ORF » Species Summary » Mus caroli » Magi2 cDNA ORF clone

Magi2 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Magi2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Magi2 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
OMv73564 XM_029477266.1
Latest version!		 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv73565 XM_029477267.1
Latest version!		 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OMv00600 XM_021161940.2
Latest version!		 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMv00601 XM_021161941.2
Latest version!		 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMv00602 XM_021161942.2
Latest version!		 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMv00603 XM_021161943.1
Latest version!		 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $629.30
$899.00
OMv00604 XM_021161944.1
Latest version!		 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $629.30
$899.00
View Old Accession Versions >>
OMv00601 XM_021161941.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
OMv00602 XM_021161942.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $713.30
$1019.00
OMv00600 XM_021161940.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $797.30
$1139.00
Hide Old Accession Versions >>

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** 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)
    Magi2 ( XM_029477266.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029333126.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OMv73564
    Clone ID Related Accession (Same CDS sequence) XM_029477266.1
    Accession Version XM_029477266.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3786bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCGTCC AGATTATAAG 
    GAACTGGATG TTCACCTTCG GAGGATGGAG TCTGGATTTG GCTTTAGAAT CCTTGGAGGA 
    GATGAACCTG GACAACCTAT TTTGATCGGA GCCGTCATTG CCATGGGCTC AGCTGACAGA 
    GACGGCCGTC TACACCCAGG AGATGAGCTT GTCTATGTGG ATGGGATCCC GGTGGCTGGC 
    AAGACCCACC GCTATGTCAT CGACCTCATG CACCACGCGG CCCGCAACGG GCAGGTTAAC 
    CTCACTGTGA GAAGAAAGGT GCTATGTGGA GGGGAGCCCT GCCCAGAGAA TGGGAGAAGT 
    CCAGGCTCTG TATCAACTCA CCACAGCTCT CCGCGCAGTG ACTATGCCAC CTACTCCAAC 
    AGCAACCACG CCGCCCCCAG CAGCAATGCC TCGCCTCCTG AAGGCTTTGC CTCACACAGC 
    CTGCAGACCA GTGATGTGGT CATTCACCGC AAAGAAAACG AAGGGTTTGG CTTCGTCATC 
    ATCAGCTCTC TGAACAGGCC TGAGTCTGGA GCCACCATAA CTGTGCCCCA TAAAATTGGA 
    CGAATCATTG ATGGGAGCCC TGCAGATCGC TGTGCCAAAC TCAAAGTGGG CGACCGGATC 
    TTAGCAGTCA ACGGCCAGTC TATCATCAAC ATGCCTCACG CTGACATTGT GAAGCTCATC 
    AAGGACGCGG GTCTCAGTGT CACCCTTCGC ATCATTCCTC AGGAGGAGCT CAACAGCCCA 
    ACATCAGCAC CCAGTTCAGA AAAACAGAGC CCCATGGCCC AGCAGCACAG CCCTCTGGCC 
    CAGCAGAGTC CTCTGGCCCA GCCAAGCCCA GCCACCCCCA ACAGCCCGGT CGCACAGCCA 
    GCTCCTCCCC AACCTCTCCA GCTGCAAGGA CATGAAAATA GTTACAGGTC AGAAGTTAAA 
    GCGAGGCAAG ATGTGAAGCC AGACATCCGG CAGCCTCCCT TCACAGACTA CAGGCAGCCC 
    CCGCTGGACT ACAGGCAGCC CCCCGGAGGA GACTACTCGC AGCCCCCACC CTTGGACTAC 
    AGGCAGCACT CCCCAGACAC CAGGCAGTAC CCTCTGTCAG ACTACAGGCA GCCACAGGAT 
    TTTGATTATT TCACTGTGGA CATGGAGAAA GGAGCCAAAG GATTTGGATT CAGCATTCGT 
    GGAGGAAGGG AATACAAGAT GGATCTGTAT GTGTTGAGAC TGGCAGAGGA TGGGCCAGCC 
    ATAAGGAACG GCAGGATGAG GGTAGGAGAT CAGATCATTG AAATAAATGG GGAAAGCACA 
    CGCGACATGA CCCATGCCAG AGCAATAGAA CTCATCAAGT CTGGAGGAAG AAGAGTGCGG 
    CTGCTGCTGA AGAGAGGCAC GGGGCAGGTC CCGGAGTACG GAATGGTACC TTCCAGCCTC 
    TCCATGTGCA TGAAAAGTGA CAAGCATGGG TCCCCATATT TCTACTTACT GGGCCACCCT 
    AAAGACACGA CGAACCCCAC GCCTGGAGTG TTGCCGCTGC CGCCGCCCCA GGCCTGCCGG 
    AAGTAG

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

    RefSeq XP_029333126.1
    CDS349..4134
    Translation

    Target ORF information:

    RefSeq Version XM_029477266.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029477266.1

    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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCGTCC AGATTATAAG 
    GAACTGGATG TTCACCTTCG GAGGATGGAG TCTGGATTTG GCTTTAGAAT CCTTGGAGGA 
    GATGAACCTG GACAACCTAT TTTGATCGGA GCCGTCATTG CCATGGGCTC AGCTGACAGA 
    GACGGCCGTC TACACCCAGG AGATGAGCTT GTCTATGTGG ATGGGATCCC GGTGGCTGGC 
    AAGACCCACC GCTATGTCAT CGACCTCATG CACCACGCGG CCCGCAACGG GCAGGTTAAC 
    CTCACTGTGA GAAGAAAGGT GCTATGTGGA GGGGAGCCCT GCCCAGAGAA TGGGAGAAGT 
    CCAGGCTCTG TATCAACTCA CCACAGCTCT CCGCGCAGTG ACTATGCCAC CTACTCCAAC 
    AGCAACCACG CCGCCCCCAG CAGCAATGCC TCGCCTCCTG AAGGCTTTGC CTCACACAGC 
    CTGCAGACCA GTGATGTGGT CATTCACCGC AAAGAAAACG AAGGGTTTGG CTTCGTCATC 
    ATCAGCTCTC TGAACAGGCC TGAGTCTGGA GCCACCATAA CTGTGCCCCA TAAAATTGGA 
    CGAATCATTG ATGGGAGCCC TGCAGATCGC TGTGCCAAAC TCAAAGTGGG CGACCGGATC 
    TTAGCAGTCA ACGGCCAGTC TATCATCAAC ATGCCTCACG CTGACATTGT GAAGCTCATC 
    AAGGACGCGG GTCTCAGTGT CACCCTTCGC ATCATTCCTC AGGAGGAGCT CAACAGCCCA 
    ACATCAGCAC CCAGTTCAGA AAAACAGAGC CCCATGGCCC AGCAGCACAG CCCTCTGGCC 
    CAGCAGAGTC CTCTGGCCCA GCCAAGCCCA GCCACCCCCA ACAGCCCGGT CGCACAGCCA 
    GCTCCTCCCC AACCTCTCCA GCTGCAAGGA CATGAAAATA GTTACAGGTC AGAAGTTAAA 
    GCGAGGCAAG ATGTGAAGCC AGACATCCGG CAGCCTCCCT TCACAGACTA CAGGCAGCCC 
    CCGCTGGACT ACAGGCAGCC CCCCGGAGGA GACTACTCGC AGCCCCCACC CTTGGACTAC 
    AGGCAGCACT CCCCAGACAC CAGGCAGTAC CCTCTGTCAG ACTACAGGCA GCCACAGGAT 
    TTTGATTATT TCACTGTGGA CATGGAGAAA GGAGCCAAAG GATTTGGATT CAGCATTCGT 
    GGAGGAAGGG AATACAAGAT GGATCTGTAT GTGTTGAGAC TGGCAGAGGA TGGGCCAGCC 
    ATAAGGAACG GCAGGATGAG GGTAGGAGAT CAGATCATTG AAATAAATGG GGAAAGCACA 
    CGCGACATGA CCCATGCCAG AGCAATAGAA CTCATCAAGT CTGGAGGAAG AAGAGTGCGG 
    CTGCTGCTGA AGAGAGGCAC GGGGCAGGTC CCGGAGTACG GAATGGTACC TTCCAGCCTC 
    TCCATGTGCA TGAAAAGTGA CAAGCATGGG TCCCCATATT TCTACTTACT GGGCCACCCT 
    AAAGACACGA CGAACCCCAC GCCTGGAGTG TTGCCGCTGC CGCCGCCCCA GGCCTGCCGG 
    AAGTAG

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

    Magi2 ( XM_029477267.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_029333127.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X5, mRNA.
    Price & Availability↑
    CloneID OMv73565
    Clone ID Related Accession (Same CDS sequence) XM_029477267.1
    Accession Version XM_029477267.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3744bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGGCTGTTCC TCCCCTTCCT TTAGGAATGG TACCTTCCAG 
    CCTCTCCATG TGCATGAAAA GTGA

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

    RefSeq XP_029333127.1
    CDS349..4092
    Translation

    Target ORF information:

    RefSeq Version XM_029477267.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029477267.1

    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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGGCTGTTCC TCCCCTTCCT TTAGGAATGG TACCTTCCAG 
    CCTCTCCATG TGCATGAAAA GTGA

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

    Magi2 ( XM_021161940.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021017599.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv00600
    Clone ID Related Accession (Same CDS sequence) XM_021161940.1 , XM_021161940.2
    Accession Version XM_021161940.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4245bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGACGAACCC CACGCCTGGA GTGTTGCCGC TGCCGCCGCC 
    CCAGGCCTGC CGGAAGTAGG CGTCTCCCTC GAAGACATCC TCTCTCCATT CTCTCCATCA 
    CATCCAGCCC CACCCTCCGA CCCTTCCCAC CAGATAGGCC CAGACCCAAC TTGGGATATC 
    CAAAGGGAAC ACGACGTTAG GAAACCAAAG GAGCTTTCGG CCGGCGGCCA GAAGAAGCAG 
    CGCCTGGGGG AGCAGAGGGA GCGCTCGGCG AGCCCGCAGC GCAGTGCGCG GCCCAGGCTG 
    GAGGAGGTGC CCGGCGGCCA GGGGCGGCCC GAGGCCGGCA GGCCCGCCTC GGAGGCGGCC 
    GACGGGAAGG AGGCGCTGCG CGGCCGGCGC GAGGGCCTCG GGGCCGCGGG CGCGCGGGAG 
    GCCGAGGCCA AGGTGGGTGT GCGCTCGGGG GCCCGACCCG CAGCGCGGCC CACGGGGGGC 
    GGCCCAGCGC GCAAAGCAAC GATGGCGCCG GGGCCCTGGA AGGTACCGGG CTCCGACAAG 
    CTGCCGGGCG CCCTGCAGCC TGGCGCCTCG GCCGCGGGCA GATGA

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

    RefSeq XP_021017599.1
    CDS102..4346
    Translation

    Target ORF information:

    RefSeq Version XM_021161940.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021161940.1

    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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGACGAACCC CACGCCTGGA GTGTTGCCGC TGCCGCCGCC 
    CCAGGCCTGC CGGAAGTAGG CGTCTCCCTC GAAGACATCC TCTCTCCATT CTCTCCATCA 
    CATCCAGCCC CACCCTCCGA CCCTTCCCAC CAGATAGGCC CAGACCCAAC TTGGGATATC 
    CAAAGGGAAC ACGACGTTAG GAAACCAAAG GAGCTTTCGG CCGGCGGCCA GAAGAAGCAG 
    CGCCTGGGGG AGCAGAGGGA GCGCTCGGCG AGCCCGCAGC GCAGTGCGCG GCCCAGGCTG 
    GAGGAGGTGC CCGGCGGCCA GGGGCGGCCC GAGGCCGGCA GGCCCGCCTC GGAGGCGGCC 
    GACGGGAAGG AGGCGCTGCG CGGCCGGCGC GAGGGCCTCG GGGCCGCGGG CGCGCGGGAG 
    GCCGAGGCCA AGGTGGGTGT GCGCTCGGGG GCCCGACCCG CAGCGCGGCC CACGGGGGGC 
    GGCCCAGCGC GCAAAGCAAC GATGGCGCCG GGGCCCTGGA AGGTACCGGG CTCCGACAAG 
    CTGCCGGGCG CCCTGCAGCC TGGCGCCTCG GCCGCGGGCA GATGA

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

    Magi2 ( XM_021161940.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021017599.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OMv00600
    Clone ID Related Accession (Same CDS sequence) XM_021161940.1 , XM_021161940.2
    Accession Version XM_021161940.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4245bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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_021161940.1. ##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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGACGAACCC CACGCCTGGA GTGTTGCCGC TGCCGCCGCC 
    CCAGGCCTGC CGGAAGTAGG CGTCTCCCTC GAAGACATCC TCTCTCCATT CTCTCCATCA 
    CATCCAGCCC CACCCTCCGA CCCTTCCCAC CAGATAGGCC CAGACCCAAC TTGGGATATC 
    CAAAGGGAAC ACGACGTTAG GAAACCAAAG GAGCTTTCGG CCGGCGGCCA GAAGAAGCAG 
    CGCCTGGGGG AGCAGAGGGA GCGCTCGGCG AGCCCGCAGC GCAGTGCGCG GCCCAGGCTG 
    GAGGAGGTGC CCGGCGGCCA GGGGCGGCCC GAGGCCGGCA GGCCCGCCTC GGAGGCGGCC 
    GACGGGAAGG AGGCGCTGCG CGGCCGGCGC GAGGGCCTCG GGGCCGCGGG CGCGCGGGAG 
    GCCGAGGCCA AGGTGGGTGT GCGCTCGGGG GCCCGACCCG CAGCGCGGCC CACGGGGGGC 
    GGCCCAGCGC GCAAAGCAAC GATGGCGCCG GGGCCCTGGA AGGTACCGGG CTCCGACAAG 
    CTGCCGGGCG CCCTGCAGCC TGGCGCCTCG GCCGCGGGCA GATGA

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

    RefSeq XP_021017599.1
    CDS349..4593
    Translation

    Target ORF information:

    RefSeq Version XM_021161940.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021161940.2

    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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGACGAACCC CACGCCTGGA GTGTTGCCGC TGCCGCCGCC 
    CCAGGCCTGC CGGAAGTAGG CGTCTCCCTC GAAGACATCC TCTCTCCATT CTCTCCATCA 
    CATCCAGCCC CACCCTCCGA CCCTTCCCAC CAGATAGGCC CAGACCCAAC TTGGGATATC 
    CAAAGGGAAC ACGACGTTAG GAAACCAAAG GAGCTTTCGG CCGGCGGCCA GAAGAAGCAG 
    CGCCTGGGGG AGCAGAGGGA GCGCTCGGCG AGCCCGCAGC GCAGTGCGCG GCCCAGGCTG 
    GAGGAGGTGC CCGGCGGCCA GGGGCGGCCC GAGGCCGGCA GGCCCGCCTC GGAGGCGGCC 
    GACGGGAAGG AGGCGCTGCG CGGCCGGCGC GAGGGCCTCG GGGCCGCGGG CGCGCGGGAG 
    GCCGAGGCCA AGGTGGGTGT GCGCTCGGGG GCCCGACCCG CAGCGCGGCC CACGGGGGGC 
    GGCCCAGCGC GCAAAGCAAC GATGGCGCCG GGGCCCTGGA AGGTACCGGG CTCCGACAAG 
    CTGCCGGGCG CCCTGCAGCC TGGCGCCTCG GCCGCGGGCA GATGA

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

    Magi2 ( XM_021161941.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021017600.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv00601
    Clone ID Related Accession (Same CDS sequence) XM_021161941.2 , XM_021161941.1
    Accession Version XM_021161941.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4203bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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_021161941.1. ##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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCGTCC AGATTATAAG 
    GAACTGGATG TTCACCTTCG GAGGATGGAG TCTGGATTTG GCTTTAGAAT CCTTGGAGGA 
    GATGAACCTG GACAACCTAT TTTGATCGGA GCCGTCATTG CCATGGGCTC AGCTGACAGA 
    GACGGCCGTC TACACCCAGG AGATGAGCTT GTCTATGTGG ATGGGATCCC GGTGGCTGGC 
    AAGACCCACC GCTATGTCAT CGACCTCATG CACCACGCGG CCCGCAACGG GCAGGTTAAC 
    CTCACTGTGA GAAGAAAGGT GCTATGTGGA GGGGAGCCCT GCCCAGAGAA TGGGAGAAGT 
    CCAGGCTCTG TATCAACTCA CCACAGCTCT CCGCGCAGTG ACTATGCCAC CTACTCCAAC 
    AGCAACCACG CCGCCCCCAG CAGCAATGCC TCGCCTCCTG AAGGCTTTGC CTCACACAGC 
    CTGCAGACCA GTGATGTGGT CATTCACCGC AAAGAAAACG AAGGGTTTGG CTTCGTCATC 
    ATCAGCTCTC TGAACAGGCC TGAGTCTGGA GCCACCATAA CTGTGCCCCA TAAAATTGGA 
    CGAATCATTG ATGGGAGCCC TGCAGATCGC TGTGCCAAAC TCAAAGTGGG CGACCGGATC 
    TTAGCAGTCA ACGGCCAGTC TATCATCAAC ATGCCTCACG CTGACATTGT GAAGCTCATC 
    AAGGACGCGG GTCTCAGTGT CACCCTTCGC ATCATTCCTC AGGAGGAGCT CAACAGCCCA 
    ACATCAGCAC CCAGTTCAGA AAAACAGAGC CCCATGGCCC AGCAGCACAG CCCTCTGGCC 
    CAGCAGAGTC CTCTGGCCCA GCCAAGCCCA GCCACCCCCA ACAGCCCGGT CGCACAGCCA 
    GCTCCTCCCC AACCTCTCCA GCTGCAAGGA CATGAAAATA GTTACAGGTC AGAAGTTAAA 
    GCGAGGCAAG ATGTGAAGCC AGACATCCGG CAGCCTCCCT TCACAGACTA CAGGCAGCCC 
    CCGCTGGACT ACAGGCAGCC CCCCGGAGGA GACTACTCGC AGCCCCCACC CTTGGACTAC 
    AGGCAGCACT CCCCAGACAC CAGGCAGTAC CCTCTGTCAG ACTACAGGCA GCCACAGGAT 
    TTTGATTATT TCACTGTGGA CATGGAGAAA GGAGCCAAAG GATTTGGATT CAGCATTCGT 
    GGAGGAAGGG AATACAAGAT GGATCTGTAT GTGTTGAGAC TGGCAGAGGA TGGGCCAGCC 
    ATAAGGAACG GCAGGATGAG GGTAGGAGAT CAGATCATTG AAATAAATGG GGAAAGCACA 
    CGCGACATGA CCCATGCCAG AGCAATAGAA CTCATCAAGT CTGGAGGAAG AAGAGTGCGG 
    CTGCTGCTGA AGAGAGGCAC GGGGCAGGTC CCGGAGTACG ACGAACCCCA CGCCTGGAGT 
    GTTGCCGCTG CCGCCGCCCC AGGCCTGCCG GAAGTAGGCG TCTCCCTCGA AGACATCCTC 
    TCTCCATTCT CTCCATCACA TCCAGCCCCA CCCTCCGACC CTTCCCACCA GATAGGCCCA 
    GACCCAACTT GGGATATCCA AAGGGAACAC GACGTTAGGA AACCAAAGGA GCTTTCGGCC 
    GGCGGCCAGA AGAAGCAGCG CCTGGGGGAG CAGAGGGAGC GCTCGGCGAG CCCGCAGCGC 
    AGTGCGCGGC CCAGGCTGGA GGAGGTGCCC GGCGGCCAGG GGCGGCCCGA GGCCGGCAGG 
    CCCGCCTCGG AGGCGGCCGA CGGGAAGGAG GCGCTGCGCG GCCGGCGCGA GGGCCTCGGG 
    GCCGCGGGCG CGCGGGAGGC CGAGGCCAAG GTGGGTGTGC GCTCGGGGGC CCGACCCGCA 
    GCGCGGCCCA CGGGGGGCGG CCCAGCGCGC AAAGCAACGA TGGCGCCGGG GCCCTGGAAG 
    GTACCGGGCT CCGACAAGCT GCCGGGCGCC CTGCAGCCTG GCGCCTCGGC CGCGGGCAGA 
    TGA

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

    RefSeq XP_021017600.1
    CDS349..4551
    Translation

    Target ORF information:

    RefSeq Version XM_021161941.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021161941.2

    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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCGTCC AGATTATAAG 
    GAACTGGATG TTCACCTTCG GAGGATGGAG TCTGGATTTG GCTTTAGAAT CCTTGGAGGA 
    GATGAACCTG GACAACCTAT TTTGATCGGA GCCGTCATTG CCATGGGCTC AGCTGACAGA 
    GACGGCCGTC TACACCCAGG AGATGAGCTT GTCTATGTGG ATGGGATCCC GGTGGCTGGC 
    AAGACCCACC GCTATGTCAT CGACCTCATG CACCACGCGG CCCGCAACGG GCAGGTTAAC 
    CTCACTGTGA GAAGAAAGGT GCTATGTGGA GGGGAGCCCT GCCCAGAGAA TGGGAGAAGT 
    CCAGGCTCTG TATCAACTCA CCACAGCTCT CCGCGCAGTG ACTATGCCAC CTACTCCAAC 
    AGCAACCACG CCGCCCCCAG CAGCAATGCC TCGCCTCCTG AAGGCTTTGC CTCACACAGC 
    CTGCAGACCA GTGATGTGGT CATTCACCGC AAAGAAAACG AAGGGTTTGG CTTCGTCATC 
    ATCAGCTCTC TGAACAGGCC TGAGTCTGGA GCCACCATAA CTGTGCCCCA TAAAATTGGA 
    CGAATCATTG ATGGGAGCCC TGCAGATCGC TGTGCCAAAC TCAAAGTGGG CGACCGGATC 
    TTAGCAGTCA ACGGCCAGTC TATCATCAAC ATGCCTCACG CTGACATTGT GAAGCTCATC 
    AAGGACGCGG GTCTCAGTGT CACCCTTCGC ATCATTCCTC AGGAGGAGCT CAACAGCCCA 
    ACATCAGCAC CCAGTTCAGA AAAACAGAGC CCCATGGCCC AGCAGCACAG CCCTCTGGCC 
    CAGCAGAGTC CTCTGGCCCA GCCAAGCCCA GCCACCCCCA ACAGCCCGGT CGCACAGCCA 
    GCTCCTCCCC AACCTCTCCA GCTGCAAGGA CATGAAAATA GTTACAGGTC AGAAGTTAAA 
    GCGAGGCAAG ATGTGAAGCC AGACATCCGG CAGCCTCCCT TCACAGACTA CAGGCAGCCC 
    CCGCTGGACT ACAGGCAGCC CCCCGGAGGA GACTACTCGC AGCCCCCACC CTTGGACTAC 
    AGGCAGCACT CCCCAGACAC CAGGCAGTAC CCTCTGTCAG ACTACAGGCA GCCACAGGAT 
    TTTGATTATT TCACTGTGGA CATGGAGAAA GGAGCCAAAG GATTTGGATT CAGCATTCGT 
    GGAGGAAGGG AATACAAGAT GGATCTGTAT GTGTTGAGAC TGGCAGAGGA TGGGCCAGCC 
    ATAAGGAACG GCAGGATGAG GGTAGGAGAT CAGATCATTG AAATAAATGG GGAAAGCACA 
    CGCGACATGA CCCATGCCAG AGCAATAGAA CTCATCAAGT CTGGAGGAAG AAGAGTGCGG 
    CTGCTGCTGA AGAGAGGCAC GGGGCAGGTC CCGGAGTACG ACGAACCCCA CGCCTGGAGT 
    GTTGCCGCTG CCGCCGCCCC AGGCCTGCCG GAAGTAGGCG TCTCCCTCGA AGACATCCTC 
    TCTCCATTCT CTCCATCACA TCCAGCCCCA CCCTCCGACC CTTCCCACCA GATAGGCCCA 
    GACCCAACTT GGGATATCCA AAGGGAACAC GACGTTAGGA AACCAAAGGA GCTTTCGGCC 
    GGCGGCCAGA AGAAGCAGCG CCTGGGGGAG CAGAGGGAGC GCTCGGCGAG CCCGCAGCGC 
    AGTGCGCGGC CCAGGCTGGA GGAGGTGCCC GGCGGCCAGG GGCGGCCCGA GGCCGGCAGG 
    CCCGCCTCGG AGGCGGCCGA CGGGAAGGAG GCGCTGCGCG GCCGGCGCGA GGGCCTCGGG 
    GCCGCGGGCG CGCGGGAGGC CGAGGCCAAG GTGGGTGTGC GCTCGGGGGC CCGACCCGCA 
    GCGCGGCCCA CGGGGGGCGG CCCAGCGCGC AAAGCAACGA TGGCGCCGGG GCCCTGGAAG 
    GTACCGGGCT CCGACAAGCT GCCGGGCGCC CTGCAGCCTG GCGCCTCGGC CGCGGGCAGA 
    TGA

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

    Magi2 ( XM_021161941.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021017600.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OMv00601
    Clone ID Related Accession (Same CDS sequence) XM_021161941.2 , XM_021161941.1
    Accession Version XM_021161941.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4203bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCGTCC AGATTATAAG 
    GAACTGGATG TTCACCTTCG GAGGATGGAG TCTGGATTTG GCTTTAGAAT CCTTGGAGGA 
    GATGAACCTG GACAACCTAT TTTGATCGGA GCCGTCATTG CCATGGGCTC AGCTGACAGA 
    GACGGCCGTC TACACCCAGG AGATGAGCTT GTCTATGTGG ATGGGATCCC GGTGGCTGGC 
    AAGACCCACC GCTATGTCAT CGACCTCATG CACCACGCGG CCCGCAACGG GCAGGTTAAC 
    CTCACTGTGA GAAGAAAGGT GCTATGTGGA GGGGAGCCCT GCCCAGAGAA TGGGAGAAGT 
    CCAGGCTCTG TATCAACTCA CCACAGCTCT CCGCGCAGTG ACTATGCCAC CTACTCCAAC 
    AGCAACCACG CCGCCCCCAG CAGCAATGCC TCGCCTCCTG AAGGCTTTGC CTCACACAGC 
    CTGCAGACCA GTGATGTGGT CATTCACCGC AAAGAAAACG AAGGGTTTGG CTTCGTCATC 
    ATCAGCTCTC TGAACAGGCC TGAGTCTGGA GCCACCATAA CTGTGCCCCA TAAAATTGGA 
    CGAATCATTG ATGGGAGCCC TGCAGATCGC TGTGCCAAAC TCAAAGTGGG CGACCGGATC 
    TTAGCAGTCA ACGGCCAGTC TATCATCAAC ATGCCTCACG CTGACATTGT GAAGCTCATC 
    AAGGACGCGG GTCTCAGTGT CACCCTTCGC ATCATTCCTC AGGAGGAGCT CAACAGCCCA 
    ACATCAGCAC CCAGTTCAGA AAAACAGAGC CCCATGGCCC AGCAGCACAG CCCTCTGGCC 
    CAGCAGAGTC CTCTGGCCCA GCCAAGCCCA GCCACCCCCA ACAGCCCGGT CGCACAGCCA 
    GCTCCTCCCC AACCTCTCCA GCTGCAAGGA CATGAAAATA GTTACAGGTC AGAAGTTAAA 
    GCGAGGCAAG ATGTGAAGCC AGACATCCGG CAGCCTCCCT TCACAGACTA CAGGCAGCCC 
    CCGCTGGACT ACAGGCAGCC CCCCGGAGGA GACTACTCGC AGCCCCCACC CTTGGACTAC 
    AGGCAGCACT CCCCAGACAC CAGGCAGTAC CCTCTGTCAG ACTACAGGCA GCCACAGGAT 
    TTTGATTATT TCACTGTGGA CATGGAGAAA GGAGCCAAAG GATTTGGATT CAGCATTCGT 
    GGAGGAAGGG AATACAAGAT GGATCTGTAT GTGTTGAGAC TGGCAGAGGA TGGGCCAGCC 
    ATAAGGAACG GCAGGATGAG GGTAGGAGAT CAGATCATTG AAATAAATGG GGAAAGCACA 
    CGCGACATGA CCCATGCCAG AGCAATAGAA CTCATCAAGT CTGGAGGAAG AAGAGTGCGG 
    CTGCTGCTGA AGAGAGGCAC GGGGCAGGTC CCGGAGTACG ACGAACCCCA CGCCTGGAGT 
    GTTGCCGCTG CCGCCGCCCC AGGCCTGCCG GAAGTAGGCG TCTCCCTCGA AGACATCCTC 
    TCTCCATTCT CTCCATCACA TCCAGCCCCA CCCTCCGACC CTTCCCACCA GATAGGCCCA 
    GACCCAACTT GGGATATCCA AAGGGAACAC GACGTTAGGA AACCAAAGGA GCTTTCGGCC 
    GGCGGCCAGA AGAAGCAGCG CCTGGGGGAG CAGAGGGAGC GCTCGGCGAG CCCGCAGCGC 
    AGTGCGCGGC CCAGGCTGGA GGAGGTGCCC GGCGGCCAGG GGCGGCCCGA GGCCGGCAGG 
    CCCGCCTCGG AGGCGGCCGA CGGGAAGGAG GCGCTGCGCG GCCGGCGCGA GGGCCTCGGG 
    GCCGCGGGCG CGCGGGAGGC CGAGGCCAAG GTGGGTGTGC GCTCGGGGGC CCGACCCGCA 
    GCGCGGCCCA CGGGGGGCGG CCCAGCGCGC AAAGCAACGA TGGCGCCGGG GCCCTGGAAG 
    GTACCGGGCT CCGACAAGCT GCCGGGCGCC CTGCAGCCTG GCGCCTCGGC CGCGGGCAGA 
    TGA

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

    RefSeq XP_021017600.1
    CDS102..4304
    Translation

    Target ORF information:

    RefSeq Version XM_021161941.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021161941.1

    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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCGTCC AGATTATAAG 
    GAACTGGATG TTCACCTTCG GAGGATGGAG TCTGGATTTG GCTTTAGAAT CCTTGGAGGA 
    GATGAACCTG GACAACCTAT TTTGATCGGA GCCGTCATTG CCATGGGCTC AGCTGACAGA 
    GACGGCCGTC TACACCCAGG AGATGAGCTT GTCTATGTGG ATGGGATCCC GGTGGCTGGC 
    AAGACCCACC GCTATGTCAT CGACCTCATG CACCACGCGG CCCGCAACGG GCAGGTTAAC 
    CTCACTGTGA GAAGAAAGGT GCTATGTGGA GGGGAGCCCT GCCCAGAGAA TGGGAGAAGT 
    CCAGGCTCTG TATCAACTCA CCACAGCTCT CCGCGCAGTG ACTATGCCAC CTACTCCAAC 
    AGCAACCACG CCGCCCCCAG CAGCAATGCC TCGCCTCCTG AAGGCTTTGC CTCACACAGC 
    CTGCAGACCA GTGATGTGGT CATTCACCGC AAAGAAAACG AAGGGTTTGG CTTCGTCATC 
    ATCAGCTCTC TGAACAGGCC TGAGTCTGGA GCCACCATAA CTGTGCCCCA TAAAATTGGA 
    CGAATCATTG ATGGGAGCCC TGCAGATCGC TGTGCCAAAC TCAAAGTGGG CGACCGGATC 
    TTAGCAGTCA ACGGCCAGTC TATCATCAAC ATGCCTCACG CTGACATTGT GAAGCTCATC 
    AAGGACGCGG GTCTCAGTGT CACCCTTCGC ATCATTCCTC AGGAGGAGCT CAACAGCCCA 
    ACATCAGCAC CCAGTTCAGA AAAACAGAGC CCCATGGCCC AGCAGCACAG CCCTCTGGCC 
    CAGCAGAGTC CTCTGGCCCA GCCAAGCCCA GCCACCCCCA ACAGCCCGGT CGCACAGCCA 
    GCTCCTCCCC AACCTCTCCA GCTGCAAGGA CATGAAAATA GTTACAGGTC AGAAGTTAAA 
    GCGAGGCAAG ATGTGAAGCC AGACATCCGG CAGCCTCCCT TCACAGACTA CAGGCAGCCC 
    CCGCTGGACT ACAGGCAGCC CCCCGGAGGA GACTACTCGC AGCCCCCACC CTTGGACTAC 
    AGGCAGCACT CCCCAGACAC CAGGCAGTAC CCTCTGTCAG ACTACAGGCA GCCACAGGAT 
    TTTGATTATT TCACTGTGGA CATGGAGAAA GGAGCCAAAG GATTTGGATT CAGCATTCGT 
    GGAGGAAGGG AATACAAGAT GGATCTGTAT GTGTTGAGAC TGGCAGAGGA TGGGCCAGCC 
    ATAAGGAACG GCAGGATGAG GGTAGGAGAT CAGATCATTG AAATAAATGG GGAAAGCACA 
    CGCGACATGA CCCATGCCAG AGCAATAGAA CTCATCAAGT CTGGAGGAAG AAGAGTGCGG 
    CTGCTGCTGA AGAGAGGCAC GGGGCAGGTC CCGGAGTACG ACGAACCCCA CGCCTGGAGT 
    GTTGCCGCTG CCGCCGCCCC AGGCCTGCCG GAAGTAGGCG TCTCCCTCGA AGACATCCTC 
    TCTCCATTCT CTCCATCACA TCCAGCCCCA CCCTCCGACC CTTCCCACCA GATAGGCCCA 
    GACCCAACTT GGGATATCCA AAGGGAACAC GACGTTAGGA AACCAAAGGA GCTTTCGGCC 
    GGCGGCCAGA AGAAGCAGCG CCTGGGGGAG CAGAGGGAGC GCTCGGCGAG CCCGCAGCGC 
    AGTGCGCGGC CCAGGCTGGA GGAGGTGCCC GGCGGCCAGG GGCGGCCCGA GGCCGGCAGG 
    CCCGCCTCGG AGGCGGCCGA CGGGAAGGAG GCGCTGCGCG GCCGGCGCGA GGGCCTCGGG 
    GCCGCGGGCG CGCGGGAGGC CGAGGCCAAG GTGGGTGTGC GCTCGGGGGC CCGACCCGCA 
    GCGCGGCCCA CGGGGGGCGG CCCAGCGCGC AAAGCAACGA TGGCGCCGGG GCCCTGGAAG 
    GTACCGGGCT CCGACAAGCT GCCGGGCGCC CTGCAGCCTG GCGCCTCGGC CGCGGGCAGA 
    TGA

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

    Magi2 ( XM_021161942.2 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021017601.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv00602
    Clone ID Related Accession (Same CDS sequence) XM_021161942.2 , XM_021161942.1
    Accession Version XM_021161942.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3828bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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_021161942.1. ##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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGGAATGGTA CCTTCCAGCC TCTCCATGTG CATGAAAAGT 
    GACAAGCATG GGTCCCCATA TTTCTACTTA CTGGGCCACC CTAAAGACAC GACGAACCCC 
    ACGCCTGGAG TGTTGCCGCT GCCGCCGCCC CAGGCCTGCC GGAAGTAG

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

    RefSeq XP_021017601.1
    CDS349..4176
    Translation

    Target ORF information:

    RefSeq Version XM_021161942.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021161942.2

    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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGGAATGGTA CCTTCCAGCC TCTCCATGTG CATGAAAAGT 
    GACAAGCATG GGTCCCCATA TTTCTACTTA CTGGGCCACC CTAAAGACAC GACGAACCCC 
    ACGCCTGGAG TGTTGCCGCT GCCGCCGCCC CAGGCCTGCC GGAAGTAG

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

    Magi2 ( XM_021161942.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021017601.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OMv00602
    Clone ID Related Accession (Same CDS sequence) XM_021161942.2 , XM_021161942.1
    Accession Version XM_021161942.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3828bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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
    3661
    3721
    3781
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGGAATGGTA CCTTCCAGCC TCTCCATGTG CATGAAAAGT 
    GACAAGCATG GGTCCCCATA TTTCTACTTA CTGGGCCACC CTAAAGACAC GACGAACCCC 
    ACGCCTGGAG TGTTGCCGCT GCCGCCGCCC CAGGCCTGCC GGAAGTAG

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

    RefSeq XP_021017601.1
    CDS324..4151
    Translation

    Target ORF information:

    RefSeq Version XM_021161942.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021161942.1

    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
    ATGTCCAAAA GCTTGAAAAA GAAAAGCCAC TGGACTAGCA AAGTCCACGA GAGTGTCATT 
    GGCAGGAACC CGGAGGGCCA GCTGGGCTTT GAACTGAAGG GGGGCGCCGA AAACGGACAG 
    TTCCCCTACC TGGGGGAGGT GAAGCCGGGC AAGGTGGCCT ATGAAAGCGG CAGCAAGTTG 
    GTGTCCGAGG AGCTGCTGCT GGAGGTGAAC GAAACCCCCG TGGCGGGGCT CACCATCAGG 
    GACGTTCTGG CCGTGATCAA ACACTGCAAG GACCCCCTCC GGCTCAAGTG TGTCAAGCAA 
    GGAGGAATTG TTGATAAAGA CCTTCGTCAC TACCTCAACC TAAGATTTCA GAAGGGTTCT 
    GTTGACCACG AACTACAGCA AATCATCCGT GACAACCTCT ACCTCCGCAC GGTGCCATGC 
    ACCACAAGGC CACATAAGGA GGGTGAGGTC CCTGGAGTGG ACTACATTTT CATAACCGTT 
    GAGGACTTTA TGGAATTGGA GAAGAGTGGT GCTCTCCTTG AAAGCGGGAC CTATGAAGAC 
    AACTACTACG GTACCCCGAA GCCTCCAGCT GAACCAGCAC CATTATTAAA TGTAACAGAC 
    CAGATACTTC CGGGAGCTAC TCCAAGTGCT GAGGGGAAGC GGAAGAGAAA CAAGTCAGTG 
    ACCAACATGG AGAAAGCAAG TATAGAGCCT CCAGAGGAGG AGGAAGAAGA AAGGCCTGTA 
    GTCAATGGAA ACGGCGTGGT CATAACCCCA GAATCCAGTG AACATGAAGA CAAAAGTGCA 
    GGTGCCTCAG GGGAGACACC CTCCCAGCCT TACCCTGCAC CCGTGTACAG TCAGCCCGAA 
    GAGCTCAAGG ACCAGATGGA TGATACAAAG CCAACAAAGC CTGAGGAGAA TGAGGACTCT 
    GATCCATTGC CTGATAACTG GGAAATGGCC TACACAGAGA AAGGGGAAGT CTACTTCATT 
    GACCATAACA CAAAGACAAC ATCATGGCTG GATCCGCGAC TTGCGAAAAA GGCTAAACCT 
    CCAGAAGAGT GCAAAGAAAA TGAGCTTCCA TATGGCTGGG AAAAAATCGA TGATCCTATA 
    TATGGCACTT ACTATGTTGA CCACATAAAT AGAAGAACAC AGTTTGAAAA CCCTGTCCTG 
    GAAGCAAAAA GGAAGCTACA GCAACATAAC ATGCCCCACA CAGAACTTGG AGCAAAGCCC 
    CTGCAGGCCC CAGGTTTCCG AGAAAAGCCA CTCTTCACCC GCGATGCATC CCAGTTGAAG 
    GGTACCTTCC TCAGCACCAC CCTCAAAAAG AGCAACATGG GCTTTGGGTT TACCATCATT 
    GGTGGAGATG AGCCCGATGA GTTTCTACAG GTGAAAAGTG TGATCCCGGA CGGGCCTGCC 
    GCACAGGATG GGAAAATGGA GACAGGTGAT GTCATTGTCT ATATTAATGA AGTTTGTGTC 
    CTTGGACACA CTCATGCAGA TGTTGTCAAA CTTTTCCAGT CTGTTCCTAT TGGTCAGAGT 
    GTCAACTTGG TGTTGTGTCG TGGCTACCCT TTGCCCTTTG ACCCTGAAGA TCCTGCTAAC 
    AGCATGGTGC CACCCCTTGC AATAATGGAG AGGCCACCTC CAGTGATGGT CAACGGAAGA 
    CATAACTATG AAACATATTT GGAATACATT TCTCGGACCT CACAGTCGGT CCCAGATATT 
    ACAGACCGGC CACCTCATTC TTTGCACTCC ATGCCAGCTG ATGGCCAGCT AGATGGCACG 
    TATCCACCAC CCGTCCATGA CGACAATGTG TCTATGGCTT CGTCTGGAGC CACTCAAGCT 
    GAACTTATGA CCTTAACCAT TGTGAAAGGT GCCCAGGGAT TTGGCTTTAC TATTGCCGAC 
    AGTCCCACGG GACAGCGGGT GAAACAAATC CTTGACATTC AGGGATGCCC TGGGCTGTGT 
    GAAGGAGACC TCATTGTTGA GATCAACCAA CAGAATGTAC AGAACCTGAG CCATACAGAA 
    GTAGTGGATA TACTTAAGGA CTGCCCCGTT GGAAGTGAGA CTTCTTTAAT CATCCATCGA 
    GGAGGTTTCT TTTCTCCATG GAAAACTCCA AAGCCTATGA TGGACCGGTG GGAGAACCAA 
    GGCAGTCCAC AAACAAGTTT ATCTGCTCCA GCCGTCCCAC AGAACCTGCC CTTCCCGCCT 
    GCCCTTCACA GGAGCTCCTT TCCTGATTCA ACAGAGGCCT TTGACCCACG GAAGCCTGAC 
    CCATATGAGC TCTACGAGAA ATCGAGAGCC ATTTATGAAA GTAGGCAACA AGTGCCACCC 
    AGGACCAGTT TTCGAATGGA TTCCTCTGGT CCAGATTATA AGGAACTGGA TGTTCACCTT 
    CGGAGGATGG AGTCTGGATT TGGCTTTAGA ATCCTTGGAG GAGATGAACC TGGACAACCT 
    ATTTTGATCG GAGCCGTCAT TGCCATGGGC TCAGCTGACA GAGACGGCCG TCTACACCCA 
    GGAGATGAGC TTGTCTATGT GGATGGGATC CCGGTGGCTG GCAAGACCCA CCGCTATGTC 
    ATCGACCTCA TGCACCACGC GGCCCGCAAC GGGCAGGTTA ACCTCACTGT GAGAAGAAAG 
    GTGCTATGTG GAGGGGAGCC CTGCCCAGAG AATGGGAGAA GTCCAGGCTC TGTATCAACT 
    CACCACAGCT CTCCGCGCAG TGACTATGCC ACCTACTCCA ACAGCAACCA CGCCGCCCCC 
    AGCAGCAATG CCTCGCCTCC TGAAGGCTTT GCCTCACACA GCCTGCAGAC CAGTGATGTG 
    GTCATTCACC GCAAAGAAAA CGAAGGGTTT GGCTTCGTCA TCATCAGCTC TCTGAACAGG 
    CCTGAGTCTG GAGCCACCAT AACTGTGCCC CATAAAATTG GACGAATCAT TGATGGGAGC 
    CCTGCAGATC GCTGTGCCAA ACTCAAAGTG GGCGACCGGA TCTTAGCAGT CAACGGCCAG 
    TCTATCATCA ACATGCCTCA CGCTGACATT GTGAAGCTCA TCAAGGACGC GGGTCTCAGT 
    GTCACCCTTC GCATCATTCC TCAGGAGGAG CTCAACAGCC CAACATCAGC ACCCAGTTCA 
    GAAAAACAGA GCCCCATGGC CCAGCAGCAC AGCCCTCTGG CCCAGCAGAG TCCTCTGGCC 
    CAGCCAAGCC CAGCCACCCC CAACAGCCCG GTCGCACAGC CAGCTCCTCC CCAACCTCTC 
    CAGCTGCAAG GACATGAAAA TAGTTACAGG TCAGAAGTTA AAGCGAGGCA AGATGTGAAG 
    CCAGACATCC GGCAGCCTCC CTTCACAGAC TACAGGCAGC CCCCGCTGGA CTACAGGCAG 
    CCCCCCGGAG GAGACTACTC GCAGCCCCCA CCCTTGGACT ACAGGCAGCA CTCCCCAGAC 
    ACCAGGCAGT ACCCTCTGTC AGACTACAGG CAGCCACAGG ATTTTGATTA TTTCACTGTG 
    GACATGGAGA AAGGAGCCAA AGGATTTGGA TTCAGCATTC GTGGAGGAAG GGAATACAAG 
    ATGGATCTGT ATGTGTTGAG ACTGGCAGAG GATGGGCCAG CCATAAGGAA CGGCAGGATG 
    AGGGTAGGAG ATCAGATCAT TGAAATAAAT GGGGAAAGCA CACGCGACAT GACCCATGCC 
    AGAGCAATAG AACTCATCAA GTCTGGAGGA AGAAGAGTGC GGCTGCTGCT GAAGAGAGGC 
    ACGGGGCAGG TCCCGGAGTA CGGAATGGTA CCTTCCAGCC TCTCCATGTG CATGAAAAGT 
    GACAAGCATG GGTCCCCATA TTTCTACTTA CTGGGCCACC CTAAAGACAC GACGAACCCC 
    ACGCCTGGAG TGTTGCCGCT GCCGCCGCCC CAGGCCTGCC GGAAGTAG

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

    Magi2 ( XM_021161943.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021017602.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X6, mRNA.
    Price & Availability↑
    CloneID OMv00603
    Clone ID Related Accession (Same CDS sequence) XM_021161943.1
    Accession Version XM_021161943.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3339bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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
    ATGGAATTGG AGAAGAGTGG TGCTCTCCTT GAAAGCGGGA CCTATGAAGA CAACTACTAC 
    GGTACCCCGA AGCCTCCAGC TGAACCAGCA CCATTATTAA ATGTAACAGA CCAGATACTT 
    CCGGGAGCTA CTCCAAGTGC TGAGGGGAAG CGGAAGAGAA ACAAGTCAGT GACCAACATG 
    GAGAAAGCAA GTATAGAGCC TCCAGAGGAG GAGGAAGAAG AAAGGCCTGT AGTCAATGGA 
    AACGGCGTGG TCATAACCCC AGAATCCAGT GAACATGAAG ACAAAAGTGC AGGTGCCTCA 
    GGGGAGACAC CCTCCCAGCC TTACCCTGCA CCCGTGTACA GTCAGCCCGA AGAGCTCAAG 
    GACCAGATGG ATGATACAAA GCCAACAAAG CCTGAGGAGA ATGAGGACTC TGATCCATTG 
    CCTGATAACT GGGAAATGGC CTACACAGAG AAAGGGGAAG TCTACTTCAT TGACCATAAC 
    ACAAAGACAA CATCATGGCT GGATCCGCGA CTTGCGAAAA AGGCTAAACC TCCAGAAGAG 
    TGCAAAGAAA ATGAGCTTCC ATATGGCTGG GAAAAAATCG ATGATCCTAT ATATGGCACT 
    TACTATGTTG ACCACATAAA TAGAAGAACA CAGTTTGAAA ACCCTGTCCT GGAAGCAAAA 
    AGGAAGCTAC AGCAACATAA CATGCCCCAC ACAGAACTTG GAGCAAAGCC CCTGCAGGCC 
    CCAGGTTTCC GAGAAAAGCC ACTCTTCACC CGCGATGCAT CCCAGTTGAA GGGTACCTTC 
    CTCAGCACCA CCCTCAAAAA GAGCAACATG GGCTTTGGGT TTACCATCAT TGGTGGAGAT 
    GAGCCCGATG AGTTTCTACA GGTGAAAAGT GTGATCCCGG ACGGGCCTGC CGCACAGGAT 
    GGGAAAATGG AGACAGGTGA TGTCATTGTC TATATTAATG AAGTTTGTGT CCTTGGACAC 
    ACTCATGCAG ATGTTGTCAA ACTTTTCCAG TCTGTTCCTA TTGGTCAGAG TGTCAACTTG 
    GTGTTGTGTC GTGGCTACCC TTTGCCCTTT GACCCTGAAG ATCCTGCTAA CAGCATGGTG 
    CCACCCCTTG CAATAATGGA GAGGCCACCT CCAGTGATGG TCAACGGAAG ACATAACTAT 
    GAAACATATT TGGAATACAT TTCTCGGACC TCACAGTCGG TCCCAGATAT TACAGACCGG 
    CCACCTCATT CTTTGCACTC CATGCCAGCT GATGGCCAGC TAGATGGCAC GTATCCACCA 
    CCCGTCCATG ACGACAATGT GTCTATGGCT TCGTCTGGAG CCACTCAAGC TGAACTTATG 
    ACCTTAACCA TTGTGAAAGG TGCCCAGGGA TTTGGCTTTA CTATTGCCGA CAGTCCCACG 
    GGACAGCGGG TGAAACAAAT CCTTGACATT CAGGGATGCC CTGGGCTGTG TGAAGGAGAC 
    CTCATTGTTG AGATCAACCA ACAGAATGTA CAGAACCTGA GCCATACAGA AGTAGTGGAT 
    ATACTTAAGG ACTGCCCCGT TGGAAGTGAG ACTTCTTTAA TCATCCATCG AGGAGGTTTC 
    TTTTCTCCAT GGAAAACTCC AAAGCCTATG ATGGACCGGT GGGAGAACCA AGGCAGTCCA 
    CAAACAAGTT TATCTGCTCC AGCCGTCCCA CAGAACCTGC CCTTCCCGCC TGCCCTTCAC 
    AGGAGCTCCT TTCCTGATTC AACAGAGGCC TTTGACCCAC GGAAGCCTGA CCCATATGAG 
    CTCTACGAGA AATCGAGAGC CATTTATGAA AGTAGGCAAC AAGTGCCACC CAGGACCAGT 
    TTTCGAATGG ATTCCTCTGG TCCAGATTAT AAGGAACTGG ATGTTCACCT TCGGAGGATG 
    GAGTCTGGAT TTGGCTTTAG AATCCTTGGA GGAGATGAAC CTGGACAACC TATTTTGATC 
    GGAGCCGTCA TTGCCATGGG CTCAGCTGAC AGAGACGGCC GTCTACACCC AGGAGATGAG 
    CTTGTCTATG TGGATGGGAT CCCGGTGGCT GGCAAGACCC ACCGCTATGT CATCGACCTC 
    ATGCACCACG CGGCCCGCAA CGGGCAGGTT AACCTCACTG TGAGAAGAAA GGTGCTATGT 
    GGAGGGGAGC CCTGCCCAGA GAATGGGAGA AGTCCAGGCT CTGTATCAAC TCACCACAGC 
    TCTCCGCGCA GTGACTATGC CACCTACTCC AACAGCAACC ACGCCGCCCC CAGCAGCAAT 
    GCCTCGCCTC CTGAAGGCTT TGCCTCACAC AGCCTGCAGA CCAGTGATGT GGTCATTCAC 
    CGCAAAGAAA ACGAAGGGTT TGGCTTCGTC ATCATCAGCT CTCTGAACAG GCCTGAGTCT 
    GGAGCCACCA TAACTGTGCC CCATAAAATT GGACGAATCA TTGATGGGAG CCCTGCAGAT 
    CGCTGTGCCA AACTCAAAGT GGGCGACCGG ATCTTAGCAG TCAACGGCCA GTCTATCATC 
    AACATGCCTC ACGCTGACAT TGTGAAGCTC ATCAAGGACG CGGGTCTCAG TGTCACCCTT 
    CGCATCATTC CTCAGGAGGA GCTCAACAGC CCAACATCAG CACCCAGTTC AGAAAAACAG 
    AGCCCCATGG CCCAGCAGCA CAGCCCTCTG GCCCAGCAGA GTCCTCTGGC CCAGCCAAGC 
    CCAGCCACCC CCAACAGCCC GGTCGCACAG CCAGCTCCTC CCCAACCTCT CCAGCTGCAA 
    GGACATGAAA ATAGTTACAG GTCAGAAGTT AAAGCGAGGC AAGATGTGAA GCCAGACATC 
    CGGCAGCCTC CCTTCACAGA CTACAGGCAG CCCCCGCTGG ACTACAGGCA GCCCCCCGGA 
    GGAGACTACT CGCAGCCCCC ACCCTTGGAC TACAGGCAGC ACTCCCCAGA CACCAGGCAG 
    TACCCTCTGT CAGACTACAG GCAGCCACAG GATTTTGATT ATTTCACTGT GGACATGGAG 
    AAAGGAGCCA AAGGATTTGG ATTCAGCATT CGTGGAGGAA GGGAATACAA GATGGATCTG 
    TATGTGTTGA GACTGGCAGA GGATGGGCCA GCCATAAGGA ACGGCAGGAT GAGGGTAGGA 
    GATCAGATCA TTGAAATAAA TGGGGAAAGC ACACGCGACA TGACCCATGC CAGAGCAATA 
    GAACTCATCA AGTCTGGAGG AAGAAGAGTG CGGCTGCTGC TGAAGAGAGG CACGGGGCAG 
    GTCCCGGAGT ACGGAATGGT ACCTTCCAGC CTCTCCATGT GCATGAAAAG TGACAAGCAT 
    GGGTCCCCAT ATTTCTACTT ACTGGGCCAC CCTAAAGACA CGACGAACCC CACGCCTGGA 
    GTGTTGCCGC TGCCGCCGCC CCAGGCCTGC CGGAAGTAG

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

    RefSeq XP_021017602.1
    CDS556..3894
    Translation

    Target ORF information:

    RefSeq Version XM_021161943.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021161943.1

    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
    ATGGAATTGG AGAAGAGTGG TGCTCTCCTT GAAAGCGGGA CCTATGAAGA CAACTACTAC 
    GGTACCCCGA AGCCTCCAGC TGAACCAGCA CCATTATTAA ATGTAACAGA CCAGATACTT 
    CCGGGAGCTA CTCCAAGTGC TGAGGGGAAG CGGAAGAGAA ACAAGTCAGT GACCAACATG 
    GAGAAAGCAA GTATAGAGCC TCCAGAGGAG GAGGAAGAAG AAAGGCCTGT AGTCAATGGA 
    AACGGCGTGG TCATAACCCC AGAATCCAGT GAACATGAAG ACAAAAGTGC AGGTGCCTCA 
    GGGGAGACAC CCTCCCAGCC TTACCCTGCA CCCGTGTACA GTCAGCCCGA AGAGCTCAAG 
    GACCAGATGG ATGATACAAA GCCAACAAAG CCTGAGGAGA ATGAGGACTC TGATCCATTG 
    CCTGATAACT GGGAAATGGC CTACACAGAG AAAGGGGAAG TCTACTTCAT TGACCATAAC 
    ACAAAGACAA CATCATGGCT GGATCCGCGA CTTGCGAAAA AGGCTAAACC TCCAGAAGAG 
    TGCAAAGAAA ATGAGCTTCC ATATGGCTGG GAAAAAATCG ATGATCCTAT ATATGGCACT 
    TACTATGTTG ACCACATAAA TAGAAGAACA CAGTTTGAAA ACCCTGTCCT GGAAGCAAAA 
    AGGAAGCTAC AGCAACATAA CATGCCCCAC ACAGAACTTG GAGCAAAGCC CCTGCAGGCC 
    CCAGGTTTCC GAGAAAAGCC ACTCTTCACC CGCGATGCAT CCCAGTTGAA GGGTACCTTC 
    CTCAGCACCA CCCTCAAAAA GAGCAACATG GGCTTTGGGT TTACCATCAT TGGTGGAGAT 
    GAGCCCGATG AGTTTCTACA GGTGAAAAGT GTGATCCCGG ACGGGCCTGC CGCACAGGAT 
    GGGAAAATGG AGACAGGTGA TGTCATTGTC TATATTAATG AAGTTTGTGT CCTTGGACAC 
    ACTCATGCAG ATGTTGTCAA ACTTTTCCAG TCTGTTCCTA TTGGTCAGAG TGTCAACTTG 
    GTGTTGTGTC GTGGCTACCC TTTGCCCTTT GACCCTGAAG ATCCTGCTAA CAGCATGGTG 
    CCACCCCTTG CAATAATGGA GAGGCCACCT CCAGTGATGG TCAACGGAAG ACATAACTAT 
    GAAACATATT TGGAATACAT TTCTCGGACC TCACAGTCGG TCCCAGATAT TACAGACCGG 
    CCACCTCATT CTTTGCACTC CATGCCAGCT GATGGCCAGC TAGATGGCAC GTATCCACCA 
    CCCGTCCATG ACGACAATGT GTCTATGGCT TCGTCTGGAG CCACTCAAGC TGAACTTATG 
    ACCTTAACCA TTGTGAAAGG TGCCCAGGGA TTTGGCTTTA CTATTGCCGA CAGTCCCACG 
    GGACAGCGGG TGAAACAAAT CCTTGACATT CAGGGATGCC CTGGGCTGTG TGAAGGAGAC 
    CTCATTGTTG AGATCAACCA ACAGAATGTA CAGAACCTGA GCCATACAGA AGTAGTGGAT 
    ATACTTAAGG ACTGCCCCGT TGGAAGTGAG ACTTCTTTAA TCATCCATCG AGGAGGTTTC 
    TTTTCTCCAT GGAAAACTCC AAAGCCTATG ATGGACCGGT GGGAGAACCA AGGCAGTCCA 
    CAAACAAGTT TATCTGCTCC AGCCGTCCCA CAGAACCTGC CCTTCCCGCC TGCCCTTCAC 
    AGGAGCTCCT TTCCTGATTC AACAGAGGCC TTTGACCCAC GGAAGCCTGA CCCATATGAG 
    CTCTACGAGA AATCGAGAGC CATTTATGAA AGTAGGCAAC AAGTGCCACC CAGGACCAGT 
    TTTCGAATGG ATTCCTCTGG TCCAGATTAT AAGGAACTGG ATGTTCACCT TCGGAGGATG 
    GAGTCTGGAT TTGGCTTTAG AATCCTTGGA GGAGATGAAC CTGGACAACC TATTTTGATC 
    GGAGCCGTCA TTGCCATGGG CTCAGCTGAC AGAGACGGCC GTCTACACCC AGGAGATGAG 
    CTTGTCTATG TGGATGGGAT CCCGGTGGCT GGCAAGACCC ACCGCTATGT CATCGACCTC 
    ATGCACCACG CGGCCCGCAA CGGGCAGGTT AACCTCACTG TGAGAAGAAA GGTGCTATGT 
    GGAGGGGAGC CCTGCCCAGA GAATGGGAGA AGTCCAGGCT CTGTATCAAC TCACCACAGC 
    TCTCCGCGCA GTGACTATGC CACCTACTCC AACAGCAACC ACGCCGCCCC CAGCAGCAAT 
    GCCTCGCCTC CTGAAGGCTT TGCCTCACAC AGCCTGCAGA CCAGTGATGT GGTCATTCAC 
    CGCAAAGAAA ACGAAGGGTT TGGCTTCGTC ATCATCAGCT CTCTGAACAG GCCTGAGTCT 
    GGAGCCACCA TAACTGTGCC CCATAAAATT GGACGAATCA TTGATGGGAG CCCTGCAGAT 
    CGCTGTGCCA AACTCAAAGT GGGCGACCGG ATCTTAGCAG TCAACGGCCA GTCTATCATC 
    AACATGCCTC ACGCTGACAT TGTGAAGCTC ATCAAGGACG CGGGTCTCAG TGTCACCCTT 
    CGCATCATTC CTCAGGAGGA GCTCAACAGC CCAACATCAG CACCCAGTTC AGAAAAACAG 
    AGCCCCATGG CCCAGCAGCA CAGCCCTCTG GCCCAGCAGA GTCCTCTGGC CCAGCCAAGC 
    CCAGCCACCC CCAACAGCCC GGTCGCACAG CCAGCTCCTC CCCAACCTCT CCAGCTGCAA 
    GGACATGAAA ATAGTTACAG GTCAGAAGTT AAAGCGAGGC AAGATGTGAA GCCAGACATC 
    CGGCAGCCTC CCTTCACAGA CTACAGGCAG CCCCCGCTGG ACTACAGGCA GCCCCCCGGA 
    GGAGACTACT CGCAGCCCCC ACCCTTGGAC TACAGGCAGC ACTCCCCAGA CACCAGGCAG 
    TACCCTCTGT CAGACTACAG GCAGCCACAG GATTTTGATT ATTTCACTGT GGACATGGAG 
    AAAGGAGCCA AAGGATTTGG ATTCAGCATT CGTGGAGGAA GGGAATACAA GATGGATCTG 
    TATGTGTTGA GACTGGCAGA GGATGGGCCA GCCATAAGGA ACGGCAGGAT GAGGGTAGGA 
    GATCAGATCA TTGAAATAAA TGGGGAAAGC ACACGCGACA TGACCCATGC CAGAGCAATA 
    GAACTCATCA AGTCTGGAGG AAGAAGAGTG CGGCTGCTGC TGAAGAGAGG CACGGGGCAG 
    GTCCCGGAGT ACGGAATGGT ACCTTCCAGC CTCTCCATGT GCATGAAAAG TGACAAGCAT 
    GGGTCCCCAT ATTTCTACTT ACTGGGCCAC CCTAAAGACA CGACGAACCC CACGCCTGGA 
    GTGTTGCCGC TGCCGCCGCC CCAGGCCTGC CGGAAGTAG

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

    Magi2 ( XM_021161944.1 ) cDNA ORF clone, Mus caroli(Ryukyu mouse) -> XP_021017603.1 Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X7, mRNA.
    Price & Availability↑
    CloneID OMv00604
    Clone ID Related Accession (Same CDS sequence) XM_021161944.1
    Accession Version XM_021161944.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3297bp)
    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 membrane-associated guanylate kinase, WW and PDZ domain-containing protein 2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034574.1) 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
    ATGGAATTGG AGAAGAGTGG TGCTCTCCTT GAAAGCGGGA CCTATGAAGA CAACTACTAC 
    GGTACCCCGA AGCCTCCAGC TGAACCAGCA CCATTATTAA ATGTAACAGA CCAGATACTT 
    CCGGGAGCTA CTCCAAGTGC TGAGGGGAAG CGGAAGAGAA ACAAGTCAGT GACCAACATG 
    GAGAAAGCAA GTATAGAGCC TCCAGAGGAG GAGGAAGAAG AAAGGCCTGT AGTCAATGGA 
    AACGGCGTGG TCATAACCCC AGAATCCAGT GAACATGAAG ACAAAAGTGC AGGTGCCTCA 
    GGGGAGACAC CCTCCCAGCC TTACCCTGCA CCCGTGTACA GTCAGCCCGA AGAGCTCAAG 
    GACCAGATGG ATGATACAAA GCCAACAAAG CCTGAGGAGA ATGAGGACTC TGATCCATTG 
    CCTGATAACT GGGAAATGGC CTACACAGAG AAAGGGGAAG TCTACTTCAT TGACCATAAC 
    ACAAAGACAA CATCATGGCT GGATCCGCGA CTTGCGAAAA AGGCTAAACC TCCAGAAGAG 
    TGCAAAGAAA ATGAGCTTCC ATATGGCTGG GAAAAAATCG ATGATCCTAT ATATGGCACT 
    TACTATGTTG ACCACATAAA TAGAAGAACA CAGTTTGAAA ACCCTGTCCT GGAAGCAAAA 
    AGGAAGCTAC AGCAACATAA CATGCCCCAC ACAGAACTTG GAGCAAAGCC CCTGCAGGCC 
    CCAGGTTTCC GAGAAAAGCC ACTCTTCACC CGCGATGCAT CCCAGTTGAA GGGTACCTTC 
    CTCAGCACCA CCCTCAAAAA GAGCAACATG GGCTTTGGGT TTACCATCAT TGGTGGAGAT 
    GAGCCCGATG AGTTTCTACA GGTGAAAAGT GTGATCCCGG ACGGGCCTGC CGCACAGGAT 
    GGGAAAATGG AGACAGGTGA TGTCATTGTC TATATTAATG AAGTTTGTGT CCTTGGACAC 
    ACTCATGCAG ATGTTGTCAA ACTTTTCCAG TCTGTTCCTA TTGGTCAGAG TGTCAACTTG 
    GTGTTGTGTC GTGGCTACCC TTTGCCCTTT GACCCTGAAG ATCCTGCTAA CAGCATGGTG 
    CCACCCCTTG CAATAATGGA GAGGCCACCT CCAGTGATGG TCAACGGAAG ACATAACTAT 
    GAAACATATT TGGAATACAT TTCTCGGACC TCACAGTCGG TCCCAGATAT TACAGACCGG 
    CCACCTCATT CTTTGCACTC CATGCCAGCT GATGGCCAGC TAGATGGCAC GTATCCACCA 
    CCCGTCCATG ACGACAATGT GTCTATGGCT TCGTCTGGAG CCACTCAAGC TGAACTTATG 
    ACCTTAACCA TTGTGAAAGG TGCCCAGGGA TTTGGCTTTA CTATTGCCGA CAGTCCCACG 
    GGACAGCGGG TGAAACAAAT CCTTGACATT CAGGGATGCC CTGGGCTGTG TGAAGGAGAC 
    CTCATTGTTG AGATCAACCA ACAGAATGTA CAGAACCTGA GCCATACAGA AGTAGTGGAT 
    ATACTTAAGG ACTGCCCCGT TGGAAGTGAG ACTTCTTTAA TCATCCATCG AGGAGGTTTC 
    TTTTCTCCAT GGAAAACTCC AAAGCCTATG ATGGACCGGT GGGAGAACCA AGGCAGTCCA 
    CAAACAAGTT TATCTGCTCC AGCCGTCCCA CAGAACCTGC CCTTCCCGCC TGCCCTTCAC 
    AGGAGCTCCT TTCCTGATTC AACAGAGGCC TTTGACCCAC GGAAGCCTGA CCCATATGAG 
    CTCTACGAGA AATCGAGAGC CATTTATGAA AGTAGGCGTC CAGATTATAA GGAACTGGAT 
    GTTCACCTTC GGAGGATGGA GTCTGGATTT GGCTTTAGAA TCCTTGGAGG AGATGAACCT 
    GGACAACCTA TTTTGATCGG AGCCGTCATT GCCATGGGCT CAGCTGACAG AGACGGCCGT 
    CTACACCCAG GAGATGAGCT TGTCTATGTG GATGGGATCC CGGTGGCTGG CAAGACCCAC 
    CGCTATGTCA TCGACCTCAT GCACCACGCG GCCCGCAACG GGCAGGTTAA CCTCACTGTG 
    AGAAGAAAGG TGCTATGTGG AGGGGAGCCC TGCCCAGAGA ATGGGAGAAG TCCAGGCTCT 
    GTATCAACTC ACCACAGCTC TCCGCGCAGT GACTATGCCA CCTACTCCAA CAGCAACCAC 
    GCCGCCCCCA GCAGCAATGC CTCGCCTCCT GAAGGCTTTG CCTCACACAG CCTGCAGACC 
    AGTGATGTGG TCATTCACCG CAAAGAAAAC GAAGGGTTTG GCTTCGTCAT CATCAGCTCT 
    CTGAACAGGC CTGAGTCTGG AGCCACCATA ACTGTGCCCC ATAAAATTGG ACGAATCATT 
    GATGGGAGCC CTGCAGATCG CTGTGCCAAA CTCAAAGTGG GCGACCGGAT CTTAGCAGTC 
    AACGGCCAGT CTATCATCAA CATGCCTCAC GCTGACATTG TGAAGCTCAT CAAGGACGCG 
    GGTCTCAGTG TCACCCTTCG CATCATTCCT CAGGAGGAGC TCAACAGCCC AACATCAGCA 
    CCCAGTTCAG AAAAACAGAG CCCCATGGCC CAGCAGCACA GCCCTCTGGC CCAGCAGAGT 
    CCTCTGGCCC AGCCAAGCCC AGCCACCCCC AACAGCCCGG TCGCACAGCC AGCTCCTCCC 
    CAACCTCTCC AGCTGCAAGG ACATGAAAAT AGTTACAGGT CAGAAGTTAA AGCGAGGCAA 
    GATGTGAAGC CAGACATCCG GCAGCCTCCC TTCACAGACT ACAGGCAGCC CCCGCTGGAC 
    TACAGGCAGC CCCCCGGAGG AGACTACTCG CAGCCCCCAC CCTTGGACTA CAGGCAGCAC 
    TCCCCAGACA CCAGGCAGTA CCCTCTGTCA GACTACAGGC AGCCACAGGA TTTTGATTAT 
    TTCACTGTGG ACATGGAGAA AGGAGCCAAA GGATTTGGAT TCAGCATTCG TGGAGGAAGG 
    GAATACAAGA TGGATCTGTA TGTGTTGAGA CTGGCAGAGG ATGGGCCAGC CATAAGGAAC 
    GGCAGGATGA GGGTAGGAGA TCAGATCATT GAAATAAATG GGGAAAGCAC ACGCGACATG 
    ACCCATGCCA GAGCAATAGA ACTCATCAAG TCTGGAGGAA GAAGAGTGCG GCTGCTGCTG 
    AAGAGAGGCA CGGGGCAGGT CCCGGAGTAC GGAATGGTAC CTTCCAGCCT CTCCATGTGC 
    ATGAAAAGTG ACAAGCATGG GTCCCCATAT TTCTACTTAC TGGGCCACCC TAAAGACACG 
    ACGAACCCCA CGCCTGGAGT GTTGCCGCTG CCGCCGCCCC AGGCCTGCCG GAAGTAG

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

    RefSeq XP_021017603.1
    CDS556..3852
    Translation

    Target ORF information:

    RefSeq Version XM_021161944.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli membrane associated guanylate kinase, WW and PDZ domain containing 2 (Magi2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_021161944.1

    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
    ATGGAATTGG AGAAGAGTGG TGCTCTCCTT GAAAGCGGGA CCTATGAAGA CAACTACTAC 
    GGTACCCCGA AGCCTCCAGC TGAACCAGCA CCATTATTAA ATGTAACAGA CCAGATACTT 
    CCGGGAGCTA CTCCAAGTGC TGAGGGGAAG CGGAAGAGAA ACAAGTCAGT GACCAACATG 
    GAGAAAGCAA GTATAGAGCC TCCAGAGGAG GAGGAAGAAG AAAGGCCTGT AGTCAATGGA 
    AACGGCGTGG TCATAACCCC AGAATCCAGT GAACATGAAG ACAAAAGTGC AGGTGCCTCA 
    GGGGAGACAC CCTCCCAGCC TTACCCTGCA CCCGTGTACA GTCAGCCCGA AGAGCTCAAG 
    GACCAGATGG ATGATACAAA GCCAACAAAG CCTGAGGAGA ATGAGGACTC TGATCCATTG 
    CCTGATAACT GGGAAATGGC CTACACAGAG AAAGGGGAAG TCTACTTCAT TGACCATAAC 
    ACAAAGACAA CATCATGGCT GGATCCGCGA CTTGCGAAAA AGGCTAAACC TCCAGAAGAG 
    TGCAAAGAAA ATGAGCTTCC ATATGGCTGG GAAAAAATCG ATGATCCTAT ATATGGCACT 
    TACTATGTTG ACCACATAAA TAGAAGAACA CAGTTTGAAA ACCCTGTCCT GGAAGCAAAA 
    AGGAAGCTAC AGCAACATAA CATGCCCCAC ACAGAACTTG GAGCAAAGCC CCTGCAGGCC 
    CCAGGTTTCC GAGAAAAGCC ACTCTTCACC CGCGATGCAT CCCAGTTGAA GGGTACCTTC 
    CTCAGCACCA CCCTCAAAAA GAGCAACATG GGCTTTGGGT TTACCATCAT TGGTGGAGAT 
    GAGCCCGATG AGTTTCTACA GGTGAAAAGT GTGATCCCGG ACGGGCCTGC CGCACAGGAT 
    GGGAAAATGG AGACAGGTGA TGTCATTGTC TATATTAATG AAGTTTGTGT CCTTGGACAC 
    ACTCATGCAG ATGTTGTCAA ACTTTTCCAG TCTGTTCCTA TTGGTCAGAG TGTCAACTTG 
    GTGTTGTGTC GTGGCTACCC TTTGCCCTTT GACCCTGAAG ATCCTGCTAA CAGCATGGTG 
    CCACCCCTTG CAATAATGGA GAGGCCACCT CCAGTGATGG TCAACGGAAG ACATAACTAT 
    GAAACATATT TGGAATACAT TTCTCGGACC TCACAGTCGG TCCCAGATAT TACAGACCGG 
    CCACCTCATT CTTTGCACTC CATGCCAGCT GATGGCCAGC TAGATGGCAC GTATCCACCA 
    CCCGTCCATG ACGACAATGT GTCTATGGCT TCGTCTGGAG CCACTCAAGC TGAACTTATG 
    ACCTTAACCA TTGTGAAAGG TGCCCAGGGA TTTGGCTTTA CTATTGCCGA CAGTCCCACG 
    GGACAGCGGG TGAAACAAAT CCTTGACATT CAGGGATGCC CTGGGCTGTG TGAAGGAGAC 
    CTCATTGTTG AGATCAACCA ACAGAATGTA CAGAACCTGA GCCATACAGA AGTAGTGGAT 
    ATACTTAAGG ACTGCCCCGT TGGAAGTGAG ACTTCTTTAA TCATCCATCG AGGAGGTTTC 
    TTTTCTCCAT GGAAAACTCC AAAGCCTATG ATGGACCGGT GGGAGAACCA AGGCAGTCCA 
    CAAACAAGTT TATCTGCTCC AGCCGTCCCA CAGAACCTGC CCTTCCCGCC TGCCCTTCAC 
    AGGAGCTCCT TTCCTGATTC AACAGAGGCC TTTGACCCAC GGAAGCCTGA CCCATATGAG 
    CTCTACGAGA AATCGAGAGC CATTTATGAA AGTAGGCGTC CAGATTATAA GGAACTGGAT 
    GTTCACCTTC GGAGGATGGA GTCTGGATTT GGCTTTAGAA TCCTTGGAGG AGATGAACCT 
    GGACAACCTA TTTTGATCGG AGCCGTCATT GCCATGGGCT CAGCTGACAG AGACGGCCGT 
    CTACACCCAG GAGATGAGCT TGTCTATGTG GATGGGATCC CGGTGGCTGG CAAGACCCAC 
    CGCTATGTCA TCGACCTCAT GCACCACGCG GCCCGCAACG GGCAGGTTAA CCTCACTGTG 
    AGAAGAAAGG TGCTATGTGG AGGGGAGCCC TGCCCAGAGA ATGGGAGAAG TCCAGGCTCT 
    GTATCAACTC ACCACAGCTC TCCGCGCAGT GACTATGCCA CCTACTCCAA CAGCAACCAC 
    GCCGCCCCCA GCAGCAATGC CTCGCCTCCT GAAGGCTTTG CCTCACACAG CCTGCAGACC 
    AGTGATGTGG TCATTCACCG CAAAGAAAAC GAAGGGTTTG GCTTCGTCAT CATCAGCTCT 
    CTGAACAGGC CTGAGTCTGG AGCCACCATA ACTGTGCCCC ATAAAATTGG ACGAATCATT 
    GATGGGAGCC CTGCAGATCG CTGTGCCAAA CTCAAAGTGG GCGACCGGAT CTTAGCAGTC 
    AACGGCCAGT CTATCATCAA CATGCCTCAC GCTGACATTG TGAAGCTCAT CAAGGACGCG 
    GGTCTCAGTG TCACCCTTCG CATCATTCCT CAGGAGGAGC TCAACAGCCC AACATCAGCA 
    CCCAGTTCAG AAAAACAGAG CCCCATGGCC CAGCAGCACA GCCCTCTGGC CCAGCAGAGT 
    CCTCTGGCCC AGCCAAGCCC AGCCACCCCC AACAGCCCGG TCGCACAGCC AGCTCCTCCC 
    CAACCTCTCC AGCTGCAAGG ACATGAAAAT AGTTACAGGT CAGAAGTTAA AGCGAGGCAA 
    GATGTGAAGC CAGACATCCG GCAGCCTCCC TTCACAGACT ACAGGCAGCC CCCGCTGGAC 
    TACAGGCAGC CCCCCGGAGG AGACTACTCG CAGCCCCCAC CCTTGGACTA CAGGCAGCAC 
    TCCCCAGACA CCAGGCAGTA CCCTCTGTCA GACTACAGGC AGCCACAGGA TTTTGATTAT 
    TTCACTGTGG ACATGGAGAA AGGAGCCAAA GGATTTGGAT TCAGCATTCG TGGAGGAAGG 
    GAATACAAGA TGGATCTGTA TGTGTTGAGA CTGGCAGAGG ATGGGCCAGC CATAAGGAAC 
    GGCAGGATGA GGGTAGGAGA TCAGATCATT GAAATAAATG GGGAAAGCAC ACGCGACATG 
    ACCCATGCCA GAGCAATAGA ACTCATCAAG TCTGGAGGAA GAAGAGTGCG GCTGCTGCTG 
    AAGAGAGGCA CGGGGCAGGT CCCGGAGTAC GGAATGGTAC CTTCCAGCCT CTCCATGTGC 
    ATGAAAAGTG ACAAGCATGG GTCCCCATAT TTCTACTTAC TGGGCCACCC TAAAGACACG 
    ACGAACCCCA CGCCTGGAGT GTTGCCGCTG CCGCCGCCCC AGGCCTGCCG GAAGTAG

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

見積依頼

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