ORF » Species Summary » Xiphophorus maculatus » pamr1 cDNA ORF clone

pamr1 cDNA ORF clone, Xiphophorus maculatus(southern platyfish)

The following pamr1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the pamr1 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
OXi07670 XM_014469954.1
Latest version!		 Xiphophorus maculatus peptidase domain containing associated with muscle regeneration 1 (pamr1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXi30678 XM_014469954.2
Latest version!		 Xiphophorus maculatus peptidase domain containing associated with muscle regeneration 1 (pamr1), mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00

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

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

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

  • Reference Sequences (Refseq)
    pamr1 ( XM_014469954.1 ) cDNA ORF clone, Xiphophorus maculatus(southern platyfish) -> XP_014325440.1 Xiphophorus maculatus peptidase domain containing associated with muscle regeneration 1 (pamr1), mRNA.
    Price & Availability↑
    CloneID OXi07670
    Clone ID Related Accession (Same CDS sequence) XM_014469954.1
    Accession Version XM_014469954.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3342bp)
    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 1445702400000
    Organism Xiphophorus maculatus(Southern platyfish)
    Product inactive serine protease PAMR1
    Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_005372253.1) 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 :: Xiphophorus maculatus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 48% of CDS bases ##RefSeq-Attributes-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
    ATGTGCAGAG GCTGCTGTGA GTACGACGTT ATCCGCTGTA AGTGTCCCCT CCAGGGTACT 
    CAGGTTGGCT ATGCTGTGCC CTGCTGCCGC AATGCAATCA ACGAGTGCGA CCCCTGTATC 
    ATCCATCCAG GATGCAGCAT TTTTGAGAAC TGTAAGCGTT GTAACAACGG AACGTGGGGG 
    CCCCAAGATA ACTTCTTTAT TAATGGAAAA TACTGCGCTG AGTGTCGCCC CGGCTGGTCT 
    GGAGGAGATT GCATGAAGTG TGGAGGAGTT ATCCGTAAAC GGCAGGGCCA TTTGGTTCTT 
    GAGAGCTACC CCAACAATGC AAGGTGTGAG TGGACCATAC AAGTGGAAAA ACCGTTTACT 
    ATTGAAATCA GGTTTATGAT GCTGAGTCTG GAATTTCACC CTTCCTGTCG CTATGACTTT 
    GTAGAGGTAC GTGATGGAGA CAGCATCAAC TCTCGTGTCA TTGGTAGATT CTGCGGGAAC 
    AATCGACCTG CCGCACTCCA GAGCTCTGGC AACACTTTGC ACATTTTGTT TGTTTCTGAT 
    GGTTATAAGA ATTTTGATGG ATTCTTCGCT ACTTTCCAAG AAAATTCAGC TTGCAGCTCA 
    TCCCCTTGCC TGCATGATGG GACTTGTATT CTGGACACTT CCTACACTTA CCACTGTGCC 
    TGTCTAGCTG GCTATACGGG GAAGAGGTGT GAAAATGTGG TGGGATGCCA CAGGCCTCCA 
    GTGCCCAAAC ATGGTTCTAC AGAGGGCCTG TTTCTACATT CTGGTTCTCG CATCACTTAC 
    CGCTGTGACC CGGGCTTTGA ACTGCGGGGG TTTCGTACTG CCATCTGCCT GACCGATGGC 
    ACCTGGAGTG CAACAGCACC TGAATGTGTG CCAGTGGAAA GAGTCTGTAC TTTACCACCC 
    AAGCCAGTAA ATGGTGACCA CCTGTTGGTG TATGGACCAA ATGATGTCCT CATAGCACTC 
    CAGTATATGT GCAACCAGCC CTATGAACTC ATTGGGATCT CCCAGAGAAC CTGCCTCCCA 
    AACAACACCT GGAGTGGGAC TCCTCCTTTT TGCTCTAAAG TGAATAACAC TCTAACTGAG 
    TCTGAAAAAG ATAAAAATAA AGTGCAAGAG GCAGACACTG GCAGGGGAGT AGATATAGAG 
    AGTGAGAAAG ATAACAGTAA AGCTAAAGAG ATACCTCAAC AAAACACAAC AGAAAAAGGA 
    AGTGCTGGCA GGGAAGATAT ATACTCTTGG GTAGAGAACA CAACATCAGT GGACACTGAA 
    GATAAATACA CTAAAACAGT TCCAGAAAAT ACTGTCGACA AAGGTAAGGA TGAAGGTGAT 
    TTAGAAGAAA CAAATACTGG ATCAGAGAGG CCCAGCGAAG ACAAAAAAAT TGAAGTGGAT 
    CCTAAAAGCA CTGACAGCAG GGATAACACA GTTGAGGAAA AAGAACCAGA GGGACCAAAG 
    GCACCAGAGA AAAAGGAAGA AAGTTCAGAC CCTGAGCCAG AGAAAGGGAA GGCTAACAAC 
    ACAGAAATAG TGCCAAAAAA AGACAAAGGG CAAGAAGAGA AGCAACGAAA AGATGAGCAA 
    ATTAATGGAA AGAGAGACCC AGATAAATTT GGCCCAAATG ACACAAAACT GAAGACGAAT 
    GTGTCTGAGG GTGACACCAC TGCGGAAACA TTTGAGCTGG ATTTGACAAA GAACAGCACA 
    AACTCTCCGA ACTCAAAGGA TGCAAAGAAA GAAAATAACA CCACTGGATC TCCGACGACA 
    GTGAGGAAAA TTGATCCCTC TCGAATTAAT GTGACACAGT ACACTTTGTA CAGAGCAAAT 
    GGGGAAAATG GGAAAACAAA GGAAAAATCT CTTACTACCA AAGACGAAAC CGAAAAAGAT 
    TCCTTAGAAA AAACTAAGGA GTTGGAAAGA AAGAAGGAAG AAAGAGAAAA AGACAAAGAA 
    GTCAACCAGA GCCAAACAGA GAGGAGGTGT CCTCCTCTTC CCCGCTTGTA CAACGGCTAC 
    CACCAGGTGG TGCCAGGGTT GGATCTAGAA ACTATGGAGT TTATGTGCAA CCACTCATAT 
    GCTCTCAGCG GCGATAAAAG GCGAACCTGT CAGCCAGATG GTACCTGGAG TGGCAAGCAG 
    CCCTTCTGTC TCAGAGCATG TCGAGAACCC AAAGTATCAG AACTGGTCAA GCAAAAAATT 
    TTGCCACCAC ATGTACCGTC CAGGAAGACG ATCGTCCACA GGCTCCTTTC CTCTGCAGTC 
    AACCAGAAGC TCCAGGCTGT GGGGCCCACT AAAAGTTCCC CAGTGCTTCC TCAGTTATCC 
    CAGGGTTTCC ATCATCTTTA CACCCATATT GAGTATGAGT GTGCTTCTCA GTATTATCAT 
    CACTTTGGCA GCGCTCGGCG CACATGTTTA AAGACAGGGA AATGGAGCGG ACGCCATGTC 
    TCATGTTCAC CAGTCTGTGG GAAACATGTA AACTTTGACC CAGAGAGGCC AGAAGAGGCT 
    CACTGGCCCT GGCTGGCGGC CATATACCGC CGCTCCCTCA AGGAGACAGA GACTAAGGTG 
    ACAAAAGGAA GCAACCAGGA CGAAACACTG AAGAAAGATG CTGGAGACAG AAGTAGCAAC 
    CTAAATCAGG CCTCTGACTG GCAGCTTGTC TGCAGCGGGG CTCTGGTTAA CCAAAGGAGT 
    CTGGTAGTTG CAGCTCACTG TGTGACAGAG CTTGGAAAGA TGTATCCTGT GGATACAGCC 
    ACCATCAAGG TGGTCGTTGG GAAGCACTAC CGCAATGACC GCAGGGAAAA TAAGGGTCCT 
    CAACACCTCA GGGTGAGCTC CATTGCTGTG CATCCTAATT ACGATCCTAA TATTCTTGAC 
    TCTGACATTG CTGTTATCAA GTTATTCGAC AAGGCAAGAA TTGGAGAAAA AGTCTTGCCG 
    CTCTGCCTGT CAGAGAACGA GGAGGAAGAG GTTACATCAG ATCAAGGGCT TGTGACAGGC 
    TGGTCTCCAT TGCAGGATTC TAGTTTGGGC CGTGAGGAAA AGGCAAGGGT TGGGTTGGTT 
    CACCTTGCTG ATATAGTCCC GTGTGAGCAT CAGTATGCCC GTAACGGTGT GCCGGTCAGT 
    GTTACAGACA ATATGTTATG TGCAAGCCAA AAACCTGACT ATGGTCCATC TAACATATGT 
    CCGTCTGACA CTGGGGGCAT CCTTGTCCTC CCTGCCAACT CTGGGAACCA GGTCAGCTAT 
    AATTCAAAGT TCTCTCAGGT GCAAAAGGAC AACAGAGGCT TGTGGAGACT CCTGGGACTG 
    GTGAGCTTTG GCTATGATCA GGGGGAATGT GATCCTGAAC TCTACACAGT TTACACACGT 
    GTGGATAACT TTAAAGACTG GATTGAGAGC AACATCAAAT AA

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

    RefSeq XP_014325440.1
    CDS19..3360
    Translation

    Target ORF information:

    RefSeq Version XM_014469954.1
    Organism Xiphophorus maculatus(Southern platyfish)
    Definition Xiphophorus maculatus peptidase domain containing associated with muscle regeneration 1 (pamr1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014469954.1

    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
    ATGTGCAGAG GCTGCTGTGA GTACGACGTT ATCCGCTGTA AGTGTCCCCT CCAGGGTACT 
    CAGGTTGGCT ATGCTGTGCC CTGCTGCCGC AATGCAATCA ACGAGTGCGA CCCCTGTATC 
    ATCCATCCAG GATGCAGCAT TTTTGAGAAC TGTAAGCGTT GTAACAACGG AACGTGGGGG 
    CCCCAAGATA ACTTCTTTAT TAATGGAAAA TACTGCGCTG AGTGTCGCCC CGGCTGGTCT 
    GGAGGAGATT GCATGAAGTG TGGAGGAGTT ATCCGTAAAC GGCAGGGCCA TTTGGTTCTT 
    GAGAGCTACC CCAACAATGC AAGGTGTGAG TGGACCATAC AAGTGGAAAA ACCGTTTACT 
    ATTGAAATCA GGTTTATGAT GCTGAGTCTG GAATTTCACC CTTCCTGTCG CTATGACTTT 
    GTAGAGGTAC GTGATGGAGA CAGCATCAAC TCTCGTGTCA TTGGTAGATT CTGCGGGAAC 
    AATCGACCTG CCGCACTCCA GAGCTCTGGC AACACTTTGC ACATTTTGTT TGTTTCTGAT 
    GGTTATAAGA ATTTTGATGG ATTCTTCGCT ACTTTCCAAG AAAATTCAGC TTGCAGCTCA 
    TCCCCTTGCC TGCATGATGG GACTTGTATT CTGGACACTT CCTACACTTA CCACTGTGCC 
    TGTCTAGCTG GCTATACGGG GAAGAGGTGT GAAAATGTGG TGGGATGCCA CAGGCCTCCA 
    GTGCCCAAAC ATGGTTCTAC AGAGGGCCTG TTTCTACATT CTGGTTCTCG CATCACTTAC 
    CGCTGTGACC CGGGCTTTGA ACTGCGGGGG TTTCGTACTG CCATCTGCCT GACCGATGGC 
    ACCTGGAGTG CAACAGCACC TGAATGTGTG CCAGTGGAAA GAGTCTGTAC TTTACCACCC 
    AAGCCAGTAA ATGGTGACCA CCTGTTGGTG TATGGACCAA ATGATGTCCT CATAGCACTC 
    CAGTATATGT GCAACCAGCC CTATGAACTC ATTGGGATCT CCCAGAGAAC CTGCCTCCCA 
    AACAACACCT GGAGTGGGAC TCCTCCTTTT TGCTCTAAAG TGAATAACAC TCTAACTGAG 
    TCTGAAAAAG ATAAAAATAA AGTGCAAGAG GCAGACACTG GCAGGGGAGT AGATATAGAG 
    AGTGAGAAAG ATAACAGTAA AGCTAAAGAG ATACCTCAAC AAAACACAAC AGAAAAAGGA 
    AGTGCTGGCA GGGAAGATAT ATACTCTTGG GTAGAGAACA CAACATCAGT GGACACTGAA 
    GATAAATACA CTAAAACAGT TCCAGAAAAT ACTGTCGACA AAGGTAAGGA TGAAGGTGAT 
    TTAGAAGAAA CAAATACTGG ATCAGAGAGG CCCAGCGAAG ACAAAAAAAT TGAAGTGGAT 
    CCTAAAAGCA CTGACAGCAG GGATAACACA GTTGAGGAAA AAGAACCAGA GGGACCAAAG 
    GCACCAGAGA AAAAGGAAGA AAGTTCAGAC CCTGAGCCAG AGAAAGGGAA GGCTAACAAC 
    ACAGAAATAG TGCCAAAAAA AGACAAAGGG CAAGAAGAGA AGCAACGAAA AGATGAGCAA 
    ATTAATGGAA AGAGAGACCC AGATAAATTT GGCCCAAATG ACACAAAACT GAAGACGAAT 
    GTGTCTGAGG GTGACACCAC TGCGGAAACA TTTGAGCTGG ATTTGACAAA GAACAGCACA 
    AACTCTCCGA ACTCAAAGGA TGCAAAGAAA GAAAATAACA CCACTGGATC TCCGACGACA 
    GTGAGGAAAA TTGATCCCTC TCGAATTAAT GTGACACAGT ACACTTTGTA CAGAGCAAAT 
    GGGGAAAATG GGAAAACAAA GGAAAAATCT CTTACTACCA AAGACGAAAC CGAAAAAGAT 
    TCCTTAGAAA AAACTAAGGA GTTGGAAAGA AAGAAGGAAG AAAGAGAAAA AGACAAAGAA 
    GTCAACCAGA GCCAAACAGA GAGGAGGTGT CCTCCTCTTC CCCGCTTGTA CAACGGCTAC 
    CACCAGGTGG TGCCAGGGTT GGATCTAGAA ACTATGGAGT TTATGTGCAA CCACTCATAT 
    GCTCTCAGCG GCGATAAAAG GCGAACCTGT CAGCCAGATG GTACCTGGAG TGGCAAGCAG 
    CCCTTCTGTC TCAGAGCATG TCGAGAACCC AAAGTATCAG AACTGGTCAA GCAAAAAATT 
    TTGCCACCAC ATGTACCGTC CAGGAAGACG ATCGTCCACA GGCTCCTTTC CTCTGCAGTC 
    AACCAGAAGC TCCAGGCTGT GGGGCCCACT AAAAGTTCCC CAGTGCTTCC TCAGTTATCC 
    CAGGGTTTCC ATCATCTTTA CACCCATATT GAGTATGAGT GTGCTTCTCA GTATTATCAT 
    CACTTTGGCA GCGCTCGGCG CACATGTTTA AAGACAGGGA AATGGAGCGG ACGCCATGTC 
    TCATGTTCAC CAGTCTGTGG GAAACATGTA AACTTTGACC CAGAGAGGCC AGAAGAGGCT 
    CACTGGCCCT GGCTGGCGGC CATATACCGC CGCTCCCTCA AGGAGACAGA GACTAAGGTG 
    ACAAAAGGAA GCAACCAGGA CGAAACACTG AAGAAAGATG CTGGAGACAG AAGTAGCAAC 
    CTAAATCAGG CCTCTGACTG GCAGCTTGTC TGCAGCGGGG CTCTGGTTAA CCAAAGGAGT 
    CTGGTAGTTG CAGCTCACTG TGTGACAGAG CTTGGAAAGA TGTATCCTGT GGATACAGCC 
    ACCATCAAGG TGGTCGTTGG GAAGCACTAC CGCAATGACC GCAGGGAAAA TAAGGGTCCT 
    CAACACCTCA GGGTGAGCTC CATTGCTGTG CATCCTAATT ACGATCCTAA TATTCTTGAC 
    TCTGACATTG CTGTTATCAA GTTATTCGAC AAGGCAAGAA TTGGAGAAAA AGTCTTGCCG 
    CTCTGCCTGT CAGAGAACGA GGAGGAAGAG GTTACATCAG ATCAAGGGCT TGTGACAGGC 
    TGGTCTCCAT TGCAGGATTC TAGTTTGGGC CGTGAGGAAA AGGCAAGGGT TGGGTTGGTT 
    CACCTTGCTG ATATAGTCCC GTGTGAGCAT CAGTATGCCC GTAACGGTGT GCCGGTCAGT 
    GTTACAGACA ATATGTTATG TGCAAGCCAA AAACCTGACT ATGGTCCATC TAACATATGT 
    CCGTCTGACA CTGGGGGCAT CCTTGTCCTC CCTGCCAACT CTGGGAACCA GGTCAGCTAT 
    AATTCAAAGT TCTCTCAGGT GCAAAAGGAC AACAGAGGCT TGTGGAGACT CCTGGGACTG 
    GTGAGCTTTG GCTATGATCA GGGGGAATGT GATCCTGAAC TCTACACAGT TTACACACGT 
    GTGGATAACT TTAAAGACTG GATTGAGAGC AACATCAAAT AA

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

    pamr1 ( XM_014469954.2 ) cDNA ORF clone, Xiphophorus maculatus(southern platyfish) -> XP_014325440.2 Xiphophorus maculatus peptidase domain containing associated with muscle regeneration 1 (pamr1), mRNA.
    Price & Availability↑
    CloneID OXi30678
    Clone ID Related Accession (Same CDS sequence) XM_014469954.2
    Accession Version XM_014469954.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3546bp)
    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 1513785600000
    Organism Xiphophorus maculatus(southern platyfish)
    Product inactive serine protease PAMR1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_036444.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 22, 2017 this sequence version replaced XM_014469954.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xiphophorus maculatus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 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
    ATGCTGTCTG CGGGACAGGA ACAACAGCTG GGGCAAACCC ATGGGAGCAT TCGGACAATC 
    CGACTGACCA ACACCTTTAT GTCCAGAAGA GAGGGCTGGC TCCTCTCTGT CTCCCTTATT 
    TTCATCTCTT TGCCCTTGGG GACAGCATGG CCTTACGATT ACAGGTACTT GTACAACCAC 
    TGCCCAGGTC CAGAGTGGAG CGTTATGTGC AGAGGCTGCT GTGAGTACGA CGTTATCCGC 
    TGTAAGTGTC CCCTCCAGGG TACTCAGGTT GGCTATGCTG TGCCCTGCTG CCGCAATGCA 
    ATCAACGAGT GCGACCCCTG TATCATCCAT CCAGGATGCA GCATTTTTGA GAACTGTAAG 
    CGTTGTAACA ACGGAACGTG GGGGCCCCAA GATAACTTCT TTATTAATGG AAAATACTGC 
    GCTGAGTGTC GCCCCGGCTG GTCTGGAGGA GATTGCATGA AGTGTGGAGG AGTTATCCGT 
    AAACGGCAGG GCCATTTGGT TCTTGAGAGC TACCCCAACA ATGCAAGGTG TGAGTGGACC 
    ATACAAGTGG AAAAACCGTT TACTATTGAA ATCAGGTTTA TGATGCTGAG TCTGGAATTT 
    CACCCTTCCT GTCGCTATGA CTTTGTAGAG GTACGTGATG GAGACAGCAT CAACTCTCGT 
    GTCATTGGTA GATTCTGCGG GAACAATCGA CCTGCCGCAC TCCAGAGCTC TGGCAACACT 
    TTGCACATTT TGTTTGTTTC TGATGGTTAT AAGAATTTTG ATGGATTCTT CGCTACTTTC 
    CAAGAAAATT CAGCTTGCAG CTCATCCCCT TGCCTGCATG ATGGGACTTG TATTCTGGAC 
    ACTTCCTACA CTTACCACTG TGCCTGTCTA GCTGGCTATA CGGGGAAGAG GTGTGAAAAT 
    GTGGTGGGAT GCCACAGGCC TCCAGTGCCC AAACATGGTT CTACAGAGGG CCTGTTTCTA 
    CATTCTGGTT CTCGCATCAC TTACCGCTGT GACCCGGGCT TTGAACTGCG GGGGTTTCGT 
    ACTGCCATCT GCCTGACCGA TGGCACCTGG AGTGCAACAG CACCTGAATG TGTGCCAGTG 
    GAAAGAGTCT GTACTTTACC ACCCAAGCCA GTAAATGGTG ACCACCTGTT GGTGTATGGA 
    CCAAATGATG TCCTCATAGC ACTCCAGTAT ATGTGCAACC AGCCCTATGA ACTCATTGGG 
    ATCTCCCAGA GAACCTGCCT CCCAAACAAC ACCTGGAGTG GGACTCCTCC TTTTTGCTCT 
    AAAGTGAATA ACACTCTAAC TGAGTCTGAA AAAGATAAAA ATAAAGTGCA AGAGGCAGAC 
    ACTGGCAGGG GAGTAGATAT AGAGAGTGAG AAAGATAACA GTAAAGCTAA AGAGATACCT 
    CAACAAAACA CAACAGAAAA AGGAAGTGCT GGCAGGGAAG ATATATACTC TTGGGTAGAG 
    AACACAACAT CAGTGGACAC TGAAGATAAA TACACTAAAA CAGTTCCAGA AAATACTGTC 
    GACAAAGGTA AGGATGAAGG TGATTTAGAA GAAACAAATA CTGGATCAGA GAGGCCCAGC 
    GAAGACAAAA AAATTGAAGT GGATCCTAAA AGCACTGACA GCAGGGATAA CACAGTTGAG 
    GAAAAAGAAC CAGAGGGACC AAAGGCACCA GAGAAAAAGG AAGAAAGTTC AGACCCTGAG 
    CCAGAGAAAG GGAAGGCTAA CAACACAGAA ATAGTGCCAA AAAAAGACAA AGGGCAAGAA 
    GAGAAGCAAC GAAAAGATGA GCAAATTAAT GGAAAGAGAG ACCCAGATAA ATTTGGCCCA 
    AATGACACAA AACTGAAGAC GAATGTGTCT GAGGGTGACA CCACTGCGGA AACATTTGAG 
    CTGGATTTGA CAAAGAACAG CACAAACTCT CCGAACTCAA AGGATGCAAA GAAAGAAAAT 
    AACACCACTG GATCTCCGAC GACAGTGAGG AAAATTGATC CCTCTCGAAT TAATGTGACA 
    CAGTACACTT TGTACAGAGC AAATGGGGAA AATGGGAAAA CAAAGGAAAA ATCTCTTACT 
    ACCAAAGACG AAACCGAAAA AGATTCCTTA GAAAAAACTA AGGAGTTGGA AAGAAAGAAG 
    GAAGAAAGAG AAAAAGACAA AGAAGTCAAC CAGAGCCAAA CAGAGAGGAG GTGTCCTCCT 
    CTTCCCCGCT TGTACAACGG CTACCACCAG GTGGTGCCAG GGTTGGATCT AGAAACTATG 
    GAGTTTATGT GCAACCACTC ATATGCTCTC AGCGGCGATA AAAGGCGAAC CTGTCAGCCA 
    GATGGTACCT GGAGTGGCAA GCAGCCCTTC TGTCTCAGAG CATGTCGAGA ACCCAAAGTA 
    TCAGAACTGG TCAAGCAAAA AATTTTGCCA CCACATGTAC CGTCCAGGAA GACGATCGTC 
    CACAGGCTCC TTTCCTCTGC AGTCAACCAG AAGCTCCAGG CTGTGGGGCC CACTAAAAGT 
    TCCCCAGTGC TTCCTCAGTT ATCCCAGGGT TTCCATCATC TTTACACCCA TATTGAGTAT 
    GAGTGTGCTT CTCAGTATTA TCATCACTTT GGCAGCGCTC GGCGCACATG TTTAAAGACA 
    GGGAAATGGA GCGGACGCCA TGTCTCATGT TCACCAGTCT GTGGGAAACA TGTAAACTTT 
    GACCCAGAGA GGCCAGAAGA GGCTCACTGG CCCTGGCTGG CGGCCATATA CCGCCGCTCC 
    CTCAAGGAGA CAGAGACTAA GGTGACAAAA GGAAGCAACC AGGACGAAAC ACTGAAGAAA 
    GATGCTGGAG ACAGAAGTAG CAACCTAAAT CAGGCCTCTG ACTGGCAGCT TGTCTGCAGC 
    GGGGCTCTGG TTAACCAAAG GAGTCTGGTA GTTGCAGCTC ACTGTGTGAC AGAGCTTGGA 
    AAGATGTATC CTGTGGATAC AGCCACCATC AAGGTGGTCG TTGGGAAGCA CTACCGCAAT 
    GACCGCAGGG AAAATAAGGG TCCTCAACAC CTCAGGGTGA GCTCCATTGC TGTGCATCCT 
    AATTACGATC CTAATATTCT TGACTCTGAC ATTGCTGTTA TCAAGTTATT CGACAAGGCA 
    AGAATTGGAG AAAAAGTCTT GCCGCTCTGC CTGTCAGAGA ACGAGGAGGA AGAGGTTACA 
    TCAGATCAAG GGCTTGTGAC AGGCTGGTCT CCATTGCAGG ATTCTAGTTT GGGCCGTGAG 
    GAAAAGGCAA GGGTTGGGTT GGTTCACCTT GCTGATATAG TCCCGTGTGA GCATCAGTAT 
    GCCCGTAACG GTGTGCCGGT CAGTGTTACA GACAATATGT TATGTGCAAG CCAAAAACCT 
    GACTATGGTC CATCTAACAT ATGTCCGTCT GACACTGGGG GCATCCTTGT CCTCCCTGCC 
    AACTCTGGGA ACCAGGTCAG CTATAATTCA AAGTTCTCTC AGGTGCAAAA GGACAACAGA 
    GGCTTGTGGA GACTCCTGGG ACTGGTGAGC TTTGGCTATG ATCAGGGGGA ATGTGATCCT 
    GAACTCTACA CAGTTTACAC ACGTGTGGAT AACTTTAAAG ACTGGATTGA GAGCAACATC 
    AAATAA

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

    RefSeq XP_014325440.2
    CDS175..3720
    Translation

    Target ORF information:

    RefSeq Version XM_014469954.2
    Organism Xiphophorus maculatus(southern platyfish)
    Definition Xiphophorus maculatus peptidase domain containing associated with muscle regeneration 1 (pamr1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_014469954.2

    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
    ATGCTGTCTG CGGGACAGGA ACAACAGCTG GGGCAAACCC ATGGGAGCAT TCGGACAATC 
    CGACTGACCA ACACCTTTAT GTCCAGAAGA GAGGGCTGGC TCCTCTCTGT CTCCCTTATT 
    TTCATCTCTT TGCCCTTGGG GACAGCATGG CCTTACGATT ACAGGTACTT GTACAACCAC 
    TGCCCAGGTC CAGAGTGGAG CGTTATGTGC AGAGGCTGCT GTGAGTACGA CGTTATCCGC 
    TGTAAGTGTC CCCTCCAGGG TACTCAGGTT GGCTATGCTG TGCCCTGCTG CCGCAATGCA 
    ATCAACGAGT GCGACCCCTG TATCATCCAT CCAGGATGCA GCATTTTTGA GAACTGTAAG 
    CGTTGTAACA ACGGAACGTG GGGGCCCCAA GATAACTTCT TTATTAATGG AAAATACTGC 
    GCTGAGTGTC GCCCCGGCTG GTCTGGAGGA GATTGCATGA AGTGTGGAGG AGTTATCCGT 
    AAACGGCAGG GCCATTTGGT TCTTGAGAGC TACCCCAACA ATGCAAGGTG TGAGTGGACC 
    ATACAAGTGG AAAAACCGTT TACTATTGAA ATCAGGTTTA TGATGCTGAG TCTGGAATTT 
    CACCCTTCCT GTCGCTATGA CTTTGTAGAG GTACGTGATG GAGACAGCAT CAACTCTCGT 
    GTCATTGGTA GATTCTGCGG GAACAATCGA CCTGCCGCAC TCCAGAGCTC TGGCAACACT 
    TTGCACATTT TGTTTGTTTC TGATGGTTAT AAGAATTTTG ATGGATTCTT CGCTACTTTC 
    CAAGAAAATT CAGCTTGCAG CTCATCCCCT TGCCTGCATG ATGGGACTTG TATTCTGGAC 
    ACTTCCTACA CTTACCACTG TGCCTGTCTA GCTGGCTATA CGGGGAAGAG GTGTGAAAAT 
    GTGGTGGGAT GCCACAGGCC TCCAGTGCCC AAACATGGTT CTACAGAGGG CCTGTTTCTA 
    CATTCTGGTT CTCGCATCAC TTACCGCTGT GACCCGGGCT TTGAACTGCG GGGGTTTCGT 
    ACTGCCATCT GCCTGACCGA TGGCACCTGG AGTGCAACAG CACCTGAATG TGTGCCAGTG 
    GAAAGAGTCT GTACTTTACC ACCCAAGCCA GTAAATGGTG ACCACCTGTT GGTGTATGGA 
    CCAAATGATG TCCTCATAGC ACTCCAGTAT ATGTGCAACC AGCCCTATGA ACTCATTGGG 
    ATCTCCCAGA GAACCTGCCT CCCAAACAAC ACCTGGAGTG GGACTCCTCC TTTTTGCTCT 
    AAAGTGAATA ACACTCTAAC TGAGTCTGAA AAAGATAAAA ATAAAGTGCA AGAGGCAGAC 
    ACTGGCAGGG GAGTAGATAT AGAGAGTGAG AAAGATAACA GTAAAGCTAA AGAGATACCT 
    CAACAAAACA CAACAGAAAA AGGAAGTGCT GGCAGGGAAG ATATATACTC TTGGGTAGAG 
    AACACAACAT CAGTGGACAC TGAAGATAAA TACACTAAAA CAGTTCCAGA AAATACTGTC 
    GACAAAGGTA AGGATGAAGG TGATTTAGAA GAAACAAATA CTGGATCAGA GAGGCCCAGC 
    GAAGACAAAA AAATTGAAGT GGATCCTAAA AGCACTGACA GCAGGGATAA CACAGTTGAG 
    GAAAAAGAAC CAGAGGGACC AAAGGCACCA GAGAAAAAGG AAGAAAGTTC AGACCCTGAG 
    CCAGAGAAAG GGAAGGCTAA CAACACAGAA ATAGTGCCAA AAAAAGACAA AGGGCAAGAA 
    GAGAAGCAAC GAAAAGATGA GCAAATTAAT GGAAAGAGAG ACCCAGATAA ATTTGGCCCA 
    AATGACACAA AACTGAAGAC GAATGTGTCT GAGGGTGACA CCACTGCGGA AACATTTGAG 
    CTGGATTTGA CAAAGAACAG CACAAACTCT CCGAACTCAA AGGATGCAAA GAAAGAAAAT 
    AACACCACTG GATCTCCGAC GACAGTGAGG AAAATTGATC CCTCTCGAAT TAATGTGACA 
    CAGTACACTT TGTACAGAGC AAATGGGGAA AATGGGAAAA CAAAGGAAAA ATCTCTTACT 
    ACCAAAGACG AAACCGAAAA AGATTCCTTA GAAAAAACTA AGGAGTTGGA AAGAAAGAAG 
    GAAGAAAGAG AAAAAGACAA AGAAGTCAAC CAGAGCCAAA CAGAGAGGAG GTGTCCTCCT 
    CTTCCCCGCT TGTACAACGG CTACCACCAG GTGGTGCCAG GGTTGGATCT AGAAACTATG 
    GAGTTTATGT GCAACCACTC ATATGCTCTC AGCGGCGATA AAAGGCGAAC CTGTCAGCCA 
    GATGGTACCT GGAGTGGCAA GCAGCCCTTC TGTCTCAGAG CATGTCGAGA ACCCAAAGTA 
    TCAGAACTGG TCAAGCAAAA AATTTTGCCA CCACATGTAC CGTCCAGGAA GACGATCGTC 
    CACAGGCTCC TTTCCTCTGC AGTCAACCAG AAGCTCCAGG CTGTGGGGCC CACTAAAAGT 
    TCCCCAGTGC TTCCTCAGTT ATCCCAGGGT TTCCATCATC TTTACACCCA TATTGAGTAT 
    GAGTGTGCTT CTCAGTATTA TCATCACTTT GGCAGCGCTC GGCGCACATG TTTAAAGACA 
    GGGAAATGGA GCGGACGCCA TGTCTCATGT TCACCAGTCT GTGGGAAACA TGTAAACTTT 
    GACCCAGAGA GGCCAGAAGA GGCTCACTGG CCCTGGCTGG CGGCCATATA CCGCCGCTCC 
    CTCAAGGAGA CAGAGACTAA GGTGACAAAA GGAAGCAACC AGGACGAAAC ACTGAAGAAA 
    GATGCTGGAG ACAGAAGTAG CAACCTAAAT CAGGCCTCTG ACTGGCAGCT TGTCTGCAGC 
    GGGGCTCTGG TTAACCAAAG GAGTCTGGTA GTTGCAGCTC ACTGTGTGAC AGAGCTTGGA 
    AAGATGTATC CTGTGGATAC AGCCACCATC AAGGTGGTCG TTGGGAAGCA CTACCGCAAT 
    GACCGCAGGG AAAATAAGGG TCCTCAACAC CTCAGGGTGA GCTCCATTGC TGTGCATCCT 
    AATTACGATC CTAATATTCT TGACTCTGAC ATTGCTGTTA TCAAGTTATT CGACAAGGCA 
    AGAATTGGAG AAAAAGTCTT GCCGCTCTGC CTGTCAGAGA ACGAGGAGGA AGAGGTTACA 
    TCAGATCAAG GGCTTGTGAC AGGCTGGTCT CCATTGCAGG ATTCTAGTTT GGGCCGTGAG 
    GAAAAGGCAA GGGTTGGGTT GGTTCACCTT GCTGATATAG TCCCGTGTGA GCATCAGTAT 
    GCCCGTAACG GTGTGCCGGT CAGTGTTACA GACAATATGT TATGTGCAAG CCAAAAACCT 
    GACTATGGTC CATCTAACAT ATGTCCGTCT GACACTGGGG GCATCCTTGT CCTCCCTGCC 
    AACTCTGGGA ACCAGGTCAG CTATAATTCA AAGTTCTCTC AGGTGCAAAA GGACAACAGA 
    GGCTTGTGGA GACTCCTGGG ACTGGTGAGC TTTGGCTATG ATCAGGGGGA ATGTGATCCT 
    GAACTCTACA CAGTTTACAC ACGTGTGGAT AACTTTAAAG ACTGGATTGA GAGCAACATC 
    AAATAA

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

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EMAIL

gene@genscript.com

PHONE

1-877-436-7274

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