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INPPL1 cDNA ORF clone, Homo sapiens (human)

Gene Symbol INPPL1
Entrez Gene ID 3636
Full Name inositol polyphosphate phosphatase-like 1
Synonyms OPSMD, SHIP2
General protein information
Preferred Names
phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2
Names
phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2
SHIP-2
INPPL-1
51C protein
protein 51C
SH2 domain-containing inositol 5'-phosphatase 2
SH2 domain-containing inositol-5'-phosphatase 2
phosphatidylinositol-3,4,5-trisphosphate 5-phosphatase 2
NP_001558.3
Gene Type protein-coding
Organism Homo sapiens (human)
Genome

11

11q13

Summary The protein encoded by this gene is an SH2-containing 5'-inositol phosphatase that is involved in the regulation of insulin function. The encoded protein also plays a role in the regulation of epidermal growth factor receptor turnover and actin remodelling. Additionally, this gene supports metastatic growth in breast cancer and is a valuable biomarker for breast cancer. [provided by RefSeq, Jan 2009]. lac of sum
Disorder MIM:

600829


mRNA and Protein(s)

mRNA Protein Name
XM_005273979 XP_005274036 phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X2
XM_005273978 XP_005274035 phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X2
XM_011544999 XP_011543301 phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X1
XM_011545000 XP_011543302 phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X3
NM_001567 NP_001558 phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2



Homo sapiens (human) INPPL1 NP_001558.3
Pan troglodytes (chimpanzee) INPPL1 XP_508622.2
Macaca mulatta (Rhesus monkey) INPPL1 XP_001114794.1
Canis lupus familiaris (dog) INPPL1 XP_542327.2
Bos taurus (cattle) INPPL1 NP_001178105.1
Mus musculus (house mouse) Inppl1 NP_001116211.1
Rattus norvegicus (Norway rat) Inppl1 NP_075233.1
Danio rerio (zebrafish) inppl1a NP_001034893.1


GeneRIFs: Gene References Into Functions What's a GeneRIF?

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 RefSeq Accession Definition **Vector *Turnaround time Price Select
OHu45317 XM_005273979 PREDICTED: Homo sapiens inositol polyphosphate phosphatase-like 1 (INPPL1), transcript variant X1, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $643.30
$919.00
OHu45317 XM_005273978 PREDICTED: 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
OHu19348
XM_011544999 PREDICTED: 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
Starting from $459.50
$919.00
OHu45318 XM_011545000 PREDICTED: Homo sapiens inositol polyphosphate phosphatase-like 1 (INPPL1), transcript variant X4, mRNA. pcDNA3.1+/C-(K)DYK or customized vector TBD $643.30
$919.00
OHu19348
NM_001567 Homo sapiens inositol polyphosphate phosphatase-like 1 (INPPL1), mRNA. pcDNA3.1+/C-(K)DYK or customized vector
in pcDNA3.1+/C-(K)DYK
Starting from $459.50
$919.00

*Business Day

** 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.


CloneID OHu45317
Clone ID Related Accession (Same CDS sequence) XM_005273978 , XM_005273979
Accession Version XM_005273979.3 Documents for ORF clone product in dufault 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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_167190.2) 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 gi:578821373. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
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
CDS301..4143
Misc Feature(1)349..657(+)
Misc Feature(2)382..510(+)
Misc Feature(3)502..624(+)
Misc Feature(4)1636..2547(+)
Misc Feature(5)1660..2520(+)
Misc Feature(6)1660..2520(+)
Misc Feature(7)1783..2517(+)
Misc Feature(8)1783..2517(+)
Misc Feature(9)2047..2520(+)
Misc Feature(10)3946..4134(+)
Misc Feature(11)3970..4140(+)
Misc Feature(12)4030..4071(+)
Translation

Target ORF information:

RefSeq Version XM_005273979
Organism Homo sapiens (human)
Definition PREDICTED: 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_005273979

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 , XM_005273979
Accession Version XM_005273978.3 Documents for ORF clone product in dufault 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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X2
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_167190.2) 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 gi:578821372. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
3781
3841
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
Misc Feature(1)507..815(+)
Misc Feature(2)540..668(+)
Misc Feature(3)660..782(+)
Misc Feature(4)1794..2705(+)
Misc Feature(5)1818..2678(+)
Misc Feature(6)1818..2678(+)
Misc Feature(7)1941..2675(+)
Misc Feature(8)1941..2675(+)
Misc Feature(9)2205..2678(+)
Misc Feature(10)4104..4292(+)
Misc Feature(11)4128..4298(+)
Misc Feature(12)4188..4229(+)
Translation

Target ORF information:

RefSeq Version XM_005273978
Organism Homo sapiens (human)
Definition PREDICTED: 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

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 OHu19348
Clone ID Related Accession (Same CDS sequence) NM_001567 , XM_011544999
Accession Version XM_011544999.1 Documents for ORF clone product in dufault 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 COA
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X1
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_167190.2) 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 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
3661
3721
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
CDS301..4077
Misc Feature(1)349..657(+)
Misc Feature(2)382..510(+)
Misc Feature(3)502..624(+)
Misc Feature(4)1570..2481(+)
Misc Feature(5)1594..2454(+)
Misc Feature(6)1594..2454(+)
Misc Feature(7)1717..2451(+)
Misc Feature(8)1717..2451(+)
Misc Feature(9)1981..2454(+)
Misc Feature(10)3880..4068(+)
Misc Feature(11)3904..4074(+)
Misc Feature(12)3964..4005(+)
Translation

Target ORF information:

RefSeq Version XM_011544999
Organism Homo sapiens (human)
Definition PREDICTED: 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

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 OHu45318
Clone ID Related Accession (Same CDS sequence) XM_011545000
Accession Version XM_011545000.1 Documents for ORF clone product in dufault 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
Structure linear
Update Date 12-MAR-2015
Organism Homo sapiens (human)
Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X3
Comment MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NT_167190.2) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Homo sapiens Annotation Release 107 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

1
61
121
181
241
301
361
421
481
541
601
661
721
781
841
901
961
1021
1081
1141
1201
1261
1321
1381
1441
1501
1561
1621
1681
1741
1801
1861
1921
1981
2041
2101
2161
2221
2281
2341
2401
2461
2521
2581
2641
2701
2761
2821
2881
2941
3001
3061
3121
3181
3241
3301
3361
3421
3481
3541
3601
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
CDS301..3921
Misc Feature(1)349..657(+)
Misc Feature(2)382..510(+)
Misc Feature(3)502..624(+)
Misc Feature(4)1636..2547(+)
Misc Feature(5)1660..2520(+)
Misc Feature(6)1660..2520(+)
Misc Feature(7)1783..2517(+)
Misc Feature(8)1783..2517(+)
Misc Feature(9)2047..2520(+)
Translation

Target ORF information:

RefSeq Version XM_011545000
Organism Homo sapiens (human)
Definition PREDICTED: 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_011545000

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.

CloneID OHu19348
Clone ID Related Accession (Same CDS sequence) NM_001567 , XM_011544999
Accession Version NM_001567.3 Documents for ORF clone product in dufault 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 COA
ORF Insert Method CloneEZ® Seamless cloning technology
Structure linear
Update Date 15-MAR-2015
Organism Homo sapiens (human)
Product phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2
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 gi:4755141. 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
Misc Feature(1)196..504(+)
Misc Feature(2)229..357(+)
Misc Feature(3)349..471(+)
Misc Feature(4)640..642(+)
Misc Feature(5)868..870(+)
Misc Feature(6)1417..2328(+)
Misc Feature(7)1441..2301(+)
Misc Feature(8)1441..2301(+)
Misc Feature(9)1564..2298(+)
Misc Feature(10)1564..2298(+)
Misc Feature(11)1828..2301(+)
Misc Feature(12)2977..2994(+)
Misc Feature(13)3019..3021(+)
Misc Feature(14)3094..3105(+)
Misc Feature(15)3103..3105(+)
Misc Feature(16)3550..3552(+)
Misc Feature(17)3631..3633(+)
Misc Feature(18)3727..3915(+)
Misc Feature(19)3751..3921(+)
Misc Feature(20)3811..3852(+)
Exon (1)1..329
Gene:INPPL1
Gene Synonym:
Exon (2)330..393
Gene:INPPL1
Gene Synonym:
Exon (3)394..544
Gene:INPPL1
Gene Synonym:
Exon (4)545..665
Gene:INPPL1
Gene Synonym:
Exon (5)666..806
Gene:INPPL1
Gene Synonym:
Exon (6)807..900
Gene:INPPL1
Gene Synonym:
Exon (7)901..990
Gene:INPPL1
Gene Synonym:
Exon (8)991..1086
Gene:INPPL1
Gene Synonym:
Exon (9)1087..1237
Gene:INPPL1
Gene Synonym:
Exon (10)1238..1344
Gene:INPPL1
Gene Synonym:
Exon (11)1345..1447
Gene:INPPL1
Gene Synonym:
Exon (12)1448..1644
Gene:INPPL1
Gene Synonym:
Exon (13)1645..1762
Gene:INPPL1
Gene Synonym:
Exon (14)1763..1859
Gene:INPPL1
Gene Synonym:
Exon (15)1860..1998
Gene:INPPL1
Gene Synonym:
Exon (16)1999..2098
Gene:INPPL1
Gene Synonym:
Exon (17)2099..2187
Gene:INPPL1
Gene Synonym:
Exon (18)2188..2269
Gene:INPPL1
Gene Synonym:
Exon (19)2270..2359
Gene:INPPL1
Gene Synonym:
Exon (20)2360..2473
Gene:INPPL1
Gene Synonym:
Exon (21)2474..2562
Gene:INPPL1
Gene Synonym:
Exon (22)2563..2650
Gene:INPPL1
Gene Synonym:
Exon (23)2651..2806
Gene:INPPL1
Gene Synonym:
Exon (24)2807..2885
Gene:INPPL1
Gene Synonym:
Exon (25)2886..3026
Gene:INPPL1
Gene Synonym:
Exon (26)3027..3699
Gene:INPPL1
Gene Synonym:
Exon (27)3700..3833
Gene:INPPL1
Gene Synonym:
Exon (28)3834..4718
Gene:INPPL1
Gene Synonym:
Translation

Target ORF information:

RefSeq Version NM_001567
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

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.

 
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