Plekhh2 cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Plekhh2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Plekhh2 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
OMv34630 XM_021149116.2
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv34631 XM_021149117.1
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv34632 XM_021149118.1
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv34632 XM_021149119.1
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OMv70464 XM_029471537.1
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv70464 XM_029471538.1
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv70464 XM_029471539.1
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OMv34633 XM_021149120.2
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv70463 XM_029471536.1
Latest version!
Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $811.30
$1159.00
View Old Accession Versions >>
OMv34633 XM_021149120.1 Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 24-26 $881.30
$1259.00
OMv34630 XM_021149116.1 Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OMv34630
    Clone ID Related Accession (Same CDS sequence) XM_021149116.1 , XM_021149116.2
    Accession Version XM_021149116.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation 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
    ATGAATCTGT TCCCGGAGGA GTTGAGAAGA ACTATGGAGG AGCCCTCTGA GCCAGAAGGA 
    CTAATAGACT GGAAAGAGCG CTGCGTAGCT CTGGAGGCTC AGCTCATGAA ATTCCGAGTT
    CAAGCAAGCA AGATCCGAGA GCTCTTAGCA GACAAAATGC AACAGTTGGA GAGACAAGTT
    ATCGATGCAG AACGGCAAGC AGAAAAGGCT TTTCAAGAGG TACAAGTGAT GGAAGAGAAA
    CTAAAAGCAG CTAATATTCA GACCAGTGAG TCAGAGACGC GGCTCTATAA GAAGTGTCAA
    GACCTGGAGT CTGCGATGCA GGAGAAGGAT GGCATCATTC AGAACTTGGC TCTGCGGCTT
    GAAGAGCAGA AACAAGTGAG GATACAAGAA GCTAAAATAA TAGAAGAAAA AGCAGCTAAG
    ATCAAAGAAT GGGTAACAGT TAAGTTAAAC GAGCTAGAAG TAGAGAATCA GAATCTTCGT
    TTCATCAACC AAACCCAGAC TGAAGAGATA AGAGCAATAC AGTCAAAGTT GCAAGAACTC
    CAAGAGAAGA AGATATCCTG TATCTCCACA CCAAAGACCT CAGAAGGGCA ACGCAATTTG
    ACATTTGGAT GTTTCTTGTC CCGAGCAAAG AGTCCTCCTT GTGTAGTAAG ATGTGAGGAA
    GTGAGCAAGA TGGCCTCAAG TGAACCTGAG ATCACGGAAG GAAGATGTGT TGAAGAGATG
    GAAATTGCGG AGAAGCCTGC TGACAACCAA GTCCAAGAGA ACAGCAGAAG CCAGAGAAAT
    TTGCACGAGA CCTCTTGCAG CTCAGAACAG AACCAGAAAA CAAGAGCAAG CTTTGCAATG
    GATGGTGATT CTGCAGACAC ACTTTCCTAC TCTGCAGCAG GCCTTTATAC GTCTCTCATA
    TACAAGAACA TGACGACCCC AGTCTATACA ACGTTGAAGG GGAAGGCGAC ACAAATAAGT
    AGCAGCCCTT TCCTGGATGA CTCCTCGGGC TCAGACGAAG AGGATGGTTC TAGGTCCAGC
    TCCCGGCTGT CGGAGTCAGA TGCGCGCAGT CGCAGTGGGC CAAGCAGTCC CAGAGCCATG
    AAGCGAGGCG TGTCTGACTC CTCCGCGGCT TCTGAAAGTG ATTATGCCAT TCCTCCGGAT
    GCCTATCCCA TAGACGCAGA GTGTTCGCAG CCTGAGCAGA AACTTCTAAA AACCTGCCTG
    GCCTCCTGTG ACAATGGGAA AAATGAACCA TTAGAAAAAT CTGGGTACCT ACTAAAAATG
    AGCGCGAGAG TCAAGACTTG GAAGCGGAGG TGGTTTGTTC TGAAAGGAGG CGAATTACTT
    TACTACAAGT CTCCAAGCGA TGTGATTCGG AAACCCCAGG GCCACATTGA ACTGAGTGCA
    TCCTGCAGTA TTTTACGGGG CGATAACAAG CAAACAGTTC AGCTGGCCAC AGAGAAGCAC
    ACGTACTATC TGACGGCAGA TTCTCCCAAT ATATTGGAAG AATGGATCAA AGTGTTACAG
    AACGTTCTTC GAGTACAAGC TGCTAACCCT CTTTGCCTGC AGCCTGAGGG CAAACCCGCA
    GTAAAGGGCT TGCTCACCAA GGTGAAGCAT GGCTACTCTA AGAGGGTCTG GTGCATGCTT
    GTTGGAAAGG TCTTGTATTA TTTCCGCAAT CAAGAAGATA AGTTCCCTCT AGGTCAGCTC
    AAACTCTGGG AGGCTAAGGT GGAAGAGGTG GACAGGTCCT GTGACTCAGA CGAGGACTAT
    GAGACCCGGG GGTGCTATCT GCTGTCTACT CACTACACCA TCATTGTCCA CCCCAAAGAC
    CAGGGCCCTA CTTACCTGCT CATCGGATCT AAGCACGAAA AGGAAGCTTG GCTGTATCAC
    CTCACTGTTG CAGCTGGAAG CAACAATATA AATGTTGGAT CCGAATTTGA ACAACTGGTT
    TGCAAGTTGC TGAATATAGA AGGGGAGCCC TCCTCCCAGA TATGGAGACA CCCCATGCTG
    TGTCACAGCA AAGAAGGAAT CCTGTCCCCT CTGACCACAC TGCCTTCGGA AGCTCTGCAG
    ACCGAGGCCA TTAAGCTATT TAAGACCTGC CAGCTCTTTA TAAACGCTGC AGTCGACTCC
    CCTGCCATCG ACTACCACAT CTCTCTAGCC CAGAGTGCGC TGCAGGTCTG CCTGACGCAT
    CCTGAGCTAC AGAATGAAAT CTGCTGCCAG CTTATTAAGC AGACAAGACG GAGACAGCTG
    CAGAACCAGC CAGGCCCACT GCAGGGTTGG CAGCTCTTGG CACTCTGCGT TGGACTCTTC
    CTTCCCCACC ACCCTTTCCT GTGGCTCCTC CAGCTCCATC TACAAAGGAA TGCAGATTCC
    AGGACAGAGT TTGGGAAATA TGCCATTTAC TGCCAGCGAT GTGTAGAAAG GACACAGCAA
    AACGGAGACC GAGAGGCCAG ACCGTCCAGG ATGGAGATTC TCTCCACTCT TCTTCGAAAC
    CCCTACCACC ATTCTAGGCC CTTCAGCATA CCCGTGCACT TCATGAATGG GCTCTACCAG
    GTAGTGGGGT TCGATGCATC CACCACAGTG GAAGAATTTT TGAACACTTT GAACCAGGAC
    ACAGGAATGA GGAAGCCAGC GCAGTCTGGA TTCGCACTCT TCACAGATGA TCCTTCTGGC
    AGAGACCTGG AGCACTGTCT TCAGGGAAAT ATCAAGATCT GTGACATTAT TTCTAAATGG
    GAGCAGGCGT CCAAAGAACA GCAGCCTGGC AAGTGTGAGG GCAGCCGGAC TGTCCGTCTG
    ACTTACAAAA ACAGACTATA TTTCTCAATG CAAGCTCGTG GAGAAACCGA CAGAGAGAAG
    CTGCTGCTGC TGTACCAGAC AAATGACCAA ATCATCAATG GCCTTTTCCC TCTGAATAAG
    GATCTGGCGT TAGAAATGGC AGCGCTTTTA GCTCAGGTGG ATATTGGAGA TTTTGAAAGA
    CCTTTCTCAA CTCCAGCGGG GCCTGTGACT AACCAGTGCA AGGCAAATCA AACCCTCAAA
    CAAGTCATAG AGAGATTTTA CCCGAAAAGG TACCGAGAAG GGTGCTCTGA GGAGCAGCTA
    AGGCAGCTCT ACCAGCGACT CTCAACCAAA TGGATGGCCC TCCGGGGACA CAGTGCGGCT
    GACTGCATTC GCATTTACTT GACAGTAGCC AGGAAGTGGC CATTCTTTGG CGCCAAGTTG
    TTCTTTGCAA AACCAATAGC ACCATCATCA CTTGGCGATA ATTCCGTGTG GCTGGCTGTC
    CATGAAAATG GGTTGAGCAT CCTAGAATAC ACCTCCATGA AATTAGTGGT CAGCTATATG
    TACAAGGGTC TGATGACCTT TGGGGGCTAT CAAGAGGATT TCATGGTAGT CGTTAGTACA
    CAGTCAAAAG ACCGGCCAAC AGAGAAGTTA CTTTTTGCTA TGGCAAAACA CAAGATTCTT
    GAAATCACCC TTCTGATCGC CAGTTACATC AACAACTTCC ACCAGCAGAA GACAACGGTT
    CACCACCTCT CTGCCCCAGC GCTGCTCTCA CCCAGGACCC AGGCGCCCCA AGCCAGGCTC
    GTGGGCAACC AGCCCGCTCT GTCCAACAGC AGACCTACCA AAGGCCCTAC CTTACTCTGA

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

    RefSeq XP_021004775.1
    CDS203..3802
    Translation

    Target ORF information:

    RefSeq Version XM_021149116.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021149116.1

    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
    ATGAATCTGT TCCCGGAGGA GTTGAGAAGA ACTATGGAGG AGCCCTCTGA GCCAGAAGGA 
    CTAATAGACT GGAAAGAGCG CTGCGTAGCT CTGGAGGCTC AGCTCATGAA ATTCCGAGTT
    CAAGCAAGCA AGATCCGAGA GCTCTTAGCA GACAAAATGC AACAGTTGGA GAGACAAGTT
    ATCGATGCAG AACGGCAAGC AGAAAAGGCT TTTCAAGAGG TACAAGTGAT GGAAGAGAAA
    CTAAAAGCAG CTAATATTCA GACCAGTGAG TCAGAGACGC GGCTCTATAA GAAGTGTCAA
    GACCTGGAGT CTGCGATGCA GGAGAAGGAT GGCATCATTC AGAACTTGGC TCTGCGGCTT
    GAAGAGCAGA AACAAGTGAG GATACAAGAA GCTAAAATAA TAGAAGAAAA AGCAGCTAAG
    ATCAAAGAAT GGGTAACAGT TAAGTTAAAC GAGCTAGAAG TAGAGAATCA GAATCTTCGT
    TTCATCAACC AAACCCAGAC TGAAGAGATA AGAGCAATAC AGTCAAAGTT GCAAGAACTC
    CAAGAGAAGA AGATATCCTG TATCTCCACA CCAAAGACCT CAGAAGGGCA ACGCAATTTG
    ACATTTGGAT GTTTCTTGTC CCGAGCAAAG AGTCCTCCTT GTGTAGTAAG ATGTGAGGAA
    GTGAGCAAGA TGGCCTCAAG TGAACCTGAG ATCACGGAAG GAAGATGTGT TGAAGAGATG
    GAAATTGCGG AGAAGCCTGC TGACAACCAA GTCCAAGAGA ACAGCAGAAG CCAGAGAAAT
    TTGCACGAGA CCTCTTGCAG CTCAGAACAG AACCAGAAAA CAAGAGCAAG CTTTGCAATG
    GATGGTGATT CTGCAGACAC ACTTTCCTAC TCTGCAGCAG GCCTTTATAC GTCTCTCATA
    TACAAGAACA TGACGACCCC AGTCTATACA ACGTTGAAGG GGAAGGCGAC ACAAATAAGT
    AGCAGCCCTT TCCTGGATGA CTCCTCGGGC TCAGACGAAG AGGATGGTTC TAGGTCCAGC
    TCCCGGCTGT CGGAGTCAGA TGCGCGCAGT CGCAGTGGGC CAAGCAGTCC CAGAGCCATG
    AAGCGAGGCG TGTCTGACTC CTCCGCGGCT TCTGAAAGTG ATTATGCCAT TCCTCCGGAT
    GCCTATCCCA TAGACGCAGA GTGTTCGCAG CCTGAGCAGA AACTTCTAAA AACCTGCCTG
    GCCTCCTGTG ACAATGGGAA AAATGAACCA TTAGAAAAAT CTGGGTACCT ACTAAAAATG
    AGCGCGAGAG TCAAGACTTG GAAGCGGAGG TGGTTTGTTC TGAAAGGAGG CGAATTACTT
    TACTACAAGT CTCCAAGCGA TGTGATTCGG AAACCCCAGG GCCACATTGA ACTGAGTGCA
    TCCTGCAGTA TTTTACGGGG CGATAACAAG CAAACAGTTC AGCTGGCCAC AGAGAAGCAC
    ACGTACTATC TGACGGCAGA TTCTCCCAAT ATATTGGAAG AATGGATCAA AGTGTTACAG
    AACGTTCTTC GAGTACAAGC TGCTAACCCT CTTTGCCTGC AGCCTGAGGG CAAACCCGCA
    GTAAAGGGCT TGCTCACCAA GGTGAAGCAT GGCTACTCTA AGAGGGTCTG GTGCATGCTT
    GTTGGAAAGG TCTTGTATTA TTTCCGCAAT CAAGAAGATA AGTTCCCTCT AGGTCAGCTC
    AAACTCTGGG AGGCTAAGGT GGAAGAGGTG GACAGGTCCT GTGACTCAGA CGAGGACTAT
    GAGACCCGGG GGTGCTATCT GCTGTCTACT CACTACACCA TCATTGTCCA CCCCAAAGAC
    CAGGGCCCTA CTTACCTGCT CATCGGATCT AAGCACGAAA AGGAAGCTTG GCTGTATCAC
    CTCACTGTTG CAGCTGGAAG CAACAATATA AATGTTGGAT CCGAATTTGA ACAACTGGTT
    TGCAAGTTGC TGAATATAGA AGGGGAGCCC TCCTCCCAGA TATGGAGACA CCCCATGCTG
    TGTCACAGCA AAGAAGGAAT CCTGTCCCCT CTGACCACAC TGCCTTCGGA AGCTCTGCAG
    ACCGAGGCCA TTAAGCTATT TAAGACCTGC CAGCTCTTTA TAAACGCTGC AGTCGACTCC
    CCTGCCATCG ACTACCACAT CTCTCTAGCC CAGAGTGCGC TGCAGGTCTG CCTGACGCAT
    CCTGAGCTAC AGAATGAAAT CTGCTGCCAG CTTATTAAGC AGACAAGACG GAGACAGCTG
    CAGAACCAGC CAGGCCCACT GCAGGGTTGG CAGCTCTTGG CACTCTGCGT TGGACTCTTC
    CTTCCCCACC ACCCTTTCCT GTGGCTCCTC CAGCTCCATC TACAAAGGAA TGCAGATTCC
    AGGACAGAGT TTGGGAAATA TGCCATTTAC TGCCAGCGAT GTGTAGAAAG GACACAGCAA
    AACGGAGACC GAGAGGCCAG ACCGTCCAGG ATGGAGATTC TCTCCACTCT TCTTCGAAAC
    CCCTACCACC ATTCTAGGCC CTTCAGCATA CCCGTGCACT TCATGAATGG GCTCTACCAG
    GTAGTGGGGT TCGATGCATC CACCACAGTG GAAGAATTTT TGAACACTTT GAACCAGGAC
    ACAGGAATGA GGAAGCCAGC GCAGTCTGGA TTCGCACTCT TCACAGATGA TCCTTCTGGC
    AGAGACCTGG AGCACTGTCT TCAGGGAAAT ATCAAGATCT GTGACATTAT TTCTAAATGG
    GAGCAGGCGT CCAAAGAACA GCAGCCTGGC AAGTGTGAGG GCAGCCGGAC TGTCCGTCTG
    ACTTACAAAA ACAGACTATA TTTCTCAATG CAAGCTCGTG GAGAAACCGA CAGAGAGAAG
    CTGCTGCTGC TGTACCAGAC AAATGACCAA ATCATCAATG GCCTTTTCCC TCTGAATAAG
    GATCTGGCGT TAGAAATGGC AGCGCTTTTA GCTCAGGTGG ATATTGGAGA TTTTGAAAGA
    CCTTTCTCAA CTCCAGCGGG GCCTGTGACT AACCAGTGCA AGGCAAATCA AACCCTCAAA
    CAAGTCATAG AGAGATTTTA CCCGAAAAGG TACCGAGAAG GGTGCTCTGA GGAGCAGCTA
    AGGCAGCTCT ACCAGCGACT CTCAACCAAA TGGATGGCCC TCCGGGGACA CAGTGCGGCT
    GACTGCATTC GCATTTACTT GACAGTAGCC AGGAAGTGGC CATTCTTTGG CGCCAAGTTG
    TTCTTTGCAA AACCAATAGC ACCATCATCA CTTGGCGATA ATTCCGTGTG GCTGGCTGTC
    CATGAAAATG GGTTGAGCAT CCTAGAATAC ACCTCCATGA AATTAGTGGT CAGCTATATG
    TACAAGGGTC TGATGACCTT TGGGGGCTAT CAAGAGGATT TCATGGTAGT CGTTAGTACA
    CAGTCAAAAG ACCGGCCAAC AGAGAAGTTA CTTTTTGCTA TGGCAAAACA CAAGATTCTT
    GAAATCACCC TTCTGATCGC CAGTTACATC AACAACTTCC ACCAGCAGAA GACAACGGTT
    CACCACCTCT CTGCCCCAGC GCTGCTCTCA CCCAGGACCC AGGCGCCCCA AGCCAGGCTC
    GTGGGCAACC AGCCCGCTCT GTCCAACAGC AGACCTACCA AAGGCCCTAC CTTACTCTGA

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

    CloneID OMv34630
    Clone ID Related Accession (Same CDS sequence) XM_021149116.1 , XM_021149116.2
    Accession Version XM_021149116.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3600bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jun 10, 2019 this sequence version replaced XM_021149116.1. ##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
    ATGAATCTGT TCCCGGAGGA GTTGAGAAGA ACTATGGAGG AGCCCTCTGA GCCAGAAGGA 
    CTAATAGACT GGAAAGAGCG CTGCGTAGCT CTGGAGGCTC AGCTCATGAA ATTCCGAGTT
    CAAGCAAGCA AGATCCGAGA GCTCTTAGCA GACAAAATGC AACAGTTGGA GAGACAAGTT
    ATCGATGCAG AACGGCAAGC AGAAAAGGCT TTTCAAGAGG TACAAGTGAT GGAAGAGAAA
    CTAAAAGCAG CTAATATTCA GACCAGTGAG TCAGAGACGC GGCTCTATAA GAAGTGTCAA
    GACCTGGAGT CTGCGATGCA GGAGAAGGAT GGCATCATTC AGAACTTGGC TCTGCGGCTT
    GAAGAGCAGA AACAAGTGAG GATACAAGAA GCTAAAATAA TAGAAGAAAA AGCAGCTAAG
    ATCAAAGAAT GGGTAACAGT TAAGTTAAAC GAGCTAGAAG TAGAGAATCA GAATCTTCGT
    TTCATCAACC AAACCCAGAC TGAAGAGATA AGAGCAATAC AGTCAAAGTT GCAAGAACTC
    CAAGAGAAGA AGATATCCTG TATCTCCACA CCAAAGACCT CAGAAGGGCA ACGCAATTTG
    ACATTTGGAT GTTTCTTGTC CCGAGCAAAG AGTCCTCCTT GTGTAGTAAG ATGTGAGGAA
    GTGAGCAAGA TGGCCTCAAG TGAACCTGAG ATCACGGAAG GAAGATGTGT TGAAGAGATG
    GAAATTGCGG AGAAGCCTGC TGACAACCAA GTCCAAGAGA ACAGCAGAAG CCAGAGAAAT
    TTGCACGAGA CCTCTTGCAG CTCAGAACAG AACCAGAAAA CAAGAGCAAG CTTTGCAATG
    GATGGTGATT CTGCAGACAC ACTTTCCTAC TCTGCAGCAG GCCTTTATAC GTCTCTCATA
    TACAAGAACA TGACGACCCC AGTCTATACA ACGTTGAAGG GGAAGGCGAC ACAAATAAGT
    AGCAGCCCTT TCCTGGATGA CTCCTCGGGC TCAGACGAAG AGGATGGTTC TAGGTCCAGC
    TCCCGGCTGT CGGAGTCAGA TGCGCGCAGT CGCAGTGGGC CAAGCAGTCC CAGAGCCATG
    AAGCGAGGCG TGTCTGACTC CTCCGCGGCT TCTGAAAGTG ATTATGCCAT TCCTCCGGAT
    GCCTATCCCA TAGACGCAGA GTGTTCGCAG CCTGAGCAGA AACTTCTAAA AACCTGCCTG
    GCCTCCTGTG ACAATGGGAA AAATGAACCA TTAGAAAAAT CTGGGTACCT ACTAAAAATG
    AGCGCGAGAG TCAAGACTTG GAAGCGGAGG TGGTTTGTTC TGAAAGGAGG CGAATTACTT
    TACTACAAGT CTCCAAGCGA TGTGATTCGG AAACCCCAGG GCCACATTGA ACTGAGTGCA
    TCCTGCAGTA TTTTACGGGG CGATAACAAG CAAACAGTTC AGCTGGCCAC AGAGAAGCAC
    ACGTACTATC TGACGGCAGA TTCTCCCAAT ATATTGGAAG AATGGATCAA AGTGTTACAG
    AACGTTCTTC GAGTACAAGC TGCTAACCCT CTTTGCCTGC AGCCTGAGGG CAAACCCGCA
    GTAAAGGGCT TGCTCACCAA GGTGAAGCAT GGCTACTCTA AGAGGGTCTG GTGCATGCTT
    GTTGGAAAGG TCTTGTATTA TTTCCGCAAT CAAGAAGATA AGTTCCCTCT AGGTCAGCTC
    AAACTCTGGG AGGCTAAGGT GGAAGAGGTG GACAGGTCCT GTGACTCAGA CGAGGACTAT
    GAGACCCGGG GGTGCTATCT GCTGTCTACT CACTACACCA TCATTGTCCA CCCCAAAGAC
    CAGGGCCCTA CTTACCTGCT CATCGGATCT AAGCACGAAA AGGAAGCTTG GCTGTATCAC
    CTCACTGTTG CAGCTGGAAG CAACAATATA AATGTTGGAT CCGAATTTGA ACAACTGGTT
    TGCAAGTTGC TGAATATAGA AGGGGAGCCC TCCTCCCAGA TATGGAGACA CCCCATGCTG
    TGTCACAGCA AAGAAGGAAT CCTGTCCCCT CTGACCACAC TGCCTTCGGA AGCTCTGCAG
    ACCGAGGCCA TTAAGCTATT TAAGACCTGC CAGCTCTTTA TAAACGCTGC AGTCGACTCC
    CCTGCCATCG ACTACCACAT CTCTCTAGCC CAGAGTGCGC TGCAGGTCTG CCTGACGCAT
    CCTGAGCTAC AGAATGAAAT CTGCTGCCAG CTTATTAAGC AGACAAGACG GAGACAGCTG
    CAGAACCAGC CAGGCCCACT GCAGGGTTGG CAGCTCTTGG CACTCTGCGT TGGACTCTTC
    CTTCCCCACC ACCCTTTCCT GTGGCTCCTC CAGCTCCATC TACAAAGGAA TGCAGATTCC
    AGGACAGAGT TTGGGAAATA TGCCATTTAC TGCCAGCGAT GTGTAGAAAG GACACAGCAA
    AACGGAGACC GAGAGGCCAG ACCGTCCAGG ATGGAGATTC TCTCCACTCT TCTTCGAAAC
    CCCTACCACC ATTCTAGGCC CTTCAGCATA CCCGTGCACT TCATGAATGG GCTCTACCAG
    GTAGTGGGGT TCGATGCATC CACCACAGTG GAAGAATTTT TGAACACTTT GAACCAGGAC
    ACAGGAATGA GGAAGCCAGC GCAGTCTGGA TTCGCACTCT TCACAGATGA TCCTTCTGGC
    AGAGACCTGG AGCACTGTCT TCAGGGAAAT ATCAAGATCT GTGACATTAT TTCTAAATGG
    GAGCAGGCGT CCAAAGAACA GCAGCCTGGC AAGTGTGAGG GCAGCCGGAC TGTCCGTCTG
    ACTTACAAAA ACAGACTATA TTTCTCAATG CAAGCTCGTG GAGAAACCGA CAGAGAGAAG
    CTGCTGCTGC TGTACCAGAC AAATGACCAA ATCATCAATG GCCTTTTCCC TCTGAATAAG
    GATCTGGCGT TAGAAATGGC AGCGCTTTTA GCTCAGGTGG ATATTGGAGA TTTTGAAAGA
    CCTTTCTCAA CTCCAGCGGG GCCTGTGACT AACCAGTGCA AGGCAAATCA AACCCTCAAA
    CAAGTCATAG AGAGATTTTA CCCGAAAAGG TACCGAGAAG GGTGCTCTGA GGAGCAGCTA
    AGGCAGCTCT ACCAGCGACT CTCAACCAAA TGGATGGCCC TCCGGGGACA CAGTGCGGCT
    GACTGCATTC GCATTTACTT GACAGTAGCC AGGAAGTGGC CATTCTTTGG CGCCAAGTTG
    TTCTTTGCAA AACCAATAGC ACCATCATCA CTTGGCGATA ATTCCGTGTG GCTGGCTGTC
    CATGAAAATG GGTTGAGCAT CCTAGAATAC ACCTCCATGA AATTAGTGGT CAGCTATATG
    TACAAGGGTC TGATGACCTT TGGGGGCTAT CAAGAGGATT TCATGGTAGT CGTTAGTACA
    CAGTCAAAAG ACCGGCCAAC AGAGAAGTTA CTTTTTGCTA TGGCAAAACA CAAGATTCTT
    GAAATCACCC TTCTGATCGC CAGTTACATC AACAACTTCC ACCAGCAGAA GACAACGGTT
    CACCACCTCT CTGCCCCAGC GCTGCTCTCA CCCAGGACCC AGGCGCCCCA AGCCAGGCTC
    GTGGGCAACC AGCCCGCTCT GTCCAACAGC AGACCTACCA AAGGCCCTAC CTTACTCTGA

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

    RefSeq XP_021004775.1
    CDS203..3802
    Translation

    Target ORF information:

    RefSeq Version XM_021149116.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021149116.2

    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
    ATGAATCTGT TCCCGGAGGA GTTGAGAAGA ACTATGGAGG AGCCCTCTGA GCCAGAAGGA 
    CTAATAGACT GGAAAGAGCG CTGCGTAGCT CTGGAGGCTC AGCTCATGAA ATTCCGAGTT
    CAAGCAAGCA AGATCCGAGA GCTCTTAGCA GACAAAATGC AACAGTTGGA GAGACAAGTT
    ATCGATGCAG AACGGCAAGC AGAAAAGGCT TTTCAAGAGG TACAAGTGAT GGAAGAGAAA
    CTAAAAGCAG CTAATATTCA GACCAGTGAG TCAGAGACGC GGCTCTATAA GAAGTGTCAA
    GACCTGGAGT CTGCGATGCA GGAGAAGGAT GGCATCATTC AGAACTTGGC TCTGCGGCTT
    GAAGAGCAGA AACAAGTGAG GATACAAGAA GCTAAAATAA TAGAAGAAAA AGCAGCTAAG
    ATCAAAGAAT GGGTAACAGT TAAGTTAAAC GAGCTAGAAG TAGAGAATCA GAATCTTCGT
    TTCATCAACC AAACCCAGAC TGAAGAGATA AGAGCAATAC AGTCAAAGTT GCAAGAACTC
    CAAGAGAAGA AGATATCCTG TATCTCCACA CCAAAGACCT CAGAAGGGCA ACGCAATTTG
    ACATTTGGAT GTTTCTTGTC CCGAGCAAAG AGTCCTCCTT GTGTAGTAAG ATGTGAGGAA
    GTGAGCAAGA TGGCCTCAAG TGAACCTGAG ATCACGGAAG GAAGATGTGT TGAAGAGATG
    GAAATTGCGG AGAAGCCTGC TGACAACCAA GTCCAAGAGA ACAGCAGAAG CCAGAGAAAT
    TTGCACGAGA CCTCTTGCAG CTCAGAACAG AACCAGAAAA CAAGAGCAAG CTTTGCAATG
    GATGGTGATT CTGCAGACAC ACTTTCCTAC TCTGCAGCAG GCCTTTATAC GTCTCTCATA
    TACAAGAACA TGACGACCCC AGTCTATACA ACGTTGAAGG GGAAGGCGAC ACAAATAAGT
    AGCAGCCCTT TCCTGGATGA CTCCTCGGGC TCAGACGAAG AGGATGGTTC TAGGTCCAGC
    TCCCGGCTGT CGGAGTCAGA TGCGCGCAGT CGCAGTGGGC CAAGCAGTCC CAGAGCCATG
    AAGCGAGGCG TGTCTGACTC CTCCGCGGCT TCTGAAAGTG ATTATGCCAT TCCTCCGGAT
    GCCTATCCCA TAGACGCAGA GTGTTCGCAG CCTGAGCAGA AACTTCTAAA AACCTGCCTG
    GCCTCCTGTG ACAATGGGAA AAATGAACCA TTAGAAAAAT CTGGGTACCT ACTAAAAATG
    AGCGCGAGAG TCAAGACTTG GAAGCGGAGG TGGTTTGTTC TGAAAGGAGG CGAATTACTT
    TACTACAAGT CTCCAAGCGA TGTGATTCGG AAACCCCAGG GCCACATTGA ACTGAGTGCA
    TCCTGCAGTA TTTTACGGGG CGATAACAAG CAAACAGTTC AGCTGGCCAC AGAGAAGCAC
    ACGTACTATC TGACGGCAGA TTCTCCCAAT ATATTGGAAG AATGGATCAA AGTGTTACAG
    AACGTTCTTC GAGTACAAGC TGCTAACCCT CTTTGCCTGC AGCCTGAGGG CAAACCCGCA
    GTAAAGGGCT TGCTCACCAA GGTGAAGCAT GGCTACTCTA AGAGGGTCTG GTGCATGCTT
    GTTGGAAAGG TCTTGTATTA TTTCCGCAAT CAAGAAGATA AGTTCCCTCT AGGTCAGCTC
    AAACTCTGGG AGGCTAAGGT GGAAGAGGTG GACAGGTCCT GTGACTCAGA CGAGGACTAT
    GAGACCCGGG GGTGCTATCT GCTGTCTACT CACTACACCA TCATTGTCCA CCCCAAAGAC
    CAGGGCCCTA CTTACCTGCT CATCGGATCT AAGCACGAAA AGGAAGCTTG GCTGTATCAC
    CTCACTGTTG CAGCTGGAAG CAACAATATA AATGTTGGAT CCGAATTTGA ACAACTGGTT
    TGCAAGTTGC TGAATATAGA AGGGGAGCCC TCCTCCCAGA TATGGAGACA CCCCATGCTG
    TGTCACAGCA AAGAAGGAAT CCTGTCCCCT CTGACCACAC TGCCTTCGGA AGCTCTGCAG
    ACCGAGGCCA TTAAGCTATT TAAGACCTGC CAGCTCTTTA TAAACGCTGC AGTCGACTCC
    CCTGCCATCG ACTACCACAT CTCTCTAGCC CAGAGTGCGC TGCAGGTCTG CCTGACGCAT
    CCTGAGCTAC AGAATGAAAT CTGCTGCCAG CTTATTAAGC AGACAAGACG GAGACAGCTG
    CAGAACCAGC CAGGCCCACT GCAGGGTTGG CAGCTCTTGG CACTCTGCGT TGGACTCTTC
    CTTCCCCACC ACCCTTTCCT GTGGCTCCTC CAGCTCCATC TACAAAGGAA TGCAGATTCC
    AGGACAGAGT TTGGGAAATA TGCCATTTAC TGCCAGCGAT GTGTAGAAAG GACACAGCAA
    AACGGAGACC GAGAGGCCAG ACCGTCCAGG ATGGAGATTC TCTCCACTCT TCTTCGAAAC
    CCCTACCACC ATTCTAGGCC CTTCAGCATA CCCGTGCACT TCATGAATGG GCTCTACCAG
    GTAGTGGGGT TCGATGCATC CACCACAGTG GAAGAATTTT TGAACACTTT GAACCAGGAC
    ACAGGAATGA GGAAGCCAGC GCAGTCTGGA TTCGCACTCT TCACAGATGA TCCTTCTGGC
    AGAGACCTGG AGCACTGTCT TCAGGGAAAT ATCAAGATCT GTGACATTAT TTCTAAATGG
    GAGCAGGCGT CCAAAGAACA GCAGCCTGGC AAGTGTGAGG GCAGCCGGAC TGTCCGTCTG
    ACTTACAAAA ACAGACTATA TTTCTCAATG CAAGCTCGTG GAGAAACCGA CAGAGAGAAG
    CTGCTGCTGC TGTACCAGAC AAATGACCAA ATCATCAATG GCCTTTTCCC TCTGAATAAG
    GATCTGGCGT TAGAAATGGC AGCGCTTTTA GCTCAGGTGG ATATTGGAGA TTTTGAAAGA
    CCTTTCTCAA CTCCAGCGGG GCCTGTGACT AACCAGTGCA AGGCAAATCA AACCCTCAAA
    CAAGTCATAG AGAGATTTTA CCCGAAAAGG TACCGAGAAG GGTGCTCTGA GGAGCAGCTA
    AGGCAGCTCT ACCAGCGACT CTCAACCAAA TGGATGGCCC TCCGGGGACA CAGTGCGGCT
    GACTGCATTC GCATTTACTT GACAGTAGCC AGGAAGTGGC CATTCTTTGG CGCCAAGTTG
    TTCTTTGCAA AACCAATAGC ACCATCATCA CTTGGCGATA ATTCCGTGTG GCTGGCTGTC
    CATGAAAATG GGTTGAGCAT CCTAGAATAC ACCTCCATGA AATTAGTGGT CAGCTATATG
    TACAAGGGTC TGATGACCTT TGGGGGCTAT CAAGAGGATT TCATGGTAGT CGTTAGTACA
    CAGTCAAAAG ACCGGCCAAC AGAGAAGTTA CTTTTTGCTA TGGCAAAACA CAAGATTCTT
    GAAATCACCC TTCTGATCGC CAGTTACATC AACAACTTCC ACCAGCAGAA GACAACGGTT
    CACCACCTCT CTGCCCCAGC GCTGCTCTCA CCCAGGACCC AGGCGCCCCA AGCCAGGCTC
    GTGGGCAACC AGCCCGCTCT GTCCAACAGC AGACCTACCA AAGGCCCTAC CTTACTCTGA

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

    CloneID OMv34631
    Clone ID Related Accession (Same CDS sequence) XM_021149117.1
    Accession Version XM_021149117.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3597bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation 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
    ATGAATCTGT TCCCGGAGGA GTTGAGAACT ATGGAGGAGC CCTCTGAGCC AGAAGGACTA 
    ATAGACTGGA AAGAGCGCTG CGTAGCTCTG GAGGCTCAGC TCATGAAATT CCGAGTTCAA
    GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC AAAATGCAAC AGTTGGAGAG ACAAGTTATC
    GATGCAGAAC GGCAAGCAGA AAAGGCTTTT CAAGAGGTAC AAGTGATGGA AGAGAAACTA
    AAAGCAGCTA ATATTCAGAC CAGTGAGTCA GAGACGCGGC TCTATAAGAA GTGTCAAGAC
    CTGGAGTCTG CGATGCAGGA GAAGGATGGC ATCATTCAGA ACTTGGCTCT GCGGCTTGAA
    GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT AAAATAATAG AAGAAAAAGC AGCTAAGATC
    AAAGAATGGG TAACAGTTAA GTTAAACGAG CTAGAAGTAG AGAATCAGAA TCTTCGTTTC
    ATCAACCAAA CCCAGACTGA AGAGATAAGA GCAATACAGT CAAAGTTGCA AGAACTCCAA
    GAGAAGAAGA TATCCTGTAT CTCCACACCA AAGACCTCAG AAGGGCAACG CAATTTGACA
    TTTGGATGTT TCTTGTCCCG AGCAAAGAGT CCTCCTTGTG TAGTAAGATG TGAGGAAGTG
    AGCAAGATGG CCTCAAGTGA ACCTGAGATC ACGGAAGGAA GATGTGTTGA AGAGATGGAA
    ATTGCGGAGA AGCCTGCTGA CAACCAAGTC CAAGAGAACA GCAGAAGCCA GAGAAATTTG
    CACGAGACCT CTTGCAGCTC AGAACAGAAC CAGAAAACAA GAGCAAGCTT TGCAATGGAT
    GGTGATTCTG CAGACACACT TTCCTACTCT GCAGCAGGCC TTTATACGTC TCTCATATAC
    AAGAACATGA CGACCCCAGT CTATACAACG TTGAAGGGGA AGGCGACACA AATAAGTAGC
    AGCCCTTTCC TGGATGACTC CTCGGGCTCA GACGAAGAGG ATGGTTCTAG GTCCAGCTCC
    CGGCTGTCGG AGTCAGATGC GCGCAGTCGC AGTGGGCCAA GCAGTCCCAG AGCCATGAAG
    CGAGGCGTGT CTGACTCCTC CGCGGCTTCT GAAAGTGATT ATGCCATTCC TCCGGATGCC
    TATCCCATAG ACGCAGAGTG TTCGCAGCCT GAGCAGAAAC TTCTAAAAAC CTGCCTGGCC
    TCCTGTGACA ATGGGAAAAA TGAACCATTA GAAAAATCTG GGTACCTACT AAAAATGAGC
    GCGAGAGTCA AGACTTGGAA GCGGAGGTGG TTTGTTCTGA AAGGAGGCGA ATTACTTTAC
    TACAAGTCTC CAAGCGATGT GATTCGGAAA CCCCAGGGCC ACATTGAACT GAGTGCATCC
    TGCAGTATTT TACGGGGCGA TAACAAGCAA ACAGTTCAGC TGGCCACAGA GAAGCACACG
    TACTATCTGA CGGCAGATTC TCCCAATATA TTGGAAGAAT GGATCAAAGT GTTACAGAAC
    GTTCTTCGAG TACAAGCTGC TAACCCTCTT TGCCTGCAGC CTGAGGGCAA ACCCGCAGTA
    AAGGGCTTGC TCACCAAGGT GAAGCATGGC TACTCTAAGA GGGTCTGGTG CATGCTTGTT
    GGAAAGGTCT TGTATTATTT CCGCAATCAA GAAGATAAGT TCCCTCTAGG TCAGCTCAAA
    CTCTGGGAGG CTAAGGTGGA AGAGGTGGAC AGGTCCTGTG ACTCAGACGA GGACTATGAG
    ACCCGGGGGT GCTATCTGCT GTCTACTCAC TACACCATCA TTGTCCACCC CAAAGACCAG
    GGCCCTACTT ACCTGCTCAT CGGATCTAAG CACGAAAAGG AAGCTTGGCT GTATCACCTC
    ACTGTTGCAG CTGGAAGCAA CAATATAAAT GTTGGATCCG AATTTGAACA ACTGGTTTGC
    AAGTTGCTGA ATATAGAAGG GGAGCCCTCC TCCCAGATAT GGAGACACCC CATGCTGTGT
    CACAGCAAAG AAGGAATCCT GTCCCCTCTG ACCACACTGC CTTCGGAAGC TCTGCAGACC
    GAGGCCATTA AGCTATTTAA GACCTGCCAG CTCTTTATAA ACGCTGCAGT CGACTCCCCT
    GCCATCGACT ACCACATCTC TCTAGCCCAG AGTGCGCTGC AGGTCTGCCT GACGCATCCT
    GAGCTACAGA ATGAAATCTG CTGCCAGCTT ATTAAGCAGA CAAGACGGAG ACAGCTGCAG
    AACCAGCCAG GCCCACTGCA GGGTTGGCAG CTCTTGGCAC TCTGCGTTGG ACTCTTCCTT
    CCCCACCACC CTTTCCTGTG GCTCCTCCAG CTCCATCTAC AAAGGAATGC AGATTCCAGG
    ACAGAGTTTG GGAAATATGC CATTTACTGC CAGCGATGTG TAGAAAGGAC ACAGCAAAAC
    GGAGACCGAG AGGCCAGACC GTCCAGGATG GAGATTCTCT CCACTCTTCT TCGAAACCCC
    TACCACCATT CTAGGCCCTT CAGCATACCC GTGCACTTCA TGAATGGGCT CTACCAGGTA
    GTGGGGTTCG ATGCATCCAC CACAGTGGAA GAATTTTTGA ACACTTTGAA CCAGGACACA
    GGAATGAGGA AGCCAGCGCA GTCTGGATTC GCACTCTTCA CAGATGATCC TTCTGGCAGA
    GACCTGGAGC ACTGTCTTCA GGGAAATATC AAGATCTGTG ACATTATTTC TAAATGGGAG
    CAGGCGTCCA AAGAACAGCA GCCTGGCAAG TGTGAGGGCA GCCGGACTGT CCGTCTGACT
    TACAAAAACA GACTATATTT CTCAATGCAA GCTCGTGGAG AAACCGACAG AGAGAAGCTG
    CTGCTGCTGT ACCAGACAAA TGACCAAATC ATCAATGGCC TTTTCCCTCT GAATAAGGAT
    CTGGCGTTAG AAATGGCAGC GCTTTTAGCT CAGGTGGATA TTGGAGATTT TGAAAGACCT
    TTCTCAACTC CAGCGGGGCC TGTGACTAAC CAGTGCAAGG CAAATCAAAC CCTCAAACAA
    GTCATAGAGA GATTTTACCC GAAAAGGTAC CGAGAAGGGT GCTCTGAGGA GCAGCTAAGG
    CAGCTCTACC AGCGACTCTC AACCAAATGG ATGGCCCTCC GGGGACACAG TGCGGCTGAC
    TGCATTCGCA TTTACTTGAC AGTAGCCAGG AAGTGGCCAT TCTTTGGCGC CAAGTTGTTC
    TTTGCAAAAC CAATAGCACC ATCATCACTT GGCGATAATT CCGTGTGGCT GGCTGTCCAT
    GAAAATGGGT TGAGCATCCT AGAATACACC TCCATGAAAT TAGTGGTCAG CTATATGTAC
    AAGGGTCTGA TGACCTTTGG GGGCTATCAA GAGGATTTCA TGGTAGTCGT TAGTACACAG
    TCAAAAGACC GGCCAACAGA GAAGTTACTT TTTGCTATGG CAAAACACAA GATTCTTGAA
    ATCACCCTTC TGATCGCCAG TTACATCAAC AACTTCCACC AGCAGAAGAC AACGGTTCAC
    CACCTCTCTG CCCCAGCGCT GCTCTCACCC AGGACCCAGG CGCCCCAAGC CAGGCTCGTG
    GGCAACCAGC CCGCTCTGTC CAACAGCAGA CCTACCAAAG GCCCTACCTT ACTCTGA

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

    RefSeq XP_021004776.1
    CDS203..3799
    Translation

    Target ORF information:

    RefSeq Version XM_021149117.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021149117.1

    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
    ATGAATCTGT TCCCGGAGGA GTTGAGAACT ATGGAGGAGC CCTCTGAGCC AGAAGGACTA 
    ATAGACTGGA AAGAGCGCTG CGTAGCTCTG GAGGCTCAGC TCATGAAATT CCGAGTTCAA
    GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC AAAATGCAAC AGTTGGAGAG ACAAGTTATC
    GATGCAGAAC GGCAAGCAGA AAAGGCTTTT CAAGAGGTAC AAGTGATGGA AGAGAAACTA
    AAAGCAGCTA ATATTCAGAC CAGTGAGTCA GAGACGCGGC TCTATAAGAA GTGTCAAGAC
    CTGGAGTCTG CGATGCAGGA GAAGGATGGC ATCATTCAGA ACTTGGCTCT GCGGCTTGAA
    GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT AAAATAATAG AAGAAAAAGC AGCTAAGATC
    AAAGAATGGG TAACAGTTAA GTTAAACGAG CTAGAAGTAG AGAATCAGAA TCTTCGTTTC
    ATCAACCAAA CCCAGACTGA AGAGATAAGA GCAATACAGT CAAAGTTGCA AGAACTCCAA
    GAGAAGAAGA TATCCTGTAT CTCCACACCA AAGACCTCAG AAGGGCAACG CAATTTGACA
    TTTGGATGTT TCTTGTCCCG AGCAAAGAGT CCTCCTTGTG TAGTAAGATG TGAGGAAGTG
    AGCAAGATGG CCTCAAGTGA ACCTGAGATC ACGGAAGGAA GATGTGTTGA AGAGATGGAA
    ATTGCGGAGA AGCCTGCTGA CAACCAAGTC CAAGAGAACA GCAGAAGCCA GAGAAATTTG
    CACGAGACCT CTTGCAGCTC AGAACAGAAC CAGAAAACAA GAGCAAGCTT TGCAATGGAT
    GGTGATTCTG CAGACACACT TTCCTACTCT GCAGCAGGCC TTTATACGTC TCTCATATAC
    AAGAACATGA CGACCCCAGT CTATACAACG TTGAAGGGGA AGGCGACACA AATAAGTAGC
    AGCCCTTTCC TGGATGACTC CTCGGGCTCA GACGAAGAGG ATGGTTCTAG GTCCAGCTCC
    CGGCTGTCGG AGTCAGATGC GCGCAGTCGC AGTGGGCCAA GCAGTCCCAG AGCCATGAAG
    CGAGGCGTGT CTGACTCCTC CGCGGCTTCT GAAAGTGATT ATGCCATTCC TCCGGATGCC
    TATCCCATAG ACGCAGAGTG TTCGCAGCCT GAGCAGAAAC TTCTAAAAAC CTGCCTGGCC
    TCCTGTGACA ATGGGAAAAA TGAACCATTA GAAAAATCTG GGTACCTACT AAAAATGAGC
    GCGAGAGTCA AGACTTGGAA GCGGAGGTGG TTTGTTCTGA AAGGAGGCGA ATTACTTTAC
    TACAAGTCTC CAAGCGATGT GATTCGGAAA CCCCAGGGCC ACATTGAACT GAGTGCATCC
    TGCAGTATTT TACGGGGCGA TAACAAGCAA ACAGTTCAGC TGGCCACAGA GAAGCACACG
    TACTATCTGA CGGCAGATTC TCCCAATATA TTGGAAGAAT GGATCAAAGT GTTACAGAAC
    GTTCTTCGAG TACAAGCTGC TAACCCTCTT TGCCTGCAGC CTGAGGGCAA ACCCGCAGTA
    AAGGGCTTGC TCACCAAGGT GAAGCATGGC TACTCTAAGA GGGTCTGGTG CATGCTTGTT
    GGAAAGGTCT TGTATTATTT CCGCAATCAA GAAGATAAGT TCCCTCTAGG TCAGCTCAAA
    CTCTGGGAGG CTAAGGTGGA AGAGGTGGAC AGGTCCTGTG ACTCAGACGA GGACTATGAG
    ACCCGGGGGT GCTATCTGCT GTCTACTCAC TACACCATCA TTGTCCACCC CAAAGACCAG
    GGCCCTACTT ACCTGCTCAT CGGATCTAAG CACGAAAAGG AAGCTTGGCT GTATCACCTC
    ACTGTTGCAG CTGGAAGCAA CAATATAAAT GTTGGATCCG AATTTGAACA ACTGGTTTGC
    AAGTTGCTGA ATATAGAAGG GGAGCCCTCC TCCCAGATAT GGAGACACCC CATGCTGTGT
    CACAGCAAAG AAGGAATCCT GTCCCCTCTG ACCACACTGC CTTCGGAAGC TCTGCAGACC
    GAGGCCATTA AGCTATTTAA GACCTGCCAG CTCTTTATAA ACGCTGCAGT CGACTCCCCT
    GCCATCGACT ACCACATCTC TCTAGCCCAG AGTGCGCTGC AGGTCTGCCT GACGCATCCT
    GAGCTACAGA ATGAAATCTG CTGCCAGCTT ATTAAGCAGA CAAGACGGAG ACAGCTGCAG
    AACCAGCCAG GCCCACTGCA GGGTTGGCAG CTCTTGGCAC TCTGCGTTGG ACTCTTCCTT
    CCCCACCACC CTTTCCTGTG GCTCCTCCAG CTCCATCTAC AAAGGAATGC AGATTCCAGG
    ACAGAGTTTG GGAAATATGC CATTTACTGC CAGCGATGTG TAGAAAGGAC ACAGCAAAAC
    GGAGACCGAG AGGCCAGACC GTCCAGGATG GAGATTCTCT CCACTCTTCT TCGAAACCCC
    TACCACCATT CTAGGCCCTT CAGCATACCC GTGCACTTCA TGAATGGGCT CTACCAGGTA
    GTGGGGTTCG ATGCATCCAC CACAGTGGAA GAATTTTTGA ACACTTTGAA CCAGGACACA
    GGAATGAGGA AGCCAGCGCA GTCTGGATTC GCACTCTTCA CAGATGATCC TTCTGGCAGA
    GACCTGGAGC ACTGTCTTCA GGGAAATATC AAGATCTGTG ACATTATTTC TAAATGGGAG
    CAGGCGTCCA AAGAACAGCA GCCTGGCAAG TGTGAGGGCA GCCGGACTGT CCGTCTGACT
    TACAAAAACA GACTATATTT CTCAATGCAA GCTCGTGGAG AAACCGACAG AGAGAAGCTG
    CTGCTGCTGT ACCAGACAAA TGACCAAATC ATCAATGGCC TTTTCCCTCT GAATAAGGAT
    CTGGCGTTAG AAATGGCAGC GCTTTTAGCT CAGGTGGATA TTGGAGATTT TGAAAGACCT
    TTCTCAACTC CAGCGGGGCC TGTGACTAAC CAGTGCAAGG CAAATCAAAC CCTCAAACAA
    GTCATAGAGA GATTTTACCC GAAAAGGTAC CGAGAAGGGT GCTCTGAGGA GCAGCTAAGG
    CAGCTCTACC AGCGACTCTC AACCAAATGG ATGGCCCTCC GGGGACACAG TGCGGCTGAC
    TGCATTCGCA TTTACTTGAC AGTAGCCAGG AAGTGGCCAT TCTTTGGCGC CAAGTTGTTC
    TTTGCAAAAC CAATAGCACC ATCATCACTT GGCGATAATT CCGTGTGGCT GGCTGTCCAT
    GAAAATGGGT TGAGCATCCT AGAATACACC TCCATGAAAT TAGTGGTCAG CTATATGTAC
    AAGGGTCTGA TGACCTTTGG GGGCTATCAA GAGGATTTCA TGGTAGTCGT TAGTACACAG
    TCAAAAGACC GGCCAACAGA GAAGTTACTT TTTGCTATGG CAAAACACAA GATTCTTGAA
    ATCACCCTTC TGATCGCCAG TTACATCAAC AACTTCCACC AGCAGAAGAC AACGGTTCAC
    CACCTCTCTG CCCCAGCGCT GCTCTCACCC AGGACCCAGG CGCCCCAAGC CAGGCTCGTG
    GGCAACCAGC CCGCTCTGTC CAACAGCAGA CCTACCAAAG GCCCTACCTT ACTCTGA

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

    CloneID OMv34632
    Clone ID Related Accession (Same CDS sequence) XM_021149119.1 , XM_021149118.1
    Accession Version XM_021149119.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3567bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation 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
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGATTCTG CAGACACACT TTCCTACTCT
    GCAGCAGGCC TTTATACGTC TCTCATATAC AAGAACATGA CGACCCCAGT CTATACAACG
    TTGAAGGGGA AGGCGACACA AATAAGTAGC AGCCCTTTCC TGGATGACTC CTCGGGCTCA
    GACGAAGAGG ATGGTTCTAG GTCCAGCTCC CGGCTGTCGG AGTCAGATGC GCGCAGTCGC
    AGTGGGCCAA GCAGTCCCAG AGCCATGAAG CGAGGCGTGT CTGACTCCTC CGCGGCTTCT
    GAAAGTGATT ATGCCATTCC TCCGGATGCC TATCCCATAG ACGCAGAGTG TTCGCAGCCT
    GAGCAGAAAC TTCTAAAAAC CTGCCTGGCC TCCTGTGACA ATGGGAAAAA TGAACCATTA
    GAAAAATCTG GGTACCTACT AAAAATGAGC GCGAGAGTCA AGACTTGGAA GCGGAGGTGG
    TTTGTTCTGA AAGGAGGCGA ATTACTTTAC TACAAGTCTC CAAGCGATGT GATTCGGAAA
    CCCCAGGGCC ACATTGAACT GAGTGCATCC TGCAGTATTT TACGGGGCGA TAACAAGCAA
    ACAGTTCAGC TGGCCACAGA GAAGCACACG TACTATCTGA CGGCAGATTC TCCCAATATA
    TTGGAAGAAT GGATCAAAGT GTTACAGAAC GTTCTTCGAG TACAAGCTGC TAACCCTCTT
    TGCCTGCAGC CTGAGGGCAA ACCCGCAGTA AAGGGCTTGC TCACCAAGGT GAAGCATGGC
    TACTCTAAGA GGGTCTGGTG CATGCTTGTT GGAAAGGTCT TGTATTATTT CCGCAATCAA
    GAAGATAAGT TCCCTCTAGG TCAGCTCAAA CTCTGGGAGG CTAAGGTGGA AGAGGTGGAC
    AGGTCCTGTG ACTCAGACGA GGACTATGAG ACCCGGGGGT GCTATCTGCT GTCTACTCAC
    TACACCATCA TTGTCCACCC CAAAGACCAG GGCCCTACTT ACCTGCTCAT CGGATCTAAG
    CACGAAAAGG AAGCTTGGCT GTATCACCTC ACTGTTGCAG CTGGAAGCAA CAATATAAAT
    GTTGGATCCG AATTTGAACA ACTGGTTTGC AAGTTGCTGA ATATAGAAGG GGAGCCCTCC
    TCCCAGATAT GGAGACACCC CATGCTGTGT CACAGCAAAG AAGGAATCCT GTCCCCTCTG
    ACCACACTGC CTTCGGAAGC TCTGCAGACC GAGGCCATTA AGCTATTTAA GACCTGCCAG
    CTCTTTATAA ACGCTGCAGT CGACTCCCCT GCCATCGACT ACCACATCTC TCTAGCCCAG
    AGTGCGCTGC AGGTCTGCCT GACGCATCCT GAGCTACAGA ATGAAATCTG CTGCCAGCTT
    ATTAAGCAGA CAAGACGGAG ACAGCTGCAG AACCAGCCAG GCCCACTGCA GGGTTGGCAG
    CTCTTGGCAC TCTGCGTTGG ACTCTTCCTT CCCCACCACC CTTTCCTGTG GCTCCTCCAG
    CTCCATCTAC AAAGGAATGC AGATTCCAGG ACAGAGTTTG GGAAATATGC CATTTACTGC
    CAGCGATGTG TAGAAAGGAC ACAGCAAAAC GGAGACCGAG AGGCCAGACC GTCCAGGATG
    GAGATTCTCT CCACTCTTCT TCGAAACCCC TACCACCATT CTAGGCCCTT CAGCATACCC
    GTGCACTTCA TGAATGGGCT CTACCAGGTA GTGGGGTTCG ATGCATCCAC CACAGTGGAA
    GAATTTTTGA ACACTTTGAA CCAGGACACA GGAATGAGGA AGCCAGCGCA GTCTGGATTC
    GCACTCTTCA CAGATGATCC TTCTGGCAGA GACCTGGAGC ACTGTCTTCA GGGAAATATC
    AAGATCTGTG ACATTATTTC TAAATGGGAG CAGGCGTCCA AAGAACAGCA GCCTGGCAAG
    TGTGAGGGCA GCCGGACTGT CCGTCTGACT TACAAAAACA GACTATATTT CTCAATGCAA
    GCTCGTGGAG AAACCGACAG AGAGAAGCTG CTGCTGCTGT ACCAGACAAA TGACCAAATC
    ATCAATGGCC TTTTCCCTCT GAATAAGGAT CTGGCGTTAG AAATGGCAGC GCTTTTAGCT
    CAGGTGGATA TTGGAGATTT TGAAAGACCT TTCTCAACTC CAGCGGGGCC TGTGACTAAC
    CAGTGCAAGG CAAATCAAAC CCTCAAACAA GTCATAGAGA GATTTTACCC GAAAAGGTAC
    CGAGAAGGGT GCTCTGAGGA GCAGCTAAGG CAGCTCTACC AGCGACTCTC AACCAAATGG
    ATGGCCCTCC GGGGACACAG TGCGGCTGAC TGCATTCGCA TTTACTTGAC AGTAGCCAGG
    AAGTGGCCAT TCTTTGGCGC CAAGTTGTTC TTTGCAAAAC CAATAGCACC ATCATCACTT
    GGCGATAATT CCGTGTGGCT GGCTGTCCAT GAAAATGGGT TGAGCATCCT AGAATACACC
    TCCATGAAAT TAGTGGTCAG CTATATGTAC AAGGGTCTGA TGACCTTTGG GGGCTATCAA
    GAGGATTTCA TGGTAGTCGT TAGTACACAG TCAAAAGACC GGCCAACAGA GAAGTTACTT
    TTTGCTATGG CAAAACACAA GATTCTTGAA ATCACCCTTC TGATCGCCAG TTACATCAAC
    AACTTCCACC AGCAGAAGAC AACGGTTCAC CACCTCTCTG CCCCAGCGCT GCTCTCACCC
    AGGACCCAGG CGCCCCAAGC CAGGCTCGTG GGCAACCAGC CCGCTCTGTC CAACAGCAGA
    CCTACCAAAG GCCCTACCTT ACTCTGA

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

    RefSeq XP_021004778.1
    CDS192..3758
    Translation

    Target ORF information:

    RefSeq Version XM_021149119.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021149119.1

    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
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGATTCTG CAGACACACT TTCCTACTCT
    GCAGCAGGCC TTTATACGTC TCTCATATAC AAGAACATGA CGACCCCAGT CTATACAACG
    TTGAAGGGGA AGGCGACACA AATAAGTAGC AGCCCTTTCC TGGATGACTC CTCGGGCTCA
    GACGAAGAGG ATGGTTCTAG GTCCAGCTCC CGGCTGTCGG AGTCAGATGC GCGCAGTCGC
    AGTGGGCCAA GCAGTCCCAG AGCCATGAAG CGAGGCGTGT CTGACTCCTC CGCGGCTTCT
    GAAAGTGATT ATGCCATTCC TCCGGATGCC TATCCCATAG ACGCAGAGTG TTCGCAGCCT
    GAGCAGAAAC TTCTAAAAAC CTGCCTGGCC TCCTGTGACA ATGGGAAAAA TGAACCATTA
    GAAAAATCTG GGTACCTACT AAAAATGAGC GCGAGAGTCA AGACTTGGAA GCGGAGGTGG
    TTTGTTCTGA AAGGAGGCGA ATTACTTTAC TACAAGTCTC CAAGCGATGT GATTCGGAAA
    CCCCAGGGCC ACATTGAACT GAGTGCATCC TGCAGTATTT TACGGGGCGA TAACAAGCAA
    ACAGTTCAGC TGGCCACAGA GAAGCACACG TACTATCTGA CGGCAGATTC TCCCAATATA
    TTGGAAGAAT GGATCAAAGT GTTACAGAAC GTTCTTCGAG TACAAGCTGC TAACCCTCTT
    TGCCTGCAGC CTGAGGGCAA ACCCGCAGTA AAGGGCTTGC TCACCAAGGT GAAGCATGGC
    TACTCTAAGA GGGTCTGGTG CATGCTTGTT GGAAAGGTCT TGTATTATTT CCGCAATCAA
    GAAGATAAGT TCCCTCTAGG TCAGCTCAAA CTCTGGGAGG CTAAGGTGGA AGAGGTGGAC
    AGGTCCTGTG ACTCAGACGA GGACTATGAG ACCCGGGGGT GCTATCTGCT GTCTACTCAC
    TACACCATCA TTGTCCACCC CAAAGACCAG GGCCCTACTT ACCTGCTCAT CGGATCTAAG
    CACGAAAAGG AAGCTTGGCT GTATCACCTC ACTGTTGCAG CTGGAAGCAA CAATATAAAT
    GTTGGATCCG AATTTGAACA ACTGGTTTGC AAGTTGCTGA ATATAGAAGG GGAGCCCTCC
    TCCCAGATAT GGAGACACCC CATGCTGTGT CACAGCAAAG AAGGAATCCT GTCCCCTCTG
    ACCACACTGC CTTCGGAAGC TCTGCAGACC GAGGCCATTA AGCTATTTAA GACCTGCCAG
    CTCTTTATAA ACGCTGCAGT CGACTCCCCT GCCATCGACT ACCACATCTC TCTAGCCCAG
    AGTGCGCTGC AGGTCTGCCT GACGCATCCT GAGCTACAGA ATGAAATCTG CTGCCAGCTT
    ATTAAGCAGA CAAGACGGAG ACAGCTGCAG AACCAGCCAG GCCCACTGCA GGGTTGGCAG
    CTCTTGGCAC TCTGCGTTGG ACTCTTCCTT CCCCACCACC CTTTCCTGTG GCTCCTCCAG
    CTCCATCTAC AAAGGAATGC AGATTCCAGG ACAGAGTTTG GGAAATATGC CATTTACTGC
    CAGCGATGTG TAGAAAGGAC ACAGCAAAAC GGAGACCGAG AGGCCAGACC GTCCAGGATG
    GAGATTCTCT CCACTCTTCT TCGAAACCCC TACCACCATT CTAGGCCCTT CAGCATACCC
    GTGCACTTCA TGAATGGGCT CTACCAGGTA GTGGGGTTCG ATGCATCCAC CACAGTGGAA
    GAATTTTTGA ACACTTTGAA CCAGGACACA GGAATGAGGA AGCCAGCGCA GTCTGGATTC
    GCACTCTTCA CAGATGATCC TTCTGGCAGA GACCTGGAGC ACTGTCTTCA GGGAAATATC
    AAGATCTGTG ACATTATTTC TAAATGGGAG CAGGCGTCCA AAGAACAGCA GCCTGGCAAG
    TGTGAGGGCA GCCGGACTGT CCGTCTGACT TACAAAAACA GACTATATTT CTCAATGCAA
    GCTCGTGGAG AAACCGACAG AGAGAAGCTG CTGCTGCTGT ACCAGACAAA TGACCAAATC
    ATCAATGGCC TTTTCCCTCT GAATAAGGAT CTGGCGTTAG AAATGGCAGC GCTTTTAGCT
    CAGGTGGATA TTGGAGATTT TGAAAGACCT TTCTCAACTC CAGCGGGGCC TGTGACTAAC
    CAGTGCAAGG CAAATCAAAC CCTCAAACAA GTCATAGAGA GATTTTACCC GAAAAGGTAC
    CGAGAAGGGT GCTCTGAGGA GCAGCTAAGG CAGCTCTACC AGCGACTCTC AACCAAATGG
    ATGGCCCTCC GGGGACACAG TGCGGCTGAC TGCATTCGCA TTTACTTGAC AGTAGCCAGG
    AAGTGGCCAT TCTTTGGCGC CAAGTTGTTC TTTGCAAAAC CAATAGCACC ATCATCACTT
    GGCGATAATT CCGTGTGGCT GGCTGTCCAT GAAAATGGGT TGAGCATCCT AGAATACACC
    TCCATGAAAT TAGTGGTCAG CTATATGTAC AAGGGTCTGA TGACCTTTGG GGGCTATCAA
    GAGGATTTCA TGGTAGTCGT TAGTACACAG TCAAAAGACC GGCCAACAGA GAAGTTACTT
    TTTGCTATGG CAAAACACAA GATTCTTGAA ATCACCCTTC TGATCGCCAG TTACATCAAC
    AACTTCCACC AGCAGAAGAC AACGGTTCAC CACCTCTCTG CCCCAGCGCT GCTCTCACCC
    AGGACCCAGG CGCCCCAAGC CAGGCTCGTG GGCAACCAGC CCGCTCTGTC CAACAGCAGA
    CCTACCAAAG GCCCTACCTT ACTCTGA

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

    CloneID OMv34632
    Clone ID Related Accession (Same CDS sequence) XM_021149119.1 , XM_021149118.1
    Accession Version XM_021149118.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3567bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation 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
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGATTCTG CAGACACACT TTCCTACTCT
    GCAGCAGGCC TTTATACGTC TCTCATATAC AAGAACATGA CGACCCCAGT CTATACAACG
    TTGAAGGGGA AGGCGACACA AATAAGTAGC AGCCCTTTCC TGGATGACTC CTCGGGCTCA
    GACGAAGAGG ATGGTTCTAG GTCCAGCTCC CGGCTGTCGG AGTCAGATGC GCGCAGTCGC
    AGTGGGCCAA GCAGTCCCAG AGCCATGAAG CGAGGCGTGT CTGACTCCTC CGCGGCTTCT
    GAAAGTGATT ATGCCATTCC TCCGGATGCC TATCCCATAG ACGCAGAGTG TTCGCAGCCT
    GAGCAGAAAC TTCTAAAAAC CTGCCTGGCC TCCTGTGACA ATGGGAAAAA TGAACCATTA
    GAAAAATCTG GGTACCTACT AAAAATGAGC GCGAGAGTCA AGACTTGGAA GCGGAGGTGG
    TTTGTTCTGA AAGGAGGCGA ATTACTTTAC TACAAGTCTC CAAGCGATGT GATTCGGAAA
    CCCCAGGGCC ACATTGAACT GAGTGCATCC TGCAGTATTT TACGGGGCGA TAACAAGCAA
    ACAGTTCAGC TGGCCACAGA GAAGCACACG TACTATCTGA CGGCAGATTC TCCCAATATA
    TTGGAAGAAT GGATCAAAGT GTTACAGAAC GTTCTTCGAG TACAAGCTGC TAACCCTCTT
    TGCCTGCAGC CTGAGGGCAA ACCCGCAGTA AAGGGCTTGC TCACCAAGGT GAAGCATGGC
    TACTCTAAGA GGGTCTGGTG CATGCTTGTT GGAAAGGTCT TGTATTATTT CCGCAATCAA
    GAAGATAAGT TCCCTCTAGG TCAGCTCAAA CTCTGGGAGG CTAAGGTGGA AGAGGTGGAC
    AGGTCCTGTG ACTCAGACGA GGACTATGAG ACCCGGGGGT GCTATCTGCT GTCTACTCAC
    TACACCATCA TTGTCCACCC CAAAGACCAG GGCCCTACTT ACCTGCTCAT CGGATCTAAG
    CACGAAAAGG AAGCTTGGCT GTATCACCTC ACTGTTGCAG CTGGAAGCAA CAATATAAAT
    GTTGGATCCG AATTTGAACA ACTGGTTTGC AAGTTGCTGA ATATAGAAGG GGAGCCCTCC
    TCCCAGATAT GGAGACACCC CATGCTGTGT CACAGCAAAG AAGGAATCCT GTCCCCTCTG
    ACCACACTGC CTTCGGAAGC TCTGCAGACC GAGGCCATTA AGCTATTTAA GACCTGCCAG
    CTCTTTATAA ACGCTGCAGT CGACTCCCCT GCCATCGACT ACCACATCTC TCTAGCCCAG
    AGTGCGCTGC AGGTCTGCCT GACGCATCCT GAGCTACAGA ATGAAATCTG CTGCCAGCTT
    ATTAAGCAGA CAAGACGGAG ACAGCTGCAG AACCAGCCAG GCCCACTGCA GGGTTGGCAG
    CTCTTGGCAC TCTGCGTTGG ACTCTTCCTT CCCCACCACC CTTTCCTGTG GCTCCTCCAG
    CTCCATCTAC AAAGGAATGC AGATTCCAGG ACAGAGTTTG GGAAATATGC CATTTACTGC
    CAGCGATGTG TAGAAAGGAC ACAGCAAAAC GGAGACCGAG AGGCCAGACC GTCCAGGATG
    GAGATTCTCT CCACTCTTCT TCGAAACCCC TACCACCATT CTAGGCCCTT CAGCATACCC
    GTGCACTTCA TGAATGGGCT CTACCAGGTA GTGGGGTTCG ATGCATCCAC CACAGTGGAA
    GAATTTTTGA ACACTTTGAA CCAGGACACA GGAATGAGGA AGCCAGCGCA GTCTGGATTC
    GCACTCTTCA CAGATGATCC TTCTGGCAGA GACCTGGAGC ACTGTCTTCA GGGAAATATC
    AAGATCTGTG ACATTATTTC TAAATGGGAG CAGGCGTCCA AAGAACAGCA GCCTGGCAAG
    TGTGAGGGCA GCCGGACTGT CCGTCTGACT TACAAAAACA GACTATATTT CTCAATGCAA
    GCTCGTGGAG AAACCGACAG AGAGAAGCTG CTGCTGCTGT ACCAGACAAA TGACCAAATC
    ATCAATGGCC TTTTCCCTCT GAATAAGGAT CTGGCGTTAG AAATGGCAGC GCTTTTAGCT
    CAGGTGGATA TTGGAGATTT TGAAAGACCT TTCTCAACTC CAGCGGGGCC TGTGACTAAC
    CAGTGCAAGG CAAATCAAAC CCTCAAACAA GTCATAGAGA GATTTTACCC GAAAAGGTAC
    CGAGAAGGGT GCTCTGAGGA GCAGCTAAGG CAGCTCTACC AGCGACTCTC AACCAAATGG
    ATGGCCCTCC GGGGACACAG TGCGGCTGAC TGCATTCGCA TTTACTTGAC AGTAGCCAGG
    AAGTGGCCAT TCTTTGGCGC CAAGTTGTTC TTTGCAAAAC CAATAGCACC ATCATCACTT
    GGCGATAATT CCGTGTGGCT GGCTGTCCAT GAAAATGGGT TGAGCATCCT AGAATACACC
    TCCATGAAAT TAGTGGTCAG CTATATGTAC AAGGGTCTGA TGACCTTTGG GGGCTATCAA
    GAGGATTTCA TGGTAGTCGT TAGTACACAG TCAAAAGACC GGCCAACAGA GAAGTTACTT
    TTTGCTATGG CAAAACACAA GATTCTTGAA ATCACCCTTC TGATCGCCAG TTACATCAAC
    AACTTCCACC AGCAGAAGAC AACGGTTCAC CACCTCTCTG CCCCAGCGCT GCTCTCACCC
    AGGACCCAGG CGCCCCAAGC CAGGCTCGTG GGCAACCAGC CCGCTCTGTC CAACAGCAGA
    CCTACCAAAG GCCCTACCTT ACTCTGA

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

    RefSeq XP_021004777.1
    CDS195..3761
    Translation

    Target ORF information:

    RefSeq Version XM_021149118.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021149118.1

    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
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGATTCTG CAGACACACT TTCCTACTCT
    GCAGCAGGCC TTTATACGTC TCTCATATAC AAGAACATGA CGACCCCAGT CTATACAACG
    TTGAAGGGGA AGGCGACACA AATAAGTAGC AGCCCTTTCC TGGATGACTC CTCGGGCTCA
    GACGAAGAGG ATGGTTCTAG GTCCAGCTCC CGGCTGTCGG AGTCAGATGC GCGCAGTCGC
    AGTGGGCCAA GCAGTCCCAG AGCCATGAAG CGAGGCGTGT CTGACTCCTC CGCGGCTTCT
    GAAAGTGATT ATGCCATTCC TCCGGATGCC TATCCCATAG ACGCAGAGTG TTCGCAGCCT
    GAGCAGAAAC TTCTAAAAAC CTGCCTGGCC TCCTGTGACA ATGGGAAAAA TGAACCATTA
    GAAAAATCTG GGTACCTACT AAAAATGAGC GCGAGAGTCA AGACTTGGAA GCGGAGGTGG
    TTTGTTCTGA AAGGAGGCGA ATTACTTTAC TACAAGTCTC CAAGCGATGT GATTCGGAAA
    CCCCAGGGCC ACATTGAACT GAGTGCATCC TGCAGTATTT TACGGGGCGA TAACAAGCAA
    ACAGTTCAGC TGGCCACAGA GAAGCACACG TACTATCTGA CGGCAGATTC TCCCAATATA
    TTGGAAGAAT GGATCAAAGT GTTACAGAAC GTTCTTCGAG TACAAGCTGC TAACCCTCTT
    TGCCTGCAGC CTGAGGGCAA ACCCGCAGTA AAGGGCTTGC TCACCAAGGT GAAGCATGGC
    TACTCTAAGA GGGTCTGGTG CATGCTTGTT GGAAAGGTCT TGTATTATTT CCGCAATCAA
    GAAGATAAGT TCCCTCTAGG TCAGCTCAAA CTCTGGGAGG CTAAGGTGGA AGAGGTGGAC
    AGGTCCTGTG ACTCAGACGA GGACTATGAG ACCCGGGGGT GCTATCTGCT GTCTACTCAC
    TACACCATCA TTGTCCACCC CAAAGACCAG GGCCCTACTT ACCTGCTCAT CGGATCTAAG
    CACGAAAAGG AAGCTTGGCT GTATCACCTC ACTGTTGCAG CTGGAAGCAA CAATATAAAT
    GTTGGATCCG AATTTGAACA ACTGGTTTGC AAGTTGCTGA ATATAGAAGG GGAGCCCTCC
    TCCCAGATAT GGAGACACCC CATGCTGTGT CACAGCAAAG AAGGAATCCT GTCCCCTCTG
    ACCACACTGC CTTCGGAAGC TCTGCAGACC GAGGCCATTA AGCTATTTAA GACCTGCCAG
    CTCTTTATAA ACGCTGCAGT CGACTCCCCT GCCATCGACT ACCACATCTC TCTAGCCCAG
    AGTGCGCTGC AGGTCTGCCT GACGCATCCT GAGCTACAGA ATGAAATCTG CTGCCAGCTT
    ATTAAGCAGA CAAGACGGAG ACAGCTGCAG AACCAGCCAG GCCCACTGCA GGGTTGGCAG
    CTCTTGGCAC TCTGCGTTGG ACTCTTCCTT CCCCACCACC CTTTCCTGTG GCTCCTCCAG
    CTCCATCTAC AAAGGAATGC AGATTCCAGG ACAGAGTTTG GGAAATATGC CATTTACTGC
    CAGCGATGTG TAGAAAGGAC ACAGCAAAAC GGAGACCGAG AGGCCAGACC GTCCAGGATG
    GAGATTCTCT CCACTCTTCT TCGAAACCCC TACCACCATT CTAGGCCCTT CAGCATACCC
    GTGCACTTCA TGAATGGGCT CTACCAGGTA GTGGGGTTCG ATGCATCCAC CACAGTGGAA
    GAATTTTTGA ACACTTTGAA CCAGGACACA GGAATGAGGA AGCCAGCGCA GTCTGGATTC
    GCACTCTTCA CAGATGATCC TTCTGGCAGA GACCTGGAGC ACTGTCTTCA GGGAAATATC
    AAGATCTGTG ACATTATTTC TAAATGGGAG CAGGCGTCCA AAGAACAGCA GCCTGGCAAG
    TGTGAGGGCA GCCGGACTGT CCGTCTGACT TACAAAAACA GACTATATTT CTCAATGCAA
    GCTCGTGGAG AAACCGACAG AGAGAAGCTG CTGCTGCTGT ACCAGACAAA TGACCAAATC
    ATCAATGGCC TTTTCCCTCT GAATAAGGAT CTGGCGTTAG AAATGGCAGC GCTTTTAGCT
    CAGGTGGATA TTGGAGATTT TGAAAGACCT TTCTCAACTC CAGCGGGGCC TGTGACTAAC
    CAGTGCAAGG CAAATCAAAC CCTCAAACAA GTCATAGAGA GATTTTACCC GAAAAGGTAC
    CGAGAAGGGT GCTCTGAGGA GCAGCTAAGG CAGCTCTACC AGCGACTCTC AACCAAATGG
    ATGGCCCTCC GGGGACACAG TGCGGCTGAC TGCATTCGCA TTTACTTGAC AGTAGCCAGG
    AAGTGGCCAT TCTTTGGCGC CAAGTTGTTC TTTGCAAAAC CAATAGCACC ATCATCACTT
    GGCGATAATT CCGTGTGGCT GGCTGTCCAT GAAAATGGGT TGAGCATCCT AGAATACACC
    TCCATGAAAT TAGTGGTCAG CTATATGTAC AAGGGTCTGA TGACCTTTGG GGGCTATCAA
    GAGGATTTCA TGGTAGTCGT TAGTACACAG TCAAAAGACC GGCCAACAGA GAAGTTACTT
    TTTGCTATGG CAAAACACAA GATTCTTGAA ATCACCCTTC TGATCGCCAG TTACATCAAC
    AACTTCCACC AGCAGAAGAC AACGGTTCAC CACCTCTCTG CCCCAGCGCT GCTCTCACCC
    AGGACCCAGG CGCCCCAAGC CAGGCTCGTG GGCAACCAGC CCGCTCTGTC CAACAGCAGA
    CCTACCAAAG GCCCTACCTT ACTCTGA

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

    CloneID OMv70464
    Clone ID Related Accession (Same CDS sequence) XM_029471539.1 , XM_029471537.1 , XM_029471538.1
    Accession Version XM_029471539.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4476bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGGTACGT CCCAGAATTC TGGGGTTCCA
    GTGAGTGACT GGAGTTCAGA CGAGGATGAT GGAAGCAAGG GCAGATCTAA GTCCAGGTGC
    ACATCCACCC TTTCCAGCCA CACGTCTGAG GAGGGTGGCC AGTGCGGCAG GCTGGGCAGC
    GAAGCCTACC TCACAGCATC TGATGACAGT AGTTCTATAT TCGAAGAAGA GACTTTTGAT
    GGGAATAGAC CCGAGCAAAA GAAGCTGTGT TCTTGGCAGC AGAAGGCACC ATGGAAAGCT
    CAGGGTAACC TTGCAAAGGG GAGGTCTCAG TCAGGAGTAA AGGAACAAGA TAGTTCCTCA
    GATGAACTGA ATAAGAAATT TCACTCGCAG AGACTGGATT ATACATCCTC ATCCAGCGAG
    GCCAACACCC CAAGCCCTAT TTTAACCCCA GCTTTAACTC CCAGATACCC TAACTCACTC
    CCTGGAAAAG GAGGAGTCCC GTTAGTGCCT CCTCCATTCC AGCCACCCCC AAAGCTCAGG
    GTCCCCAATG TTTTCAGTAT AAGTGTGGCA CTCACCAAGA GACACCTGAG CCAGCCACAG
    CTATGCTCCG ACCGGATGTT TGGCACGAAC CGGAACGCCA TAAGCATGAT CCGGCCGCTG
    AGGCCCCAGG AAACGGACCT TGATATGGTT GATGGGGATG GGGCCGAGGC TGTGAACAGA
    ATGGACACTG GTGGCGATGA CGGCTTATTT TCCTATGACT CCCAGGATCC TCCTCCGTGT
    GCAGATGACC AGGAAAACAG CGAGGCCCCA AAGAAGGCCC CGTGCAGCAA ACCCCCCACC
    CCTCCTCTGC ACCGCTTCCC CTCTTGGGAG AGCAGGATAT ATGCTGTAGC CAAATCAGGC
    ATCCGCGTGT CTGAGGCCTT CAGTATGGAG CATGCTAATA AAAATTCTGC AGACACACTT
    TCCTACTCTG CAGCAGGCCT TTATACGTCT CTCATATACA AGAACATGAC GACCCCAGTC
    TATACAACGT TGAAGGGGAA GGCGACACAA ATAAGTAGCA GCCCTTTCCT GGATGACTCC
    TCGGGCTCAG ACGAAGAGGA TGGTTCTAGG TCCAGCTCCC GGCTGTCGGA GTCAGATGCG
    CGCAGTCGCA GTGGGCCAAG CAGTCCCAGA GCCATGAAGC GAGGCGTGTC TGACTCCTCC
    GCGGCTTCTG AAAGTGATTA TGCCATTCCT CCGGATGCCT ATCCCATAGA CGCAGAGTGT
    TCGCAGCCTG AGCAGAAACT TCTAAAAACC TGCCTGGCCT CCTGTGACAA TGGGAAAAAT
    GAACCATTAG AAAAATCTGG GTACCTACTA AAAATGAGCG CGAGAGTCAA GACTTGGAAG
    CGGAGGTGGT TTGTTCTGAA AGGAGGCGAA TTACTTTACT ACAAGTCTCC AAGCGATGTG
    ATTCGGAAAC CCCAGGGCCA CATTGAACTG AGTGCATCCT GCAGTATTTT ACGGGGCGAT
    AACAAGCAAA CAGTTCAGCT GGCCACAGAG AAGCACACGT ACTATCTGAC GGCAGATTCT
    CCCAATATAT TGGAAGAATG GATCAAAGTG TTACAGAACG TTCTTCGAGT ACAAGCTGCT
    AACCCTCTTT GCCTGCAGCC TGAGGGCAAA CCCGCAGTAA AGGGCTTGCT CACCAAGGTG
    AAGCATGGCT ACTCTAAGAG GGTCTGGTGC ATGCTTGTTG GAAAGGTCTT GTATTATTTC
    CGCAATCAAG AAGATAAGTT CCCTCTAGGT CAGCTCAAAC TCTGGGAGGC TAAGGTGGAA
    GAGGTGGACA GGTCCTGTGA CTCAGACGAG GACTATGAGA CCCGGGGGTG CTATCTGCTG
    TCTACTCACT ACACCATCAT TGTCCACCCC AAAGACCAGG GCCCTACTTA CCTGCTCATC
    GGATCTAAGC ACGAAAAGGA AGCTTGGCTG TATCACCTCA CTGTTGCAGC TGGAAGCAAC
    AATATAAATG TTGGATCCGA ATTTGAACAA CTGGTTTGCA AGTTGCTGAA TATAGAAGGG
    GAGCCCTCCT CCCAGATATG GAGACACCCC ATGCTGTGTC ACAGCAAAGA AGGAATCCTG
    TCCCCTCTGA CCACACTGCC TTCGGAAGCT CTGCAGACCG AGGCCATTAA GCTATTTAAG
    ACCTGCCAGC TCTTTATAAA CGCTGCAGTC GACTCCCCTG CCATCGACTA CCACATCTCT
    CTAGCCCAGA GTGCGCTGCA GGTCTGCCTG ACGCATCCTG AGCTACAGAA TGAAATCTGC
    TGCCAGCTTA TTAAGCAGAC AAGACGGAGA CAGCTGCAGA ACCAGCCAGG CCCACTGCAG
    GGTTGGCAGC TCTTGGCACT CTGCGTTGGA CTCTTCCTTC CCCACCACCC TTTCCTGTGG
    CTCCTCCAGC TCCATCTACA AAGGAATGCA GATTCCAGGA CAGAGTTTGG GAAATATGCC
    ATTTACTGCC AGCGATGTGT AGAAAGGACA CAGCAAAACG GAGACCGAGA GGCCAGACCG
    TCCAGGATGG AGATTCTCTC CACTCTTCTT CGAAACCCCT ACCACCATTC TAGGCCCTTC
    AGCATACCCG TGCACTTCAT GAATGGGCTC TACCAGGTAG TGGGGTTCGA TGCATCCACC
    ACAGTGGAAG AATTTTTGAA CACTTTGAAC CAGGACACAG GAATGAGGAA GCCAGCGCAG
    TCTGGATTCG CACTCTTCAC AGATGATCCT TCTGGCAGAG ACCTGGAGCA CTGTCTTCAG
    GGAAATATCA AGATCTGTGA CATTATTTCT AAATGGGAGC AGGCGTCCAA AGAACAGCAG
    CCTGGCAAGT GTGAGGGCAG CCGGACTGTC CGTCTGACTT ACAAAAACAG ACTATATTTC
    TCAATGCAAG CTCGTGGAGA AACCGACAGA GAGAAGCTGC TGCTGCTGTA CCAGACAAAT
    GACCAAATCA TCAATGGCCT TTTCCCTCTG AATAAGGATC TGGCGTTAGA AATGGCAGCG
    CTTTTAGCTC AGGTGGATAT TGGAGATTTT GAAAGACCTT TCTCAACTCC AGCGGGGCCT
    GTGACTAACC AGTGCAAGGC AAATCAAACC CTCAAACAAG TCATAGAGAG ATTTTACCCG
    AAAAGGTACC GAGAAGGGTG CTCTGAGGAG CAGCTAAGGC AGCTCTACCA GCGACTCTCA
    ACCAAATGGA TGGCCCTCCG GGGACACAGT GCGGCTGACT GCATTCGCAT TTACTTGACA
    GTAGCCAGGA AGTGGCCATT CTTTGGCGCC AAGTTGTTCT TTGCAAAACC AATAGCACCA
    TCATCACTTG GCGATAATTC CGTGTGGCTG GCTGTCCATG AAAATGGGTT GAGCATCCTA
    GAATACACCT CCATGAAATT AGTGGTCAGC TATATGTACA AGGGTCTGAT GACCTTTGGG
    GGCTATCAAG AGGATTTCAT GGTAGTCGTT AGTACACAGT CAAAAGACCG GCCAACAGAG
    AAGTTACTTT TTGCTATGGC AAAACACAAG ATTCTTGAAA TCACCCTTCT GATCGCCAGT
    TACATCAACA ACTTCCACCA GCAGAAGACA ACGGTTCACC ACCTCTCTGC CCCAGCGCTG
    CTCTCACCCA GGACCCAGGC GCCCCAAGCC AGGCTCGTGG GCAACCAGCC CGCTCTGTCC
    AACAGCAGAC CTACCAAAGG CCCTACCTTA CTCTGA

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

    RefSeq XP_029327399.1
    CDS192..4667
    Translation

    Target ORF information:

    RefSeq Version XM_029471539.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029471539.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGGTACGT CCCAGAATTC TGGGGTTCCA
    GTGAGTGACT GGAGTTCAGA CGAGGATGAT GGAAGCAAGG GCAGATCTAA GTCCAGGTGC
    ACATCCACCC TTTCCAGCCA CACGTCTGAG GAGGGTGGCC AGTGCGGCAG GCTGGGCAGC
    GAAGCCTACC TCACAGCATC TGATGACAGT AGTTCTATAT TCGAAGAAGA GACTTTTGAT
    GGGAATAGAC CCGAGCAAAA GAAGCTGTGT TCTTGGCAGC AGAAGGCACC ATGGAAAGCT
    CAGGGTAACC TTGCAAAGGG GAGGTCTCAG TCAGGAGTAA AGGAACAAGA TAGTTCCTCA
    GATGAACTGA ATAAGAAATT TCACTCGCAG AGACTGGATT ATACATCCTC ATCCAGCGAG
    GCCAACACCC CAAGCCCTAT TTTAACCCCA GCTTTAACTC CCAGATACCC TAACTCACTC
    CCTGGAAAAG GAGGAGTCCC GTTAGTGCCT CCTCCATTCC AGCCACCCCC AAAGCTCAGG
    GTCCCCAATG TTTTCAGTAT AAGTGTGGCA CTCACCAAGA GACACCTGAG CCAGCCACAG
    CTATGCTCCG ACCGGATGTT TGGCACGAAC CGGAACGCCA TAAGCATGAT CCGGCCGCTG
    AGGCCCCAGG AAACGGACCT TGATATGGTT GATGGGGATG GGGCCGAGGC TGTGAACAGA
    ATGGACACTG GTGGCGATGA CGGCTTATTT TCCTATGACT CCCAGGATCC TCCTCCGTGT
    GCAGATGACC AGGAAAACAG CGAGGCCCCA AAGAAGGCCC CGTGCAGCAA ACCCCCCACC
    CCTCCTCTGC ACCGCTTCCC CTCTTGGGAG AGCAGGATAT ATGCTGTAGC CAAATCAGGC
    ATCCGCGTGT CTGAGGCCTT CAGTATGGAG CATGCTAATA AAAATTCTGC AGACACACTT
    TCCTACTCTG CAGCAGGCCT TTATACGTCT CTCATATACA AGAACATGAC GACCCCAGTC
    TATACAACGT TGAAGGGGAA GGCGACACAA ATAAGTAGCA GCCCTTTCCT GGATGACTCC
    TCGGGCTCAG ACGAAGAGGA TGGTTCTAGG TCCAGCTCCC GGCTGTCGGA GTCAGATGCG
    CGCAGTCGCA GTGGGCCAAG CAGTCCCAGA GCCATGAAGC GAGGCGTGTC TGACTCCTCC
    GCGGCTTCTG AAAGTGATTA TGCCATTCCT CCGGATGCCT ATCCCATAGA CGCAGAGTGT
    TCGCAGCCTG AGCAGAAACT TCTAAAAACC TGCCTGGCCT CCTGTGACAA TGGGAAAAAT
    GAACCATTAG AAAAATCTGG GTACCTACTA AAAATGAGCG CGAGAGTCAA GACTTGGAAG
    CGGAGGTGGT TTGTTCTGAA AGGAGGCGAA TTACTTTACT ACAAGTCTCC AAGCGATGTG
    ATTCGGAAAC CCCAGGGCCA CATTGAACTG AGTGCATCCT GCAGTATTTT ACGGGGCGAT
    AACAAGCAAA CAGTTCAGCT GGCCACAGAG AAGCACACGT ACTATCTGAC GGCAGATTCT
    CCCAATATAT TGGAAGAATG GATCAAAGTG TTACAGAACG TTCTTCGAGT ACAAGCTGCT
    AACCCTCTTT GCCTGCAGCC TGAGGGCAAA CCCGCAGTAA AGGGCTTGCT CACCAAGGTG
    AAGCATGGCT ACTCTAAGAG GGTCTGGTGC ATGCTTGTTG GAAAGGTCTT GTATTATTTC
    CGCAATCAAG AAGATAAGTT CCCTCTAGGT CAGCTCAAAC TCTGGGAGGC TAAGGTGGAA
    GAGGTGGACA GGTCCTGTGA CTCAGACGAG GACTATGAGA CCCGGGGGTG CTATCTGCTG
    TCTACTCACT ACACCATCAT TGTCCACCCC AAAGACCAGG GCCCTACTTA CCTGCTCATC
    GGATCTAAGC ACGAAAAGGA AGCTTGGCTG TATCACCTCA CTGTTGCAGC TGGAAGCAAC
    AATATAAATG TTGGATCCGA ATTTGAACAA CTGGTTTGCA AGTTGCTGAA TATAGAAGGG
    GAGCCCTCCT CCCAGATATG GAGACACCCC ATGCTGTGTC ACAGCAAAGA AGGAATCCTG
    TCCCCTCTGA CCACACTGCC TTCGGAAGCT CTGCAGACCG AGGCCATTAA GCTATTTAAG
    ACCTGCCAGC TCTTTATAAA CGCTGCAGTC GACTCCCCTG CCATCGACTA CCACATCTCT
    CTAGCCCAGA GTGCGCTGCA GGTCTGCCTG ACGCATCCTG AGCTACAGAA TGAAATCTGC
    TGCCAGCTTA TTAAGCAGAC AAGACGGAGA CAGCTGCAGA ACCAGCCAGG CCCACTGCAG
    GGTTGGCAGC TCTTGGCACT CTGCGTTGGA CTCTTCCTTC CCCACCACCC TTTCCTGTGG
    CTCCTCCAGC TCCATCTACA AAGGAATGCA GATTCCAGGA CAGAGTTTGG GAAATATGCC
    ATTTACTGCC AGCGATGTGT AGAAAGGACA CAGCAAAACG GAGACCGAGA GGCCAGACCG
    TCCAGGATGG AGATTCTCTC CACTCTTCTT CGAAACCCCT ACCACCATTC TAGGCCCTTC
    AGCATACCCG TGCACTTCAT GAATGGGCTC TACCAGGTAG TGGGGTTCGA TGCATCCACC
    ACAGTGGAAG AATTTTTGAA CACTTTGAAC CAGGACACAG GAATGAGGAA GCCAGCGCAG
    TCTGGATTCG CACTCTTCAC AGATGATCCT TCTGGCAGAG ACCTGGAGCA CTGTCTTCAG
    GGAAATATCA AGATCTGTGA CATTATTTCT AAATGGGAGC AGGCGTCCAA AGAACAGCAG
    CCTGGCAAGT GTGAGGGCAG CCGGACTGTC CGTCTGACTT ACAAAAACAG ACTATATTTC
    TCAATGCAAG CTCGTGGAGA AACCGACAGA GAGAAGCTGC TGCTGCTGTA CCAGACAAAT
    GACCAAATCA TCAATGGCCT TTTCCCTCTG AATAAGGATC TGGCGTTAGA AATGGCAGCG
    CTTTTAGCTC AGGTGGATAT TGGAGATTTT GAAAGACCTT TCTCAACTCC AGCGGGGCCT
    GTGACTAACC AGTGCAAGGC AAATCAAACC CTCAAACAAG TCATAGAGAG ATTTTACCCG
    AAAAGGTACC GAGAAGGGTG CTCTGAGGAG CAGCTAAGGC AGCTCTACCA GCGACTCTCA
    ACCAAATGGA TGGCCCTCCG GGGACACAGT GCGGCTGACT GCATTCGCAT TTACTTGACA
    GTAGCCAGGA AGTGGCCATT CTTTGGCGCC AAGTTGTTCT TTGCAAAACC AATAGCACCA
    TCATCACTTG GCGATAATTC CGTGTGGCTG GCTGTCCATG AAAATGGGTT GAGCATCCTA
    GAATACACCT CCATGAAATT AGTGGTCAGC TATATGTACA AGGGTCTGAT GACCTTTGGG
    GGCTATCAAG AGGATTTCAT GGTAGTCGTT AGTACACAGT CAAAAGACCG GCCAACAGAG
    AAGTTACTTT TTGCTATGGC AAAACACAAG ATTCTTGAAA TCACCCTTCT GATCGCCAGT
    TACATCAACA ACTTCCACCA GCAGAAGACA ACGGTTCACC ACCTCTCTGC CCCAGCGCTG
    CTCTCACCCA GGACCCAGGC GCCCCAAGCC AGGCTCGTGG GCAACCAGCC CGCTCTGTCC
    AACAGCAGAC CTACCAAAGG CCCTACCTTA CTCTGA

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

    CloneID OMv70464
    Clone ID Related Accession (Same CDS sequence) XM_029471539.1 , XM_029471537.1 , XM_029471538.1
    Accession Version XM_029471537.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4476bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGGTACGT CCCAGAATTC TGGGGTTCCA
    GTGAGTGACT GGAGTTCAGA CGAGGATGAT GGAAGCAAGG GCAGATCTAA GTCCAGGTGC
    ACATCCACCC TTTCCAGCCA CACGTCTGAG GAGGGTGGCC AGTGCGGCAG GCTGGGCAGC
    GAAGCCTACC TCACAGCATC TGATGACAGT AGTTCTATAT TCGAAGAAGA GACTTTTGAT
    GGGAATAGAC CCGAGCAAAA GAAGCTGTGT TCTTGGCAGC AGAAGGCACC ATGGAAAGCT
    CAGGGTAACC TTGCAAAGGG GAGGTCTCAG TCAGGAGTAA AGGAACAAGA TAGTTCCTCA
    GATGAACTGA ATAAGAAATT TCACTCGCAG AGACTGGATT ATACATCCTC ATCCAGCGAG
    GCCAACACCC CAAGCCCTAT TTTAACCCCA GCTTTAACTC CCAGATACCC TAACTCACTC
    CCTGGAAAAG GAGGAGTCCC GTTAGTGCCT CCTCCATTCC AGCCACCCCC AAAGCTCAGG
    GTCCCCAATG TTTTCAGTAT AAGTGTGGCA CTCACCAAGA GACACCTGAG CCAGCCACAG
    CTATGCTCCG ACCGGATGTT TGGCACGAAC CGGAACGCCA TAAGCATGAT CCGGCCGCTG
    AGGCCCCAGG AAACGGACCT TGATATGGTT GATGGGGATG GGGCCGAGGC TGTGAACAGA
    ATGGACACTG GTGGCGATGA CGGCTTATTT TCCTATGACT CCCAGGATCC TCCTCCGTGT
    GCAGATGACC AGGAAAACAG CGAGGCCCCA AAGAAGGCCC CGTGCAGCAA ACCCCCCACC
    CCTCCTCTGC ACCGCTTCCC CTCTTGGGAG AGCAGGATAT ATGCTGTAGC CAAATCAGGC
    ATCCGCGTGT CTGAGGCCTT CAGTATGGAG CATGCTAATA AAAATTCTGC AGACACACTT
    TCCTACTCTG CAGCAGGCCT TTATACGTCT CTCATATACA AGAACATGAC GACCCCAGTC
    TATACAACGT TGAAGGGGAA GGCGACACAA ATAAGTAGCA GCCCTTTCCT GGATGACTCC
    TCGGGCTCAG ACGAAGAGGA TGGTTCTAGG TCCAGCTCCC GGCTGTCGGA GTCAGATGCG
    CGCAGTCGCA GTGGGCCAAG CAGTCCCAGA GCCATGAAGC GAGGCGTGTC TGACTCCTCC
    GCGGCTTCTG AAAGTGATTA TGCCATTCCT CCGGATGCCT ATCCCATAGA CGCAGAGTGT
    TCGCAGCCTG AGCAGAAACT TCTAAAAACC TGCCTGGCCT CCTGTGACAA TGGGAAAAAT
    GAACCATTAG AAAAATCTGG GTACCTACTA AAAATGAGCG CGAGAGTCAA GACTTGGAAG
    CGGAGGTGGT TTGTTCTGAA AGGAGGCGAA TTACTTTACT ACAAGTCTCC AAGCGATGTG
    ATTCGGAAAC CCCAGGGCCA CATTGAACTG AGTGCATCCT GCAGTATTTT ACGGGGCGAT
    AACAAGCAAA CAGTTCAGCT GGCCACAGAG AAGCACACGT ACTATCTGAC GGCAGATTCT
    CCCAATATAT TGGAAGAATG GATCAAAGTG TTACAGAACG TTCTTCGAGT ACAAGCTGCT
    AACCCTCTTT GCCTGCAGCC TGAGGGCAAA CCCGCAGTAA AGGGCTTGCT CACCAAGGTG
    AAGCATGGCT ACTCTAAGAG GGTCTGGTGC ATGCTTGTTG GAAAGGTCTT GTATTATTTC
    CGCAATCAAG AAGATAAGTT CCCTCTAGGT CAGCTCAAAC TCTGGGAGGC TAAGGTGGAA
    GAGGTGGACA GGTCCTGTGA CTCAGACGAG GACTATGAGA CCCGGGGGTG CTATCTGCTG
    TCTACTCACT ACACCATCAT TGTCCACCCC AAAGACCAGG GCCCTACTTA CCTGCTCATC
    GGATCTAAGC ACGAAAAGGA AGCTTGGCTG TATCACCTCA CTGTTGCAGC TGGAAGCAAC
    AATATAAATG TTGGATCCGA ATTTGAACAA CTGGTTTGCA AGTTGCTGAA TATAGAAGGG
    GAGCCCTCCT CCCAGATATG GAGACACCCC ATGCTGTGTC ACAGCAAAGA AGGAATCCTG
    TCCCCTCTGA CCACACTGCC TTCGGAAGCT CTGCAGACCG AGGCCATTAA GCTATTTAAG
    ACCTGCCAGC TCTTTATAAA CGCTGCAGTC GACTCCCCTG CCATCGACTA CCACATCTCT
    CTAGCCCAGA GTGCGCTGCA GGTCTGCCTG ACGCATCCTG AGCTACAGAA TGAAATCTGC
    TGCCAGCTTA TTAAGCAGAC AAGACGGAGA CAGCTGCAGA ACCAGCCAGG CCCACTGCAG
    GGTTGGCAGC TCTTGGCACT CTGCGTTGGA CTCTTCCTTC CCCACCACCC TTTCCTGTGG
    CTCCTCCAGC TCCATCTACA AAGGAATGCA GATTCCAGGA CAGAGTTTGG GAAATATGCC
    ATTTACTGCC AGCGATGTGT AGAAAGGACA CAGCAAAACG GAGACCGAGA GGCCAGACCG
    TCCAGGATGG AGATTCTCTC CACTCTTCTT CGAAACCCCT ACCACCATTC TAGGCCCTTC
    AGCATACCCG TGCACTTCAT GAATGGGCTC TACCAGGTAG TGGGGTTCGA TGCATCCACC
    ACAGTGGAAG AATTTTTGAA CACTTTGAAC CAGGACACAG GAATGAGGAA GCCAGCGCAG
    TCTGGATTCG CACTCTTCAC AGATGATCCT TCTGGCAGAG ACCTGGAGCA CTGTCTTCAG
    GGAAATATCA AGATCTGTGA CATTATTTCT AAATGGGAGC AGGCGTCCAA AGAACAGCAG
    CCTGGCAAGT GTGAGGGCAG CCGGACTGTC CGTCTGACTT ACAAAAACAG ACTATATTTC
    TCAATGCAAG CTCGTGGAGA AACCGACAGA GAGAAGCTGC TGCTGCTGTA CCAGACAAAT
    GACCAAATCA TCAATGGCCT TTTCCCTCTG AATAAGGATC TGGCGTTAGA AATGGCAGCG
    CTTTTAGCTC AGGTGGATAT TGGAGATTTT GAAAGACCTT TCTCAACTCC AGCGGGGCCT
    GTGACTAACC AGTGCAAGGC AAATCAAACC CTCAAACAAG TCATAGAGAG ATTTTACCCG
    AAAAGGTACC GAGAAGGGTG CTCTGAGGAG CAGCTAAGGC AGCTCTACCA GCGACTCTCA
    ACCAAATGGA TGGCCCTCCG GGGACACAGT GCGGCTGACT GCATTCGCAT TTACTTGACA
    GTAGCCAGGA AGTGGCCATT CTTTGGCGCC AAGTTGTTCT TTGCAAAACC AATAGCACCA
    TCATCACTTG GCGATAATTC CGTGTGGCTG GCTGTCCATG AAAATGGGTT GAGCATCCTA
    GAATACACCT CCATGAAATT AGTGGTCAGC TATATGTACA AGGGTCTGAT GACCTTTGGG
    GGCTATCAAG AGGATTTCAT GGTAGTCGTT AGTACACAGT CAAAAGACCG GCCAACAGAG
    AAGTTACTTT TTGCTATGGC AAAACACAAG ATTCTTGAAA TCACCCTTCT GATCGCCAGT
    TACATCAACA ACTTCCACCA GCAGAAGACA ACGGTTCACC ACCTCTCTGC CCCAGCGCTG
    CTCTCACCCA GGACCCAGGC GCCCCAAGCC AGGCTCGTGG GCAACCAGCC CGCTCTGTCC
    AACAGCAGAC CTACCAAAGG CCCTACCTTA CTCTGA

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

    RefSeq XP_029327397.1
    CDS234..4709
    Translation

    Target ORF information:

    RefSeq Version XM_029471537.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029471537.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGGTACGT CCCAGAATTC TGGGGTTCCA
    GTGAGTGACT GGAGTTCAGA CGAGGATGAT GGAAGCAAGG GCAGATCTAA GTCCAGGTGC
    ACATCCACCC TTTCCAGCCA CACGTCTGAG GAGGGTGGCC AGTGCGGCAG GCTGGGCAGC
    GAAGCCTACC TCACAGCATC TGATGACAGT AGTTCTATAT TCGAAGAAGA GACTTTTGAT
    GGGAATAGAC CCGAGCAAAA GAAGCTGTGT TCTTGGCAGC AGAAGGCACC ATGGAAAGCT
    CAGGGTAACC TTGCAAAGGG GAGGTCTCAG TCAGGAGTAA AGGAACAAGA TAGTTCCTCA
    GATGAACTGA ATAAGAAATT TCACTCGCAG AGACTGGATT ATACATCCTC ATCCAGCGAG
    GCCAACACCC CAAGCCCTAT TTTAACCCCA GCTTTAACTC CCAGATACCC TAACTCACTC
    CCTGGAAAAG GAGGAGTCCC GTTAGTGCCT CCTCCATTCC AGCCACCCCC AAAGCTCAGG
    GTCCCCAATG TTTTCAGTAT AAGTGTGGCA CTCACCAAGA GACACCTGAG CCAGCCACAG
    CTATGCTCCG ACCGGATGTT TGGCACGAAC CGGAACGCCA TAAGCATGAT CCGGCCGCTG
    AGGCCCCAGG AAACGGACCT TGATATGGTT GATGGGGATG GGGCCGAGGC TGTGAACAGA
    ATGGACACTG GTGGCGATGA CGGCTTATTT TCCTATGACT CCCAGGATCC TCCTCCGTGT
    GCAGATGACC AGGAAAACAG CGAGGCCCCA AAGAAGGCCC CGTGCAGCAA ACCCCCCACC
    CCTCCTCTGC ACCGCTTCCC CTCTTGGGAG AGCAGGATAT ATGCTGTAGC CAAATCAGGC
    ATCCGCGTGT CTGAGGCCTT CAGTATGGAG CATGCTAATA AAAATTCTGC AGACACACTT
    TCCTACTCTG CAGCAGGCCT TTATACGTCT CTCATATACA AGAACATGAC GACCCCAGTC
    TATACAACGT TGAAGGGGAA GGCGACACAA ATAAGTAGCA GCCCTTTCCT GGATGACTCC
    TCGGGCTCAG ACGAAGAGGA TGGTTCTAGG TCCAGCTCCC GGCTGTCGGA GTCAGATGCG
    CGCAGTCGCA GTGGGCCAAG CAGTCCCAGA GCCATGAAGC GAGGCGTGTC TGACTCCTCC
    GCGGCTTCTG AAAGTGATTA TGCCATTCCT CCGGATGCCT ATCCCATAGA CGCAGAGTGT
    TCGCAGCCTG AGCAGAAACT TCTAAAAACC TGCCTGGCCT CCTGTGACAA TGGGAAAAAT
    GAACCATTAG AAAAATCTGG GTACCTACTA AAAATGAGCG CGAGAGTCAA GACTTGGAAG
    CGGAGGTGGT TTGTTCTGAA AGGAGGCGAA TTACTTTACT ACAAGTCTCC AAGCGATGTG
    ATTCGGAAAC CCCAGGGCCA CATTGAACTG AGTGCATCCT GCAGTATTTT ACGGGGCGAT
    AACAAGCAAA CAGTTCAGCT GGCCACAGAG AAGCACACGT ACTATCTGAC GGCAGATTCT
    CCCAATATAT TGGAAGAATG GATCAAAGTG TTACAGAACG TTCTTCGAGT ACAAGCTGCT
    AACCCTCTTT GCCTGCAGCC TGAGGGCAAA CCCGCAGTAA AGGGCTTGCT CACCAAGGTG
    AAGCATGGCT ACTCTAAGAG GGTCTGGTGC ATGCTTGTTG GAAAGGTCTT GTATTATTTC
    CGCAATCAAG AAGATAAGTT CCCTCTAGGT CAGCTCAAAC TCTGGGAGGC TAAGGTGGAA
    GAGGTGGACA GGTCCTGTGA CTCAGACGAG GACTATGAGA CCCGGGGGTG CTATCTGCTG
    TCTACTCACT ACACCATCAT TGTCCACCCC AAAGACCAGG GCCCTACTTA CCTGCTCATC
    GGATCTAAGC ACGAAAAGGA AGCTTGGCTG TATCACCTCA CTGTTGCAGC TGGAAGCAAC
    AATATAAATG TTGGATCCGA ATTTGAACAA CTGGTTTGCA AGTTGCTGAA TATAGAAGGG
    GAGCCCTCCT CCCAGATATG GAGACACCCC ATGCTGTGTC ACAGCAAAGA AGGAATCCTG
    TCCCCTCTGA CCACACTGCC TTCGGAAGCT CTGCAGACCG AGGCCATTAA GCTATTTAAG
    ACCTGCCAGC TCTTTATAAA CGCTGCAGTC GACTCCCCTG CCATCGACTA CCACATCTCT
    CTAGCCCAGA GTGCGCTGCA GGTCTGCCTG ACGCATCCTG AGCTACAGAA TGAAATCTGC
    TGCCAGCTTA TTAAGCAGAC AAGACGGAGA CAGCTGCAGA ACCAGCCAGG CCCACTGCAG
    GGTTGGCAGC TCTTGGCACT CTGCGTTGGA CTCTTCCTTC CCCACCACCC TTTCCTGTGG
    CTCCTCCAGC TCCATCTACA AAGGAATGCA GATTCCAGGA CAGAGTTTGG GAAATATGCC
    ATTTACTGCC AGCGATGTGT AGAAAGGACA CAGCAAAACG GAGACCGAGA GGCCAGACCG
    TCCAGGATGG AGATTCTCTC CACTCTTCTT CGAAACCCCT ACCACCATTC TAGGCCCTTC
    AGCATACCCG TGCACTTCAT GAATGGGCTC TACCAGGTAG TGGGGTTCGA TGCATCCACC
    ACAGTGGAAG AATTTTTGAA CACTTTGAAC CAGGACACAG GAATGAGGAA GCCAGCGCAG
    TCTGGATTCG CACTCTTCAC AGATGATCCT TCTGGCAGAG ACCTGGAGCA CTGTCTTCAG
    GGAAATATCA AGATCTGTGA CATTATTTCT AAATGGGAGC AGGCGTCCAA AGAACAGCAG
    CCTGGCAAGT GTGAGGGCAG CCGGACTGTC CGTCTGACTT ACAAAAACAG ACTATATTTC
    TCAATGCAAG CTCGTGGAGA AACCGACAGA GAGAAGCTGC TGCTGCTGTA CCAGACAAAT
    GACCAAATCA TCAATGGCCT TTTCCCTCTG AATAAGGATC TGGCGTTAGA AATGGCAGCG
    CTTTTAGCTC AGGTGGATAT TGGAGATTTT GAAAGACCTT TCTCAACTCC AGCGGGGCCT
    GTGACTAACC AGTGCAAGGC AAATCAAACC CTCAAACAAG TCATAGAGAG ATTTTACCCG
    AAAAGGTACC GAGAAGGGTG CTCTGAGGAG CAGCTAAGGC AGCTCTACCA GCGACTCTCA
    ACCAAATGGA TGGCCCTCCG GGGACACAGT GCGGCTGACT GCATTCGCAT TTACTTGACA
    GTAGCCAGGA AGTGGCCATT CTTTGGCGCC AAGTTGTTCT TTGCAAAACC AATAGCACCA
    TCATCACTTG GCGATAATTC CGTGTGGCTG GCTGTCCATG AAAATGGGTT GAGCATCCTA
    GAATACACCT CCATGAAATT AGTGGTCAGC TATATGTACA AGGGTCTGAT GACCTTTGGG
    GGCTATCAAG AGGATTTCAT GGTAGTCGTT AGTACACAGT CAAAAGACCG GCCAACAGAG
    AAGTTACTTT TTGCTATGGC AAAACACAAG ATTCTTGAAA TCACCCTTCT GATCGCCAGT
    TACATCAACA ACTTCCACCA GCAGAAGACA ACGGTTCACC ACCTCTCTGC CCCAGCGCTG
    CTCTCACCCA GGACCCAGGC GCCCCAAGCC AGGCTCGTGG GCAACCAGCC CGCTCTGTCC
    AACAGCAGAC CTACCAAAGG CCCTACCTTA CTCTGA

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

    CloneID OMv70464
    Clone ID Related Accession (Same CDS sequence) XM_029471539.1 , XM_029471537.1 , XM_029471538.1
    Accession Version XM_029471538.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4476bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGGTACGT CCCAGAATTC TGGGGTTCCA
    GTGAGTGACT GGAGTTCAGA CGAGGATGAT GGAAGCAAGG GCAGATCTAA GTCCAGGTGC
    ACATCCACCC TTTCCAGCCA CACGTCTGAG GAGGGTGGCC AGTGCGGCAG GCTGGGCAGC
    GAAGCCTACC TCACAGCATC TGATGACAGT AGTTCTATAT TCGAAGAAGA GACTTTTGAT
    GGGAATAGAC CCGAGCAAAA GAAGCTGTGT TCTTGGCAGC AGAAGGCACC ATGGAAAGCT
    CAGGGTAACC TTGCAAAGGG GAGGTCTCAG TCAGGAGTAA AGGAACAAGA TAGTTCCTCA
    GATGAACTGA ATAAGAAATT TCACTCGCAG AGACTGGATT ATACATCCTC ATCCAGCGAG
    GCCAACACCC CAAGCCCTAT TTTAACCCCA GCTTTAACTC CCAGATACCC TAACTCACTC
    CCTGGAAAAG GAGGAGTCCC GTTAGTGCCT CCTCCATTCC AGCCACCCCC AAAGCTCAGG
    GTCCCCAATG TTTTCAGTAT AAGTGTGGCA CTCACCAAGA GACACCTGAG CCAGCCACAG
    CTATGCTCCG ACCGGATGTT TGGCACGAAC CGGAACGCCA TAAGCATGAT CCGGCCGCTG
    AGGCCCCAGG AAACGGACCT TGATATGGTT GATGGGGATG GGGCCGAGGC TGTGAACAGA
    ATGGACACTG GTGGCGATGA CGGCTTATTT TCCTATGACT CCCAGGATCC TCCTCCGTGT
    GCAGATGACC AGGAAAACAG CGAGGCCCCA AAGAAGGCCC CGTGCAGCAA ACCCCCCACC
    CCTCCTCTGC ACCGCTTCCC CTCTTGGGAG AGCAGGATAT ATGCTGTAGC CAAATCAGGC
    ATCCGCGTGT CTGAGGCCTT CAGTATGGAG CATGCTAATA AAAATTCTGC AGACACACTT
    TCCTACTCTG CAGCAGGCCT TTATACGTCT CTCATATACA AGAACATGAC GACCCCAGTC
    TATACAACGT TGAAGGGGAA GGCGACACAA ATAAGTAGCA GCCCTTTCCT GGATGACTCC
    TCGGGCTCAG ACGAAGAGGA TGGTTCTAGG TCCAGCTCCC GGCTGTCGGA GTCAGATGCG
    CGCAGTCGCA GTGGGCCAAG CAGTCCCAGA GCCATGAAGC GAGGCGTGTC TGACTCCTCC
    GCGGCTTCTG AAAGTGATTA TGCCATTCCT CCGGATGCCT ATCCCATAGA CGCAGAGTGT
    TCGCAGCCTG AGCAGAAACT TCTAAAAACC TGCCTGGCCT CCTGTGACAA TGGGAAAAAT
    GAACCATTAG AAAAATCTGG GTACCTACTA AAAATGAGCG CGAGAGTCAA GACTTGGAAG
    CGGAGGTGGT TTGTTCTGAA AGGAGGCGAA TTACTTTACT ACAAGTCTCC AAGCGATGTG
    ATTCGGAAAC CCCAGGGCCA CATTGAACTG AGTGCATCCT GCAGTATTTT ACGGGGCGAT
    AACAAGCAAA CAGTTCAGCT GGCCACAGAG AAGCACACGT ACTATCTGAC GGCAGATTCT
    CCCAATATAT TGGAAGAATG GATCAAAGTG TTACAGAACG TTCTTCGAGT ACAAGCTGCT
    AACCCTCTTT GCCTGCAGCC TGAGGGCAAA CCCGCAGTAA AGGGCTTGCT CACCAAGGTG
    AAGCATGGCT ACTCTAAGAG GGTCTGGTGC ATGCTTGTTG GAAAGGTCTT GTATTATTTC
    CGCAATCAAG AAGATAAGTT CCCTCTAGGT CAGCTCAAAC TCTGGGAGGC TAAGGTGGAA
    GAGGTGGACA GGTCCTGTGA CTCAGACGAG GACTATGAGA CCCGGGGGTG CTATCTGCTG
    TCTACTCACT ACACCATCAT TGTCCACCCC AAAGACCAGG GCCCTACTTA CCTGCTCATC
    GGATCTAAGC ACGAAAAGGA AGCTTGGCTG TATCACCTCA CTGTTGCAGC TGGAAGCAAC
    AATATAAATG TTGGATCCGA ATTTGAACAA CTGGTTTGCA AGTTGCTGAA TATAGAAGGG
    GAGCCCTCCT CCCAGATATG GAGACACCCC ATGCTGTGTC ACAGCAAAGA AGGAATCCTG
    TCCCCTCTGA CCACACTGCC TTCGGAAGCT CTGCAGACCG AGGCCATTAA GCTATTTAAG
    ACCTGCCAGC TCTTTATAAA CGCTGCAGTC GACTCCCCTG CCATCGACTA CCACATCTCT
    CTAGCCCAGA GTGCGCTGCA GGTCTGCCTG ACGCATCCTG AGCTACAGAA TGAAATCTGC
    TGCCAGCTTA TTAAGCAGAC AAGACGGAGA CAGCTGCAGA ACCAGCCAGG CCCACTGCAG
    GGTTGGCAGC TCTTGGCACT CTGCGTTGGA CTCTTCCTTC CCCACCACCC TTTCCTGTGG
    CTCCTCCAGC TCCATCTACA AAGGAATGCA GATTCCAGGA CAGAGTTTGG GAAATATGCC
    ATTTACTGCC AGCGATGTGT AGAAAGGACA CAGCAAAACG GAGACCGAGA GGCCAGACCG
    TCCAGGATGG AGATTCTCTC CACTCTTCTT CGAAACCCCT ACCACCATTC TAGGCCCTTC
    AGCATACCCG TGCACTTCAT GAATGGGCTC TACCAGGTAG TGGGGTTCGA TGCATCCACC
    ACAGTGGAAG AATTTTTGAA CACTTTGAAC CAGGACACAG GAATGAGGAA GCCAGCGCAG
    TCTGGATTCG CACTCTTCAC AGATGATCCT TCTGGCAGAG ACCTGGAGCA CTGTCTTCAG
    GGAAATATCA AGATCTGTGA CATTATTTCT AAATGGGAGC AGGCGTCCAA AGAACAGCAG
    CCTGGCAAGT GTGAGGGCAG CCGGACTGTC CGTCTGACTT ACAAAAACAG ACTATATTTC
    TCAATGCAAG CTCGTGGAGA AACCGACAGA GAGAAGCTGC TGCTGCTGTA CCAGACAAAT
    GACCAAATCA TCAATGGCCT TTTCCCTCTG AATAAGGATC TGGCGTTAGA AATGGCAGCG
    CTTTTAGCTC AGGTGGATAT TGGAGATTTT GAAAGACCTT TCTCAACTCC AGCGGGGCCT
    GTGACTAACC AGTGCAAGGC AAATCAAACC CTCAAACAAG TCATAGAGAG ATTTTACCCG
    AAAAGGTACC GAGAAGGGTG CTCTGAGGAG CAGCTAAGGC AGCTCTACCA GCGACTCTCA
    ACCAAATGGA TGGCCCTCCG GGGACACAGT GCGGCTGACT GCATTCGCAT TTACTTGACA
    GTAGCCAGGA AGTGGCCATT CTTTGGCGCC AAGTTGTTCT TTGCAAAACC AATAGCACCA
    TCATCACTTG GCGATAATTC CGTGTGGCTG GCTGTCCATG AAAATGGGTT GAGCATCCTA
    GAATACACCT CCATGAAATT AGTGGTCAGC TATATGTACA AGGGTCTGAT GACCTTTGGG
    GGCTATCAAG AGGATTTCAT GGTAGTCGTT AGTACACAGT CAAAAGACCG GCCAACAGAG
    AAGTTACTTT TTGCTATGGC AAAACACAAG ATTCTTGAAA TCACCCTTCT GATCGCCAGT
    TACATCAACA ACTTCCACCA GCAGAAGACA ACGGTTCACC ACCTCTCTGC CCCAGCGCTG
    CTCTCACCCA GGACCCAGGC GCCCCAAGCC AGGCTCGTGG GCAACCAGCC CGCTCTGTCC
    AACAGCAGAC CTACCAAAGG CCCTACCTTA CTCTGA

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

    RefSeq XP_029327398.1
    CDS195..4670
    Translation

    Target ORF information:

    RefSeq Version XM_029471538.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029471538.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    ATGGAGGAGC CCTCTGAGCC AGAAGGACTA ATAGACTGGA AAGAGCGCTG CGTAGCTCTG 
    GAGGCTCAGC TCATGAAATT CCGAGTTCAA GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC
    AAAATGCAAC AGTTGGAGAG ACAAGTTATC GATGCAGAAC GGCAAGCAGA AAAGGCTTTT
    CAAGAGGTAC AAGTGATGGA AGAGAAACTA AAAGCAGCTA ATATTCAGAC CAGTGAGTCA
    GAGACGCGGC TCTATAAGAA GTGTCAAGAC CTGGAGTCTG CGATGCAGGA GAAGGATGGC
    ATCATTCAGA ACTTGGCTCT GCGGCTTGAA GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT
    AAAATAATAG AAGAAAAAGC AGCTAAGATC AAAGAATGGG TAACAGTTAA GTTAAACGAG
    CTAGAAGTAG AGAATCAGAA TCTTCGTTTC ATCAACCAAA CCCAGACTGA AGAGATAAGA
    GCAATACAGT CAAAGTTGCA AGAACTCCAA GAGAAGAAGA TATCCTGTAT CTCCACACCA
    AAGACCTCAG AAGGGCAACG CAATTTGACA TTTGGATGTT TCTTGTCCCG AGCAAAGAGT
    CCTCCTTGTG TAGTAAGATG TGAGGAAGTG AGCAAGATGG CCTCAAGTGA ACCTGAGATC
    ACGGAAGGAA GATGTGTTGA AGAGATGGAA ATTGCGGAGA AGCCTGCTGA CAACCAAGTC
    CAAGAGAACA GCAGAAGCCA GAGAAATTTG CACGAGACCT CTTGCAGCTC AGAACAGAAC
    CAGAAAACAA GAGCAAGCTT TGCAATGGAT GGTGGTACGT CCCAGAATTC TGGGGTTCCA
    GTGAGTGACT GGAGTTCAGA CGAGGATGAT GGAAGCAAGG GCAGATCTAA GTCCAGGTGC
    ACATCCACCC TTTCCAGCCA CACGTCTGAG GAGGGTGGCC AGTGCGGCAG GCTGGGCAGC
    GAAGCCTACC TCACAGCATC TGATGACAGT AGTTCTATAT TCGAAGAAGA GACTTTTGAT
    GGGAATAGAC CCGAGCAAAA GAAGCTGTGT TCTTGGCAGC AGAAGGCACC ATGGAAAGCT
    CAGGGTAACC TTGCAAAGGG GAGGTCTCAG TCAGGAGTAA AGGAACAAGA TAGTTCCTCA
    GATGAACTGA ATAAGAAATT TCACTCGCAG AGACTGGATT ATACATCCTC ATCCAGCGAG
    GCCAACACCC CAAGCCCTAT TTTAACCCCA GCTTTAACTC CCAGATACCC TAACTCACTC
    CCTGGAAAAG GAGGAGTCCC GTTAGTGCCT CCTCCATTCC AGCCACCCCC AAAGCTCAGG
    GTCCCCAATG TTTTCAGTAT AAGTGTGGCA CTCACCAAGA GACACCTGAG CCAGCCACAG
    CTATGCTCCG ACCGGATGTT TGGCACGAAC CGGAACGCCA TAAGCATGAT CCGGCCGCTG
    AGGCCCCAGG AAACGGACCT TGATATGGTT GATGGGGATG GGGCCGAGGC TGTGAACAGA
    ATGGACACTG GTGGCGATGA CGGCTTATTT TCCTATGACT CCCAGGATCC TCCTCCGTGT
    GCAGATGACC AGGAAAACAG CGAGGCCCCA AAGAAGGCCC CGTGCAGCAA ACCCCCCACC
    CCTCCTCTGC ACCGCTTCCC CTCTTGGGAG AGCAGGATAT ATGCTGTAGC CAAATCAGGC
    ATCCGCGTGT CTGAGGCCTT CAGTATGGAG CATGCTAATA AAAATTCTGC AGACACACTT
    TCCTACTCTG CAGCAGGCCT TTATACGTCT CTCATATACA AGAACATGAC GACCCCAGTC
    TATACAACGT TGAAGGGGAA GGCGACACAA ATAAGTAGCA GCCCTTTCCT GGATGACTCC
    TCGGGCTCAG ACGAAGAGGA TGGTTCTAGG TCCAGCTCCC GGCTGTCGGA GTCAGATGCG
    CGCAGTCGCA GTGGGCCAAG CAGTCCCAGA GCCATGAAGC GAGGCGTGTC TGACTCCTCC
    GCGGCTTCTG AAAGTGATTA TGCCATTCCT CCGGATGCCT ATCCCATAGA CGCAGAGTGT
    TCGCAGCCTG AGCAGAAACT TCTAAAAACC TGCCTGGCCT CCTGTGACAA TGGGAAAAAT
    GAACCATTAG AAAAATCTGG GTACCTACTA AAAATGAGCG CGAGAGTCAA GACTTGGAAG
    CGGAGGTGGT TTGTTCTGAA AGGAGGCGAA TTACTTTACT ACAAGTCTCC AAGCGATGTG
    ATTCGGAAAC CCCAGGGCCA CATTGAACTG AGTGCATCCT GCAGTATTTT ACGGGGCGAT
    AACAAGCAAA CAGTTCAGCT GGCCACAGAG AAGCACACGT ACTATCTGAC GGCAGATTCT
    CCCAATATAT TGGAAGAATG GATCAAAGTG TTACAGAACG TTCTTCGAGT ACAAGCTGCT
    AACCCTCTTT GCCTGCAGCC TGAGGGCAAA CCCGCAGTAA AGGGCTTGCT CACCAAGGTG
    AAGCATGGCT ACTCTAAGAG GGTCTGGTGC ATGCTTGTTG GAAAGGTCTT GTATTATTTC
    CGCAATCAAG AAGATAAGTT CCCTCTAGGT CAGCTCAAAC TCTGGGAGGC TAAGGTGGAA
    GAGGTGGACA GGTCCTGTGA CTCAGACGAG GACTATGAGA CCCGGGGGTG CTATCTGCTG
    TCTACTCACT ACACCATCAT TGTCCACCCC AAAGACCAGG GCCCTACTTA CCTGCTCATC
    GGATCTAAGC ACGAAAAGGA AGCTTGGCTG TATCACCTCA CTGTTGCAGC TGGAAGCAAC
    AATATAAATG TTGGATCCGA ATTTGAACAA CTGGTTTGCA AGTTGCTGAA TATAGAAGGG
    GAGCCCTCCT CCCAGATATG GAGACACCCC ATGCTGTGTC ACAGCAAAGA AGGAATCCTG
    TCCCCTCTGA CCACACTGCC TTCGGAAGCT CTGCAGACCG AGGCCATTAA GCTATTTAAG
    ACCTGCCAGC TCTTTATAAA CGCTGCAGTC GACTCCCCTG CCATCGACTA CCACATCTCT
    CTAGCCCAGA GTGCGCTGCA GGTCTGCCTG ACGCATCCTG AGCTACAGAA TGAAATCTGC
    TGCCAGCTTA TTAAGCAGAC AAGACGGAGA CAGCTGCAGA ACCAGCCAGG CCCACTGCAG
    GGTTGGCAGC TCTTGGCACT CTGCGTTGGA CTCTTCCTTC CCCACCACCC TTTCCTGTGG
    CTCCTCCAGC TCCATCTACA AAGGAATGCA GATTCCAGGA CAGAGTTTGG GAAATATGCC
    ATTTACTGCC AGCGATGTGT AGAAAGGACA CAGCAAAACG GAGACCGAGA GGCCAGACCG
    TCCAGGATGG AGATTCTCTC CACTCTTCTT CGAAACCCCT ACCACCATTC TAGGCCCTTC
    AGCATACCCG TGCACTTCAT GAATGGGCTC TACCAGGTAG TGGGGTTCGA TGCATCCACC
    ACAGTGGAAG AATTTTTGAA CACTTTGAAC CAGGACACAG GAATGAGGAA GCCAGCGCAG
    TCTGGATTCG CACTCTTCAC AGATGATCCT TCTGGCAGAG ACCTGGAGCA CTGTCTTCAG
    GGAAATATCA AGATCTGTGA CATTATTTCT AAATGGGAGC AGGCGTCCAA AGAACAGCAG
    CCTGGCAAGT GTGAGGGCAG CCGGACTGTC CGTCTGACTT ACAAAAACAG ACTATATTTC
    TCAATGCAAG CTCGTGGAGA AACCGACAGA GAGAAGCTGC TGCTGCTGTA CCAGACAAAT
    GACCAAATCA TCAATGGCCT TTTCCCTCTG AATAAGGATC TGGCGTTAGA AATGGCAGCG
    CTTTTAGCTC AGGTGGATAT TGGAGATTTT GAAAGACCTT TCTCAACTCC AGCGGGGCCT
    GTGACTAACC AGTGCAAGGC AAATCAAACC CTCAAACAAG TCATAGAGAG ATTTTACCCG
    AAAAGGTACC GAGAAGGGTG CTCTGAGGAG CAGCTAAGGC AGCTCTACCA GCGACTCTCA
    ACCAAATGGA TGGCCCTCCG GGGACACAGT GCGGCTGACT GCATTCGCAT TTACTTGACA
    GTAGCCAGGA AGTGGCCATT CTTTGGCGCC AAGTTGTTCT TTGCAAAACC AATAGCACCA
    TCATCACTTG GCGATAATTC CGTGTGGCTG GCTGTCCATG AAAATGGGTT GAGCATCCTA
    GAATACACCT CCATGAAATT AGTGGTCAGC TATATGTACA AGGGTCTGAT GACCTTTGGG
    GGCTATCAAG AGGATTTCAT GGTAGTCGTT AGTACACAGT CAAAAGACCG GCCAACAGAG
    AAGTTACTTT TTGCTATGGC AAAACACAAG ATTCTTGAAA TCACCCTTCT GATCGCCAGT
    TACATCAACA ACTTCCACCA GCAGAAGACA ACGGTTCACC ACCTCTCTGC CCCAGCGCTG
    CTCTCACCCA GGACCCAGGC GCCCCAAGCC AGGCTCGTGG GCAACCAGCC CGCTCTGTCC
    AACAGCAGAC CTACCAAAGG CCCTACCTTA CTCTGA

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

    CloneID OMv34633
    Clone ID Related Accession (Same CDS sequence) XM_021149120.1 , XM_021149120.2
    Accession Version XM_021149120.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) 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
    4261
    4321
    4381
    4441
    4501
    ATGAATCTGT TCCCGGAGGA GTTGAGAAGA ACTATGGAGG AGCCCTCTGA GCCAGAAGGA 
    CTAATAGACT GGAAAGAGCG CTGCGTAGCT CTGGAGGCTC AGCTCATGAA ATTCCGAGTT
    CAAGCAAGCA AGATCCGAGA GCTCTTAGCA GACAAAATGC AACAGTTGGA GAGACAAGTT
    ATCGATGCAG AACGGCAAGC AGAAAAGGCT TTTCAAGAGG TACAAGTGAT GGAAGAGAAA
    CTAAAAGCAG CTAATATTCA GACCAGTGAG TCAGAGACGC GGCTCTATAA GAAGTGTCAA
    GACCTGGAGT CTGCGATGCA GGAGAAGGAT GGCATCATTC AGAACTTGGC TCTGCGGCTT
    GAAGAGCAGA AACAAGTGAG GATACAAGAA GCTAAAATAA TAGAAGAAAA AGCAGCTAAG
    ATCAAAGAAT GGGTAACAGT TAAGTTAAAC GAGCTAGAAG TAGAGAATCA GAATCTTCGT
    TTCATCAACC AAACCCAGAC TGAAGAGATA AGAGCAATAC AGTCAAAGTT GCAAGAACTC
    CAAGAGAAGA AGATATCCTG TATCTCCACA CCAAAGACCT CAGAAGGGCA ACGCAATTTG
    ACATTTGGAT GTTTCTTGTC CCGAGCAAAG AGTCCTCCTT GTGTAGTAAG ATGTGAGGAA
    GTGAGCAAGA TGGCCTCAAG TGAACCTGAG ATCACGGAAG GAAGATGTGT TGAAGAGATG
    GAAATTGCGG AGAAGCCTGC TGACAACCAA GTCCAAGAGA ACAGCAGAAG CCAGAGAAAT
    TTGCACGAGA CCTCTTGCAG CTCAGAACAG AACCAGAAAA CAAGAGCAAG CTTTGCAATG
    GATGGTGGTA CGTCCCAGAA TTCTGGGGTT CCAGTGAGTG ACTGGAGTTC AGACGAGGAT
    GATGGAAGCA AGGGCAGATC TAAGTCCAGG TGCACATCCA CCCTTTCCAG CCACACGTCT
    GAGGAGGGTG GCCAGTGCGG CAGGCTGGGC AGCGAAGCCT ACCTCACAGC ATCTGATGAC
    AGTAGTTCTA TATTCGAAGA AGAGACTTTT GATGGGAATA GACCCGAGCA AAAGAAGCTG
    TGTTCTTGGC AGCAGAAGGC ACCATGGAAA GCTCAGGGTA ACCTTGCAAA GGGGAGGTCT
    CAGTCAGGAG TAAAGGAACA AGATAGTTCC TCAGATGAAC TGAATAAGAA ATTTCACTCG
    CAGAGACTGG ATTATACATC CTCATCCAGC GAGGCCAACA CCCCAAGCCC TATTTTAACC
    CCAGCTTTAA CTCCCAGATA CCCTAACTCA CTCCCTGGAA AAGGAGGAGT CCCGTTAGTG
    CCTCCTCCAT TCCAGCCACC CCCAAAGCTC AGGGTCCCCA ATGTTTTCAG TATAAGTGTG
    GCACTCACCA AGAGACACCT GAGCCAGCCA CAGCTATGCT CCGACCGGAT GTTTGGCACG
    AACCGGAACG CCATAAGCAT GATCCGGCCG CTGAGGCCCC AGGAAACGGA CCTTGATATG
    GTTGATGGGG ATGGGGCCGA GGCTGTGAAC AGAATGGACA CTGGTGGCGA TGACGGCTTA
    TTTTCCTATG ACTCCCAGGA TCCTCCTCCG TGTGCAGATG ACCAGGAAAA CAGCGAGGCC
    CCAAAGAAGG CCCCGTGCAG CAAACCCCCC ACCCCTCCTC TGCACCGCTT CCCCTCTTGG
    GAGAGCAGGA TATATGCTGT AGCCAAATCA GGCATCCGCG TGTCTGAGGC CTTCAGTATG
    GAGCATGCTA ATAAAAATTC TGCAGACACA CTTTCCTACT CTGCAGCAGG CCTTTATACG
    TCTCTCATAT ACAAGAACAT GACGACCCCA GTCTATACAA CGTTGAAGGG GAAGGCGACA
    CAAATAAGTA GCAGCCCTTT CCTGGATGAC TCCTCGGGCT CAGACGAAGA GGATGGTTCT
    AGGTCCAGCT CCCGGCTGTC GGAGTCAGAT GCGCGCAGTC GCAGTGGGCC AAGCAGTCCC
    AGAGCCATGA AGCGAGGCGT GTCTGACTCC TCCGCGGCTT CTGAAAGTGA TTATGCCATT
    CCTCCGGATG CCTATCCCAT AGACGCAGAG TGTTCGCAGC CTGAGCAGAA ACTTCTAAAA
    ACCTGCCTGG CCTCCTGTGA CAATGGGAAA AATGAACCAT TAGAAAAATC TGGGTACCTA
    CTAAAAATGA GCGCGAGAGT CAAGACTTGG AAGCGGAGGT GGTTTGTTCT GAAAGGAGGC
    GAATTACTTT ACTACAAGTC TCCAAGCGAT GTGATTCGGA AACCCCAGGG CCACATTGAA
    CTGAGTGCAT CCTGCAGTAT TTTACGGGGC GATAACAAGC AAACAGTTCA GCTGGCCACA
    GAGAAGCACA CGTACTATCT GACGGCAGAT TCTCCCAATA TATTGGAAGA ATGGATCAAA
    GTGTTACAGA ACGTTCTTCG AGTACAAGCT GCTAACCCTC TTTGCCTGCA GCCTGAGGGC
    AAACCCGCAG TAAAGGGCTT GCTCACCAAG GTGAAGCATG GCTACTCTAA GAGGGTCTGG
    TGCATGCTTG TTGGAAAGGT CTTGTATTAT TTCCGCAATC AAGAAGATAA GTTCCCTCTA
    GGTCAGCTCA AACTCTGGGA GGCTAAGGTG GAAGAGGTGG ACAGGTCCTG TGACTCAGAC
    GAGGACTATG AGACCCGGGG GTGCTATCTG CTGTCTACTC ACTACACCAT CATTGTCCAC
    CCCAAAGACC AGGGCCCTAC TTACCTGCTC ATCGGATCTA AGCACGAAAA GGAAGCTTGG
    CTGTATCACC TCACTGTTGC AGCTGGAAGC AACAATATAA ATGTTGGATC CGAATTTGAA
    CAACTGGTTT GCAAGTTGCT GAATATAGAA GGGGAGCCCT CCTCCCAGAT ATGGAGACAC
    CCCATGCTGT GTCACAGCAA AGAAGGAATC CTGTCCCCTC TGACCACACT GCCTTCGGAA
    GCTCTGCAGA CCGAGGCCAT TAAGCTATTT AAGACCTGCC AGCTCTTTAT AAACGCTGCA
    GTCGACTCCC CTGCCATCGA CTACCACATC TCTCTAGCCC AGAGTGCGCT GCAGGTCTGC
    CTGACGCATC CTGAGCTACA GAATGAAATC TGCTGCCAGC TTATTAAGCA GACAAGACGG
    AGACAGCTGC AGAACCAGCC AGGCCCACTG CAGGGTTGGC AGCTCTTGGC ACTCTGCGTT
    GGACTCTTCC TTCCCCACCA CCCTTTCCTG TGGCTCCTCC AGCTCCATCT ACAAAGGAAT
    GCAGATTCCA GGACAGAGTT TGGGAAATAT GCCATTTACT GCCAGCGATG TGTAGAAAGG
    ACACAGCAAA ACGGAGACCG AGAGGCCAGA CCGTCCAGGA TGGAGATTCT CTCCACTCTT
    CTTCGAAACC CCTACCACCA TTCTAGGCCC TTCAGCATAC CCGTGCACTT CATGAATGGG
    CTCTACCAGG TAGTGGGGTT CGATGCATCC ACCACAGTGG AAGAATTTTT GAACACTTTG
    AACCAGGACA CAGGAATGAG GAAGCCAGCG CAGTCTGGAT TCGCACTCTT CACAGATGAT
    CCTTCTGGCA GAGACCTGGA GCACTGTCTT CAGGGAAATA TCAAGATCTG TGACATTATT
    TCTAAATGGG AGCAGGCGTC CAAAGAACAG CAGCCTGGCA AGTGTGAGGG CAGCCGGACT
    GTCCGTCTGA CTTACAAAAA CAGACTATAT TTCTCAATGC AAGCTCGTGG AGAAACCGAC
    AGAGAGAAGC TGCTGCTGCT GTACCAGACA AATGACCAAA TCATCAATGG CCTTTTCCCT
    CTGAATAAGG ATCTGGCGTT AGAAATGGCA GCGCTTTTAG CTCAGGTGGA TATTGGAGAT
    TTTGAAAGAC CTTTCTCAAC TCCAGCGGGG CCTGTGACTA ACCAGTGCAA GGCAAATCAA
    ACCCTCAAAC AAGTCATAGA GAGATTTTAC CCGAAAAGGT ACCGAGAAGG GTGCTCTGAG
    GAGCAGCTAA GGCAGCTCTA CCAGCGACTC TCAACCAAAT GGATGGCCCT CCGGGGACAC
    AGTGCGGCTG ACTGCATTCG CATTTACTTG ACAGTAGCCA GGAAGTGGCC ATTCTTTGGC
    GCCAAGTTGT TCTTTGCAAA ACCAATAGCA CCATCATCAC TTGGCGATAA TTCCGTGTGG
    CTGGCTGTCC ATGAAAATGG GTTGAGCATC CTAGAATACA CCTCCATGAA ATTAGTGGTC
    AGCTATATGT ACAAGGGTCT GATGACCTTT GGGGGCTATC AAGAGGATTT CATGGTAGTC
    GTTAGTACAC AGTCAAAAGA CCGGCCAACA GAGAAGTTAC TTTTTGCTAT GGCAAAACAC
    AAGATTCTTG AAATCACCCT TCTGATCGCC AGTTACATCA ACAACTTCCA CCAGCAGAAG
    ACAACGGTTC ACCACCTCTC TGCCCCAGCG CTGCTCTCAC CCAGGACCCA GGCGCCCCAA
    GCCAGGCTCG TGGGCAACCA GCCCGCTCTG TCCAACAGCA GACCTACCAA AGGCCCTACC
    TTACTCTGA

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

    RefSeq XP_021004779.1
    CDS203..4711
    Translation

    Target ORF information:

    RefSeq Version XM_021149120.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021149120.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAATCTGT TCCCGGAGGA GTTGAGAAGA ACTATGGAGG AGCCCTCTGA GCCAGAAGGA 
    CTAATAGACT GGAAAGAGCG CTGCGTAGCT CTGGAGGCTC AGCTCATGAA ATTCCGAGTT
    CAAGCAAGCA AGATCCGAGA GCTCTTAGCA GACAAAATGC AACAGTTGGA GAGACAAGTT
    ATCGATGCAG AACGGCAAGC AGAAAAGGCT TTTCAAGAGG TACAAGTGAT GGAAGAGAAA
    CTAAAAGCAG CTAATATTCA GACCAGTGAG TCAGAGACGC GGCTCTATAA GAAGTGTCAA
    GACCTGGAGT CTGCGATGCA GGAGAAGGAT GGCATCATTC AGAACTTGGC TCTGCGGCTT
    GAAGAGCAGA AACAAGTGAG GATACAAGAA GCTAAAATAA TAGAAGAAAA AGCAGCTAAG
    ATCAAAGAAT GGGTAACAGT TAAGTTAAAC GAGCTAGAAG TAGAGAATCA GAATCTTCGT
    TTCATCAACC AAACCCAGAC TGAAGAGATA AGAGCAATAC AGTCAAAGTT GCAAGAACTC
    CAAGAGAAGA AGATATCCTG TATCTCCACA CCAAAGACCT CAGAAGGGCA ACGCAATTTG
    ACATTTGGAT GTTTCTTGTC CCGAGCAAAG AGTCCTCCTT GTGTAGTAAG ATGTGAGGAA
    GTGAGCAAGA TGGCCTCAAG TGAACCTGAG ATCACGGAAG GAAGATGTGT TGAAGAGATG
    GAAATTGCGG AGAAGCCTGC TGACAACCAA GTCCAAGAGA ACAGCAGAAG CCAGAGAAAT
    TTGCACGAGA CCTCTTGCAG CTCAGAACAG AACCAGAAAA CAAGAGCAAG CTTTGCAATG
    GATGGTGGTA CGTCCCAGAA TTCTGGGGTT CCAGTGAGTG ACTGGAGTTC AGACGAGGAT
    GATGGAAGCA AGGGCAGATC TAAGTCCAGG TGCACATCCA CCCTTTCCAG CCACACGTCT
    GAGGAGGGTG GCCAGTGCGG CAGGCTGGGC AGCGAAGCCT ACCTCACAGC ATCTGATGAC
    AGTAGTTCTA TATTCGAAGA AGAGACTTTT GATGGGAATA GACCCGAGCA AAAGAAGCTG
    TGTTCTTGGC AGCAGAAGGC ACCATGGAAA GCTCAGGGTA ACCTTGCAAA GGGGAGGTCT
    CAGTCAGGAG TAAAGGAACA AGATAGTTCC TCAGATGAAC TGAATAAGAA ATTTCACTCG
    CAGAGACTGG ATTATACATC CTCATCCAGC GAGGCCAACA CCCCAAGCCC TATTTTAACC
    CCAGCTTTAA CTCCCAGATA CCCTAACTCA CTCCCTGGAA AAGGAGGAGT CCCGTTAGTG
    CCTCCTCCAT TCCAGCCACC CCCAAAGCTC AGGGTCCCCA ATGTTTTCAG TATAAGTGTG
    GCACTCACCA AGAGACACCT GAGCCAGCCA CAGCTATGCT CCGACCGGAT GTTTGGCACG
    AACCGGAACG CCATAAGCAT GATCCGGCCG CTGAGGCCCC AGGAAACGGA CCTTGATATG
    GTTGATGGGG ATGGGGCCGA GGCTGTGAAC AGAATGGACA CTGGTGGCGA TGACGGCTTA
    TTTTCCTATG ACTCCCAGGA TCCTCCTCCG TGTGCAGATG ACCAGGAAAA CAGCGAGGCC
    CCAAAGAAGG CCCCGTGCAG CAAACCCCCC ACCCCTCCTC TGCACCGCTT CCCCTCTTGG
    GAGAGCAGGA TATATGCTGT AGCCAAATCA GGCATCCGCG TGTCTGAGGC CTTCAGTATG
    GAGCATGCTA ATAAAAATTC TGCAGACACA CTTTCCTACT CTGCAGCAGG CCTTTATACG
    TCTCTCATAT ACAAGAACAT GACGACCCCA GTCTATACAA CGTTGAAGGG GAAGGCGACA
    CAAATAAGTA GCAGCCCTTT CCTGGATGAC TCCTCGGGCT CAGACGAAGA GGATGGTTCT
    AGGTCCAGCT CCCGGCTGTC GGAGTCAGAT GCGCGCAGTC GCAGTGGGCC AAGCAGTCCC
    AGAGCCATGA AGCGAGGCGT GTCTGACTCC TCCGCGGCTT CTGAAAGTGA TTATGCCATT
    CCTCCGGATG CCTATCCCAT AGACGCAGAG TGTTCGCAGC CTGAGCAGAA ACTTCTAAAA
    ACCTGCCTGG CCTCCTGTGA CAATGGGAAA AATGAACCAT TAGAAAAATC TGGGTACCTA
    CTAAAAATGA GCGCGAGAGT CAAGACTTGG AAGCGGAGGT GGTTTGTTCT GAAAGGAGGC
    GAATTACTTT ACTACAAGTC TCCAAGCGAT GTGATTCGGA AACCCCAGGG CCACATTGAA
    CTGAGTGCAT CCTGCAGTAT TTTACGGGGC GATAACAAGC AAACAGTTCA GCTGGCCACA
    GAGAAGCACA CGTACTATCT GACGGCAGAT TCTCCCAATA TATTGGAAGA ATGGATCAAA
    GTGTTACAGA ACGTTCTTCG AGTACAAGCT GCTAACCCTC TTTGCCTGCA GCCTGAGGGC
    AAACCCGCAG TAAAGGGCTT GCTCACCAAG GTGAAGCATG GCTACTCTAA GAGGGTCTGG
    TGCATGCTTG TTGGAAAGGT CTTGTATTAT TTCCGCAATC AAGAAGATAA GTTCCCTCTA
    GGTCAGCTCA AACTCTGGGA GGCTAAGGTG GAAGAGGTGG ACAGGTCCTG TGACTCAGAC
    GAGGACTATG AGACCCGGGG GTGCTATCTG CTGTCTACTC ACTACACCAT CATTGTCCAC
    CCCAAAGACC AGGGCCCTAC TTACCTGCTC ATCGGATCTA AGCACGAAAA GGAAGCTTGG
    CTGTATCACC TCACTGTTGC AGCTGGAAGC AACAATATAA ATGTTGGATC CGAATTTGAA
    CAACTGGTTT GCAAGTTGCT GAATATAGAA GGGGAGCCCT CCTCCCAGAT ATGGAGACAC
    CCCATGCTGT GTCACAGCAA AGAAGGAATC CTGTCCCCTC TGACCACACT GCCTTCGGAA
    GCTCTGCAGA CCGAGGCCAT TAAGCTATTT AAGACCTGCC AGCTCTTTAT AAACGCTGCA
    GTCGACTCCC CTGCCATCGA CTACCACATC TCTCTAGCCC AGAGTGCGCT GCAGGTCTGC
    CTGACGCATC CTGAGCTACA GAATGAAATC TGCTGCCAGC TTATTAAGCA GACAAGACGG
    AGACAGCTGC AGAACCAGCC AGGCCCACTG CAGGGTTGGC AGCTCTTGGC ACTCTGCGTT
    GGACTCTTCC TTCCCCACCA CCCTTTCCTG TGGCTCCTCC AGCTCCATCT ACAAAGGAAT
    GCAGATTCCA GGACAGAGTT TGGGAAATAT GCCATTTACT GCCAGCGATG TGTAGAAAGG
    ACACAGCAAA ACGGAGACCG AGAGGCCAGA CCGTCCAGGA TGGAGATTCT CTCCACTCTT
    CTTCGAAACC CCTACCACCA TTCTAGGCCC TTCAGCATAC CCGTGCACTT CATGAATGGG
    CTCTACCAGG TAGTGGGGTT CGATGCATCC ACCACAGTGG AAGAATTTTT GAACACTTTG
    AACCAGGACA CAGGAATGAG GAAGCCAGCG CAGTCTGGAT TCGCACTCTT CACAGATGAT
    CCTTCTGGCA GAGACCTGGA GCACTGTCTT CAGGGAAATA TCAAGATCTG TGACATTATT
    TCTAAATGGG AGCAGGCGTC CAAAGAACAG CAGCCTGGCA AGTGTGAGGG CAGCCGGACT
    GTCCGTCTGA CTTACAAAAA CAGACTATAT TTCTCAATGC AAGCTCGTGG AGAAACCGAC
    AGAGAGAAGC TGCTGCTGCT GTACCAGACA AATGACCAAA TCATCAATGG CCTTTTCCCT
    CTGAATAAGG ATCTGGCGTT AGAAATGGCA GCGCTTTTAG CTCAGGTGGA TATTGGAGAT
    TTTGAAAGAC CTTTCTCAAC TCCAGCGGGG CCTGTGACTA ACCAGTGCAA GGCAAATCAA
    ACCCTCAAAC AAGTCATAGA GAGATTTTAC CCGAAAAGGT ACCGAGAAGG GTGCTCTGAG
    GAGCAGCTAA GGCAGCTCTA CCAGCGACTC TCAACCAAAT GGATGGCCCT CCGGGGACAC
    AGTGCGGCTG ACTGCATTCG CATTTACTTG ACAGTAGCCA GGAAGTGGCC ATTCTTTGGC
    GCCAAGTTGT TCTTTGCAAA ACCAATAGCA CCATCATCAC TTGGCGATAA TTCCGTGTGG
    CTGGCTGTCC ATGAAAATGG GTTGAGCATC CTAGAATACA CCTCCATGAA ATTAGTGGTC
    AGCTATATGT ACAAGGGTCT GATGACCTTT GGGGGCTATC AAGAGGATTT CATGGTAGTC
    GTTAGTACAC AGTCAAAAGA CCGGCCAACA GAGAAGTTAC TTTTTGCTAT GGCAAAACAC
    AAGATTCTTG AAATCACCCT TCTGATCGCC AGTTACATCA ACAACTTCCA CCAGCAGAAG
    ACAACGGTTC ACCACCTCTC TGCCCCAGCG CTGCTCTCAC CCAGGACCCA GGCGCCCCAA
    GCCAGGCTCG TGGGCAACCA GCCCGCTCTG TCCAACAGCA GACCTACCAA AGGCCCTACC
    TTACTCTGA

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

    CloneID OMv34633
    Clone ID Related Accession (Same CDS sequence) XM_021149120.1 , XM_021149120.2
    Accession Version XM_021149120.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4509bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) 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_021149120.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAATCTGT TCCCGGAGGA GTTGAGAAGA ACTATGGAGG AGCCCTCTGA GCCAGAAGGA 
    CTAATAGACT GGAAAGAGCG CTGCGTAGCT CTGGAGGCTC AGCTCATGAA ATTCCGAGTT
    CAAGCAAGCA AGATCCGAGA GCTCTTAGCA GACAAAATGC AACAGTTGGA GAGACAAGTT
    ATCGATGCAG AACGGCAAGC AGAAAAGGCT TTTCAAGAGG TACAAGTGAT GGAAGAGAAA
    CTAAAAGCAG CTAATATTCA GACCAGTGAG TCAGAGACGC GGCTCTATAA GAAGTGTCAA
    GACCTGGAGT CTGCGATGCA GGAGAAGGAT GGCATCATTC AGAACTTGGC TCTGCGGCTT
    GAAGAGCAGA AACAAGTGAG GATACAAGAA GCTAAAATAA TAGAAGAAAA AGCAGCTAAG
    ATCAAAGAAT GGGTAACAGT TAAGTTAAAC GAGCTAGAAG TAGAGAATCA GAATCTTCGT
    TTCATCAACC AAACCCAGAC TGAAGAGATA AGAGCAATAC AGTCAAAGTT GCAAGAACTC
    CAAGAGAAGA AGATATCCTG TATCTCCACA CCAAAGACCT CAGAAGGGCA ACGCAATTTG
    ACATTTGGAT GTTTCTTGTC CCGAGCAAAG AGTCCTCCTT GTGTAGTAAG ATGTGAGGAA
    GTGAGCAAGA TGGCCTCAAG TGAACCTGAG ATCACGGAAG GAAGATGTGT TGAAGAGATG
    GAAATTGCGG AGAAGCCTGC TGACAACCAA GTCCAAGAGA ACAGCAGAAG CCAGAGAAAT
    TTGCACGAGA CCTCTTGCAG CTCAGAACAG AACCAGAAAA CAAGAGCAAG CTTTGCAATG
    GATGGTGGTA CGTCCCAGAA TTCTGGGGTT CCAGTGAGTG ACTGGAGTTC AGACGAGGAT
    GATGGAAGCA AGGGCAGATC TAAGTCCAGG TGCACATCCA CCCTTTCCAG CCACACGTCT
    GAGGAGGGTG GCCAGTGCGG CAGGCTGGGC AGCGAAGCCT ACCTCACAGC ATCTGATGAC
    AGTAGTTCTA TATTCGAAGA AGAGACTTTT GATGGGAATA GACCCGAGCA AAAGAAGCTG
    TGTTCTTGGC AGCAGAAGGC ACCATGGAAA GCTCAGGGTA ACCTTGCAAA GGGGAGGTCT
    CAGTCAGGAG TAAAGGAACA AGATAGTTCC TCAGATGAAC TGAATAAGAA ATTTCACTCG
    CAGAGACTGG ATTATACATC CTCATCCAGC GAGGCCAACA CCCCAAGCCC TATTTTAACC
    CCAGCTTTAA CTCCCAGATA CCCTAACTCA CTCCCTGGAA AAGGAGGAGT CCCGTTAGTG
    CCTCCTCCAT TCCAGCCACC CCCAAAGCTC AGGGTCCCCA ATGTTTTCAG TATAAGTGTG
    GCACTCACCA AGAGACACCT GAGCCAGCCA CAGCTATGCT CCGACCGGAT GTTTGGCACG
    AACCGGAACG CCATAAGCAT GATCCGGCCG CTGAGGCCCC AGGAAACGGA CCTTGATATG
    GTTGATGGGG ATGGGGCCGA GGCTGTGAAC AGAATGGACA CTGGTGGCGA TGACGGCTTA
    TTTTCCTATG ACTCCCAGGA TCCTCCTCCG TGTGCAGATG ACCAGGAAAA CAGCGAGGCC
    CCAAAGAAGG CCCCGTGCAG CAAACCCCCC ACCCCTCCTC TGCACCGCTT CCCCTCTTGG
    GAGAGCAGGA TATATGCTGT AGCCAAATCA GGCATCCGCG TGTCTGAGGC CTTCAGTATG
    GAGCATGCTA ATAAAAATTC TGCAGACACA CTTTCCTACT CTGCAGCAGG CCTTTATACG
    TCTCTCATAT ACAAGAACAT GACGACCCCA GTCTATACAA CGTTGAAGGG GAAGGCGACA
    CAAATAAGTA GCAGCCCTTT CCTGGATGAC TCCTCGGGCT CAGACGAAGA GGATGGTTCT
    AGGTCCAGCT CCCGGCTGTC GGAGTCAGAT GCGCGCAGTC GCAGTGGGCC AAGCAGTCCC
    AGAGCCATGA AGCGAGGCGT GTCTGACTCC TCCGCGGCTT CTGAAAGTGA TTATGCCATT
    CCTCCGGATG CCTATCCCAT AGACGCAGAG TGTTCGCAGC CTGAGCAGAA ACTTCTAAAA
    ACCTGCCTGG CCTCCTGTGA CAATGGGAAA AATGAACCAT TAGAAAAATC TGGGTACCTA
    CTAAAAATGA GCGCGAGAGT CAAGACTTGG AAGCGGAGGT GGTTTGTTCT GAAAGGAGGC
    GAATTACTTT ACTACAAGTC TCCAAGCGAT GTGATTCGGA AACCCCAGGG CCACATTGAA
    CTGAGTGCAT CCTGCAGTAT TTTACGGGGC GATAACAAGC AAACAGTTCA GCTGGCCACA
    GAGAAGCACA CGTACTATCT GACGGCAGAT TCTCCCAATA TATTGGAAGA ATGGATCAAA
    GTGTTACAGA ACGTTCTTCG AGTACAAGCT GCTAACCCTC TTTGCCTGCA GCCTGAGGGC
    AAACCCGCAG TAAAGGGCTT GCTCACCAAG GTGAAGCATG GCTACTCTAA GAGGGTCTGG
    TGCATGCTTG TTGGAAAGGT CTTGTATTAT TTCCGCAATC AAGAAGATAA GTTCCCTCTA
    GGTCAGCTCA AACTCTGGGA GGCTAAGGTG GAAGAGGTGG ACAGGTCCTG TGACTCAGAC
    GAGGACTATG AGACCCGGGG GTGCTATCTG CTGTCTACTC ACTACACCAT CATTGTCCAC
    CCCAAAGACC AGGGCCCTAC TTACCTGCTC ATCGGATCTA AGCACGAAAA GGAAGCTTGG
    CTGTATCACC TCACTGTTGC AGCTGGAAGC AACAATATAA ATGTTGGATC CGAATTTGAA
    CAACTGGTTT GCAAGTTGCT GAATATAGAA GGGGAGCCCT CCTCCCAGAT ATGGAGACAC
    CCCATGCTGT GTCACAGCAA AGAAGGAATC CTGTCCCCTC TGACCACACT GCCTTCGGAA
    GCTCTGCAGA CCGAGGCCAT TAAGCTATTT AAGACCTGCC AGCTCTTTAT AAACGCTGCA
    GTCGACTCCC CTGCCATCGA CTACCACATC TCTCTAGCCC AGAGTGCGCT GCAGGTCTGC
    CTGACGCATC CTGAGCTACA GAATGAAATC TGCTGCCAGC TTATTAAGCA GACAAGACGG
    AGACAGCTGC AGAACCAGCC AGGCCCACTG CAGGGTTGGC AGCTCTTGGC ACTCTGCGTT
    GGACTCTTCC TTCCCCACCA CCCTTTCCTG TGGCTCCTCC AGCTCCATCT ACAAAGGAAT
    GCAGATTCCA GGACAGAGTT TGGGAAATAT GCCATTTACT GCCAGCGATG TGTAGAAAGG
    ACACAGCAAA ACGGAGACCG AGAGGCCAGA CCGTCCAGGA TGGAGATTCT CTCCACTCTT
    CTTCGAAACC CCTACCACCA TTCTAGGCCC TTCAGCATAC CCGTGCACTT CATGAATGGG
    CTCTACCAGG TAGTGGGGTT CGATGCATCC ACCACAGTGG AAGAATTTTT GAACACTTTG
    AACCAGGACA CAGGAATGAG GAAGCCAGCG CAGTCTGGAT TCGCACTCTT CACAGATGAT
    CCTTCTGGCA GAGACCTGGA GCACTGTCTT CAGGGAAATA TCAAGATCTG TGACATTATT
    TCTAAATGGG AGCAGGCGTC CAAAGAACAG CAGCCTGGCA AGTGTGAGGG CAGCCGGACT
    GTCCGTCTGA CTTACAAAAA CAGACTATAT TTCTCAATGC AAGCTCGTGG AGAAACCGAC
    AGAGAGAAGC TGCTGCTGCT GTACCAGACA AATGACCAAA TCATCAATGG CCTTTTCCCT
    CTGAATAAGG ATCTGGCGTT AGAAATGGCA GCGCTTTTAG CTCAGGTGGA TATTGGAGAT
    TTTGAAAGAC CTTTCTCAAC TCCAGCGGGG CCTGTGACTA ACCAGTGCAA GGCAAATCAA
    ACCCTCAAAC AAGTCATAGA GAGATTTTAC CCGAAAAGGT ACCGAGAAGG GTGCTCTGAG
    GAGCAGCTAA GGCAGCTCTA CCAGCGACTC TCAACCAAAT GGATGGCCCT CCGGGGACAC
    AGTGCGGCTG ACTGCATTCG CATTTACTTG ACAGTAGCCA GGAAGTGGCC ATTCTTTGGC
    GCCAAGTTGT TCTTTGCAAA ACCAATAGCA CCATCATCAC TTGGCGATAA TTCCGTGTGG
    CTGGCTGTCC ATGAAAATGG GTTGAGCATC CTAGAATACA CCTCCATGAA ATTAGTGGTC
    AGCTATATGT ACAAGGGTCT GATGACCTTT GGGGGCTATC AAGAGGATTT CATGGTAGTC
    GTTAGTACAC AGTCAAAAGA CCGGCCAACA GAGAAGTTAC TTTTTGCTAT GGCAAAACAC
    AAGATTCTTG AAATCACCCT TCTGATCGCC AGTTACATCA ACAACTTCCA CCAGCAGAAG
    ACAACGGTTC ACCACCTCTC TGCCCCAGCG CTGCTCTCAC CCAGGACCCA GGCGCCCCAA
    GCCAGGCTCG TGGGCAACCA GCCCGCTCTG TCCAACAGCA GACCTACCAA AGGCCCTACC
    TTACTCTGA

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

    RefSeq XP_021004779.1
    CDS203..4711
    Translation

    Target ORF information:

    RefSeq Version XM_021149120.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021149120.2

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAATCTGT TCCCGGAGGA GTTGAGAAGA ACTATGGAGG AGCCCTCTGA GCCAGAAGGA 
    CTAATAGACT GGAAAGAGCG CTGCGTAGCT CTGGAGGCTC AGCTCATGAA ATTCCGAGTT
    CAAGCAAGCA AGATCCGAGA GCTCTTAGCA GACAAAATGC AACAGTTGGA GAGACAAGTT
    ATCGATGCAG AACGGCAAGC AGAAAAGGCT TTTCAAGAGG TACAAGTGAT GGAAGAGAAA
    CTAAAAGCAG CTAATATTCA GACCAGTGAG TCAGAGACGC GGCTCTATAA GAAGTGTCAA
    GACCTGGAGT CTGCGATGCA GGAGAAGGAT GGCATCATTC AGAACTTGGC TCTGCGGCTT
    GAAGAGCAGA AACAAGTGAG GATACAAGAA GCTAAAATAA TAGAAGAAAA AGCAGCTAAG
    ATCAAAGAAT GGGTAACAGT TAAGTTAAAC GAGCTAGAAG TAGAGAATCA GAATCTTCGT
    TTCATCAACC AAACCCAGAC TGAAGAGATA AGAGCAATAC AGTCAAAGTT GCAAGAACTC
    CAAGAGAAGA AGATATCCTG TATCTCCACA CCAAAGACCT CAGAAGGGCA ACGCAATTTG
    ACATTTGGAT GTTTCTTGTC CCGAGCAAAG AGTCCTCCTT GTGTAGTAAG ATGTGAGGAA
    GTGAGCAAGA TGGCCTCAAG TGAACCTGAG ATCACGGAAG GAAGATGTGT TGAAGAGATG
    GAAATTGCGG AGAAGCCTGC TGACAACCAA GTCCAAGAGA ACAGCAGAAG CCAGAGAAAT
    TTGCACGAGA CCTCTTGCAG CTCAGAACAG AACCAGAAAA CAAGAGCAAG CTTTGCAATG
    GATGGTGGTA CGTCCCAGAA TTCTGGGGTT CCAGTGAGTG ACTGGAGTTC AGACGAGGAT
    GATGGAAGCA AGGGCAGATC TAAGTCCAGG TGCACATCCA CCCTTTCCAG CCACACGTCT
    GAGGAGGGTG GCCAGTGCGG CAGGCTGGGC AGCGAAGCCT ACCTCACAGC ATCTGATGAC
    AGTAGTTCTA TATTCGAAGA AGAGACTTTT GATGGGAATA GACCCGAGCA AAAGAAGCTG
    TGTTCTTGGC AGCAGAAGGC ACCATGGAAA GCTCAGGGTA ACCTTGCAAA GGGGAGGTCT
    CAGTCAGGAG TAAAGGAACA AGATAGTTCC TCAGATGAAC TGAATAAGAA ATTTCACTCG
    CAGAGACTGG ATTATACATC CTCATCCAGC GAGGCCAACA CCCCAAGCCC TATTTTAACC
    CCAGCTTTAA CTCCCAGATA CCCTAACTCA CTCCCTGGAA AAGGAGGAGT CCCGTTAGTG
    CCTCCTCCAT TCCAGCCACC CCCAAAGCTC AGGGTCCCCA ATGTTTTCAG TATAAGTGTG
    GCACTCACCA AGAGACACCT GAGCCAGCCA CAGCTATGCT CCGACCGGAT GTTTGGCACG
    AACCGGAACG CCATAAGCAT GATCCGGCCG CTGAGGCCCC AGGAAACGGA CCTTGATATG
    GTTGATGGGG ATGGGGCCGA GGCTGTGAAC AGAATGGACA CTGGTGGCGA TGACGGCTTA
    TTTTCCTATG ACTCCCAGGA TCCTCCTCCG TGTGCAGATG ACCAGGAAAA CAGCGAGGCC
    CCAAAGAAGG CCCCGTGCAG CAAACCCCCC ACCCCTCCTC TGCACCGCTT CCCCTCTTGG
    GAGAGCAGGA TATATGCTGT AGCCAAATCA GGCATCCGCG TGTCTGAGGC CTTCAGTATG
    GAGCATGCTA ATAAAAATTC TGCAGACACA CTTTCCTACT CTGCAGCAGG CCTTTATACG
    TCTCTCATAT ACAAGAACAT GACGACCCCA GTCTATACAA CGTTGAAGGG GAAGGCGACA
    CAAATAAGTA GCAGCCCTTT CCTGGATGAC TCCTCGGGCT CAGACGAAGA GGATGGTTCT
    AGGTCCAGCT CCCGGCTGTC GGAGTCAGAT GCGCGCAGTC GCAGTGGGCC AAGCAGTCCC
    AGAGCCATGA AGCGAGGCGT GTCTGACTCC TCCGCGGCTT CTGAAAGTGA TTATGCCATT
    CCTCCGGATG CCTATCCCAT AGACGCAGAG TGTTCGCAGC CTGAGCAGAA ACTTCTAAAA
    ACCTGCCTGG CCTCCTGTGA CAATGGGAAA AATGAACCAT TAGAAAAATC TGGGTACCTA
    CTAAAAATGA GCGCGAGAGT CAAGACTTGG AAGCGGAGGT GGTTTGTTCT GAAAGGAGGC
    GAATTACTTT ACTACAAGTC TCCAAGCGAT GTGATTCGGA AACCCCAGGG CCACATTGAA
    CTGAGTGCAT CCTGCAGTAT TTTACGGGGC GATAACAAGC AAACAGTTCA GCTGGCCACA
    GAGAAGCACA CGTACTATCT GACGGCAGAT TCTCCCAATA TATTGGAAGA ATGGATCAAA
    GTGTTACAGA ACGTTCTTCG AGTACAAGCT GCTAACCCTC TTTGCCTGCA GCCTGAGGGC
    AAACCCGCAG TAAAGGGCTT GCTCACCAAG GTGAAGCATG GCTACTCTAA GAGGGTCTGG
    TGCATGCTTG TTGGAAAGGT CTTGTATTAT TTCCGCAATC AAGAAGATAA GTTCCCTCTA
    GGTCAGCTCA AACTCTGGGA GGCTAAGGTG GAAGAGGTGG ACAGGTCCTG TGACTCAGAC
    GAGGACTATG AGACCCGGGG GTGCTATCTG CTGTCTACTC ACTACACCAT CATTGTCCAC
    CCCAAAGACC AGGGCCCTAC TTACCTGCTC ATCGGATCTA AGCACGAAAA GGAAGCTTGG
    CTGTATCACC TCACTGTTGC AGCTGGAAGC AACAATATAA ATGTTGGATC CGAATTTGAA
    CAACTGGTTT GCAAGTTGCT GAATATAGAA GGGGAGCCCT CCTCCCAGAT ATGGAGACAC
    CCCATGCTGT GTCACAGCAA AGAAGGAATC CTGTCCCCTC TGACCACACT GCCTTCGGAA
    GCTCTGCAGA CCGAGGCCAT TAAGCTATTT AAGACCTGCC AGCTCTTTAT AAACGCTGCA
    GTCGACTCCC CTGCCATCGA CTACCACATC TCTCTAGCCC AGAGTGCGCT GCAGGTCTGC
    CTGACGCATC CTGAGCTACA GAATGAAATC TGCTGCCAGC TTATTAAGCA GACAAGACGG
    AGACAGCTGC AGAACCAGCC AGGCCCACTG CAGGGTTGGC AGCTCTTGGC ACTCTGCGTT
    GGACTCTTCC TTCCCCACCA CCCTTTCCTG TGGCTCCTCC AGCTCCATCT ACAAAGGAAT
    GCAGATTCCA GGACAGAGTT TGGGAAATAT GCCATTTACT GCCAGCGATG TGTAGAAAGG
    ACACAGCAAA ACGGAGACCG AGAGGCCAGA CCGTCCAGGA TGGAGATTCT CTCCACTCTT
    CTTCGAAACC CCTACCACCA TTCTAGGCCC TTCAGCATAC CCGTGCACTT CATGAATGGG
    CTCTACCAGG TAGTGGGGTT CGATGCATCC ACCACAGTGG AAGAATTTTT GAACACTTTG
    AACCAGGACA CAGGAATGAG GAAGCCAGCG CAGTCTGGAT TCGCACTCTT CACAGATGAT
    CCTTCTGGCA GAGACCTGGA GCACTGTCTT CAGGGAAATA TCAAGATCTG TGACATTATT
    TCTAAATGGG AGCAGGCGTC CAAAGAACAG CAGCCTGGCA AGTGTGAGGG CAGCCGGACT
    GTCCGTCTGA CTTACAAAAA CAGACTATAT TTCTCAATGC AAGCTCGTGG AGAAACCGAC
    AGAGAGAAGC TGCTGCTGCT GTACCAGACA AATGACCAAA TCATCAATGG CCTTTTCCCT
    CTGAATAAGG ATCTGGCGTT AGAAATGGCA GCGCTTTTAG CTCAGGTGGA TATTGGAGAT
    TTTGAAAGAC CTTTCTCAAC TCCAGCGGGG CCTGTGACTA ACCAGTGCAA GGCAAATCAA
    ACCCTCAAAC AAGTCATAGA GAGATTTTAC CCGAAAAGGT ACCGAGAAGG GTGCTCTGAG
    GAGCAGCTAA GGCAGCTCTA CCAGCGACTC TCAACCAAAT GGATGGCCCT CCGGGGACAC
    AGTGCGGCTG ACTGCATTCG CATTTACTTG ACAGTAGCCA GGAAGTGGCC ATTCTTTGGC
    GCCAAGTTGT TCTTTGCAAA ACCAATAGCA CCATCATCAC TTGGCGATAA TTCCGTGTGG
    CTGGCTGTCC ATGAAAATGG GTTGAGCATC CTAGAATACA CCTCCATGAA ATTAGTGGTC
    AGCTATATGT ACAAGGGTCT GATGACCTTT GGGGGCTATC AAGAGGATTT CATGGTAGTC
    GTTAGTACAC AGTCAAAAGA CCGGCCAACA GAGAAGTTAC TTTTTGCTAT GGCAAAACAC
    AAGATTCTTG AAATCACCCT TCTGATCGCC AGTTACATCA ACAACTTCCA CCAGCAGAAG
    ACAACGGTTC ACCACCTCTC TGCCCCAGCG CTGCTCTCAC CCAGGACCCA GGCGCCCCAA
    GCCAGGCTCG TGGGCAACCA GCCCGCTCTG TCCAACAGCA GACCTACCAA AGGCCCTACC
    TTACTCTGA

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

    CloneID OMv70463
    Clone ID Related Accession (Same CDS sequence) XM_029471536.1
    Accession Version XM_029471536.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4506bp)
    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 pleckstrin homology domain-containing family H member 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034586.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Mus caroli Annotation Release 101 Annotation Version :: 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAATCTGT TCCCGGAGGA GTTGAGAACT ATGGAGGAGC CCTCTGAGCC AGAAGGACTA 
    ATAGACTGGA AAGAGCGCTG CGTAGCTCTG GAGGCTCAGC TCATGAAATT CCGAGTTCAA
    GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC AAAATGCAAC AGTTGGAGAG ACAAGTTATC
    GATGCAGAAC GGCAAGCAGA AAAGGCTTTT CAAGAGGTAC AAGTGATGGA AGAGAAACTA
    AAAGCAGCTA ATATTCAGAC CAGTGAGTCA GAGACGCGGC TCTATAAGAA GTGTCAAGAC
    CTGGAGTCTG CGATGCAGGA GAAGGATGGC ATCATTCAGA ACTTGGCTCT GCGGCTTGAA
    GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT AAAATAATAG AAGAAAAAGC AGCTAAGATC
    AAAGAATGGG TAACAGTTAA GTTAAACGAG CTAGAAGTAG AGAATCAGAA TCTTCGTTTC
    ATCAACCAAA CCCAGACTGA AGAGATAAGA GCAATACAGT CAAAGTTGCA AGAACTCCAA
    GAGAAGAAGA TATCCTGTAT CTCCACACCA AAGACCTCAG AAGGGCAACG CAATTTGACA
    TTTGGATGTT TCTTGTCCCG AGCAAAGAGT CCTCCTTGTG TAGTAAGATG TGAGGAAGTG
    AGCAAGATGG CCTCAAGTGA ACCTGAGATC ACGGAAGGAA GATGTGTTGA AGAGATGGAA
    ATTGCGGAGA AGCCTGCTGA CAACCAAGTC CAAGAGAACA GCAGAAGCCA GAGAAATTTG
    CACGAGACCT CTTGCAGCTC AGAACAGAAC CAGAAAACAA GAGCAAGCTT TGCAATGGAT
    GGTGGTACGT CCCAGAATTC TGGGGTTCCA GTGAGTGACT GGAGTTCAGA CGAGGATGAT
    GGAAGCAAGG GCAGATCTAA GTCCAGGTGC ACATCCACCC TTTCCAGCCA CACGTCTGAG
    GAGGGTGGCC AGTGCGGCAG GCTGGGCAGC GAAGCCTACC TCACAGCATC TGATGACAGT
    AGTTCTATAT TCGAAGAAGA GACTTTTGAT GGGAATAGAC CCGAGCAAAA GAAGCTGTGT
    TCTTGGCAGC AGAAGGCACC ATGGAAAGCT CAGGGTAACC TTGCAAAGGG GAGGTCTCAG
    TCAGGAGTAA AGGAACAAGA TAGTTCCTCA GATGAACTGA ATAAGAAATT TCACTCGCAG
    AGACTGGATT ATACATCCTC ATCCAGCGAG GCCAACACCC CAAGCCCTAT TTTAACCCCA
    GCTTTAACTC CCAGATACCC TAACTCACTC CCTGGAAAAG GAGGAGTCCC GTTAGTGCCT
    CCTCCATTCC AGCCACCCCC AAAGCTCAGG GTCCCCAATG TTTTCAGTAT AAGTGTGGCA
    CTCACCAAGA GACACCTGAG CCAGCCACAG CTATGCTCCG ACCGGATGTT TGGCACGAAC
    CGGAACGCCA TAAGCATGAT CCGGCCGCTG AGGCCCCAGG AAACGGACCT TGATATGGTT
    GATGGGGATG GGGCCGAGGC TGTGAACAGA ATGGACACTG GTGGCGATGA CGGCTTATTT
    TCCTATGACT CCCAGGATCC TCCTCCGTGT GCAGATGACC AGGAAAACAG CGAGGCCCCA
    AAGAAGGCCC CGTGCAGCAA ACCCCCCACC CCTCCTCTGC ACCGCTTCCC CTCTTGGGAG
    AGCAGGATAT ATGCTGTAGC CAAATCAGGC ATCCGCGTGT CTGAGGCCTT CAGTATGGAG
    CATGCTAATA AAAATTCTGC AGACACACTT TCCTACTCTG CAGCAGGCCT TTATACGTCT
    CTCATATACA AGAACATGAC GACCCCAGTC TATACAACGT TGAAGGGGAA GGCGACACAA
    ATAAGTAGCA GCCCTTTCCT GGATGACTCC TCGGGCTCAG ACGAAGAGGA TGGTTCTAGG
    TCCAGCTCCC GGCTGTCGGA GTCAGATGCG CGCAGTCGCA GTGGGCCAAG CAGTCCCAGA
    GCCATGAAGC GAGGCGTGTC TGACTCCTCC GCGGCTTCTG AAAGTGATTA TGCCATTCCT
    CCGGATGCCT ATCCCATAGA CGCAGAGTGT TCGCAGCCTG AGCAGAAACT TCTAAAAACC
    TGCCTGGCCT CCTGTGACAA TGGGAAAAAT GAACCATTAG AAAAATCTGG GTACCTACTA
    AAAATGAGCG CGAGAGTCAA GACTTGGAAG CGGAGGTGGT TTGTTCTGAA AGGAGGCGAA
    TTACTTTACT ACAAGTCTCC AAGCGATGTG ATTCGGAAAC CCCAGGGCCA CATTGAACTG
    AGTGCATCCT GCAGTATTTT ACGGGGCGAT AACAAGCAAA CAGTTCAGCT GGCCACAGAG
    AAGCACACGT ACTATCTGAC GGCAGATTCT CCCAATATAT TGGAAGAATG GATCAAAGTG
    TTACAGAACG TTCTTCGAGT ACAAGCTGCT AACCCTCTTT GCCTGCAGCC TGAGGGCAAA
    CCCGCAGTAA AGGGCTTGCT CACCAAGGTG AAGCATGGCT ACTCTAAGAG GGTCTGGTGC
    ATGCTTGTTG GAAAGGTCTT GTATTATTTC CGCAATCAAG AAGATAAGTT CCCTCTAGGT
    CAGCTCAAAC TCTGGGAGGC TAAGGTGGAA GAGGTGGACA GGTCCTGTGA CTCAGACGAG
    GACTATGAGA CCCGGGGGTG CTATCTGCTG TCTACTCACT ACACCATCAT TGTCCACCCC
    AAAGACCAGG GCCCTACTTA CCTGCTCATC GGATCTAAGC ACGAAAAGGA AGCTTGGCTG
    TATCACCTCA CTGTTGCAGC TGGAAGCAAC AATATAAATG TTGGATCCGA ATTTGAACAA
    CTGGTTTGCA AGTTGCTGAA TATAGAAGGG GAGCCCTCCT CCCAGATATG GAGACACCCC
    ATGCTGTGTC ACAGCAAAGA AGGAATCCTG TCCCCTCTGA CCACACTGCC TTCGGAAGCT
    CTGCAGACCG AGGCCATTAA GCTATTTAAG ACCTGCCAGC TCTTTATAAA CGCTGCAGTC
    GACTCCCCTG CCATCGACTA CCACATCTCT CTAGCCCAGA GTGCGCTGCA GGTCTGCCTG
    ACGCATCCTG AGCTACAGAA TGAAATCTGC TGCCAGCTTA TTAAGCAGAC AAGACGGAGA
    CAGCTGCAGA ACCAGCCAGG CCCACTGCAG GGTTGGCAGC TCTTGGCACT CTGCGTTGGA
    CTCTTCCTTC CCCACCACCC TTTCCTGTGG CTCCTCCAGC TCCATCTACA AAGGAATGCA
    GATTCCAGGA CAGAGTTTGG GAAATATGCC ATTTACTGCC AGCGATGTGT AGAAAGGACA
    CAGCAAAACG GAGACCGAGA GGCCAGACCG TCCAGGATGG AGATTCTCTC CACTCTTCTT
    CGAAACCCCT ACCACCATTC TAGGCCCTTC AGCATACCCG TGCACTTCAT GAATGGGCTC
    TACCAGGTAG TGGGGTTCGA TGCATCCACC ACAGTGGAAG AATTTTTGAA CACTTTGAAC
    CAGGACACAG GAATGAGGAA GCCAGCGCAG TCTGGATTCG CACTCTTCAC AGATGATCCT
    TCTGGCAGAG ACCTGGAGCA CTGTCTTCAG GGAAATATCA AGATCTGTGA CATTATTTCT
    AAATGGGAGC AGGCGTCCAA AGAACAGCAG CCTGGCAAGT GTGAGGGCAG CCGGACTGTC
    CGTCTGACTT ACAAAAACAG ACTATATTTC TCAATGCAAG CTCGTGGAGA AACCGACAGA
    GAGAAGCTGC TGCTGCTGTA CCAGACAAAT GACCAAATCA TCAATGGCCT TTTCCCTCTG
    AATAAGGATC TGGCGTTAGA AATGGCAGCG CTTTTAGCTC AGGTGGATAT TGGAGATTTT
    GAAAGACCTT TCTCAACTCC AGCGGGGCCT GTGACTAACC AGTGCAAGGC AAATCAAACC
    CTCAAACAAG TCATAGAGAG ATTTTACCCG AAAAGGTACC GAGAAGGGTG CTCTGAGGAG
    CAGCTAAGGC AGCTCTACCA GCGACTCTCA ACCAAATGGA TGGCCCTCCG GGGACACAGT
    GCGGCTGACT GCATTCGCAT TTACTTGACA GTAGCCAGGA AGTGGCCATT CTTTGGCGCC
    AAGTTGTTCT TTGCAAAACC AATAGCACCA TCATCACTTG GCGATAATTC CGTGTGGCTG
    GCTGTCCATG AAAATGGGTT GAGCATCCTA GAATACACCT CCATGAAATT AGTGGTCAGC
    TATATGTACA AGGGTCTGAT GACCTTTGGG GGCTATCAAG AGGATTTCAT GGTAGTCGTT
    AGTACACAGT CAAAAGACCG GCCAACAGAG AAGTTACTTT TTGCTATGGC AAAACACAAG
    ATTCTTGAAA TCACCCTTCT GATCGCCAGT TACATCAACA ACTTCCACCA GCAGAAGACA
    ACGGTTCACC ACCTCTCTGC CCCAGCGCTG CTCTCACCCA GGACCCAGGC GCCCCAAGCC
    AGGCTCGTGG GCAACCAGCC CGCTCTGTCC AACAGCAGAC CTACCAAAGG CCCTACCTTA
    CTCTGA

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

    RefSeq XP_029327396.1
    CDS203..4708
    Translation

    Target ORF information:

    RefSeq Version XM_029471536.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli pleckstrin homology, MyTH4 and FERM domain containing H2 (Plekhh2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029471536.1

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    ATGAATCTGT TCCCGGAGGA GTTGAGAACT ATGGAGGAGC CCTCTGAGCC AGAAGGACTA 
    ATAGACTGGA AAGAGCGCTG CGTAGCTCTG GAGGCTCAGC TCATGAAATT CCGAGTTCAA
    GCAAGCAAGA TCCGAGAGCT CTTAGCAGAC AAAATGCAAC AGTTGGAGAG ACAAGTTATC
    GATGCAGAAC GGCAAGCAGA AAAGGCTTTT CAAGAGGTAC AAGTGATGGA AGAGAAACTA
    AAAGCAGCTA ATATTCAGAC CAGTGAGTCA GAGACGCGGC TCTATAAGAA GTGTCAAGAC
    CTGGAGTCTG CGATGCAGGA GAAGGATGGC ATCATTCAGA ACTTGGCTCT GCGGCTTGAA
    GAGCAGAAAC AAGTGAGGAT ACAAGAAGCT AAAATAATAG AAGAAAAAGC AGCTAAGATC
    AAAGAATGGG TAACAGTTAA GTTAAACGAG CTAGAAGTAG AGAATCAGAA TCTTCGTTTC
    ATCAACCAAA CCCAGACTGA AGAGATAAGA GCAATACAGT CAAAGTTGCA AGAACTCCAA
    GAGAAGAAGA TATCCTGTAT CTCCACACCA AAGACCTCAG AAGGGCAACG CAATTTGACA
    TTTGGATGTT TCTTGTCCCG AGCAAAGAGT CCTCCTTGTG TAGTAAGATG TGAGGAAGTG
    AGCAAGATGG CCTCAAGTGA ACCTGAGATC ACGGAAGGAA GATGTGTTGA AGAGATGGAA
    ATTGCGGAGA AGCCTGCTGA CAACCAAGTC CAAGAGAACA GCAGAAGCCA GAGAAATTTG
    CACGAGACCT CTTGCAGCTC AGAACAGAAC CAGAAAACAA GAGCAAGCTT TGCAATGGAT
    GGTGGTACGT CCCAGAATTC TGGGGTTCCA GTGAGTGACT GGAGTTCAGA CGAGGATGAT
    GGAAGCAAGG GCAGATCTAA GTCCAGGTGC ACATCCACCC TTTCCAGCCA CACGTCTGAG
    GAGGGTGGCC AGTGCGGCAG GCTGGGCAGC GAAGCCTACC TCACAGCATC TGATGACAGT
    AGTTCTATAT TCGAAGAAGA GACTTTTGAT GGGAATAGAC CCGAGCAAAA GAAGCTGTGT
    TCTTGGCAGC AGAAGGCACC ATGGAAAGCT CAGGGTAACC TTGCAAAGGG GAGGTCTCAG
    TCAGGAGTAA AGGAACAAGA TAGTTCCTCA GATGAACTGA ATAAGAAATT TCACTCGCAG
    AGACTGGATT ATACATCCTC ATCCAGCGAG GCCAACACCC CAAGCCCTAT TTTAACCCCA
    GCTTTAACTC CCAGATACCC TAACTCACTC CCTGGAAAAG GAGGAGTCCC GTTAGTGCCT
    CCTCCATTCC AGCCACCCCC AAAGCTCAGG GTCCCCAATG TTTTCAGTAT AAGTGTGGCA
    CTCACCAAGA GACACCTGAG CCAGCCACAG CTATGCTCCG ACCGGATGTT TGGCACGAAC
    CGGAACGCCA TAAGCATGAT CCGGCCGCTG AGGCCCCAGG AAACGGACCT TGATATGGTT
    GATGGGGATG GGGCCGAGGC TGTGAACAGA ATGGACACTG GTGGCGATGA CGGCTTATTT
    TCCTATGACT CCCAGGATCC TCCTCCGTGT GCAGATGACC AGGAAAACAG CGAGGCCCCA
    AAGAAGGCCC CGTGCAGCAA ACCCCCCACC CCTCCTCTGC ACCGCTTCCC CTCTTGGGAG
    AGCAGGATAT ATGCTGTAGC CAAATCAGGC ATCCGCGTGT CTGAGGCCTT CAGTATGGAG
    CATGCTAATA AAAATTCTGC AGACACACTT TCCTACTCTG CAGCAGGCCT TTATACGTCT
    CTCATATACA AGAACATGAC GACCCCAGTC TATACAACGT TGAAGGGGAA GGCGACACAA
    ATAAGTAGCA GCCCTTTCCT GGATGACTCC TCGGGCTCAG ACGAAGAGGA TGGTTCTAGG
    TCCAGCTCCC GGCTGTCGGA GTCAGATGCG CGCAGTCGCA GTGGGCCAAG CAGTCCCAGA
    GCCATGAAGC GAGGCGTGTC TGACTCCTCC GCGGCTTCTG AAAGTGATTA TGCCATTCCT
    CCGGATGCCT ATCCCATAGA CGCAGAGTGT TCGCAGCCTG AGCAGAAACT TCTAAAAACC
    TGCCTGGCCT CCTGTGACAA TGGGAAAAAT GAACCATTAG AAAAATCTGG GTACCTACTA
    AAAATGAGCG CGAGAGTCAA GACTTGGAAG CGGAGGTGGT TTGTTCTGAA AGGAGGCGAA
    TTACTTTACT ACAAGTCTCC AAGCGATGTG ATTCGGAAAC CCCAGGGCCA CATTGAACTG
    AGTGCATCCT GCAGTATTTT ACGGGGCGAT AACAAGCAAA CAGTTCAGCT GGCCACAGAG
    AAGCACACGT ACTATCTGAC GGCAGATTCT CCCAATATAT TGGAAGAATG GATCAAAGTG
    TTACAGAACG TTCTTCGAGT ACAAGCTGCT AACCCTCTTT GCCTGCAGCC TGAGGGCAAA
    CCCGCAGTAA AGGGCTTGCT CACCAAGGTG AAGCATGGCT ACTCTAAGAG GGTCTGGTGC
    ATGCTTGTTG GAAAGGTCTT GTATTATTTC CGCAATCAAG AAGATAAGTT CCCTCTAGGT
    CAGCTCAAAC TCTGGGAGGC TAAGGTGGAA GAGGTGGACA GGTCCTGTGA CTCAGACGAG
    GACTATGAGA CCCGGGGGTG CTATCTGCTG TCTACTCACT ACACCATCAT TGTCCACCCC
    AAAGACCAGG GCCCTACTTA CCTGCTCATC GGATCTAAGC ACGAAAAGGA AGCTTGGCTG
    TATCACCTCA CTGTTGCAGC TGGAAGCAAC AATATAAATG TTGGATCCGA ATTTGAACAA
    CTGGTTTGCA AGTTGCTGAA TATAGAAGGG GAGCCCTCCT CCCAGATATG GAGACACCCC
    ATGCTGTGTC ACAGCAAAGA AGGAATCCTG TCCCCTCTGA CCACACTGCC TTCGGAAGCT
    CTGCAGACCG AGGCCATTAA GCTATTTAAG ACCTGCCAGC TCTTTATAAA CGCTGCAGTC
    GACTCCCCTG CCATCGACTA CCACATCTCT CTAGCCCAGA GTGCGCTGCA GGTCTGCCTG
    ACGCATCCTG AGCTACAGAA TGAAATCTGC TGCCAGCTTA TTAAGCAGAC AAGACGGAGA
    CAGCTGCAGA ACCAGCCAGG CCCACTGCAG GGTTGGCAGC TCTTGGCACT CTGCGTTGGA
    CTCTTCCTTC CCCACCACCC TTTCCTGTGG CTCCTCCAGC TCCATCTACA AAGGAATGCA
    GATTCCAGGA CAGAGTTTGG GAAATATGCC ATTTACTGCC AGCGATGTGT AGAAAGGACA
    CAGCAAAACG GAGACCGAGA GGCCAGACCG TCCAGGATGG AGATTCTCTC CACTCTTCTT
    CGAAACCCCT ACCACCATTC TAGGCCCTTC AGCATACCCG TGCACTTCAT GAATGGGCTC
    TACCAGGTAG TGGGGTTCGA TGCATCCACC ACAGTGGAAG AATTTTTGAA CACTTTGAAC
    CAGGACACAG GAATGAGGAA GCCAGCGCAG TCTGGATTCG CACTCTTCAC AGATGATCCT
    TCTGGCAGAG ACCTGGAGCA CTGTCTTCAG GGAAATATCA AGATCTGTGA CATTATTTCT
    AAATGGGAGC AGGCGTCCAA AGAACAGCAG CCTGGCAAGT GTGAGGGCAG CCGGACTGTC
    CGTCTGACTT ACAAAAACAG ACTATATTTC TCAATGCAAG CTCGTGGAGA AACCGACAGA
    GAGAAGCTGC TGCTGCTGTA CCAGACAAAT GACCAAATCA TCAATGGCCT TTTCCCTCTG
    AATAAGGATC TGGCGTTAGA AATGGCAGCG CTTTTAGCTC AGGTGGATAT TGGAGATTTT
    GAAAGACCTT TCTCAACTCC AGCGGGGCCT GTGACTAACC AGTGCAAGGC AAATCAAACC
    CTCAAACAAG TCATAGAGAG ATTTTACCCG AAAAGGTACC GAGAAGGGTG CTCTGAGGAG
    CAGCTAAGGC AGCTCTACCA GCGACTCTCA ACCAAATGGA TGGCCCTCCG GGGACACAGT
    GCGGCTGACT GCATTCGCAT TTACTTGACA GTAGCCAGGA AGTGGCCATT CTTTGGCGCC
    AAGTTGTTCT TTGCAAAACC AATAGCACCA TCATCACTTG GCGATAATTC CGTGTGGCTG
    GCTGTCCATG AAAATGGGTT GAGCATCCTA GAATACACCT CCATGAAATT AGTGGTCAGC
    TATATGTACA AGGGTCTGAT GACCTTTGGG GGCTATCAAG AGGATTTCAT GGTAGTCGTT
    AGTACACAGT CAAAAGACCG GCCAACAGAG AAGTTACTTT TTGCTATGGC AAAACACAAG
    ATTCTTGAAA TCACCCTTCT GATCGCCAGT TACATCAACA ACTTCCACCA GCAGAAGACA
    ACGGTTCACC ACCTCTCTGC CCCAGCGCTG CTCTCACCCA GGACCCAGGC GCCCCAAGCC
    AGGCTCGTGG GCAACCAGCC CGCTCTGTCC AACAGCAGAC CTACCAAAGG CCCTACCTTA
    CTCTGA

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