LOC100900533 cDNA ORF clone, Galendromus occidentalis(western predatory mite)

Gene
Clones
gRNAs

Summary

Gene Symbol	LOC100900533
Entrez Gene ID	100900533
Full Name	phosphatidylinositol phosphatase PTPRQ
Gene Type	protein-coding
Organism	Galendromus occidentalis(western predatory mite)

mRNA and Protein(s)

mRNA	Protein	Name
XM_003740256.2	XP_003740304.1	phosphatidylinositol phosphatase PTPRQ

Pathways from BioSystems
Gene Ontology

The following LOC100900533 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the LOC100900533 cDNA ORF which is encoded by the open reading frame (ORF) sequence. ORF sequences can be delivered in our standard vector, pcDNA3.1⁺/C-(K)DYK or the vector of your choice as an expression/transfection-ready ORF clone. Not the clone you want? Click here to find your clone.

***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)	Select
OGa54648	XM_003740256.2 Latest version!	Metaseiulus occidentalis phosphatidylinositol phosphatase PTPRQ (LOC100900533), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$629.30 $899.00

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

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

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

Reference Sequences (Refseq)

LOC100900533 ( XM_003740256.2 ) cDNA ORF clone, Galendromus occidentalis(western predatory mite) -> XP_003740304.1 Metaseiulus occidentalis phosphatidylinositol phosphatase PTPRQ (LOC100900533), mRNA.

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CloneID	OGa54648
Clone ID Related Accession (Same CDS sequence)	XM_003740256.2
Accession Version	XM_003740256.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3354bp) 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	2019-05-06
Organism	Galendromus occidentalis(western predatory mite)
Product	phosphatidylinositol phosphatase PTPRQ
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003804859.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Oct 12, 2016 this sequence version replaced XM_003740256.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Galendromus occidentalis Annotation Release 102 Annotation Version :: 102 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##

ATGGCGCTCA CGAAATGCAT CGCGCTGCTC GCCCTCTTCT GTGGAGCGGT TTCAGCATCT 
TGGGGTCCTT CCAATTTGGT GGCCGAAGTT GATGACAGCG AAGGCGATTT CGTCAACTTC 
AACGTGCAAT GGAAAGCCGG AGATTGTCCG ACTGCGAAAT TCCACTTGTA CACCCAGACG 
CCCAATGGAC CTCGTATCGA AGAAACGTCC ACGAGAGAGT CTCAATTCAC GATCGAGAAA 
AAGGAATTCT GGACCAATTA CACGATTATT CTCGAGACTT CTTGGTGTAT TTTTGGCGAG 
AATAGATTGC AAATCGAGAA AAGCATTGGA CCTGGGAATC CCCATCCAGT GAAAAATGTG 
GAAACCGTGT CCTCCGCCGT CGATGCCAAC ATTACGATCG AAGAGGCCTT CATGCCGAAA 
ATCGTCGATA TGTACAATAT CACATTGTGC TGGAGCGAGA GCTGTAAGAC GATGGTTCAC 
GTCAGGAACC AGCATAAGGC TACGACTTTC ACCATGGACT TGCATGAACT GCTTCCCAGT 
ACTCGATACG ATCTGAGCAT AGTGCCAGCG ATCGCCTTCC AGGGCGAAAC TTACCGCGGT 
CGAGCGTACG AGGCAGAGTT CGTCACTGCA GACGTTGAGC TCCCGATTCC TAGCGGCTTC 
GAAGCCACTT TCCCTTGGCA CGGGGAGCAG CGACTAGTCA AGCTCACATG GAAGCTTAGT 
GAAGCCTCTT ACGATCTGGC ATTCTACAAC GTGACCGTGA CCTGCGAATC GGACGCCGCC 
TTCGTAGAGT CTATCGACGT CACGGAACCC GAGGTCACTT TCACAGACTT GCCGTTTTCC 
AAAAACCTGA CAGTACACAT CACGCCGGTC TTCAATATCA GTCATCATTT GATGTGCAGG 
ACGCCTGGAG TTTTCCGATT CGAGACACCG CACACAGTCC CTGTGCCGAT CAAGTTCGCC 
TCCGTCGGTC TTGACGCGAA TACGCTCTAC GCTCAATGGG ATACTTCTGT GAAGGTTCTA 
TCGCCTGCAC TACTCTTCGT GATCGAGTAC AGCAGCTCAG AAAATGACTC CAAGACAGTC 
AACTCTAGCG AGAGGAAAAC CATTCTTCGG GGTCTCGAGC CTAACACAAC GTACGAAGTG 
TTGTTGAGCG TTCTCCCCGC CAACACGAGC TCTTCGTTCA ACTTCACCAC GTTGGACAAA 
GACTACGCCG CTCCCGTCAA CGTCATCGCC GATCTGTTGA GCGAGGGTTC AGACACAGCG 
TCCTACGACT TGAAATGGAA TTCAGACGCC GCGCCGAGAA ATGCAACCTT CTACCGGATC 
ATCTCCTGCA AACGAGACAC CGGTGTTTGT ACGCAAAATG AAACCGAAGA CGCTCATGAG 
GTCATTCCGC TTGAATATTT CGCAGACTAC GACCTCAGAG TAGACGCCAT ATACGAATTG 
GATCTGAACC AGACCCAGGT CAGGAGCGGC GAGAAAACCA ACCTGACGAC TCCGGGAACT 
TCCCCGTCAG CGGTCACCAA CATCCAGGTT CAAAACGTGA GCACCACCAC TGCTGTCCTA 
ACATGGTCTC CGCCCGCTAA TCTGCCGGTG AAACTCTCTA GGACCTACCA GATCACTGAT 
GCTCCGAACA ATGTTATCGC ATCTACCGAG GAAGAACGCA TCGAGCTGAC GAAACTCGGA 
CCGTACAGCT TATACAACAT CACCATCCAG ACCACCGTTT CATACAATGG ATCGAAATTC 
GACGGAAGCG CAGAGAGCGA GTTGTTCTAC ACAGATTCAG CAGCTCCAGG ACCCCCGGAA 
AGCGTCACCG CGGAACAACA TGTCCGTACG AATACCTTCA AGGTTTCTTG GACTGTGCCC 
AAAGTAAAAA ACGGGAAACT CGATTACTAC GAAGTCGAGA CCAAGGATTC GGAGGACAAC 
ATCGTCTCGA GCATAACCGG ACTCGTTGGG ACGAGAGGAA TCACCGTTAG GCTGCCCTCG 
GTTCACGGCG ATGCAAACTT CACCGTCAGC GTCCGAGCGG TCAACATCAA CTTGAAAGGC 
CAGCCTCTAC CGGGACCAGC GAAGAGCTCC GCGCTACTCT TCAAAGGCAT CGGTGCTCCG 
AGTGCTGAGG TTATCAAACG ATTGAGCAGC TCGCTGCTTC TCGAGATGAC TCCATCGAAT 
GATACCGAAG ACACCACCGG TCTGTACTAC ATCGCGGCGA ATGCTCAAGG AGATACTTTC 
AGGAGTACCT CGAAGCGAGT CGAGGTGAAG AATCTCAGAT CCTACACACC CGAAACAATC 
GCGTTTGCGG CCTGTTTTCT TCCGACATTC TGCTCGGAGT CTGTCGCCCT CACAAGTGTC 
ACCAACGTTG CTGGTCCTTC GGCCGTAAAC GACCTGACCT CCGACTATGC GAATCTGACC 
AATCCAGTCT TCAAGTGGGC TCCCCCCACG ACTGCTAATG GACCTCTGGA CGGCTACGTG 
TTCACTCTCA GGGACTTGAC CAATAAATCG GTCAACTTCG AGAAGGTTCT GCCGTTCCAG 
CAGCTGTCCT TCACTTACGA GTCGGACCTC GAATTCGAAA AATACAATTT CTCCGTGAGC 
GCCTTCAACT ACGACTTGGA CGACCCGAAA GTGCGAGTAT CCGGAGAGCT GTCGAGCATT 
CTTGTCAAGA CAGCTGGGAG ACATCCCCCG AAACCGGAAA ACGTTCAGGA GCTCAACAAG 
ACCTCAACAT CGGCGTTCTT GCAGTGGGAG AAGCCGGACT ACCCGGGATT CAAAGTCGCT 
TACTACCACA TTGAAGTACC CGCTCTGAAA TATCAAGAGA TCACGAATAA GACAAGCTTC 
GTTCTTGAGG GCCTAAAACC GTATACGAAC ACCACAGTTC TCACCCGGGG TTGTACTTCG 
GACAAAGTCG ATAGCTGCGG ATTGCCCGGA GCGTTCGAAG TGGCCACTCG TGTCGACACA 
CCTTCGGAAC CTCTTTCAGT CACTGTCTCG GACGTGACTC AATCCGAATT TTCAGTCTCG 
TGGAAAGCAC CGAACACTCC GAATGGACCG ATTGACGGTT ACAAGGTCGC CATATCGCAG 
TCCGGAGCCG GCAATCTGAC GTGGATTACG GTCGAGGAGA AACAAGTCAA GCATAAGTTC 
TCAAACTTGA CTTCAGCCAG CGCCTACACT GTCCACGTAC TCGCGTACAA CATCGATGAG 
GATACCCATG AGGAGTACGA CTCGAAACCC GCCTCAGCCA GCTTCGAAAC TGTCGGTTCC 
GGAAGTGCGG TGTGGTGGAT TGTGGCCTTG GTTCTTGTTC TGATCGCGGT TGGAGTTGGT 
GTTGGAATTT TACTGTACAG ACGCAGAACG CTCCGAAACG AAGACATGGG CTGA

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

RefSeq	XP_003740304.1
CDS	101..3454
Translation	MALTKCIALLALFCGAVSASWGPSNLVAEVDDSEGDFVNFNVQWKAGDCPTAKFHLYTQTPNGPRIEETSTRESQFTIEKKEFWTNYTIILETSWCIFGENRLQIEKSIGPGNPHPVKNVETVSSAVDANITIEEAFMPKIVDMYNITLCWSESCKTMVHVRNQHKATTFTMDLHELLPSTRYDLSIVPAIAFQGETYRGRAYEAEFVTADVELPIPSGFEATFPWHGEQRLVKLTWKLSEASYDLAFYNVTVTCESDAAFVESIDVTEPEVTFTDLPFSKNLTVHITPVFNISHHLMCRTPGVFRFETPHTVPVPIKFASVGLDANTLYAQWDTSVKVLSPALLFVIEYSSSENDSKTVNSSERKTILRGLEPNTTYEVLLSVLPANTSSSFNFTTLDKDYAAPVNVIADLLSEGSDTASYDLKWNSDAAPRNATFYRIISCKRDTGVCTQNETEDAHEVIPLEYFADYDLRVDAIYELDLNQTQVRSGEKTNLTTPGTSPSAVTNIQVQNVSTTTAVLTWSPPANLPVKLSRTYQITDAPNNVIASTEEERIELTKLGPYSLYNITIQTTVSYNGSKFDGSAESELFYTDSAAPGPPESVTAEQHVRTNTFKVSWTVPKVKNGKLDYYEVETKDSEDNIVSSITGLVGTRGITVRLPSVHGDANFTVSVRAVNINLKGQPLPGPAKSSALLFKGIGAPSAEVIKRLSSSLLLEMTPSNDTEDTTGLYYIAANAQGDTFRSTSKRVEVKNLRSYTPETIAFAACFLPTFCSESVALTSVTNVAGPSAVNDLTSDYANLTNPVFKWAPPTTANGPLDGYVFTLRDLTNKSVNFEKVLPFQQLSFTYESDLEFEKYNFSVSAFNYDLDDPKVRVSGELSSILVKTAGRHPPKPENVQELNKTSTSAFLQWEKPDYPGFKVAYYHIEVPALKYQEITNKTSFVLEGLKPYTNTTVLTRGCTSDKVDSCGLPGAFEVATRVDTPSEPLSVTVSDVTQSEFSVSWKAPNTPNGPIDGYKVAISQSGAGNLTWITVEEKQVKHKFSNLTSASAYTVHVLAYNIDEDTHEEYDSKPASASFETVGSGSAVWWIVALVLVLIAVGVGVGILLYRRRTLRNEDMG

Target ORF information:

RefSeq Version	XM_003740256.2
Organism	Galendromus occidentalis(western predatory mite)
Definition	Metaseiulus occidentalis phosphatidylinositol phosphatase PTPRQ (LOC100900533), mRNA.

Target ORF information:

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

XM_003740256.2

ORF Insert Sequence:

ATGGCGCTCA CGAAATGCAT CGCGCTGCTC GCCCTCTTCT GTGGAGCGGT TTCAGCATCT 
TGGGGTCCTT CCAATTTGGT GGCCGAAGTT GATGACAGCG AAGGCGATTT CGTCAACTTC 
AACGTGCAAT GGAAAGCCGG AGATTGTCCG ACTGCGAAAT TCCACTTGTA CACCCAGACG 
CCCAATGGAC CTCGTATCGA AGAAACGTCC ACGAGAGAGT CTCAATTCAC GATCGAGAAA 
AAGGAATTCT GGACCAATTA CACGATTATT CTCGAGACTT CTTGGTGTAT TTTTGGCGAG 
AATAGATTGC AAATCGAGAA AAGCATTGGA CCTGGGAATC CCCATCCAGT GAAAAATGTG 
GAAACCGTGT CCTCCGCCGT CGATGCCAAC ATTACGATCG AAGAGGCCTT CATGCCGAAA 
ATCGTCGATA TGTACAATAT CACATTGTGC TGGAGCGAGA GCTGTAAGAC GATGGTTCAC 
GTCAGGAACC AGCATAAGGC TACGACTTTC ACCATGGACT TGCATGAACT GCTTCCCAGT 
ACTCGATACG ATCTGAGCAT AGTGCCAGCG ATCGCCTTCC AGGGCGAAAC TTACCGCGGT 
CGAGCGTACG AGGCAGAGTT CGTCACTGCA GACGTTGAGC TCCCGATTCC TAGCGGCTTC 
GAAGCCACTT TCCCTTGGCA CGGGGAGCAG CGACTAGTCA AGCTCACATG GAAGCTTAGT 
GAAGCCTCTT ACGATCTGGC ATTCTACAAC GTGACCGTGA CCTGCGAATC GGACGCCGCC 
TTCGTAGAGT CTATCGACGT CACGGAACCC GAGGTCACTT TCACAGACTT GCCGTTTTCC 
AAAAACCTGA CAGTACACAT CACGCCGGTC TTCAATATCA GTCATCATTT GATGTGCAGG 
ACGCCTGGAG TTTTCCGATT CGAGACACCG CACACAGTCC CTGTGCCGAT CAAGTTCGCC 
TCCGTCGGTC TTGACGCGAA TACGCTCTAC GCTCAATGGG ATACTTCTGT GAAGGTTCTA 
TCGCCTGCAC TACTCTTCGT GATCGAGTAC AGCAGCTCAG AAAATGACTC CAAGACAGTC 
AACTCTAGCG AGAGGAAAAC CATTCTTCGG GGTCTCGAGC CTAACACAAC GTACGAAGTG 
TTGTTGAGCG TTCTCCCCGC CAACACGAGC TCTTCGTTCA ACTTCACCAC GTTGGACAAA 
GACTACGCCG CTCCCGTCAA CGTCATCGCC GATCTGTTGA GCGAGGGTTC AGACACAGCG 
TCCTACGACT TGAAATGGAA TTCAGACGCC GCGCCGAGAA ATGCAACCTT CTACCGGATC 
ATCTCCTGCA AACGAGACAC CGGTGTTTGT ACGCAAAATG AAACCGAAGA CGCTCATGAG 
GTCATTCCGC TTGAATATTT CGCAGACTAC GACCTCAGAG TAGACGCCAT ATACGAATTG 
GATCTGAACC AGACCCAGGT CAGGAGCGGC GAGAAAACCA ACCTGACGAC TCCGGGAACT 
TCCCCGTCAG CGGTCACCAA CATCCAGGTT CAAAACGTGA GCACCACCAC TGCTGTCCTA 
ACATGGTCTC CGCCCGCTAA TCTGCCGGTG AAACTCTCTA GGACCTACCA GATCACTGAT 
GCTCCGAACA ATGTTATCGC ATCTACCGAG GAAGAACGCA TCGAGCTGAC GAAACTCGGA 
CCGTACAGCT TATACAACAT CACCATCCAG ACCACCGTTT CATACAATGG ATCGAAATTC 
GACGGAAGCG CAGAGAGCGA GTTGTTCTAC ACAGATTCAG CAGCTCCAGG ACCCCCGGAA 
AGCGTCACCG CGGAACAACA TGTCCGTACG AATACCTTCA AGGTTTCTTG GACTGTGCCC 
AAAGTAAAAA ACGGGAAACT CGATTACTAC GAAGTCGAGA CCAAGGATTC GGAGGACAAC 
ATCGTCTCGA GCATAACCGG ACTCGTTGGG ACGAGAGGAA TCACCGTTAG GCTGCCCTCG 
GTTCACGGCG ATGCAAACTT CACCGTCAGC GTCCGAGCGG TCAACATCAA CTTGAAAGGC 
CAGCCTCTAC CGGGACCAGC GAAGAGCTCC GCGCTACTCT TCAAAGGCAT CGGTGCTCCG 
AGTGCTGAGG TTATCAAACG ATTGAGCAGC TCGCTGCTTC TCGAGATGAC TCCATCGAAT 
GATACCGAAG ACACCACCGG TCTGTACTAC ATCGCGGCGA ATGCTCAAGG AGATACTTTC 
AGGAGTACCT CGAAGCGAGT CGAGGTGAAG AATCTCAGAT CCTACACACC CGAAACAATC 
GCGTTTGCGG CCTGTTTTCT TCCGACATTC TGCTCGGAGT CTGTCGCCCT CACAAGTGTC 
ACCAACGTTG CTGGTCCTTC GGCCGTAAAC GACCTGACCT CCGACTATGC GAATCTGACC 
AATCCAGTCT TCAAGTGGGC TCCCCCCACG ACTGCTAATG GACCTCTGGA CGGCTACGTG 
TTCACTCTCA GGGACTTGAC CAATAAATCG GTCAACTTCG AGAAGGTTCT GCCGTTCCAG 
CAGCTGTCCT TCACTTACGA GTCGGACCTC GAATTCGAAA AATACAATTT CTCCGTGAGC 
GCCTTCAACT ACGACTTGGA CGACCCGAAA GTGCGAGTAT CCGGAGAGCT GTCGAGCATT 
CTTGTCAAGA CAGCTGGGAG ACATCCCCCG AAACCGGAAA ACGTTCAGGA GCTCAACAAG 
ACCTCAACAT CGGCGTTCTT GCAGTGGGAG AAGCCGGACT ACCCGGGATT CAAAGTCGCT 
TACTACCACA TTGAAGTACC CGCTCTGAAA TATCAAGAGA TCACGAATAA GACAAGCTTC 
GTTCTTGAGG GCCTAAAACC GTATACGAAC ACCACAGTTC TCACCCGGGG TTGTACTTCG 
GACAAAGTCG ATAGCTGCGG ATTGCCCGGA GCGTTCGAAG TGGCCACTCG TGTCGACACA 
CCTTCGGAAC CTCTTTCAGT CACTGTCTCG GACGTGACTC AATCCGAATT TTCAGTCTCG 
TGGAAAGCAC CGAACACTCC GAATGGACCG ATTGACGGTT ACAAGGTCGC CATATCGCAG 
TCCGGAGCCG GCAATCTGAC GTGGATTACG GTCGAGGAGA AACAAGTCAA GCATAAGTTC 
TCAAACTTGA CTTCAGCCAG CGCCTACACT GTCCACGTAC TCGCGTACAA CATCGATGAG 
GATACCCATG AGGAGTACGA CTCGAAACCC GCCTCAGCCA GCTTCGAAAC TGTCGGTTCC 
GGAAGTGCGG TGTGGTGGAT TGTGGCCTTG GTTCTTGTTC TGATCGCGGT TGGAGTTGGT 
GTTGGAATTT TACTGTACAG ACGCAGAACG CTCCGAAACG AAGACATGGG CTGA