NLRP9 cDNA ORF clone, Pteropus alecto(black flying fox)

Gene
Clones
gRNAs

Summary

Gene Symbol	NLRP9
Entrez Gene ID	102883158
Full Name	NLR family pyrin domain containing 9
Gene Type	protein-coding
Organism	Pteropus alecto(black flying fox)

mRNA and Protein(s)

mRNA	Protein	Name
XM_006915930.1	XP_006915992.1	NACHT, LRR and PYD domains-containing protein 9

Pathways from BioSystems
Gene Ontology

The following NLRP9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NLRP9 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
OPt19392	XM_006915930.1 Latest version!	Pteropus alecto NLR family pyrin domain containing 9 (NLRP9), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	14-16	$510.30 $729.00

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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)

NLRP9 ( XM_006915930.1 ) cDNA ORF clone, Pteropus alecto(black flying fox) -> XP_006915992.1 Pteropus alecto NLR family pyrin domain containing 9 (NLRP9), mRNA.

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CloneID	OPt19392
Clone ID Related Accession (Same CDS sequence)	XM_006915930.1
Accession Version	XM_006915930.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2988bp) 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	2018-05-06
Organism	Pteropus alecto(black flying fox)
Product	NACHT, LRR and PYD domains-containing protein 9
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_006438873.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Pteropus alecto Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.0 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGCCGAAT TTCTTTTTTC TGATATTGGC CTCTTTTGGT ACCTGAAAGA GCTCCAAAAG 
GAAGAGTTCT GGAAGTTCAA GGAGCTCCTC AAGCAAGAAC TTCTGAAATT CGAACTCAAG 
CCAATCCCAT GGCCCATGCT CAAGAAGGCG TCAAGGGAAG ATCTAGCAAA ACTTCTGGAC 
AAGCATTACC CAGGAAAACA GGCGTGGGAG GTGACACTGA GCCTGTTTCT ACAGATCAAT 
CGGTGTGACC TCTGGACCAA GGCTCAGGAA GAGATAAGAA ATAAGCTCAA CCCCTATAAA 
AGTCACATGA AGGACAAATT TCGTCTCATA TGGGAAAAGG AAACCTGCCT TCAAGTGCCT 
GATGATTTCT ACACTGAAGC CACGAAGAAC GAATATGAAG AACTGAGTGC TGCATATACT 
GCTGGCCAGA CTGGACAGCA TTCCCTCACC ATGGTCTTGC AAGGTTCTCA AGGAATTGGA 
AAAACAACCC TTCTGAGAAA AGTGATGCTG GAGTGGGCAG AGGGAAACTT ATGGAGGGAA 
AAGTTCACAT TTGTCTTCTT CCTGGATGGC TGTGACATGA ACAGTATCAC AGAGACGAGC 
TTGGTGGGGC TCCTCTCCAG GGACTGGCCT GGGTCTGCAG AGCCAATTGA AGACATTTTC 
TCCCAGCCAG AGAAGGTCCT TTTCATCATA GATGGCTTCG AGGAACTGAA ATTTGACCTA 
GACCTCAACA CCAACTGGTG CAGTGATTGG AAGCAGCGGC AGCCAATGCA GGTTATCCTG 
AACAGTCTGT TGCAGAAAAA ATTGCTTCCA GAGTCTTCTC TGCTGGTCGC ACTGGGAATG 
ACAGGCATGA AGAAAATTTT TTACTTGTTG CAGCATCCAA AGTACATCAC TCTCCCAGGG 
CTCTCTGAAT ACAATAGGAA ACTATATTTC TCCTATTTCT TCAGGGAGAA GAATAAAGCC 
TCTAGAGCCT TCAGTTTTGT GAGAGACAAT GTTTCACTGT TTGTCTTGTG CCACTATCCC 
CTCGCCTGCT GGTTGGTCTG TATGTGTTTG AAATGGCAGT TGGAGAGAGG AGAAGACCTT 
GGGATTGCCT CCCAAACCAC CACTTCTCTG TATGTTTCCT TTTTTACCAG TGTGTTCAAA 
TCAGGACTGG GGAACTGTCC ACCAAAGCAG AGCAGAGCCC AGCTGAAAAG CTTGTGCACC 
TTGGCTGCAG ACGGCATCTG GACTGACACG TTTGTGTTTC ACTCTGGGGA CCTCAGGAGG 
AATGGGATAT CGGAACCCGA TGCCTTCATG TGGGTAGACT TGCGACTTCT CCAAAGGAAC 
AGCGATCGTT TCACCTTCGT CCACGTGTGT ATCCAAGAGT TTTGTGCTGC CATGTTATAT 
TTGTTCAGAC GACCCCAGGA CAATGCTAAC CTGGCCATCG GAAGTGTAGC CCAGCTTGTA 
AAAGCAACTG TGACTCAAGC CCCAACCTAC CTATTGCAGA CGGGGATCTT CCTGTTTGGG 
TTTTCCACAG AAAAAATAAT GAACATGCTG GAGACGTCCT TTGGTTTTCC ACTGTCCAAG 
GAGATAAAGC AGGAAATAAC CGAATGCCTT CAGAGTTTGA GTCAGGATGA CCCCAACCAG 
GTCGTAGTGA GTTTCCATGA GTTGTTCAAC AGTTTATTTG AGACCCAGGA CAAAGAATTT 
ATAACACAAG TGATGGATTT CTTTGAAGAT GTTAACATTT ATATCAATAA CACAGATGAT 
TTGGTGGTAT CTGCATTCTG CCTCAAACAT AGCCAAAATT TGCAGAAACT TCACCTGTGT 
ATACAAAATG TGTTTTCAGA TGACTGTGGA GCCATCTTAA ATGACACCCA GAAGCTGTGC 
TTTTGGAGGG ACCTCTGCTC AGTGTTCACC ACCAGCAGGA ACTTCCAGGT GTTGGATTTG 
GACAACTGTA CCTTCGATGA GGCCTCGCAG ACCATCCTCT GTAAAGCGCT GGCTCAGCCC 
ATTTGCAGAC TCCAAAAACT GGTGTATAAT TTTGCTTCCA GCCTTGGGAA TGGTCTTGAC 
TTCTTCAAGG CTGTTCTTCA CAACCCTCAT CTGAAATACC TGAACCTGCA TGGCACCAGC 
CTCTCCCCCG TAGAAGTCCG GCAGCTGTGT GAGATGCTGA AACACCCTAT GTGCAATGTA 
GAGCAGCTGA TGTTGGGCAA GTGCAACATC ACAGTTGAAG CCTGCAGAGA GATCACCTCT 
GTCCTGGTCT GCAACCAGAG GCTCAAGCTT CTCTCCTTGA TAGAAAACCC CGTGATGAAT 
GACGGTGTGA TGTTACTATG TAATGCCCTG AAGCACCCAC ACTGTGCCCT GGAGACACTG 
CTGTTAACAT ACTGTTGCCT CAACTCTGTT GCTTGTGACT ACATATCCCA AGCACTTTTG 
TGTAACAAAT CCCTGTCCCT TCTCGATCTG GGGTCCAACT TCCTGGAAGA CGATGGAGTG 
ATGTCTCTAT GTGAAACATT GAAGCACCCA ACCTGCAACT TACAGCAGCT ATGGTTGGCA 
GGTTGTTACC TCACTCCTGT TTGCTGTAAG GACCTCTCTG TTGTTCTTAG TAGCAATGAA 
AAACTAAAGA CCCTGAAACT AGGGGACAAT AAAATACAAG ATTCTGGTGT CAAACAGTTA 
TGTGAAGCTT TGAAGCACCC TAACTGTAAA CTAGAGAATC TTGGGCTGGA AATATGTCAG 
CTCACCTCTG CCTGTTGTAA GGACCTGGCC TCAGCTCTCA CTGTCTGCAA ATCACTGAGA 
GGCCTGAACC TGGACTGGAA TAGCTTGGAC CATGATGGGT TGGTGGTGCT GTGTGAAGCC 
TTGAGCCACC CAGACTGTGC CCTGCAGCTG CTTGGACTGG ACAAATCTGC ATTTGATGAG 
GAAACTCAGC TGCTGTTGAC AGCCATGGAA GACAGAAGTC CTCACCTGAC CATTTTACAT 
CAACCCTGGG GCAAGGATGA GTACATGATC AAAGGTGTTC TCCTCTGA

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

RefSeq	XP_006915992.1
CDS	1..2988
Translation	MAEFLFSDIGLFWYLKELQKEEFWKFKELLKQELLKFELKPIPWPMLKKASREDLAKLLDKHYPGKQAWEVTLSLFLQINRCDLWTKAQEEIRNKLNPYKSHMKDKFRLIWEKETCLQVPDDFYTEATKNEYEELSAAYTAGQTGQHSLTMVLQGSQGIGKTTLLRKVMLEWAEGNLWREKFTFVFFLDGCDMNSITETSLVGLLSRDWPGSAEPIEDIFSQPEKVLFIIDGFEELKFDLDLNTNWCSDWKQRQPMQVILNSLLQKKLLPESSLLVALGMTGMKKIFYLLQHPKYITLPGLSEYNRKLYFSYFFREKNKASRAFSFVRDNVSLFVLCHYPLACWLVCMCLKWQLERGEDLGIASQTTTSLYVSFFTSVFKSGLGNCPPKQSRAQLKSLCTLAADGIWTDTFVFHSGDLRRNGISEPDAFMWVDLRLLQRNSDRFTFVHVCIQEFCAAMLYLFRRPQDNANLAIGSVAQLVKATVTQAPTYLLQTGIFLFGFSTEKIMNMLETSFGFPLSKEIKQEITECLQSLSQDDPNQVVVSFHELFNSLFETQDKEFITQVMDFFEDVNIYINNTDDLVVSAFCLKHSQNLQKLHLCIQNVFSDDCGAILNDTQKLCFWRDLCSVFTTSRNFQVLDLDNCTFDEASQTILCKALAQPICRLQKLVYNFASSLGNGLDFFKAVLHNPHLKYLNLHGTSLSPVEVRQLCEMLKHPMCNVEQLMLGKCNITVEACREITSVLVCNQRLKLLSLIENPVMNDGVMLLCNALKHPHCALETLLLTYCCLNSVACDYISQALLCNKSLSLLDLGSNFLEDDGVMSLCETLKHPTCNLQQLWLAGCYLTPVCCKDLSVVLSSNEKLKTLKLGDNKIQDSGVKQLCEALKHPNCKLENLGLEICQLTSACCKDLASALTVCKSLRGLNLDWNSLDHDGLVVLCEALSHPDCALQLLGLDKSAFDEETQLLLTAMEDRSPHLTILHQPWGKDEYMIKGVLL

Target ORF information:

RefSeq Version	XM_006915930.1
Organism	Pteropus alecto(black flying fox)
Definition	Pteropus alecto NLR family pyrin domain containing 9 (NLRP9), mRNA.

Target ORF information:

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

XM_006915930.1

ORF Insert Sequence:

ATGGCCGAAT TTCTTTTTTC TGATATTGGC CTCTTTTGGT ACCTGAAAGA GCTCCAAAAG 
GAAGAGTTCT GGAAGTTCAA GGAGCTCCTC AAGCAAGAAC TTCTGAAATT CGAACTCAAG 
CCAATCCCAT GGCCCATGCT CAAGAAGGCG TCAAGGGAAG ATCTAGCAAA ACTTCTGGAC 
AAGCATTACC CAGGAAAACA GGCGTGGGAG GTGACACTGA GCCTGTTTCT ACAGATCAAT 
CGGTGTGACC TCTGGACCAA GGCTCAGGAA GAGATAAGAA ATAAGCTCAA CCCCTATAAA 
AGTCACATGA AGGACAAATT TCGTCTCATA TGGGAAAAGG AAACCTGCCT TCAAGTGCCT 
GATGATTTCT ACACTGAAGC CACGAAGAAC GAATATGAAG AACTGAGTGC TGCATATACT 
GCTGGCCAGA CTGGACAGCA TTCCCTCACC ATGGTCTTGC AAGGTTCTCA AGGAATTGGA 
AAAACAACCC TTCTGAGAAA AGTGATGCTG GAGTGGGCAG AGGGAAACTT ATGGAGGGAA 
AAGTTCACAT TTGTCTTCTT CCTGGATGGC TGTGACATGA ACAGTATCAC AGAGACGAGC 
TTGGTGGGGC TCCTCTCCAG GGACTGGCCT GGGTCTGCAG AGCCAATTGA AGACATTTTC 
TCCCAGCCAG AGAAGGTCCT TTTCATCATA GATGGCTTCG AGGAACTGAA ATTTGACCTA 
GACCTCAACA CCAACTGGTG CAGTGATTGG AAGCAGCGGC AGCCAATGCA GGTTATCCTG 
AACAGTCTGT TGCAGAAAAA ATTGCTTCCA GAGTCTTCTC TGCTGGTCGC ACTGGGAATG 
ACAGGCATGA AGAAAATTTT TTACTTGTTG CAGCATCCAA AGTACATCAC TCTCCCAGGG 
CTCTCTGAAT ACAATAGGAA ACTATATTTC TCCTATTTCT TCAGGGAGAA GAATAAAGCC 
TCTAGAGCCT TCAGTTTTGT GAGAGACAAT GTTTCACTGT TTGTCTTGTG CCACTATCCC 
CTCGCCTGCT GGTTGGTCTG TATGTGTTTG AAATGGCAGT TGGAGAGAGG AGAAGACCTT 
GGGATTGCCT CCCAAACCAC CACTTCTCTG TATGTTTCCT TTTTTACCAG TGTGTTCAAA 
TCAGGACTGG GGAACTGTCC ACCAAAGCAG AGCAGAGCCC AGCTGAAAAG CTTGTGCACC 
TTGGCTGCAG ACGGCATCTG GACTGACACG TTTGTGTTTC ACTCTGGGGA CCTCAGGAGG 
AATGGGATAT CGGAACCCGA TGCCTTCATG TGGGTAGACT TGCGACTTCT CCAAAGGAAC 
AGCGATCGTT TCACCTTCGT CCACGTGTGT ATCCAAGAGT TTTGTGCTGC CATGTTATAT 
TTGTTCAGAC GACCCCAGGA CAATGCTAAC CTGGCCATCG GAAGTGTAGC CCAGCTTGTA 
AAAGCAACTG TGACTCAAGC CCCAACCTAC CTATTGCAGA CGGGGATCTT CCTGTTTGGG 
TTTTCCACAG AAAAAATAAT GAACATGCTG GAGACGTCCT TTGGTTTTCC ACTGTCCAAG 
GAGATAAAGC AGGAAATAAC CGAATGCCTT CAGAGTTTGA GTCAGGATGA CCCCAACCAG 
GTCGTAGTGA GTTTCCATGA GTTGTTCAAC AGTTTATTTG AGACCCAGGA CAAAGAATTT 
ATAACACAAG TGATGGATTT CTTTGAAGAT GTTAACATTT ATATCAATAA CACAGATGAT 
TTGGTGGTAT CTGCATTCTG CCTCAAACAT AGCCAAAATT TGCAGAAACT TCACCTGTGT 
ATACAAAATG TGTTTTCAGA TGACTGTGGA GCCATCTTAA ATGACACCCA GAAGCTGTGC 
TTTTGGAGGG ACCTCTGCTC AGTGTTCACC ACCAGCAGGA ACTTCCAGGT GTTGGATTTG 
GACAACTGTA CCTTCGATGA GGCCTCGCAG ACCATCCTCT GTAAAGCGCT GGCTCAGCCC 
ATTTGCAGAC TCCAAAAACT GGTGTATAAT TTTGCTTCCA GCCTTGGGAA TGGTCTTGAC 
TTCTTCAAGG CTGTTCTTCA CAACCCTCAT CTGAAATACC TGAACCTGCA TGGCACCAGC 
CTCTCCCCCG TAGAAGTCCG GCAGCTGTGT GAGATGCTGA AACACCCTAT GTGCAATGTA 
GAGCAGCTGA TGTTGGGCAA GTGCAACATC ACAGTTGAAG CCTGCAGAGA GATCACCTCT 
GTCCTGGTCT GCAACCAGAG GCTCAAGCTT CTCTCCTTGA TAGAAAACCC CGTGATGAAT 
GACGGTGTGA TGTTACTATG TAATGCCCTG AAGCACCCAC ACTGTGCCCT GGAGACACTG 
CTGTTAACAT ACTGTTGCCT CAACTCTGTT GCTTGTGACT ACATATCCCA AGCACTTTTG 
TGTAACAAAT CCCTGTCCCT TCTCGATCTG GGGTCCAACT TCCTGGAAGA CGATGGAGTG 
ATGTCTCTAT GTGAAACATT GAAGCACCCA ACCTGCAACT TACAGCAGCT ATGGTTGGCA 
GGTTGTTACC TCACTCCTGT TTGCTGTAAG GACCTCTCTG TTGTTCTTAG TAGCAATGAA 
AAACTAAAGA CCCTGAAACT AGGGGACAAT AAAATACAAG ATTCTGGTGT CAAACAGTTA 
TGTGAAGCTT TGAAGCACCC TAACTGTAAA CTAGAGAATC TTGGGCTGGA AATATGTCAG 
CTCACCTCTG CCTGTTGTAA GGACCTGGCC TCAGCTCTCA CTGTCTGCAA ATCACTGAGA 
GGCCTGAACC TGGACTGGAA TAGCTTGGAC CATGATGGGT TGGTGGTGCT GTGTGAAGCC 
TTGAGCCACC CAGACTGTGC CCTGCAGCTG CTTGGACTGG ACAAATCTGC ATTTGATGAG 
GAAACTCAGC TGCTGTTGAC AGCCATGGAA GACAGAAGTC CTCACCTGAC CATTTTACAT 
CAACCCTGGG GCAAGGATGA GTACATGATC AAAGGTGTTC TCCTCTGA