Inpp5d cDNA ORF clone, Microtus ochrogaster(prairie vole)

Gene
Clones
gRNAs

Summary

Gene Symbol	Inpp5d
Entrez Gene ID	101993353
Full Name	inositol polyphosphate-5-phosphatase D
Gene Type	protein-coding
Organism	Microtus ochrogaster(prairie vole)

mRNA and Protein(s)

mRNA	Protein	Name
XM_005361784.2	XP_005361841.2	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1
XM_005361784.3	XP_005361841.2	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1

Pathways from BioSystems
Gene Ontology

The following Inpp5d gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Inpp5d 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)
OMi115530	XM_005361784.3 Latest version!	Microtus ochrogaster inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
View Old Accession Versions >>
OMi115530	XM_005361784.2	Microtus ochrogaster inositol polyphosphate-5-phosphatase, 145kDa (Inpp5d), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
Hide Old Accession Versions >>

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

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

Reference Sequences (Refseq)

Inpp5d ( XM_005361784.2 ) cDNA ORF clone, Microtus ochrogaster(prairie vole) -> XP_005361841.2 Microtus ochrogaster inositol polyphosphate-5-phosphatase, 145kDa (Inpp5d), mRNA.

Price & Availability↑

CloneID	OMi115530
Clone ID Related Accession (Same CDS sequence)	XM_005361784.2 , XM_005361784.3
Accession Version	XM_005361784.2	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3573bp) 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	2015-08-06
Organism	Microtus ochrogaster(prairie vole)
Product	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_004949082.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Aug 7, 2015 this sequence version replaced XM_005361784.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Microtus ochrogaster Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 6.4 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCTGCTA TGGGCCCTGG GTGGAACCAT GGCAACATCA CCCGCTCCAA AGCAGAGGAG 
CTGCTTTCCA GGGCCGGCAA GGACGGCAGT TTCCTTGTGC GTGCCAGCGA GTCCATCCCC 
AGGGCCTACG CTCTATGTGT GCTGTTCCGG AACTGTGTTT ACACTTACAG GATTCTGCCC 
AACGAGGATG ATGAATTCAC TGTTCAGGCA TCTGAAGGTG TCCCCATGAG GTTCTTCACC 
AAACTGGACC AGCTCATTGA GTTTTACAAG AAGGAGAACA TGGGGCTGGT GACCCACCTG 
CAGTACCCTG TGCCCCTGGA GGAAGAAGAC ACCATCGATG AGGCTGAAGA GGACACTGAA 
AGTGTCATGT CACCGCCGGA GCTGCCTCCC AGAAACATCC CTGTGTCTTC TGGGCCCTGC 
GAGGCCAAGG ACCCTCCTCT TCCACTAGAG AACCCTCGCA CCCCTGAGGT CACCCGGCCG 
AGTCTCTCCG AGACGCTGTT TCAGCGACTG CAGAGCATGG ACACCAGTGG GCTCCCAGAG 
GAACATCTCA AAGCCATCCA GGATTACTTG AGCACTCAGC TCGCCCTGGA CGCTGACTTT 
TTGAAGACAG GCTCCAGCAA CCTCCCTCAC CTGAAGAAGC TGATTTCGCT GCTCTGCAAG 
GAACTCCATG GGGAAGTCGT CAGGACCCTC CCATCCCTGG AGTCCTTGCA GAGGTTGTTC 
GACCAGCAGC TCTCCCCAGG CCTCCGACCG CGACCTCAGG TGCCCAGTGA AGCCAACCCC 
ATCAACATGG TGGCCAAGCT CAGCCAATTG ACAAGTCTGC TGTCTTCCAT TGAAGATAAG 
GTCAAGGCCT TGCTGCACGA GGGCCCAGAG TCTCCCAACA GGCGTTCCCT CATCCCTCCA 
GTCACATTTG AGGTAAAGTC GGAGTCCCTG GGGATTCCTC AGAAAATGCA TCTCAAAGTG 
GACGTCGAGT CTGGGAAACT GATCATCAAG AAGTCCAAGG ATGGGTCTGA GGACAAGTTC 
TACAGCCACA AAAAGATCCT GCAGCTTATC AAGTCCCAGA AGTTTCTGAA CAAGCTGGTG 
ATTTTGGTGG AGACAGAGAA GGAGAAAATC CTGAGGAAGG AATATGTTTT TGCTGACTCT 
AAAAAGAGAG AAGGCTTCTG CCAACTACTG CAGCAGATGA AGAACAAGCA TTCGGAGCAG 
CCAGAGCCCG ACATGATCAC CATCTTCATT GGCACTTGGA ACATGGGTAA CGCACCCCCT 
CCCAAGAAGA TCACGTCCTG GTTTCTCTCC AAGGGACAGG GAAAGACACG GGACGACTCT 
GCTGATTATA TCCCCCATGA TATCTACGTG ATTGGCACCC AGGAGGACCC TCTTGGAGAG 
AAGGAGTGGC TGGAGATACT CAGGCACTCC CTGCAAGAAG TCACCAGCAT GACATTTAAA 
ACAGTCGCCA TCCACACTCT CTGGAACATT CGCATAGTGG TGCTTGCCAA GCCAGAGCAT 
GAGAATCGGA TCAGCCACAT CTGCACGGAC AATGTGAAGA CAGGCATCGC CAACACCCTA 
GGAAACAAGG GAGCTGTAGG GGTGTCCTTC ATGTTCAATG GAACCTCCTT GGGGTTTGTT 
AACAGCCACT TAACTTCTGG AAGTGAAAAA AAACTCAGGC GAAATCAGAA CTATATGAAC 
ATCCTGCGGT TCCTGGCCCT GGGAGACAAG AAGCTGAGTC CATTTAACAT CACCCACCGG 
TTCACCCACC TCTTCTGGCT TGGGGATCTC AACTACCGCG TGGAGCTGCC CACCTGGGAG 
GCAGAAACCA TCATCCAGAA GATTAGACAG CAGCAGTATT CAGATCTGCT GGCCCATGAC 
CAACTGCTCC TGGAGAGGAA GGAACAGAAG GTCTTCCTGC ACTTTGAGGA GGAGGAGATC 
ACCTTCGCCC CCACCTACCG ATTCGAAAGA CTGACCCGGG ACAAGTACGC CTACACGAAA 
CAGAAAGCCA CAGGGATGAA GTACAACCTG CCGTCCTGGT GCGACCGAGT TCTCTGGAAG 
TCTTACCCCC TGGTCCATGT GGTTTGTCAG TCCTATGGCA GCACCAGTGA CATCATGACA 
AGTGACCACA GCCCTGTCTT TGCCACATTT GAAGCAGGAG TCACATCGCA GTTTGTCTCC 
AAGAATGGTC CTGGCACTGT GGACAGCCAA GGGCAGATCG AGTTCCTTGC ATGCTACGCC 
ACACTGAAGA CCAAATCCCA GACGAAGTTC TACTTGGAGT TCCACTCCAG CTGCTTAGAG 
AGTTTTGTGA AGAGTCAGGA AGGAGAAAAC GAAGAGGGAA GCGAAGGAGA GCTGGTGGTG 
CGGTTTGGAG AGACTCTTCC AAAGCTAAAG CCTATTATCT CTGATCCTGA GTACCTCCTG 
GACCAACACA TCCTCATCAG CATTAAATCC TCTGACAGCG ATGAATCCTA TGGTGAAGGC 
TGCATTGCCC TTCATCTGGA GACCACAGAG ACTCAGCTTC CCATCTACAC CCCTCTCACC 
CACCACGGGG AGATGACTGG CCACTTCCGA GGGGAGATTA AGCTGCAGAC CTCACAGGGC 
AAGATGAGGG AGAAGCTCTA CGATTTCGTG AAGACAGAGC GGGATGAGGC TAGTGGAATG 
AAGTGCCTGA AGAACCTCAC CAGCCATGAC CCCGTGAAGC AGTGGGAGCC TGCCGGCAGG 
GTCCCTGCAT GTGGTGTCTC CAGTCTCAAT GAGATCATCA ATCCAAACTA CATTGGTGTG 
GGGCCCTTTG GACAGCCCCT GCATGGGAAG TCAAGCCTAT CCCCAGACCA GCAACTCACA 
GCCTGGAGTT ATGACCAGCC ACCCAAGGAC TCCTCCCTGG GGCCCGGGAG GGGAGAGGGT 
CCTCCCACCC CTCCCTCCCA GCCACCTCTG TCCCCAAAGA AATTTTCATC CTCCACAGCA 
AACAGAGGCC TTTGCCCCAG GATGCAAGAG ACAAGATCTG GTGACCTGGG GAAAGTGGAG 
GCTCTGTTAC AGGAAGACCT CCAGCTGACG AAGCCAGAGA TGTTTGAGAA CCCACTGTAC 
GGGTCCGTGA GTTCCTTCCC TAAGGTGGTG CCCAGGAAAG AGCAGGAGTC CCCCAAGATG 
CTGCGGAAGG AGCCCCCACC CTGTCCAGAC CCAGGAATCT CATCACCCAG CATCCTGCTC 
CCCAAAGTTC AAGAGGTGGA GGGTGTCAAG GGGTCAAGCA AACAGGTCCC CGTGCCTGTC 
TTTGGCCCCA CACCCCGGAT GCGATCCTTT ACCTGTTCCT CCTCTGCTGA GGGAAAAATG 
CCCAGTGGGG ACAAGAACCA AGGGAAGCCC AAGACCTCAG CCAGTACCCA AGCCCCGGTG 
CCAGCCAAGA GGCCTATCAA GCCTTCCAGG TCTGAAATGA GCCAACAGAT GACTCCCATC 
CCAGCTCCAC GGCCACCCCT GCCAGTCAAG AGCCCTGCGG TTCTGCAGCT ACAGCATTCC 
AAAGGCCGAG ACTACCGCGA CAACACGGAA CTCCCCCACC ATGGCAAGCA CCGCCACGAG 
GAGGGGCTGC TTGGCAGGAC TGCCATGCAG TGA

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

RefSeq	XP_005361841.2
CDS	29..3601
Translation	MPAMGPGWNHGNITRSKAEELLSRAGKDGSFLVRASESIPRAYALCVLFRNCVYTYRILPNEDDEFTVQASEGVPMRFFTKLDQLIEFYKKENMGLVTHLQYPVPLEEEDTIDEAEEDTESVMSPPELPPRNIPVSSGPCEAKDPPLPLENPRTPEVTRPSLSETLFQRLQSMDTSGLPEEHLKAIQDYLSTQLALDADFLKTGSSNLPHLKKLISLLCKELHGEVVRTLPSLESLQRLFDQQLSPGLRPRPQVPSEANPINMVAKLSQLTSLLSSIEDKVKALLHEGPESPNRRSLIPPVTFEVKSESLGIPQKMHLKVDVESGKLIIKKSKDGSEDKFYSHKKILQLIKSQKFLNKLVILVETEKEKILRKEYVFADSKKREGFCQLLQQMKNKHSEQPEPDMITIFIGTWNMGNAPPPKKITSWFLSKGQGKTRDDSADYIPHDIYVIGTQEDPLGEKEWLEILRHSLQEVTSMTFKTVAIHTLWNIRIVVLAKPEHENRISHICTDNVKTGIANTLGNKGAVGVSFMFNGTSLGFVNSHLTSGSEKKLRRNQNYMNILRFLALGDKKLSPFNITHRFTHLFWLGDLNYRVELPTWEAETIIQKIRQQQYSDLLAHDQLLLERKEQKVFLHFEEEEITFAPTYRFERLTRDKYAYTKQKATGMKYNLPSWCDRVLWKSYPLVHVVCQSYGSTSDIMTSDHSPVFATFEAGVTSQFVSKNGPGTVDSQGQIEFLACYATLKTKSQTKFYLEFHSSCLESFVKSQEGENEEGSEGELVVRFGETLPKLKPIISDPEYLLDQHILISIKSSDSDESYGEGCIALHLETTETQLPIYTPLTHHGEMTGHFRGEIKLQTSQGKMREKLYDFVKTERDEASGMKCLKNLTSHDPVKQWEPAGRVPACGVSSLNEIINPNYIGVGPFGQPLHGKSSLSPDQQLTAWSYDQPPKDSSLGPGRGEGPPTPPSQPPLSPKKFSSSTANRGLCPRMQETRSGDLGKVEALLQEDLQLTKPEMFENPLYGSVSSFPKVVPRKEQESPKMLRKEPPPCPDPGISSPSILLPKVQEVEGVKGSSKQVPVPVFGPTPRMRSFTCSSSAEGKMPSGDKNQGKPKTSASTQAPVPAKRPIKPSRSEMSQQMTPIPAPRPPLPVKSPAVLQLQHSKGRDYRDNTELPHHGKHRHEEGLLGRTAMQ

Target ORF information:

RefSeq Version	XM_005361784.2
Organism	Microtus ochrogaster(prairie vole)
Definition	Microtus ochrogaster inositol polyphosphate-5-phosphatase, 145kDa (Inpp5d), mRNA.

Target ORF information:

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

XM_005361784.2

ORF Insert Sequence:

ATGCCTGCTA TGGGCCCTGG GTGGAACCAT GGCAACATCA CCCGCTCCAA AGCAGAGGAG 
CTGCTTTCCA GGGCCGGCAA GGACGGCAGT TTCCTTGTGC GTGCCAGCGA GTCCATCCCC 
AGGGCCTACG CTCTATGTGT GCTGTTCCGG AACTGTGTTT ACACTTACAG GATTCTGCCC 
AACGAGGATG ATGAATTCAC TGTTCAGGCA TCTGAAGGTG TCCCCATGAG GTTCTTCACC 
AAACTGGACC AGCTCATTGA GTTTTACAAG AAGGAGAACA TGGGGCTGGT GACCCACCTG 
CAGTACCCTG TGCCCCTGGA GGAAGAAGAC ACCATCGATG AGGCTGAAGA GGACACTGAA 
AGTGTCATGT CACCGCCGGA GCTGCCTCCC AGAAACATCC CTGTGTCTTC TGGGCCCTGC 
GAGGCCAAGG ACCCTCCTCT TCCACTAGAG AACCCTCGCA CCCCTGAGGT CACCCGGCCG 
AGTCTCTCCG AGACGCTGTT TCAGCGACTG CAGAGCATGG ACACCAGTGG GCTCCCAGAG 
GAACATCTCA AAGCCATCCA GGATTACTTG AGCACTCAGC TCGCCCTGGA CGCTGACTTT 
TTGAAGACAG GCTCCAGCAA CCTCCCTCAC CTGAAGAAGC TGATTTCGCT GCTCTGCAAG 
GAACTCCATG GGGAAGTCGT CAGGACCCTC CCATCCCTGG AGTCCTTGCA GAGGTTGTTC 
GACCAGCAGC TCTCCCCAGG CCTCCGACCG CGACCTCAGG TGCCCAGTGA AGCCAACCCC 
ATCAACATGG TGGCCAAGCT CAGCCAATTG ACAAGTCTGC TGTCTTCCAT TGAAGATAAG 
GTCAAGGCCT TGCTGCACGA GGGCCCAGAG TCTCCCAACA GGCGTTCCCT CATCCCTCCA 
GTCACATTTG AGGTAAAGTC GGAGTCCCTG GGGATTCCTC AGAAAATGCA TCTCAAAGTG 
GACGTCGAGT CTGGGAAACT GATCATCAAG AAGTCCAAGG ATGGGTCTGA GGACAAGTTC 
TACAGCCACA AAAAGATCCT GCAGCTTATC AAGTCCCAGA AGTTTCTGAA CAAGCTGGTG 
ATTTTGGTGG AGACAGAGAA GGAGAAAATC CTGAGGAAGG AATATGTTTT TGCTGACTCT 
AAAAAGAGAG AAGGCTTCTG CCAACTACTG CAGCAGATGA AGAACAAGCA TTCGGAGCAG 
CCAGAGCCCG ACATGATCAC CATCTTCATT GGCACTTGGA ACATGGGTAA CGCACCCCCT 
CCCAAGAAGA TCACGTCCTG GTTTCTCTCC AAGGGACAGG GAAAGACACG GGACGACTCT 
GCTGATTATA TCCCCCATGA TATCTACGTG ATTGGCACCC AGGAGGACCC TCTTGGAGAG 
AAGGAGTGGC TGGAGATACT CAGGCACTCC CTGCAAGAAG TCACCAGCAT GACATTTAAA 
ACAGTCGCCA TCCACACTCT CTGGAACATT CGCATAGTGG TGCTTGCCAA GCCAGAGCAT 
GAGAATCGGA TCAGCCACAT CTGCACGGAC AATGTGAAGA CAGGCATCGC CAACACCCTA 
GGAAACAAGG GAGCTGTAGG GGTGTCCTTC ATGTTCAATG GAACCTCCTT GGGGTTTGTT 
AACAGCCACT TAACTTCTGG AAGTGAAAAA AAACTCAGGC GAAATCAGAA CTATATGAAC 
ATCCTGCGGT TCCTGGCCCT GGGAGACAAG AAGCTGAGTC CATTTAACAT CACCCACCGG 
TTCACCCACC TCTTCTGGCT TGGGGATCTC AACTACCGCG TGGAGCTGCC CACCTGGGAG 
GCAGAAACCA TCATCCAGAA GATTAGACAG CAGCAGTATT CAGATCTGCT GGCCCATGAC 
CAACTGCTCC TGGAGAGGAA GGAACAGAAG GTCTTCCTGC ACTTTGAGGA GGAGGAGATC 
ACCTTCGCCC CCACCTACCG ATTCGAAAGA CTGACCCGGG ACAAGTACGC CTACACGAAA 
CAGAAAGCCA CAGGGATGAA GTACAACCTG CCGTCCTGGT GCGACCGAGT TCTCTGGAAG 
TCTTACCCCC TGGTCCATGT GGTTTGTCAG TCCTATGGCA GCACCAGTGA CATCATGACA 
AGTGACCACA GCCCTGTCTT TGCCACATTT GAAGCAGGAG TCACATCGCA GTTTGTCTCC 
AAGAATGGTC CTGGCACTGT GGACAGCCAA GGGCAGATCG AGTTCCTTGC ATGCTACGCC 
ACACTGAAGA CCAAATCCCA GACGAAGTTC TACTTGGAGT TCCACTCCAG CTGCTTAGAG 
AGTTTTGTGA AGAGTCAGGA AGGAGAAAAC GAAGAGGGAA GCGAAGGAGA GCTGGTGGTG 
CGGTTTGGAG AGACTCTTCC AAAGCTAAAG CCTATTATCT CTGATCCTGA GTACCTCCTG 
GACCAACACA TCCTCATCAG CATTAAATCC TCTGACAGCG ATGAATCCTA TGGTGAAGGC 
TGCATTGCCC TTCATCTGGA GACCACAGAG ACTCAGCTTC CCATCTACAC CCCTCTCACC 
CACCACGGGG AGATGACTGG CCACTTCCGA GGGGAGATTA AGCTGCAGAC CTCACAGGGC 
AAGATGAGGG AGAAGCTCTA CGATTTCGTG AAGACAGAGC GGGATGAGGC TAGTGGAATG 
AAGTGCCTGA AGAACCTCAC CAGCCATGAC CCCGTGAAGC AGTGGGAGCC TGCCGGCAGG 
GTCCCTGCAT GTGGTGTCTC CAGTCTCAAT GAGATCATCA ATCCAAACTA CATTGGTGTG 
GGGCCCTTTG GACAGCCCCT GCATGGGAAG TCAAGCCTAT CCCCAGACCA GCAACTCACA 
GCCTGGAGTT ATGACCAGCC ACCCAAGGAC TCCTCCCTGG GGCCCGGGAG GGGAGAGGGT 
CCTCCCACCC CTCCCTCCCA GCCACCTCTG TCCCCAAAGA AATTTTCATC CTCCACAGCA 
AACAGAGGCC TTTGCCCCAG GATGCAAGAG ACAAGATCTG GTGACCTGGG GAAAGTGGAG 
GCTCTGTTAC AGGAAGACCT CCAGCTGACG AAGCCAGAGA TGTTTGAGAA CCCACTGTAC 
GGGTCCGTGA GTTCCTTCCC TAAGGTGGTG CCCAGGAAAG AGCAGGAGTC CCCCAAGATG 
CTGCGGAAGG AGCCCCCACC CTGTCCAGAC CCAGGAATCT CATCACCCAG CATCCTGCTC 
CCCAAAGTTC AAGAGGTGGA GGGTGTCAAG GGGTCAAGCA AACAGGTCCC CGTGCCTGTC 
TTTGGCCCCA CACCCCGGAT GCGATCCTTT ACCTGTTCCT CCTCTGCTGA GGGAAAAATG 
CCCAGTGGGG ACAAGAACCA AGGGAAGCCC AAGACCTCAG CCAGTACCCA AGCCCCGGTG 
CCAGCCAAGA GGCCTATCAA GCCTTCCAGG TCTGAAATGA GCCAACAGAT GACTCCCATC 
CCAGCTCCAC GGCCACCCCT GCCAGTCAAG AGCCCTGCGG TTCTGCAGCT ACAGCATTCC 
AAAGGCCGAG ACTACCGCGA CAACACGGAA CTCCCCCACC ATGGCAAGCA CCGCCACGAG 
GAGGGGCTGC TTGGCAGGAC TGCCATGCAG TGA

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

Inpp5d ( XM_005361784.3 ) cDNA ORF clone, Microtus ochrogaster(prairie vole) -> XP_005361841.2 Microtus ochrogaster inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.

Price & Availability↑

CloneID	OMi115530
Clone ID Related Accession (Same CDS sequence)	XM_005361784.2 , XM_005361784.3
Accession Version	XM_005361784.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3573bp) 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	2018-10-14
Organism	Microtus ochrogaster(prairie vole)
Product	phosphatidylinositol 3,4,5-trisphosphate 5-phosphatase 1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_022030.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 15, 2018 this sequence version replaced XM_005361784.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Microtus ochrogaster Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGCCTGCTA TGGGCCCTGG GTGGAACCAT GGCAACATCA CCCGCTCCAA AGCAGAGGAG 
CTGCTTTCCA GGGCCGGCAA GGACGGCAGT TTCCTTGTGC GTGCCAGCGA GTCCATCCCC 
AGGGCCTACG CTCTATGTGT GCTGTTCCGG AACTGTGTTT ACACTTACAG GATTCTGCCC 
AACGAGGATG ATGAATTCAC TGTTCAGGCA TCTGAAGGTG TCCCCATGAG GTTCTTCACC 
AAACTGGACC AGCTCATTGA GTTTTACAAG AAGGAGAACA TGGGGCTGGT GACCCACCTG 
CAGTACCCTG TGCCCCTGGA GGAAGAAGAC ACCATCGATG AGGCTGAAGA GGACACTGAA 
AGTGTCATGT CACCGCCGGA GCTGCCTCCC AGAAACATCC CTGTGTCTTC TGGGCCCTGC 
GAGGCCAAGG ACCCTCCTCT TCCACTAGAG AACCCTCGCA CCCCTGAGGT CACCCGGCCG 
AGTCTCTCCG AGACGCTGTT TCAGCGACTG CAGAGCATGG ACACCAGTGG GCTCCCAGAG 
GAACATCTCA AAGCCATCCA GGATTACTTG AGCACTCAGC TCGCCCTGGA CGCTGACTTT 
TTGAAGACAG GCTCCAGCAA CCTCCCTCAC CTGAAGAAGC TGATTTCGCT GCTCTGCAAG 
GAACTCCATG GGGAAGTCGT CAGGACCCTC CCATCCCTGG AGTCCTTGCA GAGGTTGTTC 
GACCAGCAGC TCTCCCCAGG CCTCCGACCG CGACCTCAGG TGCCCAGTGA AGCCAACCCC 
ATCAACATGG TGGCCAAGCT CAGCCAATTG ACAAGTCTGC TGTCTTCCAT TGAAGATAAG 
GTCAAGGCCT TGCTGCACGA GGGCCCAGAG TCTCCCAACA GGCGTTCCCT CATCCCTCCA 
GTCACATTTG AGGTAAAGTC GGAGTCCCTG GGGATTCCTC AGAAAATGCA TCTCAAAGTG 
GACGTCGAGT CTGGGAAACT GATCATCAAG AAGTCCAAGG ATGGGTCTGA GGACAAGTTC 
TACAGCCACA AAAAGATCCT GCAGCTTATC AAGTCCCAGA AGTTTCTGAA CAAGCTGGTG 
ATTTTGGTGG AGACAGAGAA GGAGAAAATC CTGAGGAAGG AATATGTTTT TGCTGACTCT 
AAAAAGAGAG AAGGCTTCTG CCAACTACTG CAGCAGATGA AGAACAAGCA TTCGGAGCAG 
CCAGAGCCCG ACATGATCAC CATCTTCATT GGCACTTGGA ACATGGGTAA CGCACCCCCT 
CCCAAGAAGA TCACGTCCTG GTTTCTCTCC AAGGGACAGG GAAAGACACG GGACGACTCT 
GCTGATTATA TCCCCCATGA TATCTACGTG ATTGGCACCC AGGAGGACCC TCTTGGAGAG 
AAGGAGTGGC TGGAGATACT CAGGCACTCC CTGCAAGAAG TCACCAGCAT GACATTTAAA 
ACAGTCGCCA TCCACACTCT CTGGAACATT CGCATAGTGG TGCTTGCCAA GCCAGAGCAT 
GAGAATCGGA TCAGCCACAT CTGCACGGAC AATGTGAAGA CAGGCATCGC CAACACCCTA 
GGAAACAAGG GAGCTGTAGG GGTGTCCTTC ATGTTCAATG GAACCTCCTT GGGGTTTGTT 
AACAGCCACT TAACTTCTGG AAGTGAAAAA AAACTCAGGC GAAATCAGAA CTATATGAAC 
ATCCTGCGGT TCCTGGCCCT GGGAGACAAG AAGCTGAGTC CATTTAACAT CACCCACCGG 
TTCACCCACC TCTTCTGGCT TGGGGATCTC AACTACCGCG TGGAGCTGCC CACCTGGGAG 
GCAGAAACCA TCATCCAGAA GATTAGACAG CAGCAGTATT CAGATCTGCT GGCCCATGAC 
CAACTGCTCC TGGAGAGGAA GGAACAGAAG GTCTTCCTGC ACTTTGAGGA GGAGGAGATC 
ACCTTCGCCC CCACCTACCG ATTCGAAAGA CTGACCCGGG ACAAGTACGC CTACACGAAA 
CAGAAAGCCA CAGGGATGAA GTACAACCTG CCGTCCTGGT GCGACCGAGT TCTCTGGAAG 
TCTTACCCCC TGGTCCATGT GGTTTGTCAG TCCTATGGCA GCACCAGTGA CATCATGACA 
AGTGACCACA GCCCTGTCTT TGCCACATTT GAAGCAGGAG TCACATCGCA GTTTGTCTCC 
AAGAATGGTC CTGGCACTGT GGACAGCCAA GGGCAGATCG AGTTCCTTGC ATGCTACGCC 
ACACTGAAGA CCAAATCCCA GACGAAGTTC TACTTGGAGT TCCACTCCAG CTGCTTAGAG 
AGTTTTGTGA AGAGTCAGGA AGGAGAAAAC GAAGAGGGAA GCGAAGGAGA GCTGGTGGTG 
CGGTTTGGAG AGACTCTTCC AAAGCTAAAG CCTATTATCT CTGATCCTGA GTACCTCCTG 
GACCAACACA TCCTCATCAG CATTAAATCC TCTGACAGCG ATGAATCCTA TGGTGAAGGC 
TGCATTGCCC TTCATCTGGA GACCACAGAG ACTCAGCTTC CCATCTACAC CCCTCTCACC 
CACCACGGGG AGATGACTGG CCACTTCCGA GGGGAGATTA AGCTGCAGAC CTCACAGGGC 
AAGATGAGGG AGAAGCTCTA CGATTTCGTG AAGACAGAGC GGGATGAGGC TAGTGGAATG 
AAGTGCCTGA AGAACCTCAC CAGCCATGAC CCCGTGAAGC AGTGGGAGCC TGCCGGCAGG 
GTCCCTGCAT GTGGTGTCTC CAGTCTCAAT GAGATCATCA ATCCAAACTA CATTGGTGTG 
GGGCCCTTTG GACAGCCCCT GCATGGGAAG TCAAGCCTAT CCCCAGACCA GCAACTCACA 
GCCTGGAGTT ATGACCAGCC ACCCAAGGAC TCCTCCCTGG GGCCCGGGAG GGGAGAGGGT 
CCTCCCACCC CTCCCTCCCA GCCACCTCTG TCCCCAAAGA AATTTTCATC CTCCACAGCA 
AACAGAGGCC TTTGCCCCAG GATGCAAGAG ACAAGATCTG GTGACCTGGG GAAAGTGGAG 
GCTCTGTTAC AGGAAGACCT CCAGCTGACG AAGCCAGAGA TGTTTGAGAA CCCACTGTAC 
GGGTCCGTGA GTTCCTTCCC TAAGGTGGTG CCCAGGAAAG AGCAGGAGTC CCCCAAGATG 
CTGCGGAAGG AGCCCCCACC CTGTCCAGAC CCAGGAATCT CATCACCCAG CATCCTGCTC 
CCCAAAGTTC AAGAGGTGGA GGGTGTCAAG GGGTCAAGCA AACAGGTCCC CGTGCCTGTC 
TTTGGCCCCA CACCCCGGAT GCGATCCTTT ACCTGTTCCT CCTCTGCTGA GGGAAAAATG 
CCCAGTGGGG ACAAGAACCA AGGGAAGCCC AAGACCTCAG CCAGTACCCA AGCCCCGGTG 
CCAGCCAAGA GGCCTATCAA GCCTTCCAGG TCTGAAATGA GCCAACAGAT GACTCCCATC 
CCAGCTCCAC GGCCACCCCT GCCAGTCAAG AGCCCTGCGG TTCTGCAGCT ACAGCATTCC 
AAAGGCCGAG ACTACCGCGA CAACACGGAA CTCCCCCACC ATGGCAAGCA CCGCCACGAG 
GAGGGGCTGC TTGGCAGGAC TGCCATGCAG TGA

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

RefSeq	XP_005361841.2
CDS	112..3684
Translation	MPAMGPGWNHGNITRSKAEELLSRAGKDGSFLVRASESIPRAYALCVLFRNCVYTYRILPNEDDEFTVQASEGVPMRFFTKLDQLIEFYKKENMGLVTHLQYPVPLEEEDTIDEAEEDTESVMSPPELPPRNIPVSSGPCEAKDPPLPLENPRTPEVTRPSLSETLFQRLQSMDTSGLPEEHLKAIQDYLSTQLALDADFLKTGSSNLPHLKKLISLLCKELHGEVVRTLPSLESLQRLFDQQLSPGLRPRPQVPSEANPINMVAKLSQLTSLLSSIEDKVKALLHEGPESPNRRSLIPPVTFEVKSESLGIPQKMHLKVDVESGKLIIKKSKDGSEDKFYSHKKILQLIKSQKFLNKLVILVETEKEKILRKEYVFADSKKREGFCQLLQQMKNKHSEQPEPDMITIFIGTWNMGNAPPPKKITSWFLSKGQGKTRDDSADYIPHDIYVIGTQEDPLGEKEWLEILRHSLQEVTSMTFKTVAIHTLWNIRIVVLAKPEHENRISHICTDNVKTGIANTLGNKGAVGVSFMFNGTSLGFVNSHLTSGSEKKLRRNQNYMNILRFLALGDKKLSPFNITHRFTHLFWLGDLNYRVELPTWEAETIIQKIRQQQYSDLLAHDQLLLERKEQKVFLHFEEEEITFAPTYRFERLTRDKYAYTKQKATGMKYNLPSWCDRVLWKSYPLVHVVCQSYGSTSDIMTSDHSPVFATFEAGVTSQFVSKNGPGTVDSQGQIEFLACYATLKTKSQTKFYLEFHSSCLESFVKSQEGENEEGSEGELVVRFGETLPKLKPIISDPEYLLDQHILISIKSSDSDESYGEGCIALHLETTETQLPIYTPLTHHGEMTGHFRGEIKLQTSQGKMREKLYDFVKTERDEASGMKCLKNLTSHDPVKQWEPAGRVPACGVSSLNEIINPNYIGVGPFGQPLHGKSSLSPDQQLTAWSYDQPPKDSSLGPGRGEGPPTPPSQPPLSPKKFSSSTANRGLCPRMQETRSGDLGKVEALLQEDLQLTKPEMFENPLYGSVSSFPKVVPRKEQESPKMLRKEPPPCPDPGISSPSILLPKVQEVEGVKGSSKQVPVPVFGPTPRMRSFTCSSSAEGKMPSGDKNQGKPKTSASTQAPVPAKRPIKPSRSEMSQQMTPIPAPRPPLPVKSPAVLQLQHSKGRDYRDNTELPHHGKHRHEEGLLGRTAMQ

Target ORF information:

RefSeq Version	XM_005361784.3
Organism	Microtus ochrogaster(prairie vole)
Definition	Microtus ochrogaster inositol polyphosphate-5-phosphatase D (Inpp5d), mRNA.

Target ORF information:

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

XM_005361784.3

ORF Insert Sequence:

ATGCCTGCTA TGGGCCCTGG GTGGAACCAT GGCAACATCA CCCGCTCCAA AGCAGAGGAG 
CTGCTTTCCA GGGCCGGCAA GGACGGCAGT TTCCTTGTGC GTGCCAGCGA GTCCATCCCC 
AGGGCCTACG CTCTATGTGT GCTGTTCCGG AACTGTGTTT ACACTTACAG GATTCTGCCC 
AACGAGGATG ATGAATTCAC TGTTCAGGCA TCTGAAGGTG TCCCCATGAG GTTCTTCACC 
AAACTGGACC AGCTCATTGA GTTTTACAAG AAGGAGAACA TGGGGCTGGT GACCCACCTG 
CAGTACCCTG TGCCCCTGGA GGAAGAAGAC ACCATCGATG AGGCTGAAGA GGACACTGAA 
AGTGTCATGT CACCGCCGGA GCTGCCTCCC AGAAACATCC CTGTGTCTTC TGGGCCCTGC 
GAGGCCAAGG ACCCTCCTCT TCCACTAGAG AACCCTCGCA CCCCTGAGGT CACCCGGCCG 
AGTCTCTCCG AGACGCTGTT TCAGCGACTG CAGAGCATGG ACACCAGTGG GCTCCCAGAG 
GAACATCTCA AAGCCATCCA GGATTACTTG AGCACTCAGC TCGCCCTGGA CGCTGACTTT 
TTGAAGACAG GCTCCAGCAA CCTCCCTCAC CTGAAGAAGC TGATTTCGCT GCTCTGCAAG 
GAACTCCATG GGGAAGTCGT CAGGACCCTC CCATCCCTGG AGTCCTTGCA GAGGTTGTTC 
GACCAGCAGC TCTCCCCAGG CCTCCGACCG CGACCTCAGG TGCCCAGTGA AGCCAACCCC 
ATCAACATGG TGGCCAAGCT CAGCCAATTG ACAAGTCTGC TGTCTTCCAT TGAAGATAAG 
GTCAAGGCCT TGCTGCACGA GGGCCCAGAG TCTCCCAACA GGCGTTCCCT CATCCCTCCA 
GTCACATTTG AGGTAAAGTC GGAGTCCCTG GGGATTCCTC AGAAAATGCA TCTCAAAGTG 
GACGTCGAGT CTGGGAAACT GATCATCAAG AAGTCCAAGG ATGGGTCTGA GGACAAGTTC 
TACAGCCACA AAAAGATCCT GCAGCTTATC AAGTCCCAGA AGTTTCTGAA CAAGCTGGTG 
ATTTTGGTGG AGACAGAGAA GGAGAAAATC CTGAGGAAGG AATATGTTTT TGCTGACTCT 
AAAAAGAGAG AAGGCTTCTG CCAACTACTG CAGCAGATGA AGAACAAGCA TTCGGAGCAG 
CCAGAGCCCG ACATGATCAC CATCTTCATT GGCACTTGGA ACATGGGTAA CGCACCCCCT 
CCCAAGAAGA TCACGTCCTG GTTTCTCTCC AAGGGACAGG GAAAGACACG GGACGACTCT 
GCTGATTATA TCCCCCATGA TATCTACGTG ATTGGCACCC AGGAGGACCC TCTTGGAGAG 
AAGGAGTGGC TGGAGATACT CAGGCACTCC CTGCAAGAAG TCACCAGCAT GACATTTAAA 
ACAGTCGCCA TCCACACTCT CTGGAACATT CGCATAGTGG TGCTTGCCAA GCCAGAGCAT 
GAGAATCGGA TCAGCCACAT CTGCACGGAC AATGTGAAGA CAGGCATCGC CAACACCCTA 
GGAAACAAGG GAGCTGTAGG GGTGTCCTTC ATGTTCAATG GAACCTCCTT GGGGTTTGTT 
AACAGCCACT TAACTTCTGG AAGTGAAAAA AAACTCAGGC GAAATCAGAA CTATATGAAC 
ATCCTGCGGT TCCTGGCCCT GGGAGACAAG AAGCTGAGTC CATTTAACAT CACCCACCGG 
TTCACCCACC TCTTCTGGCT TGGGGATCTC AACTACCGCG TGGAGCTGCC CACCTGGGAG 
GCAGAAACCA TCATCCAGAA GATTAGACAG CAGCAGTATT CAGATCTGCT GGCCCATGAC 
CAACTGCTCC TGGAGAGGAA GGAACAGAAG GTCTTCCTGC ACTTTGAGGA GGAGGAGATC 
ACCTTCGCCC CCACCTACCG ATTCGAAAGA CTGACCCGGG ACAAGTACGC CTACACGAAA 
CAGAAAGCCA CAGGGATGAA GTACAACCTG CCGTCCTGGT GCGACCGAGT TCTCTGGAAG 
TCTTACCCCC TGGTCCATGT GGTTTGTCAG TCCTATGGCA GCACCAGTGA CATCATGACA 
AGTGACCACA GCCCTGTCTT TGCCACATTT GAAGCAGGAG TCACATCGCA GTTTGTCTCC 
AAGAATGGTC CTGGCACTGT GGACAGCCAA GGGCAGATCG AGTTCCTTGC ATGCTACGCC 
ACACTGAAGA CCAAATCCCA GACGAAGTTC TACTTGGAGT TCCACTCCAG CTGCTTAGAG 
AGTTTTGTGA AGAGTCAGGA AGGAGAAAAC GAAGAGGGAA GCGAAGGAGA GCTGGTGGTG 
CGGTTTGGAG AGACTCTTCC AAAGCTAAAG CCTATTATCT CTGATCCTGA GTACCTCCTG 
GACCAACACA TCCTCATCAG CATTAAATCC TCTGACAGCG ATGAATCCTA TGGTGAAGGC 
TGCATTGCCC TTCATCTGGA GACCACAGAG ACTCAGCTTC CCATCTACAC CCCTCTCACC 
CACCACGGGG AGATGACTGG CCACTTCCGA GGGGAGATTA AGCTGCAGAC CTCACAGGGC 
AAGATGAGGG AGAAGCTCTA CGATTTCGTG AAGACAGAGC GGGATGAGGC TAGTGGAATG 
AAGTGCCTGA AGAACCTCAC CAGCCATGAC CCCGTGAAGC AGTGGGAGCC TGCCGGCAGG 
GTCCCTGCAT GTGGTGTCTC CAGTCTCAAT GAGATCATCA ATCCAAACTA CATTGGTGTG 
GGGCCCTTTG GACAGCCCCT GCATGGGAAG TCAAGCCTAT CCCCAGACCA GCAACTCACA 
GCCTGGAGTT ATGACCAGCC ACCCAAGGAC TCCTCCCTGG GGCCCGGGAG GGGAGAGGGT 
CCTCCCACCC CTCCCTCCCA GCCACCTCTG TCCCCAAAGA AATTTTCATC CTCCACAGCA 
AACAGAGGCC TTTGCCCCAG GATGCAAGAG ACAAGATCTG GTGACCTGGG GAAAGTGGAG 
GCTCTGTTAC AGGAAGACCT CCAGCTGACG AAGCCAGAGA TGTTTGAGAA CCCACTGTAC 
GGGTCCGTGA GTTCCTTCCC TAAGGTGGTG CCCAGGAAAG AGCAGGAGTC CCCCAAGATG 
CTGCGGAAGG AGCCCCCACC CTGTCCAGAC CCAGGAATCT CATCACCCAG CATCCTGCTC 
CCCAAAGTTC AAGAGGTGGA GGGTGTCAAG GGGTCAAGCA AACAGGTCCC CGTGCCTGTC 
TTTGGCCCCA CACCCCGGAT GCGATCCTTT ACCTGTTCCT CCTCTGCTGA GGGAAAAATG 
CCCAGTGGGG ACAAGAACCA AGGGAAGCCC AAGACCTCAG CCAGTACCCA AGCCCCGGTG 
CCAGCCAAGA GGCCTATCAA GCCTTCCAGG TCTGAAATGA GCCAACAGAT GACTCCCATC 
CCAGCTCCAC GGCCACCCCT GCCAGTCAAG AGCCCTGCGG TTCTGCAGCT ACAGCATTCC 
AAAGGCCGAG ACTACCGCGA CAACACGGAA CTCCCCCACC ATGGCAAGCA CCGCCACGAG 
GAGGGGCTGC TTGGCAGGAC TGCCATGCAG TGA