ORF » Species Summary » Python bivittatus » ATP10D cDNA ORF clone

ATP10D cDNA ORF clone, Python bivittatus(Burmese python)

The following ATP10D gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ATP10D 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
OPy131695 XM_025174290.1
Latest version!		 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OPy131696 XM_025174291.1
Latest version!		 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OPy16708 XM_025174289.1
Latest version!		 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
OPy16708 XM_007440039.3
Latest version!		 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $713.30
$1019.00
View Old Accession Versions >>
OPy16708 XM_007440039.2 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), 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)
    ATP10D ( XM_025174290.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025030058.1 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X3, mRNA.
    Price & Availability↑
    CloneID OPy131695
    Clone ID Related Accession (Same CDS sequence) XM_025174290.1
    Accession Version XM_025174290.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3825bp)
    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 2018-05-23
    Organism Python bivittatus(Burmese python)
    Product probable phospholipid-transporting ATPase VD isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006537042.1) 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 Name :: Python bivittatus 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
    3601
    3661
    3721
    3781
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGACATTC CGAGGTTCCG ATGTAGATGT CTATTCTTTT 
    GGGAACCCTA TGAATACTAC CATGTTCTTT ATAATATTGC TACATCTTCT GATTGAAAGT 
    AAAAATGTGA ATATTATACA CTTCTCTGTT TTTGCTGGTA GCATCTTCCT GTATTTCTTC 
    GTTCTCGGGC TTTTGGGAGC TTTCTGTGTC CTCTGCAACC CACCAGCCAA TCCATATTGG 
    ATTATTCAGA GACAATTAGT AAACCCAATG TTTTATCTCG TCTGCATGAT CTCAATTACG 
    CTGGCTCTGC TTCCAAGGTA CTTGTTCAGG GTAATCCAAA CCACAGTATT TCCAAGTCCA 
    TTAATACAAG CCAGGATTCT TGAACAACAG AGCCGTGTGC GATAG

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

    RefSeq XP_025030058.1
    CDS288..4112
    Translation

    Target ORF information:

    RefSeq Version XM_025174290.1
    Organism Python bivittatus(Burmese python)
    Definition Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_025174290.1

    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
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGACATTC CGAGGTTCCG ATGTAGATGT CTATTCTTTT 
    GGGAACCCTA TGAATACTAC CATGTTCTTT ATAATATTGC TACATCTTCT GATTGAAAGT 
    AAAAATGTGA ATATTATACA CTTCTCTGTT TTTGCTGGTA GCATCTTCCT GTATTTCTTC 
    GTTCTCGGGC TTTTGGGAGC TTTCTGTGTC CTCTGCAACC CACCAGCCAA TCCATATTGG 
    ATTATTCAGA GACAATTAGT AAACCCAATG TTTTATCTCG TCTGCATGAT CTCAATTACG 
    CTGGCTCTGC TTCCAAGGTA CTTGTTCAGG GTAATCCAAA CCACAGTATT TCCAAGTCCA 
    TTAATACAAG CCAGGATTCT TGAACAACAG AGCCGTGTGC GATAG

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

    ATP10D ( XM_025174291.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025030059.1 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X4, mRNA.
    Price & Availability↑
    CloneID OPy131696
    Clone ID Related Accession (Same CDS sequence) XM_025174291.1
    Accession Version XM_025174291.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3639bp)
    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 2018-05-23
    Organism Python bivittatus(Burmese python)
    Product probable phospholipid-transporting ATPase VD isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006537042.1) 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 Name :: Python bivittatus 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
    3601
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGCCCTAT GTGGGTGTAG CCTTTGCAAT GAACTTGGTG 
    GATGCATTTT ACCAAAGCCT GGTTTGCTTT TTTATCTGCT ACTTTACATT CCGAGGTTCC 
    GATGTAGATG TCTATTCTTT TGGGAACCCT ATGAATACTA CCATGTTCTT TATAATATTG 
    CTACATCTTC TGATTGAAAG TAAAAATGTG GTTCCCTGA

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

    RefSeq XP_025030059.1
    CDS288..3926
    Translation

    Target ORF information:

    RefSeq Version XM_025174291.1
    Organism Python bivittatus(Burmese python)
    Definition Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_025174291.1

    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
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGCCCTAT GTGGGTGTAG CCTTTGCAAT GAACTTGGTG 
    GATGCATTTT ACCAAAGCCT GGTTTGCTTT TTTATCTGCT ACTTTACATT CCGAGGTTCC 
    GATGTAGATG TCTATTCTTT TGGGAACCCT ATGAATACTA CCATGTTCTT TATAATATTG 
    CTACATCTTC TGATTGAAAG TAAAAATGTG GTTCCCTGA

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

    ATP10D ( XM_025174289.1 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_025030057.1 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OPy16708
    Clone ID Related Accession (Same CDS sequence) XM_025174289.1 , XM_007440039.2 , XM_007440039.3
    Accession Version XM_025174289.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    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 2018-05-23
    Organism Python bivittatus(Burmese python)
    Product probable phospholipid-transporting ATPase VD isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006537042.1) 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 Name :: Python bivittatus 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
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGCCCTAT GTGGGTGTAG CCTTTGCAAT GAACTTGGTG 
    GATGCATTTT ACCAAAGCCT GGTTTGCTTT TTTATCTGCT ACTTTACATT CCGAGGTTCC 
    GATGTAGATG TCTATTCTTT TGGGAACCCT ATGAATACTA CCATGTTCTT TATAATATTG 
    CTACATCTTC TGATTGAAAG TAAAAATGTG AATATTATAC ACTTCTCTGT TTTTGCTGGT 
    AGCATCTTCC TGTATTTCTT CGTTCTCGGG CTTTTGGGAG CTTTCTGTGT CCTCTGCAAC 
    CCACCAGCCA ATCCATATTG GATTATTCAG AGACAATTAG TAAACCCAAT GTTTTATCTC 
    GTCTGCATGA TCTCAATTAC GCTGGCTCTG CTTCCAAGGT ACTTGTTCAG GGTAATCCAA 
    ACCACAGTAT TTCCAAGTCC ATTAATACAA GCCAGGATTC TTGAACAACA GAGCCGTGTG 
    CGATAG

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

    RefSeq XP_025030057.1
    CDS288..4193
    Translation

    Target ORF information:

    RefSeq Version XM_025174289.1
    Organism Python bivittatus(Burmese python)
    Definition Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_025174289.1

    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
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGCCCTAT GTGGGTGTAG CCTTTGCAAT GAACTTGGTG 
    GATGCATTTT ACCAAAGCCT GGTTTGCTTT TTTATCTGCT ACTTTACATT CCGAGGTTCC 
    GATGTAGATG TCTATTCTTT TGGGAACCCT ATGAATACTA CCATGTTCTT TATAATATTG 
    CTACATCTTC TGATTGAAAG TAAAAATGTG AATATTATAC ACTTCTCTGT TTTTGCTGGT 
    AGCATCTTCC TGTATTTCTT CGTTCTCGGG CTTTTGGGAG CTTTCTGTGT CCTCTGCAAC 
    CCACCAGCCA ATCCATATTG GATTATTCAG AGACAATTAG TAAACCCAAT GTTTTATCTC 
    GTCTGCATGA TCTCAATTAC GCTGGCTCTG CTTCCAAGGT ACTTGTTCAG GGTAATCCAA 
    ACCACAGTAT TTCCAAGTCC ATTAATACAA GCCAGGATTC TTGAACAACA GAGCCGTGTG 
    CGATAG

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

    ATP10D ( XM_007440039.2 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007440101.1 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID OPy16708
    Clone ID Related Accession (Same CDS sequence) XM_025174289.1 , XM_007440039.2 , XM_007440039.3
    Accession Version XM_007440039.2 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2016-03-10
    Organism Python bivittatus(Burmese python)
    Product probable phospholipid-transporting ATPase VD
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006537042.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Mar 11, 2016 this sequence version replaced XM_007440039.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Python bivittatus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 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
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGCCCTAT GTGGGTGTAG CCTTTGCAAT GAACTTGGTG 
    GATGCATTTT ACCAAAGCCT GGTTTGCTTT TTTATCTGCT ACTTTACATT CCGAGGTTCC 
    GATGTAGATG TCTATTCTTT TGGGAACCCT ATGAATACTA CCATGTTCTT TATAATATTG 
    CTACATCTTC TGATTGAAAG TAAAAATGTG AATATTATAC ACTTCTCTGT TTTTGCTGGT 
    AGCATCTTCC TGTATTTCTT CGTTCTCGGG CTTTTGGGAG CTTTCTGTGT CCTCTGCAAC 
    CCACCAGCCA ATCCATATTG GATTATTCAG AGACAATTAG TAAACCCAAT GTTTTATCTC 
    GTCTGCATGA TCTCAATTAC GCTGGCTCTG CTTCCAAGGT ACTTGTTCAG GGTAATCCAA 
    ACCACAGTAT TTCCAAGTCC ATTAATACAA GCCAGGATTC TTGAACAACA GAGCCGTGTG 
    CGATAG

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

    RefSeq XP_007440101.1
    CDS802..4707
    Translation

    Target ORF information:

    RefSeq Version XM_007440039.2
    Organism Python bivittatus(Burmese python)
    Definition Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_007440039.2

    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
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGCCCTAT GTGGGTGTAG CCTTTGCAAT GAACTTGGTG 
    GATGCATTTT ACCAAAGCCT GGTTTGCTTT TTTATCTGCT ACTTTACATT CCGAGGTTCC 
    GATGTAGATG TCTATTCTTT TGGGAACCCT ATGAATACTA CCATGTTCTT TATAATATTG 
    CTACATCTTC TGATTGAAAG TAAAAATGTG AATATTATAC ACTTCTCTGT TTTTGCTGGT 
    AGCATCTTCC TGTATTTCTT CGTTCTCGGG CTTTTGGGAG CTTTCTGTGT CCTCTGCAAC 
    CCACCAGCCA ATCCATATTG GATTATTCAG AGACAATTAG TAAACCCAAT GTTTTATCTC 
    GTCTGCATGA TCTCAATTAC GCTGGCTCTG CTTCCAAGGT ACTTGTTCAG GGTAATCCAA 
    ACCACAGTAT TTCCAAGTCC ATTAATACAA GCCAGGATTC TTGAACAACA GAGCCGTGTG 
    CGATAG

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

    ATP10D ( XM_007440039.3 ) cDNA ORF clone, Python bivittatus(Burmese python) -> XP_007440101.1 Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID OPy16708
    Clone ID Related Accession (Same CDS sequence) XM_025174289.1 , XM_007440039.2 , XM_007440039.3
    Accession Version XM_007440039.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3906bp)
    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 2018-05-23
    Organism Python bivittatus(Burmese python)
    Product probable phospholipid-transporting ATPase VD isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006537042.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On May 24, 2018 this sequence version replaced XM_007440039.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Python bivittatus 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
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGCCCTAT GTGGGTGTAG CCTTTGCAAT GAACTTGGTG 
    GATGCATTTT ACCAAAGCCT GGTTTGCTTT TTTATCTGCT ACTTTACATT CCGAGGTTCC 
    GATGTAGATG TCTATTCTTT TGGGAACCCT ATGAATACTA CCATGTTCTT TATAATATTG 
    CTACATCTTC TGATTGAAAG TAAAAATGTG AATATTATAC ACTTCTCTGT TTTTGCTGGT 
    AGCATCTTCC TGTATTTCTT CGTTCTCGGG CTTTTGGGAG CTTTCTGTGT CCTCTGCAAC 
    CCACCAGCCA ATCCATATTG GATTATTCAG AGACAATTAG TAAACCCAAT GTTTTATCTC 
    GTCTGCATGA TCTCAATTAC GCTGGCTCTG CTTCCAAGGT ACTTGTTCAG GGTAATCCAA 
    ACCACAGTAT TTCCAAGTCC ATTAATACAA GCCAGGATTC TTGAACAACA GAGCCGTGTG 
    CGATAG

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

    RefSeq XP_007440101.1
    CDS2245..6150
    Translation

    Target ORF information:

    RefSeq Version XM_007440039.3
    Organism Python bivittatus(Burmese python)
    Definition Python bivittatus ATPase phospholipid transporting 10D (putative) (ATP10D), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_007440039.3

    ORF Insert Sequence:

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    ATGGCAGAGC GGTGGTGGGG AGCACGACAT TGTTGGCGGT GGCTGAAATC TGCCATGTGC 
    AGGCAGAACA GCATCAGGCC TGGAGCTCCA AGTTGTGACA CACTGCTGCC CCCTGAAAAG 
    CCTAAGAAAC ACAGGGTAGT AATACCTTGG CCAACGCATT TTAAAGAAGA ATATAAAAAA 
    GTATCCAACC TTTATAGGAA CAACAATATA CGGACTACAA AATACCGTTT TTGGTCCTTC 
    ATACCTAGGA ATCTCTTTGA ACAGTTTCAC AGAGCTGCCA ATTTGTATTT CTTATTTATA 
    GTTCTGCTTA ACTGGGTTCC AGTGGTGGAA GCCTTTAGAA AAGAAATCAC AATGATTCCA 
    CTCTGTGTGG TTCTCACCAT TATTGCAGTG AAAGATGGCT TGGAGGATTA CACAAAGTAC 
    AAATTAGATA AAAAGATAAA CAACTTAGTC ACCAGTGCAT ATTCCAGAAG AGAGAAGGAC 
    TATGTAGATA AGTTTTGGAA GGATGTTACT GTGGGTGATT TTATCCGACT GTCATGTAAT 
    GAAGAAATTC CTGCTGACAT GATACTGATA TATTCTACTG ATGGAGATGG AATCTGCCAT 
    ATTGAGACTT CAAGCCTCGA TGGAGAGACC AATCTGAAAC AGAAGCAGGT GGTGAAGGGC 
    TTTGCGGAAC AGGTCAACGA AGTTAATCCG GAAGACATTA TATGCAGAAT AGAATGTGAG 
    AGTCCTAACA ACGACCTTAA CTCCTTCCGG GGCTTCATTG AGAATACAGA ACAGGAACGA 
    GTGGGCCTAA ATAAGGACAA CTTGCTGATG CGAGGATGTA CTGTCAGAAA CACAGAAACT 
    GTTGTCGGCA TTGTGGTGTA CGCAGGTCAC GAAACAAAAG CGATGTTAAA CACAACAGGC 
    GCTCGCTACA AGCGAAGTAA GCTGGAGAAG AGAATGAATG GGGATATCCT CTGGTGTGTG 
    CTGCTTCTAA TTGTGATGTG CTTTACAGGG GCGATAGGGC ATGGACTCTG GCTAAGTGCC 
    CACACAGTTC CACCCCTATA CACAAGTGGG AAACAGCCAC CTGCAGGACT GGGAGGTTTT 
    TTAATGTTTT GGACGATGAT AATTTTATTG CAGGTCTTGA TCCCAATTTC TGTTTACGTT 
    TCCATTGAAT TTGTCAAACT GGGGCACATC TTTTTGATCA AACATGACAT CGATTTGTAC 
    GATGAGACTT CCGACAGAAA GATTCAGTGT GGATCGCTGA ATATTGCGGA AGATCTGGGT 
    CAGATTGAAT ACATTTTCTC GGACAAGACT GGAACCCTCA CGGAGAATAA AATGGTGTTT 
    CGGAGGTGCA GCATTGCAGG ATTGGAGTAT GGCCATGAAG AACATGCAAA GAGGCTAGAA 
    ACATATCAAG ATTATGAAAC AGACGAAGAT GACGGAGCCT TCTTCTCCTC CCATTGTTCA 
    CTGAAACATC CATCCAGAGC GAAGTTCTTT GGCCGCAAAT CAAGTGGATT CCTGAGTTCC 
    CGGGTTTTTC ACAGTACCAG CACCATGGGA CTTGGTGGTT GGAGACAACT AGCTTTCAGT 
    AGCCCTCTTG AGACTGATGT TGTGCCAGAC ATGCGACTTG TAAAGAAGGT TAATCATATC 
    TCATTCAAGG CATATTCGTA CACGGAAAAT CTCAGATCGA TCCCAGAAAT AGTGTACATC 
    ACTGAATTCT TCATTGCCCT GGCAATCTGC AACACTGTTG TCGTTTCAAC ACCTGACCAA 
    CCACGACTTA AGAGAAGATG GTCTTCCATG GTCAGAATGC CTGCTTTAAA CCTGGGCGAA 
    TTTAAAAATA TATTCCAAAG GCTGTCGTCA ATCCGCAGAA TGAGCCCGCA AAGCTCAGGT 
    TCATCTGGAG GACATTTTGA GAGCCCCAAA AGAGCAGGAA GATTGTCTGT TCATGTGAAG 
    TTTCCATCTT CTTTACCAGT ACAGTTATCT GACTCTCTGG AAATGCAAGG TTTGTCCCCT 
    GGCCAAAAAA TGCCAGATAC TTTAAGTGCA CCTGATGATC GTAGAGAAGA ATTGTTGTGT 
    GAATCACTAA ACGCCACTGA GATATGCTAC GAGGCAGAGA GCCCTGATGA AGCAGCCTTA 
    GTTCATGCTG CCAGAGCTTA CCAGTGCACC TTGAAGGCTC GAAGTCCTGA GCAAGTGCAG 
    ATTGACTTTG GTCCTCTGGG AACCTTGACC TTTCAGCTGC TGCACATCTT GCCTTTCGAC 
    TCCATCCGGA AACGAATGTC GGTGGTGGTG AAACACCCAA TTTTAAACAA AGTTGTAGTG 
    TACACAAAAG GGGCAGATGC TGCCATAATG AATTTGCTGG ACATGGAATT AACAGGCAAT 
    AAAAAAATAG GGATGCAAAA GAATGCAGTA AAGGCAAAAA CTCAGAAGCA TTTAAATGAT 
    TATGCTACAA AAGGACTGCG CACTCTTTGT ATATCTATGA AGGTGCTGAG CGATGAGGAA 
    TATGAAGAGT GGCTGAAAGG ACAATATGCG GCCGAAAGCA GCATCGAATG CCGAGAGCAG 
    CTGCTCCTGG AGTCAGCGGA GAGGCTTGAG GACAAACTAA CCCTGCTTGG CGCCAGTGGA 
    ATTGAAGACC GATTGCAAGA AGGTGTTCCA GAAACCATAG AGGCACTTCG AAAAGCAGGG 
    ATTAACATTT GGATGCTAAC AGGAGACAAA CGTGAGACGG CCATCAATAT TGCCTACTCC 
    TGCAAATTAC TGGATGTGTC GGACAGACTT TTCACACTCG AAGTCGACAG TCTGGAGGCC 
    TGTGCAAGCA TGGTAAAAAA CATTTTAGAA GAGATCAATA GAATGATTCA TACTAAGAAA 
    AGGAGGAACC CCTCAGGAAC AGAGATGTCC ACCAGCAGCT TTGCCTTAAT TATAAATGGG 
    CCGACGTTAG AATTTGCCCT ACACAAAAAA GTACAAAGAG CGTTCATGCA ACTCGCGGCA 
    CGGGTCCGGG CGGTCATCTG CTGCAGAGCA ACACCCCTGC AGAAAAGCAA AATGGTGAAA 
    CACGTGCAGA CGGAGCTGCA AGTCATGACT TTGGCGATTG GTGATGGGGC CAATGATGTT 
    AGCATGATTC AAGTTGCTAA CATTGGAATT GGAATCTCTG GGCAAGAAGG CATGCAGGCT 
    GTGTTAGCAA GCGACTTTGC AATTTCTCAA TTCCGGCACC TCAAGAAGCT GCTGTTTGTT 
    CATGGTCACT GGTGTTACAC CCGACTGGCT GACATGATCC TCTACTTTTT TTACAAGAAC 
    GTGGCGTACG TAAATCTCCT GTTCTGGTAT CAGTTCTATT GTGGGTTTTC GGGAACTCCC 
    ATGATTGATT ACTGGAGTCT GATTTTCTTC AACCTTCTCT TCACATCAGT ACCACCGGTC 
    ATATATGGTG TTTTAGACAA AGATGTCTCT GCAGAAACTC TCATGAACAA CCCAGAACTT 
    TACAAAGCAA GTCAGAAAAA TGAGCCCTAT GTGGGTGTAG CCTTTGCAAT GAACTTGGTG 
    GATGCATTTT ACCAAAGCCT GGTTTGCTTT TTTATCTGCT ACTTTACATT CCGAGGTTCC 
    GATGTAGATG TCTATTCTTT TGGGAACCCT ATGAATACTA CCATGTTCTT TATAATATTG 
    CTACATCTTC TGATTGAAAG TAAAAATGTG AATATTATAC ACTTCTCTGT TTTTGCTGGT 
    AGCATCTTCC TGTATTTCTT CGTTCTCGGG CTTTTGGGAG CTTTCTGTGT CCTCTGCAAC 
    CCACCAGCCA ATCCATATTG GATTATTCAG AGACAATTAG TAAACCCAAT GTTTTATCTC 
    GTCTGCATGA TCTCAATTAC GCTGGCTCTG CTTCCAAGGT ACTTGTTCAG GGTAATCCAA 
    ACCACAGTAT TTCCAAGTCC ATTAATACAA GCCAGGATTC TTGAACAACA GAGCCGTGTG 
    CGATAG

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

見積依頼

Eメール

[email protected]

電話

03-6811-6572

FAX

03-6811-6573
050-3174-7589(受注専用)

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