NOS3 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene
Clones
gRNAs

Summary

Gene Symbol	NOS3
Entrez Gene ID	100483990
Full Name	nitric oxide synthase 3
Gene Type	protein-coding
Organism	Ailuropoda melanoleuca(giant panda)

mRNA and Protein(s)

mRNA	Protein	Name
XM_011220093.2	XP_011218395.1	nitric oxide synthase, endothelial isoform X2
XM_019795567.1	XP_019651126.1	nitric oxide synthase, endothelial isoform X1

Pathways from BioSystems
Gene Ontology

The following NOS3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the NOS3 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
OAc32816	XM_011220093.2 Latest version!	Ailuropoda melanoleuca nitric oxide synthase 3 (NOS3), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
OAc90137	XM_019795567.1 Latest version!	Ailuropoda melanoleuca nitric oxide synthase 3 (NOS3), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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2-4 Clone	40% OFF
5 or more Clone	50% OFF
All Other ORF Clones
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*Business Day

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

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

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

Reference Sequences (Refseq)

NOS3 ( XM_011220093.2 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_011218395.1 Ailuropoda melanoleuca nitric oxide synthase 3 (NOS3), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OAc32816
Clone ID Related Accession (Same CDS sequence)	XM_011220093.2
Accession Version	XM_011220093.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3606bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	nitric oxide synthase, endothelial isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217385.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Dec 28, 2016 this sequence version replaced XM_011220093.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCAACT TGAAGAGTGT GGGCCAGGAA CCCGGGCCCC CCTGCGGCCT GGGGCTGGGC 
CTGGGCCTGG GGCTGTGCGG CAAGCAGGGC CCTGCCTCCC CGAACTCCTC TGAGCCCAGC 
AGGGCACCGG CACCCGTGCC CCCACCAGCA CCGGACCACA GCCCCCCGCT CACCCGGCCC 
CCGGACGGGC CCAGGTTCCC TCGCGTGAAG AACTGGGAGG TGGGGAGCAT CGCCTATGAC 
ACCCTGAGTG CCCAGTCACA GCAGGATGGG CCCTGCACCC CCAGACGCTG CCTGGGCTCT 
CTGGTATTTC CACGGAAACT GCAGAGCCGG CCGTCTCAGG ACCCTCCACC CCCTGAGCAG 
CTGCTGAGCC AGGCCAGGGA CTTCATCAAC CAGTACTATA GCTCTATCAA GAGAAGCGGC 
TCCCAGGCCC ACGAGCAGAG GCTTCAGGAG ATGGAAGCTG AGATAGCGGC CAAGGGCACC 
TACCAGCTTC GAGAGAGCGA GCTGGTGTTC GGGGCCAAGC AGGCCTGGCG GAATGCTCCC 
CGCTGCGTGG GCCGGATCCA GTGGGGGAAG CTGCAGGTGT TCGATGCCCG GGATTGCAGC 
TCTGCCCAGG AGATGTTCAC CTACATCTGC AACCACATCA AGTATGCCAC CAACCGGGGC 
AACCTCCGCT CGGCCATCAC AGTGTTCCCC CAGCGCGCCC CAGGCCGCGG AGACTTCCGA 
ATCTGGAACA GCCAACTGGT GCGCTACGCG GGCTACAGGC AGCAGGACGG CTCGGTGCGG 
GGGGACCCAG CCAACGTGGA GATCACGGAG CTCTGCATTC AGCATGGCTG GACCCCAGGA 
AACGGCCGCT TTGACGTGCT GCCCCTACTG CTCCAGGCCC CAGATGAGCC CCCAGAACTC 
TTTGTTCTGC CCCCCGAGCT GGTCCTCGAG GTGCCCCTGG AGCACCCCAC GCTGGAGTGG 
TTTGCGGCCT TGGGCCTGCG CTGGTATGCC CTCCCGGCGG TGAGCAACAT GCTGCTGGAA 
ATTGGGGGAC TGGAGTTCCC TGCGGCCCCT TTCAGCGGCT GGTACATGAG CACTGAGATT 
GGCACACGGA ACCTGTGTGA CCCTCACCGA TATAACATCC TGGAGGATGT GGCGGTCTGC 
ATGGACTTGG ATACCCGGAC AACTTCATCC CTGTGGAAAG ACAAGGCCGC AGTGGAGATC 
AACTTGGCCG TGCTGCACAG TTACCAGCTG GCCAAAGTGA CCATCGTGGA CCACCATGCT 
GCCACTGCCT CTTTCATGAA GCACCTGGAG AACGAGCAGA AGGCTAGGGG GGGCTGCCCT 
GCCGACTGGG CCTGGATCGT GCCCCCCATC TCTGGCAGCC TCACCCCTGT CTTCCATCAG 
GAGATGGTCA ACTATGTCCT GTCCCCGGCC TTCCGCTATC AGCCAGACCC GTGGAAGGGG 
AGTGCAACCA AGGGTGCCGG CATCACCAGG AAGAAGACCT TTAAAGAAGT GGCCAACGCA 
GTGAAGATCT CTGCCTCACT CATGGGCACT GTGATGGCAA AGCGAGTGAA GGCGACCATC 
CTGTATGGCT CCGAGACTGG CCGGGCCCAG AGCTACGCAC AGCAGCTGGG TAGACTCTTC 
CGGAAGGCTT TCGACCCTCG GGTCCTGTGC ATGGATGAGT ACGATGTGGT GTCCCTCGAG 
CATGAGACGC TGGTGTTGGT GGTGACCAGC ACATTTGGGA ATGGTGATCC CCCAGAGAAT 
GGAGAGAGTT TTGCGGCGGC CCTGATGGAG ATGTCCGGCC CCTACAACAG TTCCCCTCGG 
CCAGAACAGC ACAAGAGTTA CAAAATCCGC TTCAACAGCG TCTCCTGCTC AGACCCGCTG 
GTGTCCTCCT GGAGGCGGAA GAGAAAGGAG TCCAGTAACA CAGACAGTGC AGGGGCCCTG 
GGCACCCTCA GGTTCTGTGT GTTCGGGCTG GGATCGCGGG CATACCCCCA CTTCTGCGCC 
TTTGCTCGTG CGGTGGACAC ACGGCTGGAG GAGCTGGGTG GGGAGCGGCT GCTGCAGCTG 
GGCCAAGGAG ATGAGCTGTG TGGCCAGGAG GAGGCCTTCC GTGGCTGGGC CCAGGCCGCC 
TTCCAGGCCT CCTGTGAGAC TTTCTGCGTG GGAGAGGATG CCAAGGCCGC CGCCCGGGAT 
ATATTCAGCC CCAAACGGAG CTGGAAGCGC CAGAGGTACC GGCTGAGTGC CCAGGCTGAG 
GGCCTCCAGC TGCTGCCAGG CCTGATCCAC GTGCACAGAA GGAAGATGTT CCAGGCTACA 
GTCCTCTCAG TGGAAAACCT GCAAAGCAGC AAGTCCACCC GGGCCACGAT CCTGGTGCGC 
CTAGACACTG GAGGCCAGGA GGCGCTGCAG TACCAGCCCG GCGACCACAT AGGCATCTGC 
CCGCCCAACC GGCCTGGCCT CGTGGAGGCG CTGCTGAGCC GTGTGGAGGA TCCGCCTCCA 
CCAGGAGAGC CAGTGGCAGT GGAGCAGCTG GAGAAGGGCA GCCCTGGTGG CCCACCCCCC 
AGCTGGGTTC GGGACCCCCG GCTGCCCCCA TGCACACTGC GCCAGGCTCT CACCTTCTTC 
CTGGACATCA CTTCCCCGCC CAGCCCTCAA CTCCTTCGAC TGCTCAGCAC CCTGGCTGAA 
GAGTCCAGTG AACAGCAGGA GCTCGAGAGC CTCAGCCAGG ACCCGCGGCG CTACGAGGAG 
TGGAAGTGGT TCCGCTGCCC CACGCTGCTG GAGGTGCTGG AGCAGTTCCC CTCCGTGGCA 
CTACCCGCCC CCCTGCTCCT CACCCAGCTG CCCCTGCTCC AGCCCCGGTA CTACTCGGTC 
AGCTCAGCAC CCAGCGCCCA CCCAGGAGAG ATCCACCTCA CGGTAGCCGT GCTGGCATAT 
AGGACGCAGG ATGGACTGGG CCCCCTTCAT TACGGAGTCT GCTCCACATG GCTAAGCCAA 
CTGAAGGCCG GAGATCCTGT ACCCTGCTTC ATCAGGGGGG CCCCCTCCTT CCGGCTGCCG 
CCTGATCCCA GCTTGCCCTG CATTCTAGTG GGCCCTGGCA CAGGCATTGC CCCCTTCCGG 
GGATTTTGGC AGGAGCGGCT GCACGACATT GACAGCAAAG GGCTGCAGCC CGCCCCCATG 
ACTTTGGTGT TCGGCTGCCG ATGCTCCCAG CTCGACCACC TTTACCGCGA CGAGGTGCAG 
GATGCCCAGC AGCGCGGAGT TTTTGGGCGC GTCCTCACCG CCTTCTCCCG GGAGCCCGAC 
AGCCCTAAGA CCTACGTGCA AGACATCCTG CGGACGGAGC TGGCTGCTGA GGTGCACCGC 
GTGCTGTGCC TCGAACGGGG CCACATGTTT GTGTGCGGCG ACGTCACCAT GGCAACCAGC 
GTCCTGCAGA CGGTGCAGCG AATCCTAGCG ACGGAGGGCG ACATGGAGCT GGACGAGGCC 
GGCGACGTCA TCGGCGTGCT GCGGGATCAG CAACGCTATC ACGAGGACAT TTTCGGGCTC 
ACACTGCGCA CGCAGGAGGT GACAAGCCGC ATACGCACCC AGAGCTTTTC CTTGCAGGAG 
CGACATCTGC GGGGCGCAGT GCCCTGGGCG TTCGACCCGC CGGGCCCAGA CACTCCCAGC 
CCCTGA

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

RefSeq	XP_011218395.1
CDS	12..3617
Translation	MGNLKSVGQEPGPPCGLGLGLGLGLCGKQGPASPNSSEPSRAPAPVPPPAPDHSPPLTRPPDGPRFPRVKNWEVGSIAYDTLSAQSQQDGPCTPRRCLGSLVFPRKLQSRPSQDPPPPEQLLSQARDFINQYYSSIKRSGSQAHEQRLQEMEAEIAAKGTYQLRESELVFGAKQAWRNAPRCVGRIQWGKLQVFDARDCSSAQEMFTYICNHIKYATNRGNLRSAITVFPQRAPGRGDFRIWNSQLVRYAGYRQQDGSVRGDPANVEITELCIQHGWTPGNGRFDVLPLLLQAPDEPPELFVLPPELVLEVPLEHPTLEWFAALGLRWYALPAVSNMLLEIGGLEFPAAPFSGWYMSTEIGTRNLCDPHRYNILEDVAVCMDLDTRTTSSLWKDKAAVEINLAVLHSYQLAKVTIVDHHAATASFMKHLENEQKARGGCPADWAWIVPPISGSLTPVFHQEMVNYVLSPAFRYQPDPWKGSATKGAGITRKKTFKEVANAVKISASLMGTVMAKRVKATILYGSETGRAQSYAQQLGRLFRKAFDPRVLCMDEYDVVSLEHETLVLVVTSTFGNGDPPENGESFAAALMEMSGPYNSSPRPEQHKSYKIRFNSVSCSDPLVSSWRRKRKESSNTDSAGALGTLRFCVFGLGSRAYPHFCAFARAVDTRLEELGGERLLQLGQGDELCGQEEAFRGWAQAAFQASCETFCVGEDAKAAARDIFSPKRSWKRQRYRLSAQAEGLQLLPGLIHVHRRKMFQATVLSVENLQSSKSTRATILVRLDTGGQEALQYQPGDHIGICPPNRPGLVEALLSRVEDPPPPGEPVAVEQLEKGSPGGPPPSWVRDPRLPPCTLRQALTFFLDITSPPSPQLLRLLSTLAEESSEQQELESLSQDPRRYEEWKWFRCPTLLEVLEQFPSVALPAPLLLTQLPLLQPRYYSVSSAPSAHPGEIHLTVAVLAYRTQDGLGPLHYGVCSTWLSQLKAGDPVPCFIRGAPSFRLPPDPSLPCILVGPGTGIAPFRGFWQERLHDIDSKGLQPAPMTLVFGCRCSQLDHLYRDEVQDAQQRGVFGRVLTAFSREPDSPKTYVQDILRTELAAEVHRVLCLERGHMFVCGDVTMATSVLQTVQRILATEGDMELDEAGDVIGVLRDQQRYHEDIFGLTLRTQEVTSRIRTQSFSLQERHLRGAVPWAFDPPGPDTPSP

Target ORF information:

RefSeq Version	XM_011220093.2
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nitric oxide synthase 3 (NOS3), transcript variant X2, mRNA.

Target ORF information:

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

XM_011220093.2

ORF Insert Sequence:

ATGGGCAACT TGAAGAGTGT GGGCCAGGAA CCCGGGCCCC CCTGCGGCCT GGGGCTGGGC 
CTGGGCCTGG GGCTGTGCGG CAAGCAGGGC CCTGCCTCCC CGAACTCCTC TGAGCCCAGC 
AGGGCACCGG CACCCGTGCC CCCACCAGCA CCGGACCACA GCCCCCCGCT CACCCGGCCC 
CCGGACGGGC CCAGGTTCCC TCGCGTGAAG AACTGGGAGG TGGGGAGCAT CGCCTATGAC 
ACCCTGAGTG CCCAGTCACA GCAGGATGGG CCCTGCACCC CCAGACGCTG CCTGGGCTCT 
CTGGTATTTC CACGGAAACT GCAGAGCCGG CCGTCTCAGG ACCCTCCACC CCCTGAGCAG 
CTGCTGAGCC AGGCCAGGGA CTTCATCAAC CAGTACTATA GCTCTATCAA GAGAAGCGGC 
TCCCAGGCCC ACGAGCAGAG GCTTCAGGAG ATGGAAGCTG AGATAGCGGC CAAGGGCACC 
TACCAGCTTC GAGAGAGCGA GCTGGTGTTC GGGGCCAAGC AGGCCTGGCG GAATGCTCCC 
CGCTGCGTGG GCCGGATCCA GTGGGGGAAG CTGCAGGTGT TCGATGCCCG GGATTGCAGC 
TCTGCCCAGG AGATGTTCAC CTACATCTGC AACCACATCA AGTATGCCAC CAACCGGGGC 
AACCTCCGCT CGGCCATCAC AGTGTTCCCC CAGCGCGCCC CAGGCCGCGG AGACTTCCGA 
ATCTGGAACA GCCAACTGGT GCGCTACGCG GGCTACAGGC AGCAGGACGG CTCGGTGCGG 
GGGGACCCAG CCAACGTGGA GATCACGGAG CTCTGCATTC AGCATGGCTG GACCCCAGGA 
AACGGCCGCT TTGACGTGCT GCCCCTACTG CTCCAGGCCC CAGATGAGCC CCCAGAACTC 
TTTGTTCTGC CCCCCGAGCT GGTCCTCGAG GTGCCCCTGG AGCACCCCAC GCTGGAGTGG 
TTTGCGGCCT TGGGCCTGCG CTGGTATGCC CTCCCGGCGG TGAGCAACAT GCTGCTGGAA 
ATTGGGGGAC TGGAGTTCCC TGCGGCCCCT TTCAGCGGCT GGTACATGAG CACTGAGATT 
GGCACACGGA ACCTGTGTGA CCCTCACCGA TATAACATCC TGGAGGATGT GGCGGTCTGC 
ATGGACTTGG ATACCCGGAC AACTTCATCC CTGTGGAAAG ACAAGGCCGC AGTGGAGATC 
AACTTGGCCG TGCTGCACAG TTACCAGCTG GCCAAAGTGA CCATCGTGGA CCACCATGCT 
GCCACTGCCT CTTTCATGAA GCACCTGGAG AACGAGCAGA AGGCTAGGGG GGGCTGCCCT 
GCCGACTGGG CCTGGATCGT GCCCCCCATC TCTGGCAGCC TCACCCCTGT CTTCCATCAG 
GAGATGGTCA ACTATGTCCT GTCCCCGGCC TTCCGCTATC AGCCAGACCC GTGGAAGGGG 
AGTGCAACCA AGGGTGCCGG CATCACCAGG AAGAAGACCT TTAAAGAAGT GGCCAACGCA 
GTGAAGATCT CTGCCTCACT CATGGGCACT GTGATGGCAA AGCGAGTGAA GGCGACCATC 
CTGTATGGCT CCGAGACTGG CCGGGCCCAG AGCTACGCAC AGCAGCTGGG TAGACTCTTC 
CGGAAGGCTT TCGACCCTCG GGTCCTGTGC ATGGATGAGT ACGATGTGGT GTCCCTCGAG 
CATGAGACGC TGGTGTTGGT GGTGACCAGC ACATTTGGGA ATGGTGATCC CCCAGAGAAT 
GGAGAGAGTT TTGCGGCGGC CCTGATGGAG ATGTCCGGCC CCTACAACAG TTCCCCTCGG 
CCAGAACAGC ACAAGAGTTA CAAAATCCGC TTCAACAGCG TCTCCTGCTC AGACCCGCTG 
GTGTCCTCCT GGAGGCGGAA GAGAAAGGAG TCCAGTAACA CAGACAGTGC AGGGGCCCTG 
GGCACCCTCA GGTTCTGTGT GTTCGGGCTG GGATCGCGGG CATACCCCCA CTTCTGCGCC 
TTTGCTCGTG CGGTGGACAC ACGGCTGGAG GAGCTGGGTG GGGAGCGGCT GCTGCAGCTG 
GGCCAAGGAG ATGAGCTGTG TGGCCAGGAG GAGGCCTTCC GTGGCTGGGC CCAGGCCGCC 
TTCCAGGCCT CCTGTGAGAC TTTCTGCGTG GGAGAGGATG CCAAGGCCGC CGCCCGGGAT 
ATATTCAGCC CCAAACGGAG CTGGAAGCGC CAGAGGTACC GGCTGAGTGC CCAGGCTGAG 
GGCCTCCAGC TGCTGCCAGG CCTGATCCAC GTGCACAGAA GGAAGATGTT CCAGGCTACA 
GTCCTCTCAG TGGAAAACCT GCAAAGCAGC AAGTCCACCC GGGCCACGAT CCTGGTGCGC 
CTAGACACTG GAGGCCAGGA GGCGCTGCAG TACCAGCCCG GCGACCACAT AGGCATCTGC 
CCGCCCAACC GGCCTGGCCT CGTGGAGGCG CTGCTGAGCC GTGTGGAGGA TCCGCCTCCA 
CCAGGAGAGC CAGTGGCAGT GGAGCAGCTG GAGAAGGGCA GCCCTGGTGG CCCACCCCCC 
AGCTGGGTTC GGGACCCCCG GCTGCCCCCA TGCACACTGC GCCAGGCTCT CACCTTCTTC 
CTGGACATCA CTTCCCCGCC CAGCCCTCAA CTCCTTCGAC TGCTCAGCAC CCTGGCTGAA 
GAGTCCAGTG AACAGCAGGA GCTCGAGAGC CTCAGCCAGG ACCCGCGGCG CTACGAGGAG 
TGGAAGTGGT TCCGCTGCCC CACGCTGCTG GAGGTGCTGG AGCAGTTCCC CTCCGTGGCA 
CTACCCGCCC CCCTGCTCCT CACCCAGCTG CCCCTGCTCC AGCCCCGGTA CTACTCGGTC 
AGCTCAGCAC CCAGCGCCCA CCCAGGAGAG ATCCACCTCA CGGTAGCCGT GCTGGCATAT 
AGGACGCAGG ATGGACTGGG CCCCCTTCAT TACGGAGTCT GCTCCACATG GCTAAGCCAA 
CTGAAGGCCG GAGATCCTGT ACCCTGCTTC ATCAGGGGGG CCCCCTCCTT CCGGCTGCCG 
CCTGATCCCA GCTTGCCCTG CATTCTAGTG GGCCCTGGCA CAGGCATTGC CCCCTTCCGG 
GGATTTTGGC AGGAGCGGCT GCACGACATT GACAGCAAAG GGCTGCAGCC CGCCCCCATG 
ACTTTGGTGT TCGGCTGCCG ATGCTCCCAG CTCGACCACC TTTACCGCGA CGAGGTGCAG 
GATGCCCAGC AGCGCGGAGT TTTTGGGCGC GTCCTCACCG CCTTCTCCCG GGAGCCCGAC 
AGCCCTAAGA CCTACGTGCA AGACATCCTG CGGACGGAGC TGGCTGCTGA GGTGCACCGC 
GTGCTGTGCC TCGAACGGGG CCACATGTTT GTGTGCGGCG ACGTCACCAT GGCAACCAGC 
GTCCTGCAGA CGGTGCAGCG AATCCTAGCG ACGGAGGGCG ACATGGAGCT GGACGAGGCC 
GGCGACGTCA TCGGCGTGCT GCGGGATCAG CAACGCTATC ACGAGGACAT TTTCGGGCTC 
ACACTGCGCA CGCAGGAGGT GACAAGCCGC ATACGCACCC AGAGCTTTTC CTTGCAGGAG 
CGACATCTGC GGGGCGCAGT GCCCTGGGCG TTCGACCCGC CGGGCCCAGA CACTCCCAGC 
CCCTGA

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

NOS3 ( XM_019795567.1 ) cDNA ORF clone, Ailuropoda melanoleuca(giant panda) -> XP_019651126.1 Ailuropoda melanoleuca nitric oxide synthase 3 (NOS3), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OAc90137
Clone ID Related Accession (Same CDS sequence)	XM_019795567.1
Accession Version	XM_019795567.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3609bp) 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	1482768000000
Organism	Ailuropoda melanoleuca(giant panda)
Product	nitric oxide synthase, endothelial isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_003217385.1) 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 Version :: Ailuropoda melanoleuca Annotation Release 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.2 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGGGCAACT TGAAGAGTGT GGGCCAGGAA CCCGGGCCCC CCTGCGGCCT GGGGCTGGGC 
CTGGGCCTGG GGCTGTGCGG CAAGCAGGGC CCTGCCTCCC CGAACTCCTC TGAGCCCAGC 
AGGGCACCGG CACCCGTGCC CCCACCAGCA CCGGACCACA GCAGCCCCCC GCTCACCCGG 
CCCCCGGACG GGCCCAGGTT CCCTCGCGTG AAGAACTGGG AGGTGGGGAG CATCGCCTAT 
GACACCCTGA GTGCCCAGTC ACAGCAGGAT GGGCCCTGCA CCCCCAGACG CTGCCTGGGC 
TCTCTGGTAT TTCCACGGAA ACTGCAGAGC CGGCCGTCTC AGGACCCTCC ACCCCCTGAG 
CAGCTGCTGA GCCAGGCCAG GGACTTCATC AACCAGTACT ATAGCTCTAT CAAGAGAAGC 
GGCTCCCAGG CCCACGAGCA GAGGCTTCAG GAGATGGAAG CTGAGATAGC GGCCAAGGGC 
ACCTACCAGC TTCGAGAGAG CGAGCTGGTG TTCGGGGCCA AGCAGGCCTG GCGGAATGCT 
CCCCGCTGCG TGGGCCGGAT CCAGTGGGGG AAGCTGCAGG TGTTCGATGC CCGGGATTGC 
AGCTCTGCCC AGGAGATGTT CACCTACATC TGCAACCACA TCAAGTATGC CACCAACCGG 
GGCAACCTCC GCTCGGCCAT CACAGTGTTC CCCCAGCGCG CCCCAGGCCG CGGAGACTTC 
CGAATCTGGA ACAGCCAACT GGTGCGCTAC GCGGGCTACA GGCAGCAGGA CGGCTCGGTG 
CGGGGGGACC CAGCCAACGT GGAGATCACG GAGCTCTGCA TTCAGCATGG CTGGACCCCA 
GGAAACGGCC GCTTTGACGT GCTGCCCCTA CTGCTCCAGG CCCCAGATGA GCCCCCAGAA 
CTCTTTGTTC TGCCCCCCGA GCTGGTCCTC GAGGTGCCCC TGGAGCACCC CACGCTGGAG 
TGGTTTGCGG CCTTGGGCCT GCGCTGGTAT GCCCTCCCGG CGGTGAGCAA CATGCTGCTG 
GAAATTGGGG GACTGGAGTT CCCTGCGGCC CCTTTCAGCG GCTGGTACAT GAGCACTGAG 
ATTGGCACAC GGAACCTGTG TGACCCTCAC CGATATAACA TCCTGGAGGA TGTGGCGGTC 
TGCATGGACT TGGATACCCG GACAACTTCA TCCCTGTGGA AAGACAAGGC CGCAGTGGAG 
ATCAACTTGG CCGTGCTGCA CAGTTACCAG CTGGCCAAAG TGACCATCGT GGACCACCAT 
GCTGCCACTG CCTCTTTCAT GAAGCACCTG GAGAACGAGC AGAAGGCTAG GGGGGGCTGC 
CCTGCCGACT GGGCCTGGAT CGTGCCCCCC ATCTCTGGCA GCCTCACCCC TGTCTTCCAT 
CAGGAGATGG TCAACTATGT CCTGTCCCCG GCCTTCCGCT ATCAGCCAGA CCCGTGGAAG 
GGGAGTGCAA CCAAGGGTGC CGGCATCACC AGGAAGAAGA CCTTTAAAGA AGTGGCCAAC 
GCAGTGAAGA TCTCTGCCTC ACTCATGGGC ACTGTGATGG CAAAGCGAGT GAAGGCGACC 
ATCCTGTATG GCTCCGAGAC TGGCCGGGCC CAGAGCTACG CACAGCAGCT GGGTAGACTC 
TTCCGGAAGG CTTTCGACCC TCGGGTCCTG TGCATGGATG AGTACGATGT GGTGTCCCTC 
GAGCATGAGA CGCTGGTGTT GGTGGTGACC AGCACATTTG GGAATGGTGA TCCCCCAGAG 
AATGGAGAGA GTTTTGCGGC GGCCCTGATG GAGATGTCCG GCCCCTACAA CAGTTCCCCT 
CGGCCAGAAC AGCACAAGAG TTACAAAATC CGCTTCAACA GCGTCTCCTG CTCAGACCCG 
CTGGTGTCCT CCTGGAGGCG GAAGAGAAAG GAGTCCAGTA ACACAGACAG TGCAGGGGCC 
CTGGGCACCC TCAGGTTCTG TGTGTTCGGG CTGGGATCGC GGGCATACCC CCACTTCTGC 
GCCTTTGCTC GTGCGGTGGA CACACGGCTG GAGGAGCTGG GTGGGGAGCG GCTGCTGCAG 
CTGGGCCAAG GAGATGAGCT GTGTGGCCAG GAGGAGGCCT TCCGTGGCTG GGCCCAGGCC 
GCCTTCCAGG CCTCCTGTGA GACTTTCTGC GTGGGAGAGG ATGCCAAGGC CGCCGCCCGG 
GATATATTCA GCCCCAAACG GAGCTGGAAG CGCCAGAGGT ACCGGCTGAG TGCCCAGGCT 
GAGGGCCTCC AGCTGCTGCC AGGCCTGATC CACGTGCACA GAAGGAAGAT GTTCCAGGCT 
ACAGTCCTCT CAGTGGAAAA CCTGCAAAGC AGCAAGTCCA CCCGGGCCAC GATCCTGGTG 
CGCCTAGACA CTGGAGGCCA GGAGGCGCTG CAGTACCAGC CCGGCGACCA CATAGGCATC 
TGCCCGCCCA ACCGGCCTGG CCTCGTGGAG GCGCTGCTGA GCCGTGTGGA GGATCCGCCT 
CCACCAGGAG AGCCAGTGGC AGTGGAGCAG CTGGAGAAGG GCAGCCCTGG TGGCCCACCC 
CCCAGCTGGG TTCGGGACCC CCGGCTGCCC CCATGCACAC TGCGCCAGGC TCTCACCTTC 
TTCCTGGACA TCACTTCCCC GCCCAGCCCT CAACTCCTTC GACTGCTCAG CACCCTGGCT 
GAAGAGTCCA GTGAACAGCA GGAGCTCGAG AGCCTCAGCC AGGACCCGCG GCGCTACGAG 
GAGTGGAAGT GGTTCCGCTG CCCCACGCTG CTGGAGGTGC TGGAGCAGTT CCCCTCCGTG 
GCACTACCCG CCCCCCTGCT CCTCACCCAG CTGCCCCTGC TCCAGCCCCG GTACTACTCG 
GTCAGCTCAG CACCCAGCGC CCACCCAGGA GAGATCCACC TCACGGTAGC CGTGCTGGCA 
TATAGGACGC AGGATGGACT GGGCCCCCTT CATTACGGAG TCTGCTCCAC ATGGCTAAGC 
CAACTGAAGG CCGGAGATCC TGTACCCTGC TTCATCAGGG GGGCCCCCTC CTTCCGGCTG 
CCGCCTGATC CCAGCTTGCC CTGCATTCTA GTGGGCCCTG GCACAGGCAT TGCCCCCTTC 
CGGGGATTTT GGCAGGAGCG GCTGCACGAC ATTGACAGCA AAGGGCTGCA GCCCGCCCCC 
ATGACTTTGG TGTTCGGCTG CCGATGCTCC CAGCTCGACC ACCTTTACCG CGACGAGGTG 
CAGGATGCCC AGCAGCGCGG AGTTTTTGGG CGCGTCCTCA CCGCCTTCTC CCGGGAGCCC 
GACAGCCCTA AGACCTACGT GCAAGACATC CTGCGGACGG AGCTGGCTGC TGAGGTGCAC 
CGCGTGCTGT GCCTCGAACG GGGCCACATG TTTGTGTGCG GCGACGTCAC CATGGCAACC 
AGCGTCCTGC AGACGGTGCA GCGAATCCTA GCGACGGAGG GCGACATGGA GCTGGACGAG 
GCCGGCGACG TCATCGGCGT GCTGCGGGAT CAGCAACGCT ATCACGAGGA CATTTTCGGG 
CTCACACTGC GCACGCAGGA GGTGACAAGC CGCATACGCA CCCAGAGCTT TTCCTTGCAG 
GAGCGACATC TGCGGGGCGC AGTGCCCTGG GCGTTCGACC CGCCGGGCCC AGACACTCCC 
AGCCCCTGA

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

RefSeq	XP_019651126.1
CDS	12..3620
Translation	MGNLKSVGQEPGPPCGLGLGLGLGLCGKQGPASPNSSEPSRAPAPVPPPAPDHSSPPLTRPPDGPRFPRVKNWEVGSIAYDTLSAQSQQDGPCTPRRCLGSLVFPRKLQSRPSQDPPPPEQLLSQARDFINQYYSSIKRSGSQAHEQRLQEMEAEIAAKGTYQLRESELVFGAKQAWRNAPRCVGRIQWGKLQVFDARDCSSAQEMFTYICNHIKYATNRGNLRSAITVFPQRAPGRGDFRIWNSQLVRYAGYRQQDGSVRGDPANVEITELCIQHGWTPGNGRFDVLPLLLQAPDEPPELFVLPPELVLEVPLEHPTLEWFAALGLRWYALPAVSNMLLEIGGLEFPAAPFSGWYMSTEIGTRNLCDPHRYNILEDVAVCMDLDTRTTSSLWKDKAAVEINLAVLHSYQLAKVTIVDHHAATASFMKHLENEQKARGGCPADWAWIVPPISGSLTPVFHQEMVNYVLSPAFRYQPDPWKGSATKGAGITRKKTFKEVANAVKISASLMGTVMAKRVKATILYGSETGRAQSYAQQLGRLFRKAFDPRVLCMDEYDVVSLEHETLVLVVTSTFGNGDPPENGESFAAALMEMSGPYNSSPRPEQHKSYKIRFNSVSCSDPLVSSWRRKRKESSNTDSAGALGTLRFCVFGLGSRAYPHFCAFARAVDTRLEELGGERLLQLGQGDELCGQEEAFRGWAQAAFQASCETFCVGEDAKAAARDIFSPKRSWKRQRYRLSAQAEGLQLLPGLIHVHRRKMFQATVLSVENLQSSKSTRATILVRLDTGGQEALQYQPGDHIGICPPNRPGLVEALLSRVEDPPPPGEPVAVEQLEKGSPGGPPPSWVRDPRLPPCTLRQALTFFLDITSPPSPQLLRLLSTLAEESSEQQELESLSQDPRRYEEWKWFRCPTLLEVLEQFPSVALPAPLLLTQLPLLQPRYYSVSSAPSAHPGEIHLTVAVLAYRTQDGLGPLHYGVCSTWLSQLKAGDPVPCFIRGAPSFRLPPDPSLPCILVGPGTGIAPFRGFWQERLHDIDSKGLQPAPMTLVFGCRCSQLDHLYRDEVQDAQQRGVFGRVLTAFSREPDSPKTYVQDILRTELAAEVHRVLCLERGHMFVCGDVTMATSVLQTVQRILATEGDMELDEAGDVIGVLRDQQRYHEDIFGLTLRTQEVTSRIRTQSFSLQERHLRGAVPWAFDPPGPDTPSP

Target ORF information:

RefSeq Version	XM_019795567.1
Organism	Ailuropoda melanoleuca(giant panda)
Definition	Ailuropoda melanoleuca nitric oxide synthase 3 (NOS3), transcript variant X1, mRNA.

Target ORF information:

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

XM_019795567.1

ORF Insert Sequence:

ATGGGCAACT TGAAGAGTGT GGGCCAGGAA CCCGGGCCCC CCTGCGGCCT GGGGCTGGGC 
CTGGGCCTGG GGCTGTGCGG CAAGCAGGGC CCTGCCTCCC CGAACTCCTC TGAGCCCAGC 
AGGGCACCGG CACCCGTGCC CCCACCAGCA CCGGACCACA GCAGCCCCCC GCTCACCCGG 
CCCCCGGACG GGCCCAGGTT CCCTCGCGTG AAGAACTGGG AGGTGGGGAG CATCGCCTAT 
GACACCCTGA GTGCCCAGTC ACAGCAGGAT GGGCCCTGCA CCCCCAGACG CTGCCTGGGC 
TCTCTGGTAT TTCCACGGAA ACTGCAGAGC CGGCCGTCTC AGGACCCTCC ACCCCCTGAG 
CAGCTGCTGA GCCAGGCCAG GGACTTCATC AACCAGTACT ATAGCTCTAT CAAGAGAAGC 
GGCTCCCAGG CCCACGAGCA GAGGCTTCAG GAGATGGAAG CTGAGATAGC GGCCAAGGGC 
ACCTACCAGC TTCGAGAGAG CGAGCTGGTG TTCGGGGCCA AGCAGGCCTG GCGGAATGCT 
CCCCGCTGCG TGGGCCGGAT CCAGTGGGGG AAGCTGCAGG TGTTCGATGC CCGGGATTGC 
AGCTCTGCCC AGGAGATGTT CACCTACATC TGCAACCACA TCAAGTATGC CACCAACCGG 
GGCAACCTCC GCTCGGCCAT CACAGTGTTC CCCCAGCGCG CCCCAGGCCG CGGAGACTTC 
CGAATCTGGA ACAGCCAACT GGTGCGCTAC GCGGGCTACA GGCAGCAGGA CGGCTCGGTG 
CGGGGGGACC CAGCCAACGT GGAGATCACG GAGCTCTGCA TTCAGCATGG CTGGACCCCA 
GGAAACGGCC GCTTTGACGT GCTGCCCCTA CTGCTCCAGG CCCCAGATGA GCCCCCAGAA 
CTCTTTGTTC TGCCCCCCGA GCTGGTCCTC GAGGTGCCCC TGGAGCACCC CACGCTGGAG 
TGGTTTGCGG CCTTGGGCCT GCGCTGGTAT GCCCTCCCGG CGGTGAGCAA CATGCTGCTG 
GAAATTGGGG GACTGGAGTT CCCTGCGGCC CCTTTCAGCG GCTGGTACAT GAGCACTGAG 
ATTGGCACAC GGAACCTGTG TGACCCTCAC CGATATAACA TCCTGGAGGA TGTGGCGGTC 
TGCATGGACT TGGATACCCG GACAACTTCA TCCCTGTGGA AAGACAAGGC CGCAGTGGAG 
ATCAACTTGG CCGTGCTGCA CAGTTACCAG CTGGCCAAAG TGACCATCGT GGACCACCAT 
GCTGCCACTG CCTCTTTCAT GAAGCACCTG GAGAACGAGC AGAAGGCTAG GGGGGGCTGC 
CCTGCCGACT GGGCCTGGAT CGTGCCCCCC ATCTCTGGCA GCCTCACCCC TGTCTTCCAT 
CAGGAGATGG TCAACTATGT CCTGTCCCCG GCCTTCCGCT ATCAGCCAGA CCCGTGGAAG 
GGGAGTGCAA CCAAGGGTGC CGGCATCACC AGGAAGAAGA CCTTTAAAGA AGTGGCCAAC 
GCAGTGAAGA TCTCTGCCTC ACTCATGGGC ACTGTGATGG CAAAGCGAGT GAAGGCGACC 
ATCCTGTATG GCTCCGAGAC TGGCCGGGCC CAGAGCTACG CACAGCAGCT GGGTAGACTC 
TTCCGGAAGG CTTTCGACCC TCGGGTCCTG TGCATGGATG AGTACGATGT GGTGTCCCTC 
GAGCATGAGA CGCTGGTGTT GGTGGTGACC AGCACATTTG GGAATGGTGA TCCCCCAGAG 
AATGGAGAGA GTTTTGCGGC GGCCCTGATG GAGATGTCCG GCCCCTACAA CAGTTCCCCT 
CGGCCAGAAC AGCACAAGAG TTACAAAATC CGCTTCAACA GCGTCTCCTG CTCAGACCCG 
CTGGTGTCCT CCTGGAGGCG GAAGAGAAAG GAGTCCAGTA ACACAGACAG TGCAGGGGCC 
CTGGGCACCC TCAGGTTCTG TGTGTTCGGG CTGGGATCGC GGGCATACCC CCACTTCTGC 
GCCTTTGCTC GTGCGGTGGA CACACGGCTG GAGGAGCTGG GTGGGGAGCG GCTGCTGCAG 
CTGGGCCAAG GAGATGAGCT GTGTGGCCAG GAGGAGGCCT TCCGTGGCTG GGCCCAGGCC 
GCCTTCCAGG CCTCCTGTGA GACTTTCTGC GTGGGAGAGG ATGCCAAGGC CGCCGCCCGG 
GATATATTCA GCCCCAAACG GAGCTGGAAG CGCCAGAGGT ACCGGCTGAG TGCCCAGGCT 
GAGGGCCTCC AGCTGCTGCC AGGCCTGATC CACGTGCACA GAAGGAAGAT GTTCCAGGCT 
ACAGTCCTCT CAGTGGAAAA CCTGCAAAGC AGCAAGTCCA CCCGGGCCAC GATCCTGGTG 
CGCCTAGACA CTGGAGGCCA GGAGGCGCTG CAGTACCAGC CCGGCGACCA CATAGGCATC 
TGCCCGCCCA ACCGGCCTGG CCTCGTGGAG GCGCTGCTGA GCCGTGTGGA GGATCCGCCT 
CCACCAGGAG AGCCAGTGGC AGTGGAGCAG CTGGAGAAGG GCAGCCCTGG TGGCCCACCC 
CCCAGCTGGG TTCGGGACCC CCGGCTGCCC CCATGCACAC TGCGCCAGGC TCTCACCTTC 
TTCCTGGACA TCACTTCCCC GCCCAGCCCT CAACTCCTTC GACTGCTCAG CACCCTGGCT 
GAAGAGTCCA GTGAACAGCA GGAGCTCGAG AGCCTCAGCC AGGACCCGCG GCGCTACGAG 
GAGTGGAAGT GGTTCCGCTG CCCCACGCTG CTGGAGGTGC TGGAGCAGTT CCCCTCCGTG 
GCACTACCCG CCCCCCTGCT CCTCACCCAG CTGCCCCTGC TCCAGCCCCG GTACTACTCG 
GTCAGCTCAG CACCCAGCGC CCACCCAGGA GAGATCCACC TCACGGTAGC CGTGCTGGCA 
TATAGGACGC AGGATGGACT GGGCCCCCTT CATTACGGAG TCTGCTCCAC ATGGCTAAGC 
CAACTGAAGG CCGGAGATCC TGTACCCTGC TTCATCAGGG GGGCCCCCTC CTTCCGGCTG 
CCGCCTGATC CCAGCTTGCC CTGCATTCTA GTGGGCCCTG GCACAGGCAT TGCCCCCTTC 
CGGGGATTTT GGCAGGAGCG GCTGCACGAC ATTGACAGCA AAGGGCTGCA GCCCGCCCCC 
ATGACTTTGG TGTTCGGCTG CCGATGCTCC CAGCTCGACC ACCTTTACCG CGACGAGGTG 
CAGGATGCCC AGCAGCGCGG AGTTTTTGGG CGCGTCCTCA CCGCCTTCTC CCGGGAGCCC 
GACAGCCCTA AGACCTACGT GCAAGACATC CTGCGGACGG AGCTGGCTGC TGAGGTGCAC 
CGCGTGCTGT GCCTCGAACG GGGCCACATG TTTGTGTGCG GCGACGTCAC CATGGCAACC 
AGCGTCCTGC AGACGGTGCA GCGAATCCTA GCGACGGAGG GCGACATGGA GCTGGACGAG 
GCCGGCGACG TCATCGGCGT GCTGCGGGAT CAGCAACGCT ATCACGAGGA CATTTTCGGG 
CTCACACTGC GCACGCAGGA GGTGACAAGC CGCATACGCA CCCAGAGCTT TTCCTTGCAG 
GAGCGACATC TGCGGGGCGC AGTGCCCTGG GCGTTCGACC CGCCGGGCCC AGACACTCCC 
AGCCCCTGA

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

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NOS3 cDNA ORF clone, Ailuropoda melanoleuca(giant panda)

Gene

Clones

gRNAs

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

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