INPPL1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

Gene
Clones
gRNAs

Summary

Gene Symbol	INPPL1
Entrez Gene ID	718421
Full Name	inositol polyphosphate phosphatase like 1
Gene Type	protein-coding
Organism	Macaca mulatta(Rhesus monkey)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015115130.1	XP_014970616.1	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X1
NM_001260839.1	NP_001247768.1	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2
XM_015115130.2	XP_014970616.2	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X1
XM_028832852.1	XP_028688685.1	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X2
XM_015115131.2	XP_014970617.2	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X3
XM_015115131.1	XP_014970617.1	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2 isoform X2

Pathways from BioSystems

Homologies

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

Gene Ontology
Bibliography

Related articles in PubMed

A new rhesus macaque assembly and annotation for next-generation sequencing analyses.
Zimin AV, Cornish AS, Maudhoo MD, Gibbs RM, Zhang X, Pandey S, Meehan DT, Wipfler K, Bosinger SE, Johnson ZP, Tharp GK, Mar?ais G, Roberts M, Ferguson B, Fox HS, Treangen T, Salzberg SL, Yorke JA, Norgren RB Jr
Biology direct9(1)20(2014 Oct)

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	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OMb68526	XM_015115130.2 Latest version!	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OMb68527	XM_028832852.1 Latest version!	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OMb68528	XM_015115131.2 Latest version!	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OMb03460	NM_001260839.1 Latest version!	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00
OMb47452	XM_015115130.1 Latest version!	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00
OMb47453	XM_015115131.1 Latest version!	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$713.30 $1019.00

ORF Online Only Promotion

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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)

INPPL1 ( XM_015115130.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014970616.2 Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMb68526
Clone ID Related Accession (Same CDS sequence)	XM_015115130.2
Accession Version	XM_015115130.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3948bp) 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	2019-04-25
Organism	Macaca mulatta(Rhesus monkey)
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_041767.1) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015115130.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGAGCCTTG AGGGCAGAGG ATATGGGGTT CTGCGGCCCA GTGTGACTGT GATGGACGAA 
ACATTCGGGC ATTCCCCGGC AGACCCCTTC AGGCATCCTC CAGGTAGAAG TGAGCAGGGG 
AGAGGATGTG CATTCCACGT TGTGTGCAGT CCCGTTTGGA TAGGGATTGA GTGGTATCAG 
AAGCATGTGC ACACATATCG CATTCTGCCT GATGGAGAAG ATTTCTTGGC TGTACAGACC 
TCGCAGGGTG TGCCTGTGCG CCGCTTCCAG ACCCTGGGCG AGCTCATCGG CCTCTATGCC 
CAGCCCAACC AGGGCCTTGT GTGCGCCCTG CTTCTTCCTG TAGAGGGGGA GCGAGAGCCG 
GACCCGCCGG ATGACCGGGA TGCCTCAGAT GGGGAGGATG AGAAGCCCCC GCTGCCACCA 
CGCTCTGGCT CCACCAGCAT TTCTGCCACC ACTGGGCCCA GCAGTCCCCT GTCAGTCCCT 
GAGACTCCCA CAACTCCAGC TGCTGAGAGT GCTCCCAATG GACTGAGCAC CGTCTCGCAC 
GAGTACCTGA AAGGCAGCTA CGGGCTGGAC CTGGAGGCTG TGCGGGGTGG AGCCAGCCAC 
CTGCCCCACC TCACTCGTAC CCTCGCCACC TCATGCCGGA GGCTGCACAG TGAGGTGGAC 
AAAGTCCTGT CAGGCCTGGA GATCCTGTCC AAGGTGTTTG ACCAGCAGAG CTCGCCCATG 
GTGACCCGCC TTTTGCAGCA GCAGAACCTG CCACAGACAG GGGAGCAGGA ACTAGAGAGC 
CTGGTGCTGA AGCTGTCAGT GCTAAAGGAC TTCCTGTCAG GCATCCAGAA GAAGGCCCTA 
AAGGCCCTAC AGGACATGAG CTCCACAGCA CCCCCGGCTC CGCAGCCATC CACACGTAAG 
GCCAAGACCA TCCCCGTGCA GGCCTTTGAG GTGAAGCTAG ATGTGACCCT GGGTGACCTG 
ACCAAGATTG GGAAGTCGCA GAAGTTCACA CTGAGCGTAG ATGTGGAGGG TGGGCGGCTG 
GTGCTGCTGC GGAGACAGCG GGACTCCCAG GAGGACTGGA CCACCTTCAC GCACGACCGC 
ATCCGCCAGC TCATTAAGTC CCAGCGTGTC CAGAACAAGC TGGGTGTTGT GTTTGAGAAG 
GAGAAGGACC GGACTCAGCG CAAGGACTTC ATCTTTGTCA GTGCCCGGAA GCGGGAGGCC 
TTCTGCCAGC TGCTGCAGCT CATGAAGAAC AAACACTCCA AGCAGGATGA GCCCGACATG 
ATCTCCATCT TCATAGGCAC CTGGAACATG GGAAGTGTAC CACCTCCAAA AAATGTGACA 
TCCTGGTTCA CATCGAGGGG TCTGGGGAAG ACCCTGGACG AGGTCACAGT GACCATACCC 
CATGACATCT ATGTCTTTGG GACCCAGGAG AACTCAGTGG GTGACCGCGA GTGGCTGGAC 
CTACTGCGCG GGGGCCTCAA GGAGCTTACG GATCTGGATT ACCGCCCGAT TGCCATGCAA 
TCACTGTGGA ATATCAAGGT GGCAGTGCTG GTCAAGCCAG AGCACGAGAA CCGTATCAGC 
CACGTCAGTA CGTCCAGTGT GAAGACTGGC ATCGCCAATA CCCTGGGGAA CAAGGGGGCT 
GTGGGAGTCT CCTTCATGTT CAATGGCACC TCATTTGGCT TTGTGAATTG TCACCTTACC 
TCAGGAAATG AGAAGACGGC TCGGAGGAAC CAGAACTACT TGGACATCCT GCGGCTGCTC 
TCGCTGGGCG ACCGGCAGCT CAGTGCCTTT GACATCTCTC TGCGTTTCAC ACACCTCTTC 
TGGTTTGGGG ACCTCAACTA CCGCCTGGAC ATGGATATCC AGGAGATCCT GAACTACATC 
AGCAGGAAGG AGTTTGAGCC CCTCCTCAGG GTGGACCAGC TCAACTTGGA GCGGGAGAAG 
CACAAGGTCT TCCTTCGATT CAGTGAGGAG GAGATCTCCT TCCCACCCAC CTACCGCTAT 
GAGCGGGGTT CCCGGGACAC ATATGCCTGG CACAAGCAGA AGCCAACTGG GGTCCGGACC 
AATGTGCCCT CATGGTGTGA CCGGATTCTG TGGAAATCCT ACCCTGAAAC TCACATCATC 
TGCAATTCTT ATGGTTGCAC TGATGACATC GTCACCAGTG ACCACTCCCC TGTGTTTGGG 
ACATTTGAGG TTGGAGTTAC CTCCCAGTTC ATCTCCAAGA AAGGGCTCTC GAAGACTTCA 
GACCAGGCCT ACATTGAGTT TGAGAGCATC GAGGCCATTG TGAAGACAGC CAGCCGCACC 
AAGTTCTTCA TCGAGTTCTA CTCTACCTGC CTGGAGGAAT ACAAGAAGAG CTTTGAGAAT 
GATGCCCAAA GCAGTGACAA CATCAACTTC CTCAAAGTGC AGTGGTCTTC ACGCCAGCTG 
CCCACGCTCA AACCAATTCT GGCTGATATC GAGTACCTGC AGGACCAGCA CCTCCTGCTC 
ACAGTCAAGT CCATGGATGG CTATGAATCC TATGGGGAAT GTGTGGTTGC ACTCAAGTCC 
ATGATTGGCA GCACGGCCCA ACAGTTCCTG ACCTTCCTGT CCCACCGTGG CGAGGAGACA 
GGCAATATCA GAGGCTCCAT GAAGGTGCGG GTGCCCACGG AGCGCCTGGG CACCCGTGAG 
CGGCTCTACG AATGGATCAG CATTGATAAG GATGAGGCAG GAGCAAAGAG CAAAGCCCCC 
TCTGTGTCCC GAGGGATCCA GGAGCCCAGG TCAGGGAGCC GCAAGCCAGC CTTCACAGAG 
GCCTCCTGCC CGCTCTCCAG GTTATTCGAA GAACCAGAGA AACCTCCACC AACTGGGAGG 
CCCCCAGCCC CACCCCGAGC AGCTCCCCGG GAGGAGCCCT TGACCCCCAG GTTGAAGCCA 
GAGGGAACTC CTGAACCAGA AGGGGTGGCC GCCCCCCCAC CCAAGAACAG CTTCAATAAC 
CCTGCCTACT ACGTCCTTGA AGGGGTCCCA CACCAGCTGC TGCCCCCGGA GCCACCCTCG 
CCTGCCAGGG CCCCTGTCCC ACCTGCCACG AAGAACAAAG TGGCCATTAC AGTGCCTGCT 
CCACAGCTTG GGCGCCACAG GCCACCTCGT GTGGGAGAGG GGAGTTCTTC AGATGAAGAG 
TCTGGAGGCA CGCTGCCCCC TCCAGACTTT CCACCTCCAC CACTGCCGGA CTCAGCCATC 
TTCCTGTCAC CTAGCCTGGA TCCTTTACCA GGGCCAGTGG TCCGGGGCCG TGGTGGGGGT 
GAGGCCCGTG GCCCGCCGCC TCCCAAGGCC CATCCAAGGC CCCCACTGCC CCCAGGCCCC 
TCACCAGCCA GCACTTTCCT GGGGGAAGTG GCCGGTGGGG ATGACCGGTC CTGCTCGGTG 
CTGCAGATGG CCAAGACGCT GAGCGAGGTG GACTACGCCC CTGCTGGGCC CGCACGCTCA 
GCACTCCTCC CAGGCCCCCT GGAGCTGCAG CCACACCGGG GACTGTCCTC GGACTATGGC 
CGGCCCCTCA GCTTCCCTCC ACCCCGCATC CGGGAGAGCA TCCAGGAAGA CCTGGCAGAG 
GAGGCTCCGT GCCCGCAGGG CGGGCGGGCC AGCGGGCTGG GCGAGGCAGG CATGGGTGCC 
TGGCTGCGGG CTATCGGCTT GGAGCGCTAT GAGGAGGGCC TGGTGCATAA TGGCTGGGAC 
GACCTGGAGT TTCTCAGTGA CATCACCGAG GAGGACTTGG AGGAGGCTGG GGTGCAGGAC 
CCGGCTCACA AGCGCCTCCT TCTGGACACC CTGCAGCTCA GCAAGTGA

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

RefSeq	XP_014970616.2
CDS	212..4159
Translation	MASACGAPGPGGALGSQAPSWYHRDLSRAAAEELLARAGRDGSFLVRDSESVAGAFALCVLSLEGRGYGVLRPSVTVMDETFGHSPADPFRHPPGRSEQGRGCAFHVVCSPVWIGIEWYQKHVHTYRILPDGEDFLAVQTSQGVPVRRFQTLGELIGLYAQPNQGLVCALLLPVEGEREPDPPDDRDASDGEDEKPPLPPRSGSTSISATTGPSSPLSVPETPTTPAAESAPNGLSTVSHEYLKGSYGLDLEAVRGGASHLPHLTRTLATSCRRLHSEVDKVLSGLEILSKVFDQQSSPMVTRLLQQQNLPQTGEQELESLVLKLSVLKDFLSGIQKKALKALQDMSSTAPPAPQPSTRKAKTIPVQAFEVKLDVTLGDLTKIGKSQKFTLSVDVEGGRLVLLRRQRDSQEDWTTFTHDRIRQLIKSQRVQNKLGVVFEKEKDRTQRKDFIFVSARKREAFCQLLQLMKNKHSKQDEPDMISIFIGTWNMGSVPPPKNVTSWFTSRGLGKTLDEVTVTIPHDIYVFGTQENSVGDREWLDLLRGGLKELTDLDYRPIAMQSLWNIKVAVLVKPEHENRISHVSTSSVKTGIANTLGNKGAVGVSFMFNGTSFGFVNCHLTSGNEKTARRNQNYLDILRLLSLGDRQLSAFDISLRFTHLFWFGDLNYRLDMDIQEILNYISRKEFEPLLRVDQLNLEREKHKVFLRFSEEEISFPPTYRYERGSRDTYAWHKQKPTGVRTNVPSWCDRILWKSYPETHIICNSYGCTDDIVTSDHSPVFGTFEVGVTSQFISKKGLSKTSDQAYIEFESIEAIVKTASRTKFFIEFYSTCLEEYKKSFENDAQSSDNINFLKVQWSSRQLPTLKPILADIEYLQDQHLLLTVKSMDGYESYGECVVALKSMIGSTAQQFLTFLSHRGEETGNIRGSMKVRVPTERLGTRERLYEWISIDKDEAGAKSKAPSVSRGIQEPRSGSRKPAFTEASCPLSRLFEEPEKPPPTGRPPAPPRAAPREEPLTPRLKPEGTPEPEGVAAPPPKNSFNNPAYYVLEGVPHQLLPPEPPSPARAPVPPATKNKVAITVPAPQLGRHRPPRVGEGSSSDEESGGTLPPPDFPPPPLPDSAIFLSPSLDPLPGPVVRGRGGGEARGPPPPKAHPRPPLPPGPSPASTFLGEVAGGDDRSCSVLQMAKTLSEVDYAPAGPARSALLPGPLELQPHRGLSSDYGRPLSFPPPRIRESIQEDLAEEAPCPQGGRASGLGEAGMGAWLRAIGLERYEEGLVHNGWDDLEFLSDITEEDLEEAGVQDPAHKRLLLDTLQLSK

Target ORF information:

RefSeq Version	XM_015115130.2
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_015115130.2

ORF Insert Sequence:

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGAGCCTTG AGGGCAGAGG ATATGGGGTT CTGCGGCCCA GTGTGACTGT GATGGACGAA 
ACATTCGGGC ATTCCCCGGC AGACCCCTTC AGGCATCCTC CAGGTAGAAG TGAGCAGGGG 
AGAGGATGTG CATTCCACGT TGTGTGCAGT CCCGTTTGGA TAGGGATTGA GTGGTATCAG 
AAGCATGTGC ACACATATCG CATTCTGCCT GATGGAGAAG ATTTCTTGGC TGTACAGACC 
TCGCAGGGTG TGCCTGTGCG CCGCTTCCAG ACCCTGGGCG AGCTCATCGG CCTCTATGCC 
CAGCCCAACC AGGGCCTTGT GTGCGCCCTG CTTCTTCCTG TAGAGGGGGA GCGAGAGCCG 
GACCCGCCGG ATGACCGGGA TGCCTCAGAT GGGGAGGATG AGAAGCCCCC GCTGCCACCA 
CGCTCTGGCT CCACCAGCAT TTCTGCCACC ACTGGGCCCA GCAGTCCCCT GTCAGTCCCT 
GAGACTCCCA CAACTCCAGC TGCTGAGAGT GCTCCCAATG GACTGAGCAC CGTCTCGCAC 
GAGTACCTGA AAGGCAGCTA CGGGCTGGAC CTGGAGGCTG TGCGGGGTGG AGCCAGCCAC 
CTGCCCCACC TCACTCGTAC CCTCGCCACC TCATGCCGGA GGCTGCACAG TGAGGTGGAC 
AAAGTCCTGT CAGGCCTGGA GATCCTGTCC AAGGTGTTTG ACCAGCAGAG CTCGCCCATG 
GTGACCCGCC TTTTGCAGCA GCAGAACCTG CCACAGACAG GGGAGCAGGA ACTAGAGAGC 
CTGGTGCTGA AGCTGTCAGT GCTAAAGGAC TTCCTGTCAG GCATCCAGAA GAAGGCCCTA 
AAGGCCCTAC AGGACATGAG CTCCACAGCA CCCCCGGCTC CGCAGCCATC CACACGTAAG 
GCCAAGACCA TCCCCGTGCA GGCCTTTGAG GTGAAGCTAG ATGTGACCCT GGGTGACCTG 
ACCAAGATTG GGAAGTCGCA GAAGTTCACA CTGAGCGTAG ATGTGGAGGG TGGGCGGCTG 
GTGCTGCTGC GGAGACAGCG GGACTCCCAG GAGGACTGGA CCACCTTCAC GCACGACCGC 
ATCCGCCAGC TCATTAAGTC CCAGCGTGTC CAGAACAAGC TGGGTGTTGT GTTTGAGAAG 
GAGAAGGACC GGACTCAGCG CAAGGACTTC ATCTTTGTCA GTGCCCGGAA GCGGGAGGCC 
TTCTGCCAGC TGCTGCAGCT CATGAAGAAC AAACACTCCA AGCAGGATGA GCCCGACATG 
ATCTCCATCT TCATAGGCAC CTGGAACATG GGAAGTGTAC CACCTCCAAA AAATGTGACA 
TCCTGGTTCA CATCGAGGGG TCTGGGGAAG ACCCTGGACG AGGTCACAGT GACCATACCC 
CATGACATCT ATGTCTTTGG GACCCAGGAG AACTCAGTGG GTGACCGCGA GTGGCTGGAC 
CTACTGCGCG GGGGCCTCAA GGAGCTTACG GATCTGGATT ACCGCCCGAT TGCCATGCAA 
TCACTGTGGA ATATCAAGGT GGCAGTGCTG GTCAAGCCAG AGCACGAGAA CCGTATCAGC 
CACGTCAGTA CGTCCAGTGT GAAGACTGGC ATCGCCAATA CCCTGGGGAA CAAGGGGGCT 
GTGGGAGTCT CCTTCATGTT CAATGGCACC TCATTTGGCT TTGTGAATTG TCACCTTACC 
TCAGGAAATG AGAAGACGGC TCGGAGGAAC CAGAACTACT TGGACATCCT GCGGCTGCTC 
TCGCTGGGCG ACCGGCAGCT CAGTGCCTTT GACATCTCTC TGCGTTTCAC ACACCTCTTC 
TGGTTTGGGG ACCTCAACTA CCGCCTGGAC ATGGATATCC AGGAGATCCT GAACTACATC 
AGCAGGAAGG AGTTTGAGCC CCTCCTCAGG GTGGACCAGC TCAACTTGGA GCGGGAGAAG 
CACAAGGTCT TCCTTCGATT CAGTGAGGAG GAGATCTCCT TCCCACCCAC CTACCGCTAT 
GAGCGGGGTT CCCGGGACAC ATATGCCTGG CACAAGCAGA AGCCAACTGG GGTCCGGACC 
AATGTGCCCT CATGGTGTGA CCGGATTCTG TGGAAATCCT ACCCTGAAAC TCACATCATC 
TGCAATTCTT ATGGTTGCAC TGATGACATC GTCACCAGTG ACCACTCCCC TGTGTTTGGG 
ACATTTGAGG TTGGAGTTAC CTCCCAGTTC ATCTCCAAGA AAGGGCTCTC GAAGACTTCA 
GACCAGGCCT ACATTGAGTT TGAGAGCATC GAGGCCATTG TGAAGACAGC CAGCCGCACC 
AAGTTCTTCA TCGAGTTCTA CTCTACCTGC CTGGAGGAAT ACAAGAAGAG CTTTGAGAAT 
GATGCCCAAA GCAGTGACAA CATCAACTTC CTCAAAGTGC AGTGGTCTTC ACGCCAGCTG 
CCCACGCTCA AACCAATTCT GGCTGATATC GAGTACCTGC AGGACCAGCA CCTCCTGCTC 
ACAGTCAAGT CCATGGATGG CTATGAATCC TATGGGGAAT GTGTGGTTGC ACTCAAGTCC 
ATGATTGGCA GCACGGCCCA ACAGTTCCTG ACCTTCCTGT CCCACCGTGG CGAGGAGACA 
GGCAATATCA GAGGCTCCAT GAAGGTGCGG GTGCCCACGG AGCGCCTGGG CACCCGTGAG 
CGGCTCTACG AATGGATCAG CATTGATAAG GATGAGGCAG GAGCAAAGAG CAAAGCCCCC 
TCTGTGTCCC GAGGGATCCA GGAGCCCAGG TCAGGGAGCC GCAAGCCAGC CTTCACAGAG 
GCCTCCTGCC CGCTCTCCAG GTTATTCGAA GAACCAGAGA AACCTCCACC AACTGGGAGG 
CCCCCAGCCC CACCCCGAGC AGCTCCCCGG GAGGAGCCCT TGACCCCCAG GTTGAAGCCA 
GAGGGAACTC CTGAACCAGA AGGGGTGGCC GCCCCCCCAC CCAAGAACAG CTTCAATAAC 
CCTGCCTACT ACGTCCTTGA AGGGGTCCCA CACCAGCTGC TGCCCCCGGA GCCACCCTCG 
CCTGCCAGGG CCCCTGTCCC ACCTGCCACG AAGAACAAAG TGGCCATTAC AGTGCCTGCT 
CCACAGCTTG GGCGCCACAG GCCACCTCGT GTGGGAGAGG GGAGTTCTTC AGATGAAGAG 
TCTGGAGGCA CGCTGCCCCC TCCAGACTTT CCACCTCCAC CACTGCCGGA CTCAGCCATC 
TTCCTGTCAC CTAGCCTGGA TCCTTTACCA GGGCCAGTGG TCCGGGGCCG TGGTGGGGGT 
GAGGCCCGTG GCCCGCCGCC TCCCAAGGCC CATCCAAGGC CCCCACTGCC CCCAGGCCCC 
TCACCAGCCA GCACTTTCCT GGGGGAAGTG GCCGGTGGGG ATGACCGGTC CTGCTCGGTG 
CTGCAGATGG CCAAGACGCT GAGCGAGGTG GACTACGCCC CTGCTGGGCC CGCACGCTCA 
GCACTCCTCC CAGGCCCCCT GGAGCTGCAG CCACACCGGG GACTGTCCTC GGACTATGGC 
CGGCCCCTCA GCTTCCCTCC ACCCCGCATC CGGGAGAGCA TCCAGGAAGA CCTGGCAGAG 
GAGGCTCCGT GCCCGCAGGG CGGGCGGGCC AGCGGGCTGG GCGAGGCAGG CATGGGTGCC 
TGGCTGCGGG CTATCGGCTT GGAGCGCTAT GAGGAGGGCC TGGTGCATAA TGGCTGGGAC 
GACCTGGAGT TTCTCAGTGA CATCACCGAG GAGGACTTGG AGGAGGCTGG GGTGCAGGAC 
CCGGCTCACA AGCGCCTCCT TCTGGACACC CTGCAGCTCA GCAAGTGA

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

INPPL1 ( XM_028832852.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028688685.1 Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMb68527
Clone ID Related Accession (Same CDS sequence)	XM_028832852.1
Accession Version	XM_028832852.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3747bp) 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	2019-04-25
Organism	Macaca mulatta(Rhesus monkey)
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_041767.1) 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 Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCAGCTT CCTGGTCCGA GACAGCGAGA GCGTGGCGGG GGCCTTCGCG CTTTGCGTCC 
TACCCCTTCA GGCATCCTCC AGGTAGAAGT GAGCAGGGGA GAGGATGTGC ATTCCACGTT 
GTGTGCAGTC CCGTTTGGAT AGGGATTGAG TGGTATCAGA AGCATGTGCA CACATATCGC 
ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT GTACAGACCT CGCAGGGTGT GCCTGTGCGC 
CGCTTCCAGA CCCTGGGCGA GCTCATCGGC CTCTATGCCC AGCCCAACCA GGGCCTTGTG 
TGCGCCCTGC TTCTTCCTGT AGAGGGGGAG CGAGAGCCGG ACCCGCCGGA TGACCGGGAT 
GCCTCAGATG GGGAGGATGA GAAGCCCCCG CTGCCACCAC GCTCTGGCTC CACCAGCATT 
TCTGCCACCA CTGGGCCCAG CAGTCCCCTG TCAGTCCCTG AGACTCCCAC AACTCCAGCT 
GCTGAGAGTG CTCCCAATGG ACTGAGCACC GTCTCGCACG AGTACCTGAA AGGCAGCTAC 
GGGCTGGACC TGGAGGCTGT GCGGGGTGGA GCCAGCCACC TGCCCCACCT CACTCGTACC 
CTCGCCACCT CATGCCGGAG GCTGCACAGT GAGGTGGACA AAGTCCTGTC AGGCCTGGAG 
ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC TCGCCCATGG TGACCCGCCT TTTGCAGCAG 
CAGAACCTGC CACAGACAGG GGAGCAGGAA CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG 
CTAAAGGACT TCCTGTCAGG CATCCAGAAG AAGGCCCTAA AGGCCCTACA GGACATGAGC 
TCCACAGCAC CCCCGGCTCC GCAGCCATCC ACACGTAAGG CCAAGACCAT CCCCGTGCAG 
GCCTTTGAGG TGAAGCTAGA TGTGACCCTG GGTGACCTGA CCAAGATTGG GAAGTCGCAG 
AAGTTCACAC TGAGCGTAGA TGTGGAGGGT GGGCGGCTGG TGCTGCTGCG GAGACAGCGG 
GACTCCCAGG AGGACTGGAC CACCTTCACG CACGACCGCA TCCGCCAGCT CATTAAGTCC 
CAGCGTGTCC AGAACAAGCT GGGTGTTGTG TTTGAGAAGG AGAAGGACCG GACTCAGCGC 
AAGGACTTCA TCTTTGTCAG TGCCCGGAAG CGGGAGGCCT TCTGCCAGCT GCTGCAGCTC 
ATGAAGAACA AACACTCCAA GCAGGATGAG CCCGACATGA TCTCCATCTT CATAGGCACC 
TGGAACATGG GAAGTGTACC ACCTCCAAAA AATGTGACAT CCTGGTTCAC ATCGAGGGGT 
CTGGGGAAGA CCCTGGACGA GGTCACAGTG ACCATACCCC ATGACATCTA TGTCTTTGGG 
ACCCAGGAGA ACTCAGTGGG TGACCGCGAG TGGCTGGACC TACTGCGCGG GGGCCTCAAG 
GAGCTTACGG ATCTGGATTA CCGCCCGATT GCCATGCAAT CACTGTGGAA TATCAAGGTG 
GCAGTGCTGG TCAAGCCAGA GCACGAGAAC CGTATCAGCC ACGTCAGTAC GTCCAGTGTG 
AAGACTGGCA TCGCCAATAC CCTGGGGAAC AAGGGGGCTG TGGGAGTCTC CTTCATGTTC 
AATGGCACCT CATTTGGCTT TGTGAATTGT CACCTTACCT CAGGAAATGA GAAGACGGCT 
CGGAGGAACC AGAACTACTT GGACATCCTG CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC 
AGTGCCTTTG ACATCTCTCT GCGTTTCACA CACCTCTTCT GGTTTGGGGA CCTCAACTAC 
CGCCTGGACA TGGATATCCA GGAGATCCTG AACTACATCA GCAGGAAGGA GTTTGAGCCC 
CTCCTCAGGG TGGACCAGCT CAACTTGGAG CGGGAGAAGC ACAAGGTCTT CCTTCGATTC 
AGTGAGGAGG AGATCTCCTT CCCACCCACC TACCGCTATG AGCGGGGTTC CCGGGACACA 
TATGCCTGGC ACAAGCAGAA GCCAACTGGG GTCCGGACCA ATGTGCCCTC ATGGTGTGAC 
CGGATTCTGT GGAAATCCTA CCCTGAAACT CACATCATCT GCAATTCTTA TGGTTGCACT 
GATGACATCG TCACCAGTGA CCACTCCCCT GTGTTTGGGA CATTTGAGGT TGGAGTTACC 
TCCCAGTTCA TCTCCAAGAA AGGGCTCTCG AAGACTTCAG ACCAGGCCTA CATTGAGTTT 
GAGAGCATCG AGGCCATTGT GAAGACAGCC AGCCGCACCA AGTTCTTCAT CGAGTTCTAC 
TCTACCTGCC TGGAGGAATA CAAGAAGAGC TTTGAGAATG ATGCCCAAAG CAGTGACAAC 
ATCAACTTCC TCAAAGTGCA GTGGTCTTCA CGCCAGCTGC CCACGCTCAA ACCAATTCTG 
GCTGATATCG AGTACCTGCA GGACCAGCAC CTCCTGCTCA CAGTCAAGTC CATGGATGGC 
TATGAATCCT ATGGGGAATG TGTGGTTGCA CTCAAGTCCA TGATTGGCAG CACGGCCCAA 
CAGTTCCTGA CCTTCCTGTC CCACCGTGGC GAGGAGACAG GCAATATCAG AGGCTCCATG 
AAGGTGCGGG TGCCCACGGA GCGCCTGGGC ACCCGTGAGC GGCTCTACGA ATGGATCAGC 
ATTGATAAGG ATGAGGCAGG AGCAAAGAGC AAAGCCCCCT CTGTGTCCCG AGGGATCCAG 
GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC TTCACAGAGG CCTCCTGCCC GCTCTCCAGG 
TTATTCGAAG AACCAGAGAA ACCTCCACCA ACTGGGAGGC CCCCAGCCCC ACCCCGAGCA 
GCTCCCCGGG AGGAGCCCTT GACCCCCAGG TTGAAGCCAG AGGGAACTCC TGAACCAGAA 
GGGGTGGCCG CCCCCCCACC CAAGAACAGC TTCAATAACC CTGCCTACTA CGTCCTTGAA 
GGGGTCCCAC ACCAGCTGCT GCCCCCGGAG CCACCCTCGC CTGCCAGGGC CCCTGTCCCA 
CCTGCCACGA AGAACAAAGT GGCCATTACA GTGCCTGCTC CACAGCTTGG GCGCCACAGG 
CCACCTCGTG TGGGAGAGGG GAGTTCTTCA GATGAAGAGT CTGGAGGCAC GCTGCCCCCT 
CCAGACTTTC CACCTCCACC ACTGCCGGAC TCAGCCATCT TCCTGTCACC TAGCCTGGAT 
CCTTTACCAG GGCCAGTGGT CCGGGGCCGT GGTGGGGGTG AGGCCCGTGG CCCGCCGCCT 
CCCAAGGCCC ATCCAAGGCC CCCACTGCCC CCAGGCCCCT CACCAGCCAG CACTTTCCTG 
GGGGAAGTGG CCGGTGGGGA TGACCGGTCC TGCTCGGTGC TGCAGATGGC CAAGACGCTG 
AGCGAGGTGG ACTACGCCCC TGCTGGGCCC GCACGCTCAG CACTCCTCCC AGGCCCCCTG 
GAGCTGCAGC CACACCGGGG ACTGTCCTCG GACTATGGCC GGCCCCTCAG CTTCCCTCCA 
CCCCGCATCC GGGAGAGCAT CCAGGAAGAC CTGGCAGAGG AGGCTCCGTG CCCGCAGGGC 
GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC ATGGGTGCCT GGCTGCGGGC TATCGGCTTG 
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_028688685.1
CDS	333..4079
Translation	MAASWSETARAWRGPSRFASYPFRHPPGRSEQGRGCAFHVVCSPVWIGIEWYQKHVHTYRILPDGEDFLAVQTSQGVPVRRFQTLGELIGLYAQPNQGLVCALLLPVEGEREPDPPDDRDASDGEDEKPPLPPRSGSTSISATTGPSSPLSVPETPTTPAAESAPNGLSTVSHEYLKGSYGLDLEAVRGGASHLPHLTRTLATSCRRLHSEVDKVLSGLEILSKVFDQQSSPMVTRLLQQQNLPQTGEQELESLVLKLSVLKDFLSGIQKKALKALQDMSSTAPPAPQPSTRKAKTIPVQAFEVKLDVTLGDLTKIGKSQKFTLSVDVEGGRLVLLRRQRDSQEDWTTFTHDRIRQLIKSQRVQNKLGVVFEKEKDRTQRKDFIFVSARKREAFCQLLQLMKNKHSKQDEPDMISIFIGTWNMGSVPPPKNVTSWFTSRGLGKTLDEVTVTIPHDIYVFGTQENSVGDREWLDLLRGGLKELTDLDYRPIAMQSLWNIKVAVLVKPEHENRISHVSTSSVKTGIANTLGNKGAVGVSFMFNGTSFGFVNCHLTSGNEKTARRNQNYLDILRLLSLGDRQLSAFDISLRFTHLFWFGDLNYRLDMDIQEILNYISRKEFEPLLRVDQLNLEREKHKVFLRFSEEEISFPPTYRYERGSRDTYAWHKQKPTGVRTNVPSWCDRILWKSYPETHIICNSYGCTDDIVTSDHSPVFGTFEVGVTSQFISKKGLSKTSDQAYIEFESIEAIVKTASRTKFFIEFYSTCLEEYKKSFENDAQSSDNINFLKVQWSSRQLPTLKPILADIEYLQDQHLLLTVKSMDGYESYGECVVALKSMIGSTAQQFLTFLSHRGEETGNIRGSMKVRVPTERLGTRERLYEWISIDKDEAGAKSKAPSVSRGIQEPRSGSRKPAFTEASCPLSRLFEEPEKPPPTGRPPAPPRAAPREEPLTPRLKPEGTPEPEGVAAPPPKNSFNNPAYYVLEGVPHQLLPPEPPSPARAPVPPATKNKVAITVPAPQLGRHRPPRVGEGSSSDEESGGTLPPPDFPPPPLPDSAIFLSPSLDPLPGPVVRGRGGGEARGPPPPKAHPRPPLPPGPSPASTFLGEVAGGDDRSCSVLQMAKTLSEVDYAPAGPARSALLPGPLELQPHRGLSSDYGRPLSFPPPRIRESIQEDLAEEAPCPQGGRASGLGEAGMGAWLRAIGLERYEEGLVHNGWDDLEFLSDITEEDLEEAGVQDPAHKRLLLDTLQLSK

Target ORF information:

RefSeq Version	XM_028832852.1
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_028832852.1

ORF Insert Sequence:

ATGGCAGCTT CCTGGTCCGA GACAGCGAGA GCGTGGCGGG GGCCTTCGCG CTTTGCGTCC 
TACCCCTTCA GGCATCCTCC AGGTAGAAGT GAGCAGGGGA GAGGATGTGC ATTCCACGTT 
GTGTGCAGTC CCGTTTGGAT AGGGATTGAG TGGTATCAGA AGCATGTGCA CACATATCGC 
ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT GTACAGACCT CGCAGGGTGT GCCTGTGCGC 
CGCTTCCAGA CCCTGGGCGA GCTCATCGGC CTCTATGCCC AGCCCAACCA GGGCCTTGTG 
TGCGCCCTGC TTCTTCCTGT AGAGGGGGAG CGAGAGCCGG ACCCGCCGGA TGACCGGGAT 
GCCTCAGATG GGGAGGATGA GAAGCCCCCG CTGCCACCAC GCTCTGGCTC CACCAGCATT 
TCTGCCACCA CTGGGCCCAG CAGTCCCCTG TCAGTCCCTG AGACTCCCAC AACTCCAGCT 
GCTGAGAGTG CTCCCAATGG ACTGAGCACC GTCTCGCACG AGTACCTGAA AGGCAGCTAC 
GGGCTGGACC TGGAGGCTGT GCGGGGTGGA GCCAGCCACC TGCCCCACCT CACTCGTACC 
CTCGCCACCT CATGCCGGAG GCTGCACAGT GAGGTGGACA AAGTCCTGTC AGGCCTGGAG 
ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC TCGCCCATGG TGACCCGCCT TTTGCAGCAG 
CAGAACCTGC CACAGACAGG GGAGCAGGAA CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG 
CTAAAGGACT TCCTGTCAGG CATCCAGAAG AAGGCCCTAA AGGCCCTACA GGACATGAGC 
TCCACAGCAC CCCCGGCTCC GCAGCCATCC ACACGTAAGG CCAAGACCAT CCCCGTGCAG 
GCCTTTGAGG TGAAGCTAGA TGTGACCCTG GGTGACCTGA CCAAGATTGG GAAGTCGCAG 
AAGTTCACAC TGAGCGTAGA TGTGGAGGGT GGGCGGCTGG TGCTGCTGCG GAGACAGCGG 
GACTCCCAGG AGGACTGGAC CACCTTCACG CACGACCGCA TCCGCCAGCT CATTAAGTCC 
CAGCGTGTCC AGAACAAGCT GGGTGTTGTG TTTGAGAAGG AGAAGGACCG GACTCAGCGC 
AAGGACTTCA TCTTTGTCAG TGCCCGGAAG CGGGAGGCCT TCTGCCAGCT GCTGCAGCTC 
ATGAAGAACA AACACTCCAA GCAGGATGAG CCCGACATGA TCTCCATCTT CATAGGCACC 
TGGAACATGG GAAGTGTACC ACCTCCAAAA AATGTGACAT CCTGGTTCAC ATCGAGGGGT 
CTGGGGAAGA CCCTGGACGA GGTCACAGTG ACCATACCCC ATGACATCTA TGTCTTTGGG 
ACCCAGGAGA ACTCAGTGGG TGACCGCGAG TGGCTGGACC TACTGCGCGG GGGCCTCAAG 
GAGCTTACGG ATCTGGATTA CCGCCCGATT GCCATGCAAT CACTGTGGAA TATCAAGGTG 
GCAGTGCTGG TCAAGCCAGA GCACGAGAAC CGTATCAGCC ACGTCAGTAC GTCCAGTGTG 
AAGACTGGCA TCGCCAATAC CCTGGGGAAC AAGGGGGCTG TGGGAGTCTC CTTCATGTTC 
AATGGCACCT CATTTGGCTT TGTGAATTGT CACCTTACCT CAGGAAATGA GAAGACGGCT 
CGGAGGAACC AGAACTACTT GGACATCCTG CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC 
AGTGCCTTTG ACATCTCTCT GCGTTTCACA CACCTCTTCT GGTTTGGGGA CCTCAACTAC 
CGCCTGGACA TGGATATCCA GGAGATCCTG AACTACATCA GCAGGAAGGA GTTTGAGCCC 
CTCCTCAGGG TGGACCAGCT CAACTTGGAG CGGGAGAAGC ACAAGGTCTT CCTTCGATTC 
AGTGAGGAGG AGATCTCCTT CCCACCCACC TACCGCTATG AGCGGGGTTC CCGGGACACA 
TATGCCTGGC ACAAGCAGAA GCCAACTGGG GTCCGGACCA ATGTGCCCTC ATGGTGTGAC 
CGGATTCTGT GGAAATCCTA CCCTGAAACT CACATCATCT GCAATTCTTA TGGTTGCACT 
GATGACATCG TCACCAGTGA CCACTCCCCT GTGTTTGGGA CATTTGAGGT TGGAGTTACC 
TCCCAGTTCA TCTCCAAGAA AGGGCTCTCG AAGACTTCAG ACCAGGCCTA CATTGAGTTT 
GAGAGCATCG AGGCCATTGT GAAGACAGCC AGCCGCACCA AGTTCTTCAT CGAGTTCTAC 
TCTACCTGCC TGGAGGAATA CAAGAAGAGC TTTGAGAATG ATGCCCAAAG CAGTGACAAC 
ATCAACTTCC TCAAAGTGCA GTGGTCTTCA CGCCAGCTGC CCACGCTCAA ACCAATTCTG 
GCTGATATCG AGTACCTGCA GGACCAGCAC CTCCTGCTCA CAGTCAAGTC CATGGATGGC 
TATGAATCCT ATGGGGAATG TGTGGTTGCA CTCAAGTCCA TGATTGGCAG CACGGCCCAA 
CAGTTCCTGA CCTTCCTGTC CCACCGTGGC GAGGAGACAG GCAATATCAG AGGCTCCATG 
AAGGTGCGGG TGCCCACGGA GCGCCTGGGC ACCCGTGAGC GGCTCTACGA ATGGATCAGC 
ATTGATAAGG ATGAGGCAGG AGCAAAGAGC AAAGCCCCCT CTGTGTCCCG AGGGATCCAG 
GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC TTCACAGAGG CCTCCTGCCC GCTCTCCAGG 
TTATTCGAAG AACCAGAGAA ACCTCCACCA ACTGGGAGGC CCCCAGCCCC ACCCCGAGCA 
GCTCCCCGGG AGGAGCCCTT GACCCCCAGG TTGAAGCCAG AGGGAACTCC TGAACCAGAA 
GGGGTGGCCG CCCCCCCACC CAAGAACAGC TTCAATAACC CTGCCTACTA CGTCCTTGAA 
GGGGTCCCAC ACCAGCTGCT GCCCCCGGAG CCACCCTCGC CTGCCAGGGC CCCTGTCCCA 
CCTGCCACGA AGAACAAAGT GGCCATTACA GTGCCTGCTC CACAGCTTGG GCGCCACAGG 
CCACCTCGTG TGGGAGAGGG GAGTTCTTCA GATGAAGAGT CTGGAGGCAC GCTGCCCCCT 
CCAGACTTTC CACCTCCACC ACTGCCGGAC TCAGCCATCT TCCTGTCACC TAGCCTGGAT 
CCTTTACCAG GGCCAGTGGT CCGGGGCCGT GGTGGGGGTG AGGCCCGTGG CCCGCCGCCT 
CCCAAGGCCC ATCCAAGGCC CCCACTGCCC CCAGGCCCCT CACCAGCCAG CACTTTCCTG 
GGGGAAGTGG CCGGTGGGGA TGACCGGTCC TGCTCGGTGC TGCAGATGGC CAAGACGCTG 
AGCGAGGTGG ACTACGCCCC TGCTGGGCCC GCACGCTCAG CACTCCTCCC AGGCCCCCTG 
GAGCTGCAGC CACACCGGGG ACTGTCCTCG GACTATGGCC GGCCCCTCAG CTTCCCTCCA 
CCCCGCATCC GGGAGAGCAT CCAGGAAGAC CTGGCAGAGG AGGCTCCGTG CCCGCAGGGC 
GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC ATGGGTGCCT GGCTGCGGGC TATCGGCTTG 
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.

INPPL1 ( XM_015115131.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014970617.2 Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X3, mRNA.

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CloneID	OMb68528
Clone ID Related Accession (Same CDS sequence)	XM_015115131.2
Accession Version	XM_015115131.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3726bp) 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	2019-04-25
Organism	Macaca mulatta(Rhesus monkey)
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_041767.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Apr 23, 2019 this sequence version replaced XM_015115131.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Macaca mulatta Annotation Release 103 Annotation Version :: 103 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGAGCCTTG AGGGCAGAGG ATATGGGGTT CTGCGGCCCA GTGTGACTGT GATGGACGAA 
ACATTCGGGC ATTCCCCGGC AGACCCCTTC AGGCATCCTC CAGGTAGAAG TGAGCAGGGG 
AGAGGATGTG CATTCCACGT TGTGTGCAGT CCCGTTTGGA TAGGGATTGA GTGGTATCAG 
AAGCATGTGC ACACATATCG CATTCTGCCT GATGGAGAAG ATTTCTTGGC TGTACAGACC 
TCGCAGGGTG TGCCTGTGCG CCGCTTCCAG ACCCTGGGCG AGCTCATCGG CCTCTATGCC 
CAGCCCAACC AGGGCCTTGT GTGCGCCCTG CTTCTTCCTG TAGAGGGGGA GCGAGAGCCG 
GACCCGCCGG ATGACCGGGA TGCCTCAGAT GGGGAGGATG AGAAGCCCCC GCTGCCACCA 
CGCTCTGGCT CCACCAGCAT TTCTGCCACC ACTGGGCCCA GCAGTCCCCT GTCAGTCCCT 
GAGACTCCCA CAACTCCAGC TGCTGAGAGT GCTCCCAATG GACTGAGCAC CGTCTCGCAC 
GAGTACCTGA AAGGCAGCTA CGGGCTGGAC CTGGAGGCTG TGCGGGGTGG AGCCAGCCAC 
CTGCCCCACC TCACTCGTAC CCTCGCCACC TCATGCCGGA GGCTGCACAG TGAGGTGGAC 
AAAGTCCTGT CAGGCCTGGA GATCCTGTCC AAGGTGTTTG ACCAGCAGAG CTCGCCCATG 
GTGACCCGCC TTTTGCAGCA GCAGAACCTG CCACAGACAG GGGAGCAGGA ACTAGAGAGC 
CTGGTGCTGA AGCTGTCAGT GCTAAAGGAC TTCCTGTCAG GCATCCAGAA GAAGGCCCTA 
AAGGCCCTAC AGGACATGAG CTCCACAGCA CCCCCGGCTC CGCAGCCATC CACACGTAAG 
GCCAAGACCA TCCCCGTGCA GGCCTTTGAG GTGAAGCTAG ATGTGACCCT GGGTGACCTG 
ACCAAGATTG GGAAGTCGCA GAAGTTCACA CTGAGCGTAG ATGTGGAGGG TGGGCGGCTG 
GTGCTGCTGC GGAGACAGCG GGACTCCCAG GAGGACTGGA CCACCTTCAC GCACGACCGC 
ATCCGCCAGC TCATTAAGTC CCAGCGTGTC CAGAACAAGC TGGGTGTTGT GTTTGAGAAG 
GAGAAGGACC GGACTCAGCG CAAGGACTTC ATCTTTGTCA GTGCCCGGAA GCGGGAGGCC 
TTCTGCCAGC TGCTGCAGCT CATGAAGAAC AAACACTCCA AGCAGGATGA GCCCGACATG 
ATCTCCATCT TCATAGGCAC CTGGAACATG GGAAGTGTAC CACCTCCAAA AAATGTGACA 
TCCTGGTTCA CATCGAGGGG TCTGGGGAAG ACCCTGGACG AGGTCACAGT GACCATACCC 
CATGACATCT ATGTCTTTGG GACCCAGGAG AACTCAGTGG GTGACCGCGA GTGGCTGGAC 
CTACTGCGCG GGGGCCTCAA GGAGCTTACG GATCTGGATT ACCGCCCGAT TGCCATGCAA 
TCACTGTGGA ATATCAAGGT GGCAGTGCTG GTCAAGCCAG AGCACGAGAA CCGTATCAGC 
CACGTCAGTA CGTCCAGTGT GAAGACTGGC ATCGCCAATA CCCTGGGGAA CAAGGGGGCT 
GTGGGAGTCT CCTTCATGTT CAATGGCACC TCATTTGGCT TTGTGAATTG TCACCTTACC 
TCAGGAAATG AGAAGACGGC TCGGAGGAAC CAGAACTACT TGGACATCCT GCGGCTGCTC 
TCGCTGGGCG ACCGGCAGCT CAGTGCCTTT GACATCTCTC TGCGTTTCAC ACACCTCTTC 
TGGTTTGGGG ACCTCAACTA CCGCCTGGAC ATGGATATCC AGGAGATCCT GAACTACATC 
AGCAGGAAGG AGTTTGAGCC CCTCCTCAGG GTGGACCAGC TCAACTTGGA GCGGGAGAAG 
CACAAGGTCT TCCTTCGATT CAGTGAGGAG GAGATCTCCT TCCCACCCAC CTACCGCTAT 
GAGCGGGGTT CCCGGGACAC ATATGCCTGG CACAAGCAGA AGCCAACTGG GGTCCGGACC 
AATGTGCCCT CATGGTGTGA CCGGATTCTG TGGAAATCCT ACCCTGAAAC TCACATCATC 
TGCAATTCTT ATGGTTGCAC TGATGACATC GTCACCAGTG ACCACTCCCC TGTGTTTGGG 
ACATTTGAGG TTGGAGTTAC CTCCCAGTTC ATCTCCAAGA AAGGGCTCTC GAAGACTTCA 
GACCAGGCCT ACATTGAGTT TGAGAGCATC GAGGCCATTG TGAAGACAGC CAGCCGCACC 
AAGTTCTTCA TCGAGTTCTA CTCTACCTGC CTGGAGGAAT ACAAGAAGAG CTTTGAGAAT 
GATGCCCAAA GCAGTGACAA CATCAACTTC CTCAAAGTGC AGTGGTCTTC ACGCCAGCTG 
CCCACGCTCA AACCAATTCT GGCTGATATC GAGTACCTGC AGGACCAGCA CCTCCTGCTC 
ACAGTCAAGT CCATGGATGG CTATGAATCC TATGGGGAAT GTGTGGTTGC ACTCAAGTCC 
ATGATTGGCA GCACGGCCCA ACAGTTCCTG ACCTTCCTGT CCCACCGTGG CGAGGAGACA 
GGCAATATCA GAGGCTCCAT GAAGGTGCGG GTGCCCACGG AGCGCCTGGG CACCCGTGAG 
CGGCTCTACG AATGGATCAG CATTGATAAG GATGAGGCAG GAGCAAAGAG CAAAGCCCCC 
TCTGTGTCCC GAGGGATCCA GGAGCCCAGG TCAGGGAGCC GCAAGCCAGC CTTCACAGAG 
GCCTCCTGCC CGCTCTCCAG GTTATTCGAA GAACCAGAGA AACCTCCACC AACTGGGAGG 
CCCCCAGCCC CACCCCGAGC AGCTCCCCGG GAGGAGCCCT TGACCCCCAG GTTGAAGCCA 
GAGGGAACTC CTGAACCAGA AGGGGTGGCC GCCCCCCCAC CCAAGAACAG CTTCAATAAC 
CCTGCCTACT ACGTCCTTGA AGGGGTCCCA CACCAGCTGC TGCCCCCGGA GCCACCCTCG 
CCTGCCAGGG CCCCTGTCCC ACCTGCCACG AAGAACAAAG TGGCCATTAC AGTGCCTGCT 
CCACAGCTTG GGCGCCACAG GCCACCTCGT GTGGGAGAGG GGAGTTCTTC AGATGAAGAG 
TCTGGAGGCA CGCTGCCCCC TCCAGACTTT CCACCTCCAC CACTGCCGGA CTCAGCCATC 
TTCCTGTCAC CTAGCCTGGA TCCTTTACCA GGGCCAGTGG TCCGGGGCCG TGGTGGGGGT 
GAGGCCCGTG GCCCGCCGCC TCCCAAGGCC CATCCAAGGC CCCCACTGCC CCCAGGCCCC 
TCACCAGCCA GCACTTTCCT GGGGGAAGTG GCCGGTGGGG ATGACCGGTC CTGCTCGGTG 
CTGCAGATGG CCAAGACGCT GAGCGAGGTG GACTACGCCC CTGCTGGGCC CGCACGCTCA 
GCACTCCTCC CAGGCCCCCT GGAGCTGCAG CCACACCGGG GACTGTCCTC GGACTATGGC 
CGGCCCCTCA GCTTCCCTCC ACCCCGCATC CGGGAGAGCA TCCAGGAAGA CCTGGCAGAG 
GAGTGA

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

RefSeq	XP_014970617.2
CDS	212..3937
Translation	MASACGAPGPGGALGSQAPSWYHRDLSRAAAEELLARAGRDGSFLVRDSESVAGAFALCVLSLEGRGYGVLRPSVTVMDETFGHSPADPFRHPPGRSEQGRGCAFHVVCSPVWIGIEWYQKHVHTYRILPDGEDFLAVQTSQGVPVRRFQTLGELIGLYAQPNQGLVCALLLPVEGEREPDPPDDRDASDGEDEKPPLPPRSGSTSISATTGPSSPLSVPETPTTPAAESAPNGLSTVSHEYLKGSYGLDLEAVRGGASHLPHLTRTLATSCRRLHSEVDKVLSGLEILSKVFDQQSSPMVTRLLQQQNLPQTGEQELESLVLKLSVLKDFLSGIQKKALKALQDMSSTAPPAPQPSTRKAKTIPVQAFEVKLDVTLGDLTKIGKSQKFTLSVDVEGGRLVLLRRQRDSQEDWTTFTHDRIRQLIKSQRVQNKLGVVFEKEKDRTQRKDFIFVSARKREAFCQLLQLMKNKHSKQDEPDMISIFIGTWNMGSVPPPKNVTSWFTSRGLGKTLDEVTVTIPHDIYVFGTQENSVGDREWLDLLRGGLKELTDLDYRPIAMQSLWNIKVAVLVKPEHENRISHVSTSSVKTGIANTLGNKGAVGVSFMFNGTSFGFVNCHLTSGNEKTARRNQNYLDILRLLSLGDRQLSAFDISLRFTHLFWFGDLNYRLDMDIQEILNYISRKEFEPLLRVDQLNLEREKHKVFLRFSEEEISFPPTYRYERGSRDTYAWHKQKPTGVRTNVPSWCDRILWKSYPETHIICNSYGCTDDIVTSDHSPVFGTFEVGVTSQFISKKGLSKTSDQAYIEFESIEAIVKTASRTKFFIEFYSTCLEEYKKSFENDAQSSDNINFLKVQWSSRQLPTLKPILADIEYLQDQHLLLTVKSMDGYESYGECVVALKSMIGSTAQQFLTFLSHRGEETGNIRGSMKVRVPTERLGTRERLYEWISIDKDEAGAKSKAPSVSRGIQEPRSGSRKPAFTEASCPLSRLFEEPEKPPPTGRPPAPPRAAPREEPLTPRLKPEGTPEPEGVAAPPPKNSFNNPAYYVLEGVPHQLLPPEPPSPARAPVPPATKNKVAITVPAPQLGRHRPPRVGEGSSSDEESGGTLPPPDFPPPPLPDSAIFLSPSLDPLPGPVVRGRGGGEARGPPPPKAHPRPPLPPGPSPASTFLGEVAGGDDRSCSVLQMAKTLSEVDYAPAGPARSALLPGPLELQPHRGLSSDYGRPLSFPPPRIRESIQEDLAEE

Target ORF information:

RefSeq Version	XM_015115131.2
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X3, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_015115131.2

ORF Insert Sequence:

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGAGCCTTG AGGGCAGAGG ATATGGGGTT CTGCGGCCCA GTGTGACTGT GATGGACGAA 
ACATTCGGGC ATTCCCCGGC AGACCCCTTC AGGCATCCTC CAGGTAGAAG TGAGCAGGGG 
AGAGGATGTG CATTCCACGT TGTGTGCAGT CCCGTTTGGA TAGGGATTGA GTGGTATCAG 
AAGCATGTGC ACACATATCG CATTCTGCCT GATGGAGAAG ATTTCTTGGC TGTACAGACC 
TCGCAGGGTG TGCCTGTGCG CCGCTTCCAG ACCCTGGGCG AGCTCATCGG CCTCTATGCC 
CAGCCCAACC AGGGCCTTGT GTGCGCCCTG CTTCTTCCTG TAGAGGGGGA GCGAGAGCCG 
GACCCGCCGG ATGACCGGGA TGCCTCAGAT GGGGAGGATG AGAAGCCCCC GCTGCCACCA 
CGCTCTGGCT CCACCAGCAT TTCTGCCACC ACTGGGCCCA GCAGTCCCCT GTCAGTCCCT 
GAGACTCCCA CAACTCCAGC TGCTGAGAGT GCTCCCAATG GACTGAGCAC CGTCTCGCAC 
GAGTACCTGA AAGGCAGCTA CGGGCTGGAC CTGGAGGCTG TGCGGGGTGG AGCCAGCCAC 
CTGCCCCACC TCACTCGTAC CCTCGCCACC TCATGCCGGA GGCTGCACAG TGAGGTGGAC 
AAAGTCCTGT CAGGCCTGGA GATCCTGTCC AAGGTGTTTG ACCAGCAGAG CTCGCCCATG 
GTGACCCGCC TTTTGCAGCA GCAGAACCTG CCACAGACAG GGGAGCAGGA ACTAGAGAGC 
CTGGTGCTGA AGCTGTCAGT GCTAAAGGAC TTCCTGTCAG GCATCCAGAA GAAGGCCCTA 
AAGGCCCTAC AGGACATGAG CTCCACAGCA CCCCCGGCTC CGCAGCCATC CACACGTAAG 
GCCAAGACCA TCCCCGTGCA GGCCTTTGAG GTGAAGCTAG ATGTGACCCT GGGTGACCTG 
ACCAAGATTG GGAAGTCGCA GAAGTTCACA CTGAGCGTAG ATGTGGAGGG TGGGCGGCTG 
GTGCTGCTGC GGAGACAGCG GGACTCCCAG GAGGACTGGA CCACCTTCAC GCACGACCGC 
ATCCGCCAGC TCATTAAGTC CCAGCGTGTC CAGAACAAGC TGGGTGTTGT GTTTGAGAAG 
GAGAAGGACC GGACTCAGCG CAAGGACTTC ATCTTTGTCA GTGCCCGGAA GCGGGAGGCC 
TTCTGCCAGC TGCTGCAGCT CATGAAGAAC AAACACTCCA AGCAGGATGA GCCCGACATG 
ATCTCCATCT TCATAGGCAC CTGGAACATG GGAAGTGTAC CACCTCCAAA AAATGTGACA 
TCCTGGTTCA CATCGAGGGG TCTGGGGAAG ACCCTGGACG AGGTCACAGT GACCATACCC 
CATGACATCT ATGTCTTTGG GACCCAGGAG AACTCAGTGG GTGACCGCGA GTGGCTGGAC 
CTACTGCGCG GGGGCCTCAA GGAGCTTACG GATCTGGATT ACCGCCCGAT TGCCATGCAA 
TCACTGTGGA ATATCAAGGT GGCAGTGCTG GTCAAGCCAG AGCACGAGAA CCGTATCAGC 
CACGTCAGTA CGTCCAGTGT GAAGACTGGC ATCGCCAATA CCCTGGGGAA CAAGGGGGCT 
GTGGGAGTCT CCTTCATGTT CAATGGCACC TCATTTGGCT TTGTGAATTG TCACCTTACC 
TCAGGAAATG AGAAGACGGC TCGGAGGAAC CAGAACTACT TGGACATCCT GCGGCTGCTC 
TCGCTGGGCG ACCGGCAGCT CAGTGCCTTT GACATCTCTC TGCGTTTCAC ACACCTCTTC 
TGGTTTGGGG ACCTCAACTA CCGCCTGGAC ATGGATATCC AGGAGATCCT GAACTACATC 
AGCAGGAAGG AGTTTGAGCC CCTCCTCAGG GTGGACCAGC TCAACTTGGA GCGGGAGAAG 
CACAAGGTCT TCCTTCGATT CAGTGAGGAG GAGATCTCCT TCCCACCCAC CTACCGCTAT 
GAGCGGGGTT CCCGGGACAC ATATGCCTGG CACAAGCAGA AGCCAACTGG GGTCCGGACC 
AATGTGCCCT CATGGTGTGA CCGGATTCTG TGGAAATCCT ACCCTGAAAC TCACATCATC 
TGCAATTCTT ATGGTTGCAC TGATGACATC GTCACCAGTG ACCACTCCCC TGTGTTTGGG 
ACATTTGAGG TTGGAGTTAC CTCCCAGTTC ATCTCCAAGA AAGGGCTCTC GAAGACTTCA 
GACCAGGCCT ACATTGAGTT TGAGAGCATC GAGGCCATTG TGAAGACAGC CAGCCGCACC 
AAGTTCTTCA TCGAGTTCTA CTCTACCTGC CTGGAGGAAT ACAAGAAGAG CTTTGAGAAT 
GATGCCCAAA GCAGTGACAA CATCAACTTC CTCAAAGTGC AGTGGTCTTC ACGCCAGCTG 
CCCACGCTCA AACCAATTCT GGCTGATATC GAGTACCTGC AGGACCAGCA CCTCCTGCTC 
ACAGTCAAGT CCATGGATGG CTATGAATCC TATGGGGAAT GTGTGGTTGC ACTCAAGTCC 
ATGATTGGCA GCACGGCCCA ACAGTTCCTG ACCTTCCTGT CCCACCGTGG CGAGGAGACA 
GGCAATATCA GAGGCTCCAT GAAGGTGCGG GTGCCCACGG AGCGCCTGGG CACCCGTGAG 
CGGCTCTACG AATGGATCAG CATTGATAAG GATGAGGCAG GAGCAAAGAG CAAAGCCCCC 
TCTGTGTCCC GAGGGATCCA GGAGCCCAGG TCAGGGAGCC GCAAGCCAGC CTTCACAGAG 
GCCTCCTGCC CGCTCTCCAG GTTATTCGAA GAACCAGAGA AACCTCCACC AACTGGGAGG 
CCCCCAGCCC CACCCCGAGC AGCTCCCCGG GAGGAGCCCT TGACCCCCAG GTTGAAGCCA 
GAGGGAACTC CTGAACCAGA AGGGGTGGCC GCCCCCCCAC CCAAGAACAG CTTCAATAAC 
CCTGCCTACT ACGTCCTTGA AGGGGTCCCA CACCAGCTGC TGCCCCCGGA GCCACCCTCG 
CCTGCCAGGG CCCCTGTCCC ACCTGCCACG AAGAACAAAG TGGCCATTAC AGTGCCTGCT 
CCACAGCTTG GGCGCCACAG GCCACCTCGT GTGGGAGAGG GGAGTTCTTC AGATGAAGAG 
TCTGGAGGCA CGCTGCCCCC TCCAGACTTT CCACCTCCAC CACTGCCGGA CTCAGCCATC 
TTCCTGTCAC CTAGCCTGGA TCCTTTACCA GGGCCAGTGG TCCGGGGCCG TGGTGGGGGT 
GAGGCCCGTG GCCCGCCGCC TCCCAAGGCC CATCCAAGGC CCCCACTGCC CCCAGGCCCC 
TCACCAGCCA GCACTTTCCT GGGGGAAGTG GCCGGTGGGG ATGACCGGTC CTGCTCGGTG 
CTGCAGATGG CCAAGACGCT GAGCGAGGTG GACTACGCCC CTGCTGGGCC CGCACGCTCA 
GCACTCCTCC CAGGCCCCCT GGAGCTGCAG CCACACCGGG GACTGTCCTC GGACTATGGC 
CGGCCCCTCA GCTTCCCTCC ACCCCGCATC CGGGAGAGCA TCCAGGAAGA CCTGGCAGAG 
GAGTGA

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

INPPL1 ( NM_001260839.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> NP_001247768.1 Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), mRNA.

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CloneID	OMb03460
Clone ID Related Accession (Same CDS sequence)	NM_001260839.1
Accession Version	NM_001260839.1 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	2019-04-27
Organism	Macaca mulatta(Rhesus monkey)
Product	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 2
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from JU475481.1. On May 10, 2012 this sequence version replaced XM_001114794.2. ##Evidence-Data-START## Transcript exon combination :: JU475481.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA4688315, SAMEA4688317 [ECO:0000348] ##Evidence-Data-END##

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGTATCAGA AGCATGTGCA CACATATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT 
GTACAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGCGA GCTCATCGGC 
CTCTATGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGGGAG 
CGAGAGCCGG ACCCGCCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG 
CTGCCACCAC GCTCTGGCTC CACCAGCATT TCTGCCACCA CTGGGCCCAG CAGTCCCCTG 
TCAGTCCCTG AGACTCCCAC AACTCCAGCT GCTGAGAGTG CTCCCAATGG ACTGAGCACC 
GTCTCGCACG AGTACCTGAA AGGCAGCTAC GGGCTGGACC TGGAGGCTGT GCGGGGTGGA 
GCCAGCCACC TGCCCCACCT CACTCGTACC CTCGCCACCT CATGCCGGAG GCTGCACAGT 
GAGGTGGACA AAGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC 
TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA 
CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG 
AAGGCCCTAA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCGGCTCC GCAGCCATCC 
ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG 
GGTGACCTGA CCAAGATTGG GAAGTCGCAG AAGTTCACAC TGAGCGTAGA TGTGGAGGGT 
GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG 
CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG 
TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG 
CGGGAGGCCT TCTGCCAGCT GCTGCAGCTC ATGAAGAACA AACACTCCAA GCAGGATGAG 
CCCGACATGA TCTCCATCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA 
AATGTGACAT CCTGGTTCAC ATCGAGGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG 
ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG TGACCGCGAG 
TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT 
GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC 
CGTATCAGCC ACGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAATAC CCTGGGGAAC 
AAGGGGGCTG TGGGAGTCTC CTTCATGTTC AATGGCACCT CATTTGGCTT TGTGAATTGT 
CACCTTACCT CAGGAAATGA GAAGACGGCT CGGAGGAACC AGAACTACTT GGACATCCTG 
CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AGTGCCTTTG ACATCTCTCT GCGTTTCACA 
CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG 
AACTACATCA GCAGGAAGGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACTTGGAG 
CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC 
TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG 
GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT 
CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGTGA CCACTCCCCT 
GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCG 
AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC 
AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC 
TTTGAGAATG ATGCCCAAAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA 
CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC 
CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAATG TGTGGTTGCA 
CTCAAGTCCA TGATTGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTGTC CCACCGTGGC 
GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC 
ACCCGTGAGC GGCTCTACGA ATGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC 
AAAGCCCCCT CTGTGTCCCG AGGGATCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC 
TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTCGAAG AACCAGAGAA ACCTCCACCA 
ACTGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG 
TTGAAGCCAG AGGGAACTCC TGAACCAGAA GGGGTGGCCG CCCCCCCACC CAAGAACAGC 
TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCAC ACCAGCTGCT GCCCCCGGAG 
CCACCCTCGC CTGCCAGGGC CCCTGTCCCA CCTGCCACGA AGAACAAAGT GGCCATTACA 
GTGCCTGCTC CACAGCTTGG GCGCCACAGG CCACCTCGTG TGGGAGAGGG GAGTTCTTCA 
GATGAAGAGT CTGGAGGCAC GCTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC 
TCAGCCATCT TCCTGTCACC TAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT 
GGTGGGGGTG AGGCCCGTGG CCCGCCGCCT CCCAAGGCCC ATCCAAGGCC CCCACTGCCC 
CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCGGTGGGGA TGACCGGTCC 
TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTACGCCCC TGCTGGGCCC 
GCACGCTCAG CACTCCTCCC AGGCCCCCTG GAGCTGCAGC CACACCGGGG ACTGTCCTCG 
GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC 
CTGGCAGAGG AGGCTCCGTG CCCGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC 
ATGGGTGCCT GGCTGCGGGC TATCGGCTTG 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_001247768.1
CDS	143..3919
Translation	MASACGAPGPGGALGSQAPSWYHRDLSRAAAEELLARAGRDGSFLVRDSESVAGAFALCVLYQKHVHTYRILPDGEDFLAVQTSQGVPVRRFQTLGELIGLYAQPNQGLVCALLLPVEGEREPDPPDDRDASDGEDEKPPLPPRSGSTSISATTGPSSPLSVPETPTTPAAESAPNGLSTVSHEYLKGSYGLDLEAVRGGASHLPHLTRTLATSCRRLHSEVDKVLSGLEILSKVFDQQSSPMVTRLLQQQNLPQTGEQELESLVLKLSVLKDFLSGIQKKALKALQDMSSTAPPAPQPSTRKAKTIPVQAFEVKLDVTLGDLTKIGKSQKFTLSVDVEGGRLVLLRRQRDSQEDWTTFTHDRIRQLIKSQRVQNKLGVVFEKEKDRTQRKDFIFVSARKREAFCQLLQLMKNKHSKQDEPDMISIFIGTWNMGSVPPPKNVTSWFTSRGLGKTLDEVTVTIPHDIYVFGTQENSVGDREWLDLLRGGLKELTDLDYRPIAMQSLWNIKVAVLVKPEHENRISHVSTSSVKTGIANTLGNKGAVGVSFMFNGTSFGFVNCHLTSGNEKTARRNQNYLDILRLLSLGDRQLSAFDISLRFTHLFWFGDLNYRLDMDIQEILNYISRKEFEPLLRVDQLNLEREKHKVFLRFSEEEISFPPTYRYERGSRDTYAWHKQKPTGVRTNVPSWCDRILWKSYPETHIICNSYGCTDDIVTSDHSPVFGTFEVGVTSQFISKKGLSKTSDQAYIEFESIEAIVKTASRTKFFIEFYSTCLEEYKKSFENDAQSSDNINFLKVQWSSRQLPTLKPILADIEYLQDQHLLLTVKSMDGYESYGECVVALKSMIGSTAQQFLTFLSHRGEETGNIRGSMKVRVPTERLGTRERLYEWISIDKDEAGAKSKAPSVSRGIQEPRSGSRKPAFTEASCPLSRLFEEPEKPPPTGRPPAPPRAAPREEPLTPRLKPEGTPEPEGVAAPPPKNSFNNPAYYVLEGVPHQLLPPEPPSPARAPVPPATKNKVAITVPAPQLGRHRPPRVGEGSSSDEESGGTLPPPDFPPPPLPDSAIFLSPSLDPLPGPVVRGRGGGEARGPPPPKAHPRPPLPPGPSPASTFLGEVAGGDDRSCSVLQMAKTLSEVDYAPAGPARSALLPGPLELQPHRGLSSDYGRPLSFPPPRIRESIQEDLAEEAPCPQGGRASGLGEAGMGAWLRAIGLERYEEGLVHNGWDDLEFLSDITEEDLEEAGVQDPAHKRLLLDTLQLSK

Target ORF information:

RefSeq Version	NM_001260839.1
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

NM_001260839.1

ORF Insert Sequence:

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGTATCAGA AGCATGTGCA CACATATCGC ATTCTGCCTG ATGGAGAAGA TTTCTTGGCT 
GTACAGACCT CGCAGGGTGT GCCTGTGCGC CGCTTCCAGA CCCTGGGCGA GCTCATCGGC 
CTCTATGCCC AGCCCAACCA GGGCCTTGTG TGCGCCCTGC TTCTTCCTGT AGAGGGGGAG 
CGAGAGCCGG ACCCGCCGGA TGACCGGGAT GCCTCAGATG GGGAGGATGA GAAGCCCCCG 
CTGCCACCAC GCTCTGGCTC CACCAGCATT TCTGCCACCA CTGGGCCCAG CAGTCCCCTG 
TCAGTCCCTG AGACTCCCAC AACTCCAGCT GCTGAGAGTG CTCCCAATGG ACTGAGCACC 
GTCTCGCACG AGTACCTGAA AGGCAGCTAC GGGCTGGACC TGGAGGCTGT GCGGGGTGGA 
GCCAGCCACC TGCCCCACCT CACTCGTACC CTCGCCACCT CATGCCGGAG GCTGCACAGT 
GAGGTGGACA AAGTCCTGTC AGGCCTGGAG ATCCTGTCCA AGGTGTTTGA CCAGCAGAGC 
TCGCCCATGG TGACCCGCCT TTTGCAGCAG CAGAACCTGC CACAGACAGG GGAGCAGGAA 
CTAGAGAGCC TGGTGCTGAA GCTGTCAGTG CTAAAGGACT TCCTGTCAGG CATCCAGAAG 
AAGGCCCTAA AGGCCCTACA GGACATGAGC TCCACAGCAC CCCCGGCTCC GCAGCCATCC 
ACACGTAAGG CCAAGACCAT CCCCGTGCAG GCCTTTGAGG TGAAGCTAGA TGTGACCCTG 
GGTGACCTGA CCAAGATTGG GAAGTCGCAG AAGTTCACAC TGAGCGTAGA TGTGGAGGGT 
GGGCGGCTGG TGCTGCTGCG GAGACAGCGG GACTCCCAGG AGGACTGGAC CACCTTCACG 
CACGACCGCA TCCGCCAGCT CATTAAGTCC CAGCGTGTCC AGAACAAGCT GGGTGTTGTG 
TTTGAGAAGG AGAAGGACCG GACTCAGCGC AAGGACTTCA TCTTTGTCAG TGCCCGGAAG 
CGGGAGGCCT TCTGCCAGCT GCTGCAGCTC ATGAAGAACA AACACTCCAA GCAGGATGAG 
CCCGACATGA TCTCCATCTT CATAGGCACC TGGAACATGG GAAGTGTACC ACCTCCAAAA 
AATGTGACAT CCTGGTTCAC ATCGAGGGGT CTGGGGAAGA CCCTGGACGA GGTCACAGTG 
ACCATACCCC ATGACATCTA TGTCTTTGGG ACCCAGGAGA ACTCAGTGGG TGACCGCGAG 
TGGCTGGACC TACTGCGCGG GGGCCTCAAG GAGCTTACGG ATCTGGATTA CCGCCCGATT 
GCCATGCAAT CACTGTGGAA TATCAAGGTG GCAGTGCTGG TCAAGCCAGA GCACGAGAAC 
CGTATCAGCC ACGTCAGTAC GTCCAGTGTG AAGACTGGCA TCGCCAATAC CCTGGGGAAC 
AAGGGGGCTG TGGGAGTCTC CTTCATGTTC AATGGCACCT CATTTGGCTT TGTGAATTGT 
CACCTTACCT CAGGAAATGA GAAGACGGCT CGGAGGAACC AGAACTACTT GGACATCCTG 
CGGCTGCTCT CGCTGGGCGA CCGGCAGCTC AGTGCCTTTG ACATCTCTCT GCGTTTCACA 
CACCTCTTCT GGTTTGGGGA CCTCAACTAC CGCCTGGACA TGGATATCCA GGAGATCCTG 
AACTACATCA GCAGGAAGGA GTTTGAGCCC CTCCTCAGGG TGGACCAGCT CAACTTGGAG 
CGGGAGAAGC ACAAGGTCTT CCTTCGATTC AGTGAGGAGG AGATCTCCTT CCCACCCACC 
TACCGCTATG AGCGGGGTTC CCGGGACACA TATGCCTGGC ACAAGCAGAA GCCAACTGGG 
GTCCGGACCA ATGTGCCCTC ATGGTGTGAC CGGATTCTGT GGAAATCCTA CCCTGAAACT 
CACATCATCT GCAATTCTTA TGGTTGCACT GATGACATCG TCACCAGTGA CCACTCCCCT 
GTGTTTGGGA CATTTGAGGT TGGAGTTACC TCCCAGTTCA TCTCCAAGAA AGGGCTCTCG 
AAGACTTCAG ACCAGGCCTA CATTGAGTTT GAGAGCATCG AGGCCATTGT GAAGACAGCC 
AGCCGCACCA AGTTCTTCAT CGAGTTCTAC TCTACCTGCC TGGAGGAATA CAAGAAGAGC 
TTTGAGAATG ATGCCCAAAG CAGTGACAAC ATCAACTTCC TCAAAGTGCA GTGGTCTTCA 
CGCCAGCTGC CCACGCTCAA ACCAATTCTG GCTGATATCG AGTACCTGCA GGACCAGCAC 
CTCCTGCTCA CAGTCAAGTC CATGGATGGC TATGAATCCT ATGGGGAATG TGTGGTTGCA 
CTCAAGTCCA TGATTGGCAG CACGGCCCAA CAGTTCCTGA CCTTCCTGTC CCACCGTGGC 
GAGGAGACAG GCAATATCAG AGGCTCCATG AAGGTGCGGG TGCCCACGGA GCGCCTGGGC 
ACCCGTGAGC GGCTCTACGA ATGGATCAGC ATTGATAAGG ATGAGGCAGG AGCAAAGAGC 
AAAGCCCCCT CTGTGTCCCG AGGGATCCAG GAGCCCAGGT CAGGGAGCCG CAAGCCAGCC 
TTCACAGAGG CCTCCTGCCC GCTCTCCAGG TTATTCGAAG AACCAGAGAA ACCTCCACCA 
ACTGGGAGGC CCCCAGCCCC ACCCCGAGCA GCTCCCCGGG AGGAGCCCTT GACCCCCAGG 
TTGAAGCCAG AGGGAACTCC TGAACCAGAA GGGGTGGCCG CCCCCCCACC CAAGAACAGC 
TTCAATAACC CTGCCTACTA CGTCCTTGAA GGGGTCCCAC ACCAGCTGCT GCCCCCGGAG 
CCACCCTCGC CTGCCAGGGC CCCTGTCCCA CCTGCCACGA AGAACAAAGT GGCCATTACA 
GTGCCTGCTC CACAGCTTGG GCGCCACAGG CCACCTCGTG TGGGAGAGGG GAGTTCTTCA 
GATGAAGAGT CTGGAGGCAC GCTGCCCCCT CCAGACTTTC CACCTCCACC ACTGCCGGAC 
TCAGCCATCT TCCTGTCACC TAGCCTGGAT CCTTTACCAG GGCCAGTGGT CCGGGGCCGT 
GGTGGGGGTG AGGCCCGTGG CCCGCCGCCT CCCAAGGCCC ATCCAAGGCC CCCACTGCCC 
CCAGGCCCCT CACCAGCCAG CACTTTCCTG GGGGAAGTGG CCGGTGGGGA TGACCGGTCC 
TGCTCGGTGC TGCAGATGGC CAAGACGCTG AGCGAGGTGG ACTACGCCCC TGCTGGGCCC 
GCACGCTCAG CACTCCTCCC AGGCCCCCTG GAGCTGCAGC CACACCGGGG ACTGTCCTCG 
GACTATGGCC GGCCCCTCAG CTTCCCTCCA CCCCGCATCC GGGAGAGCAT CCAGGAAGAC 
CTGGCAGAGG AGGCTCCGTG CCCGCAGGGC GGGCGGGCCA GCGGGCTGGG CGAGGCAGGC 
ATGGGTGCCT GGCTGCGGGC TATCGGCTTG 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.

INPPL1 ( XM_015115130.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014970616.1 Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X1, mRNA.

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CloneID	OMb47452
Clone ID Related Accession (Same CDS sequence)	XM_015115130.1
Accession Version	XM_015115130.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3948bp) 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	2015-12-20
Organism	Macaca mulatta(Rhesus monkey)
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 (NW_014805465.1) 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 :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGAGCCTTG AGGGCAGAGG ATATGGGGTT CTGCGGCCCA GTGTGACTGT GATGGACGAA 
ACATTCGGGC ATTCCCCGGC AGACCCCTTC AGGCATCCTC CAGGTAGAAG TGAGCAGGGG 
AGAGGATGTG CATTCCACGT TGTGTGCAGT CCCGTTTGGA TAGGGACTGA GTGGTATCAG 
AAGCATGTGC ACACATATCG CATTCTGCCT GATGGAGAAG ATTTCTTGGC TGTACAGACC 
TCGCAGGGTG TGCCTGTGCG CCGCTTCCAG ACCCTGGGCG AGCTCATCGG CCTCTATGCC 
CAGCCCAACC AGGGCCTTGT GTGCGCCCTG CTTCTTCCTG TAGAGGGGGA GCGAGAGCCG 
GACCCGCCGG ATGACCGGGA TGCCTCAGAT GGGGAGGATG AGAAGCCCCC GCTGCCACCA 
CGCTCTGGCT CCACCAGCAT TTCTGCCACC ACTGGGCCCA GCAGTCCCCT GTCAGTCCCT 
GAGACTCCCA CAACTCCAGC TGCTGAGAGT GCTCCCAATG GACTGAGCAC CGTCTCGCAC 
GAGTACCTGA AAGGCAGCTA CGGGCTGGAC CTGGAGGCTG TGCGGGGTGG AGCCAGCCAC 
CTGCCCCACC TCACTCGTAC CCTCGCCACC TCATGCCGGA GGCTGCACAG TGAGGTGGAC 
AAAGTCCTGT CAGGCCTGGA GATCCTGTCC AAGGTGTTTG ACCAGCAGAG CTCGCCCATG 
GTGACCCGCC TTTTGCAGCA GCAGAACCTG CCACAGACAG GGGAGCAGGA ACTAGAGAGC 
CTGGTGCTGA AGCTGTCAGT GCTAAAGGAC TTCCTGTCAG GCATCCAGAA GAAGGCCCTA 
AAGGCCCTAC AGGACATGAG CTCCACAGCA CCCCCGGCTC CGCAGCCATC CACACGTAAG 
GCCAAGACCA TCCCCGTGCA GGCCTTTGAG GTGAAGCTAG ATGTGACCCT GGGTGACCTG 
ACCAAGATTG GGAAGTCGCA GAAGTTCACA CTGAGCGTAG ATGTGGAGGG TGGGCGGCTG 
GTGCTGCTGC GGAGACAGCG GGACTCCCAG GAGGACTGGA CCACCTTCAC GCACGACCGC 
ATCCGCCAGC TCATTAAGTC CCAGCGTGTC CAGAACAAGC TGGGTGTTGT GTTTGAGAAG 
GAGAAGGACC GGACTCAGCG CAAGGACTTC ATCTTTGTCA GTGCCCGGAA GCGGGAGGCC 
TTCTGCCAGC TGCTGCAGCT CATGAAGAAC AAACACTCCA AGCAGGATGA GCCCGACATG 
ATCTCCATCT TCATAGGCAC CTGGAACATG GGAAGTGTAC CACCTCCAAA AAATGTGACA 
TCCTGGTTCA CATCGAGGGG TCTGGGGAAG ACCCTGGACG AGGTCACAGT GACCATACCC 
CATGACATCT ATGTCTTTGG GACCCAGGAG AACTCAGTGG GTGACCGCGA GTGGCTGGAC 
CTACTGCGCG GGGGCCTCAA GGAGCTTACG GATCTGGATT ACCGCCCGAT TGCCATGCAA 
TCACTGTGGA ATATCAAGGT GGCAGTGCTG GTCAAGCCAG AGCACGAGAA CCGTATCAGC 
CACGTCAGTA CGTCCAGTGT GAAGACTGGC ATCGCCAATA CCCTGGGGAA CAAGGGGGCT 
GTGGGAGTCT CCTTCATGTT CAATGGCACC TCATTTGGCT TTGTGAATTG TCACCTTACC 
TCAGGAAATG AGAAGACGGC TCGGAGGAAC CAGAACTACT TGGACATCCT GCGGCTGCTC 
TCGCTGGGCG ACCGGCAGCT CAGTGCCTTT GACATCTCTC TGCGTTTCAC ACACCTCTTC 
TGGTTTGGGG ACCTCAACTA CCGCCTGGAC ATGGATATCC AGGAGATCCT GAACTACATC 
AGCAGGAAGG AGTTTGAGCC CCTCCTCAGG GTGGACCAGC TCAACTTGGA GCGGGAGAAG 
CACAAGGTCT TCCTTCGATT CAGTGAGGAG GAGATCTCCT TCCCACCCAC CTACCGCTAT 
GAGCGGGGTT CCCGGGACAC ATATGCCTGG CACAAGCAGA AGCCAACTGG GGTCCGGACC 
AATGTGCCCT CATGGTGTGA CCGGATTCTG TGGAAATCCT ACCCTGAAAC TCACATCATC 
TGCAATTCTT ATGGTTGCAC TGATGACATC GTCACCAGTG ACCACTCCCC TGTGTTTGGG 
ACATTTGAGG TTGGAGTTAC CTCCCAGTTC ATCTCCAAGA AAGGGCTCTC GAAGACTTCA 
GACCAGGCCT ACATTGAGTT TGAGAGCATC GAGGCCATTG TGAAGACAGC CAGCCGCACC 
AAGTTCTTCA TCGAGTTCTA CTCTACCTGC CTGGAGGAAT ACAAGAAGAG CTTTGAGAAT 
GATGCCCAAA GCAGTGACAA CATCAACTTC CTCAAAGTGC AGTGGTCTTC ACGCCAGCTG 
CCCACGCTCA AACCAATTCT GGCTGATATC GAGTACCTGC AGGACCAGCA CCTCCTGCTC 
ACAGTCAAGT CCATGGATGG CTATGAATCC TATGGGGAAT GTGTGGTTGC ACTCAAGTCC 
ATGATTGGCA GCACGGCCCA ACAGTTCCTG ACCTTCCTGT CCCACCGTGG CGAGGAGACA 
GGCAATATCA GAGGCTCCAT GAAGGTGCGG GTGCCCACGG AGCGCCTGGG CACCCGTGAG 
CGGCTCTACG AATGGATCAG CATTGATAAG GATGAGGCAG GAGCAAAGAG CAAAGCCCCC 
TCTGTGTCCC GAGGGATCCA GGAGCCCAGG TCAGGGAGCC GCAAGCCAGC CTTCACAGAG 
GCCTCCTGCC CGCTCTCCAG GTTATTCGAA GAACCAGAGA AACCTCCACC AACTGGGAGG 
CCCCCAGCCC CACCCCGAGC AGCTCCCCGG GAGGAGCCCT TGACCCCCAG GTTGAAGCCA 
GAGGGAACTC CTGAACCAGA AGGGGTGGCC GCCCCCCCAC CCAAGAACAG CTTCAATAAC 
CCTGCCTACT ACGTCCTTGA AGGGGTCCCA CACCAGCTGC TGCCCCCGGA GCCACCCTCG 
CCTGCCAGGG CCCCTGTCCC ACCTGCCACG AAGAACAAAG TGGCCATTAC AGTGCCTGCT 
CCACAGCTTG GGCGCCACAG GCCACCTCGT GTGGGAGAGG GGAGTTCTTC AGATGAAGAG 
TCTGGAGGCA CGCTGCCCCC TCCAGACTTT CCACCTCCAC CACTGCCGGA CTCAGCCATC 
TTCCTGTCAC CTAGCCTGGA TCCTTTACCA GGGCCAGTGG TCCGGGGCCG TGGTGGGGGT 
GAGGCCCGTG GCCCGCCGCC TCCCAAGGCC CATCCAAGGC CCCCACTGCC CCCAGGCCCC 
TCACCAGCCA GCACTTTCCT GGGGGAAGTG GCCGGTGGGG ATGACCGGTC CTGCTCGGTG 
CTGCAGATGG CCAAGACGCT GAGCGAGGTG GACTACGCCC CTGCTGGGCC CGCACGCTCA 
GCACTCCTCC CAGGCCCCCT GGAGCTGCAG CCACACCGGG GACTGTCCTC GGACTATGGC 
CGGCCCCTCA GCTTCCCTCC ACCCCGCATC CGGGAGAGCA TCCAGGAAGA CCTGGCAGAG 
GAGGCTCCGT GCCCGCAGGG CGGGCGGGCC AGCGGGCTGG GCGAGGCAGG CATGGGTGCC 
TGGCTGCGGG CTATCGGCTT GGAGCGCTAT GAGGAGGGCC TGGTGCATAA TGGCTGGGAC 
GACCTGGAGT TTCTCAGTGA CATCACCGAG GAGGACTTGG AGGAGGCTGG GGTGCAGGAC 
CCGGCTCACA AGCGCCTCCT TCTGGACACC CTGCAGCTCA GCAAGTGA

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

RefSeq	XP_014970616.1
CDS	211..4158
Translation	MASACGAPGPGGALGSQAPSWYHRDLSRAAAEELLARAGRDGSFLVRDSESVAGAFALCVLSLEGRGYGVLRPSVTVMDETFGHSPADPFRHPPGRSEQGRGCAFHVVCSPVWIGTEWYQKHVHTYRILPDGEDFLAVQTSQGVPVRRFQTLGELIGLYAQPNQGLVCALLLPVEGEREPDPPDDRDASDGEDEKPPLPPRSGSTSISATTGPSSPLSVPETPTTPAAESAPNGLSTVSHEYLKGSYGLDLEAVRGGASHLPHLTRTLATSCRRLHSEVDKVLSGLEILSKVFDQQSSPMVTRLLQQQNLPQTGEQELESLVLKLSVLKDFLSGIQKKALKALQDMSSTAPPAPQPSTRKAKTIPVQAFEVKLDVTLGDLTKIGKSQKFTLSVDVEGGRLVLLRRQRDSQEDWTTFTHDRIRQLIKSQRVQNKLGVVFEKEKDRTQRKDFIFVSARKREAFCQLLQLMKNKHSKQDEPDMISIFIGTWNMGSVPPPKNVTSWFTSRGLGKTLDEVTVTIPHDIYVFGTQENSVGDREWLDLLRGGLKELTDLDYRPIAMQSLWNIKVAVLVKPEHENRISHVSTSSVKTGIANTLGNKGAVGVSFMFNGTSFGFVNCHLTSGNEKTARRNQNYLDILRLLSLGDRQLSAFDISLRFTHLFWFGDLNYRLDMDIQEILNYISRKEFEPLLRVDQLNLEREKHKVFLRFSEEEISFPPTYRYERGSRDTYAWHKQKPTGVRTNVPSWCDRILWKSYPETHIICNSYGCTDDIVTSDHSPVFGTFEVGVTSQFISKKGLSKTSDQAYIEFESIEAIVKTASRTKFFIEFYSTCLEEYKKSFENDAQSSDNINFLKVQWSSRQLPTLKPILADIEYLQDQHLLLTVKSMDGYESYGECVVALKSMIGSTAQQFLTFLSHRGEETGNIRGSMKVRVPTERLGTRERLYEWISIDKDEAGAKSKAPSVSRGIQEPRSGSRKPAFTEASCPLSRLFEEPEKPPPTGRPPAPPRAAPREEPLTPRLKPEGTPEPEGVAAPPPKNSFNNPAYYVLEGVPHQLLPPEPPSPARAPVPPATKNKVAITVPAPQLGRHRPPRVGEGSSSDEESGGTLPPPDFPPPPLPDSAIFLSPSLDPLPGPVVRGRGGGEARGPPPPKAHPRPPLPPGPSPASTFLGEVAGGDDRSCSVLQMAKTLSEVDYAPAGPARSALLPGPLELQPHRGLSSDYGRPLSFPPPRIRESIQEDLAEEAPCPQGGRASGLGEAGMGAWLRAIGLERYEEGLVHNGWDDLEFLSDITEEDLEEAGVQDPAHKRLLLDTLQLSK

Target ORF information:

RefSeq Version	XM_015115130.1
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X1, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_015115130.1

ORF Insert Sequence:

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGAGCCTTG AGGGCAGAGG ATATGGGGTT CTGCGGCCCA GTGTGACTGT GATGGACGAA 
ACATTCGGGC ATTCCCCGGC AGACCCCTTC AGGCATCCTC CAGGTAGAAG TGAGCAGGGG 
AGAGGATGTG CATTCCACGT TGTGTGCAGT CCCGTTTGGA TAGGGACTGA GTGGTATCAG 
AAGCATGTGC ACACATATCG CATTCTGCCT GATGGAGAAG ATTTCTTGGC TGTACAGACC 
TCGCAGGGTG TGCCTGTGCG CCGCTTCCAG ACCCTGGGCG AGCTCATCGG CCTCTATGCC 
CAGCCCAACC AGGGCCTTGT GTGCGCCCTG CTTCTTCCTG TAGAGGGGGA GCGAGAGCCG 
GACCCGCCGG ATGACCGGGA TGCCTCAGAT GGGGAGGATG AGAAGCCCCC GCTGCCACCA 
CGCTCTGGCT CCACCAGCAT TTCTGCCACC ACTGGGCCCA GCAGTCCCCT GTCAGTCCCT 
GAGACTCCCA CAACTCCAGC TGCTGAGAGT GCTCCCAATG GACTGAGCAC CGTCTCGCAC 
GAGTACCTGA AAGGCAGCTA CGGGCTGGAC CTGGAGGCTG TGCGGGGTGG AGCCAGCCAC 
CTGCCCCACC TCACTCGTAC CCTCGCCACC TCATGCCGGA GGCTGCACAG TGAGGTGGAC 
AAAGTCCTGT CAGGCCTGGA GATCCTGTCC AAGGTGTTTG ACCAGCAGAG CTCGCCCATG 
GTGACCCGCC TTTTGCAGCA GCAGAACCTG CCACAGACAG GGGAGCAGGA ACTAGAGAGC 
CTGGTGCTGA AGCTGTCAGT GCTAAAGGAC TTCCTGTCAG GCATCCAGAA GAAGGCCCTA 
AAGGCCCTAC AGGACATGAG CTCCACAGCA CCCCCGGCTC CGCAGCCATC CACACGTAAG 
GCCAAGACCA TCCCCGTGCA GGCCTTTGAG GTGAAGCTAG ATGTGACCCT GGGTGACCTG 
ACCAAGATTG GGAAGTCGCA GAAGTTCACA CTGAGCGTAG ATGTGGAGGG TGGGCGGCTG 
GTGCTGCTGC GGAGACAGCG GGACTCCCAG GAGGACTGGA CCACCTTCAC GCACGACCGC 
ATCCGCCAGC TCATTAAGTC CCAGCGTGTC CAGAACAAGC TGGGTGTTGT GTTTGAGAAG 
GAGAAGGACC GGACTCAGCG CAAGGACTTC ATCTTTGTCA GTGCCCGGAA GCGGGAGGCC 
TTCTGCCAGC TGCTGCAGCT CATGAAGAAC AAACACTCCA AGCAGGATGA GCCCGACATG 
ATCTCCATCT TCATAGGCAC CTGGAACATG GGAAGTGTAC CACCTCCAAA AAATGTGACA 
TCCTGGTTCA CATCGAGGGG TCTGGGGAAG ACCCTGGACG AGGTCACAGT GACCATACCC 
CATGACATCT ATGTCTTTGG GACCCAGGAG AACTCAGTGG GTGACCGCGA GTGGCTGGAC 
CTACTGCGCG GGGGCCTCAA GGAGCTTACG GATCTGGATT ACCGCCCGAT TGCCATGCAA 
TCACTGTGGA ATATCAAGGT GGCAGTGCTG GTCAAGCCAG AGCACGAGAA CCGTATCAGC 
CACGTCAGTA CGTCCAGTGT GAAGACTGGC ATCGCCAATA CCCTGGGGAA CAAGGGGGCT 
GTGGGAGTCT CCTTCATGTT CAATGGCACC TCATTTGGCT TTGTGAATTG TCACCTTACC 
TCAGGAAATG AGAAGACGGC TCGGAGGAAC CAGAACTACT TGGACATCCT GCGGCTGCTC 
TCGCTGGGCG ACCGGCAGCT CAGTGCCTTT GACATCTCTC TGCGTTTCAC ACACCTCTTC 
TGGTTTGGGG ACCTCAACTA CCGCCTGGAC ATGGATATCC AGGAGATCCT GAACTACATC 
AGCAGGAAGG AGTTTGAGCC CCTCCTCAGG GTGGACCAGC TCAACTTGGA GCGGGAGAAG 
CACAAGGTCT TCCTTCGATT CAGTGAGGAG GAGATCTCCT TCCCACCCAC CTACCGCTAT 
GAGCGGGGTT CCCGGGACAC ATATGCCTGG CACAAGCAGA AGCCAACTGG GGTCCGGACC 
AATGTGCCCT CATGGTGTGA CCGGATTCTG TGGAAATCCT ACCCTGAAAC TCACATCATC 
TGCAATTCTT ATGGTTGCAC TGATGACATC GTCACCAGTG ACCACTCCCC TGTGTTTGGG 
ACATTTGAGG TTGGAGTTAC CTCCCAGTTC ATCTCCAAGA AAGGGCTCTC GAAGACTTCA 
GACCAGGCCT ACATTGAGTT TGAGAGCATC GAGGCCATTG TGAAGACAGC CAGCCGCACC 
AAGTTCTTCA TCGAGTTCTA CTCTACCTGC CTGGAGGAAT ACAAGAAGAG CTTTGAGAAT 
GATGCCCAAA GCAGTGACAA CATCAACTTC CTCAAAGTGC AGTGGTCTTC ACGCCAGCTG 
CCCACGCTCA AACCAATTCT GGCTGATATC GAGTACCTGC AGGACCAGCA CCTCCTGCTC 
ACAGTCAAGT CCATGGATGG CTATGAATCC TATGGGGAAT GTGTGGTTGC ACTCAAGTCC 
ATGATTGGCA GCACGGCCCA ACAGTTCCTG ACCTTCCTGT CCCACCGTGG CGAGGAGACA 
GGCAATATCA GAGGCTCCAT GAAGGTGCGG GTGCCCACGG AGCGCCTGGG CACCCGTGAG 
CGGCTCTACG AATGGATCAG CATTGATAAG GATGAGGCAG GAGCAAAGAG CAAAGCCCCC 
TCTGTGTCCC GAGGGATCCA GGAGCCCAGG TCAGGGAGCC GCAAGCCAGC CTTCACAGAG 
GCCTCCTGCC CGCTCTCCAG GTTATTCGAA GAACCAGAGA AACCTCCACC AACTGGGAGG 
CCCCCAGCCC CACCCCGAGC AGCTCCCCGG GAGGAGCCCT TGACCCCCAG GTTGAAGCCA 
GAGGGAACTC CTGAACCAGA AGGGGTGGCC GCCCCCCCAC CCAAGAACAG CTTCAATAAC 
CCTGCCTACT ACGTCCTTGA AGGGGTCCCA CACCAGCTGC TGCCCCCGGA GCCACCCTCG 
CCTGCCAGGG CCCCTGTCCC ACCTGCCACG AAGAACAAAG TGGCCATTAC AGTGCCTGCT 
CCACAGCTTG GGCGCCACAG GCCACCTCGT GTGGGAGAGG GGAGTTCTTC AGATGAAGAG 
TCTGGAGGCA CGCTGCCCCC TCCAGACTTT CCACCTCCAC CACTGCCGGA CTCAGCCATC 
TTCCTGTCAC CTAGCCTGGA TCCTTTACCA GGGCCAGTGG TCCGGGGCCG TGGTGGGGGT 
GAGGCCCGTG GCCCGCCGCC TCCCAAGGCC CATCCAAGGC CCCCACTGCC CCCAGGCCCC 
TCACCAGCCA GCACTTTCCT GGGGGAAGTG GCCGGTGGGG ATGACCGGTC CTGCTCGGTG 
CTGCAGATGG CCAAGACGCT GAGCGAGGTG GACTACGCCC CTGCTGGGCC CGCACGCTCA 
GCACTCCTCC CAGGCCCCCT GGAGCTGCAG CCACACCGGG GACTGTCCTC GGACTATGGC 
CGGCCCCTCA GCTTCCCTCC ACCCCGCATC CGGGAGAGCA TCCAGGAAGA CCTGGCAGAG 
GAGGCTCCGT GCCCGCAGGG CGGGCGGGCC AGCGGGCTGG GCGAGGCAGG CATGGGTGCC 
TGGCTGCGGG CTATCGGCTT GGAGCGCTAT GAGGAGGGCC TGGTGCATAA TGGCTGGGAC 
GACCTGGAGT TTCTCAGTGA CATCACCGAG GAGGACTTGG AGGAGGCTGG GGTGCAGGAC 
CCGGCTCACA AGCGCCTCCT TCTGGACACC CTGCAGCTCA GCAAGTGA

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

INPPL1 ( XM_015115131.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014970617.1 Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA.

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CloneID	OMb47453
Clone ID Related Accession (Same CDS sequence)	XM_015115131.1
Accession Version	XM_015115131.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3726bp) 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	2015-12-20
Organism	Macaca mulatta(Rhesus monkey)
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 (NW_014805465.1) 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 :: Macaca mulatta Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.5 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGAGCCTTG AGGGCAGAGG ATATGGGGTT CTGCGGCCCA GTGTGACTGT GATGGACGAA 
ACATTCGGGC ATTCCCCGGC AGACCCCTTC AGGCATCCTC CAGGTAGAAG TGAGCAGGGG 
AGAGGATGTG CATTCCACGT TGTGTGCAGT CCCGTTTGGA TAGGGACTGA GTGGTATCAG 
AAGCATGTGC ACACATATCG CATTCTGCCT GATGGAGAAG ATTTCTTGGC TGTACAGACC 
TCGCAGGGTG TGCCTGTGCG CCGCTTCCAG ACCCTGGGCG AGCTCATCGG CCTCTATGCC 
CAGCCCAACC AGGGCCTTGT GTGCGCCCTG CTTCTTCCTG TAGAGGGGGA GCGAGAGCCG 
GACCCGCCGG ATGACCGGGA TGCCTCAGAT GGGGAGGATG AGAAGCCCCC GCTGCCACCA 
CGCTCTGGCT CCACCAGCAT TTCTGCCACC ACTGGGCCCA GCAGTCCCCT GTCAGTCCCT 
GAGACTCCCA CAACTCCAGC TGCTGAGAGT GCTCCCAATG GACTGAGCAC CGTCTCGCAC 
GAGTACCTGA AAGGCAGCTA CGGGCTGGAC CTGGAGGCTG TGCGGGGTGG AGCCAGCCAC 
CTGCCCCACC TCACTCGTAC CCTCGCCACC TCATGCCGGA GGCTGCACAG TGAGGTGGAC 
AAAGTCCTGT CAGGCCTGGA GATCCTGTCC AAGGTGTTTG ACCAGCAGAG CTCGCCCATG 
GTGACCCGCC TTTTGCAGCA GCAGAACCTG CCACAGACAG GGGAGCAGGA ACTAGAGAGC 
CTGGTGCTGA AGCTGTCAGT GCTAAAGGAC TTCCTGTCAG GCATCCAGAA GAAGGCCCTA 
AAGGCCCTAC AGGACATGAG CTCCACAGCA CCCCCGGCTC CGCAGCCATC CACACGTAAG 
GCCAAGACCA TCCCCGTGCA GGCCTTTGAG GTGAAGCTAG ATGTGACCCT GGGTGACCTG 
ACCAAGATTG GGAAGTCGCA GAAGTTCACA CTGAGCGTAG ATGTGGAGGG TGGGCGGCTG 
GTGCTGCTGC GGAGACAGCG GGACTCCCAG GAGGACTGGA CCACCTTCAC GCACGACCGC 
ATCCGCCAGC TCATTAAGTC CCAGCGTGTC CAGAACAAGC TGGGTGTTGT GTTTGAGAAG 
GAGAAGGACC GGACTCAGCG CAAGGACTTC ATCTTTGTCA GTGCCCGGAA GCGGGAGGCC 
TTCTGCCAGC TGCTGCAGCT CATGAAGAAC AAACACTCCA AGCAGGATGA GCCCGACATG 
ATCTCCATCT TCATAGGCAC CTGGAACATG GGAAGTGTAC CACCTCCAAA AAATGTGACA 
TCCTGGTTCA CATCGAGGGG TCTGGGGAAG ACCCTGGACG AGGTCACAGT GACCATACCC 
CATGACATCT ATGTCTTTGG GACCCAGGAG AACTCAGTGG GTGACCGCGA GTGGCTGGAC 
CTACTGCGCG GGGGCCTCAA GGAGCTTACG GATCTGGATT ACCGCCCGAT TGCCATGCAA 
TCACTGTGGA ATATCAAGGT GGCAGTGCTG GTCAAGCCAG AGCACGAGAA CCGTATCAGC 
CACGTCAGTA CGTCCAGTGT GAAGACTGGC ATCGCCAATA CCCTGGGGAA CAAGGGGGCT 
GTGGGAGTCT CCTTCATGTT CAATGGCACC TCATTTGGCT TTGTGAATTG TCACCTTACC 
TCAGGAAATG AGAAGACGGC TCGGAGGAAC CAGAACTACT TGGACATCCT GCGGCTGCTC 
TCGCTGGGCG ACCGGCAGCT CAGTGCCTTT GACATCTCTC TGCGTTTCAC ACACCTCTTC 
TGGTTTGGGG ACCTCAACTA CCGCCTGGAC ATGGATATCC AGGAGATCCT GAACTACATC 
AGCAGGAAGG AGTTTGAGCC CCTCCTCAGG GTGGACCAGC TCAACTTGGA GCGGGAGAAG 
CACAAGGTCT TCCTTCGATT CAGTGAGGAG GAGATCTCCT TCCCACCCAC CTACCGCTAT 
GAGCGGGGTT CCCGGGACAC ATATGCCTGG CACAAGCAGA AGCCAACTGG GGTCCGGACC 
AATGTGCCCT CATGGTGTGA CCGGATTCTG TGGAAATCCT ACCCTGAAAC TCACATCATC 
TGCAATTCTT ATGGTTGCAC TGATGACATC GTCACCAGTG ACCACTCCCC TGTGTTTGGG 
ACATTTGAGG TTGGAGTTAC CTCCCAGTTC ATCTCCAAGA AAGGGCTCTC GAAGACTTCA 
GACCAGGCCT ACATTGAGTT TGAGAGCATC GAGGCCATTG TGAAGACAGC CAGCCGCACC 
AAGTTCTTCA TCGAGTTCTA CTCTACCTGC CTGGAGGAAT ACAAGAAGAG CTTTGAGAAT 
GATGCCCAAA GCAGTGACAA CATCAACTTC CTCAAAGTGC AGTGGTCTTC ACGCCAGCTG 
CCCACGCTCA AACCAATTCT GGCTGATATC GAGTACCTGC AGGACCAGCA CCTCCTGCTC 
ACAGTCAAGT CCATGGATGG CTATGAATCC TATGGGGAAT GTGTGGTTGC ACTCAAGTCC 
ATGATTGGCA GCACGGCCCA ACAGTTCCTG ACCTTCCTGT CCCACCGTGG CGAGGAGACA 
GGCAATATCA GAGGCTCCAT GAAGGTGCGG GTGCCCACGG AGCGCCTGGG CACCCGTGAG 
CGGCTCTACG AATGGATCAG CATTGATAAG GATGAGGCAG GAGCAAAGAG CAAAGCCCCC 
TCTGTGTCCC GAGGGATCCA GGAGCCCAGG TCAGGGAGCC GCAAGCCAGC CTTCACAGAG 
GCCTCCTGCC CGCTCTCCAG GTTATTCGAA GAACCAGAGA AACCTCCACC AACTGGGAGG 
CCCCCAGCCC CACCCCGAGC AGCTCCCCGG GAGGAGCCCT TGACCCCCAG GTTGAAGCCA 
GAGGGAACTC CTGAACCAGA AGGGGTGGCC GCCCCCCCAC CCAAGAACAG CTTCAATAAC 
CCTGCCTACT ACGTCCTTGA AGGGGTCCCA CACCAGCTGC TGCCCCCGGA GCCACCCTCG 
CCTGCCAGGG CCCCTGTCCC ACCTGCCACG AAGAACAAAG TGGCCATTAC AGTGCCTGCT 
CCACAGCTTG GGCGCCACAG GCCACCTCGT GTGGGAGAGG GGAGTTCTTC AGATGAAGAG 
TCTGGAGGCA CGCTGCCCCC TCCAGACTTT CCACCTCCAC CACTGCCGGA CTCAGCCATC 
TTCCTGTCAC CTAGCCTGGA TCCTTTACCA GGGCCAGTGG TCCGGGGCCG TGGTGGGGGT 
GAGGCCCGTG GCCCGCCGCC TCCCAAGGCC CATCCAAGGC CCCCACTGCC CCCAGGCCCC 
TCACCAGCCA GCACTTTCCT GGGGGAAGTG GCCGGTGGGG ATGACCGGTC CTGCTCGGTG 
CTGCAGATGG CCAAGACGCT GAGCGAGGTG GACTACGCCC CTGCTGGGCC CGCACGCTCA 
GCACTCCTCC CAGGCCCCCT GGAGCTGCAG CCACACCGGG GACTGTCCTC GGACTATGGC 
CGGCCCCTCA GCTTCCCTCC ACCCCGCATC CGGGAGAGCA TCCAGGAAGA CCTGGCAGAG 
GAGTGA

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

RefSeq	XP_014970617.1
CDS	90..3815
Translation	MASACGAPGPGGALGSQAPSWYHRDLSRAAAEELLARAGRDGSFLVRDSESVAGAFALCVLSLEGRGYGVLRPSVTVMDETFGHSPADPFRHPPGRSEQGRGCAFHVVCSPVWIGTEWYQKHVHTYRILPDGEDFLAVQTSQGVPVRRFQTLGELIGLYAQPNQGLVCALLLPVEGEREPDPPDDRDASDGEDEKPPLPPRSGSTSISATTGPSSPLSVPETPTTPAAESAPNGLSTVSHEYLKGSYGLDLEAVRGGASHLPHLTRTLATSCRRLHSEVDKVLSGLEILSKVFDQQSSPMVTRLLQQQNLPQTGEQELESLVLKLSVLKDFLSGIQKKALKALQDMSSTAPPAPQPSTRKAKTIPVQAFEVKLDVTLGDLTKIGKSQKFTLSVDVEGGRLVLLRRQRDSQEDWTTFTHDRIRQLIKSQRVQNKLGVVFEKEKDRTQRKDFIFVSARKREAFCQLLQLMKNKHSKQDEPDMISIFIGTWNMGSVPPPKNVTSWFTSRGLGKTLDEVTVTIPHDIYVFGTQENSVGDREWLDLLRGGLKELTDLDYRPIAMQSLWNIKVAVLVKPEHENRISHVSTSSVKTGIANTLGNKGAVGVSFMFNGTSFGFVNCHLTSGNEKTARRNQNYLDILRLLSLGDRQLSAFDISLRFTHLFWFGDLNYRLDMDIQEILNYISRKEFEPLLRVDQLNLEREKHKVFLRFSEEEISFPPTYRYERGSRDTYAWHKQKPTGVRTNVPSWCDRILWKSYPETHIICNSYGCTDDIVTSDHSPVFGTFEVGVTSQFISKKGLSKTSDQAYIEFESIEAIVKTASRTKFFIEFYSTCLEEYKKSFENDAQSSDNINFLKVQWSSRQLPTLKPILADIEYLQDQHLLLTVKSMDGYESYGECVVALKSMIGSTAQQFLTFLSHRGEETGNIRGSMKVRVPTERLGTRERLYEWISIDKDEAGAKSKAPSVSRGIQEPRSGSRKPAFTEASCPLSRLFEEPEKPPPTGRPPAPPRAAPREEPLTPRLKPEGTPEPEGVAAPPPKNSFNNPAYYVLEGVPHQLLPPEPPSPARAPVPPATKNKVAITVPAPQLGRHRPPRVGEGSSSDEESGGTLPPPDFPPPPLPDSAIFLSPSLDPLPGPVVRGRGGGEARGPPPPKAHPRPPLPPGPSPASTFLGEVAGGDDRSCSVLQMAKTLSEVDYAPAGPARSALLPGPLELQPHRGLSSDYGRPLSFPPPRIRESIQEDLAEE

Target ORF information:

RefSeq Version	XM_015115131.1
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta inositol polyphosphate phosphatase like 1 (INPPL1), transcript variant X2, mRNA.

Target ORF information:

Epitope	DYKDDDDK
Bacterial selection	AMP^R
Mammalian selection	Neo^R
Vector	pcDNA3.1⁺/C-(K)DYK

XM_015115131.1

ORF Insert Sequence:

ATGGCCTCGG CCTGCGGGGC GCCGGGCCCG GGGGGCGCGC TGGGCAGCCA GGCCCCCTCC 
TGGTACCACC GCGACCTGAG CCGCGCGGCC GCGGAGGAGC TGCTGGCCCG GGCGGGCCGC 
GATGGCAGCT TCCTGGTCCG AGACAGCGAG AGCGTGGCGG GGGCCTTCGC GCTTTGCGTC 
CTGAGCCTTG AGGGCAGAGG ATATGGGGTT CTGCGGCCCA GTGTGACTGT GATGGACGAA 
ACATTCGGGC ATTCCCCGGC AGACCCCTTC AGGCATCCTC CAGGTAGAAG TGAGCAGGGG 
AGAGGATGTG CATTCCACGT TGTGTGCAGT CCCGTTTGGA TAGGGACTGA GTGGTATCAG 
AAGCATGTGC ACACATATCG CATTCTGCCT GATGGAGAAG ATTTCTTGGC TGTACAGACC 
TCGCAGGGTG TGCCTGTGCG CCGCTTCCAG ACCCTGGGCG AGCTCATCGG CCTCTATGCC 
CAGCCCAACC AGGGCCTTGT GTGCGCCCTG CTTCTTCCTG TAGAGGGGGA GCGAGAGCCG 
GACCCGCCGG ATGACCGGGA TGCCTCAGAT GGGGAGGATG AGAAGCCCCC GCTGCCACCA 
CGCTCTGGCT CCACCAGCAT TTCTGCCACC ACTGGGCCCA GCAGTCCCCT GTCAGTCCCT 
GAGACTCCCA CAACTCCAGC TGCTGAGAGT GCTCCCAATG GACTGAGCAC CGTCTCGCAC 
GAGTACCTGA AAGGCAGCTA CGGGCTGGAC CTGGAGGCTG TGCGGGGTGG AGCCAGCCAC 
CTGCCCCACC TCACTCGTAC CCTCGCCACC TCATGCCGGA GGCTGCACAG TGAGGTGGAC 
AAAGTCCTGT CAGGCCTGGA GATCCTGTCC AAGGTGTTTG ACCAGCAGAG CTCGCCCATG 
GTGACCCGCC TTTTGCAGCA GCAGAACCTG CCACAGACAG GGGAGCAGGA ACTAGAGAGC 
CTGGTGCTGA AGCTGTCAGT GCTAAAGGAC TTCCTGTCAG GCATCCAGAA GAAGGCCCTA 
AAGGCCCTAC AGGACATGAG CTCCACAGCA CCCCCGGCTC CGCAGCCATC CACACGTAAG 
GCCAAGACCA TCCCCGTGCA GGCCTTTGAG GTGAAGCTAG ATGTGACCCT GGGTGACCTG 
ACCAAGATTG GGAAGTCGCA GAAGTTCACA CTGAGCGTAG ATGTGGAGGG TGGGCGGCTG 
GTGCTGCTGC GGAGACAGCG GGACTCCCAG GAGGACTGGA CCACCTTCAC GCACGACCGC 
ATCCGCCAGC TCATTAAGTC CCAGCGTGTC CAGAACAAGC TGGGTGTTGT GTTTGAGAAG 
GAGAAGGACC GGACTCAGCG CAAGGACTTC ATCTTTGTCA GTGCCCGGAA GCGGGAGGCC 
TTCTGCCAGC TGCTGCAGCT CATGAAGAAC AAACACTCCA AGCAGGATGA GCCCGACATG 
ATCTCCATCT TCATAGGCAC CTGGAACATG GGAAGTGTAC CACCTCCAAA AAATGTGACA 
TCCTGGTTCA CATCGAGGGG TCTGGGGAAG ACCCTGGACG AGGTCACAGT GACCATACCC 
CATGACATCT ATGTCTTTGG GACCCAGGAG AACTCAGTGG GTGACCGCGA GTGGCTGGAC 
CTACTGCGCG GGGGCCTCAA GGAGCTTACG GATCTGGATT ACCGCCCGAT TGCCATGCAA 
TCACTGTGGA ATATCAAGGT GGCAGTGCTG GTCAAGCCAG AGCACGAGAA CCGTATCAGC 
CACGTCAGTA CGTCCAGTGT GAAGACTGGC ATCGCCAATA CCCTGGGGAA CAAGGGGGCT 
GTGGGAGTCT CCTTCATGTT CAATGGCACC TCATTTGGCT TTGTGAATTG TCACCTTACC 
TCAGGAAATG AGAAGACGGC TCGGAGGAAC CAGAACTACT TGGACATCCT GCGGCTGCTC 
TCGCTGGGCG ACCGGCAGCT CAGTGCCTTT GACATCTCTC TGCGTTTCAC ACACCTCTTC 
TGGTTTGGGG ACCTCAACTA CCGCCTGGAC ATGGATATCC AGGAGATCCT GAACTACATC 
AGCAGGAAGG AGTTTGAGCC CCTCCTCAGG GTGGACCAGC TCAACTTGGA GCGGGAGAAG 
CACAAGGTCT TCCTTCGATT CAGTGAGGAG GAGATCTCCT TCCCACCCAC CTACCGCTAT 
GAGCGGGGTT CCCGGGACAC ATATGCCTGG CACAAGCAGA AGCCAACTGG GGTCCGGACC 
AATGTGCCCT CATGGTGTGA CCGGATTCTG TGGAAATCCT ACCCTGAAAC TCACATCATC 
TGCAATTCTT ATGGTTGCAC TGATGACATC GTCACCAGTG ACCACTCCCC TGTGTTTGGG 
ACATTTGAGG TTGGAGTTAC CTCCCAGTTC ATCTCCAAGA AAGGGCTCTC GAAGACTTCA 
GACCAGGCCT ACATTGAGTT TGAGAGCATC GAGGCCATTG TGAAGACAGC CAGCCGCACC 
AAGTTCTTCA TCGAGTTCTA CTCTACCTGC CTGGAGGAAT ACAAGAAGAG CTTTGAGAAT 
GATGCCCAAA GCAGTGACAA CATCAACTTC CTCAAAGTGC AGTGGTCTTC ACGCCAGCTG 
CCCACGCTCA AACCAATTCT GGCTGATATC GAGTACCTGC AGGACCAGCA CCTCCTGCTC 
ACAGTCAAGT CCATGGATGG CTATGAATCC TATGGGGAAT GTGTGGTTGC ACTCAAGTCC 
ATGATTGGCA GCACGGCCCA ACAGTTCCTG ACCTTCCTGT CCCACCGTGG CGAGGAGACA 
GGCAATATCA GAGGCTCCAT GAAGGTGCGG GTGCCCACGG AGCGCCTGGG CACCCGTGAG 
CGGCTCTACG AATGGATCAG CATTGATAAG GATGAGGCAG GAGCAAAGAG CAAAGCCCCC 
TCTGTGTCCC GAGGGATCCA GGAGCCCAGG TCAGGGAGCC GCAAGCCAGC CTTCACAGAG 
GCCTCCTGCC CGCTCTCCAG GTTATTCGAA GAACCAGAGA AACCTCCACC AACTGGGAGG 
CCCCCAGCCC CACCCCGAGC AGCTCCCCGG GAGGAGCCCT TGACCCCCAG GTTGAAGCCA 
GAGGGAACTC CTGAACCAGA AGGGGTGGCC GCCCCCCCAC CCAAGAACAG CTTCAATAAC 
CCTGCCTACT ACGTCCTTGA AGGGGTCCCA CACCAGCTGC TGCCCCCGGA GCCACCCTCG 
CCTGCCAGGG CCCCTGTCCC ACCTGCCACG AAGAACAAAG TGGCCATTAC AGTGCCTGCT 
CCACAGCTTG GGCGCCACAG GCCACCTCGT GTGGGAGAGG GGAGTTCTTC AGATGAAGAG 
TCTGGAGGCA CGCTGCCCCC TCCAGACTTT CCACCTCCAC CACTGCCGGA CTCAGCCATC 
TTCCTGTCAC CTAGCCTGGA TCCTTTACCA GGGCCAGTGG TCCGGGGCCG TGGTGGGGGT 
GAGGCCCGTG GCCCGCCGCC TCCCAAGGCC CATCCAAGGC CCCCACTGCC CCCAGGCCCC 
TCACCAGCCA GCACTTTCCT GGGGGAAGTG GCCGGTGGGG ATGACCGGTC CTGCTCGGTG 
CTGCAGATGG CCAAGACGCT GAGCGAGGTG GACTACGCCC CTGCTGGGCC CGCACGCTCA 
GCACTCCTCC CAGGCCCCCT GGAGCTGCAG CCACACCGGG GACTGTCCTC GGACTATGGC 
CGGCCCCTCA GCTTCCCTCC ACCCCGCATC CGGGAGAGCA TCCAGGAAGA CCTGGCAGAG 
GAGTGA

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

PubMed

A new rhesus macaque assembly and annotation for next-generation sequencing analyses.
Biology direct9(1)20(2014 Oct)
Zimin AV,Cornish AS,Maudhoo MD,Gibbs RM,Zhang X,Pandey S,Meehan DT,Wipfler K,Bosinger SE,Johnson ZP,Tharp GK,Mar?ais G,Roberts M,Ferguson B,Fox HS,Treangen T,Salzberg SL,Yorke JA,Norgren RB Jr

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INPPL1 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

Gene

Clones

gRNAs

Related articles in PubMed

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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