCGGG GTCACAGCAC GGAGGAGCGG
    CCCAAGCCCT CGGAGCAGCT GACCCCAACC CGAGCAGAGA AGCTGAAGGA CGTGGGCTTG
    CAGGCGCCCA AGCCCGTGCA GCACCCTCTG CACCCAGTGC CTGCCCCACA CCACACGGTG
    CCCAGCCTCA TCTCCAGCCA CGGCATCTTC TCTCTGCCTG GAAGCAGCGC CACCACTGCC
    CTGCTGATCC AGCGCACCAA CGAGGAGGAG AAGTGGCTGG CACGGCAGCG CCGCCTGCGG
    CAGGAGAAGG AAGACCGCCA GTCCCAGGTG TCCGAGTTCC GGCAGCAGGT CCTGGAGCAG
    CACCTAGACC TGGGCCGGCC CCCCGTGCCC ACAGAGGTGG AGCACAGGCC CGAGAGCACC
    AGGCCAGGAA CAAACCGGCA TGAGCAGGGC AGCCGTGAAC CCCCACAGCA CTTTGGTGGC
    CCTCCACCAC TCATCTCACC CAAGCCCCAG CACCACACCG TACCCACAGC CCTCTGGAAC
    CCAGTGTCTC TGATAGACAA TGCTCTGGAG ACGCGGCGGG CCGAGAGCCA CCCTCTGCAT
    AGCCACCCGA CTACTTTTGA GCCCAGCCGC CAGGCCGCCG TGCCACTGGT GAAGGTGGAG
    CGAGTTTACT GCTCAGAGAA GGCAGAGGAG CCCCGGAAGC GTGAGGCCAC ACCACTGGAC
    AAATACCAGC CGCCGCCGCC ACCACCGCGG GAGGCAGGAA GTCTGGAGCC TCAGACCTTT
    CCCCACGGAC CTGGGCCTTT CCTTACTGAA CTTGAGAAGT CAACACAGAC CATCTTGGGC
    CAGCAGCGGC CCTCTCTTTC CCAGGCAACC TCCTTCGGGG AGCTCAGTGG GCCTCTGAAG
    CCAGGCTCTC CGTACTGCCA CCCCACAGCG AGGGGCCCCG ATCCAGCCTA CATCTACGAT
    GAGTTTCTTC AGCAGCGACG GAGGCTGGTC AGCAAACTGG ACCTGGAGGA ACGCAGGCGG
    CGCGAGGCTC AGGAGAAAGG GTACTATTAC GACCTCGATG ACTCGTACGA CGAGAGTGAC
    GAGGAGGAGG TCAGGGCACA TCTCCGCTGT GTGGCTGAGC AGCCGCCCCT CAAACTGGAC
    ACGTCCTCAG AGAAGCTAGA GTTCTTGCAG CTTTTTGGCT TGACCACCCA ACAGCAGAAG
    GAGGAACTGG TGGCGCAGAA GCGCCGGAAG CGGAGGCGGA TGCTCAGAGA GAGAAGCCCG
    TCGCCACCTG CCGTTCAGTG CAAGCGACAG ACGCCTTCCC CCAGGCTGGC TCTGTCCACC
    CGCTACAGCC CCGACGAGAT GAACAACAGC CCCAACTTTG AGGAGAAGAG GAAGTTCCTG
    ACCTTCTTCA ACCTGACACA CATCAGTGCG GAGAAGAGGA AAGACAAAGA GAGGCTTGTT
    GAAATGCTCC GAGCCATGAA GCAGAGAGCA CTGTCCGCAG CAGACTCAGT GACAAACTCT
    TCGAGGGACA GTCCTCCCAT CTCCCTAAGT GAACCAGCCA CACAGCCAGC TCCTCTAGAG
    ACGGATCAGC CTGTCGGGGT CCCTGCCTCC TTGTCAGATG TCCCAAAGGC CGCGGAGACT
    GGGAGACTGG AACAGCTCCG GCCCCAGGAG CTCTTGAGAG TCCAGGAGCC GGCTCCTCCC
    AGCGGTGAGA AGGCCAGGCT GAGTGAGGCC CCTGGTGGCA AGAAGAGCCT GAGCATGCTC
    CATTACCTCC GGGGCGCTGC GCCCAAGGAC ATTCCTGTGC CGTTGTCTCA CAGCGTCAAC
    GGGAAGAGCA AGCCCTGGGA GCCTTTCGTG GCCGAAGAGT TTGCACATCA ATTCCATGAG
    TCCGTGCTGC AGTCCACACA GAAGGCTCTG CAGAAGCATA AAGGGAATTG TGCTTTGCTA
    TCTGCAGAGC AGAGCCACAA AGTCGACACG GCAGTCCACT ACAACATTCC CGAGCTGCAG
    TCCTCCAGCA GGGTCCCCTT GCCCCAGCAC AATGGACAAC AGGAGCCCCT GACGGGGAGG
    AAGGGCCCTC CTATGCAGGA GGTGGACCAG GACTCTGAGG AGGACTCGGA GGAGGACAGC
    GAGGAGGAAG CTGAGGAAGC CCCCAGGCGC CAGTGGCAAG GGATTGAGGC AATCTTTGAA
    GCTTACCAGG AACACATAGA AGAGCAAAAC CTGGAGCGGC AGGTGCTACA GACGCAGTGC
    CGGCGGCTGG AGGCGCAGAA CTACAGCCTC AGCCTGACTG CAGAGCAGCT GTCTCACAGC
    ATGGCGGAGC TTCGGAGTCA GAAACAGAAG ATGGTCTCTG AGCGGGAGCG GCTCCAGGCG
    GAGCTGGACC ACTTGCGGAA GTGCCTTGCC TTGCCCACCA TGCACTGGCC TAGGGGCTAC
    TTTAAGGGAT ATCCGAGGTG A

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