INPPL1 cDNA ORF clone, Homo sapiens(human)

The following INPPL1 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the INPPL1 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
OHu19348 NM_001567.4
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$459.50-$643.30
$919.00
OHu19348 XM_011544999.2
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X6, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$459.50-$643.30
$919.00
OHu106671 XM_024448501.1
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X1, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu106671 XM_024448502.1
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu106672 XM_024448503.1
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu106673 XM_024448504.1
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X4, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu106674 XM_024448505.1
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X7, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu92197 XM_017017673.1
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector 19-21 $643.30
$919.00
OHu45317 XM_005273978.3
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu45317 XM_005273979.4
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
OHu45318 XM_011545000.2
Latest version!
Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X5, mRNA. pcDNA3.1-C-(k)DYK or customized vector TBD $643.30
$919.00
View Old Accession Versions >>
OHu19348 NM_001567.3 Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$459.50-$643.30
$919.00
OHu19348 XM_011544999.1 Homo sapiens inositol polyphosphate phosphatase-like 1 (INPPL1), transcript variant X3, mRNA. pcDNA3.1-C-(k)DYK or customized vector
in pcDNA3.1-C-(k)DYK
$459.50-$643.30
$919.00
Hide Old Accession Versions >>

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

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

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

  • Reference Sequences (Refseq)
    CloneID OHu19348
    Clone ID Related Accession (Same CDS sequence) NM_001567.3 , NM_001567.4 , XM_011544999.1 , XM_011544999.2
    Accession Version NM_001567.3 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3777bp)
    Protein sequence
    SNP
    Vector pcDNA3.1-C-(k)DYK or customized vector User Manual
    Clone information Clone Map MSDS
    Tag on pcDNA3.1+/C-(K)DYK C terminal DYKDDDDK tags
    ORF Insert Method CloneEZ™ Seamless cloning technology
    Insert Structure linear
    Update Date 2017-11-29
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from BC140853.1, Y14385.1 and BG236320.1. This sequence is a reference standard in the RefSeqGene project. On Jan 29, 2009 this sequence version replaced NM_001567.2. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: BC140853.1, Y14385.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' 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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGCGA CCATTCCCCC
    GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCA
    AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC
    AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC
    TTTGAGAATG ATGCCCAGAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA
    CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC
    CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAGTG TGTGGTTGCA
    CTCAAATCCA TGATCGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTATC CCACCGTGGC
    GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC
    ACCCGTGAGC GGCTCTACGA GTGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC
    AAAGCCCCCT CTGTGTCCCG AGGGAGCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC
    TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTTGAAG AACCAGAGAA ACCGCCACCA
    ACGGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG
    TTGAAGCCAG AGGGAGCTCC TGAACCAGAA GGGGTGGCGG CCCCCCCACC CAAGAACAGC
    TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCGC ACCAGCTGCT GCCCCCGGAG
    CCACCCTCGC CTGCCAGGGC CCCTGTCCCA TCTGCCACCA AGAACAAAGT GGCCATTACA
    GTGCCTGCTC CACAGCTTGG GCACCACCGG CACCCTCGTG TGGGAGAGGG GAGTTCTTCA
    GATGAGGAGT CTGGAGGCAC ACTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC
    TCAGCCATCT TCCTGCCCCC CAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT
    GGTGGGGCTG AGGCCCGTGG CCCACCACCT CCCAAGGCCC ATCCAAGGCC TCCACTGCCC
    CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCAGTGGGGA TGACCGGTCC
    TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTATGCCCC TGCTGGGCCT
    GCACGCTCAG CGCTCCTCCC AGGCCCCCTG GAGCTGCAGC CCCCCCGGGG ACTGCCCTCG
    GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC
    CTGGCAGAGG AGGCTCCGTG CCTGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC
    ATGAGTGCCT GGCTGCGGGC CATCGGCTTG GAGCGCTATG AGGAGGGCCT GGTGCATAAT
    GGCTGGGACG ACCTGGAGTT TCTCAGTGAC ATCACCGAGG AGGACTTGGA GGAGGCTGGG
    GTGCAGGACC CGGCTCACAA GCGCCTCCTT CTGGACACCC TGCAGCTCAG CAAGTGA

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

    RefSeq NP_001558.3
    CDS148..3924
    Translation

    Target ORF information:

    RefSeq Version NM_001567.3
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001567.3

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGCGA CCATTCCCCC
    GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCA
    AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC
    AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC
    TTTGAGAATG ATGCCCAGAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA
    CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC
    CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAGTG TGTGGTTGCA
    CTCAAATCCA TGATCGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTATC CCACCGTGGC
    GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC
    ACCCGTGAGC GGCTCTACGA GTGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC
    AAAGCCCCCT CTGTGTCCCG AGGGAGCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC
    TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTTGAAG AACCAGAGAA ACCGCCACCA
    ACGGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG
    TTGAAGCCAG AGGGAGCTCC TGAACCAGAA GGGGTGGCGG CCCCCCCACC CAAGAACAGC
    TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCGC ACCAGCTGCT GCCCCCGGAG
    CCACCCTCGC CTGCCAGGGC CCCTGTCCCA TCTGCCACCA AGAACAAAGT GGCCATTACA
    GTGCCTGCTC CACAGCTTGG GCACCACCGG CACCCTCGTG TGGGAGAGGG GAGTTCTTCA
    GATGAGGAGT CTGGAGGCAC ACTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC
    TCAGCCATCT TCCTGCCCCC CAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT
    GGTGGGGCTG AGGCCCGTGG CCCACCACCT CCCAAGGCCC ATCCAAGGCC TCCACTGCCC
    CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCAGTGGGGA TGACCGGTCC
    TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTATGCCCC TGCTGGGCCT
    GCACGCTCAG CGCTCCTCCC AGGCCCCCTG GAGCTGCAGC CCCCCCGGGG ACTGCCCTCG
    GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC
    CTGGCAGAGG AGGCTCCGTG CCTGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC
    ATGAGTGCCT GGCTGCGGGC CATCGGCTTG GAGCGCTATG AGGAGGGCCT GGTGCATAAT
    GGCTGGGACG ACCTGGAGTT TCTCAGTGAC ATCACCGAGG AGGACTTGGA GGAGGCTGGG
    GTGCAGGACC CGGCTCACAA GCGCCTCCTT CTGGACACCC TGCAGCTCAG CAAGTGA

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

    CloneID OHu19348
    Clone ID Related Accession (Same CDS sequence) NM_001567.3 , NM_001567.4 , XM_011544999.1 , XM_011544999.2
    Accession Version NM_001567.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3777bp)
    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 2019-10-13
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2
    Comment Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AP000593.4, BC140853.1, Y14385.1 and BG236320.1. This sequence is a reference standard in the RefSeqGene project. On Nov 23, 2018 this sequence version replaced NM_001567.3. Publication Note: This RefSeq record includes a subset of the publications that are available for this gene. Please see the Gene record to access additional publications. ##Evidence-Data-START## Transcript exon combination :: Y14385.1, BC140853.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1965299, SAMEA1966682 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000298229.7/ ENSP00000298229.2 RefSeq Select criteria :: based on conservation, expression ##RefSeq-Attributes-END## COMPLETENESS: full length.

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGCGA CCATTCCCCC
    GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCA
    AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC
    AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC
    TTTGAGAATG ATGCCCAGAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA
    CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC
    CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAGTG TGTGGTTGCA
    CTCAAATCCA TGATCGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTATC CCACCGTGGC
    GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC
    ACCCGTGAGC GGCTCTACGA GTGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC
    AAAGCCCCCT CTGTGTCCCG AGGGAGCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC
    TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTTGAAG AACCAGAGAA ACCGCCACCA
    ACGGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG
    TTGAAGCCAG AGGGAGCTCC TGAACCAGAA GGGGTGGCGG CCCCCCCACC CAAGAACAGC
    TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCGC ACCAGCTGCT GCCCCCGGAG
    CCACCCTCGC CTGCCAGGGC CCCTGTCCCA TCTGCCACCA AGAACAAAGT GGCCATTACA
    GTGCCTGCTC CACAGCTTGG GCACCACCGG CACCCTCGTG TGGGAGAGGG GAGTTCTTCA
    GATGAGGAGT CTGGAGGCAC ACTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC
    TCAGCCATCT TCCTGCCCCC CAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT
    GGTGGGGCTG AGGCCCGTGG CCCACCACCT CCCAAGGCCC ATCCAAGGCC TCCACTGCCC
    CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCAGTGGGGA TGACCGGTCC
    TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTATGCCCC TGCTGGGCCT
    GCACGCTCAG CGCTCCTCCC AGGCCCCCTG GAGCTGCAGC CCCCCCGGGG ACTGCCCTCG
    GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC
    CTGGCAGAGG AGGCTCCGTG CCTGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC
    ATGAGTGCCT GGCTGCGGGC CATCGGCTTG GAGCGCTATG AGGAGGGCCT GGTGCATAAT
    GGCTGGGACG ACCTGGAGTT TCTCAGTGAC ATCACCGAGG AGGACTTGGA GGAGGCTGGG
    GTGCAGGACC CGGCTCACAA GCGCCTCCTT CTGGACACCC TGCAGCTCAG CAAGTGA

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

    RefSeq NP_001558.3
    CDS219..3995
    Translation

    Target ORF information:

    RefSeq Version NM_001567.4
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    NM_001567.4

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGCGA CCATTCCCCC
    GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCA
    AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC
    AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC
    TTTGAGAATG ATGCCCAGAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA
    CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC
    CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAGTG TGTGGTTGCA
    CTCAAATCCA TGATCGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTATC CCACCGTGGC
    GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC
    ACCCGTGAGC GGCTCTACGA GTGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC
    AAAGCCCCCT CTGTGTCCCG AGGGAGCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC
    TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTTGAAG AACCAGAGAA ACCGCCACCA
    ACGGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG
    TTGAAGCCAG AGGGAGCTCC TGAACCAGAA GGGGTGGCGG CCCCCCCACC CAAGAACAGC
    TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCGC ACCAGCTGCT GCCCCCGGAG
    CCACCCTCGC CTGCCAGGGC CCCTGTCCCA TCTGCCACCA AGAACAAAGT GGCCATTACA
    GTGCCTGCTC CACAGCTTGG GCACCACCGG CACCCTCGTG TGGGAGAGGG GAGTTCTTCA
    GATGAGGAGT CTGGAGGCAC ACTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC
    TCAGCCATCT TCCTGCCCCC CAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT
    GGTGGGGCTG AGGCCCGTGG CCCACCACCT CCCAAGGCCC ATCCAAGGCC TCCACTGCCC
    CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCAGTGGGGA TGACCGGTCC
    TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTATGCCCC TGCTGGGCCT
    GCACGCTCAG CGCTCCTCCC AGGCCCCCTG GAGCTGCAGC CCCCCCGGGG ACTGCCCTCG
    GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC
    CTGGCAGAGG AGGCTCCGTG CCTGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC
    ATGAGTGCCT GGCTGCGGGC CATCGGCTTG GAGCGCTATG AGGAGGGCCT GGTGCATAAT
    GGCTGGGACG ACCTGGAGTT TCTCAGTGAC ATCACCGAGG AGGACTTGGA GGAGGCTGGG
    GTGCAGGACC CGGCTCACAA GCGCCTCCTT CTGGACACCC TGCAGCTCAG CAAGTGA

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

    CloneID OHu19348
    Clone ID Related Accession (Same CDS sequence) NM_001567.3 , NM_001567.4 , XM_011544999.1 , XM_011544999.2
    Accession Version XM_011544999.1 Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3777bp)
    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 2015-03-11
    Organism Homo sapiens(Human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X1
    Comment

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGCGA CCATTCCCCC
    GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCA
    AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC
    AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC
    TTTGAGAATG ATGCCCAGAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA
    CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC
    CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAGTG TGTGGTTGCA
    CTCAAATCCA TGATCGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTATC CCACCGTGGC
    GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC
    ACCCGTGAGC GGCTCTACGA GTGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC
    AAAGCCCCCT CTGTGTCCCG AGGGAGCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC
    TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTTGAAG AACCAGAGAA ACCGCCACCA
    ACGGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG
    TTGAAGCCAG AGGGAGCTCC TGAACCAGAA GGGGTGGCGG CCCCCCCACC CAAGAACAGC
    TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCGC ACCAGCTGCT GCCCCCGGAG
    CCACCCTCGC CTGCCAGGGC CCCTGTCCCA TCTGCCACCA AGAACAAAGT GGCCATTACA
    GTGCCTGCTC CACAGCTTGG GCACCACCGG CACCCTCGTG TGGGAGAGGG GAGTTCTTCA
    GATGAGGAGT CTGGAGGCAC ACTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC
    TCAGCCATCT TCCTGCCCCC CAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT
    GGTGGGGCTG AGGCCCGTGG CCCACCACCT CCCAAGGCCC ATCCAAGGCC TCCACTGCCC
    CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCAGTGGGGA TGACCGGTCC
    TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTATGCCCC TGCTGGGCCT
    GCACGCTCAG CGCTCCTCCC AGGCCCCCTG GAGCTGCAGC CCCCCCGGGG ACTGCCCTCG
    GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC
    CTGGCAGAGG AGGCTCCGTG CCTGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC
    ATGAGTGCCT GGCTGCGGGC CATCGGCTTG GAGCGCTATG AGGAGGGCCT GGTGCATAAT
    GGCTGGGACG ACCTGGAGTT TCTCAGTGAC ATCACCGAGG AGGACTTGGA GGAGGCTGGG
    GTGCAGGACC CGGCTCACAA GCGCCTCCTT CTGGACACCC TGCAGCTCAG CAAGTGA

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

    RefSeq XP_011543301.1
    Translation

    Target ORF information:

    RefSeq Version XM_011544999.1
    Organism Homo sapiens(Human)
    Definition Homo sapiens inositol polyphosphate phosphatase-like 1 (INPPL1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011544999.1

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGCGA CCATTCCCCC
    GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCA
    AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC
    AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC
    TTTGAGAATG ATGCCCAGAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA
    CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC
    CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAGTG TGTGGTTGCA
    CTCAAATCCA TGATCGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTATC CCACCGTGGC
    GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC
    ACCCGTGAGC GGCTCTACGA GTGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC
    AAAGCCCCCT CTGTGTCCCG AGGGAGCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC
    TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTTGAAG AACCAGAGAA ACCGCCACCA
    ACGGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG
    TTGAAGCCAG AGGGAGCTCC TGAACCAGAA GGGGTGGCGG CCCCCCCACC CAAGAACAGC
    TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCGC ACCAGCTGCT GCCCCCGGAG
    CCACCCTCGC CTGCCAGGGC CCCTGTCCCA TCTGCCACCA AGAACAAAGT GGCCATTACA
    GTGCCTGCTC CACAGCTTGG GCACCACCGG CACCCTCGTG TGGGAGAGGG GAGTTCTTCA
    GATGAGGAGT CTGGAGGCAC ACTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC
    TCAGCCATCT TCCTGCCCCC CAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT
    GGTGGGGCTG AGGCCCGTGG CCCACCACCT CCCAAGGCCC ATCCAAGGCC TCCACTGCCC
    CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCAGTGGGGA TGACCGGTCC
    TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTATGCCCC TGCTGGGCCT
    GCACGCTCAG CGCTCCTCCC AGGCCCCCTG GAGCTGCAGC CCCCCCGGGG ACTGCCCTCG
    GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC
    CTGGCAGAGG AGGCTCCGTG CCTGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC
    ATGAGTGCCT GGCTGCGGGC CATCGGCTTG GAGCGCTATG AGGAGGGCCT GGTGCATAAT
    GGCTGGGACG ACCTGGAGTT TCTCAGTGAC ATCACCGAGG AGGACTTGGA GGAGGCTGGG
    GTGCAGGACC CGGCTCACAA GCGCCTCCTT CTGGACACCC TGCAGCTCAG CAAGTGA

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

    CloneID OHu19348
    Clone ID Related Accession (Same CDS sequence) NM_001567.3 , NM_001567.4 , XM_011544999.1 , XM_011544999.2
    Accession Version XM_011544999.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3777bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X5
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011544999.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGCGA CCATTCCCCC
    GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCA
    AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC
    AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC
    TTTGAGAATG ATGCCCAGAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA
    CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC
    CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAGTG TGTGGTTGCA
    CTCAAATCCA TGATCGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTATC CCACCGTGGC
    GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC
    ACCCGTGAGC GGCTCTACGA GTGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC
    AAAGCCCCCT CTGTGTCCCG AGGGAGCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC
    TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTTGAAG AACCAGAGAA ACCGCCACCA
    ACGGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG
    TTGAAGCCAG AGGGAGCTCC TGAACCAGAA GGGGTGGCGG CCCCCCCACC CAAGAACAGC
    TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCGC ACCAGCTGCT GCCCCCGGAG
    CCACCCTCGC CTGCCAGGGC CCCTGTCCCA TCTGCCACCA AGAACAAAGT GGCCATTACA
    GTGCCTGCTC CACAGCTTGG GCACCACCGG CACCCTCGTG TGGGAGAGGG GAGTTCTTCA
    GATGAGGAGT CTGGAGGCAC ACTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC
    TCAGCCATCT TCCTGCCCCC CAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT
    GGTGGGGCTG AGGCCCGTGG CCCACCACCT CCCAAGGCCC ATCCAAGGCC TCCACTGCCC
    CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCAGTGGGGA TGACCGGTCC
    TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTATGCCCC TGCTGGGCCT
    GCACGCTCAG CGCTCCTCCC AGGCCCCCTG GAGCTGCAGC CCCCCCGGGG ACTGCCCTCG
    GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC
    CTGGCAGAGG AGGCTCCGTG CCTGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC
    ATGAGTGCCT GGCTGCGGGC CATCGGCTTG GAGCGCTATG AGGAGGGCCT GGTGCATAAT
    GGCTGGGACG ACCTGGAGTT TCTCAGTGAC ATCACCGAGG AGGACTTGGA GGAGGCTGGG
    GTGCAGGACC CGGCTCACAA GCGCCTCCTT CTGGACACCC TGCAGCTCAG CAAGTGA

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

    RefSeq XP_011543301.1
    CDS306..4082
    Translation

    Target ORF information:

    RefSeq Version XM_011544999.2
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X6, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011544999.2

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGCGA CCATTCCCCC
    GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCA
    AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC
    AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC
    TTTGAGAATG ATGCCCAGAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA
    CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC
    CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAGTG TGTGGTTGCA
    CTCAAATCCA TGATCGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTATC CCACCGTGGC
    GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC
    ACCCGTGAGC GGCTCTACGA GTGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC
    AAAGCCCCCT CTGTGTCCCG AGGGAGCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC
    TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTTGAAG AACCAGAGAA ACCGCCACCA
    ACGGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG
    TTGAAGCCAG AGGGAGCTCC TGAACCAGAA GGGGTGGCGG CCCCCCCACC CAAGAACAGC
    TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCGC ACCAGCTGCT GCCCCCGGAG
    CCACCCTCGC CTGCCAGGGC CCCTGTCCCA TCTGCCACCA AGAACAAAGT GGCCATTACA
    GTGCCTGCTC CACAGCTTGG GCACCACCGG CACCCTCGTG TGGGAGAGGG GAGTTCTTCA
    GATGAGGAGT CTGGAGGCAC ACTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC
    TCAGCCATCT TCCTGCCCCC CAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT
    GGTGGGGCTG AGGCCCGTGG CCCACCACCT CCCAAGGCCC ATCCAAGGCC TCCACTGCCC
    CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCAGTGGGGA TGACCGGTCC
    TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTATGCCCC TGCTGGGCCT
    GCACGCTCAG CGCTCCTCCC AGGCCCCCTG GAGCTGCAGC CCCCCCGGGG ACTGCCCTCG
    GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC
    CTGGCAGAGG AGGCTCCGTG CCTGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC
    ATGAGTGCCT GGCTGCGGGC CATCGGCTTG GAGCGCTATG AGGAGGGCCT GGTGCATAAT
    GGCTGGGACG ACCTGGAGTT TCTCAGTGAC ATCACCGAGG AGGACTTGGA GGAGGCTGGG
    GTGCAGGACC CGGCTCACAA GCGCCTCCTT CTGGACACCC TGCAGCTCAG CAAGTGA

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

    CloneID OHu106671
    Clone ID Related Accession (Same CDS sequence) XM_024448501.1 , XM_024448502.1
    Accession Version XM_024448501.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3975bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT CAGAGCCTCC CGGACAGAGT GATGGGAGAT
    CTGGGGTGGT CACCATCTGG ACTCTGCCCT AACCTTGGGA GGTGGGAGCC GAGGGTGGGA
    ATATTCCCCC TGAGTCCCCA TTCCTATCCC CTCTCCCCAG GTTGCACTGA TGACATCGTC
    ACCAGCGACC ATTCCCCCGT GTTTGGGACA TTTGAGGTTG GAGTTACCTC CCAGTTCATC
    TCCAAGAAAG GGCTCTCAAA GACTTCAGAC CAGGCCTACA TTGAGTTTGA GAGCATCGAG
    GCCATTGTGA AGACAGCCAG CCGCACCAAG TTCTTCATCG AGTTCTACTC TACCTGCCTG
    GAGGAATACA AGAAGAGCTT TGAGAATGAT GCCCAGAGCA GTGACAACAT CAACTTCCTC
    AAAGTGCAGT GGTCTTCACG CCAGCTGCCC ACGCTCAAAC CAATTCTGGC TGATATCGAG
    TACCTGCAGG ACCAGCACCT CCTGCTCACA GTCAAGTCCA TGGATGGCTA TGAATCCTAT
    GGGGAGTGTG TGGTTGCACT CAAATCCATG ATCGGCAGCA CGGCCCAACA GTTCCTGACC
    TTCCTATCCC ACCGTGGCGA GGAGACAGGC AATATCAGAG GCTCCATGAA GGTGCGGGTG
    CCCACGGAGC GCCTGGGCAC CCGTGAGCGG CTCTACGAGT GGATCAGCAT TGATAAGGAT
    GAGGCAGGAG CAAAGAGCAA AGCCCCCTCT GTGTCCCGAG GGAGCCAGGA GCCCAGGTCA
    GGGAGCCGCA AGCCAGCCTT CACAGAGGCC TCCTGCCCGC TCTCCAGGTT ATTTGAAGAA
    CCAGAGAAAC CGCCACCAAC GGGGAGGCCC CCAGCCCCAC CCCGAGCAGC TCCCCGGGAG
    GAGCCCTTGA CCCCCAGGTT GAAGCCAGAG GGAGCTCCTG AACCAGAAGG GGTGGCGGCC
    CCCCCACCCA AGAACAGCTT CAATAACCCT GCCTACTACG TCCTTGAAGG GGTCCCGCAC
    CAGCTGCTGC CCCCGGAGCC ACCCTCGCCT GCCAGGGCCC CTGTCCCATC TGCCACCAAG
    AACAAAGTGG CCATTACAGT GCCTGCTCCA CAGCTTGGGC ACCACCGGCA CCCTCGTGTG
    GGAGAGGGGA GTTCTTCAGA TGAGGAGTCT GGAGGCACAC TGCCCCCTCC AGACTTTCCA
    CCTCCACCAC TGCCGGACTC AGCCATCTTC CTGCCCCCCA GCCTGGATCC TTTACCAGGG
    CCAGTGGTCC GGGGCCGTGG TGGGGCTGAG GCCCGTGGCC CACCACCTCC CAAGGCCCAT
    CCAAGGCCTC CACTGCCCCC AGGCCCCTCA CCAGCCAGCA CTTTCCTGGG GGAAGTGGCC
    AGTGGGGATG ACCGGTCCTG CTCGGTGCTG CAGATGGCCA AGACGCTGAG CGAGGTGGAC
    TATGCCCCTG CTGGGCCTGC ACGCTCAGCG CTCCTCCCAG GCCCCCTGGA GCTGCAGCCC
    CCCCGGGGAC TGCCCTCGGA CTATGGCCGG CCCCTCAGCT TCCCTCCACC CCGCATCCGG
    GAGAGCATCC AGGAAGACCT GGCAGAGGAG GCTCCGTGCC TGCAGGGCGG GCGGGCCAGC
    GGGCTGGGCG AGGCAGGCAT GAGTGCCTGG CTGCGGGCCA TCGGCTTGGA GCGCTATGAG
    GAGGGCCTGG TGCATAATGG CTGGGACGAC CTGGAGTTTC TCAGTGACAT CACCGAGGAG
    GACTTGGAGG AGGCTGGGGT GCAGGACCCG GCTCACAAGC GCCTCCTTCT GGACACCCTG
    CAGCTCAGCA AGTGA

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

    RefSeq XP_024304269.1
    CDS306..4280
    Translation

    Target ORF information:

    RefSeq Version XM_024448501.1
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X1, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024448501.1

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT CAGAGCCTCC CGGACAGAGT GATGGGAGAT
    CTGGGGTGGT CACCATCTGG ACTCTGCCCT AACCTTGGGA GGTGGGAGCC GAGGGTGGGA
    ATATTCCCCC TGAGTCCCCA TTCCTATCCC CTCTCCCCAG GTTGCACTGA TGACATCGTC
    ACCAGCGACC ATTCCCCCGT GTTTGGGACA TTTGAGGTTG GAGTTACCTC CCAGTTCATC
    TCCAAGAAAG GGCTCTCAAA GACTTCAGAC CAGGCCTACA TTGAGTTTGA GAGCATCGAG
    GCCATTGTGA AGACAGCCAG CCGCACCAAG TTCTTCATCG AGTTCTACTC TACCTGCCTG
    GAGGAATACA AGAAGAGCTT TGAGAATGAT GCCCAGAGCA GTGACAACAT CAACTTCCTC
    AAAGTGCAGT GGTCTTCACG CCAGCTGCCC ACGCTCAAAC CAATTCTGGC TGATATCGAG
    TACCTGCAGG ACCAGCACCT CCTGCTCACA GTCAAGTCCA TGGATGGCTA TGAATCCTAT
    GGGGAGTGTG TGGTTGCACT CAAATCCATG ATCGGCAGCA CGGCCCAACA GTTCCTGACC
    TTCCTATCCC ACCGTGGCGA GGAGACAGGC AATATCAGAG GCTCCATGAA GGTGCGGGTG
    CCCACGGAGC GCCTGGGCAC CCGTGAGCGG CTCTACGAGT GGATCAGCAT TGATAAGGAT
    GAGGCAGGAG CAAAGAGCAA AGCCCCCTCT GTGTCCCGAG GGAGCCAGGA GCCCAGGTCA
    GGGAGCCGCA AGCCAGCCTT CACAGAGGCC TCCTGCCCGC TCTCCAGGTT ATTTGAAGAA
    CCAGAGAAAC CGCCACCAAC GGGGAGGCCC CCAGCCCCAC CCCGAGCAGC TCCCCGGGAG
    GAGCCCTTGA CCCCCAGGTT GAAGCCAGAG GGAGCTCCTG AACCAGAAGG GGTGGCGGCC
    CCCCCACCCA AGAACAGCTT CAATAACCCT GCCTACTACG TCCTTGAAGG GGTCCCGCAC
    CAGCTGCTGC CCCCGGAGCC ACCCTCGCCT GCCAGGGCCC CTGTCCCATC TGCCACCAAG
    AACAAAGTGG CCATTACAGT GCCTGCTCCA CAGCTTGGGC ACCACCGGCA CCCTCGTGTG
    GGAGAGGGGA GTTCTTCAGA TGAGGAGTCT GGAGGCACAC TGCCCCCTCC AGACTTTCCA
    CCTCCACCAC TGCCGGACTC AGCCATCTTC CTGCCCCCCA GCCTGGATCC TTTACCAGGG
    CCAGTGGTCC GGGGCCGTGG TGGGGCTGAG GCCCGTGGCC CACCACCTCC CAAGGCCCAT
    CCAAGGCCTC CACTGCCCCC AGGCCCCTCA CCAGCCAGCA CTTTCCTGGG GGAAGTGGCC
    AGTGGGGATG ACCGGTCCTG CTCGGTGCTG CAGATGGCCA AGACGCTGAG CGAGGTGGAC
    TATGCCCCTG CTGGGCCTGC ACGCTCAGCG CTCCTCCCAG GCCCCCTGGA GCTGCAGCCC
    CCCCGGGGAC TGCCCTCGGA CTATGGCCGG CCCCTCAGCT TCCCTCCACC CCGCATCCGG
    GAGAGCATCC AGGAAGACCT GGCAGAGGAG GCTCCGTGCC TGCAGGGCGG GCGGGCCAGC
    GGGCTGGGCG AGGCAGGCAT GAGTGCCTGG CTGCGGGCCA TCGGCTTGGA GCGCTATGAG
    GAGGGCCTGG TGCATAATGG CTGGGACGAC CTGGAGTTTC TCAGTGACAT CACCGAGGAG
    GACTTGGAGG AGGCTGGGGT GCAGGACCCG GCTCACAAGC GCCTCCTTCT GGACACCCTG
    CAGCTCAGCA AGTGA

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

    CloneID OHu106671
    Clone ID Related Accession (Same CDS sequence) XM_024448501.1 , XM_024448502.1
    Accession Version XM_024448502.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3975bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT CAGAGCCTCC CGGACAGAGT GATGGGAGAT
    CTGGGGTGGT CACCATCTGG ACTCTGCCCT AACCTTGGGA GGTGGGAGCC GAGGGTGGGA
    ATATTCCCCC TGAGTCCCCA TTCCTATCCC CTCTCCCCAG GTTGCACTGA TGACATCGTC
    ACCAGCGACC ATTCCCCCGT GTTTGGGACA TTTGAGGTTG GAGTTACCTC CCAGTTCATC
    TCCAAGAAAG GGCTCTCAAA GACTTCAGAC CAGGCCTACA TTGAGTTTGA GAGCATCGAG
    GCCATTGTGA AGACAGCCAG CCGCACCAAG TTCTTCATCG AGTTCTACTC TACCTGCCTG
    GAGGAATACA AGAAGAGCTT TGAGAATGAT GCCCAGAGCA GTGACAACAT CAACTTCCTC
    AAAGTGCAGT GGTCTTCACG CCAGCTGCCC ACGCTCAAAC CAATTCTGGC TGATATCGAG
    TACCTGCAGG ACCAGCACCT CCTGCTCACA GTCAAGTCCA TGGATGGCTA TGAATCCTAT
    GGGGAGTGTG TGGTTGCACT CAAATCCATG ATCGGCAGCA CGGCCCAACA GTTCCTGACC
    TTCCTATCCC ACCGTGGCGA GGAGACAGGC AATATCAGAG GCTCCATGAA GGTGCGGGTG
    CCCACGGAGC GCCTGGGCAC CCGTGAGCGG CTCTACGAGT GGATCAGCAT TGATAAGGAT
    GAGGCAGGAG CAAAGAGCAA AGCCCCCTCT GTGTCCCGAG GGAGCCAGGA GCCCAGGTCA
    GGGAGCCGCA AGCCAGCCTT CACAGAGGCC TCCTGCCCGC TCTCCAGGTT ATTTGAAGAA
    CCAGAGAAAC CGCCACCAAC GGGGAGGCCC CCAGCCCCAC CCCGAGCAGC TCCCCGGGAG
    GAGCCCTTGA CCCCCAGGTT GAAGCCAGAG GGAGCTCCTG AACCAGAAGG GGTGGCGGCC
    CCCCCACCCA AGAACAGCTT CAATAACCCT GCCTACTACG TCCTTGAAGG GGTCCCGCAC
    CAGCTGCTGC CCCCGGAGCC ACCCTCGCCT GCCAGGGCCC CTGTCCCATC TGCCACCAAG
    AACAAAGTGG CCATTACAGT GCCTGCTCCA CAGCTTGGGC ACCACCGGCA CCCTCGTGTG
    GGAGAGGGGA GTTCTTCAGA TGAGGAGTCT GGAGGCACAC TGCCCCCTCC AGACTTTCCA
    CCTCCACCAC TGCCGGACTC AGCCATCTTC CTGCCCCCCA GCCTGGATCC TTTACCAGGG
    CCAGTGGTCC GGGGCCGTGG TGGGGCTGAG GCCCGTGGCC CACCACCTCC CAAGGCCCAT
    CCAAGGCCTC CACTGCCCCC AGGCCCCTCA CCAGCCAGCA CTTTCCTGGG GGAAGTGGCC
    AGTGGGGATG ACCGGTCCTG CTCGGTGCTG CAGATGGCCA AGACGCTGAG CGAGGTGGAC
    TATGCCCCTG CTGGGCCTGC ACGCTCAGCG CTCCTCCCAG GCCCCCTGGA GCTGCAGCCC
    CCCCGGGGAC TGCCCTCGGA CTATGGCCGG CCCCTCAGCT TCCCTCCACC CCGCATCCGG
    GAGAGCATCC AGGAAGACCT GGCAGAGGAG GCTCCGTGCC TGCAGGGCGG GCGGGCCAGC
    GGGCTGGGCG AGGCAGGCAT GAGTGCCTGG CTGCGGGCCA TCGGCTTGGA GCGCTATGAG
    GAGGGCCTGG TGCATAATGG CTGGGACGAC CTGGAGTTTC TCAGTGACAT CACCGAGGAG
    GACTTGGAGG AGGCTGGGGT GCAGGACCCG GCTCACAAGC GCCTCCTTCT GGACACCCTG
    CAGCTCAGCA AGTGA

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

    RefSeq XP_024304270.1
    CDS459..4433
    Translation

    Target ORF information:

    RefSeq Version XM_024448502.1
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024448502.1

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT CAGAGCCTCC CGGACAGAGT GATGGGAGAT
    CTGGGGTGGT CACCATCTGG ACTCTGCCCT AACCTTGGGA GGTGGGAGCC GAGGGTGGGA
    ATATTCCCCC TGAGTCCCCA TTCCTATCCC CTCTCCCCAG GTTGCACTGA TGACATCGTC
    ACCAGCGACC ATTCCCCCGT GTTTGGGACA TTTGAGGTTG GAGTTACCTC CCAGTTCATC
    TCCAAGAAAG GGCTCTCAAA GACTTCAGAC CAGGCCTACA TTGAGTTTGA GAGCATCGAG
    GCCATTGTGA AGACAGCCAG CCGCACCAAG TTCTTCATCG AGTTCTACTC TACCTGCCTG
    GAGGAATACA AGAAGAGCTT TGAGAATGAT GCCCAGAGCA GTGACAACAT CAACTTCCTC
    AAAGTGCAGT GGTCTTCACG CCAGCTGCCC ACGCTCAAAC CAATTCTGGC TGATATCGAG
    TACCTGCAGG ACCAGCACCT CCTGCTCACA GTCAAGTCCA TGGATGGCTA TGAATCCTAT
    GGGGAGTGTG TGGTTGCACT CAAATCCATG ATCGGCAGCA CGGCCCAACA GTTCCTGACC
    TTCCTATCCC ACCGTGGCGA GGAGACAGGC AATATCAGAG GCTCCATGAA GGTGCGGGTG
    CCCACGGAGC GCCTGGGCAC CCGTGAGCGG CTCTACGAGT GGATCAGCAT TGATAAGGAT
    GAGGCAGGAG CAAAGAGCAA AGCCCCCTCT GTGTCCCGAG GGAGCCAGGA GCCCAGGTCA
    GGGAGCCGCA AGCCAGCCTT CACAGAGGCC TCCTGCCCGC TCTCCAGGTT ATTTGAAGAA
    CCAGAGAAAC CGCCACCAAC GGGGAGGCCC CCAGCCCCAC CCCGAGCAGC TCCCCGGGAG
    GAGCCCTTGA CCCCCAGGTT GAAGCCAGAG GGAGCTCCTG AACCAGAAGG GGTGGCGGCC
    CCCCCACCCA AGAACAGCTT CAATAACCCT GCCTACTACG TCCTTGAAGG GGTCCCGCAC
    CAGCTGCTGC CCCCGGAGCC ACCCTCGCCT GCCAGGGCCC CTGTCCCATC TGCCACCAAG
    AACAAAGTGG CCATTACAGT GCCTGCTCCA CAGCTTGGGC ACCACCGGCA CCCTCGTGTG
    GGAGAGGGGA GTTCTTCAGA TGAGGAGTCT GGAGGCACAC TGCCCCCTCC AGACTTTCCA
    CCTCCACCAC TGCCGGACTC AGCCATCTTC CTGCCCCCCA GCCTGGATCC TTTACCAGGG
    CCAGTGGTCC GGGGCCGTGG TGGGGCTGAG GCCCGTGGCC CACCACCTCC CAAGGCCCAT
    CCAAGGCCTC CACTGCCCCC AGGCCCCTCA CCAGCCAGCA CTTTCCTGGG GGAAGTGGCC
    AGTGGGGATG ACCGGTCCTG CTCGGTGCTG CAGATGGCCA AGACGCTGAG CGAGGTGGAC
    TATGCCCCTG CTGGGCCTGC ACGCTCAGCG CTCCTCCCAG GCCCCCTGGA GCTGCAGCCC
    CCCCGGGGAC TGCCCTCGGA CTATGGCCGG CCCCTCAGCT TCCCTCCACC CCGCATCCGG
    GAGAGCATCC AGGAAGACCT GGCAGAGGAG GCTCCGTGCC TGCAGGGCGG GCGGGCCAGC
    GGGCTGGGCG AGGCAGGCAT GAGTGCCTGG CTGCGGGCCA TCGGCTTGGA GCGCTATGAG
    GAGGGCCTGG TGCATAATGG CTGGGACGAC CTGGAGTTTC TCAGTGACAT CACCGAGGAG
    GACTTGGAGG AGGCTGGGGT GCAGGACCCG GCTCACAAGC GCCTCCTTCT GGACACCCTG
    CAGCTCAGCA AGTGA

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

    CloneID OHu106672
    Clone ID Related Accession (Same CDS sequence) XM_024448503.1
    Accession Version XM_024448503.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3945bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCAGCTT CCTGGTCCGA GACAGCGAGA GCGTGGCGGG GGCCTTCGCG CTCTGCGTCC 
    TACCCCTTCA GGCATCCTCC AGGTAGAAGG GAGCAGGGGA GAGGATGTGC ATTCCACGTT
    GTGTGCAGTC CCGTTTGGAT AGGGACTGAG TGGTATCAGA AGCATGTGCA CACGTATCGC
    ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT GTGCAGACCT CGCAGGGTGT GCCTGTGCGC
    CGCTTCCAGA CCCTGGGTGA GCTCATCGGC CTGTACGCCC AGCCCAACCA GGGCCTTGTG
    TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG CGAGAGCCGG ACCCACCGGA TGACCGGGAT
    GCCTCAGATG GGGAGGATGA GAAGCCCCCG CTGCCCCCGC GCTCTGGCTC CACCAGCATT
    TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG CCAGCTCCTG AGACTCCCAC AGCTCCAGCT
    GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA CAGGTCAGCA GGACCTCCAC TGACTTCTTA
    ACCCCTCCCC AAAGTGCTCC CAATGGGCTG AGCACCGTCT CGCACGACTA CCTGAAAGGC
    AGCTATGGGC TGGACCTGGA AGCTGTGAGG GGTGGAGCCA GCCACCTGCC CCACCTCACC
    CGTACCCTCG CTACCTCATG CCGGAGGCTG CACAGTGAGG TGGACAAGGT CCTGTCAGGC
    CTGGAGATCC TGTCCAAGGT GTTTGACCAG CAGAGCTCGC CCATGGTGAC CCGCCTTTTG
    CAGCAGCAGA ACCTGCCACA GACAGGGGAG CAGGAACTAG AGAGCCTGGT GCTGAAGCTG
    TCAGTGCTAA AGGACTTCCT GTCAGGCATC CAGAAGAAGG CCCTGAAGGC CCTACAGGAC
    ATGAGCTCCA CAGCACCCCC AGCTCCGCAG CCATCCACAC GTAAGGCCAA GACCATCCCC
    GTGCAGGCCT TTGAGGTGAA GCTAGATGTG ACCCTGGGTG ACCTGACCAA GATTGGGAAG
    TCACAGAAGT TCACGCTGAG CGTGGATGTG GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA
    CAGCGGGACT CCCAGGAGGA CTGGACCACC TTCACGCACG ACCGCATCCG CCAGCTCATT
    AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT GTTGTGTTTG AGAAGGAGAA GGACCGGACT
    CAGCGCAAGG ACTTCATCTT TGTCAGTGCC CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG
    CAGCTCATGA AGAACAAGCA CTCCAAGCAG GACGAGCCCG ACATGATCTC AGTCTTCATA
    GGCACCTGGA ACATGGGAAG TGTACCACCT CCAAAAAACG TGACATCCTG GTTCACATCG
    AAGGGTCTGG GGAAGACCCT GGACGAGGTC ACAGTGACCA TACCCCATGA CATCTATGTC
    TTTGGGACCC AGGAGAACTC AGTGGGCGAC CGCGAGTGGC TGGACCTACT GCGCGGGGGC
    CTCAAGGAGC TTACGGATCT GGATTACCGC CCGATTGCCA TGCAATCACT GTGGAATATC
    AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC GAGAACCGTA TCAGCCATGT CAGTACGTCC
    AGTGTGAAGA CTGGCATCGC CAACACCCTG GGGAACAAGG GGGCTGTGGG CGTCTCCTTC
    ATGTTTAATG GCACCTCATT TGGCTTTGTG AATTGTCACC TCACCTCGGG AAATGAGAAG
    ACGGCTCGGA GGAACCAAAA CTACTTGGAC ATCCTGCGGC TGCTCTCGCT GGGCGACCGG
    CAGCTCAATG CCTTTGACAT CTCTCTGCGT TTCACACACC TCTTCTGGTT TGGGGACCTC
    AACTACCGCC TGGACATGGA TATCCAGGAG ATCCTGAACT ACATCAGCAG GAAAGAGTTT
    GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC CTGGAGCGGG AGAAGCACAA GGTCTTCCTT
    CGATTCAGTG AGGAGGAGAT CTCCTTCCCA CCCACCTACC GCTATGAGCG GGGTTCCCGG
    GACACATATG CCTGGCACAA GCAGAAGCCA ACTGGGGTCC GGACCAATGT GCCCTCATGG
    TGTGACCGGA TTCTGTGGAA ATCCTACCCT GAAACTCACA TCATCTGCAA TTCTTATGGT
    CAGAGCCTCC CGGACAGAGT GATGGGAGAT CTGGGGTGGT CACCATCTGG ACTCTGCCCT
    AACCTTGGGA GGTGGGAGCC GAGGGTGGGA ATATTCCCCC TGAGTCCCCA TTCCTATCCC
    CTCTCCCCAG GTTGCACTGA TGACATCGTC ACCAGCGACC ATTCCCCCGT GTTTGGGACA
    TTTGAGGTTG GAGTTACCTC CCAGTTCATC TCCAAGAAAG GGCTCTCAAA GACTTCAGAC
    CAGGCCTACA TTGAGTTTGA GAGCATCGAG GCCATTGTGA AGACAGCCAG CCGCACCAAG
    TTCTTCATCG AGTTCTACTC TACCTGCCTG GAGGAATACA AGAAGAGCTT TGAGAATGAT
    GCCCAGAGCA GTGACAACAT CAACTTCCTC AAAGTGCAGT GGTCTTCACG CCAGCTGCCC
    ACGCTCAAAC CAATTCTGGC TGATATCGAG TACCTGCAGG ACCAGCACCT CCTGCTCACA
    GTCAAGTCCA TGGATGGCTA TGAATCCTAT GGGGAGTGTG TGGTTGCACT CAAATCCATG
    ATCGGCAGCA CGGCCCAACA GTTCCTGACC TTCCTATCCC ACCGTGGCGA GGAGACAGGC
    AATATCAGAG GCTCCATGAA GGTGCGGGTG CCCACGGAGC GCCTGGGCAC CCGTGAGCGG
    CTCTACGAGT GGATCAGCAT TGATAAGGAT GAGGCAGGAG CAAAGAGCAA AGCCCCCTCT
    GTGTCCCGAG GGAGCCAGGA GCCCAGGTCA GGGAGCCGCA AGCCAGCCTT CACAGAGGCC
    TCCTGCCCGC TCTCCAGGTT ATTTGAAGAA CCAGAGAAAC CGCCACCAAC GGGGAGGCCC
    CCAGCCCCAC CCCGAGCAGC TCCCCGGGAG GAGCCCTTGA CCCCCAGGTT GAAGCCAGAG
    GGAGCTCCTG AACCAGAAGG GGTGGCGGCC CCCCCACCCA AGAACAGCTT CAATAACCCT
    GCCTACTACG TCCTTGAAGG GGTCCCGCAC CAGCTGCTGC CCCCGGAGCC ACCCTCGCCT
    GCCAGGGCCC CTGTCCCATC TGCCACCAAG AACAAAGTGG CCATTACAGT GCCTGCTCCA
    CAGCTTGGGC ACCACCGGCA CCCTCGTGTG GGAGAGGGGA GTTCTTCAGA TGAGGAGTCT
    GGAGGCACAC TGCCCCCTCC AGACTTTCCA CCTCCACCAC TGCCGGACTC AGCCATCTTC
    CTGCCCCCCA GCCTGGATCC TTTACCAGGG CCAGTGGTCC GGGGCCGTGG TGGGGCTGAG
    GCCCGTGGCC CACCACCTCC CAAGGCCCAT CCAAGGCCTC CACTGCCCCC AGGCCCCTCA
    CCAGCCAGCA CTTTCCTGGG GGAAGTGGCC AGTGGGGATG ACCGGTCCTG CTCGGTGCTG
    CAGATGGCCA AGACGCTGAG CGAGGTGGAC TATGCCCCTG CTGGGCCTGC ACGCTCAGCG
    CTCCTCCCAG GCCCCCTGGA GCTGCAGCCC CCCCGGGGAC TGCCCTCGGA CTATGGCCGG
    CCCCTCAGCT TCCCTCCACC CCGCATCCGG GAGAGCATCC AGGAAGACCT GGCAGAGGAG
    GCTCCGTGCC TGCAGGGCGG GCGGGCCAGC GGGCTGGGCG AGGCAGGCAT GAGTGCCTGG
    CTGCGGGCCA TCGGCTTGGA GCGCTATGAG GAGGGCCTGG TGCATAATGG CTGGGACGAC
    CTGGAGTTTC TCAGTGACAT CACCGAGGAG GACTTGGAGG AGGCTGGGGT GCAGGACCCG
    GCTCACAAGC GCCTCCTTCT GGACACCCTG CAGCTCAGCA AGTGA

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

    RefSeq XP_024304271.1
    CDS427..4371
    Translation

    Target ORF information:

    RefSeq Version XM_024448503.1
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024448503.1

    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
    ATGGCAGCTT CCTGGTCCGA GACAGCGAGA GCGTGGCGGG GGCCTTCGCG CTCTGCGTCC 
    TACCCCTTCA GGCATCCTCC AGGTAGAAGG GAGCAGGGGA GAGGATGTGC ATTCCACGTT
    GTGTGCAGTC CCGTTTGGAT AGGGACTGAG TGGTATCAGA AGCATGTGCA CACGTATCGC
    ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT GTGCAGACCT CGCAGGGTGT GCCTGTGCGC
    CGCTTCCAGA CCCTGGGTGA GCTCATCGGC CTGTACGCCC AGCCCAACCA GGGCCTTGTG
    TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG CGAGAGCCGG ACCCACCGGA TGACCGGGAT
    GCCTCAGATG GGGAGGATGA GAAGCCCCCG CTGCCCCCGC GCTCTGGCTC CACCAGCATT
    TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG CCAGCTCCTG AGACTCCCAC AGCTCCAGCT
    GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA CAGGTCAGCA GGACCTCCAC TGACTTCTTA
    ACCCCTCCCC AAAGTGCTCC CAATGGGCTG AGCACCGTCT CGCACGACTA CCTGAAAGGC
    AGCTATGGGC TGGACCTGGA AGCTGTGAGG GGTGGAGCCA GCCACCTGCC CCACCTCACC
    CGTACCCTCG CTACCTCATG CCGGAGGCTG CACAGTGAGG TGGACAAGGT CCTGTCAGGC
    CTGGAGATCC TGTCCAAGGT GTTTGACCAG CAGAGCTCGC CCATGGTGAC CCGCCTTTTG
    CAGCAGCAGA ACCTGCCACA GACAGGGGAG CAGGAACTAG AGAGCCTGGT GCTGAAGCTG
    TCAGTGCTAA AGGACTTCCT GTCAGGCATC CAGAAGAAGG CCCTGAAGGC CCTACAGGAC
    ATGAGCTCCA CAGCACCCCC AGCTCCGCAG CCATCCACAC GTAAGGCCAA GACCATCCCC
    GTGCAGGCCT TTGAGGTGAA GCTAGATGTG ACCCTGGGTG ACCTGACCAA GATTGGGAAG
    TCACAGAAGT TCACGCTGAG CGTGGATGTG GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA
    CAGCGGGACT CCCAGGAGGA CTGGACCACC TTCACGCACG ACCGCATCCG CCAGCTCATT
    AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT GTTGTGTTTG AGAAGGAGAA GGACCGGACT
    CAGCGCAAGG ACTTCATCTT TGTCAGTGCC CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG
    CAGCTCATGA AGAACAAGCA CTCCAAGCAG GACGAGCCCG ACATGATCTC AGTCTTCATA
    GGCACCTGGA ACATGGGAAG TGTACCACCT CCAAAAAACG TGACATCCTG GTTCACATCG
    AAGGGTCTGG GGAAGACCCT GGACGAGGTC ACAGTGACCA TACCCCATGA CATCTATGTC
    TTTGGGACCC AGGAGAACTC AGTGGGCGAC CGCGAGTGGC TGGACCTACT GCGCGGGGGC
    CTCAAGGAGC TTACGGATCT GGATTACCGC CCGATTGCCA TGCAATCACT GTGGAATATC
    AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC GAGAACCGTA TCAGCCATGT CAGTACGTCC
    AGTGTGAAGA CTGGCATCGC CAACACCCTG GGGAACAAGG GGGCTGTGGG CGTCTCCTTC
    ATGTTTAATG GCACCTCATT TGGCTTTGTG AATTGTCACC TCACCTCGGG AAATGAGAAG
    ACGGCTCGGA GGAACCAAAA CTACTTGGAC ATCCTGCGGC TGCTCTCGCT GGGCGACCGG
    CAGCTCAATG CCTTTGACAT CTCTCTGCGT TTCACACACC TCTTCTGGTT TGGGGACCTC
    AACTACCGCC TGGACATGGA TATCCAGGAG ATCCTGAACT ACATCAGCAG GAAAGAGTTT
    GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC CTGGAGCGGG AGAAGCACAA GGTCTTCCTT
    CGATTCAGTG AGGAGGAGAT CTCCTTCCCA CCCACCTACC GCTATGAGCG GGGTTCCCGG
    GACACATATG CCTGGCACAA GCAGAAGCCA ACTGGGGTCC GGACCAATGT GCCCTCATGG
    TGTGACCGGA TTCTGTGGAA ATCCTACCCT GAAACTCACA TCATCTGCAA TTCTTATGGT
    CAGAGCCTCC CGGACAGAGT GATGGGAGAT CTGGGGTGGT CACCATCTGG ACTCTGCCCT
    AACCTTGGGA GGTGGGAGCC GAGGGTGGGA ATATTCCCCC TGAGTCCCCA TTCCTATCCC
    CTCTCCCCAG GTTGCACTGA TGACATCGTC ACCAGCGACC ATTCCCCCGT GTTTGGGACA
    TTTGAGGTTG GAGTTACCTC CCAGTTCATC TCCAAGAAAG GGCTCTCAAA GACTTCAGAC
    CAGGCCTACA TTGAGTTTGA GAGCATCGAG GCCATTGTGA AGACAGCCAG CCGCACCAAG
    TTCTTCATCG AGTTCTACTC TACCTGCCTG GAGGAATACA AGAAGAGCTT TGAGAATGAT
    GCCCAGAGCA GTGACAACAT CAACTTCCTC AAAGTGCAGT GGTCTTCACG CCAGCTGCCC
    ACGCTCAAAC CAATTCTGGC TGATATCGAG TACCTGCAGG ACCAGCACCT CCTGCTCACA
    GTCAAGTCCA TGGATGGCTA TGAATCCTAT GGGGAGTGTG TGGTTGCACT CAAATCCATG
    ATCGGCAGCA CGGCCCAACA GTTCCTGACC TTCCTATCCC ACCGTGGCGA GGAGACAGGC
    AATATCAGAG GCTCCATGAA GGTGCGGGTG CCCACGGAGC GCCTGGGCAC CCGTGAGCGG
    CTCTACGAGT GGATCAGCAT TGATAAGGAT GAGGCAGGAG CAAAGAGCAA AGCCCCCTCT
    GTGTCCCGAG GGAGCCAGGA GCCCAGGTCA GGGAGCCGCA AGCCAGCCTT CACAGAGGCC
    TCCTGCCCGC TCTCCAGGTT ATTTGAAGAA CCAGAGAAAC CGCCACCAAC GGGGAGGCCC
    CCAGCCCCAC CCCGAGCAGC TCCCCGGGAG GAGCCCTTGA CCCCCAGGTT GAAGCCAGAG
    GGAGCTCCTG AACCAGAAGG GGTGGCGGCC CCCCCACCCA AGAACAGCTT CAATAACCCT
    GCCTACTACG TCCTTGAAGG GGTCCCGCAC CAGCTGCTGC CCCCGGAGCC ACCCTCGCCT
    GCCAGGGCCC CTGTCCCATC TGCCACCAAG AACAAAGTGG CCATTACAGT GCCTGCTCCA
    CAGCTTGGGC ACCACCGGCA CCCTCGTGTG GGAGAGGGGA GTTCTTCAGA TGAGGAGTCT
    GGAGGCACAC TGCCCCCTCC AGACTTTCCA CCTCCACCAC TGCCGGACTC AGCCATCTTC
    CTGCCCCCCA GCCTGGATCC TTTACCAGGG CCAGTGGTCC GGGGCCGTGG TGGGGCTGAG
    GCCCGTGGCC CACCACCTCC CAAGGCCCAT CCAAGGCCTC CACTGCCCCC AGGCCCCTCA
    CCAGCCAGCA CTTTCCTGGG GGAAGTGGCC AGTGGGGATG ACCGGTCCTG CTCGGTGCTG
    CAGATGGCCA AGACGCTGAG CGAGGTGGAC TATGCCCCTG CTGGGCCTGC ACGCTCAGCG
    CTCCTCCCAG GCCCCCTGGA GCTGCAGCCC CCCCGGGGAC TGCCCTCGGA CTATGGCCGG
    CCCCTCAGCT TCCCTCCACC CCGCATCCGG GAGAGCATCC AGGAAGACCT GGCAGAGGAG
    GCTCCGTGCC TGCAGGGCGG GCGGGCCAGC GGGCTGGGCG AGGCAGGCAT GAGTGCCTGG
    CTGCGGGCCA TCGGCTTGGA GCGCTATGAG GAGGGCCTGG TGCATAATGG CTGGGACGAC
    CTGGAGTTTC TCAGTGACAT CACCGAGGAG GACTTGGAGG AGGCTGGGGT GCAGGACCCG
    GCTCACAAGC GCCTCCTTCT GGACACCCTG CAGCTCAGCA AGTGA

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

    CloneID OHu106673
    Clone ID Related Accession (Same CDS sequence) XM_024448504.1
    Accession Version XM_024448504.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3909bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X3
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTCAGAGC CTCCCGGACA GAGTGATGGG AGATCTGGGG
    TGGTCACCAT CTGGACTCTG CCCTAACCTT GGGAGGTGGG AGCCGAGGGT GGGAATATTC
    CCCCTGAGTC CCCATTCCTA TCCCCTCTCC CCAGGTTGCA CTGATGACAT CGTCACCAGC
    GACCATTCCC CCGTGTTTGG GACATTTGAG GTTGGAGTTA CCTCCCAGTT CATCTCCAAG
    AAAGGGCTCT CAAAGACTTC AGACCAGGCC TACATTGAGT TTGAGAGCAT CGAGGCCATT
    GTGAAGACAG CCAGCCGCAC CAAGTTCTTC ATCGAGTTCT ACTCTACCTG CCTGGAGGAA
    TACAAGAAGA GCTTTGAGAA TGATGCCCAG AGCAGTGACA ACATCAACTT CCTCAAAGTG
    CAGTGGTCTT CACGCCAGCT GCCCACGCTC AAACCAATTC TGGCTGATAT CGAGTACCTG
    CAGGACCAGC ACCTCCTGCT CACAGTCAAG TCCATGGATG GCTATGAATC CTATGGGGAG
    TGTGTGGTTG CACTCAAATC CATGATCGGC AGCACGGCCC AACAGTTCCT GACCTTCCTA
    TCCCACCGTG GCGAGGAGAC AGGCAATATC AGAGGCTCCA TGAAGGTGCG GGTGCCCACG
    GAGCGCCTGG GCACCCGTGA GCGGCTCTAC GAGTGGATCA GCATTGATAA GGATGAGGCA
    GGAGCAAAGA GCAAAGCCCC CTCTGTGTCC CGAGGGAGCC AGGAGCCCAG GTCAGGGAGC
    CGCAAGCCAG CCTTCACAGA GGCCTCCTGC CCGCTCTCCA GGTTATTTGA AGAACCAGAG
    AAACCGCCAC CAACGGGGAG GCCCCCAGCC CCACCCCGAG CAGCTCCCCG GGAGGAGCCC
    TTGACCCCCA GGTTGAAGCC AGAGGGAGCT CCTGAACCAG AAGGGGTGGC GGCCCCCCCA
    CCCAAGAACA GCTTCAATAA CCCTGCCTAC TACGTCCTTG AAGGGGTCCC GCACCAGCTG
    CTGCCCCCGG AGCCACCCTC GCCTGCCAGG GCCCCTGTCC CATCTGCCAC CAAGAACAAA
    GTGGCCATTA CAGTGCCTGC TCCACAGCTT GGGCACCACC GGCACCCTCG TGTGGGAGAG
    GGGAGTTCTT CAGATGAGGA GTCTGGAGGC ACACTGCCCC CTCCAGACTT TCCACCTCCA
    CCACTGCCGG ACTCAGCCAT CTTCCTGCCC CCCAGCCTGG ATCCTTTACC AGGGCCAGTG
    GTCCGGGGCC GTGGTGGGGC TGAGGCCCGT GGCCCACCAC CTCCCAAGGC CCATCCAAGG
    CCTCCACTGC CCCCAGGCCC CTCACCAGCC AGCACTTTCC TGGGGGAAGT GGCCAGTGGG
    GATGACCGGT CCTGCTCGGT GCTGCAGATG GCCAAGACGC TGAGCGAGGT GGACTATGCC
    CCTGCTGGGC CTGCACGCTC AGCGCTCCTC CCAGGCCCCC TGGAGCTGCA GCCCCCCCGG
    GGACTGCCCT CGGACTATGG CCGGCCCCTC AGCTTCCCTC CACCCCGCAT CCGGGAGAGC
    ATCCAGGAAG ACCTGGCAGA GGAGGCTCCG TGCCTGCAGG GCGGGCGGGC CAGCGGGCTG
    GGCGAGGCAG GCATGAGTGC CTGGCTGCGG GCCATCGGCT TGGAGCGCTA TGAGGAGGGC
    CTGGTGCATA ATGGCTGGGA CGACCTGGAG TTTCTCAGTG ACATCACCGA GGAGGACTTG
    GAGGAGGCTG GGGTGCAGGA CCCGGCTCAC AAGCGCCTCC TTCTGGACAC CCTGCAGCTC
    AGCAAGTGA

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

    RefSeq XP_024304272.1
    CDS306..4214
    Translation

    Target ORF information:

    RefSeq Version XM_024448504.1
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X4, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024448504.1

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGTG CTCCCAATGG GCTGAGCACC
    GTCTCGCACG ACTACCTGAA AGGCAGCTAT GGGCTGGACC TGGAAGCTGT GAGGGGTGGA
    GCCAGCCACC TGCCCCACCT CACCCGTACC CTCGCTACCT CATGCCGGAG GCTGCACAGT
    GAGGTGGACA AGGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC
    TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA
    CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG
    AAGGCCCTGA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCAGCTCC GCAGCCATCC
    ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG
    GGTGACCTGA CCAAGATTGG GAAGTCACAG AAGTTCACGC TGAGCGTGGA TGTGGAGGGT
    GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG
    CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG
    TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG
    CGGGAGGCCT TCTGCCAGCT GTTGCAGCTC ATGAAGAACA AGCACTCCAA GCAGGACGAG
    CCCGACATGA TCTCAGTCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA
    AACGTGACAT CCTGGTTCAC ATCGAAGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG
    ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG CGACCGCGAG
    TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT
    GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC
    CGTATCAGCC ATGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAACAC CCTGGGGAAC
    AAGGGGGCTG TGGGCGTCTC CTTCATGTTT AATGGCACCT CATTTGGCTT TGTGAATTGT
    CACCTCACCT CGGGAAATGA GAAGACGGCT CGGAGGAACC AAAACTACTT GGACATCCTG
    CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AATGCCTTTG ACATCTCTCT GCGTTTCACA
    CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG
    AACTACATCA GCAGGAAAGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACCTGGAG
    CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC
    TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG
    GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT
    CACATCATCT GCAATTCTTA TGGTCAGAGC CTCCCGGACA GAGTGATGGG AGATCTGGGG
    TGGTCACCAT CTGGACTCTG CCCTAACCTT GGGAGGTGGG AGCCGAGGGT GGGAATATTC
    CCCCTGAGTC CCCATTCCTA TCCCCTCTCC CCAGGTTGCA CTGATGACAT CGTCACCAGC
    GACCATTCCC CCGTGTTTGG GACATTTGAG GTTGGAGTTA CCTCCCAGTT CATCTCCAAG
    AAAGGGCTCT CAAAGACTTC AGACCAGGCC TACATTGAGT TTGAGAGCAT CGAGGCCATT
    GTGAAGACAG CCAGCCGCAC CAAGTTCTTC ATCGAGTTCT ACTCTACCTG CCTGGAGGAA
    TACAAGAAGA GCTTTGAGAA TGATGCCCAG AGCAGTGACA ACATCAACTT CCTCAAAGTG
    CAGTGGTCTT CACGCCAGCT GCCCACGCTC AAACCAATTC TGGCTGATAT CGAGTACCTG
    CAGGACCAGC ACCTCCTGCT CACAGTCAAG TCCATGGATG GCTATGAATC CTATGGGGAG
    TGTGTGGTTG CACTCAAATC CATGATCGGC AGCACGGCCC AACAGTTCCT GACCTTCCTA
    TCCCACCGTG GCGAGGAGAC AGGCAATATC AGAGGCTCCA TGAAGGTGCG GGTGCCCACG
    GAGCGCCTGG GCACCCGTGA GCGGCTCTAC GAGTGGATCA GCATTGATAA GGATGAGGCA
    GGAGCAAAGA GCAAAGCCCC CTCTGTGTCC CGAGGGAGCC AGGAGCCCAG GTCAGGGAGC
    CGCAAGCCAG CCTTCACAGA GGCCTCCTGC CCGCTCTCCA GGTTATTTGA AGAACCAGAG
    AAACCGCCAC CAACGGGGAG GCCCCCAGCC CCACCCCGAG CAGCTCCCCG GGAGGAGCCC
    TTGACCCCCA GGTTGAAGCC AGAGGGAGCT CCTGAACCAG AAGGGGTGGC GGCCCCCCCA
    CCCAAGAACA GCTTCAATAA CCCTGCCTAC TACGTCCTTG AAGGGGTCCC GCACCAGCTG
    CTGCCCCCGG AGCCACCCTC GCCTGCCAGG GCCCCTGTCC CATCTGCCAC CAAGAACAAA
    GTGGCCATTA CAGTGCCTGC TCCACAGCTT GGGCACCACC GGCACCCTCG TGTGGGAGAG
    GGGAGTTCTT CAGATGAGGA GTCTGGAGGC ACACTGCCCC CTCCAGACTT TCCACCTCCA
    CCACTGCCGG ACTCAGCCAT CTTCCTGCCC CCCAGCCTGG ATCCTTTACC AGGGCCAGTG
    GTCCGGGGCC GTGGTGGGGC TGAGGCCCGT GGCCCACCAC CTCCCAAGGC CCATCCAAGG
    CCTCCACTGC CCCCAGGCCC CTCACCAGCC AGCACTTTCC TGGGGGAAGT GGCCAGTGGG
    GATGACCGGT CCTGCTCGGT GCTGCAGATG GCCAAGACGC TGAGCGAGGT GGACTATGCC
    CCTGCTGGGC CTGCACGCTC AGCGCTCCTC CCAGGCCCCC TGGAGCTGCA GCCCCCCCGG
    GGACTGCCCT CGGACTATGG CCGGCCCCTC AGCTTCCCTC CACCCCGCAT CCGGGAGAGC
    ATCCAGGAAG ACCTGGCAGA GGAGGCTCCG TGCCTGCAGG GCGGGCGGGC CAGCGGGCTG
    GGCGAGGCAG GCATGAGTGC CTGGCTGCGG GCCATCGGCT TGGAGCGCTA TGAGGAGGGC
    CTGGTGCATA ATGGCTGGGA CGACCTGGAG TTTCTCAGTG ACATCACCGA GGAGGACTTG
    GAGGAGGCTG GGGTGCAGGA CCCGGCTCAC AAGCGCCTCC TTCTGGACAC CCTGCAGCTC
    AGCAAGTGA

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

    CloneID OHu106674
    Clone ID Related Accession (Same CDS sequence) XM_024448505.1
    Accession Version XM_024448505.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3753bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X6
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) 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 :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT CAGAGCCTCC CGGACAGAGT GATGGGAGAT
    CTGGGGTGGT CACCATCTGG ACTCTGCCCT AACCTTGGGA GGTGGGAGCC GAGGGTGGGA
    ATATTCCCCC TGAGTCCCCA TTCCTATCCC CTCTCCCCAG GTTGCACTGA TGACATCGTC
    ACCAGCGACC ATTCCCCCGT GTTTGGGACA TTTGAGGTTG GAGTTACCTC CCAGTTCATC
    TCCAAGAAAG GGCTCTCAAA GACTTCAGAC CAGGCCTACA TTGAGTTTGA GAGCATCGAG
    GCCATTGTGA AGACAGCCAG CCGCACCAAG TTCTTCATCG AGTTCTACTC TACCTGCCTG
    GAGGAATACA AGAAGAGCTT TGAGAATGAT GCCCAGAGCA GTGACAACAT CAACTTCCTC
    AAAGTGCAGT GGTCTTCACG CCAGCTGCCC ACGCTCAAAC CAATTCTGGC TGATATCGAG
    TACCTGCAGG ACCAGCACCT CCTGCTCACA GTCAAGTCCA TGGATGGCTA TGAATCCTAT
    GGGGAGTGTG TGGTTGCACT CAAATCCATG ATCGGCAGCA CGGCCCAACA GTTCCTGACC
    TTCCTATCCC ACCGTGGCGA GGAGACAGGC AATATCAGAG GCTCCATGAA GGTGCGGGTG
    CCCACGGAGC GCCTGGGCAC CCGTGAGCGG CTCTACGAGT GGATCAGCAT TGATAAGGAT
    GAGGCAGGAG CAAAGAGCAA AGCCCCCTCT GTGTCCCGAG GGAGCCAGGA GCCCAGGTCA
    GGGAGCCGCA AGCCAGCCTT CACAGAGGCC TCCTGCCCGC TCTCCAGGTT ATTTGAAGAA
    CCAGAGAAAC CGCCACCAAC GGGGAGGCCC CCAGCCCCAC CCCGAGCAGC TCCCCGGGAG
    GAGCCCTTGA CCCCCAGGTT GAAGCCAGAG GGAGCTCCTG AACCAGAAGG GGTGGCGGCC
    CCCCCACCCA AGAACAGCTT CAATAACCCT GCCTACTACG TCCTTGAAGG GGTCCCGCAC
    CAGCTGCTGC CCCCGGAGCC ACCCTCGCCT GCCAGGGCCC CTGTCCCATC TGCCACCAAG
    AACAAAGTGG CCATTACAGT GCCTGCTCCA CAGCTTGGGC ACCACCGGCA CCCTCGTGTG
    GGAGAGGGGA GTTCTTCAGA TGAGGAGTCT GGAGGCACAC TGCCCCCTCC AGACTTTCCA
    CCTCCACCAC TGCCGGACTC AGCCATCTTC CTGCCCCCCA GCCTGGATCC TTTACCAGGG
    CCAGTGGTCC GGGGCCGTGG TGGGGCTGAG GCCCGTGGCC CACCACCTCC CAAGGCCCAT
    CCAAGGCCTC CACTGCCCCC AGGCCCCTCA CCAGCCAGCA CTTTCCTGGG GGAAGTGGCC
    AGTGGGGATG ACCGGTCCTG CTCGGTGCTG CAGATGGCCA AGACGCTGAG CGAGGTGGAC
    TATGCCCCTG CTGGGCCTGC ACGCTCAGCG CTCCTCCCAG GCCCCCTGGA GCTGCAGCCC
    CCCCGGGGAC TGCCCTCGGA CTATGGCCGG CCCCTCAGCT TCCCTCCACC CCGCATCCGG
    GAGAGCATCC AGGAAGACCT GGCAGAGGAG TGA

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

    RefSeq XP_024304273.1
    CDS306..4058
    Translation

    Target ORF information:

    RefSeq Version XM_024448505.1
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X7, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_024448505.1

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT CAGAGCCTCC CGGACAGAGT GATGGGAGAT
    CTGGGGTGGT CACCATCTGG ACTCTGCCCT AACCTTGGGA GGTGGGAGCC GAGGGTGGGA
    ATATTCCCCC TGAGTCCCCA TTCCTATCCC CTCTCCCCAG GTTGCACTGA TGACATCGTC
    ACCAGCGACC ATTCCCCCGT GTTTGGGACA TTTGAGGTTG GAGTTACCTC CCAGTTCATC
    TCCAAGAAAG GGCTCTCAAA GACTTCAGAC CAGGCCTACA TTGAGTTTGA GAGCATCGAG
    GCCATTGTGA AGACAGCCAG CCGCACCAAG TTCTTCATCG AGTTCTACTC TACCTGCCTG
    GAGGAATACA AGAAGAGCTT TGAGAATGAT GCCCAGAGCA GTGACAACAT CAACTTCCTC
    AAAGTGCAGT GGTCTTCACG CCAGCTGCCC ACGCTCAAAC CAATTCTGGC TGATATCGAG
    TACCTGCAGG ACCAGCACCT CCTGCTCACA GTCAAGTCCA TGGATGGCTA TGAATCCTAT
    GGGGAGTGTG TGGTTGCACT CAAATCCATG ATCGGCAGCA CGGCCCAACA GTTCCTGACC
    TTCCTATCCC ACCGTGGCGA GGAGACAGGC AATATCAGAG GCTCCATGAA GGTGCGGGTG
    CCCACGGAGC GCCTGGGCAC CCGTGAGCGG CTCTACGAGT GGATCAGCAT TGATAAGGAT
    GAGGCAGGAG CAAAGAGCAA AGCCCCCTCT GTGTCCCGAG GGAGCCAGGA GCCCAGGTCA
    GGGAGCCGCA AGCCAGCCTT CACAGAGGCC TCCTGCCCGC TCTCCAGGTT ATTTGAAGAA
    CCAGAGAAAC CGCCACCAAC GGGGAGGCCC CCAGCCCCAC CCCGAGCAGC TCCCCGGGAG
    GAGCCCTTGA CCCCCAGGTT GAAGCCAGAG GGAGCTCCTG AACCAGAAGG GGTGGCGGCC
    CCCCCACCCA AGAACAGCTT CAATAACCCT GCCTACTACG TCCTTGAAGG GGTCCCGCAC
    CAGCTGCTGC CCCCGGAGCC ACCCTCGCCT GCCAGGGCCC CTGTCCCATC TGCCACCAAG
    AACAAAGTGG CCATTACAGT GCCTGCTCCA CAGCTTGGGC ACCACCGGCA CCCTCGTGTG
    GGAGAGGGGA GTTCTTCAGA TGAGGAGTCT GGAGGCACAC TGCCCCCTCC AGACTTTCCA
    CCTCCACCAC TGCCGGACTC AGCCATCTTC CTGCCCCCCA GCCTGGATCC TTTACCAGGG
    CCAGTGGTCC GGGGCCGTGG TGGGGCTGAG GCCCGTGGCC CACCACCTCC CAAGGCCCAT
    CCAAGGCCTC CACTGCCCCC AGGCCCCTCA CCAGCCAGCA CTTTCCTGGG GGAAGTGGCC
    AGTGGGGATG ACCGGTCCTG CTCGGTGCTG CAGATGGCCA AGACGCTGAG CGAGGTGGAC
    TATGCCCCTG CTGGGCCTGC ACGCTCAGCG CTCCTCCCAG GCCCCCTGGA GCTGCAGCCC
    CCCCGGGGAC TGCCCTCGGA CTATGGCCGG CCCCTCAGCT TCCCTCCACC CCGCATCCGG
    GAGAGCATCC AGGAAGACCT GGCAGAGGAG TGA

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

    CloneID OHu92197
    Clone ID Related Accession (Same CDS sequence) XM_017017673.1
    Accession Version XM_017017673.1 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3813bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X2
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    ATGGCAGCTT CCTGGTCCGA GACAGCGAGA GCGTGGCGGG GGCCTTCGCG CTCTGCGTCC 
    TACCCCTTCA GGCATCCTCC AGGTAGAAGG GAGCAGGGGA GAGGATGTGC ATTCCACGTT
    GTGTGCAGTC CCGTTTGGAT AGGGACTGAG TGGTATCAGA AGCATGTGCA CACGTATCGC
    ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT GTGCAGACCT CGCAGGGTGT GCCTGTGCGC
    CGCTTCCAGA CCCTGGGTGA GCTCATCGGC CTGTACGCCC AGCCCAACCA GGGCCTTGTG
    TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG CGAGAGCCGG ACCCACCGGA TGACCGGGAT
    GCCTCAGATG GGGAGGATGA GAAGCCCCCG CTGCCCCCGC GCTCTGGCTC CACCAGCATT
    TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG CCAGCTCCTG AGACTCCCAC AGCTCCAGCT
    GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA CAGGTCAGCA GGACCTCCAC TGACTTCTTA
    ACCCCTCCCC AAAGTGCTCC CAATGGGCTG AGCACCGTCT CGCACGACTA CCTGAAAGGC
    AGCTATGGGC TGGACCTGGA AGCTGTGAGG GGTGGAGCCA GCCACCTGCC CCACCTCACC
    CGTACCCTCG CTACCTCATG CCGGAGGCTG CACAGTGAGG TGGACAAGGT CCTGTCAGGC
    CTGGAGATCC TGTCCAAGGT GTTTGACCAG CAGAGCTCGC CCATGGTGAC CCGCCTTTTG
    CAGCAGCAGA ACCTGCCACA GACAGGGGAG CAGGAACTAG AGAGCCTGGT GCTGAAGCTG
    TCAGTGCTAA AGGACTTCCT GTCAGGCATC CAGAAGAAGG CCCTGAAGGC CCTACAGGAC
    ATGAGCTCCA CAGCACCCCC AGCTCCGCAG CCATCCACAC GTAAGGCCAA GACCATCCCC
    GTGCAGGCCT TTGAGGTGAA GCTAGATGTG ACCCTGGGTG ACCTGACCAA GATTGGGAAG
    TCACAGAAGT TCACGCTGAG CGTGGATGTG GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA
    CAGCGGGACT CCCAGGAGGA CTGGACCACC TTCACGCACG ACCGCATCCG CCAGCTCATT
    AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT GTTGTGTTTG AGAAGGAGAA GGACCGGACT
    CAGCGCAAGG ACTTCATCTT TGTCAGTGCC CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG
    CAGCTCATGA AGAACAAGCA CTCCAAGCAG GACGAGCCCG ACATGATCTC AGTCTTCATA
    GGCACCTGGA ACATGGGAAG TGTACCACCT CCAAAAAACG TGACATCCTG GTTCACATCG
    AAGGGTCTGG GGAAGACCCT GGACGAGGTC ACAGTGACCA TACCCCATGA CATCTATGTC
    TTTGGGACCC AGGAGAACTC AGTGGGCGAC CGCGAGTGGC TGGACCTACT GCGCGGGGGC
    CTCAAGGAGC TTACGGATCT GGATTACCGC CCGATTGCCA TGCAATCACT GTGGAATATC
    AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC GAGAACCGTA TCAGCCATGT CAGTACGTCC
    AGTGTGAAGA CTGGCATCGC CAACACCCTG GGGAACAAGG GGGCTGTGGG CGTCTCCTTC
    ATGTTTAATG GCACCTCATT TGGCTTTGTG AATTGTCACC TCACCTCGGG AAATGAGAAG
    ACGGCTCGGA GGAACCAAAA CTACTTGGAC ATCCTGCGGC TGCTCTCGCT GGGCGACCGG
    CAGCTCAATG CCTTTGACAT CTCTCTGCGT TTCACACACC TCTTCTGGTT TGGGGACCTC
    AACTACCGCC TGGACATGGA TATCCAGGAG ATCCTGAACT ACATCAGCAG GAAAGAGTTT
    GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC CTGGAGCGGG AGAAGCACAA GGTCTTCCTT
    CGATTCAGTG AGGAGGAGAT CTCCTTCCCA CCCACCTACC GCTATGAGCG GGGTTCCCGG
    GACACATATG CCTGGCACAA GCAGAAGCCA ACTGGGGTCC GGACCAATGT GCCCTCATGG
    TGTGACCGGA TTCTGTGGAA ATCCTACCCT GAAACTCACA TCATCTGCAA TTCTTATGGT
    TGCACTGATG ACATCGTCAC CAGCGACCAT TCCCCCGTGT TTGGGACATT TGAGGTTGGA
    GTTACCTCCC AGTTCATCTC CAAGAAAGGG CTCTCAAAGA CTTCAGACCA GGCCTACATT
    GAGTTTGAGA GCATCGAGGC CATTGTGAAG ACAGCCAGCC GCACCAAGTT CTTCATCGAG
    TTCTACTCTA CCTGCCTGGA GGAATACAAG AAGAGCTTTG AGAATGATGC CCAGAGCAGT
    GACAACATCA ACTTCCTCAA AGTGCAGTGG TCTTCACGCC AGCTGCCCAC GCTCAAACCA
    ATTCTGGCTG ATATCGAGTA CCTGCAGGAC CAGCACCTCC TGCTCACAGT CAAGTCCATG
    GATGGCTATG AATCCTATGG GGAGTGTGTG GTTGCACTCA AATCCATGAT CGGCAGCACG
    GCCCAACAGT TCCTGACCTT CCTATCCCAC CGTGGCGAGG AGACAGGCAA TATCAGAGGC
    TCCATGAAGG TGCGGGTGCC CACGGAGCGC CTGGGCACCC GTGAGCGGCT CTACGAGTGG
    ATCAGCATTG ATAAGGATGA GGCAGGAGCA AAGAGCAAAG CCCCCTCTGT GTCCCGAGGG
    AGCCAGGAGC CCAGGTCAGG GAGCCGCAAG CCAGCCTTCA CAGAGGCCTC CTGCCCGCTC
    TCCAGGTTAT TTGAAGAACC AGAGAAACCG CCACCAACGG GGAGGCCCCC AGCCCCACCC
    CGAGCAGCTC CCCGGGAGGA GCCCTTGACC CCCAGGTTGA AGCCAGAGGG AGCTCCTGAA
    CCAGAAGGGG TGGCGGCCCC CCCACCCAAG AACAGCTTCA ATAACCCTGC CTACTACGTC
    CTTGAAGGGG TCCCGCACCA GCTGCTGCCC CCGGAGCCAC CCTCGCCTGC CAGGGCCCCT
    GTCCCATCTG CCACCAAGAA CAAAGTGGCC ATTACAGTGC CTGCTCCACA GCTTGGGCAC
    CACCGGCACC CTCGTGTGGG AGAGGGGAGT TCTTCAGATG AGGAGTCTGG AGGCACACTG
    CCCCCTCCAG ACTTTCCACC TCCACCACTG CCGGACTCAG CCATCTTCCT GCCCCCCAGC
    CTGGATCCTT TACCAGGGCC AGTGGTCCGG GGCCGTGGTG GGGCTGAGGC CCGTGGCCCA
    CCACCTCCCA AGGCCCATCC AAGGCCTCCA CTGCCCCCAG GCCCCTCACC AGCCAGCACT
    TTCCTGGGGG AAGTGGCCAG TGGGGATGAC CGGTCCTGCT CGGTGCTGCA GATGGCCAAG
    ACGCTGAGCG AGGTGGACTA TGCCCCTGCT GGGCCTGCAC GCTCAGCGCT CCTCCCAGGC
    CCCCTGGAGC TGCAGCCCCC CCGGGGACTG CCCTCGGACT ATGGCCGGCC CCTCAGCTTC
    CCTCCACCCC GCATCCGGGA GAGCATCCAG GAAGACCTGG CAGAGGAGGC TCCGTGCCTG
    CAGGGCGGGC GGGCCAGCGG GCTGGGCGAG GCAGGCATGA GTGCCTGGCT GCGGGCCATC
    GGCTTGGAGC GCTATGAGGA GGGCCTGGTG CATAATGGCT GGGACGACCT GGAGTTTCTC
    AGTGACATCA CCGAGGAGGA CTTGGAGGAG GCTGGGGTGC AGGACCCGGC TCACAAGCGC
    CTCCTTCTGG ACACCCTGCA GCTCAGCAAG TGA

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

    RefSeq XP_016873162.1
    CDS427..4239
    Translation

    Target ORF information:

    RefSeq Version XM_017017673.1
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X3, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_017017673.1

    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
    ATGGCAGCTT CCTGGTCCGA GACAGCGAGA GCGTGGCGGG GGCCTTCGCG CTCTGCGTCC 
    TACCCCTTCA GGCATCCTCC AGGTAGAAGG GAGCAGGGGA GAGGATGTGC ATTCCACGTT
    GTGTGCAGTC CCGTTTGGAT AGGGACTGAG TGGTATCAGA AGCATGTGCA CACGTATCGC
    ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT GTGCAGACCT CGCAGGGTGT GCCTGTGCGC
    CGCTTCCAGA CCCTGGGTGA GCTCATCGGC CTGTACGCCC AGCCCAACCA GGGCCTTGTG
    TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG CGAGAGCCGG ACCCACCGGA TGACCGGGAT
    GCCTCAGATG GGGAGGATGA GAAGCCCCCG CTGCCCCCGC GCTCTGGCTC CACCAGCATT
    TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG CCAGCTCCTG AGACTCCCAC AGCTCCAGCT
    GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA CAGGTCAGCA GGACCTCCAC TGACTTCTTA
    ACCCCTCCCC AAAGTGCTCC CAATGGGCTG AGCACCGTCT CGCACGACTA CCTGAAAGGC
    AGCTATGGGC TGGACCTGGA AGCTGTGAGG GGTGGAGCCA GCCACCTGCC CCACCTCACC
    CGTACCCTCG CTACCTCATG CCGGAGGCTG CACAGTGAGG TGGACAAGGT CCTGTCAGGC
    CTGGAGATCC TGTCCAAGGT GTTTGACCAG CAGAGCTCGC CCATGGTGAC CCGCCTTTTG
    CAGCAGCAGA ACCTGCCACA GACAGGGGAG CAGGAACTAG AGAGCCTGGT GCTGAAGCTG
    TCAGTGCTAA AGGACTTCCT GTCAGGCATC CAGAAGAAGG CCCTGAAGGC CCTACAGGAC
    ATGAGCTCCA CAGCACCCCC AGCTCCGCAG CCATCCACAC GTAAGGCCAA GACCATCCCC
    GTGCAGGCCT TTGAGGTGAA GCTAGATGTG ACCCTGGGTG ACCTGACCAA GATTGGGAAG
    TCACAGAAGT TCACGCTGAG CGTGGATGTG GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA
    CAGCGGGACT CCCAGGAGGA CTGGACCACC TTCACGCACG ACCGCATCCG CCAGCTCATT
    AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT GTTGTGTTTG AGAAGGAGAA GGACCGGACT
    CAGCGCAAGG ACTTCATCTT TGTCAGTGCC CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG
    CAGCTCATGA AGAACAAGCA CTCCAAGCAG GACGAGCCCG ACATGATCTC AGTCTTCATA
    GGCACCTGGA ACATGGGAAG TGTACCACCT CCAAAAAACG TGACATCCTG GTTCACATCG
    AAGGGTCTGG GGAAGACCCT GGACGAGGTC ACAGTGACCA TACCCCATGA CATCTATGTC
    TTTGGGACCC AGGAGAACTC AGTGGGCGAC CGCGAGTGGC TGGACCTACT GCGCGGGGGC
    CTCAAGGAGC TTACGGATCT GGATTACCGC CCGATTGCCA TGCAATCACT GTGGAATATC
    AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC GAGAACCGTA TCAGCCATGT CAGTACGTCC
    AGTGTGAAGA CTGGCATCGC CAACACCCTG GGGAACAAGG GGGCTGTGGG CGTCTCCTTC
    ATGTTTAATG GCACCTCATT TGGCTTTGTG AATTGTCACC TCACCTCGGG AAATGAGAAG
    ACGGCTCGGA GGAACCAAAA CTACTTGGAC ATCCTGCGGC TGCTCTCGCT GGGCGACCGG
    CAGCTCAATG CCTTTGACAT CTCTCTGCGT TTCACACACC TCTTCTGGTT TGGGGACCTC
    AACTACCGCC TGGACATGGA TATCCAGGAG ATCCTGAACT ACATCAGCAG GAAAGAGTTT
    GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC CTGGAGCGGG AGAAGCACAA GGTCTTCCTT
    CGATTCAGTG AGGAGGAGAT CTCCTTCCCA CCCACCTACC GCTATGAGCG GGGTTCCCGG
    GACACATATG CCTGGCACAA GCAGAAGCCA ACTGGGGTCC GGACCAATGT GCCCTCATGG
    TGTGACCGGA TTCTGTGGAA ATCCTACCCT GAAACTCACA TCATCTGCAA TTCTTATGGT
    TGCACTGATG ACATCGTCAC CAGCGACCAT TCCCCCGTGT TTGGGACATT TGAGGTTGGA
    GTTACCTCCC AGTTCATCTC CAAGAAAGGG CTCTCAAAGA CTTCAGACCA GGCCTACATT
    GAGTTTGAGA GCATCGAGGC CATTGTGAAG ACAGCCAGCC GCACCAAGTT CTTCATCGAG
    TTCTACTCTA CCTGCCTGGA GGAATACAAG AAGAGCTTTG AGAATGATGC CCAGAGCAGT
    GACAACATCA ACTTCCTCAA AGTGCAGTGG TCTTCACGCC AGCTGCCCAC GCTCAAACCA
    ATTCTGGCTG ATATCGAGTA CCTGCAGGAC CAGCACCTCC TGCTCACAGT CAAGTCCATG
    GATGGCTATG AATCCTATGG GGAGTGTGTG GTTGCACTCA AATCCATGAT CGGCAGCACG
    GCCCAACAGT TCCTGACCTT CCTATCCCAC CGTGGCGAGG AGACAGGCAA TATCAGAGGC
    TCCATGAAGG TGCGGGTGCC CACGGAGCGC CTGGGCACCC GTGAGCGGCT CTACGAGTGG
    ATCAGCATTG ATAAGGATGA GGCAGGAGCA AAGAGCAAAG CCCCCTCTGT GTCCCGAGGG
    AGCCAGGAGC CCAGGTCAGG GAGCCGCAAG CCAGCCTTCA CAGAGGCCTC CTGCCCGCTC
    TCCAGGTTAT TTGAAGAACC AGAGAAACCG CCACCAACGG GGAGGCCCCC AGCCCCACCC
    CGAGCAGCTC CCCGGGAGGA GCCCTTGACC CCCAGGTTGA AGCCAGAGGG AGCTCCTGAA
    CCAGAAGGGG TGGCGGCCCC CCCACCCAAG AACAGCTTCA ATAACCCTGC CTACTACGTC
    CTTGAAGGGG TCCCGCACCA GCTGCTGCCC CCGGAGCCAC CCTCGCCTGC CAGGGCCCCT
    GTCCCATCTG CCACCAAGAA CAAAGTGGCC ATTACAGTGC CTGCTCCACA GCTTGGGCAC
    CACCGGCACC CTCGTGTGGG AGAGGGGAGT TCTTCAGATG AGGAGTCTGG AGGCACACTG
    CCCCCTCCAG ACTTTCCACC TCCACCACTG CCGGACTCAG CCATCTTCCT GCCCCCCAGC
    CTGGATCCTT TACCAGGGCC AGTGGTCCGG GGCCGTGGTG GGGCTGAGGC CCGTGGCCCA
    CCACCTCCCA AGGCCCATCC AAGGCCTCCA CTGCCCCCAG GCCCCTCACC AGCCAGCACT
    TTCCTGGGGG AAGTGGCCAG TGGGGATGAC CGGTCCTGCT CGGTGCTGCA GATGGCCAAG
    ACGCTGAGCG AGGTGGACTA TGCCCCTGCT GGGCCTGCAC GCTCAGCGCT CCTCCCAGGC
    CCCCTGGAGC TGCAGCCCCC CCGGGGACTG CCCTCGGACT ATGGCCGGCC CCTCAGCTTC
    CCTCCACCCC GCATCCGGGA GAGCATCCAG GAAGACCTGG CAGAGGAGGC TCCGTGCCTG
    CAGGGCGGGC GGGCCAGCGG GCTGGGCGAG GCAGGCATGA GTGCCTGGCT GCGGGCCATC
    GGCTTGGAGC GCTATGAGGA GGGCCTGGTG CATAATGGCT GGGACGACCT GGAGTTTCTC
    AGTGACATCA CCGAGGAGGA CTTGGAGGAG GCTGGGGTGC AGGACCCGGC TCACAAGCGC
    CTCCTTCTGG ACACCCTGCA GCTCAGCAAG TGA

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

    CloneID OHu45317
    Clone ID Related Accession (Same CDS sequence) XM_005273978.3 , XM_005273979.4
    Accession Version XM_005273978.3 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3843bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X1
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Mar 12, 2015 this sequence version replaced XM_005273978.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT TGCACTGATG ACATCGTCAC CAGCGACCAT
    TCCCCCGTGT TTGGGACATT TGAGGTTGGA GTTACCTCCC AGTTCATCTC CAAGAAAGGG
    CTCTCAAAGA CTTCAGACCA GGCCTACATT GAGTTTGAGA GCATCGAGGC CATTGTGAAG
    ACAGCCAGCC GCACCAAGTT CTTCATCGAG TTCTACTCTA CCTGCCTGGA GGAATACAAG
    AAGAGCTTTG AGAATGATGC CCAGAGCAGT GACAACATCA ACTTCCTCAA AGTGCAGTGG
    TCTTCACGCC AGCTGCCCAC GCTCAAACCA ATTCTGGCTG ATATCGAGTA CCTGCAGGAC
    CAGCACCTCC TGCTCACAGT CAAGTCCATG GATGGCTATG AATCCTATGG GGAGTGTGTG
    GTTGCACTCA AATCCATGAT CGGCAGCACG GCCCAACAGT TCCTGACCTT CCTATCCCAC
    CGTGGCGAGG AGACAGGCAA TATCAGAGGC TCCATGAAGG TGCGGGTGCC CACGGAGCGC
    CTGGGCACCC GTGAGCGGCT CTACGAGTGG ATCAGCATTG ATAAGGATGA GGCAGGAGCA
    AAGAGCAAAG CCCCCTCTGT GTCCCGAGGG AGCCAGGAGC CCAGGTCAGG GAGCCGCAAG
    CCAGCCTTCA CAGAGGCCTC CTGCCCGCTC TCCAGGTTAT TTGAAGAACC AGAGAAACCG
    CCACCAACGG GGAGGCCCCC AGCCCCACCC CGAGCAGCTC CCCGGGAGGA GCCCTTGACC
    CCCAGGTTGA AGCCAGAGGG AGCTCCTGAA CCAGAAGGGG TGGCGGCCCC CCCACCCAAG
    AACAGCTTCA ATAACCCTGC CTACTACGTC CTTGAAGGGG TCCCGCACCA GCTGCTGCCC
    CCGGAGCCAC CCTCGCCTGC CAGGGCCCCT GTCCCATCTG CCACCAAGAA CAAAGTGGCC
    ATTACAGTGC CTGCTCCACA GCTTGGGCAC CACCGGCACC CTCGTGTGGG AGAGGGGAGT
    TCTTCAGATG AGGAGTCTGG AGGCACACTG CCCCCTCCAG ACTTTCCACC TCCACCACTG
    CCGGACTCAG CCATCTTCCT GCCCCCCAGC CTGGATCCTT TACCAGGGCC AGTGGTCCGG
    GGCCGTGGTG GGGCTGAGGC CCGTGGCCCA CCACCTCCCA AGGCCCATCC AAGGCCTCCA
    CTGCCCCCAG GCCCCTCACC AGCCAGCACT TTCCTGGGGG AAGTGGCCAG TGGGGATGAC
    CGGTCCTGCT CGGTGCTGCA GATGGCCAAG ACGCTGAGCG AGGTGGACTA TGCCCCTGCT
    GGGCCTGCAC GCTCAGCGCT CCTCCCAGGC CCCCTGGAGC TGCAGCCCCC CCGGGGACTG
    CCCTCGGACT ATGGCCGGCC CCTCAGCTTC CCTCCACCCC GCATCCGGGA GAGCATCCAG
    GAAGACCTGG CAGAGGAGGC TCCGTGCCTG CAGGGCGGGC GGGCCAGCGG GCTGGGCGAG
    GCAGGCATGA GTGCCTGGCT GCGGGCCATC GGCTTGGAGC GCTATGAGGA GGGCCTGGTG
    CATAATGGCT GGGACGACCT GGAGTTTCTC AGTGACATCA CCGAGGAGGA CTTGGAGGAG
    GCTGGGGTGC AGGACCCGGC TCACAAGCGC CTCCTTCTGG ACACCCTGCA GCTCAGCAAG
    TGA

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

    RefSeq XP_005274035.1
    CDS459..4301
    Translation

    Target ORF information:

    RefSeq Version XM_005273978.3
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005273978.3

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT TGCACTGATG ACATCGTCAC CAGCGACCAT
    TCCCCCGTGT TTGGGACATT TGAGGTTGGA GTTACCTCCC AGTTCATCTC CAAGAAAGGG
    CTCTCAAAGA CTTCAGACCA GGCCTACATT GAGTTTGAGA GCATCGAGGC CATTGTGAAG
    ACAGCCAGCC GCACCAAGTT CTTCATCGAG TTCTACTCTA CCTGCCTGGA GGAATACAAG
    AAGAGCTTTG AGAATGATGC CCAGAGCAGT GACAACATCA ACTTCCTCAA AGTGCAGTGG
    TCTTCACGCC AGCTGCCCAC GCTCAAACCA ATTCTGGCTG ATATCGAGTA CCTGCAGGAC
    CAGCACCTCC TGCTCACAGT CAAGTCCATG GATGGCTATG AATCCTATGG GGAGTGTGTG
    GTTGCACTCA AATCCATGAT CGGCAGCACG GCCCAACAGT TCCTGACCTT CCTATCCCAC
    CGTGGCGAGG AGACAGGCAA TATCAGAGGC TCCATGAAGG TGCGGGTGCC CACGGAGCGC
    CTGGGCACCC GTGAGCGGCT CTACGAGTGG ATCAGCATTG ATAAGGATGA GGCAGGAGCA
    AAGAGCAAAG CCCCCTCTGT GTCCCGAGGG AGCCAGGAGC CCAGGTCAGG GAGCCGCAAG
    CCAGCCTTCA CAGAGGCCTC CTGCCCGCTC TCCAGGTTAT TTGAAGAACC AGAGAAACCG
    CCACCAACGG GGAGGCCCCC AGCCCCACCC CGAGCAGCTC CCCGGGAGGA GCCCTTGACC
    CCCAGGTTGA AGCCAGAGGG AGCTCCTGAA CCAGAAGGGG TGGCGGCCCC CCCACCCAAG
    AACAGCTTCA ATAACCCTGC CTACTACGTC CTTGAAGGGG TCCCGCACCA GCTGCTGCCC
    CCGGAGCCAC CCTCGCCTGC CAGGGCCCCT GTCCCATCTG CCACCAAGAA CAAAGTGGCC
    ATTACAGTGC CTGCTCCACA GCTTGGGCAC CACCGGCACC CTCGTGTGGG AGAGGGGAGT
    TCTTCAGATG AGGAGTCTGG AGGCACACTG CCCCCTCCAG ACTTTCCACC TCCACCACTG
    CCGGACTCAG CCATCTTCCT GCCCCCCAGC CTGGATCCTT TACCAGGGCC AGTGGTCCGG
    GGCCGTGGTG GGGCTGAGGC CCGTGGCCCA CCACCTCCCA AGGCCCATCC AAGGCCTCCA
    CTGCCCCCAG GCCCCTCACC AGCCAGCACT TTCCTGGGGG AAGTGGCCAG TGGGGATGAC
    CGGTCCTGCT CGGTGCTGCA GATGGCCAAG ACGCTGAGCG AGGTGGACTA TGCCCCTGCT
    GGGCCTGCAC GCTCAGCGCT CCTCCCAGGC CCCCTGGAGC TGCAGCCCCC CCGGGGACTG
    CCCTCGGACT ATGGCCGGCC CCTCAGCTTC CCTCCACCCC GCATCCGGGA GAGCATCCAG
    GAAGACCTGG CAGAGGAGGC TCCGTGCCTG CAGGGCGGGC GGGCCAGCGG GCTGGGCGAG
    GCAGGCATGA GTGCCTGGCT GCGGGCCATC GGCTTGGAGC GCTATGAGGA GGGCCTGGTG
    CATAATGGCT GGGACGACCT GGAGTTTCTC AGTGACATCA CCGAGGAGGA CTTGGAGGAG
    GCTGGGGTGC AGGACCCGGC TCACAAGCGC CTCCTTCTGG ACACCCTGCA GCTCAGCAAG
    TGA

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

    CloneID OHu45317
    Clone ID Related Accession (Same CDS sequence) XM_005273978.3 , XM_005273979.4
    Accession Version XM_005273979.4 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3843bp)
    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 2019-12-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_005273979.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model 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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT TGCACTGATG ACATCGTCAC CAGCGACCAT
    TCCCCCGTGT TTGGGACATT TGAGGTTGGA GTTACCTCCC AGTTCATCTC CAAGAAAGGG
    CTCTCAAAGA CTTCAGACCA GGCCTACATT GAGTTTGAGA GCATCGAGGC CATTGTGAAG
    ACAGCCAGCC GCACCAAGTT CTTCATCGAG TTCTACTCTA CCTGCCTGGA GGAATACAAG
    AAGAGCTTTG AGAATGATGC CCAGAGCAGT GACAACATCA ACTTCCTCAA AGTGCAGTGG
    TCTTCACGCC AGCTGCCCAC GCTCAAACCA ATTCTGGCTG ATATCGAGTA CCTGCAGGAC
    CAGCACCTCC TGCTCACAGT CAAGTCCATG GATGGCTATG AATCCTATGG GGAGTGTGTG
    GTTGCACTCA AATCCATGAT CGGCAGCACG GCCCAACAGT TCCTGACCTT CCTATCCCAC
    CGTGGCGAGG AGACAGGCAA TATCAGAGGC TCCATGAAGG TGCGGGTGCC CACGGAGCGC
    CTGGGCACCC GTGAGCGGCT CTACGAGTGG ATCAGCATTG ATAAGGATGA GGCAGGAGCA
    AAGAGCAAAG CCCCCTCTGT GTCCCGAGGG AGCCAGGAGC CCAGGTCAGG GAGCCGCAAG
    CCAGCCTTCA CAGAGGCCTC CTGCCCGCTC TCCAGGTTAT TTGAAGAACC AGAGAAACCG
    CCACCAACGG GGAGGCCCCC AGCCCCACCC CGAGCAGCTC CCCGGGAGGA GCCCTTGACC
    CCCAGGTTGA AGCCAGAGGG AGCTCCTGAA CCAGAAGGGG TGGCGGCCCC CCCACCCAAG
    AACAGCTTCA ATAACCCTGC CTACTACGTC CTTGAAGGGG TCCCGCACCA GCTGCTGCCC
    CCGGAGCCAC CCTCGCCTGC CAGGGCCCCT GTCCCATCTG CCACCAAGAA CAAAGTGGCC
    ATTACAGTGC CTGCTCCACA GCTTGGGCAC CACCGGCACC CTCGTGTGGG AGAGGGGAGT
    TCTTCAGATG AGGAGTCTGG AGGCACACTG CCCCCTCCAG ACTTTCCACC TCCACCACTG
    CCGGACTCAG CCATCTTCCT GCCCCCCAGC CTGGATCCTT TACCAGGGCC AGTGGTCCGG
    GGCCGTGGTG GGGCTGAGGC CCGTGGCCCA CCACCTCCCA AGGCCCATCC AAGGCCTCCA
    CTGCCCCCAG GCCCCTCACC AGCCAGCACT TTCCTGGGGG AAGTGGCCAG TGGGGATGAC
    CGGTCCTGCT CGGTGCTGCA GATGGCCAAG ACGCTGAGCG AGGTGGACTA TGCCCCTGCT
    GGGCCTGCAC GCTCAGCGCT CCTCCCAGGC CCCCTGGAGC TGCAGCCCCC CCGGGGACTG
    CCCTCGGACT ATGGCCGGCC CCTCAGCTTC CCTCCACCCC GCATCCGGGA GAGCATCCAG
    GAAGACCTGG CAGAGGAGGC TCCGTGCCTG CAGGGCGGGC GGGCCAGCGG GCTGGGCGAG
    GCAGGCATGA GTGCCTGGCT GCGGGCCATC GGCTTGGAGC GCTATGAGGA GGGCCTGGTG
    CATAATGGCT GGGACGACCT GGAGTTTCTC AGTGACATCA CCGAGGAGGA CTTGGAGGAG
    GCTGGGGTGC AGGACCCGGC TCACAAGCGC CTCCTTCTGG ACACCCTGCA GCTCAGCAAG
    TGA

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

    RefSeq XP_005274036.1
    CDS306..4148
    Translation

    Target ORF information:

    RefSeq Version XM_005273979.4
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_005273979.4

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT TGCACTGATG ACATCGTCAC CAGCGACCAT
    TCCCCCGTGT TTGGGACATT TGAGGTTGGA GTTACCTCCC AGTTCATCTC CAAGAAAGGG
    CTCTCAAAGA CTTCAGACCA GGCCTACATT GAGTTTGAGA GCATCGAGGC CATTGTGAAG
    ACAGCCAGCC GCACCAAGTT CTTCATCGAG TTCTACTCTA CCTGCCTGGA GGAATACAAG
    AAGAGCTTTG AGAATGATGC CCAGAGCAGT GACAACATCA ACTTCCTCAA AGTGCAGTGG
    TCTTCACGCC AGCTGCCCAC GCTCAAACCA ATTCTGGCTG ATATCGAGTA CCTGCAGGAC
    CAGCACCTCC TGCTCACAGT CAAGTCCATG GATGGCTATG AATCCTATGG GGAGTGTGTG
    GTTGCACTCA AATCCATGAT CGGCAGCACG GCCCAACAGT TCCTGACCTT CCTATCCCAC
    CGTGGCGAGG AGACAGGCAA TATCAGAGGC TCCATGAAGG TGCGGGTGCC CACGGAGCGC
    CTGGGCACCC GTGAGCGGCT CTACGAGTGG ATCAGCATTG ATAAGGATGA GGCAGGAGCA
    AAGAGCAAAG CCCCCTCTGT GTCCCGAGGG AGCCAGGAGC CCAGGTCAGG GAGCCGCAAG
    CCAGCCTTCA CAGAGGCCTC CTGCCCGCTC TCCAGGTTAT TTGAAGAACC AGAGAAACCG
    CCACCAACGG GGAGGCCCCC AGCCCCACCC CGAGCAGCTC CCCGGGAGGA GCCCTTGACC
    CCCAGGTTGA AGCCAGAGGG AGCTCCTGAA CCAGAAGGGG TGGCGGCCCC CCCACCCAAG
    AACAGCTTCA ATAACCCTGC CTACTACGTC CTTGAAGGGG TCCCGCACCA GCTGCTGCCC
    CCGGAGCCAC CCTCGCCTGC CAGGGCCCCT GTCCCATCTG CCACCAAGAA CAAAGTGGCC
    ATTACAGTGC CTGCTCCACA GCTTGGGCAC CACCGGCACC CTCGTGTGGG AGAGGGGAGT
    TCTTCAGATG AGGAGTCTGG AGGCACACTG CCCCCTCCAG ACTTTCCACC TCCACCACTG
    CCGGACTCAG CCATCTTCCT GCCCCCCAGC CTGGATCCTT TACCAGGGCC AGTGGTCCGG
    GGCCGTGGTG GGGCTGAGGC CCGTGGCCCA CCACCTCCCA AGGCCCATCC AAGGCCTCCA
    CTGCCCCCAG GCCCCTCACC AGCCAGCACT TTCCTGGGGG AAGTGGCCAG TGGGGATGAC
    CGGTCCTGCT CGGTGCTGCA GATGGCCAAG ACGCTGAGCG AGGTGGACTA TGCCCCTGCT
    GGGCCTGCAC GCTCAGCGCT CCTCCCAGGC CCCCTGGAGC TGCAGCCCCC CCGGGGACTG
    CCCTCGGACT ATGGCCGGCC CCTCAGCTTC CCTCCACCCC GCATCCGGGA GAGCATCCAG
    GAAGACCTGG CAGAGGAGGC TCCGTGCCTG CAGGGCGGGC GGGCCAGCGG GCTGGGCGAG
    GCAGGCATGA GTGCCTGGCT GCGGGCCATC GGCTTGGAGC GCTATGAGGA GGGCCTGGTG
    CATAATGGCT GGGACGACCT GGAGTTTCTC AGTGACATCA CCGAGGAGGA CTTGGAGGAG
    GCTGGGGTGC AGGACCCGGC TCACAAGCGC CTCCTTCTGG ACACCCTGCA GCTCAGCAAG
    TGA

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

    CloneID OHu45318
    Clone ID Related Accession (Same CDS sequence) XM_011545000.2
    Accession Version XM_011545000.2 Latest version! Documents for ORF clone product in default vector
    Sequence Information ORF Nucleotide Sequence (Length: 3621bp)
    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 2016-06-05
    Organism Homo sapiens(human)
    Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X4
    Comment Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000011.10) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jun 6, 2016 this sequence version replaced XM_011545000.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 108 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

    1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT TGCACTGATG ACATCGTCAC CAGCGACCAT
    TCCCCCGTGT TTGGGACATT TGAGGTTGGA GTTACCTCCC AGTTCATCTC CAAGAAAGGG
    CTCTCAAAGA CTTCAGACCA GGCCTACATT GAGTTTGAGA GCATCGAGGC CATTGTGAAG
    ACAGCCAGCC GCACCAAGTT CTTCATCGAG TTCTACTCTA CCTGCCTGGA GGAATACAAG
    AAGAGCTTTG AGAATGATGC CCAGAGCAGT GACAACATCA ACTTCCTCAA AGTGCAGTGG
    TCTTCACGCC AGCTGCCCAC GCTCAAACCA ATTCTGGCTG ATATCGAGTA CCTGCAGGAC
    CAGCACCTCC TGCTCACAGT CAAGTCCATG GATGGCTATG AATCCTATGG GGAGTGTGTG
    GTTGCACTCA AATCCATGAT CGGCAGCACG GCCCAACAGT TCCTGACCTT CCTATCCCAC
    CGTGGCGAGG AGACAGGCAA TATCAGAGGC TCCATGAAGG TGCGGGTGCC CACGGAGCGC
    CTGGGCACCC GTGAGCGGCT CTACGAGTGG ATCAGCATTG ATAAGGATGA GGCAGGAGCA
    AAGAGCAAAG CCCCCTCTGT GTCCCGAGGG AGCCAGGAGC CCAGGTCAGG GAGCCGCAAG
    CCAGCCTTCA CAGAGGCCTC CTGCCCGCTC TCCAGGTTAT TTGAAGAACC AGAGAAACCG
    CCACCAACGG GGAGGCCCCC AGCCCCACCC CGAGCAGCTC CCCGGGAGGA GCCCTTGACC
    CCCAGGTTGA AGCCAGAGGG AGCTCCTGAA CCAGAAGGGG TGGCGGCCCC CCCACCCAAG
    AACAGCTTCA ATAACCCTGC CTACTACGTC CTTGAAGGGG TCCCGCACCA GCTGCTGCCC
    CCGGAGCCAC CCTCGCCTGC CAGGGCCCCT GTCCCATCTG CCACCAAGAA CAAAGTGGCC
    ATTACAGTGC CTGCTCCACA GCTTGGGCAC CACCGGCACC CTCGTGTGGG AGAGGGGAGT
    TCTTCAGATG AGGAGTCTGG AGGCACACTG CCCCCTCCAG ACTTTCCACC TCCACCACTG
    CCGGACTCAG CCATCTTCCT GCCCCCCAGC CTGGATCCTT TACCAGGGCC AGTGGTCCGG
    GGCCGTGGTG GGGCTGAGGC CCGTGGCCCA CCACCTCCCA AGGCCCATCC AAGGCCTCCA
    CTGCCCCCAG GCCCCTCACC AGCCAGCACT TTCCTGGGGG AAGTGGCCAG TGGGGATGAC
    CGGTCCTGCT CGGTGCTGCA GATGGCCAAG ACGCTGAGCG AGGTGGACTA TGCCCCTGCT
    GGGCCTGCAC GCTCAGCGCT CCTCCCAGGC CCCCTGGAGC TGCAGCCCCC CCGGGGACTG
    CCCTCGGACT ATGGCCGGCC CCTCAGCTTC CCTCCACCCC GCATCCGGGA GAGCATCCAG
    GAAGACCTGG CAGAGGAGTG A

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

    RefSeq XP_011543302.1
    CDS306..3926
    Translation

    Target ORF information:

    RefSeq Version XM_011545000.2
    Organism Homo sapiens(human)
    Definition Homo sapiens inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X5, mRNA.

    Target ORF information:

    Epitope DYKDDDDK
    Bacterial selection AMPR
    Mammalian selection NeoR
    Vector pcDNA3.1+/C-(K)DYK
    XM_011545000.2

    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
    ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCCC TGGGCAGCCA GGCCCCCTCC 
    TGGTACCACC GCGACCTGAG CCGGGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC
    GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTCTGCGTC
    CTGTATCAGA AGCATGTGCA CACGTATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT
    GTGCAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGTGA GCTCATCGGC
    CTGTACGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGTGAG
    CGAGAGCCGG ACCCACCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG
    CTGCCCCCGC GCTCTGGCTC CACCAGCATT TCTGCCCCCA CTGGGCCCAG CAGTCCCCTG
    CCAGCTCCTG AGACTCCCAC AGCTCCAGCT GCTGAGAGGG ATGGGGCAGA GGTGCTGGGA
    CAGGTCAGCA GGACCTCCAC TGACTTCTTA ACCCCTCCCC AAAGTGCTCC CAATGGGCTG
    AGCACCGTCT CGCACGACTA CCTGAAAGGC AGCTATGGGC TGGACCTGGA AGCTGTGAGG
    GGTGGAGCCA GCCACCTGCC CCACCTCACC CGTACCCTCG CTACCTCATG CCGGAGGCTG
    CACAGTGAGG TGGACAAGGT CCTGTCAGGC CTGGAGATCC TGTCCAAGGT GTTTGACCAG
    CAGAGCTCGC CCATGGTGAC CCGCCTTTTG CAGCAGCAGA ACCTGCCACA GACAGGGGAG
    CAGGAACTAG AGAGCCTGGT GCTGAAGCTG TCAGTGCTAA AGGACTTCCT GTCAGGCATC
    CAGAAGAAGG CCCTGAAGGC CCTACAGGAC ATGAGCTCCA CAGCACCCCC AGCTCCGCAG
    CCATCCACAC GTAAGGCCAA GACCATCCCC GTGCAGGCCT TTGAGGTGAA GCTAGATGTG
    ACCCTGGGTG ACCTGACCAA GATTGGGAAG TCACAGAAGT TCACGCTGAG CGTGGATGTG
    GAGGGTGGGC GGCTGGTGCT GCTGCGGAGA CAGCGGGACT CCCAGGAGGA CTGGACCACC
    TTCACGCACG ACCGCATCCG CCAGCTCATT AAGTCCCAGC GTGTCCAGAA CAAGCTGGGT
    GTTGTGTTTG AGAAGGAGAA GGACCGGACT CAGCGCAAGG ACTTCATCTT TGTCAGTGCC
    CGGAAGCGGG AGGCCTTCTG CCAGCTGTTG CAGCTCATGA AGAACAAGCA CTCCAAGCAG
    GACGAGCCCG ACATGATCTC AGTCTTCATA GGCACCTGGA ACATGGGAAG TGTACCACCT
    CCAAAAAACG TGACATCCTG GTTCACATCG AAGGGTCTGG GGAAGACCCT GGACGAGGTC
    ACAGTGACCA TACCCCATGA CATCTATGTC TTTGGGACCC AGGAGAACTC AGTGGGCGAC
    CGCGAGTGGC TGGACCTACT GCGCGGGGGC CTCAAGGAGC TTACGGATCT GGATTACCGC
    CCGATTGCCA TGCAATCACT GTGGAATATC AAGGTGGCAG TGCTGGTCAA GCCAGAGCAC
    GAGAACCGTA TCAGCCATGT CAGTACGTCC AGTGTGAAGA CTGGCATCGC CAACACCCTG
    GGGAACAAGG GGGCTGTGGG CGTCTCCTTC ATGTTTAATG GCACCTCATT TGGCTTTGTG
    AATTGTCACC TCACCTCGGG AAATGAGAAG ACGGCTCGGA GGAACCAAAA CTACTTGGAC
    ATCCTGCGGC TGCTCTCGCT GGGCGACCGG CAGCTCAATG CCTTTGACAT CTCTCTGCGT
    TTCACACACC TCTTCTGGTT TGGGGACCTC AACTACCGCC TGGACATGGA TATCCAGGAG
    ATCCTGAACT ACATCAGCAG GAAAGAGTTT GAGCCCCTCC TCAGGGTGGA CCAGCTCAAC
    CTGGAGCGGG AGAAGCACAA GGTCTTCCTT CGATTCAGTG AGGAGGAGAT CTCCTTCCCA
    CCCACCTACC GCTATGAGCG GGGTTCCCGG GACACATATG CCTGGCACAA GCAGAAGCCA
    ACTGGGGTCC GGACCAATGT GCCCTCATGG TGTGACCGGA TTCTGTGGAA ATCCTACCCT
    GAAACTCACA TCATCTGCAA TTCTTATGGT TGCACTGATG ACATCGTCAC CAGCGACCAT
    TCCCCCGTGT TTGGGACATT TGAGGTTGGA GTTACCTCCC AGTTCATCTC CAAGAAAGGG
    CTCTCAAAGA CTTCAGACCA GGCCTACATT GAGTTTGAGA GCATCGAGGC CATTGTGAAG
    ACAGCCAGCC GCACCAAGTT CTTCATCGAG TTCTACTCTA CCTGCCTGGA GGAATACAAG
    AAGAGCTTTG AGAATGATGC CCAGAGCAGT GACAACATCA ACTTCCTCAA AGTGCAGTGG
    TCTTCACGCC AGCTGCCCAC GCTCAAACCA ATTCTGGCTG ATATCGAGTA CCTGCAGGAC
    CAGCACCTCC TGCTCACAGT CAAGTCCATG GATGGCTATG AATCCTATGG GGAGTGTGTG
    GTTGCACTCA AATCCATGAT CGGCAGCACG GCCCAACAGT TCCTGACCTT CCTATCCCAC
    CGTGGCGAGG AGACAGGCAA TATCAGAGGC TCCATGAAGG TGCGGGTGCC CACGGAGCGC
    CTGGGCACCC GTGAGCGGCT CTACGAGTGG ATCAGCATTG ATAAGGATGA GGCAGGAGCA
    AAGAGCAAAG CCCCCTCTGT GTCCCGAGGG AGCCAGGAGC CCAGGTCAGG GAGCCGCAAG
    CCAGCCTTCA CAGAGGCCTC CTGCCCGCTC TCCAGGTTAT TTGAAGAACC AGAGAAACCG
    CCACCAACGG GGAGGCCCCC AGCCCCACCC CGAGCAGCTC CCCGGGAGGA GCCCTTGACC
    CCCAGGTTGA AGCCAGAGGG AGCTCCTGAA CCAGAAGGGG TGGCGGCCCC CCCACCCAAG
    AACAGCTTCA ATAACCCTGC CTACTACGTC CTTGAAGGGG TCCCGCACCA GCTGCTGCCC
    CCGGAGCCAC CCTCGCCTGC CAGGGCCCCT GTCCCATCTG CCACCAAGAA CAAAGTGGCC
    ATTACAGTGC CTGCTCCACA GCTTGGGCAC CACCGGCACC CTCGTGTGGG AGAGGGGAGT
    TCTTCAGATG AGGAGTCTGG AGGCACACTG CCCCCTCCAG ACTTTCCACC TCCACCACTG
    CCGGACTCAG CCATCTTCCT GCCCCCCAGC CTGGATCCTT TACCAGGGCC AGTGGTCCGG
    GGCCGTGGTG GGGCTGAGGC CCGTGGCCCA CCACCTCCCA AGGCCCATCC AAGGCCTCCA
    CTGCCCCCAG GCCCCTCACC AGCCAGCACT TTCCTGGGGG AAGTGGCCAG TGGGGATGAC
    CGGTCCTGCT CGGTGCTGCA GATGGCCAAG ACGCTGAGCG AGGTGGACTA TGCCCCTGCT
    GGGCCTGCAC GCTCAGCGCT CCTCCCAGGC CCCCTGGAGC TGCAGCCCCC CCGGGGACTG
    CCCTCGGACT ATGGCCGGCC CCTCAGCTTC CCTCCACCCC GCATCCGGGA GAGCATCCAG
    GAAGACCTGG CAGAGGAGTG A

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