Pxdn cDNA ORF clone, Mus caroli(Ryukyu mouse)

The following Pxdn gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Pxdn 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
OMv28609 XM_021178873.2
Latest version!
Mus caroli peroxidasin (Pxdn), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
OMv68239 XM_029484621.1
Latest version!
Mus caroli peroxidasin (Pxdn), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
View Old Accession Versions >>
OMv28609 XM_021178873.1 Mus caroli peroxidasin (Pxdn), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
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 OMv28609
    Clone ID Related Accession (Same CDS sequence) XM_021178873.1 , XM_021178873.2
    Accession Version XM_021178873.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4428bp)
    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 peroxidasin homolog
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) 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
    ATGGCCGTGC GCCCCACGCG CCGCTGTCTG CTGGCGCTCG TGCTGTGCTT TGCCTGGTGG 
    GACATGGCGG TGGTCGCCTC GAAGCAAGGG GCAGGCTGTC CAAGCCGCTG CCTGTGCTTC
    CGTACCACCG TGCGCTGCAT GCATCTGTTG CTGGAGGCCG TGCCCGCCGT GGCGCCGCAG
    ACCTCCATCC TAGATCTTCG GTTCAACAGA ATCAGAGAGA TCCAACCCGG GGCGTTCAGG
    AGGCTGAAGA ACTTGAACAC ACTGCTTCTT AACAACAACC AGATCAAGAA GATTCCCAAT
    GGTGCATTTG AGGACCTGGA GAACTTAAAA TACCTCTATT TGTACAAGAA TGAGATCCAG
    TCAATTGACA GGCAAGCATT TAAGGGACTT GCCTCTCTAG AGCAACTGTA CCTGCACTTT
    AATCAGATAG AAACGCTGGA CCCTGAATCC TTCCAGCACC TGCCAAAGCT GGAGAGACTG
    TTTTTGCACA ACAACCGTAT CACACACTTA GTTCCTGGGA CGTTCAGTCA GTTAGAGTCC
    ATGAAACGAC TGCGATTGGA CTCGAATGCA CTCCACTGTG ACTGTGAAAT CCTATGGCTA
    GCGGATCTAC TGAAGACCTA CGCCCAATCT GGAAACGCAC AAGCAGCAGC TACCTGCGAG
    TATCCCAGAC GCATCCAAGG ACGCTCTGTG GCTACCATCA CCCCAGAAGA GCTGAACTGT
    GAAAGGCCCC GGATTACCTC AGAGCCACAG GATGCAGATG TCACCTCAGG GAACACAGTG
    TACTTCACCT GCAGAGCTGA GGGCAACCCC AAACCTGAGA TCATCTGGCT TCGAAACAAT
    AATGAGTTGA GCATGAAGAC GGACTCTCGC TTAAACTTGC TGGACGATGG CACGCTGATG
    ATCCAGAACA CACAGGAGGC AGATGAGGGT GTCTACCAGT GCATGGCGAA AAATGTGGCT
    GGAGAGGCGA AAACGCAGGA GGTGACCCTC AGGTACTTGG GGTCTCCAGC CCGACCCACT
    TTTGTAATCC AGCCGCAGAA CACAGAGGTA CTGGTGGGTG AGAGTGTCAC TCTGGAGTGC
    AGTGCCACAG GCCACCCTCT GCCTCAGATC ACCTGGACAA GAGGTGACCG GACACCCTTG
    CCAATTGACC CTCGAGTGAA TATCACTCCC TCTGGAGGAC TGTATATACA GAACGTGGCC
    CAGAGTGATA GCGGCGAGTA CACGTGCTTT GCATCCAACA GTGTGGACAG TATCCATGCC
    ACAGCCTTCA TCATTGTACA AGCCCTTCCT CAGTTCACTG TGACCCCACA GAGCCGAGTG
    GTCATTGAAG GGCAGACTGT GGATTTCCAA TGTGAGGCTA AGGGATACCC TCAGCCAGTC
    ATCGCCTGGA CCAAGGGAGG GAGCCAGCTC TCAGTGGACA GGCGGCACCT GGTGCTGTCC
    TCAGGAACAC TCAGGATTTC TGGGGTGGCT CTGCATGACC AGGGCCAGTA TGAGTGCCAG
    GCCGTCAATA TCATTGGCTC CCAGAAGGTC GTGGCCCACC TGACAGTACA GCCTCGAGTC
    ACCCCGGTAT TTGCCAGCAT TCCCAGTGAC ATGACTGTAG AGGTGGGCAC CAATGTGCAG
    CTGCCTTGTA GCTCCCAGGG GGAACCAGAG CCAGCCATCA CCTGGAACAA GGATGGTGTT
    CAGGTAACAG AAAGTGGAAA ATTTCACATC AGCCCCGAAG GATTCTTGAC CATCAATGAT
    GTTGGCACTG CCGACGCAGG TCGCTATGAG TGTGTAGCTC GGAACACAAT TGGATATGCC
    TCAGTGAGCA TGGTACTCAG TGTGAATGTT CCTGATGTAA GTCGGAATGG GGATCCATAT
    GTTGCTACCT CTATTGTTGA AGCCATTGCA ACTGTTGACA GAGCCATCAA CTCTACAAGG
    ACACACTTGT TTGACAGCCG TCCTCGTTCG CCAAATGACC TTCTCGCTCT GTTCCGGTAC
    CCACGGGATC CATACACAGT GGGACAAGCC AGGGCAGGAG AGATATTCGA GCGGACCCTG
    CAGCTGATCC AGGAGCATGT TCAGCATGGC TTGATGGTGG ACTTGAATGG AACAAGTTAC
    CACTACAATG ATCTGGTGTC CCCGCAGTAC CTGAGCCTCA TCGCCAACCT GTCAGGCTGC
    ACTGCACACC GTCGCGTGAA CAACTGCTCA GATATGTGCT TCCACCAGAA GTATAGGACG
    CATGATGGCA CGTGCAACAA TCTACAGCAC CCGATGTGGG GTGCCTCACT GACCGCCTTT
    GAGCGCCTGT TGAAGGCTGT GTATGAGAAT GGATTCAACA CACCCCGGGG CATTAATTCC
    CAGCGTCAGT ACAATGGGCA TGTACTACCC ATGCCTCGCC TGGTGTCCAC CACACTGATT
    GGGACAGAGG TGATCACCCC CGATGAGCAG TTTACACACA TGCTGATGCA ATGGGGCCAG
    TTCCTTGACC ATGACCTAGA CTCTACAGTG GTAGCCCTGA GCCAGGCCCG CTTCTCTGAT
    GGGCAGCATT GCAGCTCAGT ATGCAGCAAT GACCCTCCCT GTTTCTCGGT CATGATCCCC
    CCCAATGATC CCCGGGTGCG GAGTGGCGCC CGATGCATGT TCTTCGTGCG ATCGAGCCCC
    GTGTGTGGCA GCGGCATGAC GTCCCTGCTC ATGAACTCTG TGTACCCTCG AGAGCAGATC
    AACCAGCTCA CCTCCTACAT TGATGCCTCC AATGTGTATG GCAGCACAGA CCACGAAGCC
    CGCAGCATCC GGGACCTGGC CAGCCACCGT GGCCTGCTGC GTCAGGGCAT TGTGCAGAGG
    TCTGGCAAGC CCCTGCTTCC CTTTGCCACC GGGCCACCCA CTGAGTGCAT GCGTGATGAG
    AATGAGAGCC CAATACCATG CTTTCTGGCT GGTGACCACC GTGCCAACGA GCAGCTTGGC
    CTGACCAGCA TGCATACGCT GTGGTTCCGG GAGCACAACC GCATTGCAGC AGAGCTGTTG
    AAGCTGAACC CGCACTGGGA TGGGGACACT GTCTACCATG AGACCCGCAA GATAGTCGGG
    GCAGAGATAC AGCACATCAC CTACCGGCAC TGGCTGCCCA AGATCCTGGG GGAGGTGGGC
    ATGAAGATGC TCGGTGAGTA CCGGGGCTAC GACCCCAGTG TCAATGCTGG CATCTTTAAT
    GCCTTTGCCA CTGCAGCCTT CAGGTTTGGT CACACTCTGA TCAACCCTCT GCTCTACCGG
    CTGGATGAGA ACTTTGAGCC CATCCCTCAG GGCCATGTGC CCCTCCACAA AGCCTTCTTC
    TCGCCCTTCC GGATTGTCAA CGAGGGGGGC ATCGACCCAC TTCTCCGAGG GCTGTTTGGA
    GTGGCAGGGA AGATGCGCAT TCCCTCTCAA TTGCTGAACA CGGAGCTCAC GGAGAGGCTG
    TTCTCCATGG CCCACACAGT GGCCCTGGAC CTGGCTGCCA TCAATATCCA GCGAGGCCGG
    GACCATGGCA TCCCACCCTA CCATGACTAC AGAGTCTACT GCAACTTGTC GGCTGCTTAC
    ACCTTTGAGG ACCTGAAAAA TGAGATCAAG AGCCCCGTGA TCCGGGAGAA ACTGCAGAGG
    CTGTATGGCT CGACTCTCAA CATTGACCTG TTCCCGGCCC TCATGGTGGA AGACCTGGTC
    CCTGGCAGCC GCTTGGGGCC CACGCTCATG TGCCTGCTCA GCACACAGTT CCGACGCCTG
    CGGGATGGAG ACAGGTTGTG GTATGAGAAC CCAGGCGTGT TCTCCCCCGC CCAGCTGACT
    CAGCTCAAGC AGACGTCCTT GGCAAGGATC CTTTGTGACA ACTCAGACAA CATCACCCGT
    GTGCAGCAGG ATGTGTTCAG GGTGGCAGAG TTCCCCCATG GTTATAGCAG CTGTGAGGAC
    ATCCCCAGAG TGGACCTGCG AGTGTGGCAG GACTGTTGTG AAGACTGTAG GACCAGGGGA
    CAATTCAATG CTTTCTCCTA CCATTTCCGG GGAAGACGGT CTCTAGAATT TAGCTATGAG
    GAGGACAAGC CCACAAAGAG AGCCAGGTGG CGGAAAGCGC TAAGTGTAAA GCATGGCAAA
    CATCTTAGCA ATGCCACATC AGCCACCCAC GAGCACTTGG AAGGGCCAGC AACTAATGAT
    CTCAAGGAAT TTGTTCTGGA AATGCAAAAG ATCATCACAG ACCTCAGAAA ACAGATAAAC
    AGCTTGGAGT CTCGGCTCAG TACCACAGAG TGTGTGGATG ACAGCGGTGA ATCTCACGGC
    GGCAACACAA AGTGGAAAAA AGACCCATGT ACAGTTTGTG AGTGCAAAAA TGGCCAGATC
    ACCTGCTTTG TGGAAGCCTG CCAGCCTGCA GCCTGCCCCC AGCCTGTGAA AGTGAAAGGC
    GCTTGCTGTC CCGTCTGCTT AAAGAACACT GCAGAGGAAA AGCCTTAG

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

    RefSeq XP_021034532.1
    CDS94..4521
    Translation

    Target ORF information:

    RefSeq Version XM_021178873.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli peroxidasin (Pxdn), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021178873.1

    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
    ATGGCCGTGC GCCCCACGCG CCGCTGTCTG CTGGCGCTCG TGCTGTGCTT TGCCTGGTGG 
    GACATGGCGG TGGTCGCCTC GAAGCAAGGG GCAGGCTGTC CAAGCCGCTG CCTGTGCTTC
    CGTACCACCG TGCGCTGCAT GCATCTGTTG CTGGAGGCCG TGCCCGCCGT GGCGCCGCAG
    ACCTCCATCC TAGATCTTCG GTTCAACAGA ATCAGAGAGA TCCAACCCGG GGCGTTCAGG
    AGGCTGAAGA ACTTGAACAC ACTGCTTCTT AACAACAACC AGATCAAGAA GATTCCCAAT
    GGTGCATTTG AGGACCTGGA GAACTTAAAA TACCTCTATT TGTACAAGAA TGAGATCCAG
    TCAATTGACA GGCAAGCATT TAAGGGACTT GCCTCTCTAG AGCAACTGTA CCTGCACTTT
    AATCAGATAG AAACGCTGGA CCCTGAATCC TTCCAGCACC TGCCAAAGCT GGAGAGACTG
    TTTTTGCACA ACAACCGTAT CACACACTTA GTTCCTGGGA CGTTCAGTCA GTTAGAGTCC
    ATGAAACGAC TGCGATTGGA CTCGAATGCA CTCCACTGTG ACTGTGAAAT CCTATGGCTA
    GCGGATCTAC TGAAGACCTA CGCCCAATCT GGAAACGCAC AAGCAGCAGC TACCTGCGAG
    TATCCCAGAC GCATCCAAGG ACGCTCTGTG GCTACCATCA CCCCAGAAGA GCTGAACTGT
    GAAAGGCCCC GGATTACCTC AGAGCCACAG GATGCAGATG TCACCTCAGG GAACACAGTG
    TACTTCACCT GCAGAGCTGA GGGCAACCCC AAACCTGAGA TCATCTGGCT TCGAAACAAT
    AATGAGTTGA GCATGAAGAC GGACTCTCGC TTAAACTTGC TGGACGATGG CACGCTGATG
    ATCCAGAACA CACAGGAGGC AGATGAGGGT GTCTACCAGT GCATGGCGAA AAATGTGGCT
    GGAGAGGCGA AAACGCAGGA GGTGACCCTC AGGTACTTGG GGTCTCCAGC CCGACCCACT
    TTTGTAATCC AGCCGCAGAA CACAGAGGTA CTGGTGGGTG AGAGTGTCAC TCTGGAGTGC
    AGTGCCACAG GCCACCCTCT GCCTCAGATC ACCTGGACAA GAGGTGACCG GACACCCTTG
    CCAATTGACC CTCGAGTGAA TATCACTCCC TCTGGAGGAC TGTATATACA GAACGTGGCC
    CAGAGTGATA GCGGCGAGTA CACGTGCTTT GCATCCAACA GTGTGGACAG TATCCATGCC
    ACAGCCTTCA TCATTGTACA AGCCCTTCCT CAGTTCACTG TGACCCCACA GAGCCGAGTG
    GTCATTGAAG GGCAGACTGT GGATTTCCAA TGTGAGGCTA AGGGATACCC TCAGCCAGTC
    ATCGCCTGGA CCAAGGGAGG GAGCCAGCTC TCAGTGGACA GGCGGCACCT GGTGCTGTCC
    TCAGGAACAC TCAGGATTTC TGGGGTGGCT CTGCATGACC AGGGCCAGTA TGAGTGCCAG
    GCCGTCAATA TCATTGGCTC CCAGAAGGTC GTGGCCCACC TGACAGTACA GCCTCGAGTC
    ACCCCGGTAT TTGCCAGCAT TCCCAGTGAC ATGACTGTAG AGGTGGGCAC CAATGTGCAG
    CTGCCTTGTA GCTCCCAGGG GGAACCAGAG CCAGCCATCA CCTGGAACAA GGATGGTGTT
    CAGGTAACAG AAAGTGGAAA ATTTCACATC AGCCCCGAAG GATTCTTGAC CATCAATGAT
    GTTGGCACTG CCGACGCAGG TCGCTATGAG TGTGTAGCTC GGAACACAAT TGGATATGCC
    TCAGTGAGCA TGGTACTCAG TGTGAATGTT CCTGATGTAA GTCGGAATGG GGATCCATAT
    GTTGCTACCT CTATTGTTGA AGCCATTGCA ACTGTTGACA GAGCCATCAA CTCTACAAGG
    ACACACTTGT TTGACAGCCG TCCTCGTTCG CCAAATGACC TTCTCGCTCT GTTCCGGTAC
    CCACGGGATC CATACACAGT GGGACAAGCC AGGGCAGGAG AGATATTCGA GCGGACCCTG
    CAGCTGATCC AGGAGCATGT TCAGCATGGC TTGATGGTGG ACTTGAATGG AACAAGTTAC
    CACTACAATG ATCTGGTGTC CCCGCAGTAC CTGAGCCTCA TCGCCAACCT GTCAGGCTGC
    ACTGCACACC GTCGCGTGAA CAACTGCTCA GATATGTGCT TCCACCAGAA GTATAGGACG
    CATGATGGCA CGTGCAACAA TCTACAGCAC CCGATGTGGG GTGCCTCACT GACCGCCTTT
    GAGCGCCTGT TGAAGGCTGT GTATGAGAAT GGATTCAACA CACCCCGGGG CATTAATTCC
    CAGCGTCAGT ACAATGGGCA TGTACTACCC ATGCCTCGCC TGGTGTCCAC CACACTGATT
    GGGACAGAGG TGATCACCCC CGATGAGCAG TTTACACACA TGCTGATGCA ATGGGGCCAG
    TTCCTTGACC ATGACCTAGA CTCTACAGTG GTAGCCCTGA GCCAGGCCCG CTTCTCTGAT
    GGGCAGCATT GCAGCTCAGT ATGCAGCAAT GACCCTCCCT GTTTCTCGGT CATGATCCCC
    CCCAATGATC CCCGGGTGCG GAGTGGCGCC CGATGCATGT TCTTCGTGCG ATCGAGCCCC
    GTGTGTGGCA GCGGCATGAC GTCCCTGCTC ATGAACTCTG TGTACCCTCG AGAGCAGATC
    AACCAGCTCA CCTCCTACAT TGATGCCTCC AATGTGTATG GCAGCACAGA CCACGAAGCC
    CGCAGCATCC GGGACCTGGC CAGCCACCGT GGCCTGCTGC GTCAGGGCAT TGTGCAGAGG
    TCTGGCAAGC CCCTGCTTCC CTTTGCCACC GGGCCACCCA CTGAGTGCAT GCGTGATGAG
    AATGAGAGCC CAATACCATG CTTTCTGGCT GGTGACCACC GTGCCAACGA GCAGCTTGGC
    CTGACCAGCA TGCATACGCT GTGGTTCCGG GAGCACAACC GCATTGCAGC AGAGCTGTTG
    AAGCTGAACC CGCACTGGGA TGGGGACACT GTCTACCATG AGACCCGCAA GATAGTCGGG
    GCAGAGATAC AGCACATCAC CTACCGGCAC TGGCTGCCCA AGATCCTGGG GGAGGTGGGC
    ATGAAGATGC TCGGTGAGTA CCGGGGCTAC GACCCCAGTG TCAATGCTGG CATCTTTAAT
    GCCTTTGCCA CTGCAGCCTT CAGGTTTGGT CACACTCTGA TCAACCCTCT GCTCTACCGG
    CTGGATGAGA ACTTTGAGCC CATCCCTCAG GGCCATGTGC CCCTCCACAA AGCCTTCTTC
    TCGCCCTTCC GGATTGTCAA CGAGGGGGGC ATCGACCCAC TTCTCCGAGG GCTGTTTGGA
    GTGGCAGGGA AGATGCGCAT TCCCTCTCAA TTGCTGAACA CGGAGCTCAC GGAGAGGCTG
    TTCTCCATGG CCCACACAGT GGCCCTGGAC CTGGCTGCCA TCAATATCCA GCGAGGCCGG
    GACCATGGCA TCCCACCCTA CCATGACTAC AGAGTCTACT GCAACTTGTC GGCTGCTTAC
    ACCTTTGAGG ACCTGAAAAA TGAGATCAAG AGCCCCGTGA TCCGGGAGAA ACTGCAGAGG
    CTGTATGGCT CGACTCTCAA CATTGACCTG TTCCCGGCCC TCATGGTGGA AGACCTGGTC
    CCTGGCAGCC GCTTGGGGCC CACGCTCATG TGCCTGCTCA GCACACAGTT CCGACGCCTG
    CGGGATGGAG ACAGGTTGTG GTATGAGAAC CCAGGCGTGT TCTCCCCCGC CCAGCTGACT
    CAGCTCAAGC AGACGTCCTT GGCAAGGATC CTTTGTGACA ACTCAGACAA CATCACCCGT
    GTGCAGCAGG ATGTGTTCAG GGTGGCAGAG TTCCCCCATG GTTATAGCAG CTGTGAGGAC
    ATCCCCAGAG TGGACCTGCG AGTGTGGCAG GACTGTTGTG AAGACTGTAG GACCAGGGGA
    CAATTCAATG CTTTCTCCTA CCATTTCCGG GGAAGACGGT CTCTAGAATT TAGCTATGAG
    GAGGACAAGC CCACAAAGAG AGCCAGGTGG CGGAAAGCGC TAAGTGTAAA GCATGGCAAA
    CATCTTAGCA ATGCCACATC AGCCACCCAC GAGCACTTGG AAGGGCCAGC AACTAATGAT
    CTCAAGGAAT TTGTTCTGGA AATGCAAAAG ATCATCACAG ACCTCAGAAA ACAGATAAAC
    AGCTTGGAGT CTCGGCTCAG TACCACAGAG TGTGTGGATG ACAGCGGTGA ATCTCACGGC
    GGCAACACAA AGTGGAAAAA AGACCCATGT ACAGTTTGTG AGTGCAAAAA TGGCCAGATC
    ACCTGCTTTG TGGAAGCCTG CCAGCCTGCA GCCTGCCCCC AGCCTGTGAA AGTGAAAGGC
    GCTTGCTGTC CCGTCTGCTT AAAGAACACT GCAGAGGAAA AGCCTTAG

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

    CloneID OMv28609
    Clone ID Related Accession (Same CDS sequence) XM_021178873.1 , XM_021178873.2
    Accession Version XM_021178873.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4428bp)
    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 peroxidasin homolog isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) 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_021178873.1. ##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
    ATGGCCGTGC GCCCCACGCG CCGCTGTCTG CTGGCGCTCG TGCTGTGCTT TGCCTGGTGG 
    GACATGGCGG TGGTCGCCTC GAAGCAAGGG GCAGGCTGTC CAAGCCGCTG CCTGTGCTTC
    CGTACCACCG TGCGCTGCAT GCATCTGTTG CTGGAGGCCG TGCCCGCCGT GGCGCCGCAG
    ACCTCCATCC TAGATCTTCG GTTCAACAGA ATCAGAGAGA TCCAACCCGG GGCGTTCAGG
    AGGCTGAAGA ACTTGAACAC ACTGCTTCTT AACAACAACC AGATCAAGAA GATTCCCAAT
    GGTGCATTTG AGGACCTGGA GAACTTAAAA TACCTCTATT TGTACAAGAA TGAGATCCAG
    TCAATTGACA GGCAAGCATT TAAGGGACTT GCCTCTCTAG AGCAACTGTA CCTGCACTTT
    AATCAGATAG AAACGCTGGA CCCTGAATCC TTCCAGCACC TGCCAAAGCT GGAGAGACTG
    TTTTTGCACA ACAACCGTAT CACACACTTA GTTCCTGGGA CGTTCAGTCA GTTAGAGTCC
    ATGAAACGAC TGCGATTGGA CTCGAATGCA CTCCACTGTG ACTGTGAAAT CCTATGGCTA
    GCGGATCTAC TGAAGACCTA CGCCCAATCT GGAAACGCAC AAGCAGCAGC TACCTGCGAG
    TATCCCAGAC GCATCCAAGG ACGCTCTGTG GCTACCATCA CCCCAGAAGA GCTGAACTGT
    GAAAGGCCCC GGATTACCTC AGAGCCACAG GATGCAGATG TCACCTCAGG GAACACAGTG
    TACTTCACCT GCAGAGCTGA GGGCAACCCC AAACCTGAGA TCATCTGGCT TCGAAACAAT
    AATGAGTTGA GCATGAAGAC GGACTCTCGC TTAAACTTGC TGGACGATGG CACGCTGATG
    ATCCAGAACA CACAGGAGGC AGATGAGGGT GTCTACCAGT GCATGGCGAA AAATGTGGCT
    GGAGAGGCGA AAACGCAGGA GGTGACCCTC AGGTACTTGG GGTCTCCAGC CCGACCCACT
    TTTGTAATCC AGCCGCAGAA CACAGAGGTA CTGGTGGGTG AGAGTGTCAC TCTGGAGTGC
    AGTGCCACAG GCCACCCTCT GCCTCAGATC ACCTGGACAA GAGGTGACCG GACACCCTTG
    CCAATTGACC CTCGAGTGAA TATCACTCCC TCTGGAGGAC TGTATATACA GAACGTGGCC
    CAGAGTGATA GCGGCGAGTA CACGTGCTTT GCATCCAACA GTGTGGACAG TATCCATGCC
    ACAGCCTTCA TCATTGTACA AGCCCTTCCT CAGTTCACTG TGACCCCACA GAGCCGAGTG
    GTCATTGAAG GGCAGACTGT GGATTTCCAA TGTGAGGCTA AGGGATACCC TCAGCCAGTC
    ATCGCCTGGA CCAAGGGAGG GAGCCAGCTC TCAGTGGACA GGCGGCACCT GGTGCTGTCC
    TCAGGAACAC TCAGGATTTC TGGGGTGGCT CTGCATGACC AGGGCCAGTA TGAGTGCCAG
    GCCGTCAATA TCATTGGCTC CCAGAAGGTC GTGGCCCACC TGACAGTACA GCCTCGAGTC
    ACCCCGGTAT TTGCCAGCAT TCCCAGTGAC ATGACTGTAG AGGTGGGCAC CAATGTGCAG
    CTGCCTTGTA GCTCCCAGGG GGAACCAGAG CCAGCCATCA CCTGGAACAA GGATGGTGTT
    CAGGTAACAG AAAGTGGAAA ATTTCACATC AGCCCCGAAG GATTCTTGAC CATCAATGAT
    GTTGGCACTG CCGACGCAGG TCGCTATGAG TGTGTAGCTC GGAACACAAT TGGATATGCC
    TCAGTGAGCA TGGTACTCAG TGTGAATGTT CCTGATGTAA GTCGGAATGG GGATCCATAT
    GTTGCTACCT CTATTGTTGA AGCCATTGCA ACTGTTGACA GAGCCATCAA CTCTACAAGG
    ACACACTTGT TTGACAGCCG TCCTCGTTCG CCAAATGACC TTCTCGCTCT GTTCCGGTAC
    CCACGGGATC CATACACAGT GGGACAAGCC AGGGCAGGAG AGATATTCGA GCGGACCCTG
    CAGCTGATCC AGGAGCATGT TCAGCATGGC TTGATGGTGG ACTTGAATGG AACAAGTTAC
    CACTACAATG ATCTGGTGTC CCCGCAGTAC CTGAGCCTCA TCGCCAACCT GTCAGGCTGC
    ACTGCACACC GTCGCGTGAA CAACTGCTCA GATATGTGCT TCCACCAGAA GTATAGGACG
    CATGATGGCA CGTGCAACAA TCTACAGCAC CCGATGTGGG GTGCCTCACT GACCGCCTTT
    GAGCGCCTGT TGAAGGCTGT GTATGAGAAT GGATTCAACA CACCCCGGGG CATTAATTCC
    CAGCGTCAGT ACAATGGGCA TGTACTACCC ATGCCTCGCC TGGTGTCCAC CACACTGATT
    GGGACAGAGG TGATCACCCC CGATGAGCAG TTTACACACA TGCTGATGCA ATGGGGCCAG
    TTCCTTGACC ATGACCTAGA CTCTACAGTG GTAGCCCTGA GCCAGGCCCG CTTCTCTGAT
    GGGCAGCATT GCAGCTCAGT ATGCAGCAAT GACCCTCCCT GTTTCTCGGT CATGATCCCC
    CCCAATGATC CCCGGGTGCG GAGTGGCGCC CGATGCATGT TCTTCGTGCG ATCGAGCCCC
    GTGTGTGGCA GCGGCATGAC GTCCCTGCTC ATGAACTCTG TGTACCCTCG AGAGCAGATC
    AACCAGCTCA CCTCCTACAT TGATGCCTCC AATGTGTATG GCAGCACAGA CCACGAAGCC
    CGCAGCATCC GGGACCTGGC CAGCCACCGT GGCCTGCTGC GTCAGGGCAT TGTGCAGAGG
    TCTGGCAAGC CCCTGCTTCC CTTTGCCACC GGGCCACCCA CTGAGTGCAT GCGTGATGAG
    AATGAGAGCC CAATACCATG CTTTCTGGCT GGTGACCACC GTGCCAACGA GCAGCTTGGC
    CTGACCAGCA TGCATACGCT GTGGTTCCGG GAGCACAACC GCATTGCAGC AGAGCTGTTG
    AAGCTGAACC CGCACTGGGA TGGGGACACT GTCTACCATG AGACCCGCAA GATAGTCGGG
    GCAGAGATAC AGCACATCAC CTACCGGCAC TGGCTGCCCA AGATCCTGGG GGAGGTGGGC
    ATGAAGATGC TCGGTGAGTA CCGGGGCTAC GACCCCAGTG TCAATGCTGG CATCTTTAAT
    GCCTTTGCCA CTGCAGCCTT CAGGTTTGGT CACACTCTGA TCAACCCTCT GCTCTACCGG
    CTGGATGAGA ACTTTGAGCC CATCCCTCAG GGCCATGTGC CCCTCCACAA AGCCTTCTTC
    TCGCCCTTCC GGATTGTCAA CGAGGGGGGC ATCGACCCAC TTCTCCGAGG GCTGTTTGGA
    GTGGCAGGGA AGATGCGCAT TCCCTCTCAA TTGCTGAACA CGGAGCTCAC GGAGAGGCTG
    TTCTCCATGG CCCACACAGT GGCCCTGGAC CTGGCTGCCA TCAATATCCA GCGAGGCCGG
    GACCATGGCA TCCCACCCTA CCATGACTAC AGAGTCTACT GCAACTTGTC GGCTGCTTAC
    ACCTTTGAGG ACCTGAAAAA TGAGATCAAG AGCCCCGTGA TCCGGGAGAA ACTGCAGAGG
    CTGTATGGCT CGACTCTCAA CATTGACCTG TTCCCGGCCC TCATGGTGGA AGACCTGGTC
    CCTGGCAGCC GCTTGGGGCC CACGCTCATG TGCCTGCTCA GCACACAGTT CCGACGCCTG
    CGGGATGGAG ACAGGTTGTG GTATGAGAAC CCAGGCGTGT TCTCCCCCGC CCAGCTGACT
    CAGCTCAAGC AGACGTCCTT GGCAAGGATC CTTTGTGACA ACTCAGACAA CATCACCCGT
    GTGCAGCAGG ATGTGTTCAG GGTGGCAGAG TTCCCCCATG GTTATAGCAG CTGTGAGGAC
    ATCCCCAGAG TGGACCTGCG AGTGTGGCAG GACTGTTGTG AAGACTGTAG GACCAGGGGA
    CAATTCAATG CTTTCTCCTA CCATTTCCGG GGAAGACGGT CTCTAGAATT TAGCTATGAG
    GAGGACAAGC CCACAAAGAG AGCCAGGTGG CGGAAAGCGC TAAGTGTAAA GCATGGCAAA
    CATCTTAGCA ATGCCACATC AGCCACCCAC GAGCACTTGG AAGGGCCAGC AACTAATGAT
    CTCAAGGAAT TTGTTCTGGA AATGCAAAAG ATCATCACAG ACCTCAGAAA ACAGATAAAC
    AGCTTGGAGT CTCGGCTCAG TACCACAGAG TGTGTGGATG ACAGCGGTGA ATCTCACGGC
    GGCAACACAA AGTGGAAAAA AGACCCATGT ACAGTTTGTG AGTGCAAAAA TGGCCAGATC
    ACCTGCTTTG TGGAAGCCTG CCAGCCTGCA GCCTGCCCCC AGCCTGTGAA AGTGAAAGGC
    GCTTGCTGTC CCGTCTGCTT AAAGAACACT GCAGAGGAAA AGCCTTAG

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

    RefSeq XP_021034532.1
    CDS116..4543
    Translation

    Target ORF information:

    RefSeq Version XM_021178873.2
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli peroxidasin (Pxdn), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_021178873.2

    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
    ATGGCCGTGC GCCCCACGCG CCGCTGTCTG CTGGCGCTCG TGCTGTGCTT TGCCTGGTGG 
    GACATGGCGG TGGTCGCCTC GAAGCAAGGG GCAGGCTGTC CAAGCCGCTG CCTGTGCTTC
    CGTACCACCG TGCGCTGCAT GCATCTGTTG CTGGAGGCCG TGCCCGCCGT GGCGCCGCAG
    ACCTCCATCC TAGATCTTCG GTTCAACAGA ATCAGAGAGA TCCAACCCGG GGCGTTCAGG
    AGGCTGAAGA ACTTGAACAC ACTGCTTCTT AACAACAACC AGATCAAGAA GATTCCCAAT
    GGTGCATTTG AGGACCTGGA GAACTTAAAA TACCTCTATT TGTACAAGAA TGAGATCCAG
    TCAATTGACA GGCAAGCATT TAAGGGACTT GCCTCTCTAG AGCAACTGTA CCTGCACTTT
    AATCAGATAG AAACGCTGGA CCCTGAATCC TTCCAGCACC TGCCAAAGCT GGAGAGACTG
    TTTTTGCACA ACAACCGTAT CACACACTTA GTTCCTGGGA CGTTCAGTCA GTTAGAGTCC
    ATGAAACGAC TGCGATTGGA CTCGAATGCA CTCCACTGTG ACTGTGAAAT CCTATGGCTA
    GCGGATCTAC TGAAGACCTA CGCCCAATCT GGAAACGCAC AAGCAGCAGC TACCTGCGAG
    TATCCCAGAC GCATCCAAGG ACGCTCTGTG GCTACCATCA CCCCAGAAGA GCTGAACTGT
    GAAAGGCCCC GGATTACCTC AGAGCCACAG GATGCAGATG TCACCTCAGG GAACACAGTG
    TACTTCACCT GCAGAGCTGA GGGCAACCCC AAACCTGAGA TCATCTGGCT TCGAAACAAT
    AATGAGTTGA GCATGAAGAC GGACTCTCGC TTAAACTTGC TGGACGATGG CACGCTGATG
    ATCCAGAACA CACAGGAGGC AGATGAGGGT GTCTACCAGT GCATGGCGAA AAATGTGGCT
    GGAGAGGCGA AAACGCAGGA GGTGACCCTC AGGTACTTGG GGTCTCCAGC CCGACCCACT
    TTTGTAATCC AGCCGCAGAA CACAGAGGTA CTGGTGGGTG AGAGTGTCAC TCTGGAGTGC
    AGTGCCACAG GCCACCCTCT GCCTCAGATC ACCTGGACAA GAGGTGACCG GACACCCTTG
    CCAATTGACC CTCGAGTGAA TATCACTCCC TCTGGAGGAC TGTATATACA GAACGTGGCC
    CAGAGTGATA GCGGCGAGTA CACGTGCTTT GCATCCAACA GTGTGGACAG TATCCATGCC
    ACAGCCTTCA TCATTGTACA AGCCCTTCCT CAGTTCACTG TGACCCCACA GAGCCGAGTG
    GTCATTGAAG GGCAGACTGT GGATTTCCAA TGTGAGGCTA AGGGATACCC TCAGCCAGTC
    ATCGCCTGGA CCAAGGGAGG GAGCCAGCTC TCAGTGGACA GGCGGCACCT GGTGCTGTCC
    TCAGGAACAC TCAGGATTTC TGGGGTGGCT CTGCATGACC AGGGCCAGTA TGAGTGCCAG
    GCCGTCAATA TCATTGGCTC CCAGAAGGTC GTGGCCCACC TGACAGTACA GCCTCGAGTC
    ACCCCGGTAT TTGCCAGCAT TCCCAGTGAC ATGACTGTAG AGGTGGGCAC CAATGTGCAG
    CTGCCTTGTA GCTCCCAGGG GGAACCAGAG CCAGCCATCA CCTGGAACAA GGATGGTGTT
    CAGGTAACAG AAAGTGGAAA ATTTCACATC AGCCCCGAAG GATTCTTGAC CATCAATGAT
    GTTGGCACTG CCGACGCAGG TCGCTATGAG TGTGTAGCTC GGAACACAAT TGGATATGCC
    TCAGTGAGCA TGGTACTCAG TGTGAATGTT CCTGATGTAA GTCGGAATGG GGATCCATAT
    GTTGCTACCT CTATTGTTGA AGCCATTGCA ACTGTTGACA GAGCCATCAA CTCTACAAGG
    ACACACTTGT TTGACAGCCG TCCTCGTTCG CCAAATGACC TTCTCGCTCT GTTCCGGTAC
    CCACGGGATC CATACACAGT GGGACAAGCC AGGGCAGGAG AGATATTCGA GCGGACCCTG
    CAGCTGATCC AGGAGCATGT TCAGCATGGC TTGATGGTGG ACTTGAATGG AACAAGTTAC
    CACTACAATG ATCTGGTGTC CCCGCAGTAC CTGAGCCTCA TCGCCAACCT GTCAGGCTGC
    ACTGCACACC GTCGCGTGAA CAACTGCTCA GATATGTGCT TCCACCAGAA GTATAGGACG
    CATGATGGCA CGTGCAACAA TCTACAGCAC CCGATGTGGG GTGCCTCACT GACCGCCTTT
    GAGCGCCTGT TGAAGGCTGT GTATGAGAAT GGATTCAACA CACCCCGGGG CATTAATTCC
    CAGCGTCAGT ACAATGGGCA TGTACTACCC ATGCCTCGCC TGGTGTCCAC CACACTGATT
    GGGACAGAGG TGATCACCCC CGATGAGCAG TTTACACACA TGCTGATGCA ATGGGGCCAG
    TTCCTTGACC ATGACCTAGA CTCTACAGTG GTAGCCCTGA GCCAGGCCCG CTTCTCTGAT
    GGGCAGCATT GCAGCTCAGT ATGCAGCAAT GACCCTCCCT GTTTCTCGGT CATGATCCCC
    CCCAATGATC CCCGGGTGCG GAGTGGCGCC CGATGCATGT TCTTCGTGCG ATCGAGCCCC
    GTGTGTGGCA GCGGCATGAC GTCCCTGCTC ATGAACTCTG TGTACCCTCG AGAGCAGATC
    AACCAGCTCA CCTCCTACAT TGATGCCTCC AATGTGTATG GCAGCACAGA CCACGAAGCC
    CGCAGCATCC GGGACCTGGC CAGCCACCGT GGCCTGCTGC GTCAGGGCAT TGTGCAGAGG
    TCTGGCAAGC CCCTGCTTCC CTTTGCCACC GGGCCACCCA CTGAGTGCAT GCGTGATGAG
    AATGAGAGCC CAATACCATG CTTTCTGGCT GGTGACCACC GTGCCAACGA GCAGCTTGGC
    CTGACCAGCA TGCATACGCT GTGGTTCCGG GAGCACAACC GCATTGCAGC AGAGCTGTTG
    AAGCTGAACC CGCACTGGGA TGGGGACACT GTCTACCATG AGACCCGCAA GATAGTCGGG
    GCAGAGATAC AGCACATCAC CTACCGGCAC TGGCTGCCCA AGATCCTGGG GGAGGTGGGC
    ATGAAGATGC TCGGTGAGTA CCGGGGCTAC GACCCCAGTG TCAATGCTGG CATCTTTAAT
    GCCTTTGCCA CTGCAGCCTT CAGGTTTGGT CACACTCTGA TCAACCCTCT GCTCTACCGG
    CTGGATGAGA ACTTTGAGCC CATCCCTCAG GGCCATGTGC CCCTCCACAA AGCCTTCTTC
    TCGCCCTTCC GGATTGTCAA CGAGGGGGGC ATCGACCCAC TTCTCCGAGG GCTGTTTGGA
    GTGGCAGGGA AGATGCGCAT TCCCTCTCAA TTGCTGAACA CGGAGCTCAC GGAGAGGCTG
    TTCTCCATGG CCCACACAGT GGCCCTGGAC CTGGCTGCCA TCAATATCCA GCGAGGCCGG
    GACCATGGCA TCCCACCCTA CCATGACTAC AGAGTCTACT GCAACTTGTC GGCTGCTTAC
    ACCTTTGAGG ACCTGAAAAA TGAGATCAAG AGCCCCGTGA TCCGGGAGAA ACTGCAGAGG
    CTGTATGGCT CGACTCTCAA CATTGACCTG TTCCCGGCCC TCATGGTGGA AGACCTGGTC
    CCTGGCAGCC GCTTGGGGCC CACGCTCATG TGCCTGCTCA GCACACAGTT CCGACGCCTG
    CGGGATGGAG ACAGGTTGTG GTATGAGAAC CCAGGCGTGT TCTCCCCCGC CCAGCTGACT
    CAGCTCAAGC AGACGTCCTT GGCAAGGATC CTTTGTGACA ACTCAGACAA CATCACCCGT
    GTGCAGCAGG ATGTGTTCAG GGTGGCAGAG TTCCCCCATG GTTATAGCAG CTGTGAGGAC
    ATCCCCAGAG TGGACCTGCG AGTGTGGCAG GACTGTTGTG AAGACTGTAG GACCAGGGGA
    CAATTCAATG CTTTCTCCTA CCATTTCCGG GGAAGACGGT CTCTAGAATT TAGCTATGAG
    GAGGACAAGC CCACAAAGAG AGCCAGGTGG CGGAAAGCGC TAAGTGTAAA GCATGGCAAA
    CATCTTAGCA ATGCCACATC AGCCACCCAC GAGCACTTGG AAGGGCCAGC AACTAATGAT
    CTCAAGGAAT TTGTTCTGGA AATGCAAAAG ATCATCACAG ACCTCAGAAA ACAGATAAAC
    AGCTTGGAGT CTCGGCTCAG TACCACAGAG TGTGTGGATG ACAGCGGTGA ATCTCACGGC
    GGCAACACAA AGTGGAAAAA AGACCCATGT ACAGTTTGTG AGTGCAAAAA TGGCCAGATC
    ACCTGCTTTG TGGAAGCCTG CCAGCCTGCA GCCTGCCCCC AGCCTGTGAA AGTGAAAGGC
    GCTTGCTGTC CCGTCTGCTT AAAGAACACT GCAGAGGAAA AGCCTTAG

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

    CloneID OMv68239
    Clone ID Related Accession (Same CDS sequence) XM_029484621.1
    Accession Version XM_029484621.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4356bp)
    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 peroxidasin homolog isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_034581.1) 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
    ATGGCCGTGC GCCCCACGCG CCGCTGTCTG CTGGCGCTCG TGCTGTGCTT TGCCTGGTGG 
    GACATGGCGG TGGTCGCCTC GAAGCAAGGG GCAGGCTGTC CAAGCCGCTG CCTGTGCTTC
    CGTACCACCG TGCGCTGCAT GCATCTGTTG CTGGAGGCCG TGCCCGCCGT GGCGCCGCAG
    ACCTCCATCC TAGATCTTCG GTTCAACAGA ATCAGAGAGA TCCAACCCGG GGCGTTCAGG
    AGGCTGAAGA ACTTGAACAC ACTGCTTCTT AACAACAACC AGATCAAGAA GATTCCCAAT
    GGTGCATTTG AGGACCTGGA GAACTTAAAA TACCTGTACC TGCACTTTAA TCAGATAGAA
    ACGCTGGACC CTGAATCCTT CCAGCACCTG CCAAAGCTGG AGAGACTGTT TTTGCACAAC
    AACCGTATCA CACACTTAGT TCCTGGGACG TTCAGTCAGT TAGAGTCCAT GAAACGACTG
    CGATTGGACT CGAATGCACT CCACTGTGAC TGTGAAATCC TATGGCTAGC GGATCTACTG
    AAGACCTACG CCCAATCTGG AAACGCACAA GCAGCAGCTA CCTGCGAGTA TCCCAGACGC
    ATCCAAGGAC GCTCTGTGGC TACCATCACC CCAGAAGAGC TGAACTGTGA AAGGCCCCGG
    ATTACCTCAG AGCCACAGGA TGCAGATGTC ACCTCAGGGA ACACAGTGTA CTTCACCTGC
    AGAGCTGAGG GCAACCCCAA ACCTGAGATC ATCTGGCTTC GAAACAATAA TGAGTTGAGC
    ATGAAGACGG ACTCTCGCTT AAACTTGCTG GACGATGGCA CGCTGATGAT CCAGAACACA
    CAGGAGGCAG ATGAGGGTGT CTACCAGTGC ATGGCGAAAA ATGTGGCTGG AGAGGCGAAA
    ACGCAGGAGG TGACCCTCAG GTACTTGGGG TCTCCAGCCC GACCCACTTT TGTAATCCAG
    CCGCAGAACA CAGAGGTACT GGTGGGTGAG AGTGTCACTC TGGAGTGCAG TGCCACAGGC
    CACCCTCTGC CTCAGATCAC CTGGACAAGA GGTGACCGGA CACCCTTGCC AATTGACCCT
    CGAGTGAATA TCACTCCCTC TGGAGGACTG TATATACAGA ACGTGGCCCA GAGTGATAGC
    GGCGAGTACA CGTGCTTTGC ATCCAACAGT GTGGACAGTA TCCATGCCAC AGCCTTCATC
    ATTGTACAAG CCCTTCCTCA GTTCACTGTG ACCCCACAGA GCCGAGTGGT CATTGAAGGG
    CAGACTGTGG ATTTCCAATG TGAGGCTAAG GGATACCCTC AGCCAGTCAT CGCCTGGACC
    AAGGGAGGGA GCCAGCTCTC AGTGGACAGG CGGCACCTGG TGCTGTCCTC AGGAACACTC
    AGGATTTCTG GGGTGGCTCT GCATGACCAG GGCCAGTATG AGTGCCAGGC CGTCAATATC
    ATTGGCTCCC AGAAGGTCGT GGCCCACCTG ACAGTACAGC CTCGAGTCAC CCCGGTATTT
    GCCAGCATTC CCAGTGACAT GACTGTAGAG GTGGGCACCA ATGTGCAGCT GCCTTGTAGC
    TCCCAGGGGG AACCAGAGCC AGCCATCACC TGGAACAAGG ATGGTGTTCA GGTAACAGAA
    AGTGGAAAAT TTCACATCAG CCCCGAAGGA TTCTTGACCA TCAATGATGT TGGCACTGCC
    GACGCAGGTC GCTATGAGTG TGTAGCTCGG AACACAATTG GATATGCCTC AGTGAGCATG
    GTACTCAGTG TGAATGTTCC TGATGTAAGT CGGAATGGGG ATCCATATGT TGCTACCTCT
    ATTGTTGAAG CCATTGCAAC TGTTGACAGA GCCATCAACT CTACAAGGAC ACACTTGTTT
    GACAGCCGTC CTCGTTCGCC AAATGACCTT CTCGCTCTGT TCCGGTACCC ACGGGATCCA
    TACACAGTGG GACAAGCCAG GGCAGGAGAG ATATTCGAGC GGACCCTGCA GCTGATCCAG
    GAGCATGTTC AGCATGGCTT GATGGTGGAC TTGAATGGAA CAAGTTACCA CTACAATGAT
    CTGGTGTCCC CGCAGTACCT GAGCCTCATC GCCAACCTGT CAGGCTGCAC TGCACACCGT
    CGCGTGAACA ACTGCTCAGA TATGTGCTTC CACCAGAAGT ATAGGACGCA TGATGGCACG
    TGCAACAATC TACAGCACCC GATGTGGGGT GCCTCACTGA CCGCCTTTGA GCGCCTGTTG
    AAGGCTGTGT ATGAGAATGG ATTCAACACA CCCCGGGGCA TTAATTCCCA GCGTCAGTAC
    AATGGGCATG TACTACCCAT GCCTCGCCTG GTGTCCACCA CACTGATTGG GACAGAGGTG
    ATCACCCCCG ATGAGCAGTT TACACACATG CTGATGCAAT GGGGCCAGTT CCTTGACCAT
    GACCTAGACT CTACAGTGGT AGCCCTGAGC CAGGCCCGCT TCTCTGATGG GCAGCATTGC
    AGCTCAGTAT GCAGCAATGA CCCTCCCTGT TTCTCGGTCA TGATCCCCCC CAATGATCCC
    CGGGTGCGGA GTGGCGCCCG ATGCATGTTC TTCGTGCGAT CGAGCCCCGT GTGTGGCAGC
    GGCATGACGT CCCTGCTCAT GAACTCTGTG TACCCTCGAG AGCAGATCAA CCAGCTCACC
    TCCTACATTG ATGCCTCCAA TGTGTATGGC AGCACAGACC ACGAAGCCCG CAGCATCCGG
    GACCTGGCCA GCCACCGTGG CCTGCTGCGT CAGGGCATTG TGCAGAGGTC TGGCAAGCCC
    CTGCTTCCCT TTGCCACCGG GCCACCCACT GAGTGCATGC GTGATGAGAA TGAGAGCCCA
    ATACCATGCT TTCTGGCTGG TGACCACCGT GCCAACGAGC AGCTTGGCCT GACCAGCATG
    CATACGCTGT GGTTCCGGGA GCACAACCGC ATTGCAGCAG AGCTGTTGAA GCTGAACCCG
    CACTGGGATG GGGACACTGT CTACCATGAG ACCCGCAAGA TAGTCGGGGC AGAGATACAG
    CACATCACCT ACCGGCACTG GCTGCCCAAG ATCCTGGGGG AGGTGGGCAT GAAGATGCTC
    GGTGAGTACC GGGGCTACGA CCCCAGTGTC AATGCTGGCA TCTTTAATGC CTTTGCCACT
    GCAGCCTTCA GGTTTGGTCA CACTCTGATC AACCCTCTGC TCTACCGGCT GGATGAGAAC
    TTTGAGCCCA TCCCTCAGGG CCATGTGCCC CTCCACAAAG CCTTCTTCTC GCCCTTCCGG
    ATTGTCAACG AGGGGGGCAT CGACCCACTT CTCCGAGGGC TGTTTGGAGT GGCAGGGAAG
    ATGCGCATTC CCTCTCAATT GCTGAACACG GAGCTCACGG AGAGGCTGTT CTCCATGGCC
    CACACAGTGG CCCTGGACCT GGCTGCCATC AATATCCAGC GAGGCCGGGA CCATGGCATC
    CCACCCTACC ATGACTACAG AGTCTACTGC AACTTGTCGG CTGCTTACAC CTTTGAGGAC
    CTGAAAAATG AGATCAAGAG CCCCGTGATC CGGGAGAAAC TGCAGAGGCT GTATGGCTCG
    ACTCTCAACA TTGACCTGTT CCCGGCCCTC ATGGTGGAAG ACCTGGTCCC TGGCAGCCGC
    TTGGGGCCCA CGCTCATGTG CCTGCTCAGC ACACAGTTCC GACGCCTGCG GGATGGAGAC
    AGGTTGTGGT ATGAGAACCC AGGCGTGTTC TCCCCCGCCC AGCTGACTCA GCTCAAGCAG
    ACGTCCTTGG CAAGGATCCT TTGTGACAAC TCAGACAACA TCACCCGTGT GCAGCAGGAT
    GTGTTCAGGG TGGCAGAGTT CCCCCATGGT TATAGCAGCT GTGAGGACAT CCCCAGAGTG
    GACCTGCGAG TGTGGCAGGA CTGTTGTGAA GACTGTAGGA CCAGGGGACA ATTCAATGCT
    TTCTCCTACC ATTTCCGGGG AAGACGGTCT CTAGAATTTA GCTATGAGGA GGACAAGCCC
    ACAAAGAGAG CCAGGTGGCG GAAAGCGCTA AGTGTAAAGC ATGGCAAACA TCTTAGCAAT
    GCCACATCAG CCACCCACGA GCACTTGGAA GGGCCAGCAA CTAATGATCT CAAGGAATTT
    GTTCTGGAAA TGCAAAAGAT CATCACAGAC CTCAGAAAAC AGATAAACAG CTTGGAGTCT
    CGGCTCAGTA CCACAGAGTG TGTGGATGAC AGCGGTGAAT CTCACGGCGG CAACACAAAG
    TGGAAAAAAG ACCCATGTAC AGTTTGTGAG TGCAAAAATG GCCAGATCAC CTGCTTTGTG
    GAAGCCTGCC AGCCTGCAGC CTGCCCCCAG CCTGTGAAAG TGAAAGGCGC TTGCTGTCCC
    GTCTGCTTAA AGAACACTGC AGAGGAAAAG CCTTAG

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

    RefSeq XP_029340481.1
    CDS116..4471
    Translation

    Target ORF information:

    RefSeq Version XM_029484621.1
    Organism Mus caroli(Ryukyu mouse)
    Definition Mus caroli peroxidasin (Pxdn), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_029484621.1

    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
    ATGGCCGTGC GCCCCACGCG CCGCTGTCTG CTGGCGCTCG TGCTGTGCTT TGCCTGGTGG 
    GACATGGCGG TGGTCGCCTC GAAGCAAGGG GCAGGCTGTC CAAGCCGCTG CCTGTGCTTC
    CGTACCACCG TGCGCTGCAT GCATCTGTTG CTGGAGGCCG TGCCCGCCGT GGCGCCGCAG
    ACCTCCATCC TAGATCTTCG GTTCAACAGA ATCAGAGAGA TCCAACCCGG GGCGTTCAGG
    AGGCTGAAGA ACTTGAACAC ACTGCTTCTT AACAACAACC AGATCAAGAA GATTCCCAAT
    GGTGCATTTG AGGACCTGGA GAACTTAAAA TACCTGTACC TGCACTTTAA TCAGATAGAA
    ACGCTGGACC CTGAATCCTT CCAGCACCTG CCAAAGCTGG AGAGACTGTT TTTGCACAAC
    AACCGTATCA CACACTTAGT TCCTGGGACG TTCAGTCAGT TAGAGTCCAT GAAACGACTG
    CGATTGGACT CGAATGCACT CCACTGTGAC TGTGAAATCC TATGGCTAGC GGATCTACTG
    AAGACCTACG CCCAATCTGG AAACGCACAA GCAGCAGCTA CCTGCGAGTA TCCCAGACGC
    ATCCAAGGAC GCTCTGTGGC TACCATCACC CCAGAAGAGC TGAACTGTGA AAGGCCCCGG
    ATTACCTCAG AGCCACAGGA TGCAGATGTC ACCTCAGGGA ACACAGTGTA CTTCACCTGC
    AGAGCTGAGG GCAACCCCAA ACCTGAGATC ATCTGGCTTC GAAACAATAA TGAGTTGAGC
    ATGAAGACGG ACTCTCGCTT AAACTTGCTG GACGATGGCA CGCTGATGAT CCAGAACACA
    CAGGAGGCAG ATGAGGGTGT CTACCAGTGC ATGGCGAAAA ATGTGGCTGG AGAGGCGAAA
    ACGCAGGAGG TGACCCTCAG GTACTTGGGG TCTCCAGCCC GACCCACTTT TGTAATCCAG
    CCGCAGAACA CAGAGGTACT GGTGGGTGAG AGTGTCACTC TGGAGTGCAG TGCCACAGGC
    CACCCTCTGC CTCAGATCAC CTGGACAAGA GGTGACCGGA CACCCTTGCC AATTGACCCT
    CGAGTGAATA TCACTCCCTC TGGAGGACTG TATATACAGA ACGTGGCCCA GAGTGATAGC
    GGCGAGTACA CGTGCTTTGC ATCCAACAGT GTGGACAGTA TCCATGCCAC AGCCTTCATC
    ATTGTACAAG CCCTTCCTCA GTTCACTGTG ACCCCACAGA GCCGAGTGGT CATTGAAGGG
    CAGACTGTGG ATTTCCAATG TGAGGCTAAG GGATACCCTC AGCCAGTCAT CGCCTGGACC
    AAGGGAGGGA GCCAGCTCTC AGTGGACAGG CGGCACCTGG TGCTGTCCTC AGGAACACTC
    AGGATTTCTG GGGTGGCTCT GCATGACCAG GGCCAGTATG AGTGCCAGGC CGTCAATATC
    ATTGGCTCCC AGAAGGTCGT GGCCCACCTG ACAGTACAGC CTCGAGTCAC CCCGGTATTT
    GCCAGCATTC CCAGTGACAT GACTGTAGAG GTGGGCACCA ATGTGCAGCT GCCTTGTAGC
    TCCCAGGGGG AACCAGAGCC AGCCATCACC TGGAACAAGG ATGGTGTTCA GGTAACAGAA
    AGTGGAAAAT TTCACATCAG CCCCGAAGGA TTCTTGACCA TCAATGATGT TGGCACTGCC
    GACGCAGGTC GCTATGAGTG TGTAGCTCGG AACACAATTG GATATGCCTC AGTGAGCATG
    GTACTCAGTG TGAATGTTCC TGATGTAAGT CGGAATGGGG ATCCATATGT TGCTACCTCT
    ATTGTTGAAG CCATTGCAAC TGTTGACAGA GCCATCAACT CTACAAGGAC ACACTTGTTT
    GACAGCCGTC CTCGTTCGCC AAATGACCTT CTCGCTCTGT TCCGGTACCC ACGGGATCCA
    TACACAGTGG GACAAGCCAG GGCAGGAGAG ATATTCGAGC GGACCCTGCA GCTGATCCAG
    GAGCATGTTC AGCATGGCTT GATGGTGGAC TTGAATGGAA CAAGTTACCA CTACAATGAT
    CTGGTGTCCC CGCAGTACCT GAGCCTCATC GCCAACCTGT CAGGCTGCAC TGCACACCGT
    CGCGTGAACA ACTGCTCAGA TATGTGCTTC CACCAGAAGT ATAGGACGCA TGATGGCACG
    TGCAACAATC TACAGCACCC GATGTGGGGT GCCTCACTGA CCGCCTTTGA GCGCCTGTTG
    AAGGCTGTGT ATGAGAATGG ATTCAACACA CCCCGGGGCA TTAATTCCCA GCGTCAGTAC
    AATGGGCATG TACTACCCAT GCCTCGCCTG GTGTCCACCA CACTGATTGG GACAGAGGTG
    ATCACCCCCG ATGAGCAGTT TACACACATG CTGATGCAAT GGGGCCAGTT CCTTGACCAT
    GACCTAGACT CTACAGTGGT AGCCCTGAGC CAGGCCCGCT TCTCTGATGG GCAGCATTGC
    AGCTCAGTAT GCAGCAATGA CCCTCCCTGT TTCTCGGTCA TGATCCCCCC CAATGATCCC
    CGGGTGCGGA GTGGCGCCCG ATGCATGTTC TTCGTGCGAT CGAGCCCCGT GTGTGGCAGC
    GGCATGACGT CCCTGCTCAT GAACTCTGTG TACCCTCGAG AGCAGATCAA CCAGCTCACC
    TCCTACATTG ATGCCTCCAA TGTGTATGGC AGCACAGACC ACGAAGCCCG CAGCATCCGG
    GACCTGGCCA GCCACCGTGG CCTGCTGCGT CAGGGCATTG TGCAGAGGTC TGGCAAGCCC
    CTGCTTCCCT TTGCCACCGG GCCACCCACT GAGTGCATGC GTGATGAGAA TGAGAGCCCA
    ATACCATGCT TTCTGGCTGG TGACCACCGT GCCAACGAGC AGCTTGGCCT GACCAGCATG
    CATACGCTGT GGTTCCGGGA GCACAACCGC ATTGCAGCAG AGCTGTTGAA GCTGAACCCG
    CACTGGGATG GGGACACTGT CTACCATGAG ACCCGCAAGA TAGTCGGGGC AGAGATACAG
    CACATCACCT ACCGGCACTG GCTGCCCAAG ATCCTGGGGG AGGTGGGCAT GAAGATGCTC
    GGTGAGTACC GGGGCTACGA CCCCAGTGTC AATGCTGGCA TCTTTAATGC CTTTGCCACT
    GCAGCCTTCA GGTTTGGTCA CACTCTGATC AACCCTCTGC TCTACCGGCT GGATGAGAAC
    TTTGAGCCCA TCCCTCAGGG CCATGTGCCC CTCCACAAAG CCTTCTTCTC GCCCTTCCGG
    ATTGTCAACG AGGGGGGCAT CGACCCACTT CTCCGAGGGC TGTTTGGAGT GGCAGGGAAG
    ATGCGCATTC CCTCTCAATT GCTGAACACG GAGCTCACGG AGAGGCTGTT CTCCATGGCC
    CACACAGTGG CCCTGGACCT GGCTGCCATC AATATCCAGC GAGGCCGGGA CCATGGCATC
    CCACCCTACC ATGACTACAG AGTCTACTGC AACTTGTCGG CTGCTTACAC CTTTGAGGAC
    CTGAAAAATG AGATCAAGAG CCCCGTGATC CGGGAGAAAC TGCAGAGGCT GTATGGCTCG
    ACTCTCAACA TTGACCTGTT CCCGGCCCTC ATGGTGGAAG ACCTGGTCCC TGGCAGCCGC
    TTGGGGCCCA CGCTCATGTG CCTGCTCAGC ACACAGTTCC GACGCCTGCG GGATGGAGAC
    AGGTTGTGGT ATGAGAACCC AGGCGTGTTC TCCCCCGCCC AGCTGACTCA GCTCAAGCAG
    ACGTCCTTGG CAAGGATCCT TTGTGACAAC TCAGACAACA TCACCCGTGT GCAGCAGGAT
    GTGTTCAGGG TGGCAGAGTT CCCCCATGGT TATAGCAGCT GTGAGGACAT CCCCAGAGTG
    GACCTGCGAG TGTGGCAGGA CTGTTGTGAA GACTGTAGGA CCAGGGGACA ATTCAATGCT
    TTCTCCTACC ATTTCCGGGG AAGACGGTCT CTAGAATTTA GCTATGAGGA GGACAAGCCC
    ACAAAGAGAG CCAGGTGGCG GAAAGCGCTA AGTGTAAAGC ATGGCAAACA TCTTAGCAAT
    GCCACATCAG CCACCCACGA GCACTTGGAA GGGCCAGCAA CTAATGATCT CAAGGAATTT
    GTTCTGGAAA TGCAAAAGAT CATCACAGAC CTCAGAAAAC AGATAAACAG CTTGGAGTCT
    CGGCTCAGTA CCACAGAGTG TGTGGATGAC AGCGGTGAAT CTCACGGCGG CAACACAAAG
    TGGAAAAAAG ACCCATGTAC AGTTTGTGAG TGCAAAAATG GCCAGATCAC CTGCTTTGTG
    GAAGCCTGCC AGCCTGCAGC CTGCCCCCAG CCTGTGAAAG TGAAAGGCGC TTGCTGTCCC
    GTCTGCTTAA AGAACACTGC AGAGGAAAAG CCTTAG

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