pitpnm2 cDNA ORF clone, Xenopus tropicalis(tropical clawed frog)

The following pitpnm2 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the pitpnm2 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
OXa47673 XM_031896451.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47673 XM_031896458.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47673 XM_012957585.3
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47673 XM_012957572.3
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47674 XM_012957587.3
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47675 XM_012957588.3
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47676 XM_012957592.3
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47677 XM_031896469.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X8, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47678 XM_012957598.3
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X9, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47679 XM_031896482.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X10, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $727.30
$1039.00
OXa47680 XM_031896493.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X11, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa47681 XM_031896504.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X12, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa47682 XM_031896515.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X13, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OXa47683 XM_031896525.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X14, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $559.30
$799.00
OXa22940 NM_001142189.1
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa32729 XM_012957585.2
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa32729 XM_012957572.2
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa32730 XM_012957587.2
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa32731 XM_012957588.2
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa32732 XM_012957592.2
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00
OXa32733 XM_012957598.2
Latest version!
Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector 25 $797.30
$1139.00

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

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

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

  • Reference Sequences (Refseq)
    CloneID OXa47673
    Clone ID Related Accession (Same CDS sequence) XM_012957572.3 , XM_031896458.1 , XM_031896451.1 , XM_012957585.3
    Accession Version XM_012957572.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957572.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAAGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    RefSeq XP_012813026.1
    CDS648..4955
    Translation

    Target ORF information:

    RefSeq Version XM_012957572.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957572.3

    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
    3961
    4021
    4081
    4141
    4201
    4261
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAAGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    CloneID OXa47673
    Clone ID Related Accession (Same CDS sequence) XM_012957572.3 , XM_031896458.1 , XM_031896451.1 , XM_012957585.3
    Accession Version XM_031896458.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAAGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    RefSeq XP_031752318.1
    CDS816..5123
    Translation

    Target ORF information:

    RefSeq Version XM_031896458.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896458.1

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAAGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    CloneID OXa47673
    Clone ID Related Accession (Same CDS sequence) XM_012957572.3 , XM_031896458.1 , XM_031896451.1 , XM_012957585.3
    Accession Version XM_031896451.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAAGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    RefSeq XP_031752311.1
    CDS768..5075
    Translation

    Target ORF information:

    RefSeq Version XM_031896451.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896451.1

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAAGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    CloneID OXa47673
    Clone ID Related Accession (Same CDS sequence) XM_012957572.3 , XM_031896458.1 , XM_031896451.1 , XM_012957585.3
    Accession Version XM_012957585.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957585.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAAGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    RefSeq XP_012813039.1
    CDS561..4868
    Translation

    Target ORF information:

    RefSeq Version XM_012957585.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957585.3

    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
    3961
    4021
    4081
    4141
    4201
    4261
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAAGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    CloneID OXa47674
    Clone ID Related Accession (Same CDS sequence) XM_012957587.3
    Accession Version XM_012957587.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4305bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957587.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGATTTG
    TCAGACAATG AGGAAGTGTT GCCCAAAGAA ATCACAAAAT GGAGCTCTAA TGACCTGATG
    GACAAGATAG AAACAGCTGA GAATGACGAA CTACAAGACG ATTCATACCA CGAACCTGCA
    GAATACACAG TCAGTTCGAG TGTGGAGGGA TTAAGTATAA TGGAGACACA CACTACAGTA
    ATCCACGCAC AAGTCATTCC CAGAATACCT GCTGTTACCC TCACAAATGT CATTACAAGT
    CCCACAGATC TGGCAGCAGA TGAATCAGCA CAGGTCTCTG CGCAGCCATG TAAAATCCAT
    GTACTCATTT TGGTGCTTCA TGGAGGCAAT ATTCTAGACA CAGGCTGTGG AGATCAGAAT
    TCAAAGCAGG GTGATGTCAA CACCATCAAT TCAGTGTTTG ATACAGTAAT GAGGGTCCAT
    TACCCAGCTG CATTAGGGCA TATTGCAGTC AAGCTTGTTC CTTGCCCAGC TATCTGTGCT
    GAAGCCTTTT CACTAGTATC CAGCTTGAGC CCCTACAGTT ATGATGAAGG CTGCTTGTCC
    AATAGCCAGG ATCACATACC ACTGGCTGCC CTTCCACTTT TGGCCACCTC ATCCCCACAA
    TACCTTGAAG CAGTGGCCAC TGTGATTCAT CGAGCCAACC AGGTCTACGC TGAGTTCACC
    AAGTCACAGG AGGGAATGTC CTTCACTGGA CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA
    GGAATCCTAG GATTTGATGC CTTATGTTAC AGCAATCAGA CTGTGTCAGA GAGCCAGAAT
    AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG CAGGACACAG ACCTTCTATC TCCAGGTATT
    AGCGTTAACA ACAGCTACTG TTCCACAAGT TCAAATCTGG AAACTAGTCG CCACCTTAGT
    CGGAGCAATA TTGACATACC TCGGAGTAAT GGTGAAGACC CAAAGAGACA GCTACCACGA
    AAGCGGAGTG ATTCCTCAAC ATATGAACTG GACACTATCA AGCAGCACCA AGCATTTCTT
    TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT GACCCAGGAT CGCGAAGGTC AAGTAGCTCC
    ACAATGCTGG ATGGTGGCAG TATTGGGAAG TTTGACTTTG AGATCACTGA CTTCTTTCTG
    TTTGGGTCCC CACTCGGCCT GGTTCTGGCT CTCAGAAAAA CGGTGATTCC ACTATTGGAT
    GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA GTTTACAACC TCTTCCACCC AGCCGACCCA
    TCCGCCTCTC GAGTGGAACC CCTTCTGGAG AAGAAATTTC ATTTGCTGCC CCCTTTCAAT
    GTCCCTAGGT ATCAAAGGTT CCCATTGGGT GATGGAAACT CTGCCCTGTT GGTCGAGGCT
    ATACAGAACA ATCCCATCCT TCTCATGGAA GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA
    GATGGCGTCA TGGAAACCAG TATCCCTGTT CCTGTCCTAA GCTGCCAAGA CACTTCCAGT
    AAACATGCCA CTTGTGTTGA CTCGGATGTT GTTCAATTTC ATGGTGCAGT CTTCGTGGAA
    AATGCCTCCC CTTCTTCCCC TATAACAGCC CCCCACTTCA GGGGATACCG AAGAGCAAGT
    GAAATCAGCA TTGCAAGTCA GGTCTCTGGA ATGGCAGACA GTTACACGGC CTCAAACATA
    GCCAACAAAA CAAAAAATGA TCTTAAAAAT TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT
    GCACTCCCCT ACCAATCCCA AACAATACCG AGTACCCCAC CAAACCATAG ACAGTACCAT
    TCTGAGCAGA GTAAAATAGG AAGAACAATA GAGGTGGGGG ATCGGAGGCA CAAGATGAAC
    CCAGGCATCC AACCCTCGGA CATCTCCAGA GTTGCAGCAA AGTGGTGGGG CACAAAGCGA
    ATTGACTATG CTCTTTACTG TCCGGATGCC CTCACAGCAT TCCCCACAGT TGCCCTCCCT
    CATCTTTTCC ATGCCAGTTA CTGGGAGTCC ACAGATGTTG TCTCTTTCCT CTTAAGGCAG
    GTCATGAGAC ATGAAAATTC AAGCATTCTA GATTTAGTTG GAAAAGAGGT TTCTGAGTTC
    AGTCCTTCAA AGCCGAGGGA GAAATGGCTG CGGAAAAGAA CGCATGTAAA ACTAAGGAAT
    GTTGCTGCAA ACCACAGAAT TAATGATGCT GTTGCCAATG AAGATGGGCC TCAGACAATG
    ACAGGAAGAT TCATGTACGG CCCTCTTGAC ATGGTCACAC TGACTGGGGA AAAGGTTGAC
    ATTCACATTA TGACCCAGCC TCCCGCTGGA GAGTGGGTTT ACTTTGACAC TGAAATAAGT
    AATAGCAGTG GCAGAATTTC CTACGTCATT CCTGAAAACA AAAGGCTTGG GATTGGCGTT
    TACCCTGTGA AGATGGTTGT CAGGGGGGAC CACACATATG CTGATAGCTA TCTCACAGTT
    CTGCCGAAAG GGGCGGAATT TGTAGTGTTC AGCATTGATG GATCATTTGC GGCAAGTGTT
    TCTATTATGG GCAGTGATCC CAAAGTCCGA GCAGGAGCAG TCGATGTAGT GAGGCACTGG
    CAGGACCTTG GCTACCTCAT TATCTATGTC ACAGGTAGAC CTGACATGCA GAAGCAGAGG
    GTAGTGGCAT GGCTTGCACA GCACAACTTT CCACATGGCA TTGTGTCTTT TTGTGATGGA
    CTGGTCCATG ATCCTCTGCG ACATAAAGCA AACTTTTTGA AAAGCCTAAT CCACGATGTA
    CACATGAAGG TGCACGCAGC ATATGGTTCC ACTAAGGATA TCACAGTATA CAGCTCTCTT
    GGTTTGTCAC CAATGCAGAT TTATATAGTT GGTCGGCCCA CCAAGAAGTT ACAGCATCAG
    TGTCAGTTTA TCACAGAGGG CTATGCTGCT CACCTTGCTC AACTGGAATA TAATCACCGT
    TCTCGACCTG CTAAGAATAC CAGCAGGATG GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC
    GGCCAATCAG ATTTCCTTCG AAAGAGGAAC CACTTGCTTC GTACTATCTC CTCACAACCA
    ACGGGGAGCA GCAACCACAA ACCAGAGCGG ACACAGAGCC AGTCAGAGAG TGAGAGGGAC
    CGGGAGAAGG AACGTAGCCA AAGAAGCATG AGCATTGCTG CAGGGTGTTG GGGAAGGAGT
    GCAGCCACCA CTAAGCAGGA ATCTGGCGTT TTAAGTCAGA AGTAG

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

    RefSeq XP_012813041.1
    CDS648..4952
    Translation

    Target ORF information:

    RefSeq Version XM_012957587.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957587.3

    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
    3961
    4021
    4081
    4141
    4201
    4261
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGATTTG
    TCAGACAATG AGGAAGTGTT GCCCAAAGAA ATCACAAAAT GGAGCTCTAA TGACCTGATG
    GACAAGATAG AAACAGCTGA GAATGACGAA CTACAAGACG ATTCATACCA CGAACCTGCA
    GAATACACAG TCAGTTCGAG TGTGGAGGGA TTAAGTATAA TGGAGACACA CACTACAGTA
    ATCCACGCAC AAGTCATTCC CAGAATACCT GCTGTTACCC TCACAAATGT CATTACAAGT
    CCCACAGATC TGGCAGCAGA TGAATCAGCA CAGGTCTCTG CGCAGCCATG TAAAATCCAT
    GTACTCATTT TGGTGCTTCA TGGAGGCAAT ATTCTAGACA CAGGCTGTGG AGATCAGAAT
    TCAAAGCAGG GTGATGTCAA CACCATCAAT TCAGTGTTTG ATACAGTAAT GAGGGTCCAT
    TACCCAGCTG CATTAGGGCA TATTGCAGTC AAGCTTGTTC CTTGCCCAGC TATCTGTGCT
    GAAGCCTTTT CACTAGTATC CAGCTTGAGC CCCTACAGTT ATGATGAAGG CTGCTTGTCC
    AATAGCCAGG ATCACATACC ACTGGCTGCC CTTCCACTTT TGGCCACCTC ATCCCCACAA
    TACCTTGAAG CAGTGGCCAC TGTGATTCAT CGAGCCAACC AGGTCTACGC TGAGTTCACC
    AAGTCACAGG AGGGAATGTC CTTCACTGGA CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA
    GGAATCCTAG GATTTGATGC CTTATGTTAC AGCAATCAGA CTGTGTCAGA GAGCCAGAAT
    AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG CAGGACACAG ACCTTCTATC TCCAGGTATT
    AGCGTTAACA ACAGCTACTG TTCCACAAGT TCAAATCTGG AAACTAGTCG CCACCTTAGT
    CGGAGCAATA TTGACATACC TCGGAGTAAT GGTGAAGACC CAAAGAGACA GCTACCACGA
    AAGCGGAGTG ATTCCTCAAC ATATGAACTG GACACTATCA AGCAGCACCA AGCATTTCTT
    TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT GACCCAGGAT CGCGAAGGTC AAGTAGCTCC
    ACAATGCTGG ATGGTGGCAG TATTGGGAAG TTTGACTTTG AGATCACTGA CTTCTTTCTG
    TTTGGGTCCC CACTCGGCCT GGTTCTGGCT CTCAGAAAAA CGGTGATTCC ACTATTGGAT
    GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA GTTTACAACC TCTTCCACCC AGCCGACCCA
    TCCGCCTCTC GAGTGGAACC CCTTCTGGAG AAGAAATTTC ATTTGCTGCC CCCTTTCAAT
    GTCCCTAGGT ATCAAAGGTT CCCATTGGGT GATGGAAACT CTGCCCTGTT GGTCGAGGCT
    ATACAGAACA ATCCCATCCT TCTCATGGAA GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA
    GATGGCGTCA TGGAAACCAG TATCCCTGTT CCTGTCCTAA GCTGCCAAGA CACTTCCAGT
    AAACATGCCA CTTGTGTTGA CTCGGATGTT GTTCAATTTC ATGGTGCAGT CTTCGTGGAA
    AATGCCTCCC CTTCTTCCCC TATAACAGCC CCCCACTTCA GGGGATACCG AAGAGCAAGT
    GAAATCAGCA TTGCAAGTCA GGTCTCTGGA ATGGCAGACA GTTACACGGC CTCAAACATA
    GCCAACAAAA CAAAAAATGA TCTTAAAAAT TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT
    GCACTCCCCT ACCAATCCCA AACAATACCG AGTACCCCAC CAAACCATAG ACAGTACCAT
    TCTGAGCAGA GTAAAATAGG AAGAACAATA GAGGTGGGGG ATCGGAGGCA CAAGATGAAC
    CCAGGCATCC AACCCTCGGA CATCTCCAGA GTTGCAGCAA AGTGGTGGGG CACAAAGCGA
    ATTGACTATG CTCTTTACTG TCCGGATGCC CTCACAGCAT TCCCCACAGT TGCCCTCCCT
    CATCTTTTCC ATGCCAGTTA CTGGGAGTCC ACAGATGTTG TCTCTTTCCT CTTAAGGCAG
    GTCATGAGAC ATGAAAATTC AAGCATTCTA GATTTAGTTG GAAAAGAGGT TTCTGAGTTC
    AGTCCTTCAA AGCCGAGGGA GAAATGGCTG CGGAAAAGAA CGCATGTAAA ACTAAGGAAT
    GTTGCTGCAA ACCACAGAAT TAATGATGCT GTTGCCAATG AAGATGGGCC TCAGACAATG
    ACAGGAAGAT TCATGTACGG CCCTCTTGAC ATGGTCACAC TGACTGGGGA AAAGGTTGAC
    ATTCACATTA TGACCCAGCC TCCCGCTGGA GAGTGGGTTT ACTTTGACAC TGAAATAAGT
    AATAGCAGTG GCAGAATTTC CTACGTCATT CCTGAAAACA AAAGGCTTGG GATTGGCGTT
    TACCCTGTGA AGATGGTTGT CAGGGGGGAC CACACATATG CTGATAGCTA TCTCACAGTT
    CTGCCGAAAG GGGCGGAATT TGTAGTGTTC AGCATTGATG GATCATTTGC GGCAAGTGTT
    TCTATTATGG GCAGTGATCC CAAAGTCCGA GCAGGAGCAG TCGATGTAGT GAGGCACTGG
    CAGGACCTTG GCTACCTCAT TATCTATGTC ACAGGTAGAC CTGACATGCA GAAGCAGAGG
    GTAGTGGCAT GGCTTGCACA GCACAACTTT CCACATGGCA TTGTGTCTTT TTGTGATGGA
    CTGGTCCATG ATCCTCTGCG ACATAAAGCA AACTTTTTGA AAAGCCTAAT CCACGATGTA
    CACATGAAGG TGCACGCAGC ATATGGTTCC ACTAAGGATA TCACAGTATA CAGCTCTCTT
    GGTTTGTCAC CAATGCAGAT TTATATAGTT GGTCGGCCCA CCAAGAAGTT ACAGCATCAG
    TGTCAGTTTA TCACAGAGGG CTATGCTGCT CACCTTGCTC AACTGGAATA TAATCACCGT
    TCTCGACCTG CTAAGAATAC CAGCAGGATG GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC
    GGCCAATCAG ATTTCCTTCG AAAGAGGAAC CACTTGCTTC GTACTATCTC CTCACAACCA
    ACGGGGAGCA GCAACCACAA ACCAGAGCGG ACACAGAGCC AGTCAGAGAG TGAGAGGGAC
    CGGGAGAAGG AACGTAGCCA AAGAAGCATG AGCATTGCTG CAGGGTGTTG GGGAAGGAGT
    GCAGCCACCA CTAAGCAGGA ATCTGGCGTT TTAAGTCAGA AGTAG

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

    CloneID OXa47675
    Clone ID Related Accession (Same CDS sequence) XM_012957588.3
    Accession Version XM_012957588.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957588.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    ACGGATGTTG TTCAATTTCA TGGTGCAGTC TTCGTGGAAA ATGCCTCCCC TTCTTCCCCT
    ATAACAGCCC CCCACTTCAG GGGATACCGA AGAGCAAGTG AAATCAGCAT TGCAAGTCAG
    GTCTCTGGAA TGGCAGACAG TTACACGGCC TCAAACATAG CCAACAAAAC AAAAAATGAT
    CTTAAAAATT CCAGAAAGTT AAGTCTCCTA TCCCAGCTTG CACTCCCCTA CCAATCCCAA
    ACAATACCGA GTACCCCACC AAACCATAGA CAGTACCATT CTGAGCAGAG TAAAATAGGA
    AGAACAATAG AGGTGGGGGA TCGGAGGCAC AAGATGAACC CAGGCATCCA ACCCTCGGAC
    ATCTCCAGAG TTGCAGCAAA GTGGTGGGGC ACAAAGCGAA TTGACTATGC TCTTTACTGT
    CCGGATGCCC TCACAGCATT CCCCACAGTT GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC
    TGGGAGTCCA CAGATGTTGT CTCTTTCCTC TTAAGGCAGG TCATGAGACA TGAAAATTCA
    AGCATTCTAG ATTTAGTTGG AAAAGAGGTT TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG
    AAATGGCTGC GGAAAAGAAC GCATGTAAAA CTAAGGAATG TTGCTGCAAA CCACAGAATT
    AATGATGCTG TTGCCAATGA AGATGGGCCT CAGACAATGA CAGGAAGATT CATGTACGGC
    CCTCTTGACA TGGTCACACT GACTGGGGAA AAGGTTGACA TTCACATTAT GACCCAGCCT
    CCCGCTGGAG AGTGGGTTTA CTTTGACACT GAAATAAGTA ATAGCAGTGG CAGAATTTCC
    TACGTCATTC CTGAAAACAA AAGGCTTGGG ATTGGCGTTT ACCCTGTGAA GATGGTTGTC
    AGGGGGGACC ACACATATGC TGATAGCTAT CTCACAGTTC TGCCGAAAGG GGCGGAATTT
    GTAGTGTTCA GCATTGATGG ATCATTTGCG GCAAGTGTTT CTATTATGGG CAGTGATCCC
    AAAGTCCGAG CAGGAGCAGT CGATGTAGTG AGGCACTGGC AGGACCTTGG CTACCTCATT
    ATCTATGTCA CAGGTAGACC TGACATGCAG AAGCAGAGGG TAGTGGCATG GCTTGCACAG
    CACAACTTTC CACATGGCAT TGTGTCTTTT TGTGATGGAC TGGTCCATGA TCCTCTGCGA
    CATAAAGCAA ACTTTTTGAA AAGCCTAATC CACGATGTAC ACATGAAGGT GCACGCAGCA
    TATGGTTCCA CTAAGGATAT CACAGTATAC AGCTCTCTTG GTTTGTCACC AATGCAGATT
    TATATAGTTG GTCGGCCCAC CAAGAAGTTA CAGCATCAGT GTCAGTTTAT CACAGAGGGC
    TATGCTGCTC ACCTTGCTCA ACTGGAATAT AATCACCGTT CTCGACCTGC TAAGAATACC
    AGCAGGATGG CGCTAAGAAA AGGGAGCTTC TGTCTTCCCG GCCAATCAGA TTTCCTTCGA
    AAGAGGAACC ACTTGCTTCG TACTATCTCC TCACAACCAA CGGGGAGCAG CAACCACAAA
    CCAGAGCGGA CACAGAGCCA GTCAGAGAGT GAGAGGGACC GGGAGAAGGA ACGTAGCCAA
    AGAAGCATGA GCATTGCTGC AGGGTGTTGG GGAAGGAGTG CAGCCACCAC TAAGCAGGAA
    TCTGGCGTTT TAAGTCAGAA GTAG

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

    RefSeq XP_012813042.1
    CDS648..4931
    Translation

    Target ORF information:

    RefSeq Version XM_012957588.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957588.3

    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
    3961
    4021
    4081
    4141
    4201
    4261
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    ACGGATGTTG TTCAATTTCA TGGTGCAGTC TTCGTGGAAA ATGCCTCCCC TTCTTCCCCT
    ATAACAGCCC CCCACTTCAG GGGATACCGA AGAGCAAGTG AAATCAGCAT TGCAAGTCAG
    GTCTCTGGAA TGGCAGACAG TTACACGGCC TCAAACATAG CCAACAAAAC AAAAAATGAT
    CTTAAAAATT CCAGAAAGTT AAGTCTCCTA TCCCAGCTTG CACTCCCCTA CCAATCCCAA
    ACAATACCGA GTACCCCACC AAACCATAGA CAGTACCATT CTGAGCAGAG TAAAATAGGA
    AGAACAATAG AGGTGGGGGA TCGGAGGCAC AAGATGAACC CAGGCATCCA ACCCTCGGAC
    ATCTCCAGAG TTGCAGCAAA GTGGTGGGGC ACAAAGCGAA TTGACTATGC TCTTTACTGT
    CCGGATGCCC TCACAGCATT CCCCACAGTT GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC
    TGGGAGTCCA CAGATGTTGT CTCTTTCCTC TTAAGGCAGG TCATGAGACA TGAAAATTCA
    AGCATTCTAG ATTTAGTTGG AAAAGAGGTT TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG
    AAATGGCTGC GGAAAAGAAC GCATGTAAAA CTAAGGAATG TTGCTGCAAA CCACAGAATT
    AATGATGCTG TTGCCAATGA AGATGGGCCT CAGACAATGA CAGGAAGATT CATGTACGGC
    CCTCTTGACA TGGTCACACT GACTGGGGAA AAGGTTGACA TTCACATTAT GACCCAGCCT
    CCCGCTGGAG AGTGGGTTTA CTTTGACACT GAAATAAGTA ATAGCAGTGG CAGAATTTCC
    TACGTCATTC CTGAAAACAA AAGGCTTGGG ATTGGCGTTT ACCCTGTGAA GATGGTTGTC
    AGGGGGGACC ACACATATGC TGATAGCTAT CTCACAGTTC TGCCGAAAGG GGCGGAATTT
    GTAGTGTTCA GCATTGATGG ATCATTTGCG GCAAGTGTTT CTATTATGGG CAGTGATCCC
    AAAGTCCGAG CAGGAGCAGT CGATGTAGTG AGGCACTGGC AGGACCTTGG CTACCTCATT
    ATCTATGTCA CAGGTAGACC TGACATGCAG AAGCAGAGGG TAGTGGCATG GCTTGCACAG
    CACAACTTTC CACATGGCAT TGTGTCTTTT TGTGATGGAC TGGTCCATGA TCCTCTGCGA
    CATAAAGCAA ACTTTTTGAA AAGCCTAATC CACGATGTAC ACATGAAGGT GCACGCAGCA
    TATGGTTCCA CTAAGGATAT CACAGTATAC AGCTCTCTTG GTTTGTCACC AATGCAGATT
    TATATAGTTG GTCGGCCCAC CAAGAAGTTA CAGCATCAGT GTCAGTTTAT CACAGAGGGC
    TATGCTGCTC ACCTTGCTCA ACTGGAATAT AATCACCGTT CTCGACCTGC TAAGAATACC
    AGCAGGATGG CGCTAAGAAA AGGGAGCTTC TGTCTTCCCG GCCAATCAGA TTTCCTTCGA
    AAGAGGAACC ACTTGCTTCG TACTATCTCC TCACAACCAA CGGGGAGCAG CAACCACAAA
    CCAGAGCGGA CACAGAGCCA GTCAGAGAGT GAGAGGGACC GGGAGAAGGA ACGTAGCCAA
    AGAAGCATGA GCATTGCTGC AGGGTGTTGG GGAAGGAGTG CAGCCACCAC TAAGCAGGAA
    TCTGGCGTTT TAAGTCAGAA GTAG

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

    CloneID OXa47676
    Clone ID Related Accession (Same CDS sequence) XM_012957592.3
    Accession Version XM_012957592.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4215bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957592.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGTCGAGGCT ATACAGAACA ATCCCATCCT TCTCATGGAA
    GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA GATGGCGTCA TGGAAACCAG TATCCCTGTT
    CCTGTCCTAA GCTGCCAAGA CACTTCCAGT AAACATGCCA CTTGTGTTGA CTCGGATGTT
    GTTCAATTTC ATGGTGCAGT CTTCGTGGAA AATGCCTCCC CTTCTTCCCC TATAACAGCC
    CCCCACTTCA GGGGATACCG AAGAGCAAGT GAAATCAGCA TTGCAAGTCA GGTCTCTGGA
    ATGGCAGACA GTTACACGGC CTCAAACATA GCCAACAAAA CAAAAAATGA TCTTAAAAAT
    TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT GCACTCCCCT ACCAATCCCA AACAATACCG
    AGTACCCCAC CAAACCATAG ACAGTACCAT TCTGAGCAGA GTAAAATAGG AAGAACAATA
    GAGGTGGGGG ATCGGAGGCA CAAGATGAAC CCAGGCATCC AACCCTCGGA CATCTCCAGA
    GTTGCAGCAA AGTGGTGGGG CACAAAGCGA ATTGACTATG CTCTTTACTG TCCGGATGCC
    CTCACAGCAT TCCCCACAGT TGCCCTCCCT CATCTTTTCC ATGCCAGTTA CTGGGAGTCC
    ACAGATGTTG TCTCTTTCCT CTTAAGGCAG GTCATGAGAC ATGAAAATTC AAGCATTCTA
    GATTTAGTTG GAAAAGAGGT TTCTGAGTTC AGTCCTTCAA AGCCGAGGGA GAAATGGCTG
    CGGAAAAGAA CGCATGTAAA ACTAAGGAAT GTTGCTGCAA ACCACAGAAT TAATGATGCT
    GTTGCCAATG AAGATGGGCC TCAGACAATG ACAGGAAGAT TCATGTACGG CCCTCTTGAC
    ATGGTCACAC TGACTGGGGA AAAGGTTGAC ATTCACATTA TGACCCAGCC TCCCGCTGGA
    GAGTGGGTTT ACTTTGACAC TGAAATAAGT AATAGCAGTG GCAGAATTTC CTACGTCATT
    CCTGAAAACA AAAGGCTTGG GATTGGCGTT TACCCTGTGA AGATGGTTGT CAGGGGGGAC
    CACACATATG CTGATAGCTA TCTCACAGTT CTGCCGAAAG GGGCGGAATT TGTAGTGTTC
    AGCATTGATG GATCATTTGC GGCAAGTGTT TCTATTATGG GCAGTGATCC CAAAGTCCGA
    GCAGGAGCAG TCGATGTAGT GAGGCACTGG CAGGACCTTG GCTACCTCAT TATCTATGTC
    ACAGGTAGAC CTGACATGCA GAAGCAGAGG GTAGTGGCAT GGCTTGCACA GCACAACTTT
    CCACATGGCA TTGTGTCTTT TTGTGATGGA CTGGTCCATG ATCCTCTGCG ACATAAAGCA
    AACTTTTTGA AAAGCCTAAT CCACGATGTA CACATGAAGG TGCACGCAGC ATATGGTTCC
    ACTAAGGATA TCACAGTATA CAGCTCTCTT GGTTTGTCAC CAATGCAGAT TTATATAGTT
    GGTCGGCCCA CCAAGAAGTT ACAGCATCAG TGTCAGTTTA TCACAGAGGG CTATGCTGCT
    CACCTTGCTC AACTGGAATA TAATCACCGT TCTCGACCTG CTAAGAATAC CAGCAGGATG
    GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC GGCCAATCAG ATTTCCTTCG AAAGAGGAAC
    CACTTGCTTC GTACTATCTC CTCACAACCA ACGGGGAGCA GCAACCACAA ACCAGAGCGG
    ACACAGAGCC AGTCAGAGAG TGAGAGGGAC CGGGAGAAGG AACGTAGCCA AAGAAGCATG
    AGCATTGCTG CAGGGTGTTG GGGAAGGAGT GCAGCCACCA CTAAGCAGGA ATCTGGCGTT
    TTAAGTCAGA AGTAG

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

    RefSeq XP_012813046.1
    CDS647..4861
    Translation

    Target ORF information:

    RefSeq Version XM_012957592.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957592.3

    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
    3961
    4021
    4081
    4141
    4201
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGTCGAGGCT ATACAGAACA ATCCCATCCT TCTCATGGAA
    GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA GATGGCGTCA TGGAAACCAG TATCCCTGTT
    CCTGTCCTAA GCTGCCAAGA CACTTCCAGT AAACATGCCA CTTGTGTTGA CTCGGATGTT
    GTTCAATTTC ATGGTGCAGT CTTCGTGGAA AATGCCTCCC CTTCTTCCCC TATAACAGCC
    CCCCACTTCA GGGGATACCG AAGAGCAAGT GAAATCAGCA TTGCAAGTCA GGTCTCTGGA
    ATGGCAGACA GTTACACGGC CTCAAACATA GCCAACAAAA CAAAAAATGA TCTTAAAAAT
    TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT GCACTCCCCT ACCAATCCCA AACAATACCG
    AGTACCCCAC CAAACCATAG ACAGTACCAT TCTGAGCAGA GTAAAATAGG AAGAACAATA
    GAGGTGGGGG ATCGGAGGCA CAAGATGAAC CCAGGCATCC AACCCTCGGA CATCTCCAGA
    GTTGCAGCAA AGTGGTGGGG CACAAAGCGA ATTGACTATG CTCTTTACTG TCCGGATGCC
    CTCACAGCAT TCCCCACAGT TGCCCTCCCT CATCTTTTCC ATGCCAGTTA CTGGGAGTCC
    ACAGATGTTG TCTCTTTCCT CTTAAGGCAG GTCATGAGAC ATGAAAATTC AAGCATTCTA
    GATTTAGTTG GAAAAGAGGT TTCTGAGTTC AGTCCTTCAA AGCCGAGGGA GAAATGGCTG
    CGGAAAAGAA CGCATGTAAA ACTAAGGAAT GTTGCTGCAA ACCACAGAAT TAATGATGCT
    GTTGCCAATG AAGATGGGCC TCAGACAATG ACAGGAAGAT TCATGTACGG CCCTCTTGAC
    ATGGTCACAC TGACTGGGGA AAAGGTTGAC ATTCACATTA TGACCCAGCC TCCCGCTGGA
    GAGTGGGTTT ACTTTGACAC TGAAATAAGT AATAGCAGTG GCAGAATTTC CTACGTCATT
    CCTGAAAACA AAAGGCTTGG GATTGGCGTT TACCCTGTGA AGATGGTTGT CAGGGGGGAC
    CACACATATG CTGATAGCTA TCTCACAGTT CTGCCGAAAG GGGCGGAATT TGTAGTGTTC
    AGCATTGATG GATCATTTGC GGCAAGTGTT TCTATTATGG GCAGTGATCC CAAAGTCCGA
    GCAGGAGCAG TCGATGTAGT GAGGCACTGG CAGGACCTTG GCTACCTCAT TATCTATGTC
    ACAGGTAGAC CTGACATGCA GAAGCAGAGG GTAGTGGCAT GGCTTGCACA GCACAACTTT
    CCACATGGCA TTGTGTCTTT TTGTGATGGA CTGGTCCATG ATCCTCTGCG ACATAAAGCA
    AACTTTTTGA AAAGCCTAAT CCACGATGTA CACATGAAGG TGCACGCAGC ATATGGTTCC
    ACTAAGGATA TCACAGTATA CAGCTCTCTT GGTTTGTCAC CAATGCAGAT TTATATAGTT
    GGTCGGCCCA CCAAGAAGTT ACAGCATCAG TGTCAGTTTA TCACAGAGGG CTATGCTGCT
    CACCTTGCTC AACTGGAATA TAATCACCGT TCTCGACCTG CTAAGAATAC CAGCAGGATG
    GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC GGCCAATCAG ATTTCCTTCG AAAGAGGAAC
    CACTTGCTTC GTACTATCTC CTCACAACCA ACGGGGAGCA GCAACCACAA ACCAGAGCGG
    ACACAGAGCC AGTCAGAGAG TGAGAGGGAC CGGGAGAAGG AACGTAGCCA AAGAAGCATG
    AGCATTGCTG CAGGGTGTTG GGGAAGGAGT GCAGCCACCA CTAAGCAGGA ATCTGGCGTT
    TTAAGTCAGA AGTAG

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

    CloneID OXa47677
    Clone ID Related Accession (Same CDS sequence) XM_031896469.1
    Accession Version XM_031896469.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4158bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGCGGAT
    GTTGTTCAAT TTCATGGTGC AGTCTTCGTG GAAAATGCCT CCCCTTCTTC CCCTATAACA
    GCCCCCCACT TCAGGGGATA CCGAAGAGCA AGTGAAATCA GCATTGCAAG TCAGGTCTCT
    GGAATGGCAG ACAGTTACAC GGCCTCAAAC ATAGCCAACA AAACAAAAAA TGATCTTAAA
    AATTCCAGAA AGTTAAGTCT CCTATCCCAG CTTGCACTCC CCTACCAATC CCAAACAATA
    CCGAGTACCC CACCAAACCA TAGACAGTAC CATTCTGAGC AGAGTAAAAT AGGAAGAACA
    ATAGAGGTGG GGGATCGGAG GCACAAGATG AACCCAGGCA TCCAACCCTC GGACATCTCC
    AGAGTTGCAG CAAAGTGGTG GGGCACAAAG CGAATTGACT ATGCTCTTTA CTGTCCGGAT
    GCCCTCACAG CATTCCCCAC AGTTGCCCTC CCTCATCTTT TCCATGCCAG TTACTGGGAG
    TCCACAGATG TTGTCTCTTT CCTCTTAAGG CAGGTCATGA GACATGAAAA TTCAAGCATT
    CTAGATTTAG TTGGAAAAGA GGTTTCTGAG TTCAGTCCTT CAAAGCCGAG GGAGAAATGG
    CTGCGGAAAA GAACGCATGT AAAACTAAGG AATGTTGCTG CAAACCACAG AATTAATGAT
    GCTGTTGCCA ATGAAGATGG GCCTCAGACA ATGACAGGAA GATTCATGTA CGGCCCTCTT
    GACATGGTCA CACTGACTGG GGAAAAGGTT GACATTCACA TTATGACCCA GCCTCCCGCT
    GGAGAGTGGG TTTACTTTGA CACTGAAATA AGTAATAGCA GTGGCAGAAT TTCCTACGTC
    ATTCCTGAAA ACAAAAGGCT TGGGATTGGC GTTTACCCTG TGAAGATGGT TGTCAGGGGG
    GACCACACAT ATGCTGATAG CTATCTCACA GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG
    TTCAGCATTG ATGGATCATT TGCGGCAAGT GTTTCTATTA TGGGCAGTGA TCCCAAAGTC
    CGAGCAGGAG CAGTCGATGT AGTGAGGCAC TGGCAGGACC TTGGCTACCT CATTATCTAT
    GTCACAGGTA GACCTGACAT GCAGAAGCAG AGGGTAGTGG CATGGCTTGC ACAGCACAAC
    TTTCCACATG GCATTGTGTC TTTTTGTGAT GGACTGGTCC ATGATCCTCT GCGACATAAA
    GCAAACTTTT TGAAAAGCCT AATCCACGAT GTACACATGA AGGTGCACGC AGCATATGGT
    TCCACTAAGG ATATCACAGT ATACAGCTCT CTTGGTTTGT CACCAATGCA GATTTATATA
    GTTGGTCGGC CCACCAAGAA GTTACAGCAT CAGTGTCAGT TTATCACAGA GGGCTATGCT
    GCTCACCTTG CTCAACTGGA ATATAATCAC CGTTCTCGAC CTGCTAAGAA TACCAGCAGG
    ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT CCCGGCCAAT CAGATTTCCT TCGAAAGAGG
    AACCACTTGC TTCGTACTAT CTCCTCACAA CCAACGGGGA GCAGCAACCA CAAACCAGAG
    CGGACACAGA GCCAGTCAGA GAGTGAGAGG GACCGGGAGA AGGAACGTAG CCAAAGAAGC
    ATGAGCATTG CTGCAGGGTG TTGGGGAAGG AGTGCAGCCA CCACTAAGCA GGAATCTGGC
    GTTTTAAGTC AGAAGTAG

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

    RefSeq XP_031752329.1
    CDS649..4806
    Translation

    Target ORF information:

    RefSeq Version XM_031896469.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X8, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896469.1

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGCGGAT
    GTTGTTCAAT TTCATGGTGC AGTCTTCGTG GAAAATGCCT CCCCTTCTTC CCCTATAACA
    GCCCCCCACT TCAGGGGATA CCGAAGAGCA AGTGAAATCA GCATTGCAAG TCAGGTCTCT
    GGAATGGCAG ACAGTTACAC GGCCTCAAAC ATAGCCAACA AAACAAAAAA TGATCTTAAA
    AATTCCAGAA AGTTAAGTCT CCTATCCCAG CTTGCACTCC CCTACCAATC CCAAACAATA
    CCGAGTACCC CACCAAACCA TAGACAGTAC CATTCTGAGC AGAGTAAAAT AGGAAGAACA
    ATAGAGGTGG GGGATCGGAG GCACAAGATG AACCCAGGCA TCCAACCCTC GGACATCTCC
    AGAGTTGCAG CAAAGTGGTG GGGCACAAAG CGAATTGACT ATGCTCTTTA CTGTCCGGAT
    GCCCTCACAG CATTCCCCAC AGTTGCCCTC CCTCATCTTT TCCATGCCAG TTACTGGGAG
    TCCACAGATG TTGTCTCTTT CCTCTTAAGG CAGGTCATGA GACATGAAAA TTCAAGCATT
    CTAGATTTAG TTGGAAAAGA GGTTTCTGAG TTCAGTCCTT CAAAGCCGAG GGAGAAATGG
    CTGCGGAAAA GAACGCATGT AAAACTAAGG AATGTTGCTG CAAACCACAG AATTAATGAT
    GCTGTTGCCA ATGAAGATGG GCCTCAGACA ATGACAGGAA GATTCATGTA CGGCCCTCTT
    GACATGGTCA CACTGACTGG GGAAAAGGTT GACATTCACA TTATGACCCA GCCTCCCGCT
    GGAGAGTGGG TTTACTTTGA CACTGAAATA AGTAATAGCA GTGGCAGAAT TTCCTACGTC
    ATTCCTGAAA ACAAAAGGCT TGGGATTGGC GTTTACCCTG TGAAGATGGT TGTCAGGGGG
    GACCACACAT ATGCTGATAG CTATCTCACA GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG
    TTCAGCATTG ATGGATCATT TGCGGCAAGT GTTTCTATTA TGGGCAGTGA TCCCAAAGTC
    CGAGCAGGAG CAGTCGATGT AGTGAGGCAC TGGCAGGACC TTGGCTACCT CATTATCTAT
    GTCACAGGTA GACCTGACAT GCAGAAGCAG AGGGTAGTGG CATGGCTTGC ACAGCACAAC
    TTTCCACATG GCATTGTGTC TTTTTGTGAT GGACTGGTCC ATGATCCTCT GCGACATAAA
    GCAAACTTTT TGAAAAGCCT AATCCACGAT GTACACATGA AGGTGCACGC AGCATATGGT
    TCCACTAAGG ATATCACAGT ATACAGCTCT CTTGGTTTGT CACCAATGCA GATTTATATA
    GTTGGTCGGC CCACCAAGAA GTTACAGCAT CAGTGTCAGT TTATCACAGA GGGCTATGCT
    GCTCACCTTG CTCAACTGGA ATATAATCAC CGTTCTCGAC CTGCTAAGAA TACCAGCAGG
    ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT CCCGGCCAAT CAGATTTCCT TCGAAAGAGG
    AACCACTTGC TTCGTACTAT CTCCTCACAA CCAACGGGGA GCAGCAACCA CAAACCAGAG
    CGGACACAGA GCCAGTCAGA GAGTGAGAGG GACCGGGAGA AGGAACGTAG CCAAAGAAGC
    ATGAGCATTG CTGCAGGGTG TTGGGGAAGG AGTGCAGCCA CCACTAAGCA GGAATCTGGC
    GTTTTAAGTC AGAAGTAG

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

    CloneID OXa47678
    Clone ID Related Accession (Same CDS sequence) XM_012957598.3
    Accession Version XM_012957598.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4104bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Dec 18, 2019 this sequence version replaced XM_012957598.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA TTGCAGCAAA GTGGTGGGGC ACAAAGCGAA TTGACTATGC TCTTTACTGT
    CCGGATGCCC TCACAGCATT CCCCACAGTT GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC
    TGGGAGTCCA CAGATGTTGT CTCTTTCCTC TTAAGGCAGG TCATGAGACA TGAAAATTCA
    AGCATTCTAG ATTTAGTTGG AAAAGAGGTT TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG
    AAATGGCTGC GGAAAAGAAC GCATGTAAAA CTAAGGAATG TTGCTGCAAA CCACAGAATT
    AATGATGCTG TTGCCAATGA AGATGGGCCT CAGACAATGA CAGGAAGATT CATGTACGGC
    CCTCTTGACA TGGTCACACT GACTGGGGAA AAGGTTGACA TTCACATTAT GACCCAGCCT
    CCCGCTGGAG AGTGGGTTTA CTTTGACACT GAAATAAGTA ATAGCAGTGG CAGAATTTCC
    TACGTCATTC CTGAAAACAA AAGGCTTGGG ATTGGCGTTT ACCCTGTGAA GATGGTTGTC
    AGGGGGGACC ACACATATGC TGATAGCTAT CTCACAGTTC TGCCGAAAGG GGCGGAATTT
    GTAGTGTTCA GCATTGATGG ATCATTTGCG GCAAGTGTTT CTATTATGGG CAGTGATCCC
    AAAGTCCGAG CAGGAGCAGT CGATGTAGTG AGGCACTGGC AGGACCTTGG CTACCTCATT
    ATCTATGTCA CAGGTAGACC TGACATGCAG AAGCAGAGGG TAGTGGCATG GCTTGCACAG
    CACAACTTTC CACATGGCAT TGTGTCTTTT TGTGATGGAC TGGTCCATGA TCCTCTGCGA
    CATAAAGCAA ACTTTTTGAA AAGCCTAATC CACGATGTAC ACATGAAGGT GCACGCAGCA
    TATGGTTCCA CTAAGGATAT CACAGTATAC AGCTCTCTTG GTTTGTCACC AATGCAGATT
    TATATAGTTG GTCGGCCCAC CAAGAAGTTA CAGCATCAGT GTCAGTTTAT CACAGAGGGC
    TATGCTGCTC ACCTTGCTCA ACTGGAATAT AATCACCGTT CTCGACCTGC TAAGAATACC
    AGCAGGATGG CGCTAAGAAA AGGGAGCTTC TGTCTTCCCG GCCAATCAGA TTTCCTTCGA
    AAGAGGAACC ACTTGCTTCG TACTATCTCC TCACAACCAA CGGGGAGCAG CAACCACAAA
    CCAGAGCGGA CACAGAGCCA GTCAGAGAGT GAGAGGGACC GGGAGAAGGA ACGTAGCCAA
    AGAAGCATGA GCATTGCTGC AGGGTGTTGG GGAAGGAGTG CAGCCACCAC TAAGCAGGAA
    TCTGGCGTTT TAAGTCAGAA GTAG

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

    RefSeq XP_012813052.1
    CDS647..4750
    Translation

    Target ORF information:

    RefSeq Version XM_012957598.3
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X9, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957598.3

    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
    3961
    4021
    4081
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA TTGCAGCAAA GTGGTGGGGC ACAAAGCGAA TTGACTATGC TCTTTACTGT
    CCGGATGCCC TCACAGCATT CCCCACAGTT GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC
    TGGGAGTCCA CAGATGTTGT CTCTTTCCTC TTAAGGCAGG TCATGAGACA TGAAAATTCA
    AGCATTCTAG ATTTAGTTGG AAAAGAGGTT TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG
    AAATGGCTGC GGAAAAGAAC GCATGTAAAA CTAAGGAATG TTGCTGCAAA CCACAGAATT
    AATGATGCTG TTGCCAATGA AGATGGGCCT CAGACAATGA CAGGAAGATT CATGTACGGC
    CCTCTTGACA TGGTCACACT GACTGGGGAA AAGGTTGACA TTCACATTAT GACCCAGCCT
    CCCGCTGGAG AGTGGGTTTA CTTTGACACT GAAATAAGTA ATAGCAGTGG CAGAATTTCC
    TACGTCATTC CTGAAAACAA AAGGCTTGGG ATTGGCGTTT ACCCTGTGAA GATGGTTGTC
    AGGGGGGACC ACACATATGC TGATAGCTAT CTCACAGTTC TGCCGAAAGG GGCGGAATTT
    GTAGTGTTCA GCATTGATGG ATCATTTGCG GCAAGTGTTT CTATTATGGG CAGTGATCCC
    AAAGTCCGAG CAGGAGCAGT CGATGTAGTG AGGCACTGGC AGGACCTTGG CTACCTCATT
    ATCTATGTCA CAGGTAGACC TGACATGCAG AAGCAGAGGG TAGTGGCATG GCTTGCACAG
    CACAACTTTC CACATGGCAT TGTGTCTTTT TGTGATGGAC TGGTCCATGA TCCTCTGCGA
    CATAAAGCAA ACTTTTTGAA AAGCCTAATC CACGATGTAC ACATGAAGGT GCACGCAGCA
    TATGGTTCCA CTAAGGATAT CACAGTATAC AGCTCTCTTG GTTTGTCACC AATGCAGATT
    TATATAGTTG GTCGGCCCAC CAAGAAGTTA CAGCATCAGT GTCAGTTTAT CACAGAGGGC
    TATGCTGCTC ACCTTGCTCA ACTGGAATAT AATCACCGTT CTCGACCTGC TAAGAATACC
    AGCAGGATGG CGCTAAGAAA AGGGAGCTTC TGTCTTCCCG GCCAATCAGA TTTCCTTCGA
    AAGAGGAACC ACTTGCTTCG TACTATCTCC TCACAACCAA CGGGGAGCAG CAACCACAAA
    CCAGAGCGGA CACAGAGCCA GTCAGAGAGT GAGAGGGACC GGGAGAAGGA ACGTAGCCAA
    AGAAGCATGA GCATTGCTGC AGGGTGTTGG GGAAGGAGTG CAGCCACCAC TAAGCAGGAA
    TCTGGCGTTT TAAGTCAGAA GTAG

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

    CloneID OXa47679
    Clone ID Related Accession (Same CDS sequence) XM_031896482.1
    Accession Version XM_031896482.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4065bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X7
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGCGGATGTT GTTCAATTTC ATGGTGCAGT CTTCGTGGAA
    AATGCCTCCC CTTCTTCCCC TATAACAGCC CCCCACTTCA GGGGATACCG AAGAGCAAGT
    GAAATCAGCA TTGCAAGTCA GGTCTCTGGA ATGGCAGACA GTTACACGGC CTCAAACATA
    GCCAACAAAA CAAAAAATGA TCTTAAAAAT TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT
    GCACTCCCCT ACCAATCCCA AACAATACCG AGTACCCCAC CAAACCATAG ACAGTACCAT
    TCTGAGCAGA GTAAAATAGG AAGAACAATA GAGGTGGGGG ATCGGAGGCA CAAGATGAAC
    CCAGGCATCC AACCCTCGGA CATCTCCAGA GTTGCAGCAA AGTGGTGGGG CACAAAGCGA
    ATTGACTATG CTCTTTACTG TCCGGATGCC CTCACAGCAT TCCCCACAGT TGCCCTCCCT
    CATCTTTTCC ATGCCAGTTA CTGGGAGTCC ACAGATGTTG TCTCTTTCCT CTTAAGGCAG
    GTCATGAGAC ATGAAAATTC AAGCATTCTA GATTTAGTTG GAAAAGAGGT TTCTGAGTTC
    AGTCCTTCAA AGCCGAGGGA GAAATGGCTG CGGAAAAGAA CGCATGTAAA ACTAAGGAAT
    GTTGCTGCAA ACCACAGAAT TAATGATGCT GTTGCCAATG AAGATGGGCC TCAGACAATG
    ACAGGAAGAT TCATGTACGG CCCTCTTGAC ATGGTCACAC TGACTGGGGA AAAGGTTGAC
    ATTCACATTA TGACCCAGCC TCCCGCTGGA GAGTGGGTTT ACTTTGACAC TGAAATAAGT
    AATAGCAGTG GCAGAATTTC CTACGTCATT CCTGAAAACA AAAGGCTTGG GATTGGCGTT
    TACCCTGTGA AGATGGTTGT CAGGGGGGAC CACACATATG CTGATAGCTA TCTCACAGTT
    CTGCCGAAAG GGGCGGAATT TGTAGTGTTC AGCATTGATG GATCATTTGC GGCAAGTGTT
    TCTATTATGG GCAGTGATCC CAAAGTCCGA GCAGGAGCAG TCGATGTAGT GAGGCACTGG
    CAGGACCTTG GCTACCTCAT TATCTATGTC ACAGGTAGAC CTGACATGCA GAAGCAGAGG
    GTAGTGGCAT GGCTTGCACA GCACAACTTT CCACATGGCA TTGTGTCTTT TTGTGATGGA
    CTGGTCCATG ATCCTCTGCG ACATAAAGCA AACTTTTTGA AAAGCCTAAT CCACGATGTA
    CACATGAAGG TGCACGCAGC ATATGGTTCC ACTAAGGATA TCACAGTATA CAGCTCTCTT
    GGTTTGTCAC CAATGCAGAT TTATATAGTT GGTCGGCCCA CCAAGAAGTT ACAGCATCAG
    TGTCAGTTTA TCACAGAGGG CTATGCTGCT CACCTTGCTC AACTGGAATA TAATCACCGT
    TCTCGACCTG CTAAGAATAC CAGCAGGATG GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC
    GGCCAATCAG ATTTCCTTCG AAAGAGGAAC CACTTGCTTC GTACTATCTC CTCACAACCA
    ACGGGGAGCA GCAACCACAA ACCAGAGCGG ACACAGAGCC AGTCAGAGAG TGAGAGGGAC
    CGGGAGAAGG AACGTAGCCA AAGAAGCATG AGCATTGCTG CAGGGTGTTG GGGAAGGAGT
    GCAGCCACCA CTAAGCAGGA ATCTGGCGTT TTAAGTCAGA AGTAG

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

    RefSeq XP_031752342.1
    CDS648..4712
    Translation

    Target ORF information:

    RefSeq Version XM_031896482.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X10, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896482.1

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGCGGATGTT GTTCAATTTC ATGGTGCAGT CTTCGTGGAA
    AATGCCTCCC CTTCTTCCCC TATAACAGCC CCCCACTTCA GGGGATACCG AAGAGCAAGT
    GAAATCAGCA TTGCAAGTCA GGTCTCTGGA ATGGCAGACA GTTACACGGC CTCAAACATA
    GCCAACAAAA CAAAAAATGA TCTTAAAAAT TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT
    GCACTCCCCT ACCAATCCCA AACAATACCG AGTACCCCAC CAAACCATAG ACAGTACCAT
    TCTGAGCAGA GTAAAATAGG AAGAACAATA GAGGTGGGGG ATCGGAGGCA CAAGATGAAC
    CCAGGCATCC AACCCTCGGA CATCTCCAGA GTTGCAGCAA AGTGGTGGGG CACAAAGCGA
    ATTGACTATG CTCTTTACTG TCCGGATGCC CTCACAGCAT TCCCCACAGT TGCCCTCCCT
    CATCTTTTCC ATGCCAGTTA CTGGGAGTCC ACAGATGTTG TCTCTTTCCT CTTAAGGCAG
    GTCATGAGAC ATGAAAATTC AAGCATTCTA GATTTAGTTG GAAAAGAGGT TTCTGAGTTC
    AGTCCTTCAA AGCCGAGGGA GAAATGGCTG CGGAAAAGAA CGCATGTAAA ACTAAGGAAT
    GTTGCTGCAA ACCACAGAAT TAATGATGCT GTTGCCAATG AAGATGGGCC TCAGACAATG
    ACAGGAAGAT TCATGTACGG CCCTCTTGAC ATGGTCACAC TGACTGGGGA AAAGGTTGAC
    ATTCACATTA TGACCCAGCC TCCCGCTGGA GAGTGGGTTT ACTTTGACAC TGAAATAAGT
    AATAGCAGTG GCAGAATTTC CTACGTCATT CCTGAAAACA AAAGGCTTGG GATTGGCGTT
    TACCCTGTGA AGATGGTTGT CAGGGGGGAC CACACATATG CTGATAGCTA TCTCACAGTT
    CTGCCGAAAG GGGCGGAATT TGTAGTGTTC AGCATTGATG GATCATTTGC GGCAAGTGTT
    TCTATTATGG GCAGTGATCC CAAAGTCCGA GCAGGAGCAG TCGATGTAGT GAGGCACTGG
    CAGGACCTTG GCTACCTCAT TATCTATGTC ACAGGTAGAC CTGACATGCA GAAGCAGAGG
    GTAGTGGCAT GGCTTGCACA GCACAACTTT CCACATGGCA TTGTGTCTTT TTGTGATGGA
    CTGGTCCATG ATCCTCTGCG ACATAAAGCA AACTTTTTGA AAAGCCTAAT CCACGATGTA
    CACATGAAGG TGCACGCAGC ATATGGTTCC ACTAAGGATA TCACAGTATA CAGCTCTCTT
    GGTTTGTCAC CAATGCAGAT TTATATAGTT GGTCGGCCCA CCAAGAAGTT ACAGCATCAG
    TGTCAGTTTA TCACAGAGGG CTATGCTGCT CACCTTGCTC AACTGGAATA TAATCACCGT
    TCTCGACCTG CTAAGAATAC CAGCAGGATG GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC
    GGCCAATCAG ATTTCCTTCG AAAGAGGAAC CACTTGCTTC GTACTATCTC CTCACAACCA
    ACGGGGAGCA GCAACCACAA ACCAGAGCGG ACACAGAGCC AGTCAGAGAG TGAGAGGGAC
    CGGGAGAAGG AACGTAGCCA AAGAAGCATG AGCATTGCTG CAGGGTGTTG GGGAAGGAGT
    GCAGCCACCA CTAAGCAGGA ATCTGGCGTT TTAAGTCAGA AGTAG

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

    CloneID OXa47680
    Clone ID Related Accession (Same CDS sequence) XM_031896493.1
    Accession Version XM_031896493.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3954bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X8
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGCGGAT
    GTTGTTCAAT TTCATGGTGC AGTCTTCGTG GAAAATGCCT CCCCTTCTTC CCCTATAACA
    GCCCCCCACT TCAGGGGATA CCGAAGAGCA AGTGAAATCA GCATTGCAAG TCAGGTCTCT
    GGAATGGCAG ACAGTTACAC GGCCTCAAAC ATAGCCAACA TTGCAGCAAA GTGGTGGGGC
    ACAAAGCGAA TTGACTATGC TCTTTACTGT CCGGATGCCC TCACAGCATT CCCCACAGTT
    GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC TGGGAGTCCA CAGATGTTGT CTCTTTCCTC
    TTAAGGCAGG TCATGAGACA TGAAAATTCA AGCATTCTAG ATTTAGTTGG AAAAGAGGTT
    TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG AAATGGCTGC GGAAAAGAAC GCATGTAAAA
    CTAAGGAATG TTGCTGCAAA CCACAGAATT AATGATGCTG TTGCCAATGA AGATGGGCCT
    CAGACAATGA CAGGAAGATT CATGTACGGC CCTCTTGACA TGGTCACACT GACTGGGGAA
    AAGGTTGACA TTCACATTAT GACCCAGCCT CCCGCTGGAG AGTGGGTTTA CTTTGACACT
    GAAATAAGTA ATAGCAGTGG CAGAATTTCC TACGTCATTC CTGAAAACAA AAGGCTTGGG
    ATTGGCGTTT ACCCTGTGAA GATGGTTGTC AGGGGGGACC ACACATATGC TGATAGCTAT
    CTCACAGTTC TGCCGAAAGG GGCGGAATTT GTAGTGTTCA GCATTGATGG ATCATTTGCG
    GCAAGTGTTT CTATTATGGG CAGTGATCCC AAAGTCCGAG CAGGAGCAGT CGATGTAGTG
    AGGCACTGGC AGGACCTTGG CTACCTCATT ATCTATGTCA CAGGTAGACC TGACATGCAG
    AAGCAGAGGG TAGTGGCATG GCTTGCACAG CACAACTTTC CACATGGCAT TGTGTCTTTT
    TGTGATGGAC TGGTCCATGA TCCTCTGCGA CATAAAGCAA ACTTTTTGAA AAGCCTAATC
    CACGATGTAC ACATGAAGGT GCACGCAGCA TATGGTTCCA CTAAGGATAT CACAGTATAC
    AGCTCTCTTG GTTTGTCACC AATGCAGATT TATATAGTTG GTCGGCCCAC CAAGAAGTTA
    CAGCATCAGT GTCAGTTTAT CACAGAGGGC TATGCTGCTC ACCTTGCTCA ACTGGAATAT
    AATCACCGTT CTCGACCTGC TAAGAATACC AGCAGGATGG CGCTAAGAAA AGGGAGCTTC
    TGTCTTCCCG GCCAATCAGA TTTCCTTCGA AAGAGGAACC ACTTGCTTCG TACTATCTCC
    TCACAACCAA CGGGGAGCAG CAACCACAAA CCAGAGCGGA CACAGAGCCA GTCAGAGAGT
    GAGAGGGACC GGGAGAAGGA ACGTAGCCAA AGAAGCATGA GCATTGCTGC AGGGTGTTGG
    GGAAGGAGTG CAGCCACCAC TAAGCAGGAA TCTGGCGTTT TAAGTCAGAA GTAG

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

    RefSeq XP_031752353.1
    CDS647..4600
    Translation

    Target ORF information:

    RefSeq Version XM_031896493.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X11, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896493.1

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGCGGAT
    GTTGTTCAAT TTCATGGTGC AGTCTTCGTG GAAAATGCCT CCCCTTCTTC CCCTATAACA
    GCCCCCCACT TCAGGGGATA CCGAAGAGCA AGTGAAATCA GCATTGCAAG TCAGGTCTCT
    GGAATGGCAG ACAGTTACAC GGCCTCAAAC ATAGCCAACA TTGCAGCAAA GTGGTGGGGC
    ACAAAGCGAA TTGACTATGC TCTTTACTGT CCGGATGCCC TCACAGCATT CCCCACAGTT
    GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC TGGGAGTCCA CAGATGTTGT CTCTTTCCTC
    TTAAGGCAGG TCATGAGACA TGAAAATTCA AGCATTCTAG ATTTAGTTGG AAAAGAGGTT
    TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG AAATGGCTGC GGAAAAGAAC GCATGTAAAA
    CTAAGGAATG TTGCTGCAAA CCACAGAATT AATGATGCTG TTGCCAATGA AGATGGGCCT
    CAGACAATGA CAGGAAGATT CATGTACGGC CCTCTTGACA TGGTCACACT GACTGGGGAA
    AAGGTTGACA TTCACATTAT GACCCAGCCT CCCGCTGGAG AGTGGGTTTA CTTTGACACT
    GAAATAAGTA ATAGCAGTGG CAGAATTTCC TACGTCATTC CTGAAAACAA AAGGCTTGGG
    ATTGGCGTTT ACCCTGTGAA GATGGTTGTC AGGGGGGACC ACACATATGC TGATAGCTAT
    CTCACAGTTC TGCCGAAAGG GGCGGAATTT GTAGTGTTCA GCATTGATGG ATCATTTGCG
    GCAAGTGTTT CTATTATGGG CAGTGATCCC AAAGTCCGAG CAGGAGCAGT CGATGTAGTG
    AGGCACTGGC AGGACCTTGG CTACCTCATT ATCTATGTCA CAGGTAGACC TGACATGCAG
    AAGCAGAGGG TAGTGGCATG GCTTGCACAG CACAACTTTC CACATGGCAT TGTGTCTTTT
    TGTGATGGAC TGGTCCATGA TCCTCTGCGA CATAAAGCAA ACTTTTTGAA AAGCCTAATC
    CACGATGTAC ACATGAAGGT GCACGCAGCA TATGGTTCCA CTAAGGATAT CACAGTATAC
    AGCTCTCTTG GTTTGTCACC AATGCAGATT TATATAGTTG GTCGGCCCAC CAAGAAGTTA
    CAGCATCAGT GTCAGTTTAT CACAGAGGGC TATGCTGCTC ACCTTGCTCA ACTGGAATAT
    AATCACCGTT CTCGACCTGC TAAGAATACC AGCAGGATGG CGCTAAGAAA AGGGAGCTTC
    TGTCTTCCCG GCCAATCAGA TTTCCTTCGA AAGAGGAACC ACTTGCTTCG TACTATCTCC
    TCACAACCAA CGGGGAGCAG CAACCACAAA CCAGAGCGGA CACAGAGCCA GTCAGAGAGT
    GAGAGGGACC GGGAGAAGGA ACGTAGCCAA AGAAGCATGA GCATTGCTGC AGGGTGTTGG
    GGAAGGAGTG CAGCCACCAC TAAGCAGGAA TCTGGCGTTT TAAGTCAGAA GTAG

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

    CloneID OXa47681
    Clone ID Related Accession (Same CDS sequence) XM_031896504.1
    Accession Version XM_031896504.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3861bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X9
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGCGGATGTT GTTCAATTTC ATGGTGCAGT CTTCGTGGAA
    AATGCCTCCC CTTCTTCCCC TATAACAGCC CCCCACTTCA GGGGATACCG AAGAGCAAGT
    GAAATCAGCA TTGCAAGTCA GGTCTCTGGA ATGGCAGACA GTTACACGGC CTCAAACATA
    GCCAACATTG CAGCAAAGTG GTGGGGCACA AAGCGAATTG ACTATGCTCT TTACTGTCCG
    GATGCCCTCA CAGCATTCCC CACAGTTGCC CTCCCTCATC TTTTCCATGC CAGTTACTGG
    GAGTCCACAG ATGTTGTCTC TTTCCTCTTA AGGCAGGTCA TGAGACATGA AAATTCAAGC
    ATTCTAGATT TAGTTGGAAA AGAGGTTTCT GAGTTCAGTC CTTCAAAGCC GAGGGAGAAA
    TGGCTGCGGA AAAGAACGCA TGTAAAACTA AGGAATGTTG CTGCAAACCA CAGAATTAAT
    GATGCTGTTG CCAATGAAGA TGGGCCTCAG ACAATGACAG GAAGATTCAT GTACGGCCCT
    CTTGACATGG TCACACTGAC TGGGGAAAAG GTTGACATTC ACATTATGAC CCAGCCTCCC
    GCTGGAGAGT GGGTTTACTT TGACACTGAA ATAAGTAATA GCAGTGGCAG AATTTCCTAC
    GTCATTCCTG AAAACAAAAG GCTTGGGATT GGCGTTTACC CTGTGAAGAT GGTTGTCAGG
    GGGGACCACA CATATGCTGA TAGCTATCTC ACAGTTCTGC CGAAAGGGGC GGAATTTGTA
    GTGTTCAGCA TTGATGGATC ATTTGCGGCA AGTGTTTCTA TTATGGGCAG TGATCCCAAA
    GTCCGAGCAG GAGCAGTCGA TGTAGTGAGG CACTGGCAGG ACCTTGGCTA CCTCATTATC
    TATGTCACAG GTAGACCTGA CATGCAGAAG CAGAGGGTAG TGGCATGGCT TGCACAGCAC
    AACTTTCCAC ATGGCATTGT GTCTTTTTGT GATGGACTGG TCCATGATCC TCTGCGACAT
    AAAGCAAACT TTTTGAAAAG CCTAATCCAC GATGTACACA TGAAGGTGCA CGCAGCATAT
    GGTTCCACTA AGGATATCAC AGTATACAGC TCTCTTGGTT TGTCACCAAT GCAGATTTAT
    ATAGTTGGTC GGCCCACCAA GAAGTTACAG CATCAGTGTC AGTTTATCAC AGAGGGCTAT
    GCTGCTCACC TTGCTCAACT GGAATATAAT CACCGTTCTC GACCTGCTAA GAATACCAGC
    AGGATGGCGC TAAGAAAAGG GAGCTTCTGT CTTCCCGGCC AATCAGATTT CCTTCGAAAG
    AGGAACCACT TGCTTCGTAC TATCTCCTCA CAACCAACGG GGAGCAGCAA CCACAAACCA
    GAGCGGACAC AGAGCCAGTC AGAGAGTGAG AGGGACCGGG AGAAGGAACG TAGCCAAAGA
    AGCATGAGCA TTGCTGCAGG GTGTTGGGGA AGGAGTGCAG CCACCACTAA GCAGGAATCT
    GGCGTTTTAA GTCAGAAGTA G

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

    RefSeq XP_031752364.1
    CDS646..4506
    Translation

    Target ORF information:

    RefSeq Version XM_031896504.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X12, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896504.1

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGCGGATGTT GTTCAATTTC ATGGTGCAGT CTTCGTGGAA
    AATGCCTCCC CTTCTTCCCC TATAACAGCC CCCCACTTCA GGGGATACCG AAGAGCAAGT
    GAAATCAGCA TTGCAAGTCA GGTCTCTGGA ATGGCAGACA GTTACACGGC CTCAAACATA
    GCCAACATTG CAGCAAAGTG GTGGGGCACA AAGCGAATTG ACTATGCTCT TTACTGTCCG
    GATGCCCTCA CAGCATTCCC CACAGTTGCC CTCCCTCATC TTTTCCATGC CAGTTACTGG
    GAGTCCACAG ATGTTGTCTC TTTCCTCTTA AGGCAGGTCA TGAGACATGA AAATTCAAGC
    ATTCTAGATT TAGTTGGAAA AGAGGTTTCT GAGTTCAGTC CTTCAAAGCC GAGGGAGAAA
    TGGCTGCGGA AAAGAACGCA TGTAAAACTA AGGAATGTTG CTGCAAACCA CAGAATTAAT
    GATGCTGTTG CCAATGAAGA TGGGCCTCAG ACAATGACAG GAAGATTCAT GTACGGCCCT
    CTTGACATGG TCACACTGAC TGGGGAAAAG GTTGACATTC ACATTATGAC CCAGCCTCCC
    GCTGGAGAGT GGGTTTACTT TGACACTGAA ATAAGTAATA GCAGTGGCAG AATTTCCTAC
    GTCATTCCTG AAAACAAAAG GCTTGGGATT GGCGTTTACC CTGTGAAGAT GGTTGTCAGG
    GGGGACCACA CATATGCTGA TAGCTATCTC ACAGTTCTGC CGAAAGGGGC GGAATTTGTA
    GTGTTCAGCA TTGATGGATC ATTTGCGGCA AGTGTTTCTA TTATGGGCAG TGATCCCAAA
    GTCCGAGCAG GAGCAGTCGA TGTAGTGAGG CACTGGCAGG ACCTTGGCTA CCTCATTATC
    TATGTCACAG GTAGACCTGA CATGCAGAAG CAGAGGGTAG TGGCATGGCT TGCACAGCAC
    AACTTTCCAC ATGGCATTGT GTCTTTTTGT GATGGACTGG TCCATGATCC TCTGCGACAT
    AAAGCAAACT TTTTGAAAAG CCTAATCCAC GATGTACACA TGAAGGTGCA CGCAGCATAT
    GGTTCCACTA AGGATATCAC AGTATACAGC TCTCTTGGTT TGTCACCAAT GCAGATTTAT
    ATAGTTGGTC GGCCCACCAA GAAGTTACAG CATCAGTGTC AGTTTATCAC AGAGGGCTAT
    GCTGCTCACC TTGCTCAACT GGAATATAAT CACCGTTCTC GACCTGCTAA GAATACCAGC
    AGGATGGCGC TAAGAAAAGG GAGCTTCTGT CTTCCCGGCC AATCAGATTT CCTTCGAAAG
    AGGAACCACT TGCTTCGTAC TATCTCCTCA CAACCAACGG GGAGCAGCAA CCACAAACCA
    GAGCGGACAC AGAGCCAGTC AGAGAGTGAG AGGGACCGGG AGAAGGAACG TAGCCAAAGA
    AGCATGAGCA TTGCTGCAGG GTGTTGGGGA AGGAGTGCAG CCACCACTAA GCAGGAATCT
    GGCGTTTTAA GTCAGAAGTA G

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

    CloneID OXa47682
    Clone ID Related Accession (Same CDS sequence) XM_031896515.1
    Accession Version XM_031896515.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3789bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X10
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTTGCA
    GCAAAGTGGT GGGGCACAAA GCGAATTGAC TATGCTCTTT ACTGTCCGGA TGCCCTCACA
    GCATTCCCCA CAGTTGCCCT CCCTCATCTT TTCCATGCCA GTTACTGGGA GTCCACAGAT
    GTTGTCTCTT TCCTCTTAAG GCAGGTCATG AGACATGAAA ATTCAAGCAT TCTAGATTTA
    GTTGGAAAAG AGGTTTCTGA GTTCAGTCCT TCAAAGCCGA GGGAGAAATG GCTGCGGAAA
    AGAACGCATG TAAAACTAAG GAATGTTGCT GCAAACCACA GAATTAATGA TGCTGTTGCC
    AATGAAGATG GGCCTCAGAC AATGACAGGA AGATTCATGT ACGGCCCTCT TGACATGGTC
    ACACTGACTG GGGAAAAGGT TGACATTCAC ATTATGACCC AGCCTCCCGC TGGAGAGTGG
    GTTTACTTTG ACACTGAAAT AAGTAATAGC AGTGGCAGAA TTTCCTACGT CATTCCTGAA
    AACAAAAGGC TTGGGATTGG CGTTTACCCT GTGAAGATGG TTGTCAGGGG GGACCACACA
    TATGCTGATA GCTATCTCAC AGTTCTGCCG AAAGGGGCGG AATTTGTAGT GTTCAGCATT
    GATGGATCAT TTGCGGCAAG TGTTTCTATT ATGGGCAGTG ATCCCAAAGT CCGAGCAGGA
    GCAGTCGATG TAGTGAGGCA CTGGCAGGAC CTTGGCTACC TCATTATCTA TGTCACAGGT
    AGACCTGACA TGCAGAAGCA GAGGGTAGTG GCATGGCTTG CACAGCACAA CTTTCCACAT
    GGCATTGTGT CTTTTTGTGA TGGACTGGTC CATGATCCTC TGCGACATAA AGCAAACTTT
    TTGAAAAGCC TAATCCACGA TGTACACATG AAGGTGCACG CAGCATATGG TTCCACTAAG
    GATATCACAG TATACAGCTC TCTTGGTTTG TCACCAATGC AGATTTATAT AGTTGGTCGG
    CCCACCAAGA AGTTACAGCA TCAGTGTCAG TTTATCACAG AGGGCTATGC TGCTCACCTT
    GCTCAACTGG AATATAATCA CCGTTCTCGA CCTGCTAAGA ATACCAGCAG GATGGCGCTA
    AGAAAAGGGA GCTTCTGTCT TCCCGGCCAA TCAGATTTCC TTCGAAAGAG GAACCACTTG
    CTTCGTACTA TCTCCTCACA ACCAACGGGG AGCAGCAACC ACAAACCAGA GCGGACACAG
    AGCCAGTCAG AGAGTGAGAG GGACCGGGAG AAGGAACGTA GCCAAAGAAG CATGAGCATT
    GCTGCAGGGT GTTGGGGAAG GAGTGCAGCC ACCACTAAGC AGGAATCTGG CGTTTTAAGT
    CAGAAGTAG

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

    RefSeq XP_031752375.1
    CDS647..4435
    Translation

    Target ORF information:

    RefSeq Version XM_031896515.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X13, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896515.1

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTTGCA
    GCAAAGTGGT GGGGCACAAA GCGAATTGAC TATGCTCTTT ACTGTCCGGA TGCCCTCACA
    GCATTCCCCA CAGTTGCCCT CCCTCATCTT TTCCATGCCA GTTACTGGGA GTCCACAGAT
    GTTGTCTCTT TCCTCTTAAG GCAGGTCATG AGACATGAAA ATTCAAGCAT TCTAGATTTA
    GTTGGAAAAG AGGTTTCTGA GTTCAGTCCT TCAAAGCCGA GGGAGAAATG GCTGCGGAAA
    AGAACGCATG TAAAACTAAG GAATGTTGCT GCAAACCACA GAATTAATGA TGCTGTTGCC
    AATGAAGATG GGCCTCAGAC AATGACAGGA AGATTCATGT ACGGCCCTCT TGACATGGTC
    ACACTGACTG GGGAAAAGGT TGACATTCAC ATTATGACCC AGCCTCCCGC TGGAGAGTGG
    GTTTACTTTG ACACTGAAAT AAGTAATAGC AGTGGCAGAA TTTCCTACGT CATTCCTGAA
    AACAAAAGGC TTGGGATTGG CGTTTACCCT GTGAAGATGG TTGTCAGGGG GGACCACACA
    TATGCTGATA GCTATCTCAC AGTTCTGCCG AAAGGGGCGG AATTTGTAGT GTTCAGCATT
    GATGGATCAT TTGCGGCAAG TGTTTCTATT ATGGGCAGTG ATCCCAAAGT CCGAGCAGGA
    GCAGTCGATG TAGTGAGGCA CTGGCAGGAC CTTGGCTACC TCATTATCTA TGTCACAGGT
    AGACCTGACA TGCAGAAGCA GAGGGTAGTG GCATGGCTTG CACAGCACAA CTTTCCACAT
    GGCATTGTGT CTTTTTGTGA TGGACTGGTC CATGATCCTC TGCGACATAA AGCAAACTTT
    TTGAAAAGCC TAATCCACGA TGTACACATG AAGGTGCACG CAGCATATGG TTCCACTAAG
    GATATCACAG TATACAGCTC TCTTGGTTTG TCACCAATGC AGATTTATAT AGTTGGTCGG
    CCCACCAAGA AGTTACAGCA TCAGTGTCAG TTTATCACAG AGGGCTATGC TGCTCACCTT
    GCTCAACTGG AATATAATCA CCGTTCTCGA CCTGCTAAGA ATACCAGCAG GATGGCGCTA
    AGAAAAGGGA GCTTCTGTCT TCCCGGCCAA TCAGATTTCC TTCGAAAGAG GAACCACTTG
    CTTCGTACTA TCTCCTCACA ACCAACGGGG AGCAGCAACC ACAAACCAGA GCGGACACAG
    AGCCAGTCAG AGAGTGAGAG GGACCGGGAG AAGGAACGTA GCCAAAGAAG CATGAGCATT
    GCTGCAGGGT GTTGGGGAAG GAGTGCAGCC ACCACTAAGC AGGAATCTGG CGTTTTAAGT
    CAGAAGTAG

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

    CloneID OXa47683
    Clone ID Related Accession (Same CDS sequence) XM_031896525.1
    Accession Version XM_031896525.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3096bp)
    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 2019-12-17
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X11
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Xenopus tropicalis Annotation Release 104 Annotation Version :: 104 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 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
    ATGGAGATCG AGTACTGTTT GTGCTTTTCT GTGCAGACAC ACACTACAGT AATCCACGCA 
    CAAGTCATTC CCAGAATACC TGCTGTTACC CTCACAAATG TCATTACAAG TCCCACAGAT
    CTGGCAGCAG ATGAATCAGC ACAGGTCTCT GCGCAGCCAT GTAAAATCCA TGTACTCATT
    TTGGTGCTTC ATGGAGGCAA TATTCTAGAC ACAGGCTGTG GAGATCAGAA TTCAAAGCAG
    GGTGATGTCA ACACCATCAA TTCAGTGTTT GATACAGTAA TGAGGGTCCA TTACCCAGCT
    GCATTAGGGC ATATTGCAGT CAAGCTTGTT CCTTGCCCAG CTATCTGTGC TGAAGCCTTT
    TCACTAGTAT CCAGCTTGAG CCCCTACAGT TATGATGAAG GCTGCTTGTC CAATAGCCAG
    GATCACATAC CACTGGCTGC CCTTCCACTT TTGGCCACCT CATCCCCACA ATACCTTGAA
    GCAGTGGCCA CTGTGATTCA TCGAGCCAAC CAGGTCTACG CTGAGTTCAC CAAGTCACAG
    GAGGGAATGT CCTTCACTGG ACAGGTGTGC TTAGTTGGTG ATTGTGTTGG AGGAATCCTA
    GGATTTGATG CCTTATGTTA CAGCAATCAG ACTGTGTCAG AGAGCCAGAA TAGCAGCCGA
    AGAGGAAGTG TTGTGAGTGT GCAGGACACA GACCTTCTAT CTCCAGGTAT TAGCGTTAAC
    AACAGCTACT GTTCCACAAG TTCAAATCTG GAAACTAGTC GCCACCTTAG TCGGAGCAAT
    ATTGACATAC CTCGGAGTAA TGGTGAAGAC CCAAAGAGAC AGCTACCACG AAAGCGGAGT
    GATTCCTCAA CATATGAACT GGACACTATC AAGCAGCACC AAGCATTTCT TTCTAGTTTA
    CACTCTAGTG TCCTAAGGAA TGACCCAGGA TCGCGAAGGT CAAGTAGCTC CACAATGCTG
    GATGGTGGCA GTATTGGGAA GTTTGACTTT GAGATCACTG ACTTCTTTCT GTTTGGGTCC
    CCACTCGGCC TGGTTCTGGC TCTCAGAAAA ACGGTGATTC CACTATTGGA TGTTTTCCAG
    CTCAGGCCTG GCTGCCAGCA AGTTTACAAC CTCTTCCACC CAGCCGACCC ATCCGCCTCT
    CGAGTGGAAC CCCTTCTGGA GAAGAAATTT CATTTGCTGC CCCCTTTCAA TGTCCCTAGG
    TATCAAAGGT TCCCATTGGG TGATGGAAAC TCTGCCCTGT TGGTCGAGGC TATACAGAAC
    AATCCCATCC TTCTCATGGA AGGCAGCCCG GCAGTTGCTC TCCAGCGTCA AGATGGCGTC
    ATGGAAACCA GTATCCCTGT TCCTGTCCTA AGCTGCCAAG ACACTTCCAG TAAACATGCC
    ACTTGTGTTG ACTCGGATGT TGTTCAATTT CATGGTGCAG TCTTCGTGGA AAATGCCTCC
    CCTTCTTCCC CTATAACAGC CCCCCACTTC AGGGGATACC GAAGAGCAAG TGAAATCAGC
    ATTGCAAGTC AGGTCTCTGG AATGGCAGAC AGTTACACGG CCTCAAACAT AGCCAACAAA
    ACAAAAAATG ATCTTAAAAA TTCCAGAAAG TTAAGTCTCC TATCCCAGCT TGCACTCCCC
    TACCAATCCC AAACAATACC GAGTACCCCA CCAAACCATA GACAGTACCA TTCTGAGCAG
    AGTAAAATAG GAAGAACAAT AGAGGTGGGG GATCGGAGGC ACAAGATGAA CCCAGGCATC
    CAACCCTCGG ACATCTCCAG AGTTGCAGCA AAGTGGTGGG GCACAAAGCG AATTGACTAT
    GCTCTTTACT GTCCGGATGC CCTCACAGCA TTCCCCACAG TTGCCCTCCC TCATCTTTTC
    CATGCCAGTT ACTGGGAGTC CACAGATGTT GTCTCTTTCC TCTTAAGGCA GGTCATGAGA
    CATGAAAATT CAAGCATTCT AGATTTAGTT GGAAAAGAGG TTTCTGAGTT CAGTCCTTCA
    AAGCCGAGGG AGAAATGGCT GCGGAAAAGA ACGCATGTAA AACTAAGGAA TGTTGCTGCA
    AACCACAGAA TTAATGATGC TGTTGCCAAT GAAGATGGGC CTCAGACAAT GACAGGAAGA
    TTCATGTACG GCCCTCTTGA CATGGTCACA CTGACTGGGG AAAAGGTTGA CATTCACATT
    ATGACCCAGC CTCCCGCTGG AGAGTGGGTT TACTTTGACA CTGAAATAAG TAATAGCAGT
    GGCAGAATTT CCTACGTCAT TCCTGAAAAC AAAAGGCTTG GGATTGGCGT TTACCCTGTG
    AAGATGGTTG TCAGGGGGGA CCACACATAT GCTGATAGCT ATCTCACAGT TCTGCCGAAA
    GGGGCGGAAT TTGTAGTGTT CAGCATTGAT GGATCATTTG CGGCAAGTGT TTCTATTATG
    GGCAGTGATC CCAAAGTCCG AGCAGGAGCA GTCGATGTAG TGAGGCACTG GCAGGACCTT
    GGCTACCTCA TTATCTATGT CACAGGTAGA CCTGACATGC AGAAGCAGAG GGTAGTGGCA
    TGGCTTGCAC AGCACAACTT TCCACATGGC ATTGTGTCTT TTTGTGATGG ACTGGTCCAT
    GATCCTCTGC GACATAAAGC AAACTTTTTG AAAAGCCTAA TCCACGATGT ACACATGAAG
    GTGCACGCAG CATATGGTTC CACTAAGGAT ATCACAGTAT ACAGCTCTCT TGGTTTGTCA
    CCAATGCAGA TTTATATAGT TGGTCGGCCC ACCAAGAAGT TACAGCATCA GTGTCAGTTT
    ATCACAGAGG GCTATGCTGC TCACCTTGCT CAACTGGAAT ATAATCACCG TTCTCGACCT
    GCTAAGAATA CCAGCAGGAT GGCGCTAAGA AAAGGGAGCT TCTGTCTTCC CGGCCAATCA
    GATTTCCTTC GAAAGAGGAA CCACTTGCTT CGTACTATCT CCTCACAACC AACGGGGAGC
    AGCAACCACA AACCAGAGCG GACACAGAGC CAGTCAGAGA GTGAGAGGGA CCGGGAGAAG
    GAACGTAGCC AAAGAAGCAT GAGCATTGCT GCAGGGTGTT GGGGAAGGAG TGCAGCCACC
    ACTAAGCAGG AATCTGGCGT TTTAAGTCAG AAGTAG

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

    RefSeq XP_031752385.1
    CDS70..3165
    Translation

    Target ORF information:

    RefSeq Version XM_031896525.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), transcript variant X14, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_031896525.1

    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
    ATGGAGATCG AGTACTGTTT GTGCTTTTCT GTGCAGACAC ACACTACAGT AATCCACGCA 
    CAAGTCATTC CCAGAATACC TGCTGTTACC CTCACAAATG TCATTACAAG TCCCACAGAT
    CTGGCAGCAG ATGAATCAGC ACAGGTCTCT GCGCAGCCAT GTAAAATCCA TGTACTCATT
    TTGGTGCTTC ATGGAGGCAA TATTCTAGAC ACAGGCTGTG GAGATCAGAA TTCAAAGCAG
    GGTGATGTCA ACACCATCAA TTCAGTGTTT GATACAGTAA TGAGGGTCCA TTACCCAGCT
    GCATTAGGGC ATATTGCAGT CAAGCTTGTT CCTTGCCCAG CTATCTGTGC TGAAGCCTTT
    TCACTAGTAT CCAGCTTGAG CCCCTACAGT TATGATGAAG GCTGCTTGTC CAATAGCCAG
    GATCACATAC CACTGGCTGC CCTTCCACTT TTGGCCACCT CATCCCCACA ATACCTTGAA
    GCAGTGGCCA CTGTGATTCA TCGAGCCAAC CAGGTCTACG CTGAGTTCAC CAAGTCACAG
    GAGGGAATGT CCTTCACTGG ACAGGTGTGC TTAGTTGGTG ATTGTGTTGG AGGAATCCTA
    GGATTTGATG CCTTATGTTA CAGCAATCAG ACTGTGTCAG AGAGCCAGAA TAGCAGCCGA
    AGAGGAAGTG TTGTGAGTGT GCAGGACACA GACCTTCTAT CTCCAGGTAT TAGCGTTAAC
    AACAGCTACT GTTCCACAAG TTCAAATCTG GAAACTAGTC GCCACCTTAG TCGGAGCAAT
    ATTGACATAC CTCGGAGTAA TGGTGAAGAC CCAAAGAGAC AGCTACCACG AAAGCGGAGT
    GATTCCTCAA CATATGAACT GGACACTATC AAGCAGCACC AAGCATTTCT TTCTAGTTTA
    CACTCTAGTG TCCTAAGGAA TGACCCAGGA TCGCGAAGGT CAAGTAGCTC CACAATGCTG
    GATGGTGGCA GTATTGGGAA GTTTGACTTT GAGATCACTG ACTTCTTTCT GTTTGGGTCC
    CCACTCGGCC TGGTTCTGGC TCTCAGAAAA ACGGTGATTC CACTATTGGA TGTTTTCCAG
    CTCAGGCCTG GCTGCCAGCA AGTTTACAAC CTCTTCCACC CAGCCGACCC ATCCGCCTCT
    CGAGTGGAAC CCCTTCTGGA GAAGAAATTT CATTTGCTGC CCCCTTTCAA TGTCCCTAGG
    TATCAAAGGT TCCCATTGGG TGATGGAAAC TCTGCCCTGT TGGTCGAGGC TATACAGAAC
    AATCCCATCC TTCTCATGGA AGGCAGCCCG GCAGTTGCTC TCCAGCGTCA AGATGGCGTC
    ATGGAAACCA GTATCCCTGT TCCTGTCCTA AGCTGCCAAG ACACTTCCAG TAAACATGCC
    ACTTGTGTTG ACTCGGATGT TGTTCAATTT CATGGTGCAG TCTTCGTGGA AAATGCCTCC
    CCTTCTTCCC CTATAACAGC CCCCCACTTC AGGGGATACC GAAGAGCAAG TGAAATCAGC
    ATTGCAAGTC AGGTCTCTGG AATGGCAGAC AGTTACACGG CCTCAAACAT AGCCAACAAA
    ACAAAAAATG ATCTTAAAAA TTCCAGAAAG TTAAGTCTCC TATCCCAGCT TGCACTCCCC
    TACCAATCCC AAACAATACC GAGTACCCCA CCAAACCATA GACAGTACCA TTCTGAGCAG
    AGTAAAATAG GAAGAACAAT AGAGGTGGGG GATCGGAGGC ACAAGATGAA CCCAGGCATC
    CAACCCTCGG ACATCTCCAG AGTTGCAGCA AAGTGGTGGG GCACAAAGCG AATTGACTAT
    GCTCTTTACT GTCCGGATGC CCTCACAGCA TTCCCCACAG TTGCCCTCCC TCATCTTTTC
    CATGCCAGTT ACTGGGAGTC CACAGATGTT GTCTCTTTCC TCTTAAGGCA GGTCATGAGA
    CATGAAAATT CAAGCATTCT AGATTTAGTT GGAAAAGAGG TTTCTGAGTT CAGTCCTTCA
    AAGCCGAGGG AGAAATGGCT GCGGAAAAGA ACGCATGTAA AACTAAGGAA TGTTGCTGCA
    AACCACAGAA TTAATGATGC TGTTGCCAAT GAAGATGGGC CTCAGACAAT GACAGGAAGA
    TTCATGTACG GCCCTCTTGA CATGGTCACA CTGACTGGGG AAAAGGTTGA CATTCACATT
    ATGACCCAGC CTCCCGCTGG AGAGTGGGTT TACTTTGACA CTGAAATAAG TAATAGCAGT
    GGCAGAATTT CCTACGTCAT TCCTGAAAAC AAAAGGCTTG GGATTGGCGT TTACCCTGTG
    AAGATGGTTG TCAGGGGGGA CCACACATAT GCTGATAGCT ATCTCACAGT TCTGCCGAAA
    GGGGCGGAAT TTGTAGTGTT CAGCATTGAT GGATCATTTG CGGCAAGTGT TTCTATTATG
    GGCAGTGATC CCAAAGTCCG AGCAGGAGCA GTCGATGTAG TGAGGCACTG GCAGGACCTT
    GGCTACCTCA TTATCTATGT CACAGGTAGA CCTGACATGC AGAAGCAGAG GGTAGTGGCA
    TGGCTTGCAC AGCACAACTT TCCACATGGC ATTGTGTCTT TTTGTGATGG ACTGGTCCAT
    GATCCTCTGC GACATAAAGC AAACTTTTTG AAAAGCCTAA TCCACGATGT ACACATGAAG
    GTGCACGCAG CATATGGTTC CACTAAGGAT ATCACAGTAT ACAGCTCTCT TGGTTTGTCA
    CCAATGCAGA TTTATATAGT TGGTCGGCCC ACCAAGAAGT TACAGCATCA GTGTCAGTTT
    ATCACAGAGG GCTATGCTGC TCACCTTGCT CAACTGGAAT ATAATCACCG TTCTCGACCT
    GCTAAGAATA CCAGCAGGAT GGCGCTAAGA AAAGGGAGCT TCTGTCTTCC CGGCCAATCA
    GATTTCCTTC GAAAGAGGAA CCACTTGCTT CGTACTATCT CCTCACAACC AACGGGGAGC
    AGCAACCACA AACCAGAGCG GACACAGAGC CAGTCAGAGA GTGAGAGGGA CCGGGAGAAG
    GAACGTAGCC AAAGAAGCAT GAGCATTGCT GCAGGGTGTT GGGGAAGGAG TGCAGCCACC
    ACTAAGCAGG AATCTGGCGT TTTAAGTCAG AAGTAG

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

    CloneID OXa22940
    Clone ID Related Accession (Same CDS sequence) NM_001142189.1
    Accession Version NM_001142189.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4011bp)
    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 2019-12-21
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2
    Comment Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from BC168561.1. ##Evidence-Data-START## Transcript exon combination :: BC168561.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMD00028293, SAMD00028294 [ECO:0000348] ##Evidence-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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGTCGAGGCT ATACAGAACA ATCCCATCCT TCTCATGGAA
    GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA GATGGCGTCA TGGAAACCAG TATCCCTGTT
    CCTGTCCTAA GCTGCCAAGA CACTTCCAGT AAACATGCCA CTTGTGTTGA CTCGGATGTT
    GTTCAATTTC ATGGTGCAGT CTTCGTGGAA AATGCCTCCC CTTCTTCCCC TATAACAGCC
    CCCCACTTCA GGGGATACCG AAGAGCAAGT GAAATCAGCA TTGCAAGTCA GGTCTCTGGA
    ATGGCAGACA GTTACACGGC CTCAAACATA GCCAACATTG CAGCAAAGTG GTGGGGCACA
    AAGCGAATTG ACTATGCTCT TTACTGTCCG GATGCCCTCA CAGCATTCCC CACAGTTGCC
    CTCCCTCATC TTTTCCATGC CAGTTACTGG GAGTCCACAG ATGTTGTCTC TTTCCTCTTA
    AGGCAGGTCA TGAGACATGA AAATTCAAGC ATTCTAGATT TAGTTGGAAA AGAGGTTTCT
    GAGTTCAGTC CTTCAAAGCC GAGGGAGAAA TGGCTGCGGA AAAGAACGCA TGTAAAACTA
    AGGAATGTTG CTGCAAACCA CAGAATTAAT GATGCTGTTG CCAATGAAGA TGGGCCTCAG
    ACAATGACAG GAAGATTCAT GTACGGCCCT CTTGACATGG TCACACTGAC TGGGGAAAAG
    GTTGACATTC ACATTATGAC CCAGCCTCCC GCTGGAGAGT GGGTTTACTT TGACACTGAA
    ATAAGTAATA GCAGTGGCAG AATTTCCTAC GTCATTCCTG AAAACAAAAG GCTTGGGATT
    GGCGTTTACC CTGTGAAGAT GGTTGTCAGG GGGGACCACA CATATGCTGA TAGCTATCTC
    ACAGTTCTGC CGAAAGGGGC GGAATTTGTA GTGTTCAGCA TTGATGGATC ATTTGCGGCA
    AGTGTTTCTA TTATGGGCAG TGATCCCAAA GTCCGAGCAG GAGCAGTCGA TGTAGTGAGG
    CACTGGCAGG ACCTTGGCTA CCTCATTATC TATGTCACAG GTAGACCTGA CATGCAGAAG
    CAGAGGGTAG TGGCATGGCT TGCACAGCAC AACTTTCCAC ATGGCATTGT GTCTTTTTGT
    GATGGACTGG TCCATGATCC TCTGCGACAT AAAGCAAACT TTTTGAAAAG CCTAATCCAC
    GATGTACACA TGAAGGTGCA CGCAGCATAT GGTTCCACTA AGGATATCAC AGTATACAGC
    TCTCTTGGTT TGTCACCAAT GCAGATTTAT ATAGTTGGTC GGCCCACCAA GAAGTTACAG
    CATCAGTGTC AGTTTATCAC AGAGGGCTAT GCTGCTCACC TTGCTCAACT GGAATATAAT
    CACCGTTCTC GACCTGCTAA GAATACCAGC AGGATGGCGC TAAGAAAAGG GAGCTTCTGT
    CTTCCCGGCC AATCAGATTT CCTTCGAAAG AGGAACCACT TGCTTCGTAC TATCTCCTCA
    CAACCAACGG GGAGCAGCAA CCACAAACCA GAGCGGACAC AGAGCCAGTC AGAGAGTGAG
    AGGGACCGGG AGAAGGAACG TAGCCAAAGA AGCATGAGCA TTGCTGCAGG GTGTTGGGGA
    AGGAGTGCAG CCACCACTAA GCAGGAATCT GGCGTTTTAA GTCAGAAGTA G

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

    RefSeq NP_001135661.1
    CDS224..4234
    Translation

    Target ORF information:

    RefSeq Version NM_001142189.1
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein membrane associated 2 (pitpnm2), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001142189.1

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGTCGAGGCT ATACAGAACA ATCCCATCCT TCTCATGGAA
    GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA GATGGCGTCA TGGAAACCAG TATCCCTGTT
    CCTGTCCTAA GCTGCCAAGA CACTTCCAGT AAACATGCCA CTTGTGTTGA CTCGGATGTT
    GTTCAATTTC ATGGTGCAGT CTTCGTGGAA AATGCCTCCC CTTCTTCCCC TATAACAGCC
    CCCCACTTCA GGGGATACCG AAGAGCAAGT GAAATCAGCA TTGCAAGTCA GGTCTCTGGA
    ATGGCAGACA GTTACACGGC CTCAAACATA GCCAACATTG CAGCAAAGTG GTGGGGCACA
    AAGCGAATTG ACTATGCTCT TTACTGTCCG GATGCCCTCA CAGCATTCCC CACAGTTGCC
    CTCCCTCATC TTTTCCATGC CAGTTACTGG GAGTCCACAG ATGTTGTCTC TTTCCTCTTA
    AGGCAGGTCA TGAGACATGA AAATTCAAGC ATTCTAGATT TAGTTGGAAA AGAGGTTTCT
    GAGTTCAGTC CTTCAAAGCC GAGGGAGAAA TGGCTGCGGA AAAGAACGCA TGTAAAACTA
    AGGAATGTTG CTGCAAACCA CAGAATTAAT GATGCTGTTG CCAATGAAGA TGGGCCTCAG
    ACAATGACAG GAAGATTCAT GTACGGCCCT CTTGACATGG TCACACTGAC TGGGGAAAAG
    GTTGACATTC ACATTATGAC CCAGCCTCCC GCTGGAGAGT GGGTTTACTT TGACACTGAA
    ATAAGTAATA GCAGTGGCAG AATTTCCTAC GTCATTCCTG AAAACAAAAG GCTTGGGATT
    GGCGTTTACC CTGTGAAGAT GGTTGTCAGG GGGGACCACA CATATGCTGA TAGCTATCTC
    ACAGTTCTGC CGAAAGGGGC GGAATTTGTA GTGTTCAGCA TTGATGGATC ATTTGCGGCA
    AGTGTTTCTA TTATGGGCAG TGATCCCAAA GTCCGAGCAG GAGCAGTCGA TGTAGTGAGG
    CACTGGCAGG ACCTTGGCTA CCTCATTATC TATGTCACAG GTAGACCTGA CATGCAGAAG
    CAGAGGGTAG TGGCATGGCT TGCACAGCAC AACTTTCCAC ATGGCATTGT GTCTTTTTGT
    GATGGACTGG TCCATGATCC TCTGCGACAT AAAGCAAACT TTTTGAAAAG CCTAATCCAC
    GATGTACACA TGAAGGTGCA CGCAGCATAT GGTTCCACTA AGGATATCAC AGTATACAGC
    TCTCTTGGTT TGTCACCAAT GCAGATTTAT ATAGTTGGTC GGCCCACCAA GAAGTTACAG
    CATCAGTGTC AGTTTATCAC AGAGGGCTAT GCTGCTCACC TTGCTCAACT GGAATATAAT
    CACCGTTCTC GACCTGCTAA GAATACCAGC AGGATGGCGC TAAGAAAAGG GAGCTTCTGT
    CTTCCCGGCC AATCAGATTT CCTTCGAAAG AGGAACCACT TGCTTCGTAC TATCTCCTCA
    CAACCAACGG GGAGCAGCAA CCACAAACCA GAGCGGACAC AGAGCCAGTC AGAGAGTGAG
    AGGGACCGGG AGAAGGAACG TAGCCAAAGA AGCATGAGCA TTGCTGCAGG GTGTTGGGGA
    AGGAGTGCAG CCACCACTAA GCAGGAATCT GGCGTTTTAA GTCAGAAGTA G

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

    CloneID OXa32729
    Clone ID Related Accession (Same CDS sequence) XM_012957572.2 , XM_012957585.2
    Accession Version XM_012957572.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957572.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAGGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    RefSeq XP_012813026.1
    CDS1182..5489
    Translation

    Target ORF information:

    RefSeq Version XM_012957572.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957572.2

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAGGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    CloneID OXa32729
    Clone ID Related Accession (Same CDS sequence) XM_012957572.2 , XM_012957585.2
    Accession Version XM_012957585.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4308bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957585.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAGGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    RefSeq XP_012813039.1
    CDS1095..5402
    Translation

    Target ORF information:

    RefSeq Version XM_012957585.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957585.2

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA AAACAAAAAA TGATCTTAAA AATTCCAGAA AGTTAAGTCT CCTATCCCAG
    CTTGCACTCC CCTACCAATC CCAAACAATA CCGAGTACCC CACCAAACCA TAGACAGTAC
    CATTCTGAGC AGAGTAAAAT AGGAAGAACA ATAGAGGTGG GGGATCGGAG GCACAAGATG
    AACCCAGGCA TCCAACCCTC GGACATCTCC AGAGTTGCAG CAAAGTGGTG GGGCACAAAG
    CGAATTGACT ATGCTCTTTA CTGTCCGGAT GCCCTCACAG CATTCCCCAC AGTTGCCCTC
    CCTCATCTTT TCCATGCCAG TTACTGGGAG TCCACAGATG TTGTCTCTTT CCTCTTAAGG
    CAGGTCATGA GACATGAAAA TTCAAGCATT CTAGATTTAG TTGGAAAAGA GGTTTCTGAG
    TTCAGTCCTT CAAAGCCGAG GGAGAAATGG CTGCGGAAAA GAACGCATGT AAAACTAAGG
    AATGTTGCTG CAAACCACAG AATTAATGAT GCTGTTGCCA ATGAGGATGG GCCTCAGACA
    ATGACAGGAA GATTCATGTA CGGCCCTCTT GACATGGTCA CACTGACTGG GGAAAAGGTT
    GACATTCACA TTATGACCCA GCCTCCCGCT GGAGAGTGGG TTTACTTTGA CACTGAAATA
    AGTAATAGCA GTGGCAGAAT TTCCTACGTC ATTCCTGAAA ACAAAAGGCT TGGGATTGGC
    GTTTACCCTG TGAAGATGGT TGTCAGGGGG GACCACACAT ATGCTGATAG CTATCTCACA
    GTTCTGCCGA AAGGGGCGGA ATTTGTAGTG TTCAGCATTG ATGGATCATT TGCGGCAAGT
    GTTTCTATTA TGGGCAGTGA TCCCAAAGTC CGAGCAGGAG CAGTCGATGT AGTGAGGCAC
    TGGCAGGACC TTGGCTACCT CATTATCTAT GTCACAGGTA GACCTGACAT GCAGAAGCAG
    AGGGTAGTGG CATGGCTTGC ACAGCACAAC TTTCCACATG GCATTGTGTC TTTTTGTGAT
    GGACTGGTCC ATGATCCTCT GCGACATAAA GCAAACTTTT TGAAAAGCCT AATCCACGAT
    GTACACATGA AGGTGCACGC AGCATATGGT TCCACTAAGG ATATCACAGT ATACAGCTCT
    CTTGGTTTGT CACCAATGCA GATTTATATA GTTGGTCGGC CCACCAAGAA GTTACAGCAT
    CAGTGTCAGT TTATCACAGA GGGCTATGCT GCTCACCTTG CTCAACTGGA ATATAATCAC
    CGTTCTCGAC CTGCTAAGAA TACCAGCAGG ATGGCGCTAA GAAAAGGGAG CTTCTGTCTT
    CCCGGCCAAT CAGATTTCCT TCGAAAGAGG AACCACTTGC TTCGTACTAT CTCCTCACAA
    CCAACGGGGA GCAGCAACCA CAAACCAGAG CGGACACAGA GCCAGTCAGA GAGTGAGAGG
    GACCGGGAGA AGGAACGTAG CCAAAGAAGC ATGAGCATTG CTGCAGGGTG TTGGGGAAGG
    AGTGCAGCCA CCACTAAGCA GGAATCTGGC GTTTTAAGTC AGAAGTAG

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

    CloneID OXa32730
    Clone ID Related Accession (Same CDS sequence) XM_012957587.2
    Accession Version XM_012957587.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4305bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957587.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGATTTG
    TCAGACAATG AGGAAGTGTT GCCCAAAGAA ATCACAAAAT GGAGCTCTAA TGACCTGATG
    GACAAGATAG AAACAGCTGA GAATGACGAA CTACAAGACG ATTCATACCA CGAACCTGCA
    GAATACACAG TCAGTTCGAG TGTGGAGGGA TTAAGTATAA TGGAGACACA CACTACAGTA
    ATCCACGCAC AAGTCATTCC CAGAATACCT GCTGTTACCC TCACAAATGT CATTACAAGT
    CCCACAGATC TGGCAGCAGA TGAATCAGCA CAGGTCTCTG CGCAGCCATG TAAAATCCAT
    GTACTCATTT TGGTGCTTCA TGGAGGCAAT ATTCTAGACA CAGGCTGTGG AGATCAGAAT
    TCAAAGCAGG GTGATGTCAA CACCATCAAT TCAGTGTTTG ATACAGTAAT GAGGGTCCAT
    TACCCAGCTG CATTAGGGCA TATTGCAGTC AAGCTTGTTC CTTGCCCAGC TATCTGTGCT
    GAAGCCTTTT CACTAGTATC CAGCTTGAGC CCCTACAGTT ATGATGAAGG CTGCTTGTCC
    AATAGCCAGG ATCACATACC ACTGGCTGCC CTTCCACTTT TGGCCACCTC ATCCCCACAA
    TACCTTGAAG CAGTGGCCAC TGTGATTCAT CGAGCCAACC AGGTCTACGC TGAGTTCACC
    AAGTCACAGG AGGGAATGTC CTTCACTGGA CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA
    GGAATCCTAG GATTTGATGC CTTATGTTAC AGCAATCAGA CTGTGTCAGA GAGCCAGAAT
    AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG CAGGACACAG ACCTTCTATC TCCAGGTATT
    AGCGTTAACA ACAGCTACTG TTCCACAAGT TCAAATCTGG AAACTAGTCG CCACCTTAGT
    CGGAGCAATA TTGACATACC TCGGAGTAAT GGTGAAGACC CAAAGAGACA GCTACCACGA
    AAGCGGAGTG ATTCCTCAAC ATATGAACTG GACACTATCA AGCAGCACCA AGCATTTCTT
    TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT GACCCAGGAT CGCGAAGGTC AAGTAGCTCC
    ACAATGCTGG ATGGTGGCAG TATTGGGAAG TTTGACTTTG AGATCACTGA CTTCTTTCTG
    TTTGGGTCCC CACTCGGCCT GGTTCTGGCT CTCAGAAAAA CGGTGATTCC ACTATTGGAT
    GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA GTTTACAACC TCTTCCACCC AGCCGACCCA
    TCCGCCTCTC GAGTGGAACC CCTTCTGGAG AAGAAATTTC ATTTGCTGCC CCCTTTCAAT
    GTCCCTAGGT ATCAAAGGTT CCCATTGGGT GATGGAAACT CTGCCCTGTT GGTCGAGGCT
    ATACAGAACA ATCCCATCCT TCTCATGGAA GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA
    GATGGCGTCA TGGAAACCAG TATCCCTGTT CCTGTCCTAA GCTGCCAAGA CACTTCCAGT
    AAACATGCCA CTTGTGTTGA CTCGGATGTT GTTCAATTTC ATGGTGCAGT CTTCGTGGAA
    AATGCCTCCC CTTCTTCCCC TATAACAGCC CCCCACTTCA GGGGATACCG AAGAGCAAGT
    GAAATCAGCA TTGCAAGTCA GGTCTCTGGA ATGGCAGACA GTTACACGGC CTCAAACATA
    GCCAACAAAA CAAAAAATGA TCTTAAAAAT TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT
    GCACTCCCCT ACCAATCCCA AACAATACCG AGTACCCCAC CAAACCATAG ACAGTACCAT
    TCTGAGCAGA GTAAAATAGG AAGAACAATA GAGGTGGGGG ATCGGAGGCA CAAGATGAAC
    CCAGGCATCC AACCCTCGGA CATCTCCAGA GTTGCAGCAA AGTGGTGGGG CACAAAGCGA
    ATTGACTATG CTCTTTACTG TCCGGATGCC CTCACAGCAT TCCCCACAGT TGCCCTCCCT
    CATCTTTTCC ATGCCAGTTA CTGGGAGTCC ACAGATGTTG TCTCTTTCCT CTTAAGGCAG
    GTCATGAGAC ATGAAAATTC AAGCATTCTA GATTTAGTTG GAAAAGAGGT TTCTGAGTTC
    AGTCCTTCAA AGCCGAGGGA GAAATGGCTG CGGAAAAGAA CGCATGTAAA ACTAAGGAAT
    GTTGCTGCAA ACCACAGAAT TAATGATGCT GTTGCCAATG AGGATGGGCC TCAGACAATG
    ACAGGAAGAT TCATGTACGG CCCTCTTGAC ATGGTCACAC TGACTGGGGA AAAGGTTGAC
    ATTCACATTA TGACCCAGCC TCCCGCTGGA GAGTGGGTTT ACTTTGACAC TGAAATAAGT
    AATAGCAGTG GCAGAATTTC CTACGTCATT CCTGAAAACA AAAGGCTTGG GATTGGCGTT
    TACCCTGTGA AGATGGTTGT CAGGGGGGAC CACACATATG CTGATAGCTA TCTCACAGTT
    CTGCCGAAAG GGGCGGAATT TGTAGTGTTC AGCATTGATG GATCATTTGC GGCAAGTGTT
    TCTATTATGG GCAGTGATCC CAAAGTCCGA GCAGGAGCAG TCGATGTAGT GAGGCACTGG
    CAGGACCTTG GCTACCTCAT TATCTATGTC ACAGGTAGAC CTGACATGCA GAAGCAGAGG
    GTAGTGGCAT GGCTTGCACA GCACAACTTT CCACATGGCA TTGTGTCTTT TTGTGATGGA
    CTGGTCCATG ATCCTCTGCG ACATAAAGCA AACTTTTTGA AAAGCCTAAT CCACGATGTA
    CACATGAAGG TGCACGCAGC ATATGGTTCC ACTAAGGATA TCACAGTATA CAGCTCTCTT
    GGTTTGTCAC CAATGCAGAT TTATATAGTT GGTCGGCCCA CCAAGAAGTT ACAGCATCAG
    TGTCAGTTTA TCACAGAGGG CTATGCTGCT CACCTTGCTC AACTGGAATA TAATCACCGT
    TCTCGACCTG CTAAGAATAC CAGCAGGATG GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC
    GGCCAATCAG ATTTCCTTCG AAAGAGGAAC CACTTGCTTC GTACTATCTC CTCACAACCA
    ACGGGGAGCA GCAACCACAA ACCAGAGCGG ACACAGAGCC AGTCAGAGAG TGAGAGGGAC
    CGGGAGAAGG AACGTAGCCA AAGAAGCATG AGCATTGCTG CAGGGTGTTG GGGAAGGAGT
    GCAGCCACCA CTAAGCAGGA ATCTGGCGTT TTAAGTCAGA AGTAG

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

    RefSeq XP_012813041.1
    CDS1182..5486
    Translation

    Target ORF information:

    RefSeq Version XM_012957587.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957587.2

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGATTTG
    TCAGACAATG AGGAAGTGTT GCCCAAAGAA ATCACAAAAT GGAGCTCTAA TGACCTGATG
    GACAAGATAG AAACAGCTGA GAATGACGAA CTACAAGACG ATTCATACCA CGAACCTGCA
    GAATACACAG TCAGTTCGAG TGTGGAGGGA TTAAGTATAA TGGAGACACA CACTACAGTA
    ATCCACGCAC AAGTCATTCC CAGAATACCT GCTGTTACCC TCACAAATGT CATTACAAGT
    CCCACAGATC TGGCAGCAGA TGAATCAGCA CAGGTCTCTG CGCAGCCATG TAAAATCCAT
    GTACTCATTT TGGTGCTTCA TGGAGGCAAT ATTCTAGACA CAGGCTGTGG AGATCAGAAT
    TCAAAGCAGG GTGATGTCAA CACCATCAAT TCAGTGTTTG ATACAGTAAT GAGGGTCCAT
    TACCCAGCTG CATTAGGGCA TATTGCAGTC AAGCTTGTTC CTTGCCCAGC TATCTGTGCT
    GAAGCCTTTT CACTAGTATC CAGCTTGAGC CCCTACAGTT ATGATGAAGG CTGCTTGTCC
    AATAGCCAGG ATCACATACC ACTGGCTGCC CTTCCACTTT TGGCCACCTC ATCCCCACAA
    TACCTTGAAG CAGTGGCCAC TGTGATTCAT CGAGCCAACC AGGTCTACGC TGAGTTCACC
    AAGTCACAGG AGGGAATGTC CTTCACTGGA CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA
    GGAATCCTAG GATTTGATGC CTTATGTTAC AGCAATCAGA CTGTGTCAGA GAGCCAGAAT
    AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG CAGGACACAG ACCTTCTATC TCCAGGTATT
    AGCGTTAACA ACAGCTACTG TTCCACAAGT TCAAATCTGG AAACTAGTCG CCACCTTAGT
    CGGAGCAATA TTGACATACC TCGGAGTAAT GGTGAAGACC CAAAGAGACA GCTACCACGA
    AAGCGGAGTG ATTCCTCAAC ATATGAACTG GACACTATCA AGCAGCACCA AGCATTTCTT
    TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT GACCCAGGAT CGCGAAGGTC AAGTAGCTCC
    ACAATGCTGG ATGGTGGCAG TATTGGGAAG TTTGACTTTG AGATCACTGA CTTCTTTCTG
    TTTGGGTCCC CACTCGGCCT GGTTCTGGCT CTCAGAAAAA CGGTGATTCC ACTATTGGAT
    GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA GTTTACAACC TCTTCCACCC AGCCGACCCA
    TCCGCCTCTC GAGTGGAACC CCTTCTGGAG AAGAAATTTC ATTTGCTGCC CCCTTTCAAT
    GTCCCTAGGT ATCAAAGGTT CCCATTGGGT GATGGAAACT CTGCCCTGTT GGTCGAGGCT
    ATACAGAACA ATCCCATCCT TCTCATGGAA GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA
    GATGGCGTCA TGGAAACCAG TATCCCTGTT CCTGTCCTAA GCTGCCAAGA CACTTCCAGT
    AAACATGCCA CTTGTGTTGA CTCGGATGTT GTTCAATTTC ATGGTGCAGT CTTCGTGGAA
    AATGCCTCCC CTTCTTCCCC TATAACAGCC CCCCACTTCA GGGGATACCG AAGAGCAAGT
    GAAATCAGCA TTGCAAGTCA GGTCTCTGGA ATGGCAGACA GTTACACGGC CTCAAACATA
    GCCAACAAAA CAAAAAATGA TCTTAAAAAT TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT
    GCACTCCCCT ACCAATCCCA AACAATACCG AGTACCCCAC CAAACCATAG ACAGTACCAT
    TCTGAGCAGA GTAAAATAGG AAGAACAATA GAGGTGGGGG ATCGGAGGCA CAAGATGAAC
    CCAGGCATCC AACCCTCGGA CATCTCCAGA GTTGCAGCAA AGTGGTGGGG CACAAAGCGA
    ATTGACTATG CTCTTTACTG TCCGGATGCC CTCACAGCAT TCCCCACAGT TGCCCTCCCT
    CATCTTTTCC ATGCCAGTTA CTGGGAGTCC ACAGATGTTG TCTCTTTCCT CTTAAGGCAG
    GTCATGAGAC ATGAAAATTC AAGCATTCTA GATTTAGTTG GAAAAGAGGT TTCTGAGTTC
    AGTCCTTCAA AGCCGAGGGA GAAATGGCTG CGGAAAAGAA CGCATGTAAA ACTAAGGAAT
    GTTGCTGCAA ACCACAGAAT TAATGATGCT GTTGCCAATG AGGATGGGCC TCAGACAATG
    ACAGGAAGAT TCATGTACGG CCCTCTTGAC ATGGTCACAC TGACTGGGGA AAAGGTTGAC
    ATTCACATTA TGACCCAGCC TCCCGCTGGA GAGTGGGTTT ACTTTGACAC TGAAATAAGT
    AATAGCAGTG GCAGAATTTC CTACGTCATT CCTGAAAACA AAAGGCTTGG GATTGGCGTT
    TACCCTGTGA AGATGGTTGT CAGGGGGGAC CACACATATG CTGATAGCTA TCTCACAGTT
    CTGCCGAAAG GGGCGGAATT TGTAGTGTTC AGCATTGATG GATCATTTGC GGCAAGTGTT
    TCTATTATGG GCAGTGATCC CAAAGTCCGA GCAGGAGCAG TCGATGTAGT GAGGCACTGG
    CAGGACCTTG GCTACCTCAT TATCTATGTC ACAGGTAGAC CTGACATGCA GAAGCAGAGG
    GTAGTGGCAT GGCTTGCACA GCACAACTTT CCACATGGCA TTGTGTCTTT TTGTGATGGA
    CTGGTCCATG ATCCTCTGCG ACATAAAGCA AACTTTTTGA AAAGCCTAAT CCACGATGTA
    CACATGAAGG TGCACGCAGC ATATGGTTCC ACTAAGGATA TCACAGTATA CAGCTCTCTT
    GGTTTGTCAC CAATGCAGAT TTATATAGTT GGTCGGCCCA CCAAGAAGTT ACAGCATCAG
    TGTCAGTTTA TCACAGAGGG CTATGCTGCT CACCTTGCTC AACTGGAATA TAATCACCGT
    TCTCGACCTG CTAAGAATAC CAGCAGGATG GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC
    GGCCAATCAG ATTTCCTTCG AAAGAGGAAC CACTTGCTTC GTACTATCTC CTCACAACCA
    ACGGGGAGCA GCAACCACAA ACCAGAGCGG ACACAGAGCC AGTCAGAGAG TGAGAGGGAC
    CGGGAGAAGG AACGTAGCCA AAGAAGCATG AGCATTGCTG CAGGGTGTTG GGGAAGGAGT
    GCAGCCACCA CTAAGCAGGA ATCTGGCGTT TTAAGTCAGA AGTAG

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

    CloneID OXa32731
    Clone ID Related Accession (Same CDS sequence) XM_012957588.2
    Accession Version XM_012957588.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4284bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957588.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    ACGGATGTTG TTCAATTTCA TGGTGCAGTC TTCGTGGAAA ATGCCTCCCC TTCTTCCCCT
    ATAACAGCCC CCCACTTCAG GGGATACCGA AGAGCAAGTG AAATCAGCAT TGCAAGTCAG
    GTCTCTGGAA TGGCAGACAG TTACACGGCC TCAAACATAG CCAACAAAAC AAAAAATGAT
    CTTAAAAATT CCAGAAAGTT AAGTCTCCTA TCCCAGCTTG CACTCCCCTA CCAATCCCAA
    ACAATACCGA GTACCCCACC AAACCATAGA CAGTACCATT CTGAGCAGAG TAAAATAGGA
    AGAACAATAG AGGTGGGGGA TCGGAGGCAC AAGATGAACC CAGGCATCCA ACCCTCGGAC
    ATCTCCAGAG TTGCAGCAAA GTGGTGGGGC ACAAAGCGAA TTGACTATGC TCTTTACTGT
    CCGGATGCCC TCACAGCATT CCCCACAGTT GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC
    TGGGAGTCCA CAGATGTTGT CTCTTTCCTC TTAAGGCAGG TCATGAGACA TGAAAATTCA
    AGCATTCTAG ATTTAGTTGG AAAAGAGGTT TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG
    AAATGGCTGC GGAAAAGAAC GCATGTAAAA CTAAGGAATG TTGCTGCAAA CCACAGAATT
    AATGATGCTG TTGCCAATGA GGATGGGCCT CAGACAATGA CAGGAAGATT CATGTACGGC
    CCTCTTGACA TGGTCACACT GACTGGGGAA AAGGTTGACA TTCACATTAT GACCCAGCCT
    CCCGCTGGAG AGTGGGTTTA CTTTGACACT GAAATAAGTA ATAGCAGTGG CAGAATTTCC
    TACGTCATTC CTGAAAACAA AAGGCTTGGG ATTGGCGTTT ACCCTGTGAA GATGGTTGTC
    AGGGGGGACC ACACATATGC TGATAGCTAT CTCACAGTTC TGCCGAAAGG GGCGGAATTT
    GTAGTGTTCA GCATTGATGG ATCATTTGCG GCAAGTGTTT CTATTATGGG CAGTGATCCC
    AAAGTCCGAG CAGGAGCAGT CGATGTAGTG AGGCACTGGC AGGACCTTGG CTACCTCATT
    ATCTATGTCA CAGGTAGACC TGACATGCAG AAGCAGAGGG TAGTGGCATG GCTTGCACAG
    CACAACTTTC CACATGGCAT TGTGTCTTTT TGTGATGGAC TGGTCCATGA TCCTCTGCGA
    CATAAAGCAA ACTTTTTGAA AAGCCTAATC CACGATGTAC ACATGAAGGT GCACGCAGCA
    TATGGTTCCA CTAAGGATAT CACAGTATAC AGCTCTCTTG GTTTGTCACC AATGCAGATT
    TATATAGTTG GTCGGCCCAC CAAGAAGTTA CAGCATCAGT GTCAGTTTAT CACAGAGGGC
    TATGCTGCTC ACCTTGCTCA ACTGGAATAT AATCACCGTT CTCGACCTGC TAAGAATACC
    AGCAGGATGG CGCTAAGAAA AGGGAGCTTC TGTCTTCCCG GCCAATCAGA TTTCCTTCGA
    AAGAGGAACC ACTTGCTTCG TACTATCTCC TCACAACCAA CGGGGAGCAG CAACCACAAA
    CCAGAGCGGA CACAGAGCCA GTCAGAGAGT GAGAGGGACC GGGAGAAGGA ACGTAGCCAA
    AGAAGCATGA GCATTGCTGC AGGGTGTTGG GGAAGGAGTG CAGCCACCAC TAAGCAGGAA
    TCTGGCGTTT TAAGTCAGAA GTAG

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

    RefSeq XP_012813042.1
    CDS1182..5465
    Translation

    Target ORF information:

    RefSeq Version XM_012957588.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957588.2

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    ACGGATGTTG TTCAATTTCA TGGTGCAGTC TTCGTGGAAA ATGCCTCCCC TTCTTCCCCT
    ATAACAGCCC CCCACTTCAG GGGATACCGA AGAGCAAGTG AAATCAGCAT TGCAAGTCAG
    GTCTCTGGAA TGGCAGACAG TTACACGGCC TCAAACATAG CCAACAAAAC AAAAAATGAT
    CTTAAAAATT CCAGAAAGTT AAGTCTCCTA TCCCAGCTTG CACTCCCCTA CCAATCCCAA
    ACAATACCGA GTACCCCACC AAACCATAGA CAGTACCATT CTGAGCAGAG TAAAATAGGA
    AGAACAATAG AGGTGGGGGA TCGGAGGCAC AAGATGAACC CAGGCATCCA ACCCTCGGAC
    ATCTCCAGAG TTGCAGCAAA GTGGTGGGGC ACAAAGCGAA TTGACTATGC TCTTTACTGT
    CCGGATGCCC TCACAGCATT CCCCACAGTT GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC
    TGGGAGTCCA CAGATGTTGT CTCTTTCCTC TTAAGGCAGG TCATGAGACA TGAAAATTCA
    AGCATTCTAG ATTTAGTTGG AAAAGAGGTT TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG
    AAATGGCTGC GGAAAAGAAC GCATGTAAAA CTAAGGAATG TTGCTGCAAA CCACAGAATT
    AATGATGCTG TTGCCAATGA GGATGGGCCT CAGACAATGA CAGGAAGATT CATGTACGGC
    CCTCTTGACA TGGTCACACT GACTGGGGAA AAGGTTGACA TTCACATTAT GACCCAGCCT
    CCCGCTGGAG AGTGGGTTTA CTTTGACACT GAAATAAGTA ATAGCAGTGG CAGAATTTCC
    TACGTCATTC CTGAAAACAA AAGGCTTGGG ATTGGCGTTT ACCCTGTGAA GATGGTTGTC
    AGGGGGGACC ACACATATGC TGATAGCTAT CTCACAGTTC TGCCGAAAGG GGCGGAATTT
    GTAGTGTTCA GCATTGATGG ATCATTTGCG GCAAGTGTTT CTATTATGGG CAGTGATCCC
    AAAGTCCGAG CAGGAGCAGT CGATGTAGTG AGGCACTGGC AGGACCTTGG CTACCTCATT
    ATCTATGTCA CAGGTAGACC TGACATGCAG AAGCAGAGGG TAGTGGCATG GCTTGCACAG
    CACAACTTTC CACATGGCAT TGTGTCTTTT TGTGATGGAC TGGTCCATGA TCCTCTGCGA
    CATAAAGCAA ACTTTTTGAA AAGCCTAATC CACGATGTAC ACATGAAGGT GCACGCAGCA
    TATGGTTCCA CTAAGGATAT CACAGTATAC AGCTCTCTTG GTTTGTCACC AATGCAGATT
    TATATAGTTG GTCGGCCCAC CAAGAAGTTA CAGCATCAGT GTCAGTTTAT CACAGAGGGC
    TATGCTGCTC ACCTTGCTCA ACTGGAATAT AATCACCGTT CTCGACCTGC TAAGAATACC
    AGCAGGATGG CGCTAAGAAA AGGGAGCTTC TGTCTTCCCG GCCAATCAGA TTTCCTTCGA
    AAGAGGAACC ACTTGCTTCG TACTATCTCC TCACAACCAA CGGGGAGCAG CAACCACAAA
    CCAGAGCGGA CACAGAGCCA GTCAGAGAGT GAGAGGGACC GGGAGAAGGA ACGTAGCCAA
    AGAAGCATGA GCATTGCTGC AGGGTGTTGG GGAAGGAGTG CAGCCACCAC TAAGCAGGAA
    TCTGGCGTTT TAAGTCAGAA GTAG

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

    CloneID OXa32732
    Clone ID Related Accession (Same CDS sequence) XM_012957592.2
    Accession Version XM_012957592.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4215bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957592.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGTCGAGGCT ATACAGAACA ATCCCATCCT TCTCATGGAA
    GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA GATGGCGTCA TGGAAACCAG TATCCCTGTT
    CCTGTCCTAA GCTGCCAAGA CACTTCCAGT AAACATGCCA CTTGTGTTGA CTCGGATGTT
    GTTCAATTTC ATGGTGCAGT CTTCGTGGAA AATGCCTCCC CTTCTTCCCC TATAACAGCC
    CCCCACTTCA GGGGATACCG AAGAGCAAGT GAAATCAGCA TTGCAAGTCA GGTCTCTGGA
    ATGGCAGACA GTTACACGGC CTCAAACATA GCCAACAAAA CAAAAAATGA TCTTAAAAAT
    TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT GCACTCCCCT ACCAATCCCA AACAATACCG
    AGTACCCCAC CAAACCATAG ACAGTACCAT TCTGAGCAGA GTAAAATAGG AAGAACAATA
    GAGGTGGGGG ATCGGAGGCA CAAGATGAAC CCAGGCATCC AACCCTCGGA CATCTCCAGA
    GTTGCAGCAA AGTGGTGGGG CACAAAGCGA ATTGACTATG CTCTTTACTG TCCGGATGCC
    CTCACAGCAT TCCCCACAGT TGCCCTCCCT CATCTTTTCC ATGCCAGTTA CTGGGAGTCC
    ACAGATGTTG TCTCTTTCCT CTTAAGGCAG GTCATGAGAC ATGAAAATTC AAGCATTCTA
    GATTTAGTTG GAAAAGAGGT TTCTGAGTTC AGTCCTTCAA AGCCGAGGGA GAAATGGCTG
    CGGAAAAGAA CGCATGTAAA ACTAAGGAAT GTTGCTGCAA ACCACAGAAT TAATGATGCT
    GTTGCCAATG AGGATGGGCC TCAGACAATG ACAGGAAGAT TCATGTACGG CCCTCTTGAC
    ATGGTCACAC TGACTGGGGA AAAGGTTGAC ATTCACATTA TGACCCAGCC TCCCGCTGGA
    GAGTGGGTTT ACTTTGACAC TGAAATAAGT AATAGCAGTG GCAGAATTTC CTACGTCATT
    CCTGAAAACA AAAGGCTTGG GATTGGCGTT TACCCTGTGA AGATGGTTGT CAGGGGGGAC
    CACACATATG CTGATAGCTA TCTCACAGTT CTGCCGAAAG GGGCGGAATT TGTAGTGTTC
    AGCATTGATG GATCATTTGC GGCAAGTGTT TCTATTATGG GCAGTGATCC CAAAGTCCGA
    GCAGGAGCAG TCGATGTAGT GAGGCACTGG CAGGACCTTG GCTACCTCAT TATCTATGTC
    ACAGGTAGAC CTGACATGCA GAAGCAGAGG GTAGTGGCAT GGCTTGCACA GCACAACTTT
    CCACATGGCA TTGTGTCTTT TTGTGATGGA CTGGTCCATG ATCCTCTGCG ACATAAAGCA
    AACTTTTTGA AAAGCCTAAT CCACGATGTA CACATGAAGG TGCACGCAGC ATATGGTTCC
    ACTAAGGATA TCACAGTATA CAGCTCTCTT GGTTTGTCAC CAATGCAGAT TTATATAGTT
    GGTCGGCCCA CCAAGAAGTT ACAGCATCAG TGTCAGTTTA TCACAGAGGG CTATGCTGCT
    CACCTTGCTC AACTGGAATA TAATCACCGT TCTCGACCTG CTAAGAATAC CAGCAGGATG
    GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC GGCCAATCAG ATTTCCTTCG AAAGAGGAAC
    CACTTGCTTC GTACTATCTC CTCACAACCA ACGGGGAGCA GCAACCACAA ACCAGAGCGG
    ACACAGAGCC AGTCAGAGAG TGAGAGGGAC CGGGAGAAGG AACGTAGCCA AAGAAGCATG
    AGCATTGCTG CAGGGTGTTG GGGAAGGAGT GCAGCCACCA CTAAGCAGGA ATCTGGCGTT
    TTAAGTCAGA AGTAG

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

    RefSeq XP_012813046.1
    CDS1181..5395
    Translation

    Target ORF information:

    RefSeq Version XM_012957592.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957592.2

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGGA TGAATCAGCA
    CAGGTCTCTG CGCAGCCATG TAAAATCCAT GTACTCATTT TGGTGCTTCA TGGAGGCAAT
    ATTCTAGACA CAGGCTGTGG AGATCAGAAT TCAAAGCAGG GTGATGTCAA CACCATCAAT
    TCAGTGTTTG ATACAGTAAT GAGGGTCCAT TACCCAGCTG CATTAGGGCA TATTGCAGTC
    AAGCTTGTTC CTTGCCCAGC TATCTGTGCT GAAGCCTTTT CACTAGTATC CAGCTTGAGC
    CCCTACAGTT ATGATGAAGG CTGCTTGTCC AATAGCCAGG ATCACATACC ACTGGCTGCC
    CTTCCACTTT TGGCCACCTC ATCCCCACAA TACCTTGAAG CAGTGGCCAC TGTGATTCAT
    CGAGCCAACC AGGTCTACGC TGAGTTCACC AAGTCACAGG AGGGAATGTC CTTCACTGGA
    CAGGTGTGCT TAGTTGGTGA TTGTGTTGGA GGAATCCTAG GATTTGATGC CTTATGTTAC
    AGCAATCAGA CTGTGTCAGA GAGCCAGAAT AGCAGCCGAA GAGGAAGTGT TGTGAGTGTG
    CAGGACACAG ACCTTCTATC TCCAGGTATT AGCGTTAACA ACAGCTACTG TTCCACAAGT
    TCAAATCTGG AAACTAGTCG CCACCTTAGT CGGAGCAATA TTGACATACC TCGGAGTAAT
    GGTGAAGACC CAAAGAGACA GCTACCACGA AAGCGGAGTG ATTCCTCAAC ATATGAACTG
    GACACTATCA AGCAGCACCA AGCATTTCTT TCTAGTTTAC ACTCTAGTGT CCTAAGGAAT
    GACCCAGGAT CGCGAAGGTC AAGTAGCTCC ACAATGCTGG ATGGTGGCAG TATTGGGAAG
    TTTGACTTTG AGATCACTGA CTTCTTTCTG TTTGGGTCCC CACTCGGCCT GGTTCTGGCT
    CTCAGAAAAA CGGTGATTCC ACTATTGGAT GTTTTCCAGC TCAGGCCTGG CTGCCAGCAA
    GTTTACAACC TCTTCCACCC AGCCGACCCA TCCGCCTCTC GAGTGGAACC CCTTCTGGAG
    AAGAAATTTC ATTTGCTGCC CCCTTTCAAT GTCCCTAGGT ATCAAAGGTT CCCATTGGGT
    GATGGAAACT CTGCCCTGTT GGTCGAGGCT ATACAGAACA ATCCCATCCT TCTCATGGAA
    GGCAGCCCGG CAGTTGCTCT CCAGCGTCAA GATGGCGTCA TGGAAACCAG TATCCCTGTT
    CCTGTCCTAA GCTGCCAAGA CACTTCCAGT AAACATGCCA CTTGTGTTGA CTCGGATGTT
    GTTCAATTTC ATGGTGCAGT CTTCGTGGAA AATGCCTCCC CTTCTTCCCC TATAACAGCC
    CCCCACTTCA GGGGATACCG AAGAGCAAGT GAAATCAGCA TTGCAAGTCA GGTCTCTGGA
    ATGGCAGACA GTTACACGGC CTCAAACATA GCCAACAAAA CAAAAAATGA TCTTAAAAAT
    TCCAGAAAGT TAAGTCTCCT ATCCCAGCTT GCACTCCCCT ACCAATCCCA AACAATACCG
    AGTACCCCAC CAAACCATAG ACAGTACCAT TCTGAGCAGA GTAAAATAGG AAGAACAATA
    GAGGTGGGGG ATCGGAGGCA CAAGATGAAC CCAGGCATCC AACCCTCGGA CATCTCCAGA
    GTTGCAGCAA AGTGGTGGGG CACAAAGCGA ATTGACTATG CTCTTTACTG TCCGGATGCC
    CTCACAGCAT TCCCCACAGT TGCCCTCCCT CATCTTTTCC ATGCCAGTTA CTGGGAGTCC
    ACAGATGTTG TCTCTTTCCT CTTAAGGCAG GTCATGAGAC ATGAAAATTC AAGCATTCTA
    GATTTAGTTG GAAAAGAGGT TTCTGAGTTC AGTCCTTCAA AGCCGAGGGA GAAATGGCTG
    CGGAAAAGAA CGCATGTAAA ACTAAGGAAT GTTGCTGCAA ACCACAGAAT TAATGATGCT
    GTTGCCAATG AGGATGGGCC TCAGACAATG ACAGGAAGAT TCATGTACGG CCCTCTTGAC
    ATGGTCACAC TGACTGGGGA AAAGGTTGAC ATTCACATTA TGACCCAGCC TCCCGCTGGA
    GAGTGGGTTT ACTTTGACAC TGAAATAAGT AATAGCAGTG GCAGAATTTC CTACGTCATT
    CCTGAAAACA AAAGGCTTGG GATTGGCGTT TACCCTGTGA AGATGGTTGT CAGGGGGGAC
    CACACATATG CTGATAGCTA TCTCACAGTT CTGCCGAAAG GGGCGGAATT TGTAGTGTTC
    AGCATTGATG GATCATTTGC GGCAAGTGTT TCTATTATGG GCAGTGATCC CAAAGTCCGA
    GCAGGAGCAG TCGATGTAGT GAGGCACTGG CAGGACCTTG GCTACCTCAT TATCTATGTC
    ACAGGTAGAC CTGACATGCA GAAGCAGAGG GTAGTGGCAT GGCTTGCACA GCACAACTTT
    CCACATGGCA TTGTGTCTTT TTGTGATGGA CTGGTCCATG ATCCTCTGCG ACATAAAGCA
    AACTTTTTGA AAAGCCTAAT CCACGATGTA CACATGAAGG TGCACGCAGC ATATGGTTCC
    ACTAAGGATA TCACAGTATA CAGCTCTCTT GGTTTGTCAC CAATGCAGAT TTATATAGTT
    GGTCGGCCCA CCAAGAAGTT ACAGCATCAG TGTCAGTTTA TCACAGAGGG CTATGCTGCT
    CACCTTGCTC AACTGGAATA TAATCACCGT TCTCGACCTG CTAAGAATAC CAGCAGGATG
    GCGCTAAGAA AAGGGAGCTT CTGTCTTCCC GGCCAATCAG ATTTCCTTCG AAAGAGGAAC
    CACTTGCTTC GTACTATCTC CTCACAACCA ACGGGGAGCA GCAACCACAA ACCAGAGCGG
    ACACAGAGCC AGTCAGAGAG TGAGAGGGAC CGGGAGAAGG AACGTAGCCA AAGAAGCATG
    AGCATTGCTG CAGGGTGTTG GGGAAGGAGT GCAGCCACCA CTAAGCAGGA ATCTGGCGTT
    TTAAGTCAGA AGTAG

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

    CloneID OXa32733
    Clone ID Related Accession (Same CDS sequence) XM_012957598.2
    Accession Version XM_012957598.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 4104bp)
    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 2016-09-07
    Organism Xenopus tropicalis(tropical clawed frog)
    Product membrane-associated phosphatidylinositol transfer protein 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_030677.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Sep 8, 2016 this sequence version replaced XM_012957598.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Xenopus tropicalis Annotation Release 103 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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA TTGCAGCAAA GTGGTGGGGC ACAAAGCGAA TTGACTATGC TCTTTACTGT
    CCGGATGCCC TCACAGCATT CCCCACAGTT GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC
    TGGGAGTCCA CAGATGTTGT CTCTTTCCTC TTAAGGCAGG TCATGAGACA TGAAAATTCA
    AGCATTCTAG ATTTAGTTGG AAAAGAGGTT TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG
    AAATGGCTGC GGAAAAGAAC GCATGTAAAA CTAAGGAATG TTGCTGCAAA CCACAGAATT
    AATGATGCTG TTGCCAATGA GGATGGGCCT CAGACAATGA CAGGAAGATT CATGTACGGC
    CCTCTTGACA TGGTCACACT GACTGGGGAA AAGGTTGACA TTCACATTAT GACCCAGCCT
    CCCGCTGGAG AGTGGGTTTA CTTTGACACT GAAATAAGTA ATAGCAGTGG CAGAATTTCC
    TACGTCATTC CTGAAAACAA AAGGCTTGGG ATTGGCGTTT ACCCTGTGAA GATGGTTGTC
    AGGGGGGACC ACACATATGC TGATAGCTAT CTCACAGTTC TGCCGAAAGG GGCGGAATTT
    GTAGTGTTCA GCATTGATGG ATCATTTGCG GCAAGTGTTT CTATTATGGG CAGTGATCCC
    AAAGTCCGAG CAGGAGCAGT CGATGTAGTG AGGCACTGGC AGGACCTTGG CTACCTCATT
    ATCTATGTCA CAGGTAGACC TGACATGCAG AAGCAGAGGG TAGTGGCATG GCTTGCACAG
    CACAACTTTC CACATGGCAT TGTGTCTTTT TGTGATGGAC TGGTCCATGA TCCTCTGCGA
    CATAAAGCAA ACTTTTTGAA AAGCCTAATC CACGATGTAC ACATGAAGGT GCACGCAGCA
    TATGGTTCCA CTAAGGATAT CACAGTATAC AGCTCTCTTG GTTTGTCACC AATGCAGATT
    TATATAGTTG GTCGGCCCAC CAAGAAGTTA CAGCATCAGT GTCAGTTTAT CACAGAGGGC
    TATGCTGCTC ACCTTGCTCA ACTGGAATAT AATCACCGTT CTCGACCTGC TAAGAATACC
    AGCAGGATGG CGCTAAGAAA AGGGAGCTTC TGTCTTCCCG GCCAATCAGA TTTCCTTCGA
    AAGAGGAACC ACTTGCTTCG TACTATCTCC TCACAACCAA CGGGGAGCAG CAACCACAAA
    CCAGAGCGGA CACAGAGCCA GTCAGAGAGT GAGAGGGACC GGGAGAAGGA ACGTAGCCAA
    AGAAGCATGA GCATTGCTGC AGGGTGTTGG GGAAGGAGTG CAGCCACCAC TAAGCAGGAA
    TCTGGCGTTT TAAGTCAGAA GTAG

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

    RefSeq XP_012813052.1
    CDS1181..5284
    Translation

    Target ORF information:

    RefSeq Version XM_012957598.2
    Organism Xenopus tropicalis(tropical clawed frog)
    Definition Xenopus tropicalis phosphatidylinositol transfer protein, membrane associated 2 (pitpnm2), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_012957598.2

    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
    ATGCTAATTA AAGAATATCG CATCCCGCTT CCCATGACTG TGGAGGAATA CCGGATCGCA 
    CAGCTCTACA TGATCCAGAA GAAGAGCCGA GAAGAGACCT GCGGGGAGGG CAGTGGTGTG
    GAAATCCTTG AGAATAGACC CTACACGGAT GGTCCTGGGG GCACCGGCCA ATACACTCAT
    AAGGTGTACC ACATCGGCAT GCATATACCC AGCTGGTTCC GTTCTATCCT GCCTAAAGCT
    GCTTTGCGGG TTGAAGAAGA GTCCTGGAAT GCATATCCTT ACACCAGAAC CAGATATACT
    TGCCCCTTTG TGGAGAAGTT TTCTATAGAC ATAGAAACAT ATTATAAATC AGACTATGGA
    GATCTTGCCA ATGTGTTCAA CCTTTCTCCA GCTGAAAAAC GGCAGACAAC ACTTGATCCA
    ATTGACATTG TGAAAGATCC AATACCCCCA CATGAATACA AGCCAGAGGA GGATCCCAAA
    CTATATAAAT CCATCAAGAC CAAGAGGGGC CCCTTGTCAG ATGATTGGAT AGAAGATCAC
    AGGAATAACA TTGGAAAATA TCCTATTATG TGTGCATACA AACTCTGCAA GGTGGAATTT
    CGCTATTGGG GAATGCAGTC CAAAATCGAG AGGTTCATAC ATGATGTTGG TCTGAGGAAA
    GTAATGGTTA GGGCTCACAG GCAAGCATGG TGTTGGCAAG ATGAATGGTA TGGCCTTACC
    ATAGAGGATA TCCGACAACT GGAAAAGGAA ACACAGCTGA TGCTTGCCCA GAAAATGGCC
    CAATTTAGCC TCAATGAGAA CGAGGCAGAG CAGCACGGAG CCAAAGAATC TCCTTGTGAG
    AAAGACACAG AATCCAAGGC CATCATCTCT ATTGAAACCA CTGAAGAATC AGCAGGCATG
    ACAGAATCAC TGTCAGGAAG GGGCCTTACT AAGCAGTGGT CTACTTCTTC CAGGTCATCC
    AGATCTTCAA AAAGAGGAGC TAGCCCATCT CGCCACAGCA TATCAGAGTG GAGGATGCAG
    AGCATCGCCA GAGACTCGGA TGAAAGTTCA GATGATGAAT TTTTTGATGC TTATGAAGAT
    TTGTCAGACA ATGAGGAAGT GTTGCCCAAA GAAATCACAA AATGGAGCTC TAATGACCTG
    ATGGACAAGA TAGAAACAGC TGAGAATGAC GAACTACAAG ACGATTCATA CCACGAACCT
    GCAGAATACA CAGTCAGTTC GAGTGTGGAG GGATTAAGTA TAATGGAGAC ACACACTACA
    GTAATCCACG CACAAGTCAT TCCCAGAATA CCTGCTGTTA CCCTCACAAA TGTCATTACA
    AGTCCCACAG ATCTGGCAGC AGATGAATCA GCACAGGTCT CTGCGCAGCC ATGTAAAATC
    CATGTACTCA TTTTGGTGCT TCATGGAGGC AATATTCTAG ACACAGGCTG TGGAGATCAG
    AATTCAAAGC AGGGTGATGT CAACACCATC AATTCAGTGT TTGATACAGT AATGAGGGTC
    CATTACCCAG CTGCATTAGG GCATATTGCA GTCAAGCTTG TTCCTTGCCC AGCTATCTGT
    GCTGAAGCCT TTTCACTAGT ATCCAGCTTG AGCCCCTACA GTTATGATGA AGGCTGCTTG
    TCCAATAGCC AGGATCACAT ACCACTGGCT GCCCTTCCAC TTTTGGCCAC CTCATCCCCA
    CAATACCTTG AAGCAGTGGC CACTGTGATT CATCGAGCCA ACCAGGTCTA CGCTGAGTTC
    ACCAAGTCAC AGGAGGGAAT GTCCTTCACT GGACAGGTGT GCTTAGTTGG TGATTGTGTT
    GGAGGAATCC TAGGATTTGA TGCCTTATGT TACAGCAATC AGACTGTGTC AGAGAGCCAG
    AATAGCAGCC GAAGAGGAAG TGTTGTGAGT GTGCAGGACA CAGACCTTCT ATCTCCAGGT
    ATTAGCGTTA ACAACAGCTA CTGTTCCACA AGTTCAAATC TGGAAACTAG TCGCCACCTT
    AGTCGGAGCA ATATTGACAT ACCTCGGAGT AATGGTGAAG ACCCAAAGAG ACAGCTACCA
    CGAAAGCGGA GTGATTCCTC AACATATGAA CTGGACACTA TCAAGCAGCA CCAAGCATTT
    CTTTCTAGTT TACACTCTAG TGTCCTAAGG AATGACCCAG GATCGCGAAG GTCAAGTAGC
    TCCACAATGC TGGATGGTGG CAGTATTGGG AAGTTTGACT TTGAGATCAC TGACTTCTTT
    CTGTTTGGGT CCCCACTCGG CCTGGTTCTG GCTCTCAGAA AAACGGTGAT TCCACTATTG
    GATGTTTTCC AGCTCAGGCC TGGCTGCCAG CAAGTTTACA ACCTCTTCCA CCCAGCCGAC
    CCATCCGCCT CTCGAGTGGA ACCCCTTCTG GAGAAGAAAT TTCATTTGCT GCCCCCTTTC
    AATGTCCCTA GGTATCAAAG GTTCCCATTG GGTGATGGAA ACTCTGCCCT GTTGGTCGAG
    GCTATACAGA ACAATCCCAT CCTTCTCATG GAAGGCAGCC CGGCAGTTGC TCTCCAGCGT
    CAAGATGGCG TCATGGAAAC CAGTATCCCT GTTCCTGTCC TAAGCTGCCA AGACACTTCC
    AGTAAACATG CCACTTGTGT TGACTCGGAT GTTGTTCAAT TTCATGGTGC AGTCTTCGTG
    GAAAATGCCT CCCCTTCTTC CCCTATAACA GCCCCCCACT TCAGGGGATA CCGAAGAGCA
    AGTGAAATCA GCATTGCAAG TCAGGTCTCT GGAATGGCAG ACAGTTACAC GGCCTCAAAC
    ATAGCCAACA TTGCAGCAAA GTGGTGGGGC ACAAAGCGAA TTGACTATGC TCTTTACTGT
    CCGGATGCCC TCACAGCATT CCCCACAGTT GCCCTCCCTC ATCTTTTCCA TGCCAGTTAC
    TGGGAGTCCA CAGATGTTGT CTCTTTCCTC TTAAGGCAGG TCATGAGACA TGAAAATTCA
    AGCATTCTAG ATTTAGTTGG AAAAGAGGTT TCTGAGTTCA GTCCTTCAAA GCCGAGGGAG
    AAATGGCTGC GGAAAAGAAC GCATGTAAAA CTAAGGAATG TTGCTGCAAA CCACAGAATT
    AATGATGCTG TTGCCAATGA GGATGGGCCT CAGACAATGA CAGGAAGATT CATGTACGGC
    CCTCTTGACA TGGTCACACT GACTGGGGAA AAGGTTGACA TTCACATTAT GACCCAGCCT
    CCCGCTGGAG AGTGGGTTTA CTTTGACACT GAAATAAGTA ATAGCAGTGG CAGAATTTCC
    TACGTCATTC CTGAAAACAA AAGGCTTGGG ATTGGCGTTT ACCCTGTGAA GATGGTTGTC
    AGGGGGGACC ACACATATGC TGATAGCTAT CTCACAGTTC TGCCGAAAGG GGCGGAATTT
    GTAGTGTTCA GCATTGATGG ATCATTTGCG GCAAGTGTTT CTATTATGGG CAGTGATCCC
    AAAGTCCGAG CAGGAGCAGT CGATGTAGTG AGGCACTGGC AGGACCTTGG CTACCTCATT
    ATCTATGTCA CAGGTAGACC TGACATGCAG AAGCAGAGGG TAGTGGCATG GCTTGCACAG
    CACAACTTTC CACATGGCAT TGTGTCTTTT TGTGATGGAC TGGTCCATGA TCCTCTGCGA
    CATAAAGCAA ACTTTTTGAA AAGCCTAATC CACGATGTAC ACATGAAGGT GCACGCAGCA
    TATGGTTCCA CTAAGGATAT CACAGTATAC AGCTCTCTTG GTTTGTCACC AATGCAGATT
    TATATAGTTG GTCGGCCCAC CAAGAAGTTA CAGCATCAGT GTCAGTTTAT CACAGAGGGC
    TATGCTGCTC ACCTTGCTCA ACTGGAATAT AATCACCGTT CTCGACCTGC TAAGAATACC
    AGCAGGATGG CGCTAAGAAA AGGGAGCTTC TGTCTTCCCG GCCAATCAGA TTTCCTTCGA
    AAGAGGAACC ACTTGCTTCG TACTATCTCC TCACAACCAA CGGGGAGCAG CAACCACAAA
    CCAGAGCGGA CACAGAGCCA GTCAGAGAGT GAGAGGGACC GGGAGAAGGA ACGTAGCCAA
    AGAAGCATGA GCATTGCTGC AGGGTGTTGG GGAAGGAGTG CAGCCACCAC TAAGCAGGAA
    TCTGGCGTTT TAAGTCAGAA GTAG

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