ORF » Species Summary » Rattus norvegicus » Simc1 cDNA ORF clone

Simc1 cDNA ORF clone, Rattus norvegicus(Norway rat)

The following Simc1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Simc1 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
ORa20597 XM_006222338.3
Latest version!		 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
ORa37716 XM_006253664.3
Latest version!		 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
ORa50838 XM_008773933.2
Latest version!		 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
ORa50839 XM_008773934.2
Latest version!		 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
ORa50841 XM_008771514.2
Latest version!		 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00

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

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

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

  • Reference Sequences (Refseq)
    Simc1 ( XM_006222338.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006222400.1 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ORa20597
    Clone ID Related Accession (Same CDS sequence) XM_006222338.3
    Accession Version XM_006222338.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3834bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product SUMO-interacting motif-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006222338.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGAGGACT TTATCGTGAT CTCCGACGAC AGTGGCTCCG AGAGCTCGGC CGGGACCCGC 
    TCGGGCAGGG CGCGGAGGCT GCGCCGGGCC CTGTCCCGGA CCCCCGGCGC GCTGCCCCGC 
    CGAACCGTGG ACTTTATTGA CTTAACTAGA GAAACTCGAA CAAGGGCAAA AGATCGGAAT 
    GGACTCTGTG TGATTGATCT GACAAGAAGT GAGGAAGAAA ATAGGCCTAT TGCCACTCTC 
    GATTTGACTT TAGAACCTGT AGCTTCCTCT CAGAAGGAGC CACCCAGTCT TCAGACATGT 
    ACCAATCTCT CAGGCAAAGA GATGATTGAA GCTCAAGGAG ACAGAGGCAC TCAGCCTGCA 
    GCACAGAGAG TCATTAACAA TGATCCTGTA GATTTGGATT TGTTGGAGGA AAACATGTTT 
    GAAGGTTCTC GACCCCCTAC ATCCATCAGC CAGGACTCTG TTTATCCACC AGAACCAAAC 
    TGTAGCTCAA TCACATATAA AGGTGACCTC AGCTTCTTGA CAAGCCTACA GCTCTCTTCA 
    GATGTTAGCC CCTTCTCCTC CACAAGCAAT AACAGTAGCA GCAGCAGCAA TCAGAGGACC 
    TCTTTGCCAT GCCCACAGCA AGATGTGCCT TGCCAATCAC AAGGCTTGCT ATGCTCACTT 
    CAGGCCTTAT CATACCCATT AAGAGGTTCA CCATGTCCAC CACGAGCTTC CTCATGTCCA 
    CCACAAGCCC TGTCATGCCC ACCACAAGCT TTGTCATGTC CATCACAGAC TTTGTCATGC 
    CCAACTCAAG CCTTGTCATG CCCATCACAG ACTGTGCAGT GCCAGCTCCA AGCATTGCCT 
    CAACCACCTC AAGAAGTGCC ATGCTCTACC CAAAATGTAC CATGCCCTCA GCAGAATATC 
    CCAAGCACAC CTCAAGACTT ACCATGGCAT CCTCGACACC CCCTATACCC ATCCCAAGAC 
    ACTTTGGGCC TACCTCAAGA TGTTCCAGGC CGACCTCAAA ACGTATCATA TCCACAAGAC 
    ATGACACAAC TACAAGACAT GCCATGGTCA CTGCAAGACA TGCCGCTGTC ACTACAAGAT 
    GTGCTACAGT CACTGCAAGA TGTGCCACCA TTGCTGGGAG ATGTGCCACA GTCGCCAGAA 
    GTGATGCAGT TACCAGGATA TATGACACAG TCATCAAGAA ATGTGATTCA GTCATCAGCA 
    GGTGTGATCC GATCATCAGG AGGTGTGATG CAGCCATCAG GATGTATGAT GCAGCCATCA 
    GGAGGTGTGA CCCAGTCACT AAGAAGTGCA ATACAGTCAT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCACT AAGAAGTGTG ATGCAGTCGT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCATC AGGAGGTGTG ACATGGTCAC TAAGAAGTGT GATGCAGTCA 
    TCAGGATGTA TGATGCAGTC CCCAGGAGGT GTGATGCTGT CAGCAGGAGA TATGATGCAA 
    TCATCTGGTG GTGCGACACG GTCACTAAGA AGTATGATGC AGTCATCAGG ATGTATGATG 
    CAGTCCCCAG GAGGTGTGAC CCAGTCATCA GGAAGTGTGA TGCAGTCACT AAGAAATGTT 
    ATTCAGTCAT CAGGAGGTGT GACACAGTCA TCAGGTGGGG TGATACAGTC CTCATCAGGT 
    GTGCCACAAT CATTAAGAGA TAGGATGCAG TCACCAGGAA GTGTCTCACA GTCATCAGGA 
    GATGTGATAC AATCACCAAG AGGTGCGTCA CCAGCATCAG GAGATGTGAT AAAGTCACAA 
    GGAGGTGTGC CACGGTCATT AAGAGATAGG ATGCAGTCAC CAGGAGGTGT GCCACAGTCA 
    TCAGAAGATG TAATACAATC AGCAGGAGGT GTGTCGCCTG CATCAGGAGA TGCAATACAG 
    TCACCAGGAG GTGTATCACC TGCCTCAGGA GATGCAATGC AGTCATCAGG AGGTGTGACA 
    CCATCATTAG GAGATGTGCC ACAGTCATCA GGAGGTGTGT CACCTGCATC AGGAGATGCA 
    ATGCAGTCAC CAGGAGGTGT GACCCCATCA TTAGGAGACG CAATGCAGTC ACCAGGAGGT 
    GTGTCACCAG CATCAGGAGA TGCGATGCAG TCACCAGGAG GTGTGTCACC ATCATTAGGA 
    GATGTGCCAC AGTCACCTGG CAATATGTTA GAGTCACTTG GAAATACACC AAACTTATCA 
    GGAGATGTGT CACACGTACC ACAAGAGTTA TTGGATTTGG CAAAAGGCAG GCCCAAATTG 
    TCCCTGAATG CTGTGCAAAA TCGCCATTCT CCTATGACTA TCTCTGCTCC ATCCTCTCCA 
    AGCTGCTCTG CTAACCCACT GTCTCAACAG TCTGAATTTT CCTCAGAAAA ACGTCCTTGG 
    CTCACAGTCT CAAACAGCTC AGCCAGAGAA GAGAGATCAC TGCCACAGTC TGCCACCCCT 
    GGCTCTGCCC AGATACAGGG ACAAATAGCA CAAGCTGGGG TGTACAATAG GCCTTGCCTG 
    CATAGACTGA AGTACTTCCT ACGGCCTCCA GTACATCATC TCTTCTTCCA GACGTTAATA 
    CCGGATAAAG ACACACGAGA GAGCAAGGGT CAGAAATTAG AACCCATCCC TCATCGAAGA 
    CTAAGAATGG TGACAAACAC TATTGAGGAA AACTTCCCCT TGGGAACTGT GCAGTTTTTA 
    ATGGACTTTG TTTCACCCCA ACATTACCCA CCCAGAGAAA TTGTGGCTCA CATCATCCAG 
    AAAATCCTGC TGAGCGGCTC TGAGACTGTG GATGTCCTCA AGGAGGCCTA CATGCTTCTC 
    ATGAAAATCC AACAGCTGCA TCCAGCCAAT GCCAAGACAG TGGAGTGGGA CTGGAAACTG 
    CTCACCTATG TCATGGAGGA AGAGGGGCAA ACTTTACCTG GACGAGTTCT CTTTCTACGG 
    TACGTGGTGC AGACCCTGGA GGATGACTTC CAGCAGATCC TGAGGAGACA GCGGCAGCAC 
    CTACAGCAAT CCATTGCAAA CACGGTTCTG TCATGTGACA AACAGCCCCA CAACGTCAGA 
    GATGTTATCA AGTGGCTGGT CAAAGCAGTG ACTGAAAATG CATTAACTCC ACCCCAGGAC 
    GAGACGCAGA CCTCTCCAGG ACCAGGAGTC TTGAAAACGA GCAGTGACCA TCTGTCACCC 
    CAGCCTAACC TGGCCAGGAA CACCAATCAA CTGATTGTGT GTCAGCTTCA GAGGATGCTG 
    TCCATCGCCG TAGAGGTAGA CAGGACTCCA ACCTGCAGCT CCAATAAAAT AGCGGAGATG 
    ATGTTTGGGT TTGTGCTGGA CATCCCCGAG AGGAGCCAGA GGGAGATGTT CTTTACTACC 
    ATGGAAAGCC ACCTTCTGCG ATGCAAAGTC TTAGAGATCA TATTCCTCCA CAGCTGTGAG 
    ACACCCACCC GTCTCCCCTT GTCTCTGGCC CAGGCCCTCT ATTTTCTGAA CAACTCCACA 
    TCCCTGCTCA AGTGTCAGTC AGATAAAAGC CAGTGGCAGA CGTGGGATGA GCTGGTTGAA 
    CATCTGCAGT TCCTGTTGTC CAGTTATCAA CATGTGCTGA GAGAGCACTT ACGGAGTTCA 
    GTAATTGATC GGAAAGACTT AATCATCAAA CGAATTAAGC CCAAGCCCCA GCAAGGAGAT 
    GACATCACAG TGGTGGATGT GGAGAAGCAG ATTGAGGCCT TCCGTAGCCG CCTGGTCCAC 
    ATATTGGGAG AACCTTTAGT CCCCCAGCTC CAAGACAAAG TGCATTTGTT GAAGCTGCTG 
    CTCTTCTACG CTGCGGACTT GAACCCCGAC ACAGAGCCTG CCTCAGAGCG CTGA

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

    RefSeq XP_006222400.1
    CDS27..3860
    Translation

    Target ORF information:

    RefSeq Version XM_006222338.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006222338.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGAGGACT TTATCGTGAT CTCCGACGAC AGTGGCTCCG AGAGCTCGGC CGGGACCCGC 
    TCGGGCAGGG CGCGGAGGCT GCGCCGGGCC CTGTCCCGGA CCCCCGGCGC GCTGCCCCGC 
    CGAACCGTGG ACTTTATTGA CTTAACTAGA GAAACTCGAA CAAGGGCAAA AGATCGGAAT 
    GGACTCTGTG TGATTGATCT GACAAGAAGT GAGGAAGAAA ATAGGCCTAT TGCCACTCTC 
    GATTTGACTT TAGAACCTGT AGCTTCCTCT CAGAAGGAGC CACCCAGTCT TCAGACATGT 
    ACCAATCTCT CAGGCAAAGA GATGATTGAA GCTCAAGGAG ACAGAGGCAC TCAGCCTGCA 
    GCACAGAGAG TCATTAACAA TGATCCTGTA GATTTGGATT TGTTGGAGGA AAACATGTTT 
    GAAGGTTCTC GACCCCCTAC ATCCATCAGC CAGGACTCTG TTTATCCACC AGAACCAAAC 
    TGTAGCTCAA TCACATATAA AGGTGACCTC AGCTTCTTGA CAAGCCTACA GCTCTCTTCA 
    GATGTTAGCC CCTTCTCCTC CACAAGCAAT AACAGTAGCA GCAGCAGCAA TCAGAGGACC 
    TCTTTGCCAT GCCCACAGCA AGATGTGCCT TGCCAATCAC AAGGCTTGCT ATGCTCACTT 
    CAGGCCTTAT CATACCCATT AAGAGGTTCA CCATGTCCAC CACGAGCTTC CTCATGTCCA 
    CCACAAGCCC TGTCATGCCC ACCACAAGCT TTGTCATGTC CATCACAGAC TTTGTCATGC 
    CCAACTCAAG CCTTGTCATG CCCATCACAG ACTGTGCAGT GCCAGCTCCA AGCATTGCCT 
    CAACCACCTC AAGAAGTGCC ATGCTCTACC CAAAATGTAC CATGCCCTCA GCAGAATATC 
    CCAAGCACAC CTCAAGACTT ACCATGGCAT CCTCGACACC CCCTATACCC ATCCCAAGAC 
    ACTTTGGGCC TACCTCAAGA TGTTCCAGGC CGACCTCAAA ACGTATCATA TCCACAAGAC 
    ATGACACAAC TACAAGACAT GCCATGGTCA CTGCAAGACA TGCCGCTGTC ACTACAAGAT 
    GTGCTACAGT CACTGCAAGA TGTGCCACCA TTGCTGGGAG ATGTGCCACA GTCGCCAGAA 
    GTGATGCAGT TACCAGGATA TATGACACAG TCATCAAGAA ATGTGATTCA GTCATCAGCA 
    GGTGTGATCC GATCATCAGG AGGTGTGATG CAGCCATCAG GATGTATGAT GCAGCCATCA 
    GGAGGTGTGA CCCAGTCACT AAGAAGTGCA ATACAGTCAT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCACT AAGAAGTGTG ATGCAGTCGT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCATC AGGAGGTGTG ACATGGTCAC TAAGAAGTGT GATGCAGTCA 
    TCAGGATGTA TGATGCAGTC CCCAGGAGGT GTGATGCTGT CAGCAGGAGA TATGATGCAA 
    TCATCTGGTG GTGCGACACG GTCACTAAGA AGTATGATGC AGTCATCAGG ATGTATGATG 
    CAGTCCCCAG GAGGTGTGAC CCAGTCATCA GGAAGTGTGA TGCAGTCACT AAGAAATGTT 
    ATTCAGTCAT CAGGAGGTGT GACACAGTCA TCAGGTGGGG TGATACAGTC CTCATCAGGT 
    GTGCCACAAT CATTAAGAGA TAGGATGCAG TCACCAGGAA GTGTCTCACA GTCATCAGGA 
    GATGTGATAC AATCACCAAG AGGTGCGTCA CCAGCATCAG GAGATGTGAT AAAGTCACAA 
    GGAGGTGTGC CACGGTCATT AAGAGATAGG ATGCAGTCAC CAGGAGGTGT GCCACAGTCA 
    TCAGAAGATG TAATACAATC AGCAGGAGGT GTGTCGCCTG CATCAGGAGA TGCAATACAG 
    TCACCAGGAG GTGTATCACC TGCCTCAGGA GATGCAATGC AGTCATCAGG AGGTGTGACA 
    CCATCATTAG GAGATGTGCC ACAGTCATCA GGAGGTGTGT CACCTGCATC AGGAGATGCA 
    ATGCAGTCAC CAGGAGGTGT GACCCCATCA TTAGGAGACG CAATGCAGTC ACCAGGAGGT 
    GTGTCACCAG CATCAGGAGA TGCGATGCAG TCACCAGGAG GTGTGTCACC ATCATTAGGA 
    GATGTGCCAC AGTCACCTGG CAATATGTTA GAGTCACTTG GAAATACACC AAACTTATCA 
    GGAGATGTGT CACACGTACC ACAAGAGTTA TTGGATTTGG CAAAAGGCAG GCCCAAATTG 
    TCCCTGAATG CTGTGCAAAA TCGCCATTCT CCTATGACTA TCTCTGCTCC ATCCTCTCCA 
    AGCTGCTCTG CTAACCCACT GTCTCAACAG TCTGAATTTT CCTCAGAAAA ACGTCCTTGG 
    CTCACAGTCT CAAACAGCTC AGCCAGAGAA GAGAGATCAC TGCCACAGTC TGCCACCCCT 
    GGCTCTGCCC AGATACAGGG ACAAATAGCA CAAGCTGGGG TGTACAATAG GCCTTGCCTG 
    CATAGACTGA AGTACTTCCT ACGGCCTCCA GTACATCATC TCTTCTTCCA GACGTTAATA 
    CCGGATAAAG ACACACGAGA GAGCAAGGGT CAGAAATTAG AACCCATCCC TCATCGAAGA 
    CTAAGAATGG TGACAAACAC TATTGAGGAA AACTTCCCCT TGGGAACTGT GCAGTTTTTA 
    ATGGACTTTG TTTCACCCCA ACATTACCCA CCCAGAGAAA TTGTGGCTCA CATCATCCAG 
    AAAATCCTGC TGAGCGGCTC TGAGACTGTG GATGTCCTCA AGGAGGCCTA CATGCTTCTC 
    ATGAAAATCC AACAGCTGCA TCCAGCCAAT GCCAAGACAG TGGAGTGGGA CTGGAAACTG 
    CTCACCTATG TCATGGAGGA AGAGGGGCAA ACTTTACCTG GACGAGTTCT CTTTCTACGG 
    TACGTGGTGC AGACCCTGGA GGATGACTTC CAGCAGATCC TGAGGAGACA GCGGCAGCAC 
    CTACAGCAAT CCATTGCAAA CACGGTTCTG TCATGTGACA AACAGCCCCA CAACGTCAGA 
    GATGTTATCA AGTGGCTGGT CAAAGCAGTG ACTGAAAATG CATTAACTCC ACCCCAGGAC 
    GAGACGCAGA CCTCTCCAGG ACCAGGAGTC TTGAAAACGA GCAGTGACCA TCTGTCACCC 
    CAGCCTAACC TGGCCAGGAA CACCAATCAA CTGATTGTGT GTCAGCTTCA GAGGATGCTG 
    TCCATCGCCG TAGAGGTAGA CAGGACTCCA ACCTGCAGCT CCAATAAAAT AGCGGAGATG 
    ATGTTTGGGT TTGTGCTGGA CATCCCCGAG AGGAGCCAGA GGGAGATGTT CTTTACTACC 
    ATGGAAAGCC ACCTTCTGCG ATGCAAAGTC TTAGAGATCA TATTCCTCCA CAGCTGTGAG 
    ACACCCACCC GTCTCCCCTT GTCTCTGGCC CAGGCCCTCT ATTTTCTGAA CAACTCCACA 
    TCCCTGCTCA AGTGTCAGTC AGATAAAAGC CAGTGGCAGA CGTGGGATGA GCTGGTTGAA 
    CATCTGCAGT TCCTGTTGTC CAGTTATCAA CATGTGCTGA GAGAGCACTT ACGGAGTTCA 
    GTAATTGATC GGAAAGACTT AATCATCAAA CGAATTAAGC CCAAGCCCCA GCAAGGAGAT 
    GACATCACAG TGGTGGATGT GGAGAAGCAG ATTGAGGCCT TCCGTAGCCG CCTGGTCCAC 
    ATATTGGGAG AACCTTTAGT CCCCCAGCTC CAAGACAAAG TGCATTTGTT GAAGCTGCTG 
    CTCTTCTACG CTGCGGACTT GAACCCCGAC ACAGAGCCTG CCTCAGAGCG CTGA

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

    Simc1 ( XM_006253664.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006253726.1 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ORa37716
    Clone ID Related Accession (Same CDS sequence) XM_006253664.3
    Accession Version XM_006253664.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3834bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product SUMO-interacting motif-containing protein 1 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005116.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006253664.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGAGGACT TTATCGTGAT CTCCGACGAC AGTGGCTCCG AGAGCTCGGC CGGGACCCGC 
    TCGGGCAGGG CGCGGAGGCT GCGCCGGGCC CTGTCCCGGA CCCCCGGCGC GCTGCCCCGC 
    CGAACCGTGG ACTTTATTGA CTTAACTAGA GAAACTCGAA CAAGGGCAAA AGATCGGAAT 
    GGACTCTGTG TGATTGATCT GACAAGAAGT GAGGAAGAAA ATAGGCCTAT TGCCACTCTC 
    GATTTGACTT TAGAACCTGT AGCTTCCTCT CAGAAGGAGC CACCCAGTCT TCAGACATGT 
    ACCAATCTCT CAGGCAAAGA GATGATTGAA GCTCAAGGAG ACAGAGGCAC TCAGCCTGCA 
    GCACAGAGAG TCATTAACAA TGATCCTGTA GATTTGGATT TGTTGGAGGA AAACATGTTT 
    GAAGGTTCTC GACCCCCTAC ATCCATCAGC CAGGACTCTG TTTATCCACC AGAACCAAAC 
    TGTAGCTCAA TCACATATAA AGGTGACCTC AGCTTCTTGA CAAGCCTACA GCTCTCTTCA 
    GATGTTAGCC CCTTCTCCTC CACAAGCAAT AACAGTAGCA GCAGCAGCAA TCAGAGGACC 
    TCTTTGCCAT GCCCACAGCA AGATGTGCCT TGCCAATCAC AAGGCTTGCT ATGCTCACTT 
    CAGGCCTTAT CATACCCATT AAGAGGTTCA CCATGTCCAC CACGAGCTTC CTCATGTCCA 
    CCACAAGCCC TGTCATGCCC ACCACAAGCT TTGTCATGTC CATCACAGAC TTTGTCATGC 
    CCAACTCAAG CCTTGTCATG CCCATCACAG ACTGTGCAGT GCCAGCTCCA AGCATTGCCT 
    CAACCACCTC AAGAAGTGCC ATGCTCTACC CAAAATGTAC CATGCCCTCA GCAGAATATC 
    CCAAGCACAC CTCAAGACTT ACCATGGCAT CCTCGACACC CCCTATACCC ATCCCAAGAC 
    ACTTTGGGCC TACCTCAAGA TGTTCCAGGC CGACCTCAAA ACGTATCATA TCCACAAGAC 
    ATGACACAAC TACAAGACAT GCCATGGTCA CTGCAAGACA TGCCGCTGTC ACTACAAGAT 
    GTGCTACAGT CACTGCAAGA TGTGCCACCA TTGCTGGGAG ATGTGCCACA GTCGCCAGAA 
    GTGATGCAGT TACCAGGATA TATGACACAG TCATCAAGAA ATGTGATTCA GTCATCAGCA 
    GGTGTGATCC GATCATCAGG AGGTGTGATG CAGCCATCAG GATGTATGAT GCAGCCATCA 
    GGAGGTGTGA CCCAGTCACT AAGAAGTGCA ATACAGTCAT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCACT AAGAAGTGTG ATGCAGTCGT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCATC AGGAGGTGTG ACATGGTCAC TAAGAAGTGT GATGCAGTCA 
    TCAGGATGTA TGATGCAGTC CCCAGGAGGT GTGATGCTGT CAGCAGGAGA TATGATGCAA 
    TCATCTGGTG GTGCGACACG GTCACTAAGA AGTATGATGC AGTCATCAGG ATGTATGATG 
    CAGTCCCCAG GAGGTGTGAC CCAGTCATCA GGAAGTGTGA TGCAGTCACT AAGAAATGTT 
    ATTCAGTCAT CAGGAGGTGT GACACAGTCA TCAGGTGGGG TGATACAGTC CTCATCAGGT 
    GTGCCACAAT CATTAAGAGA TAGGATGCAG TCACCAGGAA GTGTCTCACA GTCATCAGGA 
    GATGTGATAC AATCACCAAG AGGTGCGTCA CCAGCATCAG GAGATGTGAT AAAGTCACAA 
    GGAGGTATGC CACGGTCATT AAGAGATAGG ATGCAGTCAC CAGGAGGTGT GCCACAGTCA 
    TCAGAAGATG TAATACAATC AGCAGGAGGT GTGTCGCCTG CATCAGGAGA TGCAATTCAG 
    TCACCAGGAG GTGTATCACC TGCCTCAGGA GATGCAATGC AGTCATCAGG AGGTGTGACA 
    CCATCATTAG GAGATGTGCC ACAGTCATCA GGAGGTGTGT CACCTGCATC AGGAGATGCA 
    ATGCAGTCAC CAGGAGGTGT GACCCCATCA TTAGGAGACG CAATGCAGTC ACCAGGAGGT 
    GTGTCACCAG CATCAGGAGA TGCGATGCAG TCACCAGGAG GTGTGTCACC ATCATTAGGA 
    GATGTGCCAC AGTCACCTGG CAATATGTTA GAGTCACTTG GAAATACACC AAACTTATCA 
    GGAGATGTGT CACACGTACC ACAAGAGTTA TTGGATTTGG CAAAAGGCAG GCCCAAATTG 
    TCCCTGAATG CTGTGCAAAA TCGCCATTCT CCTATGACTA TCTCGGCTCC ATCCTCTCCA 
    AGCTGCTCTG CTAACCCACT GTCTCAACAG TCTGAATTTT CCTCAGAAAA ACGTCCTTGG 
    CTCACAGTCT CAAACAGCTC AGCCAGAGAA GAGAGATCAC TGCCACAGTC TGCCACCCCT 
    GGCTCTGCCC AGATACAGGG ACAAATAGCA CAAGCTGGGG TGTACAATAG GCCTTGCCTG 
    CATAGACTGA AGTACTTCCT ACGGCCTCCA GTACATCATC TCTTCTTCCA GACGTTAATA 
    CCGGATAAAG ACACACGAGA GAGCAAGGGT CAGAAATTAG AACCCATCCC TCATCGAAGA 
    CTAAGAATGG TGACAAACAC TATTGAGGAA AACTTCCCCT TGGGAACTGT GCAGTTTTTA 
    ATGGACTTTG TTTCACCCCA ACATTACCCA CCCAGAGAAA TTGTGGCTCA CATCATCCAG 
    AAAATCCTGC TGAGCGGCTC TGAGACTGTG GATGTCCTCA AGGAGGCCTA CATGCTTCTC 
    ATGAAAATCC AACAGCTGCA TCCAGCCAAT GCCAAGACAG TGGAGTGGGA CTGGAAACTG 
    CTCACCTATG TCATGGAGGA AGAGGGGCAA ACTTTACCTG GACGAGTTCT CTTTCTACGG 
    TACGTGGTGC AGACCCTGGA GGATGACTTC CAGCAGATCC TGAGGAGACA GCGGCAGCAC 
    CTACAGCAAT CCATTGCAAA CACGGTTCTG TCATGTGACA AACAGCCCCA CAACGTCAGA 
    GATGTTATCA AGTGGCTGGT CAAAGCAGTG ACTGAAAATG CATTAACTCC ACCCCAGGAC 
    GAGACGCAGA CCTCTCCAGG ACCAGGAGTC TTGAAAACGA GCAGTGACCA TCTGTCACCC 
    CAGCCTAACC TGGCCAGGAA CACCAATCAA CTGATTGTGT GTCAGCTTCA GAGGATGCTG 
    TCCATCGCCG TAGAGGTAGA CAGGACTCCA ACCTGCAGCT CCAATAAAAT AGCGGAGATG 
    ATGTTTGGGT TTGTGCTGGA CATCCCCGAG AGGAGCCAGA GGGAGATGTT CTTTACTACC 
    ATGGAAAGCC ACCTTCTGCG ATGCAAAGTC TTAGAGATCA TATTCCTCCA CAGCTGTGAG 
    ACACCCACCC GTCTCCCCTT GTCTCTGGCC CAGGCCCTCT ATTTTCTGAA CAACTCCACA 
    TCCCTGCTCA AGTGTCAGTC AGATAAAAGC CAGTGGCAGA CGTGGGATGA GCTGGTTGAA 
    CATCTGCAGT TCCTGTTGTC CAGTTATCAA CATGTGCTGA GAGAGCACTT ACGGAGTTCA 
    GTAATTGATC GGAAAGACTT AATCATCAAA CGAATTAAGC CCAAGCCCCA GCAAGGAGAT 
    GACATCACAG TGGTGGATGT GGAGAAGCAG ATTGAGGCCT TCCGTAGCCG CCTGGTCCAC 
    ATATTGGGAG AACCTTTAGT CCCCCAGCTC CAAGACAAAG TGCATTTGTT GAAGCTGCTG 
    CTCTTCTACG CTGCGGACTT GAACCCCGAC ACAGAGCCTG CCTCAGAGCG CTGA

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

    RefSeq XP_006253726.1
    CDS108..3941
    Translation

    Target ORF information:

    RefSeq Version XM_006253664.3
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_006253664.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGAGGACT TTATCGTGAT CTCCGACGAC AGTGGCTCCG AGAGCTCGGC CGGGACCCGC 
    TCGGGCAGGG CGCGGAGGCT GCGCCGGGCC CTGTCCCGGA CCCCCGGCGC GCTGCCCCGC 
    CGAACCGTGG ACTTTATTGA CTTAACTAGA GAAACTCGAA CAAGGGCAAA AGATCGGAAT 
    GGACTCTGTG TGATTGATCT GACAAGAAGT GAGGAAGAAA ATAGGCCTAT TGCCACTCTC 
    GATTTGACTT TAGAACCTGT AGCTTCCTCT CAGAAGGAGC CACCCAGTCT TCAGACATGT 
    ACCAATCTCT CAGGCAAAGA GATGATTGAA GCTCAAGGAG ACAGAGGCAC TCAGCCTGCA 
    GCACAGAGAG TCATTAACAA TGATCCTGTA GATTTGGATT TGTTGGAGGA AAACATGTTT 
    GAAGGTTCTC GACCCCCTAC ATCCATCAGC CAGGACTCTG TTTATCCACC AGAACCAAAC 
    TGTAGCTCAA TCACATATAA AGGTGACCTC AGCTTCTTGA CAAGCCTACA GCTCTCTTCA 
    GATGTTAGCC CCTTCTCCTC CACAAGCAAT AACAGTAGCA GCAGCAGCAA TCAGAGGACC 
    TCTTTGCCAT GCCCACAGCA AGATGTGCCT TGCCAATCAC AAGGCTTGCT ATGCTCACTT 
    CAGGCCTTAT CATACCCATT AAGAGGTTCA CCATGTCCAC CACGAGCTTC CTCATGTCCA 
    CCACAAGCCC TGTCATGCCC ACCACAAGCT TTGTCATGTC CATCACAGAC TTTGTCATGC 
    CCAACTCAAG CCTTGTCATG CCCATCACAG ACTGTGCAGT GCCAGCTCCA AGCATTGCCT 
    CAACCACCTC AAGAAGTGCC ATGCTCTACC CAAAATGTAC CATGCCCTCA GCAGAATATC 
    CCAAGCACAC CTCAAGACTT ACCATGGCAT CCTCGACACC CCCTATACCC ATCCCAAGAC 
    ACTTTGGGCC TACCTCAAGA TGTTCCAGGC CGACCTCAAA ACGTATCATA TCCACAAGAC 
    ATGACACAAC TACAAGACAT GCCATGGTCA CTGCAAGACA TGCCGCTGTC ACTACAAGAT 
    GTGCTACAGT CACTGCAAGA TGTGCCACCA TTGCTGGGAG ATGTGCCACA GTCGCCAGAA 
    GTGATGCAGT TACCAGGATA TATGACACAG TCATCAAGAA ATGTGATTCA GTCATCAGCA 
    GGTGTGATCC GATCATCAGG AGGTGTGATG CAGCCATCAG GATGTATGAT GCAGCCATCA 
    GGAGGTGTGA CCCAGTCACT AAGAAGTGCA ATACAGTCAT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCACT AAGAAGTGTG ATGCAGTCGT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCATC AGGAGGTGTG ACATGGTCAC TAAGAAGTGT GATGCAGTCA 
    TCAGGATGTA TGATGCAGTC CCCAGGAGGT GTGATGCTGT CAGCAGGAGA TATGATGCAA 
    TCATCTGGTG GTGCGACACG GTCACTAAGA AGTATGATGC AGTCATCAGG ATGTATGATG 
    CAGTCCCCAG GAGGTGTGAC CCAGTCATCA GGAAGTGTGA TGCAGTCACT AAGAAATGTT 
    ATTCAGTCAT CAGGAGGTGT GACACAGTCA TCAGGTGGGG TGATACAGTC CTCATCAGGT 
    GTGCCACAAT CATTAAGAGA TAGGATGCAG TCACCAGGAA GTGTCTCACA GTCATCAGGA 
    GATGTGATAC AATCACCAAG AGGTGCGTCA CCAGCATCAG GAGATGTGAT AAAGTCACAA 
    GGAGGTATGC CACGGTCATT AAGAGATAGG ATGCAGTCAC CAGGAGGTGT GCCACAGTCA 
    TCAGAAGATG TAATACAATC AGCAGGAGGT GTGTCGCCTG CATCAGGAGA TGCAATTCAG 
    TCACCAGGAG GTGTATCACC TGCCTCAGGA GATGCAATGC AGTCATCAGG AGGTGTGACA 
    CCATCATTAG GAGATGTGCC ACAGTCATCA GGAGGTGTGT CACCTGCATC AGGAGATGCA 
    ATGCAGTCAC CAGGAGGTGT GACCCCATCA TTAGGAGACG CAATGCAGTC ACCAGGAGGT 
    GTGTCACCAG CATCAGGAGA TGCGATGCAG TCACCAGGAG GTGTGTCACC ATCATTAGGA 
    GATGTGCCAC AGTCACCTGG CAATATGTTA GAGTCACTTG GAAATACACC AAACTTATCA 
    GGAGATGTGT CACACGTACC ACAAGAGTTA TTGGATTTGG CAAAAGGCAG GCCCAAATTG 
    TCCCTGAATG CTGTGCAAAA TCGCCATTCT CCTATGACTA TCTCGGCTCC ATCCTCTCCA 
    AGCTGCTCTG CTAACCCACT GTCTCAACAG TCTGAATTTT CCTCAGAAAA ACGTCCTTGG 
    CTCACAGTCT CAAACAGCTC AGCCAGAGAA GAGAGATCAC TGCCACAGTC TGCCACCCCT 
    GGCTCTGCCC AGATACAGGG ACAAATAGCA CAAGCTGGGG TGTACAATAG GCCTTGCCTG 
    CATAGACTGA AGTACTTCCT ACGGCCTCCA GTACATCATC TCTTCTTCCA GACGTTAATA 
    CCGGATAAAG ACACACGAGA GAGCAAGGGT CAGAAATTAG AACCCATCCC TCATCGAAGA 
    CTAAGAATGG TGACAAACAC TATTGAGGAA AACTTCCCCT TGGGAACTGT GCAGTTTTTA 
    ATGGACTTTG TTTCACCCCA ACATTACCCA CCCAGAGAAA TTGTGGCTCA CATCATCCAG 
    AAAATCCTGC TGAGCGGCTC TGAGACTGTG GATGTCCTCA AGGAGGCCTA CATGCTTCTC 
    ATGAAAATCC AACAGCTGCA TCCAGCCAAT GCCAAGACAG TGGAGTGGGA CTGGAAACTG 
    CTCACCTATG TCATGGAGGA AGAGGGGCAA ACTTTACCTG GACGAGTTCT CTTTCTACGG 
    TACGTGGTGC AGACCCTGGA GGATGACTTC CAGCAGATCC TGAGGAGACA GCGGCAGCAC 
    CTACAGCAAT CCATTGCAAA CACGGTTCTG TCATGTGACA AACAGCCCCA CAACGTCAGA 
    GATGTTATCA AGTGGCTGGT CAAAGCAGTG ACTGAAAATG CATTAACTCC ACCCCAGGAC 
    GAGACGCAGA CCTCTCCAGG ACCAGGAGTC TTGAAAACGA GCAGTGACCA TCTGTCACCC 
    CAGCCTAACC TGGCCAGGAA CACCAATCAA CTGATTGTGT GTCAGCTTCA GAGGATGCTG 
    TCCATCGCCG TAGAGGTAGA CAGGACTCCA ACCTGCAGCT CCAATAAAAT AGCGGAGATG 
    ATGTTTGGGT TTGTGCTGGA CATCCCCGAG AGGAGCCAGA GGGAGATGTT CTTTACTACC 
    ATGGAAAGCC ACCTTCTGCG ATGCAAAGTC TTAGAGATCA TATTCCTCCA CAGCTGTGAG 
    ACACCCACCC GTCTCCCCTT GTCTCTGGCC CAGGCCCTCT ATTTTCTGAA CAACTCCACA 
    TCCCTGCTCA AGTGTCAGTC AGATAAAAGC CAGTGGCAGA CGTGGGATGA GCTGGTTGAA 
    CATCTGCAGT TCCTGTTGTC CAGTTATCAA CATGTGCTGA GAGAGCACTT ACGGAGTTCA 
    GTAATTGATC GGAAAGACTT AATCATCAAA CGAATTAAGC CCAAGCCCCA GCAAGGAGAT 
    GACATCACAG TGGTGGATGT GGAGAAGCAG ATTGAGGCCT TCCGTAGCCG CCTGGTCCAC 
    ATATTGGGAG AACCTTTAGT CCCCCAGCTC CAAGACAAAG TGCATTTGTT GAAGCTGCTG 
    CTCTTCTACG CTGCGGACTT GAACCCCGAC ACAGAGCCTG CCTCAGAGCG CTGA

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

    Simc1 ( XM_008773933.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008772155.1 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID ORa50838
    Clone ID Related Accession (Same CDS sequence) XM_008773933.2
    Accession Version XM_008773933.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3759bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product SUMO-interacting motif-containing protein 1 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008773933.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGCCAAGG CTGGCATTGG ACTAATGAAT GCAGATCAAC AAGGAAAAGG CAAGGACTTT 
    ATTGACTTAA CTAGAGAAAC TCGAACAAGG GCAAAAGATC GGAATGGACT CTGTGTGATT 
    GATCTGACAA GAAGTGAGGA AGAAAATAGG CCTATTGCCA CTCTCGATTT GACTTTAGAA 
    CCTGTAGCTT CCTCTCAGAA GGAGCCACCC AGTCTTCAGA CATGTACCAA TCTCTCAGGC 
    AAAGAGATGA TTGAAGCTCA AGGAGACAGA GGCACTCAGC CTGCAGCACA GAGAGTCATT 
    AACAATGATC CTGTAGATTT GGATTTGTTG GAGGAAAACA TGTTTGAAGG TTCTCGACCC 
    CCTACATCCA TCAGCCAGGA CTCTGTTTAT CCACCAGAAC CAAACTGTAG CTCAATCACA 
    TATAAAGGTG ACCTCAGCTT CTTGACAAGC CTACAGCTCT CTTCAGATGT TAGCCCCTTC 
    TCCTCCACAA GCAATAACAG TAGCAGCAGC AGCAATCAGA GGACCTCTTT GCCATGCCCA 
    CAGCAAGATG TGCCTTGCCA ATCACAAGGC TTGCTATGCT CACTTCAGGC CTTATCATAC 
    CCATTAAGAG GTTCACCATG TCCACCACGA GCTTCCTCAT GTCCACCACA AGCCCTGTCA 
    TGCCCACCAC AAGCTTTGTC ATGTCCATCA CAGACTTTGT CATGCCCAAC TCAAGCCTTG 
    TCATGCCCAT CACAGACTGT GCAGTGCCAG CTCCAAGCAT TGCCTCAACC ACCTCAAGAA 
    GTGCCATGCT CTACCCAAAA TGTACCATGC CCTCAGCAGA ATATCCCAAG CACACCTCAA 
    GACTTACCAT GGCATCCTCG ACACCCCCTA TACCCATCCC AAGACACTTT GGGCCTACCT 
    CAAGATGTTC CAGGCCGACC TCAAAACGTA TCATATCCAC AAGACATGAC ACAACTACAA 
    GACATGCCAT GGTCACTGCA AGACATGCCG CTGTCACTAC AAGATGTGCT ACAGTCACTG 
    CAAGATGTGC CACCATTGCT GGGAGATGTG CCACAGTCGC CAGAAGTGAT GCAGTTACCA 
    GGATATATGA CACAGTCATC AAGAAATGTG ATTCAGTCAT CAGCAGGTGT GATCCGATCA 
    TCAGGAGGTG TGATGCAGCC ATCAGGATGT ATGATGCAGC CATCAGGAGG TGTGACCCAG 
    TCACTAAGAA GTGCAATACA GTCATCAGGA GGTGTGATGC AGTCATCAGG TGTGACGCAG 
    TCACTAAGAA GTGTGATGCA GTCGTCAGGA GGTGTGATGC AGTCATCAGG TGTGACGCAG 
    TCATCAGGAG GTGTGACATG GTCACTAAGA AGTGTGATGC AGTCATCAGG ATGTATGATG 
    CAGTCCCCAG GAGGTGTGAT GCTGTCAGCA GGAGATATGA TGCAATCATC TGGTGGTGCG 
    ACACGGTCAC TAAGAAGTAT GATGCAGTCA TCAGGATGTA TGATGCAGTC CCCAGGAGGT 
    GTGACCCAGT CATCAGGAAG TGTGATGCAG TCACTAAGAA ATGTTATTCA GTCATCAGGA 
    GGTGTGACAC AGTCATCAGG TGGGGTGATA CAGTCCTCAT CAGGTGTGCC ACAATCATTA 
    AGAGATAGGA TGCAGTCACC AGGAAGTGTC TCACAGTCAT CAGGAGATGT GATACAATCA 
    CCAAGAGGTG CGTCACCAGC ATCAGGAGAT GTGATAAAGT CACAAGGAGG TGTGCCACGG 
    TCATTAAGAG ATAGGATGCA GTCACCAGGA GGTGTGCCAC AGTCATCAGA AGATGTAATA 
    CAATCAGCAG GAGGTGTGTC GCCTGCATCA GGAGATGCAA TACAGTCACC AGGAGGTGTA 
    TCACCTGCCT CAGGAGATGC AATGCAGTCA TCAGGAGGTG TGACACCATC ATTAGGAGAT 
    GTGCCACAGT CATCAGGAGG TGTGTCACCT GCATCAGGAG ATGCAATGCA GTCACCAGGA 
    GGTGTGACCC CATCATTAGG AGACGCAATG CAGTCACCAG GAGGTGTGTC ACCAGCATCA 
    GGAGATGCGA TGCAGTCACC AGGAGGTGTG TCACCATCAT TAGGAGATGT GCCACAGTCA 
    CCTGGCAATA TGTTAGAGTC ACTTGGAAAT ACACCAAACT TATCAGGAGA TGTGTCACAC 
    GTACCACAAG AGTTATTGGA TTTGGCAAAA GGCAGGCCCA AATTGTCCCT GAATGCTGTG 
    CAAAATCGCC ATTCTCCTAT GACTATCTCT GCTCCATCCT CTCCAAGCTG CTCTGCTAAC 
    CCACTGTCTC AACAGTCTGA ATTTTCCTCA GAAAAACGTC CTTGGCTCAC AGTCTCAAAC 
    AGCTCAGCCA GAGAAGAGAG ATCACTGCCA CAGTCTGCCA CCCCTGGCTC TGCCCAGATA 
    CAGGGACAAA TAGCACAAGC TGGGGTGTAC AATAGGCCTT GCCTGCATAG ACTGAAGTAC 
    TTCCTACGGC CTCCAGTACA TCATCTCTTC TTCCAGACGT TAATACCGGA TAAAGACACA 
    CGAGAGAGCA AGGGTCAGAA ATTAGAACCC ATCCCTCATC GAAGACTAAG AATGGTGACA 
    AACACTATTG AGGAAAACTT CCCCTTGGGA ACTGTGCAGT TTTTAATGGA CTTTGTTTCA 
    CCCCAACATT ACCCACCCAG AGAAATTGTG GCTCACATCA TCCAGAAAAT CCTGCTGAGC 
    GGCTCTGAGA CTGTGGATGT CCTCAAGGAG GCCTACATGC TTCTCATGAA AATCCAACAG 
    CTGCATCCAG CCAATGCCAA GACAGTGGAG TGGGACTGGA AACTGCTCAC CTATGTCATG 
    GAGGAAGAGG GGCAAACTTT ACCTGGACGA GTTCTCTTTC TACGGTACGT GGTGCAGACC 
    CTGGAGGATG ACTTCCAGCA GATCCTGAGG AGACAGCGGC AGCACCTACA GCAATCCATT 
    GCAAACACGG TTCTGTCATG TGACAAACAG CCCCACAACG TCAGAGATGT TATCAAGTGG 
    CTGGTCAAAG CAGTGACTGA AAATGCATTA ACTCCACCCC AGGACGAGAC GCAGACCTCT 
    CCAGGACCAG GAGTCTTGAA AACGAGCAGT GACCATCTGT CACCCCAGCC TAACCTGGCC 
    AGGAACACCA ATCAACTGAT TGTGTGTCAG CTTCAGAGGA TGCTGTCCAT CGCCGTAGAG 
    GTAGACAGGA CTCCAACCTG CAGCTCCAAT AAAATAGCGG AGATGATGTT TGGGTTTGTG 
    CTGGACATCC CCGAGAGGAG CCAGAGGGAG ATGTTCTTTA CTACCATGGA AAGCCACCTT 
    CTGCGATGCA AAGTCTTAGA GATCATATTC CTCCACAGCT GTGAGACACC CACCCGTCTC 
    CCCTTGTCTC TGGCCCAGGC CCTCTATTTT CTGAACAACT CCACATCCCT GCTCAAGTGT 
    CAGTCAGATA AAAGCCAGTG GCAGACGTGG GATGAGCTGG TTGAACATCT GCAGTTCCTG 
    TTGTCCAGTT ATCAACATGT GCTGAGAGAG CACTTACGGA GTTCAGTAAT TGATCGGAAA 
    GACTTAATCA TCAAACGAAT TAAGCCCAAG CCCCAGCAAG GAGATGACAT CACAGTGGTG 
    GATGTGGAGA AGCAGATTGA GGCCTTCCGT AGCCGCCTGG TCCACATATT GGGAGAACCT 
    TTAGTCCCCC AGCTCCAAGA CAAAGTGCAT TTGTTGAAGC TGCTGCTCTT CTACGCTGCG 
    GACTTGAACC CCGACACAGA GCCTGCCTCA GAGCGCTGA

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

    RefSeq XP_008772155.1
    CDS661..4419
    Translation

    Target ORF information:

    RefSeq Version XM_008773933.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008773933.2

    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
    ATGGCCAAGG CTGGCATTGG ACTAATGAAT GCAGATCAAC AAGGAAAAGG CAAGGACTTT 
    ATTGACTTAA CTAGAGAAAC TCGAACAAGG GCAAAAGATC GGAATGGACT CTGTGTGATT 
    GATCTGACAA GAAGTGAGGA AGAAAATAGG CCTATTGCCA CTCTCGATTT GACTTTAGAA 
    CCTGTAGCTT CCTCTCAGAA GGAGCCACCC AGTCTTCAGA CATGTACCAA TCTCTCAGGC 
    AAAGAGATGA TTGAAGCTCA AGGAGACAGA GGCACTCAGC CTGCAGCACA GAGAGTCATT 
    AACAATGATC CTGTAGATTT GGATTTGTTG GAGGAAAACA TGTTTGAAGG TTCTCGACCC 
    CCTACATCCA TCAGCCAGGA CTCTGTTTAT CCACCAGAAC CAAACTGTAG CTCAATCACA 
    TATAAAGGTG ACCTCAGCTT CTTGACAAGC CTACAGCTCT CTTCAGATGT TAGCCCCTTC 
    TCCTCCACAA GCAATAACAG TAGCAGCAGC AGCAATCAGA GGACCTCTTT GCCATGCCCA 
    CAGCAAGATG TGCCTTGCCA ATCACAAGGC TTGCTATGCT CACTTCAGGC CTTATCATAC 
    CCATTAAGAG GTTCACCATG TCCACCACGA GCTTCCTCAT GTCCACCACA AGCCCTGTCA 
    TGCCCACCAC AAGCTTTGTC ATGTCCATCA CAGACTTTGT CATGCCCAAC TCAAGCCTTG 
    TCATGCCCAT CACAGACTGT GCAGTGCCAG CTCCAAGCAT TGCCTCAACC ACCTCAAGAA 
    GTGCCATGCT CTACCCAAAA TGTACCATGC CCTCAGCAGA ATATCCCAAG CACACCTCAA 
    GACTTACCAT GGCATCCTCG ACACCCCCTA TACCCATCCC AAGACACTTT GGGCCTACCT 
    CAAGATGTTC CAGGCCGACC TCAAAACGTA TCATATCCAC AAGACATGAC ACAACTACAA 
    GACATGCCAT GGTCACTGCA AGACATGCCG CTGTCACTAC AAGATGTGCT ACAGTCACTG 
    CAAGATGTGC CACCATTGCT GGGAGATGTG CCACAGTCGC CAGAAGTGAT GCAGTTACCA 
    GGATATATGA CACAGTCATC AAGAAATGTG ATTCAGTCAT CAGCAGGTGT GATCCGATCA 
    TCAGGAGGTG TGATGCAGCC ATCAGGATGT ATGATGCAGC CATCAGGAGG TGTGACCCAG 
    TCACTAAGAA GTGCAATACA GTCATCAGGA GGTGTGATGC AGTCATCAGG TGTGACGCAG 
    TCACTAAGAA GTGTGATGCA GTCGTCAGGA GGTGTGATGC AGTCATCAGG TGTGACGCAG 
    TCATCAGGAG GTGTGACATG GTCACTAAGA AGTGTGATGC AGTCATCAGG ATGTATGATG 
    CAGTCCCCAG GAGGTGTGAT GCTGTCAGCA GGAGATATGA TGCAATCATC TGGTGGTGCG 
    ACACGGTCAC TAAGAAGTAT GATGCAGTCA TCAGGATGTA TGATGCAGTC CCCAGGAGGT 
    GTGACCCAGT CATCAGGAAG TGTGATGCAG TCACTAAGAA ATGTTATTCA GTCATCAGGA 
    GGTGTGACAC AGTCATCAGG TGGGGTGATA CAGTCCTCAT CAGGTGTGCC ACAATCATTA 
    AGAGATAGGA TGCAGTCACC AGGAAGTGTC TCACAGTCAT CAGGAGATGT GATACAATCA 
    CCAAGAGGTG CGTCACCAGC ATCAGGAGAT GTGATAAAGT CACAAGGAGG TGTGCCACGG 
    TCATTAAGAG ATAGGATGCA GTCACCAGGA GGTGTGCCAC AGTCATCAGA AGATGTAATA 
    CAATCAGCAG GAGGTGTGTC GCCTGCATCA GGAGATGCAA TACAGTCACC AGGAGGTGTA 
    TCACCTGCCT CAGGAGATGC AATGCAGTCA TCAGGAGGTG TGACACCATC ATTAGGAGAT 
    GTGCCACAGT CATCAGGAGG TGTGTCACCT GCATCAGGAG ATGCAATGCA GTCACCAGGA 
    GGTGTGACCC CATCATTAGG AGACGCAATG CAGTCACCAG GAGGTGTGTC ACCAGCATCA 
    GGAGATGCGA TGCAGTCACC AGGAGGTGTG TCACCATCAT TAGGAGATGT GCCACAGTCA 
    CCTGGCAATA TGTTAGAGTC ACTTGGAAAT ACACCAAACT TATCAGGAGA TGTGTCACAC 
    GTACCACAAG AGTTATTGGA TTTGGCAAAA GGCAGGCCCA AATTGTCCCT GAATGCTGTG 
    CAAAATCGCC ATTCTCCTAT GACTATCTCT GCTCCATCCT CTCCAAGCTG CTCTGCTAAC 
    CCACTGTCTC AACAGTCTGA ATTTTCCTCA GAAAAACGTC CTTGGCTCAC AGTCTCAAAC 
    AGCTCAGCCA GAGAAGAGAG ATCACTGCCA CAGTCTGCCA CCCCTGGCTC TGCCCAGATA 
    CAGGGACAAA TAGCACAAGC TGGGGTGTAC AATAGGCCTT GCCTGCATAG ACTGAAGTAC 
    TTCCTACGGC CTCCAGTACA TCATCTCTTC TTCCAGACGT TAATACCGGA TAAAGACACA 
    CGAGAGAGCA AGGGTCAGAA ATTAGAACCC ATCCCTCATC GAAGACTAAG AATGGTGACA 
    AACACTATTG AGGAAAACTT CCCCTTGGGA ACTGTGCAGT TTTTAATGGA CTTTGTTTCA 
    CCCCAACATT ACCCACCCAG AGAAATTGTG GCTCACATCA TCCAGAAAAT CCTGCTGAGC 
    GGCTCTGAGA CTGTGGATGT CCTCAAGGAG GCCTACATGC TTCTCATGAA AATCCAACAG 
    CTGCATCCAG CCAATGCCAA GACAGTGGAG TGGGACTGGA AACTGCTCAC CTATGTCATG 
    GAGGAAGAGG GGCAAACTTT ACCTGGACGA GTTCTCTTTC TACGGTACGT GGTGCAGACC 
    CTGGAGGATG ACTTCCAGCA GATCCTGAGG AGACAGCGGC AGCACCTACA GCAATCCATT 
    GCAAACACGG TTCTGTCATG TGACAAACAG CCCCACAACG TCAGAGATGT TATCAAGTGG 
    CTGGTCAAAG CAGTGACTGA AAATGCATTA ACTCCACCCC AGGACGAGAC GCAGACCTCT 
    CCAGGACCAG GAGTCTTGAA AACGAGCAGT GACCATCTGT CACCCCAGCC TAACCTGGCC 
    AGGAACACCA ATCAACTGAT TGTGTGTCAG CTTCAGAGGA TGCTGTCCAT CGCCGTAGAG 
    GTAGACAGGA CTCCAACCTG CAGCTCCAAT AAAATAGCGG AGATGATGTT TGGGTTTGTG 
    CTGGACATCC CCGAGAGGAG CCAGAGGGAG ATGTTCTTTA CTACCATGGA AAGCCACCTT 
    CTGCGATGCA AAGTCTTAGA GATCATATTC CTCCACAGCT GTGAGACACC CACCCGTCTC 
    CCCTTGTCTC TGGCCCAGGC CCTCTATTTT CTGAACAACT CCACATCCCT GCTCAAGTGT 
    CAGTCAGATA AAAGCCAGTG GCAGACGTGG GATGAGCTGG TTGAACATCT GCAGTTCCTG 
    TTGTCCAGTT ATCAACATGT GCTGAGAGAG CACTTACGGA GTTCAGTAAT TGATCGGAAA 
    GACTTAATCA TCAAACGAAT TAAGCCCAAG CCCCAGCAAG GAGATGACAT CACAGTGGTG 
    GATGTGGAGA AGCAGATTGA GGCCTTCCGT AGCCGCCTGG TCCACATATT GGGAGAACCT 
    TTAGTCCCCC AGCTCCAAGA CAAAGTGCAT TTGTTGAAGC TGCTGCTCTT CTACGCTGCG 
    GACTTGAACC CCGACACAGA GCCTGCCTCA GAGCGCTGA

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

    Simc1 ( XM_008773934.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008772156.1 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ORa50839
    Clone ID Related Accession (Same CDS sequence) XM_008773934.2
    Accession Version XM_008773934.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product SUMO-interacting motif-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000085.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008773934.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGAGGACT TTATCGTGAT CTCCGACGAC AGTGGCTCCG AGAGCTCGGC CGGGACCCGC 
    TCGGGCAGGG CGCGGAGGCT GCGCCGGGCC CTGTCCCGGA CCCCCGGCGC GCTGCCCCGC 
    CGAACCGTGG ACTTTATTGA CTTAACTAGA GAAACTCGAA CAAGGGCAAA AGATCGGAAT 
    GGACTCTGTG TGATTGATCT GACAAGAAGT GAGGAAGAAA ATAGGCCTAT TGCCACTCTC 
    GATTTGACTT TAGAACCTGT AGCTTCCTCT CAGAAGGAGC CACCCAGTCT TCAGACATGT 
    ACCAATCTCT CAGGCAAAGA GATGATTGAA GCTCAAGGAG ACAGAGGCAC TCAGCCTGCA 
    GCACAGAGAG TCATTAACAA TGATCCTGTA GATTTGGATT TGTTGGAGGA AAACATGTTT 
    GAAGGTTCTC GACCCCCTAC ATCCATCAGC CAGGACTCTG TTTATCCACC AGAACCAAAC 
    TGTAGCTCAA TCACATATAA AGGTGACCTC AGCTTCTTGA CAAGCCTACA GCTCTCTTCA 
    GATGTTAGCC CCTTCTCCTC CACAAGCAAT AACAGTAGCA GCAGCAGCAA TCAGAGGACC 
    TCTTTGCCAT GCCCACAGCA AGATGTGCCT TGCCAATCAC AAGGCTTGCT ATGCTCACTT 
    CAGGCCTTAT CATACCCATT AAGAGGTTCA CCATGTCCAC CACGAGCTTC CTCATGTCCA 
    CCACAAGCCC TGTCATGCCC ACCACAAGCT TTGTCATGTC CATCACAGAC TTTGTCATGC 
    CCAACTCAAG CCTTGTCATG CCCATCACAG ACTGTGCAGT GCCAGCTCCA AGCATTGCCT 
    CAACCACCTC AAGAAGTGCC ATGCTCTACC CAAAATGTAC CATGCCCTCA GCAGAATATC 
    CCAAGCACAC CTCAAGACTT ACCATGGCAT CCTCGACACC CCCTATACCC ATCCCAAGAC 
    ACTTTGGGCC TACCTCAAGA TGTTCCAGGC CGACCTCAAA ACGTATCATA TCCACAAGAC 
    ATGACACAAC TACAAGACAT GCCATGGTCA CTGCAAGACA TGCCGCTGTC ACTACAAGAT 
    GTGCTACAGT CACTGCAAGA TGTGCCACCA TTGCTGGGAG ATGTGCCACA GTCGCCAGAA 
    GTGATGCAGT TACCAGGATA TATGACACAG TCATCAAGAA ATGTGATTCA GTCATCAGCA 
    GGTGTGATCC GATCATCAGG AGGTGTGATG CAGCCATCAG GATGTATGAT GCAGCCATCA 
    GGAGGTGTGA CCCAGTCACT AAGAAGTGCA ATACAGTCAT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCACT AAGAAGTGTG ATGCAGTCGT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCATC AGGAGGTGTG ACATGGTCAC TAAGAAGTGT GATGCAGTCA 
    TCAGGATGTA TGATGCAGTC CCCAGGAGGT GTGACCCAGT CATCAGGAAG TGTGATGCAG 
    TCACTAAGAA ATGTTATTCA GTCATCAGGA GGTGTGACAC AGTCATCAGG TGGGGTGATA 
    CAGTCCTCAT CAGGTGTGCC ACAATCATTA AGAGATAGGA TGCAGTCACC AGGAAGTGTC 
    TCACAGTCAT CAGGAGATGT GATACAATCA CCAAGAGGTG CGTCACCAGC ATCAGGAGAT 
    GTGATAAAGT CACAAGGAGG TGTGCCACGG TCATTAAGAG ATAGGATGCA GTCACCAGGA 
    GGTGTGCCAC AGTCATCAGA AGATGTAATA CAATCAGCAG GAGGTGTGTC GCCTGCATCA 
    GGAGATGCAA TACAGTCACC AGGAGGTGTA TCACCTGCCT CAGGAGATGC AATGCAGTCA 
    TCAGGAGGTG TGACACCATC ATTAGGAGAT GTGCCACAGT CATCAGGAGG TGTGTCACCT 
    GCATCAGGAG ATGCAATGCA GTCACCAGGA GGTGTGACCC CATCATTAGG AGACGCAATG 
    CAGTCACCAG GAGGTGTGTC ACCAGCATCA GGAGATGCGA TGCAGTCACC AGGAGGTGTG 
    TCACCATCAT TAGGAGATGT GCCACAGTCA CCTGGCAATA TGTTAGAGTC ACTTGGAAAT 
    ACACCAAACT TATCAGGAGA TGTGTCACAC GTACCACAAG AGTTATTGGA TTTGGCAAAA 
    GGCAGGCCCA AATTGTCCCT GAATGCTGTG CAAAATCGCC ATTCTCCTAT GACTATCTCT 
    GCTCCATCCT CTCCAAGCTG CTCTGCTAAC CCACTGTCTC AACAGTCTGA ATTTTCCTCA 
    GAAAAACGTC CTTGGCTCAC AGTCTCAAAC AGCTCAGCCA GAGAAGAGAG ATCACTGCCA 
    CAGTCTGCCA CCCCTGGCTC TGCCCAGATA CAGGGACAAA TAGCACAAGC TGGGGTGTAC 
    AATAGGCCTT GCCTGCATAG ACTGAAGTAC TTCCTACGGC CTCCAGTACA TCATCTCTTC 
    TTCCAGACGT TAATACCGGA TAAAGACACA CGAGAGAGCA AGGGTCAGAA ATTAGAACCC 
    ATCCCTCATC GAAGACTAAG AATGGTGACA AACACTATTG AGGAAAACTT CCCCTTGGGA 
    ACTGTGCAGT TTTTAATGGA CTTTGTTTCA CCCCAACATT ACCCACCCAG AGAAATTGTG 
    GCTCACATCA TCCAGAAAAT CCTGCTGAGC GGCTCTGAGA CTGTGGATGT CCTCAAGGAG 
    GCCTACATGC TTCTCATGAA AATCCAACAG CTGCATCCAG CCAATGCCAA GACAGTGGAG 
    TGGGACTGGA AACTGCTCAC CTATGTCATG GAGGAAGAGG GGCAAACTTT ACCTGGACGA 
    GTTCTCTTTC TACGGTACGT GGTGCAGACC CTGGAGGATG ACTTCCAGCA GATCCTGAGG 
    AGACAGCGGC AGCACCTACA GCAATCCATT GCAAACACGG TTCTGTCATG TGACAAACAG 
    CCCCACAACG TCAGAGATGT TATCAAGTGG CTGGTCAAAG CAGTGACTGA AAATGCATTA 
    ACTCCACCCC AGGACGAGAC GCAGACCTCT CCAGGACCAG GAGTCTTGAA AACGAGCAGT 
    GACCATCTGT CACCCCAGCC TAACCTGGCC AGGAACACCA ATCAACTGAT TGTGTGTCAG 
    CTTCAGAGGA TGCTGTCCAT CGCCGTAGAG GTAGACAGGA CTCCAACCTG CAGCTCCAAT 
    AAAATAGCGG AGATGATGTT TGGGTTTGTG CTGGACATCC CCGAGAGGAG CCAGAGGGAG 
    ATGTTCTTTA CTACCATGGA AAGCCACCTT CTGCGATGCA AAGTCTTAGA GATCATATTC 
    CTCCACAGCT GTGAGACACC CACCCGTCTC CCCTTGTCTC TGGCCCAGGC CCTCTATTTT 
    CTGAACAACT CCACATCCCT GCTCAAGTGT CAGTCAGATA AAAGCCAGTG GCAGACGTGG 
    GATGAGCTGG TTGAACATCT GCAGTTCCTG TTGTCCAGTT ATCAACATGT GCTGAGAGAG 
    CACTTACGGA GTTCAGTAAT TGATCGGAAA GACTTAATCA TCAAACGAAT TAAGCCCAAG 
    CCCCAGCAAG GAGATGACAT CACAGTGGTG GATGTGGAGA AGCAGATTGA GGCCTTCCGT 
    AGCCGCCTGG TCCACATATT GGGAGAACCT TTAGTCCCCC AGCTCCAAGA CAAAGTGCAT 
    TTGTTGAAGC TGCTGCTCTT CTACGCTGCG GACTTGAACC CCGACACAGA GCCTGCCTCA 
    GAGCGCTGA

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

    RefSeq XP_008772156.1
    CDS27..3755
    Translation

    Target ORF information:

    RefSeq Version XM_008773934.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008773934.2

    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
    ATGGAGGACT TTATCGTGAT CTCCGACGAC AGTGGCTCCG AGAGCTCGGC CGGGACCCGC 
    TCGGGCAGGG CGCGGAGGCT GCGCCGGGCC CTGTCCCGGA CCCCCGGCGC GCTGCCCCGC 
    CGAACCGTGG ACTTTATTGA CTTAACTAGA GAAACTCGAA CAAGGGCAAA AGATCGGAAT 
    GGACTCTGTG TGATTGATCT GACAAGAAGT GAGGAAGAAA ATAGGCCTAT TGCCACTCTC 
    GATTTGACTT TAGAACCTGT AGCTTCCTCT CAGAAGGAGC CACCCAGTCT TCAGACATGT 
    ACCAATCTCT CAGGCAAAGA GATGATTGAA GCTCAAGGAG ACAGAGGCAC TCAGCCTGCA 
    GCACAGAGAG TCATTAACAA TGATCCTGTA GATTTGGATT TGTTGGAGGA AAACATGTTT 
    GAAGGTTCTC GACCCCCTAC ATCCATCAGC CAGGACTCTG TTTATCCACC AGAACCAAAC 
    TGTAGCTCAA TCACATATAA AGGTGACCTC AGCTTCTTGA CAAGCCTACA GCTCTCTTCA 
    GATGTTAGCC CCTTCTCCTC CACAAGCAAT AACAGTAGCA GCAGCAGCAA TCAGAGGACC 
    TCTTTGCCAT GCCCACAGCA AGATGTGCCT TGCCAATCAC AAGGCTTGCT ATGCTCACTT 
    CAGGCCTTAT CATACCCATT AAGAGGTTCA CCATGTCCAC CACGAGCTTC CTCATGTCCA 
    CCACAAGCCC TGTCATGCCC ACCACAAGCT TTGTCATGTC CATCACAGAC TTTGTCATGC 
    CCAACTCAAG CCTTGTCATG CCCATCACAG ACTGTGCAGT GCCAGCTCCA AGCATTGCCT 
    CAACCACCTC AAGAAGTGCC ATGCTCTACC CAAAATGTAC CATGCCCTCA GCAGAATATC 
    CCAAGCACAC CTCAAGACTT ACCATGGCAT CCTCGACACC CCCTATACCC ATCCCAAGAC 
    ACTTTGGGCC TACCTCAAGA TGTTCCAGGC CGACCTCAAA ACGTATCATA TCCACAAGAC 
    ATGACACAAC TACAAGACAT GCCATGGTCA CTGCAAGACA TGCCGCTGTC ACTACAAGAT 
    GTGCTACAGT CACTGCAAGA TGTGCCACCA TTGCTGGGAG ATGTGCCACA GTCGCCAGAA 
    GTGATGCAGT TACCAGGATA TATGACACAG TCATCAAGAA ATGTGATTCA GTCATCAGCA 
    GGTGTGATCC GATCATCAGG AGGTGTGATG CAGCCATCAG GATGTATGAT GCAGCCATCA 
    GGAGGTGTGA CCCAGTCACT AAGAAGTGCA ATACAGTCAT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCACT AAGAAGTGTG ATGCAGTCGT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCATC AGGAGGTGTG ACATGGTCAC TAAGAAGTGT GATGCAGTCA 
    TCAGGATGTA TGATGCAGTC CCCAGGAGGT GTGACCCAGT CATCAGGAAG TGTGATGCAG 
    TCACTAAGAA ATGTTATTCA GTCATCAGGA GGTGTGACAC AGTCATCAGG TGGGGTGATA 
    CAGTCCTCAT CAGGTGTGCC ACAATCATTA AGAGATAGGA TGCAGTCACC AGGAAGTGTC 
    TCACAGTCAT CAGGAGATGT GATACAATCA CCAAGAGGTG CGTCACCAGC ATCAGGAGAT 
    GTGATAAAGT CACAAGGAGG TGTGCCACGG TCATTAAGAG ATAGGATGCA GTCACCAGGA 
    GGTGTGCCAC AGTCATCAGA AGATGTAATA CAATCAGCAG GAGGTGTGTC GCCTGCATCA 
    GGAGATGCAA TACAGTCACC AGGAGGTGTA TCACCTGCCT CAGGAGATGC AATGCAGTCA 
    TCAGGAGGTG TGACACCATC ATTAGGAGAT GTGCCACAGT CATCAGGAGG TGTGTCACCT 
    GCATCAGGAG ATGCAATGCA GTCACCAGGA GGTGTGACCC CATCATTAGG AGACGCAATG 
    CAGTCACCAG GAGGTGTGTC ACCAGCATCA GGAGATGCGA TGCAGTCACC AGGAGGTGTG 
    TCACCATCAT TAGGAGATGT GCCACAGTCA CCTGGCAATA TGTTAGAGTC ACTTGGAAAT 
    ACACCAAACT TATCAGGAGA TGTGTCACAC GTACCACAAG AGTTATTGGA TTTGGCAAAA 
    GGCAGGCCCA AATTGTCCCT GAATGCTGTG CAAAATCGCC ATTCTCCTAT GACTATCTCT 
    GCTCCATCCT CTCCAAGCTG CTCTGCTAAC CCACTGTCTC AACAGTCTGA ATTTTCCTCA 
    GAAAAACGTC CTTGGCTCAC AGTCTCAAAC AGCTCAGCCA GAGAAGAGAG ATCACTGCCA 
    CAGTCTGCCA CCCCTGGCTC TGCCCAGATA CAGGGACAAA TAGCACAAGC TGGGGTGTAC 
    AATAGGCCTT GCCTGCATAG ACTGAAGTAC TTCCTACGGC CTCCAGTACA TCATCTCTTC 
    TTCCAGACGT TAATACCGGA TAAAGACACA CGAGAGAGCA AGGGTCAGAA ATTAGAACCC 
    ATCCCTCATC GAAGACTAAG AATGGTGACA AACACTATTG AGGAAAACTT CCCCTTGGGA 
    ACTGTGCAGT TTTTAATGGA CTTTGTTTCA CCCCAACATT ACCCACCCAG AGAAATTGTG 
    GCTCACATCA TCCAGAAAAT CCTGCTGAGC GGCTCTGAGA CTGTGGATGT CCTCAAGGAG 
    GCCTACATGC TTCTCATGAA AATCCAACAG CTGCATCCAG CCAATGCCAA GACAGTGGAG 
    TGGGACTGGA AACTGCTCAC CTATGTCATG GAGGAAGAGG GGCAAACTTT ACCTGGACGA 
    GTTCTCTTTC TACGGTACGT GGTGCAGACC CTGGAGGATG ACTTCCAGCA GATCCTGAGG 
    AGACAGCGGC AGCACCTACA GCAATCCATT GCAAACACGG TTCTGTCATG TGACAAACAG 
    CCCCACAACG TCAGAGATGT TATCAAGTGG CTGGTCAAAG CAGTGACTGA AAATGCATTA 
    ACTCCACCCC AGGACGAGAC GCAGACCTCT CCAGGACCAG GAGTCTTGAA AACGAGCAGT 
    GACCATCTGT CACCCCAGCC TAACCTGGCC AGGAACACCA ATCAACTGAT TGTGTGTCAG 
    CTTCAGAGGA TGCTGTCCAT CGCCGTAGAG GTAGACAGGA CTCCAACCTG CAGCTCCAAT 
    AAAATAGCGG AGATGATGTT TGGGTTTGTG CTGGACATCC CCGAGAGGAG CCAGAGGGAG 
    ATGTTCTTTA CTACCATGGA AAGCCACCTT CTGCGATGCA AAGTCTTAGA GATCATATTC 
    CTCCACAGCT GTGAGACACC CACCCGTCTC CCCTTGTCTC TGGCCCAGGC CCTCTATTTT 
    CTGAACAACT CCACATCCCT GCTCAAGTGT CAGTCAGATA AAAGCCAGTG GCAGACGTGG 
    GATGAGCTGG TTGAACATCT GCAGTTCCTG TTGTCCAGTT ATCAACATGT GCTGAGAGAG 
    CACTTACGGA GTTCAGTAAT TGATCGGAAA GACTTAATCA TCAAACGAAT TAAGCCCAAG 
    CCCCAGCAAG GAGATGACAT CACAGTGGTG GATGTGGAGA AGCAGATTGA GGCCTTCCGT 
    AGCCGCCTGG TCCACATATT GGGAGAACCT TTAGTCCCCC AGCTCCAAGA CAAAGTGCAT 
    TTGTTGAAGC TGCTGCTCTT CTACGCTGCG GACTTGAACC CCGACACAGA GCCTGCCTCA 
    GAGCGCTGA

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

    Simc1 ( XM_008771514.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008769736.1 Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ORa50841
    Clone ID Related Accession (Same CDS sequence) XM_008771514.2
    Accession Version XM_008771514.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3729bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-07-25
    Organism Rattus norvegicus(Norway rat)
    Product SUMO-interacting motif-containing protein 1 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005116.4) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008771514.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## 

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    ATGGAGGACT TTATCGTGAT CTCCGACGAC AGTGGCTCCG AGAGCTCGGC CGGGACCCGC 
    TCGGGCAGGG CGCGGAGGCT GCGCCGGGCC CTGTCCCGGA CCCCCGGCGC GCTGCCCCGC 
    CGAACCGTGG ACTTTATTGA CTTAACTAGA GAAACTCGAA CAAGGGCAAA AGATCGGAAT 
    GGACTCTGTG TGATTGATCT GACAAGAAGT GAGGAAGAAA ATAGGCCTAT TGCCACTCTC 
    GATTTGACTT TAGAACCTGT AGCTTCCTCT CAGAAGGAGC CACCCAGTCT TCAGACATGT 
    ACCAATCTCT CAGGCAAAGA GATGATTGAA GCTCAAGGAG ACAGAGGCAC TCAGCCTGCA 
    GCACAGAGAG TCATTAACAA TGATCCTGTA GATTTGGATT TGTTGGAGGA AAACATGTTT 
    GAAGGTTCTC GACCCCCTAC ATCCATCAGC CAGGACTCTG TTTATCCACC AGAACCAAAC 
    TGTAGCTCAA TCACATATAA AGGTGACCTC AGCTTCTTGA CAAGCCTACA GCTCTCTTCA 
    GATGTTAGCC CCTTCTCCTC CACAAGCAAT AACAGTAGCA GCAGCAGCAA TCAGAGGACC 
    TCTTTGCCAT GCCCACAGCA AGATGTGCCT TGCCAATCAC AAGGCTTGCT ATGCTCACTT 
    CAGGCCTTAT CATACCCATT AAGAGGTTCA CCATGTCCAC CACGAGCTTC CTCATGTCCA 
    CCACAAGCCC TGTCATGCCC ACCACAAGCT TTGTCATGTC CATCACAGAC TTTGTCATGC 
    CCAACTCAAG CCTTGTCATG CCCATCACAG ACTGTGCAGT GCCAGCTCCA AGCATTGCCT 
    CAACCACCTC AAGAAGTGCC ATGCTCTACC CAAAATGTAC CATGCCCTCA GCAGAATATC 
    CCAAGCACAC CTCAAGACTT ACCATGGCAT CCTCGACACC CCCTATACCC ATCCCAAGAC 
    ACTTTGGGCC TACCTCAAGA TGTTCCAGGC CGACCTCAAA ACGTATCATA TCCACAAGAC 
    ATGACACAAC TACAAGACAT GCCATGGTCA CTGCAAGACA TGCCGCTGTC ACTACAAGAT 
    GTGCTACAGT CACTGCAAGA TGTGCCACCA TTGCTGGGAG ATGTGCCACA GTCGCCAGAA 
    GTGATGCAGT TACCAGGATA TATGACACAG TCATCAAGAA ATGTGATTCA GTCATCAGCA 
    GGTGTGATCC GATCATCAGG AGGTGTGATG CAGCCATCAG GATGTATGAT GCAGCCATCA 
    GGAGGTGTGA CCCAGTCACT AAGAAGTGCA ATACAGTCAT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCACT AAGAAGTGTG ATGCAGTCGT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCATC AGGAGGTGTG ACATGGTCAC TAAGAAGTGT GATGCAGTCA 
    TCAGGATGTA TGATGCAGTC CCCAGGAGGT GTGACCCAGT CATCAGGAAG TGTGATGCAG 
    TCACTAAGAA ATGTTATTCA GTCATCAGGA GGTGTGACAC AGTCATCAGG TGGGGTGATA 
    CAGTCCTCAT CAGGTGTGCC ACAATCATTA AGAGATAGGA TGCAGTCACC AGGAAGTGTC 
    TCACAGTCAT CAGGAGATGT GATACAATCA CCAAGAGGTG CGTCACCAGC ATCAGGAGAT 
    GTGATAAAGT CACAAGGAGG TATGCCACGG TCATTAAGAG ATAGGATGCA GTCACCAGGA 
    GGTGTGCCAC AGTCATCAGA AGATGTAATA CAATCAGCAG GAGGTGTGTC GCCTGCATCA 
    GGAGATGCAA TTCAGTCACC AGGAGGTGTA TCACCTGCCT CAGGAGATGC AATGCAGTCA 
    TCAGGAGGTG TGACACCATC ATTAGGAGAT GTGCCACAGT CATCAGGAGG TGTGTCACCT 
    GCATCAGGAG ATGCAATGCA GTCACCAGGA GGTGTGACCC CATCATTAGG AGACGCAATG 
    CAGTCACCAG GAGGTGTGTC ACCAGCATCA GGAGATGCGA TGCAGTCACC AGGAGGTGTG 
    TCACCATCAT TAGGAGATGT GCCACAGTCA CCTGGCAATA TGTTAGAGTC ACTTGGAAAT 
    ACACCAAACT TATCAGGAGA TGTGTCACAC GTACCACAAG AGTTATTGGA TTTGGCAAAA 
    GGCAGGCCCA AATTGTCCCT GAATGCTGTG CAAAATCGCC ATTCTCCTAT GACTATCTCG 
    GCTCCATCCT CTCCAAGCTG CTCTGCTAAC CCACTGTCTC AACAGTCTGA ATTTTCCTCA 
    GAAAAACGTC CTTGGCTCAC AGTCTCAAAC AGCTCAGCCA GAGAAGAGAG ATCACTGCCA 
    CAGTCTGCCA CCCCTGGCTC TGCCCAGATA CAGGGACAAA TAGCACAAGC TGGGGTGTAC 
    AATAGGCCTT GCCTGCATAG ACTGAAGTAC TTCCTACGGC CTCCAGTACA TCATCTCTTC 
    TTCCAGACGT TAATACCGGA TAAAGACACA CGAGAGAGCA AGGGTCAGAA ATTAGAACCC 
    ATCCCTCATC GAAGACTAAG AATGGTGACA AACACTATTG AGGAAAACTT CCCCTTGGGA 
    ACTGTGCAGT TTTTAATGGA CTTTGTTTCA CCCCAACATT ACCCACCCAG AGAAATTGTG 
    GCTCACATCA TCCAGAAAAT CCTGCTGAGC GGCTCTGAGA CTGTGGATGT CCTCAAGGAG 
    GCCTACATGC TTCTCATGAA AATCCAACAG CTGCATCCAG CCAATGCCAA GACAGTGGAG 
    TGGGACTGGA AACTGCTCAC CTATGTCATG GAGGAAGAGG GGCAAACTTT ACCTGGACGA 
    GTTCTCTTTC TACGGTACGT GGTGCAGACC CTGGAGGATG ACTTCCAGCA GATCCTGAGG 
    AGACAGCGGC AGCACCTACA GCAATCCATT GCAAACACGG TTCTGTCATG TGACAAACAG 
    CCCCACAACG TCAGAGATGT TATCAAGTGG CTGGTCAAAG CAGTGACTGA AAATGCATTA 
    ACTCCACCCC AGGACGAGAC GCAGACCTCT CCAGGACCAG GAGTCTTGAA AACGAGCAGT 
    GACCATCTGT CACCCCAGCC TAACCTGGCC AGGAACACCA ATCAACTGAT TGTGTGTCAG 
    CTTCAGAGGA TGCTGTCCAT CGCCGTAGAG GTAGACAGGA CTCCAACCTG CAGCTCCAAT 
    AAAATAGCGG AGATGATGTT TGGGTTTGTG CTGGACATCC CCGAGAGGAG CCAGAGGGAG 
    ATGTTCTTTA CTACCATGGA AAGCCACCTT CTGCGATGCA AAGTCTTAGA GATCATATTC 
    CTCCACAGCT GTGAGACACC CACCCGTCTC CCCTTGTCTC TGGCCCAGGC CCTCTATTTT 
    CTGAACAACT CCACATCCCT GCTCAAGTGT CAGTCAGATA AAAGCCAGTG GCAGACGTGG 
    GATGAGCTGG TTGAACATCT GCAGTTCCTG TTGTCCAGTT ATCAACATGT GCTGAGAGAG 
    CACTTACGGA GTTCAGTAAT TGATCGGAAA GACTTAATCA TCAAACGAAT TAAGCCCAAG 
    CCCCAGCAAG GAGATGACAT CACAGTGGTG GATGTGGAGA AGCAGATTGA GGCCTTCCGT 
    AGCCGCCTGG TCCACATATT GGGAGAACCT TTAGTCCCCC AGCTCCAAGA CAAAGTGCAT 
    TTGTTGAAGC TGCTGCTCTT CTACGCTGCG GACTTGAACC CCGACACAGA GCCTGCCTCA 
    GAGCGCTGA

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

    RefSeq XP_008769736.1
    CDS108..3836
    Translation

    Target ORF information:

    RefSeq Version XM_008771514.2
    Organism Rattus norvegicus(Norway rat)
    Definition Rattus norvegicus SUMO-interacting motifs containing 1 (Simc1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008771514.2

    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
    ATGGAGGACT TTATCGTGAT CTCCGACGAC AGTGGCTCCG AGAGCTCGGC CGGGACCCGC 
    TCGGGCAGGG CGCGGAGGCT GCGCCGGGCC CTGTCCCGGA CCCCCGGCGC GCTGCCCCGC 
    CGAACCGTGG ACTTTATTGA CTTAACTAGA GAAACTCGAA CAAGGGCAAA AGATCGGAAT 
    GGACTCTGTG TGATTGATCT GACAAGAAGT GAGGAAGAAA ATAGGCCTAT TGCCACTCTC 
    GATTTGACTT TAGAACCTGT AGCTTCCTCT CAGAAGGAGC CACCCAGTCT TCAGACATGT 
    ACCAATCTCT CAGGCAAAGA GATGATTGAA GCTCAAGGAG ACAGAGGCAC TCAGCCTGCA 
    GCACAGAGAG TCATTAACAA TGATCCTGTA GATTTGGATT TGTTGGAGGA AAACATGTTT 
    GAAGGTTCTC GACCCCCTAC ATCCATCAGC CAGGACTCTG TTTATCCACC AGAACCAAAC 
    TGTAGCTCAA TCACATATAA AGGTGACCTC AGCTTCTTGA CAAGCCTACA GCTCTCTTCA 
    GATGTTAGCC CCTTCTCCTC CACAAGCAAT AACAGTAGCA GCAGCAGCAA TCAGAGGACC 
    TCTTTGCCAT GCCCACAGCA AGATGTGCCT TGCCAATCAC AAGGCTTGCT ATGCTCACTT 
    CAGGCCTTAT CATACCCATT AAGAGGTTCA CCATGTCCAC CACGAGCTTC CTCATGTCCA 
    CCACAAGCCC TGTCATGCCC ACCACAAGCT TTGTCATGTC CATCACAGAC TTTGTCATGC 
    CCAACTCAAG CCTTGTCATG CCCATCACAG ACTGTGCAGT GCCAGCTCCA AGCATTGCCT 
    CAACCACCTC AAGAAGTGCC ATGCTCTACC CAAAATGTAC CATGCCCTCA GCAGAATATC 
    CCAAGCACAC CTCAAGACTT ACCATGGCAT CCTCGACACC CCCTATACCC ATCCCAAGAC 
    ACTTTGGGCC TACCTCAAGA TGTTCCAGGC CGACCTCAAA ACGTATCATA TCCACAAGAC 
    ATGACACAAC TACAAGACAT GCCATGGTCA CTGCAAGACA TGCCGCTGTC ACTACAAGAT 
    GTGCTACAGT CACTGCAAGA TGTGCCACCA TTGCTGGGAG ATGTGCCACA GTCGCCAGAA 
    GTGATGCAGT TACCAGGATA TATGACACAG TCATCAAGAA ATGTGATTCA GTCATCAGCA 
    GGTGTGATCC GATCATCAGG AGGTGTGATG CAGCCATCAG GATGTATGAT GCAGCCATCA 
    GGAGGTGTGA CCCAGTCACT AAGAAGTGCA ATACAGTCAT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCACT AAGAAGTGTG ATGCAGTCGT CAGGAGGTGT GATGCAGTCA 
    TCAGGTGTGA CGCAGTCATC AGGAGGTGTG ACATGGTCAC TAAGAAGTGT GATGCAGTCA 
    TCAGGATGTA TGATGCAGTC CCCAGGAGGT GTGACCCAGT CATCAGGAAG TGTGATGCAG 
    TCACTAAGAA ATGTTATTCA GTCATCAGGA GGTGTGACAC AGTCATCAGG TGGGGTGATA 
    CAGTCCTCAT CAGGTGTGCC ACAATCATTA AGAGATAGGA TGCAGTCACC AGGAAGTGTC 
    TCACAGTCAT CAGGAGATGT GATACAATCA CCAAGAGGTG CGTCACCAGC ATCAGGAGAT 
    GTGATAAAGT CACAAGGAGG TATGCCACGG TCATTAAGAG ATAGGATGCA GTCACCAGGA 
    GGTGTGCCAC AGTCATCAGA AGATGTAATA CAATCAGCAG GAGGTGTGTC GCCTGCATCA 
    GGAGATGCAA TTCAGTCACC AGGAGGTGTA TCACCTGCCT CAGGAGATGC AATGCAGTCA 
    TCAGGAGGTG TGACACCATC ATTAGGAGAT GTGCCACAGT CATCAGGAGG TGTGTCACCT 
    GCATCAGGAG ATGCAATGCA GTCACCAGGA GGTGTGACCC CATCATTAGG AGACGCAATG 
    CAGTCACCAG GAGGTGTGTC ACCAGCATCA GGAGATGCGA TGCAGTCACC AGGAGGTGTG 
    TCACCATCAT TAGGAGATGT GCCACAGTCA CCTGGCAATA TGTTAGAGTC ACTTGGAAAT 
    ACACCAAACT TATCAGGAGA TGTGTCACAC GTACCACAAG AGTTATTGGA TTTGGCAAAA 
    GGCAGGCCCA AATTGTCCCT GAATGCTGTG CAAAATCGCC ATTCTCCTAT GACTATCTCG 
    GCTCCATCCT CTCCAAGCTG CTCTGCTAAC CCACTGTCTC AACAGTCTGA ATTTTCCTCA 
    GAAAAACGTC CTTGGCTCAC AGTCTCAAAC AGCTCAGCCA GAGAAGAGAG ATCACTGCCA 
    CAGTCTGCCA CCCCTGGCTC TGCCCAGATA CAGGGACAAA TAGCACAAGC TGGGGTGTAC 
    AATAGGCCTT GCCTGCATAG ACTGAAGTAC TTCCTACGGC CTCCAGTACA TCATCTCTTC 
    TTCCAGACGT TAATACCGGA TAAAGACACA CGAGAGAGCA AGGGTCAGAA ATTAGAACCC 
    ATCCCTCATC GAAGACTAAG AATGGTGACA AACACTATTG AGGAAAACTT CCCCTTGGGA 
    ACTGTGCAGT TTTTAATGGA CTTTGTTTCA CCCCAACATT ACCCACCCAG AGAAATTGTG 
    GCTCACATCA TCCAGAAAAT CCTGCTGAGC GGCTCTGAGA CTGTGGATGT CCTCAAGGAG 
    GCCTACATGC TTCTCATGAA AATCCAACAG CTGCATCCAG CCAATGCCAA GACAGTGGAG 
    TGGGACTGGA AACTGCTCAC CTATGTCATG GAGGAAGAGG GGCAAACTTT ACCTGGACGA 
    GTTCTCTTTC TACGGTACGT GGTGCAGACC CTGGAGGATG ACTTCCAGCA GATCCTGAGG 
    AGACAGCGGC AGCACCTACA GCAATCCATT GCAAACACGG TTCTGTCATG TGACAAACAG 
    CCCCACAACG TCAGAGATGT TATCAAGTGG CTGGTCAAAG CAGTGACTGA AAATGCATTA 
    ACTCCACCCC AGGACGAGAC GCAGACCTCT CCAGGACCAG GAGTCTTGAA AACGAGCAGT 
    GACCATCTGT CACCCCAGCC TAACCTGGCC AGGAACACCA ATCAACTGAT TGTGTGTCAG 
    CTTCAGAGGA TGCTGTCCAT CGCCGTAGAG GTAGACAGGA CTCCAACCTG CAGCTCCAAT 
    AAAATAGCGG AGATGATGTT TGGGTTTGTG CTGGACATCC CCGAGAGGAG CCAGAGGGAG 
    ATGTTCTTTA CTACCATGGA AAGCCACCTT CTGCGATGCA AAGTCTTAGA GATCATATTC 
    CTCCACAGCT GTGAGACACC CACCCGTCTC CCCTTGTCTC TGGCCCAGGC CCTCTATTTT 
    CTGAACAACT CCACATCCCT GCTCAAGTGT CAGTCAGATA AAAGCCAGTG GCAGACGTGG 
    GATGAGCTGG TTGAACATCT GCAGTTCCTG TTGTCCAGTT ATCAACATGT GCTGAGAGAG 
    CACTTACGGA GTTCAGTAAT TGATCGGAAA GACTTAATCA TCAAACGAAT TAAGCCCAAG 
    CCCCAGCAAG GAGATGACAT CACAGTGGTG GATGTGGAGA AGCAGATTGA GGCCTTCCGT 
    AGCCGCCTGG TCCACATATT GGGAGAACCT TTAGTCCCCC AGCTCCAAGA CAAAGTGCAT 
    TTGTTGAAGC TGCTGCTCTT CTACGCTGCG GACTTGAACC CCGACACAGA GCCTGCCTCA 
    GAGCGCTGA

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

見積依頼

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