ORF » Species Summary » Nannospalax galili » Atp10b cDNA ORF clone

Atp10b cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat)

The following Atp10b gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Atp10b 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
ONa38938 XM_008821670.2
Latest version!		 Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ONa38938 XM_029557944.1
Latest version!		 Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
ONa38939 XM_017795231.2
Latest version!		 Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
View Old Accession Versions >>
ONa38939 XM_017795231.1 Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $797.30
$1139.00
Hide Old Accession Versions >>

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

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

  • Reference Sequences (Refseq)
    Atp10b ( XM_008821670.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_008819892.1 Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa38938
    Clone ID Related Accession (Same CDS sequence) XM_008821670.2 , XM_029557944.1
    Accession Version XM_008821670.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product probable phospholipid-transporting ATPase VB isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358387.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Aug 11, 2016 this sequence version replaced XM_008821670.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGGCCCTGT CCATGGACTC ATCTTGGCTC CGGTGGCAGT GGCGAATCCA AGACGGCTTC 
    CCCCAGTCTC CATCAGAAAC CACACCGCTG CTCTCTCCAG AGACGGGCAG GCAGAGCTAC 
    AACTCAACAC AGCAGCGAGT GGTATTCCCC AACAACAATA TGTGTCACCA GGACTGGGAC 
    AAGGTCTCCA GGAGATACCC TGGCAATAGG ATCCGTACAA CCAAGTATAC CCTTCTCACC 
    TTCCTGCCTC GGAATCTCTT GGAGCAGTTT CATAGGTGGG CTAACCTCTA CTTCCTGTTC 
    CTGGTGATTC TGAACTGGAT GCCCTCCATG GAAGTCTTCC ACAAGGAAAT AACCATGCTG 
    CCATTGGCCA TCGTTCTGTT CATCATCATG GTCAAAGATG GCATAGAGGA CTTCAAGAGA 
    CACCGCTTTG ATAGAGCAAT GAATGGTTCC CACATTCGAA TGTATGAAAG GAAAGAGCAG 
    AGCTACGTGC AGAAGCGCTG GCAGGATGTG CGTGTGGGAG ACTTCGTCCA GATGCAACGC 
    AATGAGATCA TCCCAGCAGA CATCCTTCTC CTCTTCTCCT CAGATCCCAG TGGGGTCTGC 
    CACCTGGAAA CTGCCAACTT GGATGGAGAG ACGAACCTCA AGCAGCGGTG TGTTGTGAAG 
    GGCTTCTCAC AGCAGGGGTC GCAGTTCCAA CCAGAACACT TCTACAGTAC CATCGTGTGT 
    GAGAAACCCA ACAACCACCT CAACAAGTTT AAGGGATACA TGGAGCATAT GGATCAGACC 
    CGGACTGGCA TTGGCAGCGA GAGTCTTCTG CTCCGAGGCT GCACCATCAG AAACACTGAG 
    GTGGTCACTG GCATCGTCAT CTATGCAGGC CATGAGACAA AAGCCATGCT GAACAACAGT 
    GGTCCCCGCT ACAAACGCAG CAAGATTGAG CGGCGCATGA ACACAGACAT CTTCTTCTGC 
    ATCGGCCTCC TCTTCCTCAT GTGCCTCATT GGAGCTGTAG GTCACAGCCT CTGGAATGGG 
    ACCTTTAAAG AACACCCTCC TTTCGATGTG CCAGATGCTG ATGGAAACTT CTTTTCCCTT 
    ACCCTTGGAG GCTTCTATAT GTTCCTCACA ATGATCATCC TGCTCCAGAT ATTGATCCCG 
    ATCTCCTTGT ATGTGTCCAT TGAGCTGGTA AAGCTTGGGC AAGTGTTCTT AGTACATAAC 
    GACCTTGACC TGTATGATGA AGAGACTGAT TTATCCATTC AATGTCGAGC CTTCAACATC 
    ACAGAGGACC TAGGCCAGAT CCAGTACATC TTCTCTGACA AGACGGGCAC CCTAACAGAA 
    AACAAGATGG TATTCCGGCG TTGCACCATC ATGGGCAGCG AGTATTGTCA CCAAGAAAAT 
    GCCAAGCGAC TAGAGACCCC AAAGGATCTG GACTCCGACA GTGAAGAGTG GACTCAGTAC 
    CAGTGCCTGC CCTTCCCAAC TAGATGGGCC CAGGGCCCAG CAACGATGAG AAGCCAAGGA 
    GGTGCCCAGC CTCTGAGGAG GAGCCAGAGT GCCCGGGTGC CTGTCCAGAG CCACTCTCGA 
    CAAAGATCTG TAGGGCGTTG GGAAACCTCA CAGCCTCCTG TGGCCTTCAG CAGCCCCATT 
    GAAAAAGATG TGACTCCAGA TAAAAACCTC CTGGGCAAGG TGCGAAATGC CGCCTTGTGG 
    CTGGAGACCT TGTCAGATGC CAGGTCTGCC AAGCCTTCCC ACTCCACCAC CTCTTCCATT 
    GCTGACTTCT TCCTTGCCCT GACCATCTGC AACTCTGTCA TGGTGTCCAC AACCACTGAG 
    CCCAGACGGA GGGTTACCAT TCTACCGTCC AGCAAGGCTC TGGGAACGTC CTTGGAGAAG 
    ATTCAGCAGC TCTTCCAGAG GCTGAAGCTC CTGAGCCTCA GCCAGTCTTT CTCATCCACT 
    GCTCCCTCTG ACACAGATCT AGGGGAGAGT TTGGGGCCCA ACTTGCCCCC GACAGACTTA 
    GATGAGAAAG ACAATGCATC TGTGTGCAGT GGAGACTGCT CCACTGATGG TGGCTACAGG 
    AGCAGCACCT GGGAACAGGG TGACATCCTG GGATCCGGGT CAGGGTCTTC CTTGGAGGAG 
    GGCCTGGAGG CCCCAGCTCT TGGTCTAGAT GGACCCGAGC TCTGCTACGA AGCCGAGAGC 
    CCAGATGAGG CGGCTCTAGT GCATGCTGCC CATGCCTACA GCTTCACGCT GGTGTCCCGG 
    ACACCTGAGC AAGTGACCGT GCGCCTGCCC CAGGGTACCT GCCTCACCTT TGACCTCCTC 
    TTCACCCTGG GCTTTGACTC TGTCCGAAAG AGAATGTCAG TAGTGGTGAG GCACCCACTG 
    ACGGGTGAGA TCATCGTCTA TACCAAGGGC GCCGACTCAG TCATCATGGA CCTGCTGGAA 
    GACCCAACCT GTGTGTCTGA TATTGATGTG GAAAAGAAGC TGAAGAAAAT CCAAGCCCGG 
    ACCCAAAAAC ATCTGGACTT GTATGCAAGA GATGGCCTGC GAACCCTGTG CATCGCCAAG 
    AAGGTCCTAA GCGAAGAGAA CTTCCAAAGG TGGGCCAGTT TCCGGCGTGA GGCTGAGGCA 
    TCCCTCGACA ATCGAGATGA GCTGCTAATG AAAACAGCAC AGGATCTGGA GAGTCAGCTC 
    ACCTTACTTG GAGCCACTGG GATTGAAGAT CGACTTCAAG AAGGAGTTCC AGATACTGTT 
    GCTGCTCTGC AGGAGGCTGG GATCCAGCTC TGGGTCCTGA CAGGCGATAA GCAGGAGACA 
    GCGGTCAATA TTGCCTATTC CTGCAAACTG TTAGATCAGA CTGACACTGT GTACTCCATT 
    AACACAGAGA ATCAGGAAAC CTGTGAATCC ATCCTTAACT GTGCATTGGA AGAGGTAAAG 
    CAATTCCATG AACCACAGAA TCCAGATCGC AAGTTCTGTG GGTACCACAT ACCATCTACG 
    ACACCATCTG TTAACTCAAG AACTACGATT CCTGAAGTTG GACTGGTCAT TGATGGGAAG 
    ACATTGAATG CAATTTTCCA GGGAAAGCTG GAAAGGAAGT TTCTGGAGTT AACCCAGTAC 
    TGTCGGTCCA TCCTGTGTTG CCGCTCCACC CCACTCCAGA AAAGTATGAT TGTCAAGTTG 
    GTGCGAGACA AGTTGAGCGT CATGACTCTT TCCATAGGTG ATGGAGCAAA TGATGTAAGC 
    ATGATCCAAG CAGCTGACAT TGGCATTGGA ATATCTGGGC AGGAAGGCAT GCAGGCTGTC 
    ATGTCCAGTG ACTTTGCCAT CTCCCGCTTC AGTCACCTCA AGAAGCTGCT GCTTGTGCAT 
    GGACACTGGT GTTACTCACG CCTGGCCAGG ATGGTGGTAT ACTACTTCTA CAAGAATGTG 
    TGCTATGTCA ATCTGCTCTT CTGGTACCAG TTCTTCTGTG GGTTCTCCGG CTCCACCATG 
    ATCGATCACT GGCAGCTGAT ATTCTTCAAT CTCTTCTTCA CTTCCTTGCC TCCCATTATC 
    TTTGGAGTCC TCGATAAAGA TGTGTCTGCA GAAACACTCC TGGCACTGCC TGAACTTTAC 
    AAGAGCGGAC AGAACTCTGA GAGCTACAAC CTATCAGTAT TCTGGATTTC CATGGCGGAT 
    GCATTCTACC AGAGCCTTGT CTGTTTCTTT ATTCCTTACT TGACCTACAG AGGCTCCGAT 
    ATAGATGTCT TTACCTTTGG AACTCCAATC AACACCATCT CCCTCACCAC CATCCTCTTG 
    CACCAGGCAA TGGAGATGAA GACATGGACT GTCCTCCATG GGCTCATTCT CCTCGGCAGC 
    TTTTTGGCCT ACTTCGTGGT ATCTCTACTG TACAATGGTA CCTGCGTCAC CTGTAACAGC 
    CCAACCAATC CCTACTGGGT GATGGAAAGT CAGCTCTCTG ATCCAACATT CTACCTCGTC 
    TGCCTCCTCA CACCAGCGGT GGCTCTTCTC CCAAGGTACT TTCTCCTGGC TCTACAAGGG 
    ACTTACGGGA AGTCTCTGAT TTCAAAAGCT CAGAAAATTG ACAAGCTGCC AATAGACAAA 
    AGAAACCTGG AAATCCAGAA CTGGAGAAGC AAACATAGGC CTACCCCTAC CCCTGCTTCT 
    GCCCCTGCCC CCTCTCCTGC ACAGACTCAG CCCCCACGCC GTCCAGCACC ACCTGTCCCA 
    CAGAAGGACT TAAGAACCAG CACCCCAAAG TGCTCCAGCC CTCCGAGGCA GAAGCACATT 
    GAAGAATGGA TTCTCCAGGG TCAGAGATGC AGTAGAGAGC ACTCCAGGGA TGATGCATGC 
    TCAGCAGACA CCTCAGCTAA ACTCTCATCT GGGGAATACC TTCTGGGGCC AGATAGGACT 
    GTGGGACCAA AGGACGTATC CCGACTCTCA AGCAGACACA GCCATCGCAG GTCTCAGAGT 
    TCACTGACCA TATGA

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

    RefSeq XP_008819892.1
    CDS59..4453
    Translation

    Target ORF information:

    RefSeq Version XM_008821670.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_008821670.2

    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
    ATGGCCCTGT CCATGGACTC ATCTTGGCTC CGGTGGCAGT GGCGAATCCA AGACGGCTTC 
    CCCCAGTCTC CATCAGAAAC CACACCGCTG CTCTCTCCAG AGACGGGCAG GCAGAGCTAC 
    AACTCAACAC AGCAGCGAGT GGTATTCCCC AACAACAATA TGTGTCACCA GGACTGGGAC 
    AAGGTCTCCA GGAGATACCC TGGCAATAGG ATCCGTACAA CCAAGTATAC CCTTCTCACC 
    TTCCTGCCTC GGAATCTCTT GGAGCAGTTT CATAGGTGGG CTAACCTCTA CTTCCTGTTC 
    CTGGTGATTC TGAACTGGAT GCCCTCCATG GAAGTCTTCC ACAAGGAAAT AACCATGCTG 
    CCATTGGCCA TCGTTCTGTT CATCATCATG GTCAAAGATG GCATAGAGGA CTTCAAGAGA 
    CACCGCTTTG ATAGAGCAAT GAATGGTTCC CACATTCGAA TGTATGAAAG GAAAGAGCAG 
    AGCTACGTGC AGAAGCGCTG GCAGGATGTG CGTGTGGGAG ACTTCGTCCA GATGCAACGC 
    AATGAGATCA TCCCAGCAGA CATCCTTCTC CTCTTCTCCT CAGATCCCAG TGGGGTCTGC 
    CACCTGGAAA CTGCCAACTT GGATGGAGAG ACGAACCTCA AGCAGCGGTG TGTTGTGAAG 
    GGCTTCTCAC AGCAGGGGTC GCAGTTCCAA CCAGAACACT TCTACAGTAC CATCGTGTGT 
    GAGAAACCCA ACAACCACCT CAACAAGTTT AAGGGATACA TGGAGCATAT GGATCAGACC 
    CGGACTGGCA TTGGCAGCGA GAGTCTTCTG CTCCGAGGCT GCACCATCAG AAACACTGAG 
    GTGGTCACTG GCATCGTCAT CTATGCAGGC CATGAGACAA AAGCCATGCT GAACAACAGT 
    GGTCCCCGCT ACAAACGCAG CAAGATTGAG CGGCGCATGA ACACAGACAT CTTCTTCTGC 
    ATCGGCCTCC TCTTCCTCAT GTGCCTCATT GGAGCTGTAG GTCACAGCCT CTGGAATGGG 
    ACCTTTAAAG AACACCCTCC TTTCGATGTG CCAGATGCTG ATGGAAACTT CTTTTCCCTT 
    ACCCTTGGAG GCTTCTATAT GTTCCTCACA ATGATCATCC TGCTCCAGAT ATTGATCCCG 
    ATCTCCTTGT ATGTGTCCAT TGAGCTGGTA AAGCTTGGGC AAGTGTTCTT AGTACATAAC 
    GACCTTGACC TGTATGATGA AGAGACTGAT TTATCCATTC AATGTCGAGC CTTCAACATC 
    ACAGAGGACC TAGGCCAGAT CCAGTACATC TTCTCTGACA AGACGGGCAC CCTAACAGAA 
    AACAAGATGG TATTCCGGCG TTGCACCATC ATGGGCAGCG AGTATTGTCA CCAAGAAAAT 
    GCCAAGCGAC TAGAGACCCC AAAGGATCTG GACTCCGACA GTGAAGAGTG GACTCAGTAC 
    CAGTGCCTGC CCTTCCCAAC TAGATGGGCC CAGGGCCCAG CAACGATGAG AAGCCAAGGA 
    GGTGCCCAGC CTCTGAGGAG GAGCCAGAGT GCCCGGGTGC CTGTCCAGAG CCACTCTCGA 
    CAAAGATCTG TAGGGCGTTG GGAAACCTCA CAGCCTCCTG TGGCCTTCAG CAGCCCCATT 
    GAAAAAGATG TGACTCCAGA TAAAAACCTC CTGGGCAAGG TGCGAAATGC CGCCTTGTGG 
    CTGGAGACCT TGTCAGATGC CAGGTCTGCC AAGCCTTCCC ACTCCACCAC CTCTTCCATT 
    GCTGACTTCT TCCTTGCCCT GACCATCTGC AACTCTGTCA TGGTGTCCAC AACCACTGAG 
    CCCAGACGGA GGGTTACCAT TCTACCGTCC AGCAAGGCTC TGGGAACGTC CTTGGAGAAG 
    ATTCAGCAGC TCTTCCAGAG GCTGAAGCTC CTGAGCCTCA GCCAGTCTTT CTCATCCACT 
    GCTCCCTCTG ACACAGATCT AGGGGAGAGT TTGGGGCCCA ACTTGCCCCC GACAGACTTA 
    GATGAGAAAG ACAATGCATC TGTGTGCAGT GGAGACTGCT CCACTGATGG TGGCTACAGG 
    AGCAGCACCT GGGAACAGGG TGACATCCTG GGATCCGGGT CAGGGTCTTC CTTGGAGGAG 
    GGCCTGGAGG CCCCAGCTCT TGGTCTAGAT GGACCCGAGC TCTGCTACGA AGCCGAGAGC 
    CCAGATGAGG CGGCTCTAGT GCATGCTGCC CATGCCTACA GCTTCACGCT GGTGTCCCGG 
    ACACCTGAGC AAGTGACCGT GCGCCTGCCC CAGGGTACCT GCCTCACCTT TGACCTCCTC 
    TTCACCCTGG GCTTTGACTC TGTCCGAAAG AGAATGTCAG TAGTGGTGAG GCACCCACTG 
    ACGGGTGAGA TCATCGTCTA TACCAAGGGC GCCGACTCAG TCATCATGGA CCTGCTGGAA 
    GACCCAACCT GTGTGTCTGA TATTGATGTG GAAAAGAAGC TGAAGAAAAT CCAAGCCCGG 
    ACCCAAAAAC ATCTGGACTT GTATGCAAGA GATGGCCTGC GAACCCTGTG CATCGCCAAG 
    AAGGTCCTAA GCGAAGAGAA CTTCCAAAGG TGGGCCAGTT TCCGGCGTGA GGCTGAGGCA 
    TCCCTCGACA ATCGAGATGA GCTGCTAATG AAAACAGCAC AGGATCTGGA GAGTCAGCTC 
    ACCTTACTTG GAGCCACTGG GATTGAAGAT CGACTTCAAG AAGGAGTTCC AGATACTGTT 
    GCTGCTCTGC AGGAGGCTGG GATCCAGCTC TGGGTCCTGA CAGGCGATAA GCAGGAGACA 
    GCGGTCAATA TTGCCTATTC CTGCAAACTG TTAGATCAGA CTGACACTGT GTACTCCATT 
    AACACAGAGA ATCAGGAAAC CTGTGAATCC ATCCTTAACT GTGCATTGGA AGAGGTAAAG 
    CAATTCCATG AACCACAGAA TCCAGATCGC AAGTTCTGTG GGTACCACAT ACCATCTACG 
    ACACCATCTG TTAACTCAAG AACTACGATT CCTGAAGTTG GACTGGTCAT TGATGGGAAG 
    ACATTGAATG CAATTTTCCA GGGAAAGCTG GAAAGGAAGT TTCTGGAGTT AACCCAGTAC 
    TGTCGGTCCA TCCTGTGTTG CCGCTCCACC CCACTCCAGA AAAGTATGAT TGTCAAGTTG 
    GTGCGAGACA AGTTGAGCGT CATGACTCTT TCCATAGGTG ATGGAGCAAA TGATGTAAGC 
    ATGATCCAAG CAGCTGACAT TGGCATTGGA ATATCTGGGC AGGAAGGCAT GCAGGCTGTC 
    ATGTCCAGTG ACTTTGCCAT CTCCCGCTTC AGTCACCTCA AGAAGCTGCT GCTTGTGCAT 
    GGACACTGGT GTTACTCACG CCTGGCCAGG ATGGTGGTAT ACTACTTCTA CAAGAATGTG 
    TGCTATGTCA ATCTGCTCTT CTGGTACCAG TTCTTCTGTG GGTTCTCCGG CTCCACCATG 
    ATCGATCACT GGCAGCTGAT ATTCTTCAAT CTCTTCTTCA CTTCCTTGCC TCCCATTATC 
    TTTGGAGTCC TCGATAAAGA TGTGTCTGCA GAAACACTCC TGGCACTGCC TGAACTTTAC 
    AAGAGCGGAC AGAACTCTGA GAGCTACAAC CTATCAGTAT TCTGGATTTC CATGGCGGAT 
    GCATTCTACC AGAGCCTTGT CTGTTTCTTT ATTCCTTACT TGACCTACAG AGGCTCCGAT 
    ATAGATGTCT TTACCTTTGG AACTCCAATC AACACCATCT CCCTCACCAC CATCCTCTTG 
    CACCAGGCAA TGGAGATGAA GACATGGACT GTCCTCCATG GGCTCATTCT CCTCGGCAGC 
    TTTTTGGCCT ACTTCGTGGT ATCTCTACTG TACAATGGTA CCTGCGTCAC CTGTAACAGC 
    CCAACCAATC CCTACTGGGT GATGGAAAGT CAGCTCTCTG ATCCAACATT CTACCTCGTC 
    TGCCTCCTCA CACCAGCGGT GGCTCTTCTC CCAAGGTACT TTCTCCTGGC TCTACAAGGG 
    ACTTACGGGA AGTCTCTGAT TTCAAAAGCT CAGAAAATTG ACAAGCTGCC AATAGACAAA 
    AGAAACCTGG AAATCCAGAA CTGGAGAAGC AAACATAGGC CTACCCCTAC CCCTGCTTCT 
    GCCCCTGCCC CCTCTCCTGC ACAGACTCAG CCCCCACGCC GTCCAGCACC ACCTGTCCCA 
    CAGAAGGACT TAAGAACCAG CACCCCAAAG TGCTCCAGCC CTCCGAGGCA GAAGCACATT 
    GAAGAATGGA TTCTCCAGGG TCAGAGATGC AGTAGAGAGC ACTCCAGGGA TGATGCATGC 
    TCAGCAGACA CCTCAGCTAA ACTCTCATCT GGGGAATACC TTCTGGGGCC AGATAGGACT 
    GTGGGACCAA AGGACGTATC CCGACTCTCA AGCAGACACA GCCATCGCAG GTCTCAGAGT 
    TCACTGACCA TATGA

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

    Atp10b ( XM_029557944.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_029413804.1 Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X1, mRNA.
    Price & Availability↑
    CloneID ONa38938
    Clone ID Related Accession (Same CDS sequence) XM_008821670.2 , XM_029557944.1
    Accession Version XM_029557944.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4395bp)
    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 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product probable phospholipid-transporting ATPase VB isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358387.1) 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 :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 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
    ATGGCCCTGT CCATGGACTC ATCTTGGCTC CGGTGGCAGT GGCGAATCCA AGACGGCTTC 
    CCCCAGTCTC CATCAGAAAC CACACCGCTG CTCTCTCCAG AGACGGGCAG GCAGAGCTAC 
    AACTCAACAC AGCAGCGAGT GGTATTCCCC AACAACAATA TGTGTCACCA GGACTGGGAC 
    AAGGTCTCCA GGAGATACCC TGGCAATAGG ATCCGTACAA CCAAGTATAC CCTTCTCACC 
    TTCCTGCCTC GGAATCTCTT GGAGCAGTTT CATAGGTGGG CTAACCTCTA CTTCCTGTTC 
    CTGGTGATTC TGAACTGGAT GCCCTCCATG GAAGTCTTCC ACAAGGAAAT AACCATGCTG 
    CCATTGGCCA TCGTTCTGTT CATCATCATG GTCAAAGATG GCATAGAGGA CTTCAAGAGA 
    CACCGCTTTG ATAGAGCAAT GAATGGTTCC CACATTCGAA TGTATGAAAG GAAAGAGCAG 
    AGCTACGTGC AGAAGCGCTG GCAGGATGTG CGTGTGGGAG ACTTCGTCCA GATGCAACGC 
    AATGAGATCA TCCCAGCAGA CATCCTTCTC CTCTTCTCCT CAGATCCCAG TGGGGTCTGC 
    CACCTGGAAA CTGCCAACTT GGATGGAGAG ACGAACCTCA AGCAGCGGTG TGTTGTGAAG 
    GGCTTCTCAC AGCAGGGGTC GCAGTTCCAA CCAGAACACT TCTACAGTAC CATCGTGTGT 
    GAGAAACCCA ACAACCACCT CAACAAGTTT AAGGGATACA TGGAGCATAT GGATCAGACC 
    CGGACTGGCA TTGGCAGCGA GAGTCTTCTG CTCCGAGGCT GCACCATCAG AAACACTGAG 
    GTGGTCACTG GCATCGTCAT CTATGCAGGC CATGAGACAA AAGCCATGCT GAACAACAGT 
    GGTCCCCGCT ACAAACGCAG CAAGATTGAG CGGCGCATGA ACACAGACAT CTTCTTCTGC 
    ATCGGCCTCC TCTTCCTCAT GTGCCTCATT GGAGCTGTAG GTCACAGCCT CTGGAATGGG 
    ACCTTTAAAG AACACCCTCC TTTCGATGTG CCAGATGCTG ATGGAAACTT CTTTTCCCTT 
    ACCCTTGGAG GCTTCTATAT GTTCCTCACA ATGATCATCC TGCTCCAGAT ATTGATCCCG 
    ATCTCCTTGT ATGTGTCCAT TGAGCTGGTA AAGCTTGGGC AAGTGTTCTT AGTACATAAC 
    GACCTTGACC TGTATGATGA AGAGACTGAT TTATCCATTC AATGTCGAGC CTTCAACATC 
    ACAGAGGACC TAGGCCAGAT CCAGTACATC TTCTCTGACA AGACGGGCAC CCTAACAGAA 
    AACAAGATGG TATTCCGGCG TTGCACCATC ATGGGCAGCG AGTATTGTCA CCAAGAAAAT 
    GCCAAGCGAC TAGAGACCCC AAAGGATCTG GACTCCGACA GTGAAGAGTG GACTCAGTAC 
    CAGTGCCTGC CCTTCCCAAC TAGATGGGCC CAGGGCCCAG CAACGATGAG AAGCCAAGGA 
    GGTGCCCAGC CTCTGAGGAG GAGCCAGAGT GCCCGGGTGC CTGTCCAGAG CCACTCTCGA 
    CAAAGATCTG TAGGGCGTTG GGAAACCTCA CAGCCTCCTG TGGCCTTCAG CAGCCCCATT 
    GAAAAAGATG TGACTCCAGA TAAAAACCTC CTGGGCAAGG TGCGAAATGC CGCCTTGTGG 
    CTGGAGACCT TGTCAGATGC CAGGTCTGCC AAGCCTTCCC ACTCCACCAC CTCTTCCATT 
    GCTGACTTCT TCCTTGCCCT GACCATCTGC AACTCTGTCA TGGTGTCCAC AACCACTGAG 
    CCCAGACGGA GGGTTACCAT TCTACCGTCC AGCAAGGCTC TGGGAACGTC CTTGGAGAAG 
    ATTCAGCAGC TCTTCCAGAG GCTGAAGCTC CTGAGCCTCA GCCAGTCTTT CTCATCCACT 
    GCTCCCTCTG ACACAGATCT AGGGGAGAGT TTGGGGCCCA ACTTGCCCCC GACAGACTTA 
    GATGAGAAAG ACAATGCATC TGTGTGCAGT GGAGACTGCT CCACTGATGG TGGCTACAGG 
    AGCAGCACCT GGGAACAGGG TGACATCCTG GGATCCGGGT CAGGGTCTTC CTTGGAGGAG 
    GGCCTGGAGG CCCCAGCTCT TGGTCTAGAT GGACCCGAGC TCTGCTACGA AGCCGAGAGC 
    CCAGATGAGG CGGCTCTAGT GCATGCTGCC CATGCCTACA GCTTCACGCT GGTGTCCCGG 
    ACACCTGAGC AAGTGACCGT GCGCCTGCCC CAGGGTACCT GCCTCACCTT TGACCTCCTC 
    TTCACCCTGG GCTTTGACTC TGTCCGAAAG AGAATGTCAG TAGTGGTGAG GCACCCACTG 
    ACGGGTGAGA TCATCGTCTA TACCAAGGGC GCCGACTCAG TCATCATGGA CCTGCTGGAA 
    GACCCAACCT GTGTGTCTGA TATTGATGTG GAAAAGAAGC TGAAGAAAAT CCAAGCCCGG 
    ACCCAAAAAC ATCTGGACTT GTATGCAAGA GATGGCCTGC GAACCCTGTG CATCGCCAAG 
    AAGGTCCTAA GCGAAGAGAA CTTCCAAAGG TGGGCCAGTT TCCGGCGTGA GGCTGAGGCA 
    TCCCTCGACA ATCGAGATGA GCTGCTAATG AAAACAGCAC AGGATCTGGA GAGTCAGCTC 
    ACCTTACTTG GAGCCACTGG GATTGAAGAT CGACTTCAAG AAGGAGTTCC AGATACTGTT 
    GCTGCTCTGC AGGAGGCTGG GATCCAGCTC TGGGTCCTGA CAGGCGATAA GCAGGAGACA 
    GCGGTCAATA TTGCCTATTC CTGCAAACTG TTAGATCAGA CTGACACTGT GTACTCCATT 
    AACACAGAGA ATCAGGAAAC CTGTGAATCC ATCCTTAACT GTGCATTGGA AGAGGTAAAG 
    CAATTCCATG AACCACAGAA TCCAGATCGC AAGTTCTGTG GGTACCACAT ACCATCTACG 
    ACACCATCTG TTAACTCAAG AACTACGATT CCTGAAGTTG GACTGGTCAT TGATGGGAAG 
    ACATTGAATG CAATTTTCCA GGGAAAGCTG GAAAGGAAGT TTCTGGAGTT AACCCAGTAC 
    TGTCGGTCCA TCCTGTGTTG CCGCTCCACC CCACTCCAGA AAAGTATGAT TGTCAAGTTG 
    GTGCGAGACA AGTTGAGCGT CATGACTCTT TCCATAGGTG ATGGAGCAAA TGATGTAAGC 
    ATGATCCAAG CAGCTGACAT TGGCATTGGA ATATCTGGGC AGGAAGGCAT GCAGGCTGTC 
    ATGTCCAGTG ACTTTGCCAT CTCCCGCTTC AGTCACCTCA AGAAGCTGCT GCTTGTGCAT 
    GGACACTGGT GTTACTCACG CCTGGCCAGG ATGGTGGTAT ACTACTTCTA CAAGAATGTG 
    TGCTATGTCA ATCTGCTCTT CTGGTACCAG TTCTTCTGTG GGTTCTCCGG CTCCACCATG 
    ATCGATCACT GGCAGCTGAT ATTCTTCAAT CTCTTCTTCA CTTCCTTGCC TCCCATTATC 
    TTTGGAGTCC TCGATAAAGA TGTGTCTGCA GAAACACTCC TGGCACTGCC TGAACTTTAC 
    AAGAGCGGAC AGAACTCTGA GAGCTACAAC CTATCAGTAT TCTGGATTTC CATGGCGGAT 
    GCATTCTACC AGAGCCTTGT CTGTTTCTTT ATTCCTTACT TGACCTACAG AGGCTCCGAT 
    ATAGATGTCT TTACCTTTGG AACTCCAATC AACACCATCT CCCTCACCAC CATCCTCTTG 
    CACCAGGCAA TGGAGATGAA GACATGGACT GTCCTCCATG GGCTCATTCT CCTCGGCAGC 
    TTTTTGGCCT ACTTCGTGGT ATCTCTACTG TACAATGGTA CCTGCGTCAC CTGTAACAGC 
    CCAACCAATC CCTACTGGGT GATGGAAAGT CAGCTCTCTG ATCCAACATT CTACCTCGTC 
    TGCCTCCTCA CACCAGCGGT GGCTCTTCTC CCAAGGTACT TTCTCCTGGC TCTACAAGGG 
    ACTTACGGGA AGTCTCTGAT TTCAAAAGCT CAGAAAATTG ACAAGCTGCC AATAGACAAA 
    AGAAACCTGG AAATCCAGAA CTGGAGAAGC AAACATAGGC CTACCCCTAC CCCTGCTTCT 
    GCCCCTGCCC CCTCTCCTGC ACAGACTCAG CCCCCACGCC GTCCAGCACC ACCTGTCCCA 
    CAGAAGGACT TAAGAACCAG CACCCCAAAG TGCTCCAGCC CTCCGAGGCA GAAGCACATT 
    GAAGAATGGA TTCTCCAGGG TCAGAGATGC AGTAGAGAGC ACTCCAGGGA TGATGCATGC 
    TCAGCAGACA CCTCAGCTAA ACTCTCATCT GGGGAATACC TTCTGGGGCC AGATAGGACT 
    GTGGGACCAA AGGACGTATC CCGACTCTCA AGCAGACACA GCCATCGCAG GTCTCAGAGT 
    TCACTGACCA TATGA

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

    RefSeq XP_029413804.1
    CDS188..4582
    Translation

    Target ORF information:

    RefSeq Version XM_029557944.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_029557944.1

    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
    ATGGCCCTGT CCATGGACTC ATCTTGGCTC CGGTGGCAGT GGCGAATCCA AGACGGCTTC 
    CCCCAGTCTC CATCAGAAAC CACACCGCTG CTCTCTCCAG AGACGGGCAG GCAGAGCTAC 
    AACTCAACAC AGCAGCGAGT GGTATTCCCC AACAACAATA TGTGTCACCA GGACTGGGAC 
    AAGGTCTCCA GGAGATACCC TGGCAATAGG ATCCGTACAA CCAAGTATAC CCTTCTCACC 
    TTCCTGCCTC GGAATCTCTT GGAGCAGTTT CATAGGTGGG CTAACCTCTA CTTCCTGTTC 
    CTGGTGATTC TGAACTGGAT GCCCTCCATG GAAGTCTTCC ACAAGGAAAT AACCATGCTG 
    CCATTGGCCA TCGTTCTGTT CATCATCATG GTCAAAGATG GCATAGAGGA CTTCAAGAGA 
    CACCGCTTTG ATAGAGCAAT GAATGGTTCC CACATTCGAA TGTATGAAAG GAAAGAGCAG 
    AGCTACGTGC AGAAGCGCTG GCAGGATGTG CGTGTGGGAG ACTTCGTCCA GATGCAACGC 
    AATGAGATCA TCCCAGCAGA CATCCTTCTC CTCTTCTCCT CAGATCCCAG TGGGGTCTGC 
    CACCTGGAAA CTGCCAACTT GGATGGAGAG ACGAACCTCA AGCAGCGGTG TGTTGTGAAG 
    GGCTTCTCAC AGCAGGGGTC GCAGTTCCAA CCAGAACACT TCTACAGTAC CATCGTGTGT 
    GAGAAACCCA ACAACCACCT CAACAAGTTT AAGGGATACA TGGAGCATAT GGATCAGACC 
    CGGACTGGCA TTGGCAGCGA GAGTCTTCTG CTCCGAGGCT GCACCATCAG AAACACTGAG 
    GTGGTCACTG GCATCGTCAT CTATGCAGGC CATGAGACAA AAGCCATGCT GAACAACAGT 
    GGTCCCCGCT ACAAACGCAG CAAGATTGAG CGGCGCATGA ACACAGACAT CTTCTTCTGC 
    ATCGGCCTCC TCTTCCTCAT GTGCCTCATT GGAGCTGTAG GTCACAGCCT CTGGAATGGG 
    ACCTTTAAAG AACACCCTCC TTTCGATGTG CCAGATGCTG ATGGAAACTT CTTTTCCCTT 
    ACCCTTGGAG GCTTCTATAT GTTCCTCACA ATGATCATCC TGCTCCAGAT ATTGATCCCG 
    ATCTCCTTGT ATGTGTCCAT TGAGCTGGTA AAGCTTGGGC AAGTGTTCTT AGTACATAAC 
    GACCTTGACC TGTATGATGA AGAGACTGAT TTATCCATTC AATGTCGAGC CTTCAACATC 
    ACAGAGGACC TAGGCCAGAT CCAGTACATC TTCTCTGACA AGACGGGCAC CCTAACAGAA 
    AACAAGATGG TATTCCGGCG TTGCACCATC ATGGGCAGCG AGTATTGTCA CCAAGAAAAT 
    GCCAAGCGAC TAGAGACCCC AAAGGATCTG GACTCCGACA GTGAAGAGTG GACTCAGTAC 
    CAGTGCCTGC CCTTCCCAAC TAGATGGGCC CAGGGCCCAG CAACGATGAG AAGCCAAGGA 
    GGTGCCCAGC CTCTGAGGAG GAGCCAGAGT GCCCGGGTGC CTGTCCAGAG CCACTCTCGA 
    CAAAGATCTG TAGGGCGTTG GGAAACCTCA CAGCCTCCTG TGGCCTTCAG CAGCCCCATT 
    GAAAAAGATG TGACTCCAGA TAAAAACCTC CTGGGCAAGG TGCGAAATGC CGCCTTGTGG 
    CTGGAGACCT TGTCAGATGC CAGGTCTGCC AAGCCTTCCC ACTCCACCAC CTCTTCCATT 
    GCTGACTTCT TCCTTGCCCT GACCATCTGC AACTCTGTCA TGGTGTCCAC AACCACTGAG 
    CCCAGACGGA GGGTTACCAT TCTACCGTCC AGCAAGGCTC TGGGAACGTC CTTGGAGAAG 
    ATTCAGCAGC TCTTCCAGAG GCTGAAGCTC CTGAGCCTCA GCCAGTCTTT CTCATCCACT 
    GCTCCCTCTG ACACAGATCT AGGGGAGAGT TTGGGGCCCA ACTTGCCCCC GACAGACTTA 
    GATGAGAAAG ACAATGCATC TGTGTGCAGT GGAGACTGCT CCACTGATGG TGGCTACAGG 
    AGCAGCACCT GGGAACAGGG TGACATCCTG GGATCCGGGT CAGGGTCTTC CTTGGAGGAG 
    GGCCTGGAGG CCCCAGCTCT TGGTCTAGAT GGACCCGAGC TCTGCTACGA AGCCGAGAGC 
    CCAGATGAGG CGGCTCTAGT GCATGCTGCC CATGCCTACA GCTTCACGCT GGTGTCCCGG 
    ACACCTGAGC AAGTGACCGT GCGCCTGCCC CAGGGTACCT GCCTCACCTT TGACCTCCTC 
    TTCACCCTGG GCTTTGACTC TGTCCGAAAG AGAATGTCAG TAGTGGTGAG GCACCCACTG 
    ACGGGTGAGA TCATCGTCTA TACCAAGGGC GCCGACTCAG TCATCATGGA CCTGCTGGAA 
    GACCCAACCT GTGTGTCTGA TATTGATGTG GAAAAGAAGC TGAAGAAAAT CCAAGCCCGG 
    ACCCAAAAAC ATCTGGACTT GTATGCAAGA GATGGCCTGC GAACCCTGTG CATCGCCAAG 
    AAGGTCCTAA GCGAAGAGAA CTTCCAAAGG TGGGCCAGTT TCCGGCGTGA GGCTGAGGCA 
    TCCCTCGACA ATCGAGATGA GCTGCTAATG AAAACAGCAC AGGATCTGGA GAGTCAGCTC 
    ACCTTACTTG GAGCCACTGG GATTGAAGAT CGACTTCAAG AAGGAGTTCC AGATACTGTT 
    GCTGCTCTGC AGGAGGCTGG GATCCAGCTC TGGGTCCTGA CAGGCGATAA GCAGGAGACA 
    GCGGTCAATA TTGCCTATTC CTGCAAACTG TTAGATCAGA CTGACACTGT GTACTCCATT 
    AACACAGAGA ATCAGGAAAC CTGTGAATCC ATCCTTAACT GTGCATTGGA AGAGGTAAAG 
    CAATTCCATG AACCACAGAA TCCAGATCGC AAGTTCTGTG GGTACCACAT ACCATCTACG 
    ACACCATCTG TTAACTCAAG AACTACGATT CCTGAAGTTG GACTGGTCAT TGATGGGAAG 
    ACATTGAATG CAATTTTCCA GGGAAAGCTG GAAAGGAAGT TTCTGGAGTT AACCCAGTAC 
    TGTCGGTCCA TCCTGTGTTG CCGCTCCACC CCACTCCAGA AAAGTATGAT TGTCAAGTTG 
    GTGCGAGACA AGTTGAGCGT CATGACTCTT TCCATAGGTG ATGGAGCAAA TGATGTAAGC 
    ATGATCCAAG CAGCTGACAT TGGCATTGGA ATATCTGGGC AGGAAGGCAT GCAGGCTGTC 
    ATGTCCAGTG ACTTTGCCAT CTCCCGCTTC AGTCACCTCA AGAAGCTGCT GCTTGTGCAT 
    GGACACTGGT GTTACTCACG CCTGGCCAGG ATGGTGGTAT ACTACTTCTA CAAGAATGTG 
    TGCTATGTCA ATCTGCTCTT CTGGTACCAG TTCTTCTGTG GGTTCTCCGG CTCCACCATG 
    ATCGATCACT GGCAGCTGAT ATTCTTCAAT CTCTTCTTCA CTTCCTTGCC TCCCATTATC 
    TTTGGAGTCC TCGATAAAGA TGTGTCTGCA GAAACACTCC TGGCACTGCC TGAACTTTAC 
    AAGAGCGGAC AGAACTCTGA GAGCTACAAC CTATCAGTAT TCTGGATTTC CATGGCGGAT 
    GCATTCTACC AGAGCCTTGT CTGTTTCTTT ATTCCTTACT TGACCTACAG AGGCTCCGAT 
    ATAGATGTCT TTACCTTTGG AACTCCAATC AACACCATCT CCCTCACCAC CATCCTCTTG 
    CACCAGGCAA TGGAGATGAA GACATGGACT GTCCTCCATG GGCTCATTCT CCTCGGCAGC 
    TTTTTGGCCT ACTTCGTGGT ATCTCTACTG TACAATGGTA CCTGCGTCAC CTGTAACAGC 
    CCAACCAATC CCTACTGGGT GATGGAAAGT CAGCTCTCTG ATCCAACATT CTACCTCGTC 
    TGCCTCCTCA CACCAGCGGT GGCTCTTCTC CCAAGGTACT TTCTCCTGGC TCTACAAGGG 
    ACTTACGGGA AGTCTCTGAT TTCAAAAGCT CAGAAAATTG ACAAGCTGCC AATAGACAAA 
    AGAAACCTGG AAATCCAGAA CTGGAGAAGC AAACATAGGC CTACCCCTAC CCCTGCTTCT 
    GCCCCTGCCC CCTCTCCTGC ACAGACTCAG CCCCCACGCC GTCCAGCACC ACCTGTCCCA 
    CAGAAGGACT TAAGAACCAG CACCCCAAAG TGCTCCAGCC CTCCGAGGCA GAAGCACATT 
    GAAGAATGGA TTCTCCAGGG TCAGAGATGC AGTAGAGAGC ACTCCAGGGA TGATGCATGC 
    TCAGCAGACA CCTCAGCTAA ACTCTCATCT GGGGAATACC TTCTGGGGCC AGATAGGACT 
    GTGGGACCAA AGGACGTATC CCGACTCTCA AGCAGACACA GCCATCGCAG GTCTCAGAGT 
    TCACTGACCA TATGA

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

    Atp10b ( XM_017795231.1 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017650720.1 Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa38939
    Clone ID Related Accession (Same CDS sequence) XM_017795231.1 , XM_017795231.2
    Accession Version XM_017795231.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4311bp)
    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 2016-08-10
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product probable phospholipid-transporting ATPase VB isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358387.1) 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 :: Nannospalax galili Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 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
    ATGAGAAAGG AAGGGAGGAA AAGGCGGAAA AGGAAAGACG ACAAGAAACG GGTGGTGCTC 
    TCCAACCTGC CTTTCGAAGG ATGGTCCTAC AAAGAGAACC CCAACCGCCA TTATTGTGGG 
    AATCAAATCA AGACCAGCAA GTACACCGTG CTGTCCTTCA TTCCCAAGAA CATTTTTGAG 
    CAGCTACACC GGTTTGCCAA CCTCTATTTT GTGGGCATTG TCATTCTGAA TTTCATCCCT 
    GTGCTCAATG CCTTCCAGCC TGAGATGAGC ACGGTCCCAA TCTGTGTCAT CCTTGCAGTC 
    ACTGCGATCA AGGATGCTTG GGAAGACTTC CGGAGATACA AATTGGATAA AGTCATCAAT 
    AACCGAGAGT GCCTTGTCTA CAGCAGGAAA GAGCAGAGCT ACGTGCAGAA GCGCTGGCAG 
    GATGTGCGTG TGGGAGACTT CGTCCAGATG CAACGCAATG AGATCATCCC AGCAGACATC 
    CTTCTCCTCT TCTCCTCAGA TCCCAGTGGG GTCTGCCACC TGGAAACTGC CAACTTGGAT 
    GGAGAGACGA ACCTCAAGCA GCGGTGTGTT GTGAAGGGCT TCTCACAGCA GGGGTCGCAG 
    TTCCAACCAG AACACTTCTA CAGTACCATC GTGTGTGAGA AACCCAACAA CCACCTCAAC 
    AAGTTTAAGG GATACATGGA GCATATGGAT CAGACCCGGA CTGGCATTGG CAGCGAGAGT 
    CTTCTGCTCC GAGGCTGCAC CATCAGAAAC ACTGAGGTGG TCACTGGCAT CGTCATCTAT 
    GCAGGCCATG AGACAAAAGC CATGCTGAAC AACAGTGGTC CCCGCTACAA ACGCAGCAAG 
    ATTGAGCGGC GCATGAACAC AGACATCTTC TTCTGCATCG GCCTCCTCTT CCTCATGTGC 
    CTCATTGGAG CTGTAGGTCA CAGCCTCTGG AATGGGACCT TTAAAGAACA CCCTCCTTTC 
    GATGTGCCAG ATGCTGATGG AAACTTCTTT TCCCTTACCC TTGGAGGCTT CTATATGTTC 
    CTCACAATGA TCATCCTGCT CCAGATATTG ATCCCGATCT CCTTGTATGT GTCCATTGAG 
    CTGGTAAAGC TTGGGCAAGT GTTCTTAGTA CATAACGACC TTGACCTGTA TGATGAAGAG 
    ACTGATTTAT CCATTCAATG TCGAGCCTTC AACATCACAG AGGACCTAGG CCAGATCCAG 
    TACATCTTCT CTGACAAGAC GGGCACCCTA ACAGAAAACA AGATGGTATT CCGGCGTTGC 
    ACCATCATGG GCAGCGAGTA TTGTCACCAA GAAAATGCCA AGCGACTAGA GACCCCAAAG 
    GATCTGGACT CCGACAGTGA AGAGTGGACT CAGTACCAGT GCCTGCCCTT CCCAACTAGA 
    TGGGCCCAGG GCCCAGCAAC GATGAGAAGC CAAGGAGGTG CCCAGCCTCT GAGGAGGAGC 
    CAGAGTGCCC GGGTGCCTGT CCAGAGCCAC TCTCGACAAA GATCTGTAGG GCGTTGGGAA 
    ACCTCACAGC CTCCTGTGGC CTTCAGCAGC CCCATTGAAA AAGATGTGAC TCCAGATAAA 
    AACCTCCTGG GCAAGGTGCG AAATGCCGCC TTGTGGCTGG AGACCTTGTC AGATGCCAGG 
    TCTGCCAAGC CTTCCCACTC CACCACCTCT TCCATTGCTG ACTTCTTCCT TGCCCTGACC 
    ATCTGCAACT CTGTCATGGT GTCCACAACC ACTGAGCCCA GACGGAGGGT TACCATTCTA 
    CCGTCCAGCA AGGCTCTGGG AACGTCCTTG GAGAAGATTC AGCAGCTCTT CCAGAGGCTG 
    AAGCTCCTGA GCCTCAGCCA GTCTTTCTCA TCCACTGCTC CCTCTGACAC AGATCTAGGG 
    GAGAGTTTGG GGCCCAACTT GCCCCCGACA GACTTAGATG AGAAAGACAA TGCATCTGTG 
    TGCAGTGGAG ACTGCTCCAC TGATGGTGGC TACAGGAGCA GCACCTGGGA ACAGGGTGAC 
    ATCCTGGGAT CCGGGTCAGG GTCTTCCTTG GAGGAGGGCC TGGAGGCCCC AGCTCTTGGT 
    CTAGATGGAC CCGAGCTCTG CTACGAAGCC GAGAGCCCAG ATGAGGCGGC TCTAGTGCAT 
    GCTGCCCATG CCTACAGCTT CACGCTGGTG TCCCGGACAC CTGAGCAAGT GACCGTGCGC 
    CTGCCCCAGG GTACCTGCCT CACCTTTGAC CTCCTCTTCA CCCTGGGCTT TGACTCTGTC 
    CGAAAGAGAA TGTCAGTAGT GGTGAGGCAC CCACTGACGG GTGAGATCAT CGTCTATACC 
    AAGGGCGCCG ACTCAGTCAT CATGGACCTG CTGGAAGACC CAACCTGTGT GTCTGATATT 
    GATGTGGAAA AGAAGCTGAA GAAAATCCAA GCCCGGACCC AAAAACATCT GGACTTGTAT 
    GCAAGAGATG GCCTGCGAAC CCTGTGCATC GCCAAGAAGG TCCTAAGCGA AGAGAACTTC 
    CAAAGGTGGG CCAGTTTCCG GCGTGAGGCT GAGGCATCCC TCGACAATCG AGATGAGCTG 
    CTAATGAAAA CAGCACAGGA TCTGGAGAGT CAGCTCACCT TACTTGGAGC CACTGGGATT 
    GAAGATCGAC TTCAAGAAGG AGTTCCAGAT ACTGTTGCTG CTCTGCAGGA GGCTGGGATC 
    CAGCTCTGGG TCCTGACAGG CGATAAGCAG GAGACAGCGG TCAATATTGC CTATTCCTGC 
    AAACTGTTAG ATCAGACTGA CACTGTGTAC TCCATTAACA CAGAGAATCA GGAAACCTGT 
    GAATCCATCC TTAACTGTGC ATTGGAAGAG GTAAAGCAAT TCCATGAACC ACAGAATCCA 
    GATCGCAAGT TCTGTGGGTA CCACATACCA TCTACGACAC CATCTGTTAA CTCAAGAACT 
    ACGATTCCTG AAGTTGGACT GGTCATTGAT GGGAAGACAT TGAATGCAAT TTTCCAGGGA 
    AAGCTGGAAA GGAAGTTTCT GGAGTTAACC CAGTACTGTC GGTCCATCCT GTGTTGCCGC 
    TCCACCCCAC TCCAGAAAAG TATGATTGTC AAGTTGGTGC GAGACAAGTT GAGCGTCATG 
    ACTCTTTCCA TAGGTGATGG AGCAAATGAT GTAAGCATGA TCCAAGCAGC TGACATTGGC 
    ATTGGAATAT CTGGGCAGGA AGGCATGCAG GCTGTCATGT CCAGTGACTT TGCCATCTCC 
    CGCTTCAGTC ACCTCAAGAA GCTGCTGCTT GTGCATGGAC ACTGGTGTTA CTCACGCCTG 
    GCCAGGATGG TGGTATACTA CTTCTACAAG AATGTGTGCT ATGTCAATCT GCTCTTCTGG 
    TACCAGTTCT TCTGTGGGTT CTCCGGCTCC ACCATGATCG ATCACTGGCA GCTGATATTC 
    TTCAATCTCT TCTTCACTTC CTTGCCTCCC ATTATCTTTG GAGTCCTCGA TAAAGATGTG 
    TCTGCAGAAA CACTCCTGGC ACTGCCTGAA CTTTACAAGA GCGGACAGAA CTCTGAGAGC 
    TACAACCTAT CAGTATTCTG GATTTCCATG GCGGATGCAT TCTACCAGAG CCTTGTCTGT 
    TTCTTTATTC CTTACTTGAC CTACAGAGGC TCCGATATAG ATGTCTTTAC CTTTGGAACT 
    CCAATCAACA CCATCTCCCT CACCACCATC CTCTTGCACC AGGCAATGGA GATGAAGACA 
    TGGACTGTCC TCCATGGGCT CATTCTCCTC GGCAGCTTTT TGGCCTACTT CGTGGTATCT 
    CTACTGTACA ATGGTACCTG CGTCACCTGT AACAGCCCAA CCAATCCCTA CTGGGTGATG 
    GAAAGTCAGC TCTCTGATCC AACATTCTAC CTCGTCTGCC TCCTCACACC AGCGGTGGCT 
    CTTCTCCCAA GGTACTTTCT CCTGGCTCTA CAAGGGACTT ACGGGAAGTC TCTGATTTCA 
    AAAGCTCAGA AAATTGACAA GCTGCCAATA GACAAAAGAA ACCTGGAAAT CCAGAACTGG 
    AGAAGCAAAC ATAGGCCTAC CCCTACCCCT GCTTCTGCCC CTGCCCCCTC TCCTGCACAG 
    ACTCAGCCCC CACGCCGTCC AGCACCACCT GTCCCACAGA AGGACTTAAG AACCAGCACC 
    CCAAAGTGCT CCAGCCCTCC GAGGCAGAAG CACATTGAAG AATGGATTCT CCAGGGTCAG 
    AGATGCAGTA GAGAGCACTC CAGGGATGAT GCATGCTCAG CAGACACCTC AGCTAAACTC 
    TCATCTGGGG AATACCTTCT GGGGCCAGAT AGGACTGTGG GACCAAAGGA CGTATCCCGA 
    CTCTCAAGCA GACACAGCCA TCGCAGGTCT CAGAGTTCAC TGACCATATG A

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

    RefSeq XP_017650720.1
    CDS41..4351
    Translation

    Target ORF information:

    RefSeq Version XM_017795231.1
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017795231.1

    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
    ATGAGAAAGG AAGGGAGGAA AAGGCGGAAA AGGAAAGACG ACAAGAAACG GGTGGTGCTC 
    TCCAACCTGC CTTTCGAAGG ATGGTCCTAC AAAGAGAACC CCAACCGCCA TTATTGTGGG 
    AATCAAATCA AGACCAGCAA GTACACCGTG CTGTCCTTCA TTCCCAAGAA CATTTTTGAG 
    CAGCTACACC GGTTTGCCAA CCTCTATTTT GTGGGCATTG TCATTCTGAA TTTCATCCCT 
    GTGCTCAATG CCTTCCAGCC TGAGATGAGC ACGGTCCCAA TCTGTGTCAT CCTTGCAGTC 
    ACTGCGATCA AGGATGCTTG GGAAGACTTC CGGAGATACA AATTGGATAA AGTCATCAAT 
    AACCGAGAGT GCCTTGTCTA CAGCAGGAAA GAGCAGAGCT ACGTGCAGAA GCGCTGGCAG 
    GATGTGCGTG TGGGAGACTT CGTCCAGATG CAACGCAATG AGATCATCCC AGCAGACATC 
    CTTCTCCTCT TCTCCTCAGA TCCCAGTGGG GTCTGCCACC TGGAAACTGC CAACTTGGAT 
    GGAGAGACGA ACCTCAAGCA GCGGTGTGTT GTGAAGGGCT TCTCACAGCA GGGGTCGCAG 
    TTCCAACCAG AACACTTCTA CAGTACCATC GTGTGTGAGA AACCCAACAA CCACCTCAAC 
    AAGTTTAAGG GATACATGGA GCATATGGAT CAGACCCGGA CTGGCATTGG CAGCGAGAGT 
    CTTCTGCTCC GAGGCTGCAC CATCAGAAAC ACTGAGGTGG TCACTGGCAT CGTCATCTAT 
    GCAGGCCATG AGACAAAAGC CATGCTGAAC AACAGTGGTC CCCGCTACAA ACGCAGCAAG 
    ATTGAGCGGC GCATGAACAC AGACATCTTC TTCTGCATCG GCCTCCTCTT CCTCATGTGC 
    CTCATTGGAG CTGTAGGTCA CAGCCTCTGG AATGGGACCT TTAAAGAACA CCCTCCTTTC 
    GATGTGCCAG ATGCTGATGG AAACTTCTTT TCCCTTACCC TTGGAGGCTT CTATATGTTC 
    CTCACAATGA TCATCCTGCT CCAGATATTG ATCCCGATCT CCTTGTATGT GTCCATTGAG 
    CTGGTAAAGC TTGGGCAAGT GTTCTTAGTA CATAACGACC TTGACCTGTA TGATGAAGAG 
    ACTGATTTAT CCATTCAATG TCGAGCCTTC AACATCACAG AGGACCTAGG CCAGATCCAG 
    TACATCTTCT CTGACAAGAC GGGCACCCTA ACAGAAAACA AGATGGTATT CCGGCGTTGC 
    ACCATCATGG GCAGCGAGTA TTGTCACCAA GAAAATGCCA AGCGACTAGA GACCCCAAAG 
    GATCTGGACT CCGACAGTGA AGAGTGGACT CAGTACCAGT GCCTGCCCTT CCCAACTAGA 
    TGGGCCCAGG GCCCAGCAAC GATGAGAAGC CAAGGAGGTG CCCAGCCTCT GAGGAGGAGC 
    CAGAGTGCCC GGGTGCCTGT CCAGAGCCAC TCTCGACAAA GATCTGTAGG GCGTTGGGAA 
    ACCTCACAGC CTCCTGTGGC CTTCAGCAGC CCCATTGAAA AAGATGTGAC TCCAGATAAA 
    AACCTCCTGG GCAAGGTGCG AAATGCCGCC TTGTGGCTGG AGACCTTGTC AGATGCCAGG 
    TCTGCCAAGC CTTCCCACTC CACCACCTCT TCCATTGCTG ACTTCTTCCT TGCCCTGACC 
    ATCTGCAACT CTGTCATGGT GTCCACAACC ACTGAGCCCA GACGGAGGGT TACCATTCTA 
    CCGTCCAGCA AGGCTCTGGG AACGTCCTTG GAGAAGATTC AGCAGCTCTT CCAGAGGCTG 
    AAGCTCCTGA GCCTCAGCCA GTCTTTCTCA TCCACTGCTC CCTCTGACAC AGATCTAGGG 
    GAGAGTTTGG GGCCCAACTT GCCCCCGACA GACTTAGATG AGAAAGACAA TGCATCTGTG 
    TGCAGTGGAG ACTGCTCCAC TGATGGTGGC TACAGGAGCA GCACCTGGGA ACAGGGTGAC 
    ATCCTGGGAT CCGGGTCAGG GTCTTCCTTG GAGGAGGGCC TGGAGGCCCC AGCTCTTGGT 
    CTAGATGGAC CCGAGCTCTG CTACGAAGCC GAGAGCCCAG ATGAGGCGGC TCTAGTGCAT 
    GCTGCCCATG CCTACAGCTT CACGCTGGTG TCCCGGACAC CTGAGCAAGT GACCGTGCGC 
    CTGCCCCAGG GTACCTGCCT CACCTTTGAC CTCCTCTTCA CCCTGGGCTT TGACTCTGTC 
    CGAAAGAGAA TGTCAGTAGT GGTGAGGCAC CCACTGACGG GTGAGATCAT CGTCTATACC 
    AAGGGCGCCG ACTCAGTCAT CATGGACCTG CTGGAAGACC CAACCTGTGT GTCTGATATT 
    GATGTGGAAA AGAAGCTGAA GAAAATCCAA GCCCGGACCC AAAAACATCT GGACTTGTAT 
    GCAAGAGATG GCCTGCGAAC CCTGTGCATC GCCAAGAAGG TCCTAAGCGA AGAGAACTTC 
    CAAAGGTGGG CCAGTTTCCG GCGTGAGGCT GAGGCATCCC TCGACAATCG AGATGAGCTG 
    CTAATGAAAA CAGCACAGGA TCTGGAGAGT CAGCTCACCT TACTTGGAGC CACTGGGATT 
    GAAGATCGAC TTCAAGAAGG AGTTCCAGAT ACTGTTGCTG CTCTGCAGGA GGCTGGGATC 
    CAGCTCTGGG TCCTGACAGG CGATAAGCAG GAGACAGCGG TCAATATTGC CTATTCCTGC 
    AAACTGTTAG ATCAGACTGA CACTGTGTAC TCCATTAACA CAGAGAATCA GGAAACCTGT 
    GAATCCATCC TTAACTGTGC ATTGGAAGAG GTAAAGCAAT TCCATGAACC ACAGAATCCA 
    GATCGCAAGT TCTGTGGGTA CCACATACCA TCTACGACAC CATCTGTTAA CTCAAGAACT 
    ACGATTCCTG AAGTTGGACT GGTCATTGAT GGGAAGACAT TGAATGCAAT TTTCCAGGGA 
    AAGCTGGAAA GGAAGTTTCT GGAGTTAACC CAGTACTGTC GGTCCATCCT GTGTTGCCGC 
    TCCACCCCAC TCCAGAAAAG TATGATTGTC AAGTTGGTGC GAGACAAGTT GAGCGTCATG 
    ACTCTTTCCA TAGGTGATGG AGCAAATGAT GTAAGCATGA TCCAAGCAGC TGACATTGGC 
    ATTGGAATAT CTGGGCAGGA AGGCATGCAG GCTGTCATGT CCAGTGACTT TGCCATCTCC 
    CGCTTCAGTC ACCTCAAGAA GCTGCTGCTT GTGCATGGAC ACTGGTGTTA CTCACGCCTG 
    GCCAGGATGG TGGTATACTA CTTCTACAAG AATGTGTGCT ATGTCAATCT GCTCTTCTGG 
    TACCAGTTCT TCTGTGGGTT CTCCGGCTCC ACCATGATCG ATCACTGGCA GCTGATATTC 
    TTCAATCTCT TCTTCACTTC CTTGCCTCCC ATTATCTTTG GAGTCCTCGA TAAAGATGTG 
    TCTGCAGAAA CACTCCTGGC ACTGCCTGAA CTTTACAAGA GCGGACAGAA CTCTGAGAGC 
    TACAACCTAT CAGTATTCTG GATTTCCATG GCGGATGCAT TCTACCAGAG CCTTGTCTGT 
    TTCTTTATTC CTTACTTGAC CTACAGAGGC TCCGATATAG ATGTCTTTAC CTTTGGAACT 
    CCAATCAACA CCATCTCCCT CACCACCATC CTCTTGCACC AGGCAATGGA GATGAAGACA 
    TGGACTGTCC TCCATGGGCT CATTCTCCTC GGCAGCTTTT TGGCCTACTT CGTGGTATCT 
    CTACTGTACA ATGGTACCTG CGTCACCTGT AACAGCCCAA CCAATCCCTA CTGGGTGATG 
    GAAAGTCAGC TCTCTGATCC AACATTCTAC CTCGTCTGCC TCCTCACACC AGCGGTGGCT 
    CTTCTCCCAA GGTACTTTCT CCTGGCTCTA CAAGGGACTT ACGGGAAGTC TCTGATTTCA 
    AAAGCTCAGA AAATTGACAA GCTGCCAATA GACAAAAGAA ACCTGGAAAT CCAGAACTGG 
    AGAAGCAAAC ATAGGCCTAC CCCTACCCCT GCTTCTGCCC CTGCCCCCTC TCCTGCACAG 
    ACTCAGCCCC CACGCCGTCC AGCACCACCT GTCCCACAGA AGGACTTAAG AACCAGCACC 
    CCAAAGTGCT CCAGCCCTCC GAGGCAGAAG CACATTGAAG AATGGATTCT CCAGGGTCAG 
    AGATGCAGTA GAGAGCACTC CAGGGATGAT GCATGCTCAG CAGACACCTC AGCTAAACTC 
    TCATCTGGGG AATACCTTCT GGGGCCAGAT AGGACTGTGG GACCAAAGGA CGTATCCCGA 
    CTCTCAAGCA GACACAGCCA TCGCAGGTCT CAGAGTTCAC TGACCATATG A

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

    Atp10b ( XM_017795231.2 ) cDNA ORF clone, Nannospalax galili(Upper Galilee mountains blind mole rat) -> XP_017650720.1 Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X2, mRNA.
    Price & Availability↑
    CloneID ONa38939
    Clone ID Related Accession (Same CDS sequence) XM_017795231.1 , XM_017795231.2
    Accession Version XM_017795231.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4311bp)
    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 2019-06-23
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Product probable phospholipid-transporting ATPase VB isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_008358387.1) annotated using gene prediction method: Gnomon, supported by mRNA evidence. Also see: Documentation of NCBI's Annotation Process On Jun 24, 2019 this sequence version replaced XM_017795231.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Nannospalax galili Annotation Release 102 Annotation Version :: 102 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
    ATGAGAAAGG AAGGGAGGAA AAGGCGGAAA AGGAAAGACG ACAAGAAACG GGTGGTGCTC 
    TCCAACCTGC CTTTCGAAGG ATGGTCCTAC AAAGAGAACC CCAACCGCCA TTATTGTGGG 
    AATCAAATCA AGACCAGCAA GTACACCGTG CTGTCCTTCA TTCCCAAGAA CATTTTTGAG 
    CAGCTACACC GGTTTGCCAA CCTCTATTTT GTGGGCATTG TCATTCTGAA TTTCATCCCT 
    GTGCTCAATG CCTTCCAGCC TGAGATGAGC ACGGTCCCAA TCTGTGTCAT CCTTGCAGTC 
    ACTGCGATCA AGGATGCTTG GGAAGACTTC CGGAGATACA AATTGGATAA AGTCATCAAT 
    AACCGAGAGT GCCTTGTCTA CAGCAGGAAA GAGCAGAGCT ACGTGCAGAA GCGCTGGCAG 
    GATGTGCGTG TGGGAGACTT CGTCCAGATG CAACGCAATG AGATCATCCC AGCAGACATC 
    CTTCTCCTCT TCTCCTCAGA TCCCAGTGGG GTCTGCCACC TGGAAACTGC CAACTTGGAT 
    GGAGAGACGA ACCTCAAGCA GCGGTGTGTT GTGAAGGGCT TCTCACAGCA GGGGTCGCAG 
    TTCCAACCAG AACACTTCTA CAGTACCATC GTGTGTGAGA AACCCAACAA CCACCTCAAC 
    AAGTTTAAGG GATACATGGA GCATATGGAT CAGACCCGGA CTGGCATTGG CAGCGAGAGT 
    CTTCTGCTCC GAGGCTGCAC CATCAGAAAC ACTGAGGTGG TCACTGGCAT CGTCATCTAT 
    GCAGGCCATG AGACAAAAGC CATGCTGAAC AACAGTGGTC CCCGCTACAA ACGCAGCAAG 
    ATTGAGCGGC GCATGAACAC AGACATCTTC TTCTGCATCG GCCTCCTCTT CCTCATGTGC 
    CTCATTGGAG CTGTAGGTCA CAGCCTCTGG AATGGGACCT TTAAAGAACA CCCTCCTTTC 
    GATGTGCCAG ATGCTGATGG AAACTTCTTT TCCCTTACCC TTGGAGGCTT CTATATGTTC 
    CTCACAATGA TCATCCTGCT CCAGATATTG ATCCCGATCT CCTTGTATGT GTCCATTGAG 
    CTGGTAAAGC TTGGGCAAGT GTTCTTAGTA CATAACGACC TTGACCTGTA TGATGAAGAG 
    ACTGATTTAT CCATTCAATG TCGAGCCTTC AACATCACAG AGGACCTAGG CCAGATCCAG 
    TACATCTTCT CTGACAAGAC GGGCACCCTA ACAGAAAACA AGATGGTATT CCGGCGTTGC 
    ACCATCATGG GCAGCGAGTA TTGTCACCAA GAAAATGCCA AGCGACTAGA GACCCCAAAG 
    GATCTGGACT CCGACAGTGA AGAGTGGACT CAGTACCAGT GCCTGCCCTT CCCAACTAGA 
    TGGGCCCAGG GCCCAGCAAC GATGAGAAGC CAAGGAGGTG CCCAGCCTCT GAGGAGGAGC 
    CAGAGTGCCC GGGTGCCTGT CCAGAGCCAC TCTCGACAAA GATCTGTAGG GCGTTGGGAA 
    ACCTCACAGC CTCCTGTGGC CTTCAGCAGC CCCATTGAAA AAGATGTGAC TCCAGATAAA 
    AACCTCCTGG GCAAGGTGCG AAATGCCGCC TTGTGGCTGG AGACCTTGTC AGATGCCAGG 
    TCTGCCAAGC CTTCCCACTC CACCACCTCT TCCATTGCTG ACTTCTTCCT TGCCCTGACC 
    ATCTGCAACT CTGTCATGGT GTCCACAACC ACTGAGCCCA GACGGAGGGT TACCATTCTA 
    CCGTCCAGCA AGGCTCTGGG AACGTCCTTG GAGAAGATTC AGCAGCTCTT CCAGAGGCTG 
    AAGCTCCTGA GCCTCAGCCA GTCTTTCTCA TCCACTGCTC CCTCTGACAC AGATCTAGGG 
    GAGAGTTTGG GGCCCAACTT GCCCCCGACA GACTTAGATG AGAAAGACAA TGCATCTGTG 
    TGCAGTGGAG ACTGCTCCAC TGATGGTGGC TACAGGAGCA GCACCTGGGA ACAGGGTGAC 
    ATCCTGGGAT CCGGGTCAGG GTCTTCCTTG GAGGAGGGCC TGGAGGCCCC AGCTCTTGGT 
    CTAGATGGAC CCGAGCTCTG CTACGAAGCC GAGAGCCCAG ATGAGGCGGC TCTAGTGCAT 
    GCTGCCCATG CCTACAGCTT CACGCTGGTG TCCCGGACAC CTGAGCAAGT GACCGTGCGC 
    CTGCCCCAGG GTACCTGCCT CACCTTTGAC CTCCTCTTCA CCCTGGGCTT TGACTCTGTC 
    CGAAAGAGAA TGTCAGTAGT GGTGAGGCAC CCACTGACGG GTGAGATCAT CGTCTATACC 
    AAGGGCGCCG ACTCAGTCAT CATGGACCTG CTGGAAGACC CAACCTGTGT GTCTGATATT 
    GATGTGGAAA AGAAGCTGAA GAAAATCCAA GCCCGGACCC AAAAACATCT GGACTTGTAT 
    GCAAGAGATG GCCTGCGAAC CCTGTGCATC GCCAAGAAGG TCCTAAGCGA AGAGAACTTC 
    CAAAGGTGGG CCAGTTTCCG GCGTGAGGCT GAGGCATCCC TCGACAATCG AGATGAGCTG 
    CTAATGAAAA CAGCACAGGA TCTGGAGAGT CAGCTCACCT TACTTGGAGC CACTGGGATT 
    GAAGATCGAC TTCAAGAAGG AGTTCCAGAT ACTGTTGCTG CTCTGCAGGA GGCTGGGATC 
    CAGCTCTGGG TCCTGACAGG CGATAAGCAG GAGACAGCGG TCAATATTGC CTATTCCTGC 
    AAACTGTTAG ATCAGACTGA CACTGTGTAC TCCATTAACA CAGAGAATCA GGAAACCTGT 
    GAATCCATCC TTAACTGTGC ATTGGAAGAG GTAAAGCAAT TCCATGAACC ACAGAATCCA 
    GATCGCAAGT TCTGTGGGTA CCACATACCA TCTACGACAC CATCTGTTAA CTCAAGAACT 
    ACGATTCCTG AAGTTGGACT GGTCATTGAT GGGAAGACAT TGAATGCAAT TTTCCAGGGA 
    AAGCTGGAAA GGAAGTTTCT GGAGTTAACC CAGTACTGTC GGTCCATCCT GTGTTGCCGC 
    TCCACCCCAC TCCAGAAAAG TATGATTGTC AAGTTGGTGC GAGACAAGTT GAGCGTCATG 
    ACTCTTTCCA TAGGTGATGG AGCAAATGAT GTAAGCATGA TCCAAGCAGC TGACATTGGC 
    ATTGGAATAT CTGGGCAGGA AGGCATGCAG GCTGTCATGT CCAGTGACTT TGCCATCTCC 
    CGCTTCAGTC ACCTCAAGAA GCTGCTGCTT GTGCATGGAC ACTGGTGTTA CTCACGCCTG 
    GCCAGGATGG TGGTATACTA CTTCTACAAG AATGTGTGCT ATGTCAATCT GCTCTTCTGG 
    TACCAGTTCT TCTGTGGGTT CTCCGGCTCC ACCATGATCG ATCACTGGCA GCTGATATTC 
    TTCAATCTCT TCTTCACTTC CTTGCCTCCC ATTATCTTTG GAGTCCTCGA TAAAGATGTG 
    TCTGCAGAAA CACTCCTGGC ACTGCCTGAA CTTTACAAGA GCGGACAGAA CTCTGAGAGC 
    TACAACCTAT CAGTATTCTG GATTTCCATG GCGGATGCAT TCTACCAGAG CCTTGTCTGT 
    TTCTTTATTC CTTACTTGAC CTACAGAGGC TCCGATATAG ATGTCTTTAC CTTTGGAACT 
    CCAATCAACA CCATCTCCCT CACCACCATC CTCTTGCACC AGGCAATGGA GATGAAGACA 
    TGGACTGTCC TCCATGGGCT CATTCTCCTC GGCAGCTTTT TGGCCTACTT CGTGGTATCT 
    CTACTGTACA ATGGTACCTG CGTCACCTGT AACAGCCCAA CCAATCCCTA CTGGGTGATG 
    GAAAGTCAGC TCTCTGATCC AACATTCTAC CTCGTCTGCC TCCTCACACC AGCGGTGGCT 
    CTTCTCCCAA GGTACTTTCT CCTGGCTCTA CAAGGGACTT ACGGGAAGTC TCTGATTTCA 
    AAAGCTCAGA AAATTGACAA GCTGCCAATA GACAAAAGAA ACCTGGAAAT CCAGAACTGG 
    AGAAGCAAAC ATAGGCCTAC CCCTACCCCT GCTTCTGCCC CTGCCCCCTC TCCTGCACAG 
    ACTCAGCCCC CACGCCGTCC AGCACCACCT GTCCCACAGA AGGACTTAAG AACCAGCACC 
    CCAAAGTGCT CCAGCCCTCC GAGGCAGAAG CACATTGAAG AATGGATTCT CCAGGGTCAG 
    AGATGCAGTA GAGAGCACTC CAGGGATGAT GCATGCTCAG CAGACACCTC AGCTAAACTC 
    TCATCTGGGG AATACCTTCT GGGGCCAGAT AGGACTGTGG GACCAAAGGA CGTATCCCGA 
    CTCTCAAGCA GACACAGCCA TCGCAGGTCT CAGAGTTCAC TGACCATATG A

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

    RefSeq XP_017650720.1
    CDS159..4469
    Translation

    Target ORF information:

    RefSeq Version XM_017795231.2
    Organism Nannospalax galili(Upper Galilee mountains blind mole rat)
    Definition Nannospalax galili ATPase phospholipid transporting 10B (putative) (Atp10b), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    		 XM_017795231.2

    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
    ATGAGAAAGG AAGGGAGGAA AAGGCGGAAA AGGAAAGACG ACAAGAAACG GGTGGTGCTC 
    TCCAACCTGC CTTTCGAAGG ATGGTCCTAC AAAGAGAACC CCAACCGCCA TTATTGTGGG 
    AATCAAATCA AGACCAGCAA GTACACCGTG CTGTCCTTCA TTCCCAAGAA CATTTTTGAG 
    CAGCTACACC GGTTTGCCAA CCTCTATTTT GTGGGCATTG TCATTCTGAA TTTCATCCCT 
    GTGCTCAATG CCTTCCAGCC TGAGATGAGC ACGGTCCCAA TCTGTGTCAT CCTTGCAGTC 
    ACTGCGATCA AGGATGCTTG GGAAGACTTC CGGAGATACA AATTGGATAA AGTCATCAAT 
    AACCGAGAGT GCCTTGTCTA CAGCAGGAAA GAGCAGAGCT ACGTGCAGAA GCGCTGGCAG 
    GATGTGCGTG TGGGAGACTT CGTCCAGATG CAACGCAATG AGATCATCCC AGCAGACATC 
    CTTCTCCTCT TCTCCTCAGA TCCCAGTGGG GTCTGCCACC TGGAAACTGC CAACTTGGAT 
    GGAGAGACGA ACCTCAAGCA GCGGTGTGTT GTGAAGGGCT TCTCACAGCA GGGGTCGCAG 
    TTCCAACCAG AACACTTCTA CAGTACCATC GTGTGTGAGA AACCCAACAA CCACCTCAAC 
    AAGTTTAAGG GATACATGGA GCATATGGAT CAGACCCGGA CTGGCATTGG CAGCGAGAGT 
    CTTCTGCTCC GAGGCTGCAC CATCAGAAAC ACTGAGGTGG TCACTGGCAT CGTCATCTAT 
    GCAGGCCATG AGACAAAAGC CATGCTGAAC AACAGTGGTC CCCGCTACAA ACGCAGCAAG 
    ATTGAGCGGC GCATGAACAC AGACATCTTC TTCTGCATCG GCCTCCTCTT CCTCATGTGC 
    CTCATTGGAG CTGTAGGTCA CAGCCTCTGG AATGGGACCT TTAAAGAACA CCCTCCTTTC 
    GATGTGCCAG ATGCTGATGG AAACTTCTTT TCCCTTACCC TTGGAGGCTT CTATATGTTC 
    CTCACAATGA TCATCCTGCT CCAGATATTG ATCCCGATCT CCTTGTATGT GTCCATTGAG 
    CTGGTAAAGC TTGGGCAAGT GTTCTTAGTA CATAACGACC TTGACCTGTA TGATGAAGAG 
    ACTGATTTAT CCATTCAATG TCGAGCCTTC AACATCACAG AGGACCTAGG CCAGATCCAG 
    TACATCTTCT CTGACAAGAC GGGCACCCTA ACAGAAAACA AGATGGTATT CCGGCGTTGC 
    ACCATCATGG GCAGCGAGTA TTGTCACCAA GAAAATGCCA AGCGACTAGA GACCCCAAAG 
    GATCTGGACT CCGACAGTGA AGAGTGGACT CAGTACCAGT GCCTGCCCTT CCCAACTAGA 
    TGGGCCCAGG GCCCAGCAAC GATGAGAAGC CAAGGAGGTG CCCAGCCTCT GAGGAGGAGC 
    CAGAGTGCCC GGGTGCCTGT CCAGAGCCAC TCTCGACAAA GATCTGTAGG GCGTTGGGAA 
    ACCTCACAGC CTCCTGTGGC CTTCAGCAGC CCCATTGAAA AAGATGTGAC TCCAGATAAA 
    AACCTCCTGG GCAAGGTGCG AAATGCCGCC TTGTGGCTGG AGACCTTGTC AGATGCCAGG 
    TCTGCCAAGC CTTCCCACTC CACCACCTCT TCCATTGCTG ACTTCTTCCT TGCCCTGACC 
    ATCTGCAACT CTGTCATGGT GTCCACAACC ACTGAGCCCA GACGGAGGGT TACCATTCTA 
    CCGTCCAGCA AGGCTCTGGG AACGTCCTTG GAGAAGATTC AGCAGCTCTT CCAGAGGCTG 
    AAGCTCCTGA GCCTCAGCCA GTCTTTCTCA TCCACTGCTC CCTCTGACAC AGATCTAGGG 
    GAGAGTTTGG GGCCCAACTT GCCCCCGACA GACTTAGATG AGAAAGACAA TGCATCTGTG 
    TGCAGTGGAG ACTGCTCCAC TGATGGTGGC TACAGGAGCA GCACCTGGGA ACAGGGTGAC 
    ATCCTGGGAT CCGGGTCAGG GTCTTCCTTG GAGGAGGGCC TGGAGGCCCC AGCTCTTGGT 
    CTAGATGGAC CCGAGCTCTG CTACGAAGCC GAGAGCCCAG ATGAGGCGGC TCTAGTGCAT 
    GCTGCCCATG CCTACAGCTT CACGCTGGTG TCCCGGACAC CTGAGCAAGT GACCGTGCGC 
    CTGCCCCAGG GTACCTGCCT CACCTTTGAC CTCCTCTTCA CCCTGGGCTT TGACTCTGTC 
    CGAAAGAGAA TGTCAGTAGT GGTGAGGCAC CCACTGACGG GTGAGATCAT CGTCTATACC 
    AAGGGCGCCG ACTCAGTCAT CATGGACCTG CTGGAAGACC CAACCTGTGT GTCTGATATT 
    GATGTGGAAA AGAAGCTGAA GAAAATCCAA GCCCGGACCC AAAAACATCT GGACTTGTAT 
    GCAAGAGATG GCCTGCGAAC CCTGTGCATC GCCAAGAAGG TCCTAAGCGA AGAGAACTTC 
    CAAAGGTGGG CCAGTTTCCG GCGTGAGGCT GAGGCATCCC TCGACAATCG AGATGAGCTG 
    CTAATGAAAA CAGCACAGGA TCTGGAGAGT CAGCTCACCT TACTTGGAGC CACTGGGATT 
    GAAGATCGAC TTCAAGAAGG AGTTCCAGAT ACTGTTGCTG CTCTGCAGGA GGCTGGGATC 
    CAGCTCTGGG TCCTGACAGG CGATAAGCAG GAGACAGCGG TCAATATTGC CTATTCCTGC 
    AAACTGTTAG ATCAGACTGA CACTGTGTAC TCCATTAACA CAGAGAATCA GGAAACCTGT 
    GAATCCATCC TTAACTGTGC ATTGGAAGAG GTAAAGCAAT TCCATGAACC ACAGAATCCA 
    GATCGCAAGT TCTGTGGGTA CCACATACCA TCTACGACAC CATCTGTTAA CTCAAGAACT 
    ACGATTCCTG AAGTTGGACT GGTCATTGAT GGGAAGACAT TGAATGCAAT TTTCCAGGGA 
    AAGCTGGAAA GGAAGTTTCT GGAGTTAACC CAGTACTGTC GGTCCATCCT GTGTTGCCGC 
    TCCACCCCAC TCCAGAAAAG TATGATTGTC AAGTTGGTGC GAGACAAGTT GAGCGTCATG 
    ACTCTTTCCA TAGGTGATGG AGCAAATGAT GTAAGCATGA TCCAAGCAGC TGACATTGGC 
    ATTGGAATAT CTGGGCAGGA AGGCATGCAG GCTGTCATGT CCAGTGACTT TGCCATCTCC 
    CGCTTCAGTC ACCTCAAGAA GCTGCTGCTT GTGCATGGAC ACTGGTGTTA CTCACGCCTG 
    GCCAGGATGG TGGTATACTA CTTCTACAAG AATGTGTGCT ATGTCAATCT GCTCTTCTGG 
    TACCAGTTCT TCTGTGGGTT CTCCGGCTCC ACCATGATCG ATCACTGGCA GCTGATATTC 
    TTCAATCTCT TCTTCACTTC CTTGCCTCCC ATTATCTTTG GAGTCCTCGA TAAAGATGTG 
    TCTGCAGAAA CACTCCTGGC ACTGCCTGAA CTTTACAAGA GCGGACAGAA CTCTGAGAGC 
    TACAACCTAT CAGTATTCTG GATTTCCATG GCGGATGCAT TCTACCAGAG CCTTGTCTGT 
    TTCTTTATTC CTTACTTGAC CTACAGAGGC TCCGATATAG ATGTCTTTAC CTTTGGAACT 
    CCAATCAACA CCATCTCCCT CACCACCATC CTCTTGCACC AGGCAATGGA GATGAAGACA 
    TGGACTGTCC TCCATGGGCT CATTCTCCTC GGCAGCTTTT TGGCCTACTT CGTGGTATCT 
    CTACTGTACA ATGGTACCTG CGTCACCTGT AACAGCCCAA CCAATCCCTA CTGGGTGATG 
    GAAAGTCAGC TCTCTGATCC AACATTCTAC CTCGTCTGCC TCCTCACACC AGCGGTGGCT 
    CTTCTCCCAA GGTACTTTCT CCTGGCTCTA CAAGGGACTT ACGGGAAGTC TCTGATTTCA 
    AAAGCTCAGA AAATTGACAA GCTGCCAATA GACAAAAGAA ACCTGGAAAT CCAGAACTGG 
    AGAAGCAAAC ATAGGCCTAC CCCTACCCCT GCTTCTGCCC CTGCCCCCTC TCCTGCACAG 
    ACTCAGCCCC CACGCCGTCC AGCACCACCT GTCCCACAGA AGGACTTAAG AACCAGCACC 
    CCAAAGTGCT CCAGCCCTCC GAGGCAGAAG CACATTGAAG AATGGATTCT CCAGGGTCAG 
    AGATGCAGTA GAGAGCACTC CAGGGATGAT GCATGCTCAG CAGACACCTC AGCTAAACTC 
    TCATCTGGGG AATACCTTCT GGGGCCAGAT AGGACTGTGG GACCAAAGGA CGTATCCCGA 
    CTCTCAAGCA GACACAGCCA TCGCAGGTCT CAGAGTTCAC TGACCATATG A

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

見積依頼

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