ADAMTS9 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS9
Entrez Gene ID	698341
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 9
Gene Type	protein-coding
Organism	Macaca mulatta(Rhesus monkey)

mRNA and Protein(s)

mRNA	Protein	Name
XM_015130469.1	XP_014985955.1	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X2
XM_015130470.1	XP_014985956.1	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X3
XM_015130469.2	XP_014985955.1	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X2
XM_015130470.2	XP_014985956.1	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X3
XM_015130468.2	XP_014985954.1	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X1
XM_015130468.1	XP_014985954.1	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X1

Pathways from BioSystems

Homologies

Caenorhabditis elegans (roundworm)	gon-1	NP_001255448.1
Mus musculus (house mouse)	Adamts9	NP_780523.2
Gallus gallus (chicken)	ADAMTS9	XP_004944721.1
Rattus norvegicus (Norway rat)	Adamts9	NP_001101347.1
Danio rerio (zebrafish)	adamts9	NP_001244125.1
Pan troglodytes (chimpanzee)	ADAMTS9	XP_528704.2
	ADAMTS9	XP_001091856.1
Homo sapiens (human)	ADAMTS9	NP_891550.1
Canis lupus familiaris (dog)	ADAMTS9	XP_848393.1
Bos taurus (cattle)	ADAMTS9	NP_001193502.1

Gene Ontology

The following ADAMTS9 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS9 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)
OMb28193	XM_015130468.1 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00
OMb28194	XM_015130469.1 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00
OMb28195	XM_015130470.1 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00
OMb79328	XM_015130468.2 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00
OMb79329	XM_015130469.2 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00
OMb79330	XM_015130470.2 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
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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)

ADAMTS9 ( XM_015130468.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014985954.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OMb28193
Clone ID Related Accession (Same CDS sequence)	XM_015130468.1
Accession Version	XM_015130468.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5808bp) 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	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804622.1) 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##

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG TAGCCTCTAT CTATAAAGAC CCAAGTATTG GAAATTTAAT TAATATTGTT 
ATTGTGAACT TAATTGTGAT TCATAATGAA CAGGATGGGC CTTCCATATC TTTTAATGCT 
CAGACAACAT TAAAAAACTT TTGCCAGTGG CAGCATTCGA AGAACAGTCC AGGTGGAATC 
CATCATGATA CTGCTGTTCT CTTAACAAGA CAGGATATCT GCAGAGCTCA CGACAAATGT 
GATACCTTAG GCCTGGCTGA ACTGGGAACC ATTTGTGATC CCTACAGAAG CTGTTCTATT 
AGTGAAGATA GTGGATTGAG TACAGCTTTT ACGATTGCCC ATGAGCTGGG TCATGTGTTT 
AACATGCCTC ATGATGACAA CAACAAATGT AAAGAAGAAG GAGTTAAGAG TCCCCAGCAT 
GTCATGGCTC CAACACTGAA CTTCTACACC AACCCCTGGA TGTGGTCAAA GTGTAGTCGA 
AAATATATCA CTGAGTTTTT AGACACTGGT TATGGCGAGT GTTTGCTTAA TGAACCTGAA 
TCCAGACCCT ACCCTTTGCC TGTCCAACTG CCAGGCATCC TTTACAACGT GAATAAACAA 
TGTGAATTGA TTTTTGGACC AGGTTCTCAG GTGTGCCCAT ATATGATGCA ATGTAGACGG 
CTCTGGTGCA ATAATGTCAA TGGAGTACAC AAAGGCTGCC GGACTCAGCA CACACCCTGG 
GCCGATGGGA CGGAGTGCGA GCCTGGAAAG CACTGCAAGT ATGGATTTTG TGTTCCCAAA 
GAAATGGATG TCCCTGTGAC AGATGGATCC TGGGGAAGTT GGAGTCCCTT TGGAACCTGC 
TCCAGAACAT GTGGAGGGGG CATCAAAACA GCCATTCGAG AGTGCAACAG ACCAGAGCCA 
AAAAATGGTG GAAAATACTG TGTAGGACGT AGAATGAAAT TTAAGTCCTG CAACACGGAG 
CCATGTCTCA AGCAGAAGCG AGACTTCCGA GATGAACAGT GTGCTCACTT TGACGGGAAG 
CATTTTAACA TCAACGGTCT GCTTCCCAAT GTGCGCTGGG TCCCTAAGTA TAGTGGAATT 
CTGATGAAGG ACCGGTGCAA GTTGTTCTGC AGAGTGGCAG GGAACACGGC CTACTATCAG 
CTTCGAGACA GAGTGATAGA CGGAACTCCT TGTGGCCAGG ACACAAACGA TATCTGTGTC 
CAGGGTCTTT GCCGGCAAGC TGGATGCGAT CATGTTTTAA ACTCAAAAGC CCGGAGAGAT 
AAATGTGGGG TTTGTGGTGG CGATAATTCT TCATGCAAAA CAGTGGCAGG AACATTTAAT 
ACAGTACATT ATGGTTACAA CACTGTGGTC CGAATTCCAG CAGGTGCTAC CAATATTGAT 
GTGCGGCAGC ACAGTTTCTC AGGGGAAACA GACGACGACA ACTACTTAGC TTTATCAAGC 
AGTAAAGGTG AATTCTTGCT AAATGGAAAC TTTGTTGTCA CAATGGCCAA AAGGGAAATC 
CGCATTGGGA ATGCTGTGGT AGAGTACAGT GGATCCGAGA CTGCCGTAGA AAGAATTAAC 
TCAACAGATC GCATTGAGCA AGAACTTTTG CTTCAGGTTT TGTCGGTGGG AAAGTTATAC 
AACCCCGATG TACGCTATTC TTTCAATATT CCAATTGAAG ATAAACCTCA GCAGTTTTAC 
TGGAACAGTC ATGGGCCGTG GCAAGCATGC AGTAAACCCT GCCAAGGGGA ACGGAAACGA 
AAACTTGTTT GCACCAGGGA ATCTGATCAG CTTACTGTTT CTGATCAAAG ATGCGATCGG 
CTGCCCCAGC CTGGACCCAT TACTGAACCC TGCGGCACAG ACTGTGACCT GAGGTGGCAT 
GTGGCCAGCA GGAGTGAATG TAGTGCCCAG TGTGGTTTGG GTTACCGCAC ATTAGACATC 
TACTGTGCCA AATATAGCAG GCTGGATGGG AAGACCGAGA AGGTTGATGA TGGTTTCTGC 
AGTAGTCATC CCAAACCAAG CAACCGTGAA AAATGCTCAG GGGAATGTAA CACAGGTGGC 
TGGCGCTATT CTGCCTGGAC TGAATGTTCT AAAAGCTGTG ATGGTGGGAC CCAGAGGAGA 
AGGGCCATTT GTGTCAATAC CCGAAATGAT GTGCTGGATG ACAGCAAATG CACACATCAA 
GAGAAAGTTA CCATTCAGAG GTGCAGTGAG TTTCCTTGTC CACAGTGGAA ATCTGGAGAC 
TGGTCAGAGT GCTTGGTCAC CTGTGGAAAA GGGCATAAGC ACCGCCAGGT CTGGTGTCAG 
TTTGGTGAAG ATCGATTAAA TGATAGAATG TGTGACCCTG AGACCAAGCC AACATCTATG 
CAGACTTGTC AGCAGCCGGA ATGTGCATCC TGGCAGGCGG GTCCCTGGGG ACAGTGCAGT 
GTCACTTGTG GACAGGGATA CCAGCTAAGA GCAGTGAAAT GCATCATTGG GACTTATATG 
TCAGTGGTAG ATGACAATGA CTGTAATGCA GCAACTAGAC CAACTGATAC CCAGGACTGT 
GAATTACCAT CTTGTCATCC TCCCCCAGCT GCCCCGGAAA CGAGGAGAAG CACATACAGT 
GCACCAAGAA CCCAGTGGCG ATTTGGGTCT TGGACCCCAT GCTCAGCCAC TTGTGGGAAA 
GGTACCCGAA TGAGATACGT CAGCTGCCGA GATGAGAATG GCTCTGTGGC TGATGAGAGT 
GCCTGTGCTA CCCTGCCTAG ACCAGTGGCA AAGGAAGAAT GTTCTGTGAC ACCCTGTGGG 
CAATGGAAGG CCTTGGACTG GAGCTCTTGC TCTGTAACCT GTGGGCAAGG TAGGGCAACC 
CGGCAAGTGG TGTGTGTCAA CTATAGTGAC CATGTGATCG ATCGGAGTGA GTGCGACCAG 
GATTATATCC CAGAAACCGA CCAGGACTGT TCCATGTCAC CATGCCCTCA AAGGACCCCA 
GACAGTGGCT TAGCTCAGCA CCCCTTCCAA AATGAGGACT ATCGTCCCCG GAGCGCCAGC 
CCTAGCCGCA CCCACGTACT CGGTGGAAAC CAGTGGAGAA CTGGCCCCTG GGGAGCATGT 
TCCAGTACCT GTGCTGGCGG ATCCCAGCGG CGTGTTGTTG TATGTCAGGA CGAAAATGGA 
TACACCGCAA ACGACTGTGT GGAGAGAATA AAACCTGATG AGCAAAGAGC TTGTGAATCC 
GGCCCTTGTC CTCAGTGGGC TTATGGCAAC TGGGGAGAGT GCACTAAGCT ATGTGGTGGA 
GGCATAAGAA CAAGACTGGT GGTCTGTCAG CGGTCCAACG GTGAACGGTT TCCAGATCTG 
AGCTGTGAAA TTCTTGATAA ACCTCCCGAT CGTGAGCAGT GTAACACACA TGCTTGTCCA 
CACGACGCTG CATGGAGTAC TGGCCCTTGG AGCTCGTGTT CTGTCTCTTG TGGTCGAGGG 
CATAAACAAC GAAATGTTTA CTGCATGGCA AAAGATGGAA GCCATTTAGA AAGTGATTAC 
TGTAAACACC TGGCTAAGCC ACATGGGCAC AGAAAGTGCC GAGGAGGAAG ATGCCCCAAA 
TGGAAAACTG GCGCTTGGAG TCAGTGCTCT GTGTCCTGTG GCCGAGGCGT ACAGCAGAGG 
CATGTGGGCT GTCAGATCGG AACACATAAA ATAGCCAGAG AGACCGAGTG CAACCCCTAC 
ACCAGACCGG AGTCGGAACG CGACTGCCAA GGCCCACGGT GTCCCCTCTA CACTTGGAGG 
GCAGAGGAAT GGCAAGAATG CACCAAAACC TGCGGTGAAG GCTCCAGGTA CCGCAAGGTG 
GTGTGTGTGG ATGACAGCAA AAATGAGGTG CATGGTGCAC GCTGTGACGT GAGCAAGCGG 
CCGGCAGACC ACGAAAGCTG TAGTTTGCAA CCCTGCGAGT ATGTCTGGAT CACAGGAGAA 
TGGTCAGAGT GCTCAGTGAC CTGTGGAAAA GGCTACAAAC AAAGGCTTGT CTCATGCAGC 
GAGATTTACA CCGGGAAGGA GAATTATGAA TACAGCTACC AAACCACTGT CAACTGCCCG 
GGCACGCAGC CCCCCAGTGT TCACCCCTGT TACCTGAGGG AGTGCCCTGT CTCGGCCACC 
TGGAGAGTTG GCAACTGGGG AAGTTGCTCA GTGTCTTGTG GTGTTGGAGT GATGCAGAGA 
TCTGTGCAAT GTTTAACCAA TGAGGACCAA CCCAGCCACT TATGCCACAC TGATTTGAAG 
CCAGAAGAAC GAAAAACCTG CCGCAATATC TATAACTGTG AGTTACCCCA GAATTGCAAG 
GAAGTAAAAA GACTTAAAGG TGCCAGTGAA GATGGTGAAT ATTTCCTGAT GATTAGAGGA 
AAGCTTCTGA AGATATTCTG TGCGGGGATG CACTCTGACC ACCCCAAAGA GTACGTGACA 
CTGGTGCATG GAGACTCAGA GAATTTCTCC GAGGTTTATG GACACAGGTT ACACAACCCA 
ACGGAATGTC CCTATAACGG GAGCCGGCGT GATGATTGCC AATGTCGGAA GGATTACACG 
GCGGCTGGGT TTTCCAGTTT TCAGAAAATC AGAATAGACC TGACCAGCAT GCAGATAATA 
ACCACTGACT TACAATTTGC AAGGACAAGC GAAGGACATC CCGTCCCTTT TGCCACAGCC 
GGGGATTGCT ACAGCGCTGC CAAGTGCCCA CAGGGTCGTT TTAGCATCAA CCTTTATGGA 
ACCGGCCTTT CTTTAACTGA ATCTGCCAGA TGGATATCAC AAGGGAATTA CGCTGTCTCT 
GACATCAAGA AGTCTCCGGA TGGTACCCGA GTCATAGGGA AATGCGGTGG TTACTGTGGG 
AAATGCACTC CATCCTCTGG TACTGGCCTG GAGGTGCGAG TTTTATAA

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

RefSeq	XP_014985954.1
CDS	362..6169
Translation	MQFVSWATLLTLLVRDLAEMGIPDAAAAVRKDRLHPRQVKLLETLSEYEIVSPIRVNALGEPFPTNVHFKRRRRSINSATDPWPAFASSSSSSTSSQAHYRLSAFGQQFLFNLTANAGFIAPLFTVTLLGTPGVNQTKFYSEEEAELKHCFYKGYVNTKSEHTAVISLCSGMLGTFRSYDGDYFIEPLQSMDEQEDEEEQNKPHIIYRRSTPQREPSTGRHACDTSEHKNRHSKDKKKTRARKWGERINLADDVAALNSGLATEAFSAYGNKTDNTTEKRTHRRTKRFLSYPRFVEVLVVADNRMVSYHGENLQHYILTLMSIVASIYKDPSIGNLINIVIVNLIVIHNEQDGPSISFNAQTTLKNFCQWQHSKNSPGGIHHDTAVLLTRQDICRAHDKCDTLGLAELGTICDPYRSCSISEDSGLSTAFTIAHELGHVFNMPHDDNNKCKEEGVKSPQHVMAPTLNFYTNPWMWSKCSRKYITEFLDTGYGECLLNEPESRPYPLPVQLPGILYNVNKQCELIFGPGSQVCPYMMQCRRLWCNNVNGVHKGCRTQHTPWADGTECEPGKHCKYGFCVPKEMDVPVTDGSWGSWSPFGTCSRTCGGGIKTAIRECNRPEPKNGGKYCVGRRMKFKSCNTEPCLKQKRDFRDEQCAHFDGKHFNINGLLPNVRWVPKYSGILMKDRCKLFCRVAGNTAYYQLRDRVIDGTPCGQDTNDICVQGLCRQAGCDHVLNSKARRDKCGVCGGDNSSCKTVAGTFNTVHYGYNTVVRIPAGATNIDVRQHSFSGETDDDNYLALSSSKGEFLLNGNFVVTMAKREIRIGNAVVEYSGSETAVERINSTDRIEQELLLQVLSVGKLYNPDVRYSFNIPIEDKPQQFYWNSHGPWQACSKPCQGERKRKLVCTRESDQLTVSDQRCDRLPQPGPITEPCGTDCDLRWHVASRSECSAQCGLGYRTLDIYCAKYSRLDGKTEKVDDGFCSSHPKPSNREKCSGECNTGGWRYSAWTECSKSCDGGTQRRRAICVNTRNDVLDDSKCTHQEKVTIQRCSEFPCPQWKSGDWSECLVTCGKGHKHRQVWCQFGEDRLNDRMCDPETKPTSMQTCQQPECASWQAGPWGQCSVTCGQGYQLRAVKCIIGTYMSVVDDNDCNAATRPTDTQDCELPSCHPPPAAPETRRSTYSAPRTQWRFGSWTPCSATCGKGTRMRYVSCRDENGSVADESACATLPRPVAKEECSVTPCGQWKALDWSSCSVTCGQGRATRQVVCVNYSDHVIDRSECDQDYIPETDQDCSMSPCPQRTPDSGLAQHPFQNEDYRPRSASPSRTHVLGGNQWRTGPWGACSSTCAGGSQRRVVVCQDENGYTANDCVERIKPDEQRACESGPCPQWAYGNWGECTKLCGGGIRTRLVVCQRSNGERFPDLSCEILDKPPDREQCNTHACPHDAAWSTGPWSSCSVSCGRGHKQRNVYCMAKDGSHLESDYCKHLAKPHGHRKCRGGRCPKWKTGAWSQCSVSCGRGVQQRHVGCQIGTHKIARETECNPYTRPESERDCQGPRCPLYTWRAEEWQECTKTCGEGSRYRKVVCVDDSKNEVHGARCDVSKRPADHESCSLQPCEYVWITGEWSECSVTCGKGYKQRLVSCSEIYTGKENYEYSYQTTVNCPGTQPPSVHPCYLRECPVSATWRVGNWGSCSVSCGVGVMQRSVQCLTNEDQPSHLCHTDLKPEERKTCRNIYNCELPQNCKEVKRLKGASEDGEYFLMIRGKLLKIFCAGMHSDHPKEYVTLVHGDSENFSEVYGHRLHNPTECPYNGSRRDDCQCRKDYTAAGFSSFQKIRIDLTSMQIITTDLQFARTSEGHPVPFATAGDCYSAAKCPQGRFSINLYGTGLSLTESARWISQGNYAVSDIKKSPDGTRVIGKCGGYCGKCTPSSGTGLEVRVL

Target ORF information:

RefSeq Version	XM_015130468.1
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X1, mRNA.

Target ORF information:

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

XM_015130468.1

ORF Insert Sequence:

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG TAGCCTCTAT CTATAAAGAC CCAAGTATTG GAAATTTAAT TAATATTGTT 
ATTGTGAACT TAATTGTGAT TCATAATGAA CAGGATGGGC CTTCCATATC TTTTAATGCT 
CAGACAACAT TAAAAAACTT TTGCCAGTGG CAGCATTCGA AGAACAGTCC AGGTGGAATC 
CATCATGATA CTGCTGTTCT CTTAACAAGA CAGGATATCT GCAGAGCTCA CGACAAATGT 
GATACCTTAG GCCTGGCTGA ACTGGGAACC ATTTGTGATC CCTACAGAAG CTGTTCTATT 
AGTGAAGATA GTGGATTGAG TACAGCTTTT ACGATTGCCC ATGAGCTGGG TCATGTGTTT 
AACATGCCTC ATGATGACAA CAACAAATGT AAAGAAGAAG GAGTTAAGAG TCCCCAGCAT 
GTCATGGCTC CAACACTGAA CTTCTACACC AACCCCTGGA TGTGGTCAAA GTGTAGTCGA 
AAATATATCA CTGAGTTTTT AGACACTGGT TATGGCGAGT GTTTGCTTAA TGAACCTGAA 
TCCAGACCCT ACCCTTTGCC TGTCCAACTG CCAGGCATCC TTTACAACGT GAATAAACAA 
TGTGAATTGA TTTTTGGACC AGGTTCTCAG GTGTGCCCAT ATATGATGCA ATGTAGACGG 
CTCTGGTGCA ATAATGTCAA TGGAGTACAC AAAGGCTGCC GGACTCAGCA CACACCCTGG 
GCCGATGGGA CGGAGTGCGA GCCTGGAAAG CACTGCAAGT ATGGATTTTG TGTTCCCAAA 
GAAATGGATG TCCCTGTGAC AGATGGATCC TGGGGAAGTT GGAGTCCCTT TGGAACCTGC 
TCCAGAACAT GTGGAGGGGG CATCAAAACA GCCATTCGAG AGTGCAACAG ACCAGAGCCA 
AAAAATGGTG GAAAATACTG TGTAGGACGT AGAATGAAAT TTAAGTCCTG CAACACGGAG 
CCATGTCTCA AGCAGAAGCG AGACTTCCGA GATGAACAGT GTGCTCACTT TGACGGGAAG 
CATTTTAACA TCAACGGTCT GCTTCCCAAT GTGCGCTGGG TCCCTAAGTA TAGTGGAATT 
CTGATGAAGG ACCGGTGCAA GTTGTTCTGC AGAGTGGCAG GGAACACGGC CTACTATCAG 
CTTCGAGACA GAGTGATAGA CGGAACTCCT TGTGGCCAGG ACACAAACGA TATCTGTGTC 
CAGGGTCTTT GCCGGCAAGC TGGATGCGAT CATGTTTTAA ACTCAAAAGC CCGGAGAGAT 
AAATGTGGGG TTTGTGGTGG CGATAATTCT TCATGCAAAA CAGTGGCAGG AACATTTAAT 
ACAGTACATT ATGGTTACAA CACTGTGGTC CGAATTCCAG CAGGTGCTAC CAATATTGAT 
GTGCGGCAGC ACAGTTTCTC AGGGGAAACA GACGACGACA ACTACTTAGC TTTATCAAGC 
AGTAAAGGTG AATTCTTGCT AAATGGAAAC TTTGTTGTCA CAATGGCCAA AAGGGAAATC 
CGCATTGGGA ATGCTGTGGT AGAGTACAGT GGATCCGAGA CTGCCGTAGA AAGAATTAAC 
TCAACAGATC GCATTGAGCA AGAACTTTTG CTTCAGGTTT TGTCGGTGGG AAAGTTATAC 
AACCCCGATG TACGCTATTC TTTCAATATT CCAATTGAAG ATAAACCTCA GCAGTTTTAC 
TGGAACAGTC ATGGGCCGTG GCAAGCATGC AGTAAACCCT GCCAAGGGGA ACGGAAACGA 
AAACTTGTTT GCACCAGGGA ATCTGATCAG CTTACTGTTT CTGATCAAAG ATGCGATCGG 
CTGCCCCAGC CTGGACCCAT TACTGAACCC TGCGGCACAG ACTGTGACCT GAGGTGGCAT 
GTGGCCAGCA GGAGTGAATG TAGTGCCCAG TGTGGTTTGG GTTACCGCAC ATTAGACATC 
TACTGTGCCA AATATAGCAG GCTGGATGGG AAGACCGAGA AGGTTGATGA TGGTTTCTGC 
AGTAGTCATC CCAAACCAAG CAACCGTGAA AAATGCTCAG GGGAATGTAA CACAGGTGGC 
TGGCGCTATT CTGCCTGGAC TGAATGTTCT AAAAGCTGTG ATGGTGGGAC CCAGAGGAGA 
AGGGCCATTT GTGTCAATAC CCGAAATGAT GTGCTGGATG ACAGCAAATG CACACATCAA 
GAGAAAGTTA CCATTCAGAG GTGCAGTGAG TTTCCTTGTC CACAGTGGAA ATCTGGAGAC 
TGGTCAGAGT GCTTGGTCAC CTGTGGAAAA GGGCATAAGC ACCGCCAGGT CTGGTGTCAG 
TTTGGTGAAG ATCGATTAAA TGATAGAATG TGTGACCCTG AGACCAAGCC AACATCTATG 
CAGACTTGTC AGCAGCCGGA ATGTGCATCC TGGCAGGCGG GTCCCTGGGG ACAGTGCAGT 
GTCACTTGTG GACAGGGATA CCAGCTAAGA GCAGTGAAAT GCATCATTGG GACTTATATG 
TCAGTGGTAG ATGACAATGA CTGTAATGCA GCAACTAGAC CAACTGATAC CCAGGACTGT 
GAATTACCAT CTTGTCATCC TCCCCCAGCT GCCCCGGAAA CGAGGAGAAG CACATACAGT 
GCACCAAGAA CCCAGTGGCG ATTTGGGTCT TGGACCCCAT GCTCAGCCAC TTGTGGGAAA 
GGTACCCGAA TGAGATACGT CAGCTGCCGA GATGAGAATG GCTCTGTGGC TGATGAGAGT 
GCCTGTGCTA CCCTGCCTAG ACCAGTGGCA AAGGAAGAAT GTTCTGTGAC ACCCTGTGGG 
CAATGGAAGG CCTTGGACTG GAGCTCTTGC TCTGTAACCT GTGGGCAAGG TAGGGCAACC 
CGGCAAGTGG TGTGTGTCAA CTATAGTGAC CATGTGATCG ATCGGAGTGA GTGCGACCAG 
GATTATATCC CAGAAACCGA CCAGGACTGT TCCATGTCAC CATGCCCTCA AAGGACCCCA 
GACAGTGGCT TAGCTCAGCA CCCCTTCCAA AATGAGGACT ATCGTCCCCG GAGCGCCAGC 
CCTAGCCGCA CCCACGTACT CGGTGGAAAC CAGTGGAGAA CTGGCCCCTG GGGAGCATGT 
TCCAGTACCT GTGCTGGCGG ATCCCAGCGG CGTGTTGTTG TATGTCAGGA CGAAAATGGA 
TACACCGCAA ACGACTGTGT GGAGAGAATA AAACCTGATG AGCAAAGAGC TTGTGAATCC 
GGCCCTTGTC CTCAGTGGGC TTATGGCAAC TGGGGAGAGT GCACTAAGCT ATGTGGTGGA 
GGCATAAGAA CAAGACTGGT GGTCTGTCAG CGGTCCAACG GTGAACGGTT TCCAGATCTG 
AGCTGTGAAA TTCTTGATAA ACCTCCCGAT CGTGAGCAGT GTAACACACA TGCTTGTCCA 
CACGACGCTG CATGGAGTAC TGGCCCTTGG AGCTCGTGTT CTGTCTCTTG TGGTCGAGGG 
CATAAACAAC GAAATGTTTA CTGCATGGCA AAAGATGGAA GCCATTTAGA AAGTGATTAC 
TGTAAACACC TGGCTAAGCC ACATGGGCAC AGAAAGTGCC GAGGAGGAAG ATGCCCCAAA 
TGGAAAACTG GCGCTTGGAG TCAGTGCTCT GTGTCCTGTG GCCGAGGCGT ACAGCAGAGG 
CATGTGGGCT GTCAGATCGG AACACATAAA ATAGCCAGAG AGACCGAGTG CAACCCCTAC 
ACCAGACCGG AGTCGGAACG CGACTGCCAA GGCCCACGGT GTCCCCTCTA CACTTGGAGG 
GCAGAGGAAT GGCAAGAATG CACCAAAACC TGCGGTGAAG GCTCCAGGTA CCGCAAGGTG 
GTGTGTGTGG ATGACAGCAA AAATGAGGTG CATGGTGCAC GCTGTGACGT GAGCAAGCGG 
CCGGCAGACC ACGAAAGCTG TAGTTTGCAA CCCTGCGAGT ATGTCTGGAT CACAGGAGAA 
TGGTCAGAGT GCTCAGTGAC CTGTGGAAAA GGCTACAAAC AAAGGCTTGT CTCATGCAGC 
GAGATTTACA CCGGGAAGGA GAATTATGAA TACAGCTACC AAACCACTGT CAACTGCCCG 
GGCACGCAGC CCCCCAGTGT TCACCCCTGT TACCTGAGGG AGTGCCCTGT CTCGGCCACC 
TGGAGAGTTG GCAACTGGGG AAGTTGCTCA GTGTCTTGTG GTGTTGGAGT GATGCAGAGA 
TCTGTGCAAT GTTTAACCAA TGAGGACCAA CCCAGCCACT TATGCCACAC TGATTTGAAG 
CCAGAAGAAC GAAAAACCTG CCGCAATATC TATAACTGTG AGTTACCCCA GAATTGCAAG 
GAAGTAAAAA GACTTAAAGG TGCCAGTGAA GATGGTGAAT ATTTCCTGAT GATTAGAGGA 
AAGCTTCTGA AGATATTCTG TGCGGGGATG CACTCTGACC ACCCCAAAGA GTACGTGACA 
CTGGTGCATG GAGACTCAGA GAATTTCTCC GAGGTTTATG GACACAGGTT ACACAACCCA 
ACGGAATGTC CCTATAACGG GAGCCGGCGT GATGATTGCC AATGTCGGAA GGATTACACG 
GCGGCTGGGT TTTCCAGTTT TCAGAAAATC AGAATAGACC TGACCAGCAT GCAGATAATA 
ACCACTGACT TACAATTTGC AAGGACAAGC GAAGGACATC CCGTCCCTTT TGCCACAGCC 
GGGGATTGCT ACAGCGCTGC CAAGTGCCCA CAGGGTCGTT TTAGCATCAA CCTTTATGGA 
ACCGGCCTTT CTTTAACTGA ATCTGCCAGA TGGATATCAC AAGGGAATTA CGCTGTCTCT 
GACATCAAGA AGTCTCCGGA TGGTACCCGA GTCATAGGGA AATGCGGTGG TTACTGTGGG 
AAATGCACTC CATCCTCTGG TACTGGCCTG GAGGTGCGAG TTTTATAA

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

ADAMTS9 ( XM_015130469.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014985955.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X2, mRNA.

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CloneID	OMb28194
Clone ID Related Accession (Same CDS sequence)	XM_015130469.1
Accession Version	XM_015130469.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5724bp) 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	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804622.1) 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##

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG ATGGGCCTTC CATATCTTTT AATGCTCAGA CAACATTAAA AAACTTTTGC 
CAGTGGCAGC ATTCGAAGAA CAGTCCAGGT GGAATCCATC ATGATACTGC TGTTCTCTTA 
ACAAGACAGG ATATCTGCAG AGCTCACGAC AAATGTGATA CCTTAGGCCT GGCTGAACTG 
GGAACCATTT GTGATCCCTA CAGAAGCTGT TCTATTAGTG AAGATAGTGG ATTGAGTACA 
GCTTTTACGA TTGCCCATGA GCTGGGTCAT GTGTTTAACA TGCCTCATGA TGACAACAAC 
AAATGTAAAG AAGAAGGAGT TAAGAGTCCC CAGCATGTCA TGGCTCCAAC ACTGAACTTC 
TACACCAACC CCTGGATGTG GTCAAAGTGT AGTCGAAAAT ATATCACTGA GTTTTTAGAC 
ACTGGTTATG GCGAGTGTTT GCTTAATGAA CCTGAATCCA GACCCTACCC TTTGCCTGTC 
CAACTGCCAG GCATCCTTTA CAACGTGAAT AAACAATGTG AATTGATTTT TGGACCAGGT 
TCTCAGGTGT GCCCATATAT GATGCAATGT AGACGGCTCT GGTGCAATAA TGTCAATGGA 
GTACACAAAG GCTGCCGGAC TCAGCACACA CCCTGGGCCG ATGGGACGGA GTGCGAGCCT 
GGAAAGCACT GCAAGTATGG ATTTTGTGTT CCCAAAGAAA TGGATGTCCC TGTGACAGAT 
GGATCCTGGG GAAGTTGGAG TCCCTTTGGA ACCTGCTCCA GAACATGTGG AGGGGGCATC 
AAAACAGCCA TTCGAGAGTG CAACAGACCA GAGCCAAAAA ATGGTGGAAA ATACTGTGTA 
GGACGTAGAA TGAAATTTAA GTCCTGCAAC ACGGAGCCAT GTCTCAAGCA GAAGCGAGAC 
TTCCGAGATG AACAGTGTGC TCACTTTGAC GGGAAGCATT TTAACATCAA CGGTCTGCTT 
CCCAATGTGC GCTGGGTCCC TAAGTATAGT GGAATTCTGA TGAAGGACCG GTGCAAGTTG 
TTCTGCAGAG TGGCAGGGAA CACGGCCTAC TATCAGCTTC GAGACAGAGT GATAGACGGA 
ACTCCTTGTG GCCAGGACAC AAACGATATC TGTGTCCAGG GTCTTTGCCG GCAAGCTGGA 
TGCGATCATG TTTTAAACTC AAAAGCCCGG AGAGATAAAT GTGGGGTTTG TGGTGGCGAT 
AATTCTTCAT GCAAAACAGT GGCAGGAACA TTTAATACAG TACATTATGG TTACAACACT 
GTGGTCCGAA TTCCAGCAGG TGCTACCAAT ATTGATGTGC GGCAGCACAG TTTCTCAGGG 
GAAACAGACG ACGACAACTA CTTAGCTTTA TCAAGCAGTA AAGGTGAATT CTTGCTAAAT 
GGAAACTTTG TTGTCACAAT GGCCAAAAGG GAAATCCGCA TTGGGAATGC TGTGGTAGAG 
TACAGTGGAT CCGAGACTGC CGTAGAAAGA ATTAACTCAA CAGATCGCAT TGAGCAAGAA 
CTTTTGCTTC AGGTTTTGTC GGTGGGAAAG TTATACAACC CCGATGTACG CTATTCTTTC 
AATATTCCAA TTGAAGATAA ACCTCAGCAG TTTTACTGGA ACAGTCATGG GCCGTGGCAA 
GCATGCAGTA AACCCTGCCA AGGGGAACGG AAACGAAAAC TTGTTTGCAC CAGGGAATCT 
GATCAGCTTA CTGTTTCTGA TCAAAGATGC GATCGGCTGC CCCAGCCTGG ACCCATTACT 
GAACCCTGCG GCACAGACTG TGACCTGAGG TGGCATGTGG CCAGCAGGAG TGAATGTAGT 
GCCCAGTGTG GTTTGGGTTA CCGCACATTA GACATCTACT GTGCCAAATA TAGCAGGCTG 
GATGGGAAGA CCGAGAAGGT TGATGATGGT TTCTGCAGTA GTCATCCCAA ACCAAGCAAC 
CGTGAAAAAT GCTCAGGGGA ATGTAACACA GGTGGCTGGC GCTATTCTGC CTGGACTGAA 
TGTTCTAAAA GCTGTGATGG TGGGACCCAG AGGAGAAGGG CCATTTGTGT CAATACCCGA 
AATGATGTGC TGGATGACAG CAAATGCACA CATCAAGAGA AAGTTACCAT TCAGAGGTGC 
AGTGAGTTTC CTTGTCCACA GTGGAAATCT GGAGACTGGT CAGAGTGCTT GGTCACCTGT 
GGAAAAGGGC ATAAGCACCG CCAGGTCTGG TGTCAGTTTG GTGAAGATCG ATTAAATGAT 
AGAATGTGTG ACCCTGAGAC CAAGCCAACA TCTATGCAGA CTTGTCAGCA GCCGGAATGT 
GCATCCTGGC AGGCGGGTCC CTGGGGACAG TGCAGTGTCA CTTGTGGACA GGGATACCAG 
CTAAGAGCAG TGAAATGCAT CATTGGGACT TATATGTCAG TGGTAGATGA CAATGACTGT 
AATGCAGCAA CTAGACCAAC TGATACCCAG GACTGTGAAT TACCATCTTG TCATCCTCCC 
CCAGCTGCCC CGGAAACGAG GAGAAGCACA TACAGTGCAC CAAGAACCCA GTGGCGATTT 
GGGTCTTGGA CCCCATGCTC AGCCACTTGT GGGAAAGGTA CCCGAATGAG ATACGTCAGC 
TGCCGAGATG AGAATGGCTC TGTGGCTGAT GAGAGTGCCT GTGCTACCCT GCCTAGACCA 
GTGGCAAAGG AAGAATGTTC TGTGACACCC TGTGGGCAAT GGAAGGCCTT GGACTGGAGC 
TCTTGCTCTG TAACCTGTGG GCAAGGTAGG GCAACCCGGC AAGTGGTGTG TGTCAACTAT 
AGTGACCATG TGATCGATCG GAGTGAGTGC GACCAGGATT ATATCCCAGA AACCGACCAG 
GACTGTTCCA TGTCACCATG CCCTCAAAGG ACCCCAGACA GTGGCTTAGC TCAGCACCCC 
TTCCAAAATG AGGACTATCG TCCCCGGAGC GCCAGCCCTA GCCGCACCCA CGTACTCGGT 
GGAAACCAGT GGAGAACTGG CCCCTGGGGA GCATGTTCCA GTACCTGTGC TGGCGGATCC 
CAGCGGCGTG TTGTTGTATG TCAGGACGAA AATGGATACA CCGCAAACGA CTGTGTGGAG 
AGAATAAAAC CTGATGAGCA AAGAGCTTGT GAATCCGGCC CTTGTCCTCA GTGGGCTTAT 
GGCAACTGGG GAGAGTGCAC TAAGCTATGT GGTGGAGGCA TAAGAACAAG ACTGGTGGTC 
TGTCAGCGGT CCAACGGTGA ACGGTTTCCA GATCTGAGCT GTGAAATTCT TGATAAACCT 
CCCGATCGTG AGCAGTGTAA CACACATGCT TGTCCACACG ACGCTGCATG GAGTACTGGC 
CCTTGGAGCT CGTGTTCTGT CTCTTGTGGT CGAGGGCATA AACAACGAAA TGTTTACTGC 
ATGGCAAAAG ATGGAAGCCA TTTAGAAAGT GATTACTGTA AACACCTGGC TAAGCCACAT 
GGGCACAGAA AGTGCCGAGG AGGAAGATGC CCCAAATGGA AAACTGGCGC TTGGAGTCAG 
TGCTCTGTGT CCTGTGGCCG AGGCGTACAG CAGAGGCATG TGGGCTGTCA GATCGGAACA 
CATAAAATAG CCAGAGAGAC CGAGTGCAAC CCCTACACCA GACCGGAGTC GGAACGCGAC 
TGCCAAGGCC CACGGTGTCC CCTCTACACT TGGAGGGCAG AGGAATGGCA AGAATGCACC 
AAAACCTGCG GTGAAGGCTC CAGGTACCGC AAGGTGGTGT GTGTGGATGA CAGCAAAAAT 
GAGGTGCATG GTGCACGCTG TGACGTGAGC AAGCGGCCGG CAGACCACGA AAGCTGTAGT 
TTGCAACCCT GCGAGTATGT CTGGATCACA GGAGAATGGT CAGAGTGCTC AGTGACCTGT 
GGAAAAGGCT ACAAACAAAG GCTTGTCTCA TGCAGCGAGA TTTACACCGG GAAGGAGAAT 
TATGAATACA GCTACCAAAC CACTGTCAAC TGCCCGGGCA CGCAGCCCCC CAGTGTTCAC 
CCCTGTTACC TGAGGGAGTG CCCTGTCTCG GCCACCTGGA GAGTTGGCAA CTGGGGAAGT 
TGCTCAGTGT CTTGTGGTGT TGGAGTGATG CAGAGATCTG TGCAATGTTT AACCAATGAG 
GACCAACCCA GCCACTTATG CCACACTGAT TTGAAGCCAG AAGAACGAAA AACCTGCCGC 
AATATCTATA ACTGTGAGTT ACCCCAGAAT TGCAAGGAAG TAAAAAGACT TAAAGGTGCC 
AGTGAAGATG GTGAATATTT CCTGATGATT AGAGGAAAGC TTCTGAAGAT ATTCTGTGCG 
GGGATGCACT CTGACCACCC CAAAGAGTAC GTGACACTGG TGCATGGAGA CTCAGAGAAT 
TTCTCCGAGG TTTATGGACA CAGGTTACAC AACCCAACGG AATGTCCCTA TAACGGGAGC 
CGGCGTGATG ATTGCCAATG TCGGAAGGAT TACACGGCGG CTGGGTTTTC CAGTTTTCAG 
AAAATCAGAA TAGACCTGAC CAGCATGCAG ATAATAACCA CTGACTTACA ATTTGCAAGG 
ACAAGCGAAG GACATCCCGT CCCTTTTGCC ACAGCCGGGG ATTGCTACAG CGCTGCCAAG 
TGCCCACAGG GTCGTTTTAG CATCAACCTT TATGGAACCG GCCTTTCTTT AACTGAATCT 
GCCAGATGGA TATCACAAGG GAATTACGCT GTCTCTGACA TCAAGAAGTC TCCGGATGGT 
ACCCGAGTCA TAGGGAAATG CGGTGGTTAC TGTGGGAAAT GCACTCCATC CTCTGGTACT 
GGCCTGGAGG TGCGAGTTTT ATAA

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

RefSeq	XP_014985955.1
CDS	362..6085
Translation	MQFVSWATLLTLLVRDLAEMGIPDAAAAVRKDRLHPRQVKLLETLSEYEIVSPIRVNALGEPFPTNVHFKRRRRSINSATDPWPAFASSSSSSTSSQAHYRLSAFGQQFLFNLTANAGFIAPLFTVTLLGTPGVNQTKFYSEEEAELKHCFYKGYVNTKSEHTAVISLCSGMLGTFRSYDGDYFIEPLQSMDEQEDEEEQNKPHIIYRRSTPQREPSTGRHACDTSEHKNRHSKDKKKTRARKWGERINLADDVAALNSGLATEAFSAYGNKTDNTTEKRTHRRTKRFLSYPRFVEVLVVADNRMVSYHGENLQHYILTLMSIDGPSISFNAQTTLKNFCQWQHSKNSPGGIHHDTAVLLTRQDICRAHDKCDTLGLAELGTICDPYRSCSISEDSGLSTAFTIAHELGHVFNMPHDDNNKCKEEGVKSPQHVMAPTLNFYTNPWMWSKCSRKYITEFLDTGYGECLLNEPESRPYPLPVQLPGILYNVNKQCELIFGPGSQVCPYMMQCRRLWCNNVNGVHKGCRTQHTPWADGTECEPGKHCKYGFCVPKEMDVPVTDGSWGSWSPFGTCSRTCGGGIKTAIRECNRPEPKNGGKYCVGRRMKFKSCNTEPCLKQKRDFRDEQCAHFDGKHFNINGLLPNVRWVPKYSGILMKDRCKLFCRVAGNTAYYQLRDRVIDGTPCGQDTNDICVQGLCRQAGCDHVLNSKARRDKCGVCGGDNSSCKTVAGTFNTVHYGYNTVVRIPAGATNIDVRQHSFSGETDDDNYLALSSSKGEFLLNGNFVVTMAKREIRIGNAVVEYSGSETAVERINSTDRIEQELLLQVLSVGKLYNPDVRYSFNIPIEDKPQQFYWNSHGPWQACSKPCQGERKRKLVCTRESDQLTVSDQRCDRLPQPGPITEPCGTDCDLRWHVASRSECSAQCGLGYRTLDIYCAKYSRLDGKTEKVDDGFCSSHPKPSNREKCSGECNTGGWRYSAWTECSKSCDGGTQRRRAICVNTRNDVLDDSKCTHQEKVTIQRCSEFPCPQWKSGDWSECLVTCGKGHKHRQVWCQFGEDRLNDRMCDPETKPTSMQTCQQPECASWQAGPWGQCSVTCGQGYQLRAVKCIIGTYMSVVDDNDCNAATRPTDTQDCELPSCHPPPAAPETRRSTYSAPRTQWRFGSWTPCSATCGKGTRMRYVSCRDENGSVADESACATLPRPVAKEECSVTPCGQWKALDWSSCSVTCGQGRATRQVVCVNYSDHVIDRSECDQDYIPETDQDCSMSPCPQRTPDSGLAQHPFQNEDYRPRSASPSRTHVLGGNQWRTGPWGACSSTCAGGSQRRVVVCQDENGYTANDCVERIKPDEQRACESGPCPQWAYGNWGECTKLCGGGIRTRLVVCQRSNGERFPDLSCEILDKPPDREQCNTHACPHDAAWSTGPWSSCSVSCGRGHKQRNVYCMAKDGSHLESDYCKHLAKPHGHRKCRGGRCPKWKTGAWSQCSVSCGRGVQQRHVGCQIGTHKIARETECNPYTRPESERDCQGPRCPLYTWRAEEWQECTKTCGEGSRYRKVVCVDDSKNEVHGARCDVSKRPADHESCSLQPCEYVWITGEWSECSVTCGKGYKQRLVSCSEIYTGKENYEYSYQTTVNCPGTQPPSVHPCYLRECPVSATWRVGNWGSCSVSCGVGVMQRSVQCLTNEDQPSHLCHTDLKPEERKTCRNIYNCELPQNCKEVKRLKGASEDGEYFLMIRGKLLKIFCAGMHSDHPKEYVTLVHGDSENFSEVYGHRLHNPTECPYNGSRRDDCQCRKDYTAAGFSSFQKIRIDLTSMQIITTDLQFARTSEGHPVPFATAGDCYSAAKCPQGRFSINLYGTGLSLTESARWISQGNYAVSDIKKSPDGTRVIGKCGGYCGKCTPSSGTGLEVRVL

Target ORF information:

RefSeq Version	XM_015130469.1
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X2, mRNA.

Target ORF information:

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

XM_015130469.1

ORF Insert Sequence:

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG ATGGGCCTTC CATATCTTTT AATGCTCAGA CAACATTAAA AAACTTTTGC 
CAGTGGCAGC ATTCGAAGAA CAGTCCAGGT GGAATCCATC ATGATACTGC TGTTCTCTTA 
ACAAGACAGG ATATCTGCAG AGCTCACGAC AAATGTGATA CCTTAGGCCT GGCTGAACTG 
GGAACCATTT GTGATCCCTA CAGAAGCTGT TCTATTAGTG AAGATAGTGG ATTGAGTACA 
GCTTTTACGA TTGCCCATGA GCTGGGTCAT GTGTTTAACA TGCCTCATGA TGACAACAAC 
AAATGTAAAG AAGAAGGAGT TAAGAGTCCC CAGCATGTCA TGGCTCCAAC ACTGAACTTC 
TACACCAACC CCTGGATGTG GTCAAAGTGT AGTCGAAAAT ATATCACTGA GTTTTTAGAC 
ACTGGTTATG GCGAGTGTTT GCTTAATGAA CCTGAATCCA GACCCTACCC TTTGCCTGTC 
CAACTGCCAG GCATCCTTTA CAACGTGAAT AAACAATGTG AATTGATTTT TGGACCAGGT 
TCTCAGGTGT GCCCATATAT GATGCAATGT AGACGGCTCT GGTGCAATAA TGTCAATGGA 
GTACACAAAG GCTGCCGGAC TCAGCACACA CCCTGGGCCG ATGGGACGGA GTGCGAGCCT 
GGAAAGCACT GCAAGTATGG ATTTTGTGTT CCCAAAGAAA TGGATGTCCC TGTGACAGAT 
GGATCCTGGG GAAGTTGGAG TCCCTTTGGA ACCTGCTCCA GAACATGTGG AGGGGGCATC 
AAAACAGCCA TTCGAGAGTG CAACAGACCA GAGCCAAAAA ATGGTGGAAA ATACTGTGTA 
GGACGTAGAA TGAAATTTAA GTCCTGCAAC ACGGAGCCAT GTCTCAAGCA GAAGCGAGAC 
TTCCGAGATG AACAGTGTGC TCACTTTGAC GGGAAGCATT TTAACATCAA CGGTCTGCTT 
CCCAATGTGC GCTGGGTCCC TAAGTATAGT GGAATTCTGA TGAAGGACCG GTGCAAGTTG 
TTCTGCAGAG TGGCAGGGAA CACGGCCTAC TATCAGCTTC GAGACAGAGT GATAGACGGA 
ACTCCTTGTG GCCAGGACAC AAACGATATC TGTGTCCAGG GTCTTTGCCG GCAAGCTGGA 
TGCGATCATG TTTTAAACTC AAAAGCCCGG AGAGATAAAT GTGGGGTTTG TGGTGGCGAT 
AATTCTTCAT GCAAAACAGT GGCAGGAACA TTTAATACAG TACATTATGG TTACAACACT 
GTGGTCCGAA TTCCAGCAGG TGCTACCAAT ATTGATGTGC GGCAGCACAG TTTCTCAGGG 
GAAACAGACG ACGACAACTA CTTAGCTTTA TCAAGCAGTA AAGGTGAATT CTTGCTAAAT 
GGAAACTTTG TTGTCACAAT GGCCAAAAGG GAAATCCGCA TTGGGAATGC TGTGGTAGAG 
TACAGTGGAT CCGAGACTGC CGTAGAAAGA ATTAACTCAA CAGATCGCAT TGAGCAAGAA 
CTTTTGCTTC AGGTTTTGTC GGTGGGAAAG TTATACAACC CCGATGTACG CTATTCTTTC 
AATATTCCAA TTGAAGATAA ACCTCAGCAG TTTTACTGGA ACAGTCATGG GCCGTGGCAA 
GCATGCAGTA AACCCTGCCA AGGGGAACGG AAACGAAAAC TTGTTTGCAC CAGGGAATCT 
GATCAGCTTA CTGTTTCTGA TCAAAGATGC GATCGGCTGC CCCAGCCTGG ACCCATTACT 
GAACCCTGCG GCACAGACTG TGACCTGAGG TGGCATGTGG CCAGCAGGAG TGAATGTAGT 
GCCCAGTGTG GTTTGGGTTA CCGCACATTA GACATCTACT GTGCCAAATA TAGCAGGCTG 
GATGGGAAGA CCGAGAAGGT TGATGATGGT TTCTGCAGTA GTCATCCCAA ACCAAGCAAC 
CGTGAAAAAT GCTCAGGGGA ATGTAACACA GGTGGCTGGC GCTATTCTGC CTGGACTGAA 
TGTTCTAAAA GCTGTGATGG TGGGACCCAG AGGAGAAGGG CCATTTGTGT CAATACCCGA 
AATGATGTGC TGGATGACAG CAAATGCACA CATCAAGAGA AAGTTACCAT TCAGAGGTGC 
AGTGAGTTTC CTTGTCCACA GTGGAAATCT GGAGACTGGT CAGAGTGCTT GGTCACCTGT 
GGAAAAGGGC ATAAGCACCG CCAGGTCTGG TGTCAGTTTG GTGAAGATCG ATTAAATGAT 
AGAATGTGTG ACCCTGAGAC CAAGCCAACA TCTATGCAGA CTTGTCAGCA GCCGGAATGT 
GCATCCTGGC AGGCGGGTCC CTGGGGACAG TGCAGTGTCA CTTGTGGACA GGGATACCAG 
CTAAGAGCAG TGAAATGCAT CATTGGGACT TATATGTCAG TGGTAGATGA CAATGACTGT 
AATGCAGCAA CTAGACCAAC TGATACCCAG GACTGTGAAT TACCATCTTG TCATCCTCCC 
CCAGCTGCCC CGGAAACGAG GAGAAGCACA TACAGTGCAC CAAGAACCCA GTGGCGATTT 
GGGTCTTGGA CCCCATGCTC AGCCACTTGT GGGAAAGGTA CCCGAATGAG ATACGTCAGC 
TGCCGAGATG AGAATGGCTC TGTGGCTGAT GAGAGTGCCT GTGCTACCCT GCCTAGACCA 
GTGGCAAAGG AAGAATGTTC TGTGACACCC TGTGGGCAAT GGAAGGCCTT GGACTGGAGC 
TCTTGCTCTG TAACCTGTGG GCAAGGTAGG GCAACCCGGC AAGTGGTGTG TGTCAACTAT 
AGTGACCATG TGATCGATCG GAGTGAGTGC GACCAGGATT ATATCCCAGA AACCGACCAG 
GACTGTTCCA TGTCACCATG CCCTCAAAGG ACCCCAGACA GTGGCTTAGC TCAGCACCCC 
TTCCAAAATG AGGACTATCG TCCCCGGAGC GCCAGCCCTA GCCGCACCCA CGTACTCGGT 
GGAAACCAGT GGAGAACTGG CCCCTGGGGA GCATGTTCCA GTACCTGTGC TGGCGGATCC 
CAGCGGCGTG TTGTTGTATG TCAGGACGAA AATGGATACA CCGCAAACGA CTGTGTGGAG 
AGAATAAAAC CTGATGAGCA AAGAGCTTGT GAATCCGGCC CTTGTCCTCA GTGGGCTTAT 
GGCAACTGGG GAGAGTGCAC TAAGCTATGT GGTGGAGGCA TAAGAACAAG ACTGGTGGTC 
TGTCAGCGGT CCAACGGTGA ACGGTTTCCA GATCTGAGCT GTGAAATTCT TGATAAACCT 
CCCGATCGTG AGCAGTGTAA CACACATGCT TGTCCACACG ACGCTGCATG GAGTACTGGC 
CCTTGGAGCT CGTGTTCTGT CTCTTGTGGT CGAGGGCATA AACAACGAAA TGTTTACTGC 
ATGGCAAAAG ATGGAAGCCA TTTAGAAAGT GATTACTGTA AACACCTGGC TAAGCCACAT 
GGGCACAGAA AGTGCCGAGG AGGAAGATGC CCCAAATGGA AAACTGGCGC TTGGAGTCAG 
TGCTCTGTGT CCTGTGGCCG AGGCGTACAG CAGAGGCATG TGGGCTGTCA GATCGGAACA 
CATAAAATAG CCAGAGAGAC CGAGTGCAAC CCCTACACCA GACCGGAGTC GGAACGCGAC 
TGCCAAGGCC CACGGTGTCC CCTCTACACT TGGAGGGCAG AGGAATGGCA AGAATGCACC 
AAAACCTGCG GTGAAGGCTC CAGGTACCGC AAGGTGGTGT GTGTGGATGA CAGCAAAAAT 
GAGGTGCATG GTGCACGCTG TGACGTGAGC AAGCGGCCGG CAGACCACGA AAGCTGTAGT 
TTGCAACCCT GCGAGTATGT CTGGATCACA GGAGAATGGT CAGAGTGCTC AGTGACCTGT 
GGAAAAGGCT ACAAACAAAG GCTTGTCTCA TGCAGCGAGA TTTACACCGG GAAGGAGAAT 
TATGAATACA GCTACCAAAC CACTGTCAAC TGCCCGGGCA CGCAGCCCCC CAGTGTTCAC 
CCCTGTTACC TGAGGGAGTG CCCTGTCTCG GCCACCTGGA GAGTTGGCAA CTGGGGAAGT 
TGCTCAGTGT CTTGTGGTGT TGGAGTGATG CAGAGATCTG TGCAATGTTT AACCAATGAG 
GACCAACCCA GCCACTTATG CCACACTGAT TTGAAGCCAG AAGAACGAAA AACCTGCCGC 
AATATCTATA ACTGTGAGTT ACCCCAGAAT TGCAAGGAAG TAAAAAGACT TAAAGGTGCC 
AGTGAAGATG GTGAATATTT CCTGATGATT AGAGGAAAGC TTCTGAAGAT ATTCTGTGCG 
GGGATGCACT CTGACCACCC CAAAGAGTAC GTGACACTGG TGCATGGAGA CTCAGAGAAT 
TTCTCCGAGG TTTATGGACA CAGGTTACAC AACCCAACGG AATGTCCCTA TAACGGGAGC 
CGGCGTGATG ATTGCCAATG TCGGAAGGAT TACACGGCGG CTGGGTTTTC CAGTTTTCAG 
AAAATCAGAA TAGACCTGAC CAGCATGCAG ATAATAACCA CTGACTTACA ATTTGCAAGG 
ACAAGCGAAG GACATCCCGT CCCTTTTGCC ACAGCCGGGG ATTGCTACAG CGCTGCCAAG 
TGCCCACAGG GTCGTTTTAG CATCAACCTT TATGGAACCG GCCTTTCTTT AACTGAATCT 
GCCAGATGGA TATCACAAGG GAATTACGCT GTCTCTGACA TCAAGAAGTC TCCGGATGGT 
ACCCGAGTCA TAGGGAAATG CGGTGGTTAC TGTGGGAAAT GCACTCCATC CTCTGGTACT 
GGCCTGGAGG TGCGAGTTTT ATAA

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

ADAMTS9 ( XM_015130470.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014985956.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X3, mRNA.

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CloneID	OMb28195
Clone ID Related Accession (Same CDS sequence)	XM_015130470.1
Accession Version	XM_015130470.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5634bp) 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	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_014804622.1) 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##

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG TAGCCTCTAT CTATAAAGAC CCAAGTATTG GAAATTTAAT TAATATTGTT 
ATTGTGAACT TAATTGTGAT TCATAATGAA CAGGATGGGC CTTCCATATC TTTTAATGCT 
CAGACAACAT TAAAAAACTT TTGCCAGTGG CAGCATTCGA AGAACAGTCC AGGTGGAATC 
CATCATGATA CTGCTGTTCT CTTAACAAGA CAGGATATCT GCAGAGCTCA CGACAAATGT 
GATACCTTAG GCCTGGCTGA ACTGGGAACC ATTTGTGATC CCTACAGAAG CTGTTCTATT 
AGTGAAGATA GTGGATTGAG TACAGCTTTT ACGATTGCCC ATGAGCTGGG TCATGTGTTT 
AACATGCCTC ATGATGACAA CAACAAATGT AAAGAAGAAG GAGTTAAGAG TCCCCAGCAT 
GTCATGGCTC CAACACTGAA CTTCTACACC AACCCCTGGA TGTGGTCAAA GTGTAGTCGA 
AAATATATCA CTGAGTTTTT AGACACTGGT TATGGCGAGT GTTTGCTTAA TGAACCTGAA 
TCCAGACCCT ACCCTTTGCC TGTCCAACTG CCAGGCATCC TTTACAACGT GAATAAACAA 
TGTGAATTGA TTTTTGGACC AGGTTCTCAG GTGTGCCCAT ATATGATGCA ATGTAGACGG 
CTCTGGTGCA ATAATGTCAA TGGAGTACAC AAAGGCTGCC GGACTCAGCA CACACCCTGG 
GCCGATGGGA CGGAGTGCGA GCCTGGAAAG CACTGCAAGT ATGGATTTTG TGTTCCCAAA 
GAAATGGATG TCCCTGTGAC AGATGGATCC TGGGGAAGTT GGAGTCCCTT TGGAACCTGC 
TCCAGAACAT GTGGAGGGGG CATCAAAACA GCCATTCGAG AGTGCAACAG ACCAGAGCCA 
AAAAATGGTG GAAAATACTG TGTAGGACGT AGAATGAAAT TTAAGTCCTG CAACACGGAG 
CCATGTCTCA AGCAGAAGCG AGACTTCCGA GATGAACAGT GTGCTCACTT TGACGGGAAG 
CATTTTAACA TCAACGGTCT GCTTCCCAAT GTGCGCTGGG TCCCTAAGTA TAGTGGAATT 
CTGATGAAGG ACCGGTGCAA GTTGTTCTGC AGAGTGGCAG GGAACACGGC CTACTATCAG 
CTTCGAGACA GAGTGATAGA CGGAACTCCT TGTGGCCAGG ACACAAACGA TATCTGTGTC 
CAGGGTCTTT GCCGGCAAGC TGGATGCGAT CATGTTTTAA ACTCAAAAGC CCGGAGAGAT 
AAATGTGGGG TTTGTGGTGG CGATAATTCT TCATGCAAAA CAGTGGCAGG AACATTTAAT 
ACAGTACATT ATGGTTACAA CACTGTGGTC CGAATTCCAG CAGGTGCTAC CAATATTGAT 
GTGCGGCAGC ACAGTTTCTC AGGGGAAACA GACGACGACA ACTACTTAGC TTTATCAAGC 
AGTAAAGGTG AATTCTTGCT AAATGGAAAC TTTGTTGTCA CAATGGCCAA AAGGGAAATC 
CGCATTGGGA ATGCTGTGGT AGAGTACAGT GGATCCGAGA CTGCCGTAGA AAGAATTAAC 
TCAACAGATC GCATTGAGCA AGAACTTTTG CTTCAGGTTT TGTCGGTGGG AAAGTTATAC 
AACCCCGATG TACGCTATTC TTTCAATATT CCAATTGAAG ATAAACCTCA GCAGTTTTAC 
TGGAACAGTC ATGGGCCGTG GCAAGCATGC AGTAAACCCT GCCAAGGGGA ACGGAAACGA 
AAACTTGTTT GCACCAGGGA ATCTGATCAG CTTACTGTTT CTGATCAAAG ATGCGATCGG 
CTGCCCCAGC CTGGACCCAT TACTGAACCC TGCGGCACAG ACTGTGACCT GAGGTGGCAT 
GTGGCCAGCA GGAGTGAATG TAGTGCCCAG TGTGGTTTGG GTTACCGCAC ATTAGACATC 
TACTGTGCCA AATATAGCAG GCTGGATGGG AAGACCGAGA AGGTTGATGA TGGTTTCTGC 
AGTAGTCATC CCAAACCAAG CAACCGTGAA AAATGCTCAG GGGAATGTAA CACAGGTGGC 
TGGCGCTATT CTGCCTGGAC TGAATGTTCT AAAAGCTGTG ATGGTGGGAC CCAGAGGAGA 
AGGGCCATTT GTGTCAATAC CCGAAATGAT GTGCTGGATG ACAGCAAATG CACACATCAA 
GAGAAAGTTA CCATTCAGAG GTGCAGTGAG TTTCCTTGTC CACAGTGGAA ATCTGGAGAC 
TGGTCAGAGT GCTTGGTCAC CTGTGGAAAA GGGCATAAGC ACCGCCAGGT CTGGTGTCAG 
TTTGGTGAAG ATCGATTAAA TGATAGAATG TGTGACCCTG AGACCAAGCC AACATCTATG 
CAGACTTGTC AGCAGCCGGA ATGTGCATCC TGGCAGGCGG GTCCCTGGGG ACAGTGCAGT 
GTCACTTGTG GACAGGGATA CCAGCTAAGA GCAGTGAAAT GCATCATTGG GACTTATATG 
TCAGTGGTAG ATGACAATGA CTGTAATGCA GCAACTAGAC CAACTGATAC CCAGGACTGT 
GAATTACCAT CTTGTCATCC TCCCCCAGCT GCCCCGGAAA CGAGGAGAAG CACATACAGT 
GCACCAAGAA CCCAGTGGCG ATTTGGGTCT TGGACCCCAT GCTCAGCCAC TTGTGGGAAA 
GGTACCCGAA TGAGATACGT CAGCTGCCGA GATGAGAATG GCTCTGTGGC TGATGAGAGT 
GCCTGTGCTA CCCTGCCTAG ACCAGTGGCA AAGGAAGAAT GTTCTGTGAC ACCCTGTGGG 
CAATGGAAGG CCTTGGACTG GAGCTCTTGC TCTGTAACCT GTGGGCAAGG TAGGGCAACC 
CGGCAAGTGG TGTGTGTCAA CTATAGTGAC CATGTGATCG ATCGGAGTGA GTGCGACCAG 
GATTATATCC CAGAAACCGA CCAGGACTGT TCCATGTCAC CATGCCCTCA AAGGACCCCA 
GACAGTGGCT TAGCTCAGCA CCCCTTCCAA AATGAGGACT ATCGTCCCCG GAGCGCCAGC 
CCTAGCCGCA CCCACGTACT CGGTGGAAAC CAGTGGAGAA CTGGCCCCTG GGGAGCATGT 
TCCAGTACCT GTGCTGGCGG ATCCCAGCGG CGTGTTGTTG TATGTCAGGA CGAAAATGGA 
TACACCGCAA ACGACTGTGT GGAGAGAATA AAACCTGATG AGCAAAGAGC TTGTGAATCC 
GGCCCTTGTC CTCAGTGGGC TTATGGCAAC TGGGGAGAGT GCACTAAGCT ATGTGGTGGA 
GGCATAAGAA CAAGACTGGT GGTCTGTCAG CGGTCCAACG GTGAACGGTT TCCAGATCTG 
AGCTGTGAAA TTCTTGATAA ACCTCCCGAT CGTGAGCAGT GTAACACACA TGCTTGTCCA 
CACGACGCTG CATGGAGTAC TGGCCCTTGG AGCTCGTGTT CTGTCTCTTG TGGTCGAGGG 
CATAAACAAC GAAATGTTTA CTGCATGGCA AAAGATGGAA GCCATTTAGA AAGTGATTAC 
TGTAAACACC TGGCTAAGCC ACATGGGCAC AGAAAGTGCC GAGGAGGAAG ATGCCCCAAA 
TGGAAAACTG GCGCTTGGAG TCAGTGCACC AAAACCTGCG GTGAAGGCTC CAGGTACCGC 
AAGGTGGTGT GTGTGGATGA CAGCAAAAAT GAGGTGCATG GTGCACGCTG TGACGTGAGC 
AAGCGGCCGG CAGACCACGA AAGCTGTAGT TTGCAACCCT GCGAGTATGT CTGGATCACA 
GGAGAATGGT CAGAGTGCTC AGTGACCTGT GGAAAAGGCT ACAAACAAAG GCTTGTCTCA 
TGCAGCGAGA TTTACACCGG GAAGGAGAAT TATGAATACA GCTACCAAAC CACTGTCAAC 
TGCCCGGGCA CGCAGCCCCC CAGTGTTCAC CCCTGTTACC TGAGGGAGTG CCCTGTCTCG 
GCCACCTGGA GAGTTGGCAA CTGGGGAAGT TGCTCAGTGT CTTGTGGTGT TGGAGTGATG 
CAGAGATCTG TGCAATGTTT AACCAATGAG GACCAACCCA GCCACTTATG CCACACTGAT 
TTGAAGCCAG AAGAACGAAA AACCTGCCGC AATATCTATA ACTGTGAGTT ACCCCAGAAT 
TGCAAGGAAG TAAAAAGACT TAAAGGTGCC AGTGAAGATG GTGAATATTT CCTGATGATT 
AGAGGAAAGC TTCTGAAGAT ATTCTGTGCG GGGATGCACT CTGACCACCC CAAAGAGTAC 
GTGACACTGG TGCATGGAGA CTCAGAGAAT TTCTCCGAGG TTTATGGACA CAGGTTACAC 
AACCCAACGG AATGTCCCTA TAACGGGAGC CGGCGTGATG ATTGCCAATG TCGGAAGGAT 
TACACGGCGG CTGGGTTTTC CAGTTTTCAG AAAATCAGAA TAGACCTGAC CAGCATGCAG 
ATAATAACCA CTGACTTACA ATTTGCAAGG ACAAGCGAAG GACATCCCGT CCCTTTTGCC 
ACAGCCGGGG ATTGCTACAG CGCTGCCAAG TGCCCACAGG GTCGTTTTAG CATCAACCTT 
TATGGAACCG GCCTTTCTTT AACTGAATCT GCCAGATGGA TATCACAAGG GAATTACGCT 
GTCTCTGACA TCAAGAAGTC TCCGGATGGT ACCCGAGTCA TAGGGAAATG CGGTGGTTAC 
TGTGGGAAAT GCACTCCATC CTCTGGTACT GGCCTGGAGG TGCGAGTTTT ATAA

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

RefSeq	XP_014985956.1
CDS	362..5995
Translation	MQFVSWATLLTLLVRDLAEMGIPDAAAAVRKDRLHPRQVKLLETLSEYEIVSPIRVNALGEPFPTNVHFKRRRRSINSATDPWPAFASSSSSSTSSQAHYRLSAFGQQFLFNLTANAGFIAPLFTVTLLGTPGVNQTKFYSEEEAELKHCFYKGYVNTKSEHTAVISLCSGMLGTFRSYDGDYFIEPLQSMDEQEDEEEQNKPHIIYRRSTPQREPSTGRHACDTSEHKNRHSKDKKKTRARKWGERINLADDVAALNSGLATEAFSAYGNKTDNTTEKRTHRRTKRFLSYPRFVEVLVVADNRMVSYHGENLQHYILTLMSIVASIYKDPSIGNLINIVIVNLIVIHNEQDGPSISFNAQTTLKNFCQWQHSKNSPGGIHHDTAVLLTRQDICRAHDKCDTLGLAELGTICDPYRSCSISEDSGLSTAFTIAHELGHVFNMPHDDNNKCKEEGVKSPQHVMAPTLNFYTNPWMWSKCSRKYITEFLDTGYGECLLNEPESRPYPLPVQLPGILYNVNKQCELIFGPGSQVCPYMMQCRRLWCNNVNGVHKGCRTQHTPWADGTECEPGKHCKYGFCVPKEMDVPVTDGSWGSWSPFGTCSRTCGGGIKTAIRECNRPEPKNGGKYCVGRRMKFKSCNTEPCLKQKRDFRDEQCAHFDGKHFNINGLLPNVRWVPKYSGILMKDRCKLFCRVAGNTAYYQLRDRVIDGTPCGQDTNDICVQGLCRQAGCDHVLNSKARRDKCGVCGGDNSSCKTVAGTFNTVHYGYNTVVRIPAGATNIDVRQHSFSGETDDDNYLALSSSKGEFLLNGNFVVTMAKREIRIGNAVVEYSGSETAVERINSTDRIEQELLLQVLSVGKLYNPDVRYSFNIPIEDKPQQFYWNSHGPWQACSKPCQGERKRKLVCTRESDQLTVSDQRCDRLPQPGPITEPCGTDCDLRWHVASRSECSAQCGLGYRTLDIYCAKYSRLDGKTEKVDDGFCSSHPKPSNREKCSGECNTGGWRYSAWTECSKSCDGGTQRRRAICVNTRNDVLDDSKCTHQEKVTIQRCSEFPCPQWKSGDWSECLVTCGKGHKHRQVWCQFGEDRLNDRMCDPETKPTSMQTCQQPECASWQAGPWGQCSVTCGQGYQLRAVKCIIGTYMSVVDDNDCNAATRPTDTQDCELPSCHPPPAAPETRRSTYSAPRTQWRFGSWTPCSATCGKGTRMRYVSCRDENGSVADESACATLPRPVAKEECSVTPCGQWKALDWSSCSVTCGQGRATRQVVCVNYSDHVIDRSECDQDYIPETDQDCSMSPCPQRTPDSGLAQHPFQNEDYRPRSASPSRTHVLGGNQWRTGPWGACSSTCAGGSQRRVVVCQDENGYTANDCVERIKPDEQRACESGPCPQWAYGNWGECTKLCGGGIRTRLVVCQRSNGERFPDLSCEILDKPPDREQCNTHACPHDAAWSTGPWSSCSVSCGRGHKQRNVYCMAKDGSHLESDYCKHLAKPHGHRKCRGGRCPKWKTGAWSQCTKTCGEGSRYRKVVCVDDSKNEVHGARCDVSKRPADHESCSLQPCEYVWITGEWSECSVTCGKGYKQRLVSCSEIYTGKENYEYSYQTTVNCPGTQPPSVHPCYLRECPVSATWRVGNWGSCSVSCGVGVMQRSVQCLTNEDQPSHLCHTDLKPEERKTCRNIYNCELPQNCKEVKRLKGASEDGEYFLMIRGKLLKIFCAGMHSDHPKEYVTLVHGDSENFSEVYGHRLHNPTECPYNGSRRDDCQCRKDYTAAGFSSFQKIRIDLTSMQIITTDLQFARTSEGHPVPFATAGDCYSAAKCPQGRFSINLYGTGLSLTESARWISQGNYAVSDIKKSPDGTRVIGKCGGYCGKCTPSSGTGLEVRVL

Target ORF information:

RefSeq Version	XM_015130470.1
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X3, mRNA.

Target ORF information:

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

XM_015130470.1

ORF Insert Sequence:

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG TAGCCTCTAT CTATAAAGAC CCAAGTATTG GAAATTTAAT TAATATTGTT 
ATTGTGAACT TAATTGTGAT TCATAATGAA CAGGATGGGC CTTCCATATC TTTTAATGCT 
CAGACAACAT TAAAAAACTT TTGCCAGTGG CAGCATTCGA AGAACAGTCC AGGTGGAATC 
CATCATGATA CTGCTGTTCT CTTAACAAGA CAGGATATCT GCAGAGCTCA CGACAAATGT 
GATACCTTAG GCCTGGCTGA ACTGGGAACC ATTTGTGATC CCTACAGAAG CTGTTCTATT 
AGTGAAGATA GTGGATTGAG TACAGCTTTT ACGATTGCCC ATGAGCTGGG TCATGTGTTT 
AACATGCCTC ATGATGACAA CAACAAATGT AAAGAAGAAG GAGTTAAGAG TCCCCAGCAT 
GTCATGGCTC CAACACTGAA CTTCTACACC AACCCCTGGA TGTGGTCAAA GTGTAGTCGA 
AAATATATCA CTGAGTTTTT AGACACTGGT TATGGCGAGT GTTTGCTTAA TGAACCTGAA 
TCCAGACCCT ACCCTTTGCC TGTCCAACTG CCAGGCATCC TTTACAACGT GAATAAACAA 
TGTGAATTGA TTTTTGGACC AGGTTCTCAG GTGTGCCCAT ATATGATGCA ATGTAGACGG 
CTCTGGTGCA ATAATGTCAA TGGAGTACAC AAAGGCTGCC GGACTCAGCA CACACCCTGG 
GCCGATGGGA CGGAGTGCGA GCCTGGAAAG CACTGCAAGT ATGGATTTTG TGTTCCCAAA 
GAAATGGATG TCCCTGTGAC AGATGGATCC TGGGGAAGTT GGAGTCCCTT TGGAACCTGC 
TCCAGAACAT GTGGAGGGGG CATCAAAACA GCCATTCGAG AGTGCAACAG ACCAGAGCCA 
AAAAATGGTG GAAAATACTG TGTAGGACGT AGAATGAAAT TTAAGTCCTG CAACACGGAG 
CCATGTCTCA AGCAGAAGCG AGACTTCCGA GATGAACAGT GTGCTCACTT TGACGGGAAG 
CATTTTAACA TCAACGGTCT GCTTCCCAAT GTGCGCTGGG TCCCTAAGTA TAGTGGAATT 
CTGATGAAGG ACCGGTGCAA GTTGTTCTGC AGAGTGGCAG GGAACACGGC CTACTATCAG 
CTTCGAGACA GAGTGATAGA CGGAACTCCT TGTGGCCAGG ACACAAACGA TATCTGTGTC 
CAGGGTCTTT GCCGGCAAGC TGGATGCGAT CATGTTTTAA ACTCAAAAGC CCGGAGAGAT 
AAATGTGGGG TTTGTGGTGG CGATAATTCT TCATGCAAAA CAGTGGCAGG AACATTTAAT 
ACAGTACATT ATGGTTACAA CACTGTGGTC CGAATTCCAG CAGGTGCTAC CAATATTGAT 
GTGCGGCAGC ACAGTTTCTC AGGGGAAACA GACGACGACA ACTACTTAGC TTTATCAAGC 
AGTAAAGGTG AATTCTTGCT AAATGGAAAC TTTGTTGTCA CAATGGCCAA AAGGGAAATC 
CGCATTGGGA ATGCTGTGGT AGAGTACAGT GGATCCGAGA CTGCCGTAGA AAGAATTAAC 
TCAACAGATC GCATTGAGCA AGAACTTTTG CTTCAGGTTT TGTCGGTGGG AAAGTTATAC 
AACCCCGATG TACGCTATTC TTTCAATATT CCAATTGAAG ATAAACCTCA GCAGTTTTAC 
TGGAACAGTC ATGGGCCGTG GCAAGCATGC AGTAAACCCT GCCAAGGGGA ACGGAAACGA 
AAACTTGTTT GCACCAGGGA ATCTGATCAG CTTACTGTTT CTGATCAAAG ATGCGATCGG 
CTGCCCCAGC CTGGACCCAT TACTGAACCC TGCGGCACAG ACTGTGACCT GAGGTGGCAT 
GTGGCCAGCA GGAGTGAATG TAGTGCCCAG TGTGGTTTGG GTTACCGCAC ATTAGACATC 
TACTGTGCCA AATATAGCAG GCTGGATGGG AAGACCGAGA AGGTTGATGA TGGTTTCTGC 
AGTAGTCATC CCAAACCAAG CAACCGTGAA AAATGCTCAG GGGAATGTAA CACAGGTGGC 
TGGCGCTATT CTGCCTGGAC TGAATGTTCT AAAAGCTGTG ATGGTGGGAC CCAGAGGAGA 
AGGGCCATTT GTGTCAATAC CCGAAATGAT GTGCTGGATG ACAGCAAATG CACACATCAA 
GAGAAAGTTA CCATTCAGAG GTGCAGTGAG TTTCCTTGTC CACAGTGGAA ATCTGGAGAC 
TGGTCAGAGT GCTTGGTCAC CTGTGGAAAA GGGCATAAGC ACCGCCAGGT CTGGTGTCAG 
TTTGGTGAAG ATCGATTAAA TGATAGAATG TGTGACCCTG AGACCAAGCC AACATCTATG 
CAGACTTGTC AGCAGCCGGA ATGTGCATCC TGGCAGGCGG GTCCCTGGGG ACAGTGCAGT 
GTCACTTGTG GACAGGGATA CCAGCTAAGA GCAGTGAAAT GCATCATTGG GACTTATATG 
TCAGTGGTAG ATGACAATGA CTGTAATGCA GCAACTAGAC CAACTGATAC CCAGGACTGT 
GAATTACCAT CTTGTCATCC TCCCCCAGCT GCCCCGGAAA CGAGGAGAAG CACATACAGT 
GCACCAAGAA CCCAGTGGCG ATTTGGGTCT TGGACCCCAT GCTCAGCCAC TTGTGGGAAA 
GGTACCCGAA TGAGATACGT CAGCTGCCGA GATGAGAATG GCTCTGTGGC TGATGAGAGT 
GCCTGTGCTA CCCTGCCTAG ACCAGTGGCA AAGGAAGAAT GTTCTGTGAC ACCCTGTGGG 
CAATGGAAGG CCTTGGACTG GAGCTCTTGC TCTGTAACCT GTGGGCAAGG TAGGGCAACC 
CGGCAAGTGG TGTGTGTCAA CTATAGTGAC CATGTGATCG ATCGGAGTGA GTGCGACCAG 
GATTATATCC CAGAAACCGA CCAGGACTGT TCCATGTCAC CATGCCCTCA AAGGACCCCA 
GACAGTGGCT TAGCTCAGCA CCCCTTCCAA AATGAGGACT ATCGTCCCCG GAGCGCCAGC 
CCTAGCCGCA CCCACGTACT CGGTGGAAAC CAGTGGAGAA CTGGCCCCTG GGGAGCATGT 
TCCAGTACCT GTGCTGGCGG ATCCCAGCGG CGTGTTGTTG TATGTCAGGA CGAAAATGGA 
TACACCGCAA ACGACTGTGT GGAGAGAATA AAACCTGATG AGCAAAGAGC TTGTGAATCC 
GGCCCTTGTC CTCAGTGGGC TTATGGCAAC TGGGGAGAGT GCACTAAGCT ATGTGGTGGA 
GGCATAAGAA CAAGACTGGT GGTCTGTCAG CGGTCCAACG GTGAACGGTT TCCAGATCTG 
AGCTGTGAAA TTCTTGATAA ACCTCCCGAT CGTGAGCAGT GTAACACACA TGCTTGTCCA 
CACGACGCTG CATGGAGTAC TGGCCCTTGG AGCTCGTGTT CTGTCTCTTG TGGTCGAGGG 
CATAAACAAC GAAATGTTTA CTGCATGGCA AAAGATGGAA GCCATTTAGA AAGTGATTAC 
TGTAAACACC TGGCTAAGCC ACATGGGCAC AGAAAGTGCC GAGGAGGAAG ATGCCCCAAA 
TGGAAAACTG GCGCTTGGAG TCAGTGCACC AAAACCTGCG GTGAAGGCTC CAGGTACCGC 
AAGGTGGTGT GTGTGGATGA CAGCAAAAAT GAGGTGCATG GTGCACGCTG TGACGTGAGC 
AAGCGGCCGG CAGACCACGA AAGCTGTAGT TTGCAACCCT GCGAGTATGT CTGGATCACA 
GGAGAATGGT CAGAGTGCTC AGTGACCTGT GGAAAAGGCT ACAAACAAAG GCTTGTCTCA 
TGCAGCGAGA TTTACACCGG GAAGGAGAAT TATGAATACA GCTACCAAAC CACTGTCAAC 
TGCCCGGGCA CGCAGCCCCC CAGTGTTCAC CCCTGTTACC TGAGGGAGTG CCCTGTCTCG 
GCCACCTGGA GAGTTGGCAA CTGGGGAAGT TGCTCAGTGT CTTGTGGTGT TGGAGTGATG 
CAGAGATCTG TGCAATGTTT AACCAATGAG GACCAACCCA GCCACTTATG CCACACTGAT 
TTGAAGCCAG AAGAACGAAA AACCTGCCGC AATATCTATA ACTGTGAGTT ACCCCAGAAT 
TGCAAGGAAG TAAAAAGACT TAAAGGTGCC AGTGAAGATG GTGAATATTT CCTGATGATT 
AGAGGAAAGC TTCTGAAGAT ATTCTGTGCG GGGATGCACT CTGACCACCC CAAAGAGTAC 
GTGACACTGG TGCATGGAGA CTCAGAGAAT TTCTCCGAGG TTTATGGACA CAGGTTACAC 
AACCCAACGG AATGTCCCTA TAACGGGAGC CGGCGTGATG ATTGCCAATG TCGGAAGGAT 
TACACGGCGG CTGGGTTTTC CAGTTTTCAG AAAATCAGAA TAGACCTGAC CAGCATGCAG 
ATAATAACCA CTGACTTACA ATTTGCAAGG ACAAGCGAAG GACATCCCGT CCCTTTTGCC 
ACAGCCGGGG ATTGCTACAG CGCTGCCAAG TGCCCACAGG GTCGTTTTAG CATCAACCTT 
TATGGAACCG GCCTTTCTTT AACTGAATCT GCCAGATGGA TATCACAAGG GAATTACGCT 
GTCTCTGACA TCAAGAAGTC TCCGGATGGT ACCCGAGTCA TAGGGAAATG CGGTGGTTAC 
TGTGGGAAAT GCACTCCATC CTCTGGTACT GGCCTGGAGG TGCGAGTTTT ATAA

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

ADAMTS9 ( XM_015130468.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014985954.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X1, mRNA.

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CloneID	OMb79328
Clone ID Related Accession (Same CDS sequence)	XM_015130468.2
Accession Version	XM_015130468.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5808bp) 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	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041755.1) 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_015130468.1. ##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##

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG TAGCCTCTAT CTATAAAGAC CCAAGTATTG GAAATTTAAT TAATATTGTT 
ATTGTGAACT TAATTGTGAT TCATAATGAA CAGGATGGGC CTTCCATATC TTTTAATGCT 
CAGACAACAT TAAAAAACTT TTGCCAGTGG CAGCATTCGA AGAACAGTCC AGGTGGAATC 
CATCATGATA CTGCTGTTCT CTTAACAAGA CAGGATATCT GCAGAGCTCA CGACAAATGT 
GATACCTTAG GCCTGGCTGA ACTGGGAACC ATTTGTGATC CCTACAGAAG CTGTTCTATT 
AGTGAAGATA GTGGATTGAG TACAGCTTTT ACGATTGCCC ATGAGCTGGG TCATGTGTTT 
AACATGCCTC ATGATGACAA CAACAAATGT AAAGAAGAAG GAGTTAAGAG TCCCCAGCAT 
GTCATGGCTC CAACACTGAA CTTCTACACC AACCCCTGGA TGTGGTCAAA GTGTAGTCGA 
AAATATATCA CTGAGTTTTT AGACACTGGT TATGGCGAGT GTTTGCTTAA TGAACCTGAA 
TCCAGACCCT ACCCTTTGCC TGTCCAACTG CCAGGCATCC TTTACAACGT GAATAAACAA 
TGTGAATTGA TTTTTGGACC AGGTTCTCAG GTGTGCCCGT ATATGATGCA ATGTAGACGG 
CTCTGGTGCA ATAATGTCAA TGGAGTACAC AAAGGCTGCC GGACTCAGCA CACACCCTGG 
GCCGATGGGA CGGAGTGCGA GCCTGGAAAG CACTGCAAGT ATGGATTTTG TGTTCCCAAA 
GAAATGGATG TCCCTGTGAC AGATGGATCC TGGGGAAGTT GGAGTCCCTT TGGAACCTGC 
TCCAGAACAT GTGGAGGGGG CATCAAAACA GCCATTCGAG AGTGCAACAG ACCAGAGCCA 
AAAAATGGTG GAAAATACTG TGTAGGACGT AGAATGAAAT TTAAGTCCTG CAACACGGAG 
CCATGTCTCA AGCAGAAGCG AGACTTCCGA GATGAACAGT GTGCTCACTT TGACGGGAAG 
CATTTTAACA TCAACGGTCT GCTTCCCAAT GTGCGCTGGG TCCCTAAGTA TAGTGGAATT 
CTGATGAAGG ACCGGTGCAA GTTGTTCTGC AGAGTGGCAG GGAACACGGC CTACTATCAG 
CTTCGAGACA GAGTGATAGA CGGAACTCCT TGTGGCCAGG ACACAAACGA TATCTGTGTC 
CAGGGTCTTT GCCGGCAAGC TGGATGCGAT CATGTTTTAA ACTCAAAAGC CCGGAGAGAT 
AAATGTGGGG TTTGTGGTGG CGATAATTCT TCATGCAAAA CAGTGGCAGG AACATTTAAT 
ACAGTACATT ATGGTTACAA CACTGTGGTC CGAATTCCAG CAGGTGCTAC CAATATTGAT 
GTGCGGCAGC ACAGTTTCTC AGGGGAAACA GACGACGACA ACTACTTAGC TTTATCAAGC 
AGTAAAGGTG AATTCTTGCT AAATGGAAAC TTTGTTGTCA CAATGGCCAA AAGGGAAATC 
CGCATTGGGA ATGCTGTGGT AGAGTACAGT GGATCCGAGA CTGCCGTAGA AAGAATTAAC 
TCAACAGATC GCATTGAGCA AGAACTTTTG CTTCAGGTTT TGTCGGTGGG AAAGTTATAC 
AACCCCGATG TACGCTATTC TTTCAATATT CCAATTGAAG ATAAACCTCA GCAGTTTTAC 
TGGAACAGTC ATGGGCCGTG GCAAGCATGC AGTAAACCCT GCCAAGGGGA ACGGAAACGA 
AAACTTGTTT GCACCAGGGA ATCTGATCAG CTTACTGTTT CTGATCAAAG ATGCGATCGG 
CTGCCCCAGC CTGGACCCAT TACTGAACCC TGCGGCACAG ACTGTGACCT GAGGTGGCAT 
GTGGCCAGCA GGAGTGAATG TAGTGCCCAG TGTGGTTTGG GTTACCGCAC ATTAGACATC 
TACTGTGCCA AATATAGCAG GCTGGATGGG AAGACCGAGA AGGTTGATGA TGGTTTCTGC 
AGTAGTCATC CCAAACCAAG CAACCGTGAA AAATGCTCAG GGGAATGTAA CACAGGTGGC 
TGGCGCTATT CTGCCTGGAC TGAATGTTCT AAAAGCTGTG ATGGTGGGAC CCAGAGGAGA 
AGGGCCATTT GTGTCAATAC CCGAAATGAT GTGCTGGATG ACAGCAAATG CACACATCAA 
GAGAAAGTTA CCATTCAGAG GTGCAGTGAG TTTCCTTGTC CACAGTGGAA ATCTGGAGAC 
TGGTCAGAGT GCTTGGTCAC CTGTGGAAAA GGGCATAAGC ACCGCCAGGT CTGGTGTCAG 
TTTGGTGAAG ATCGATTAAA TGATAGAATG TGTGACCCTG AGACCAAGCC AACATCTATG 
CAGACTTGTC AGCAGCCGGA ATGTGCATCC TGGCAGGCGG GTCCCTGGGG ACAGTGCAGT 
GTCACTTGTG GACAGGGATA CCAGCTAAGA GCAGTGAAAT GCATCATTGG GACTTATATG 
TCAGTGGTAG ATGACAATGA CTGTAATGCA GCAACTAGAC CAACTGATAC CCAGGACTGT 
GAATTACCAT CTTGTCATCC TCCCCCAGCT GCCCCGGAAA CGAGGAGAAG CACATACAGT 
GCACCAAGAA CCCAGTGGCG ATTTGGGTCT TGGACCCCAT GCTCAGCCAC TTGTGGGAAA 
GGTACCCGAA TGAGATACGT CAGCTGCCGA GATGAGAATG GCTCTGTGGC TGATGAGAGT 
GCCTGTGCTA CCCTGCCTAG ACCAGTGGCA AAGGAAGAAT GTTCTGTGAC ACCCTGTGGG 
CAATGGAAGG CCTTGGACTG GAGCTCTTGC TCTGTAACCT GTGGGCAAGG TAGGGCAACC 
CGGCAAGTGG TGTGTGTCAA CTATAGTGAC CATGTGATCG ATCGGAGTGA GTGCGACCAG 
GATTATATCC CAGAAACCGA CCAGGACTGT TCCATGTCAC CATGCCCTCA AAGGACCCCA 
GACAGTGGCT TAGCTCAGCA CCCCTTCCAA AATGAGGACT ATCGTCCCCG GAGCGCCAGC 
CCTAGCCGCA CCCACGTACT CGGTGGAAAC CAGTGGAGAA CTGGCCCCTG GGGAGCATGT 
TCCAGTACCT GTGCTGGCGG ATCCCAGCGG CGTGTTGTTG TATGTCAGGA CGAAAATGGA 
TACACCGCAA ACGACTGTGT GGAGAGAATA AAACCTGATG AGCAAAGAGC TTGTGAATCC 
GGCCCTTGTC CTCAGTGGGC TTATGGCAAC TGGGGAGAGT GCACTAAGCT ATGTGGTGGA 
GGCATAAGAA CAAGACTGGT GGTCTGTCAG CGGTCCAACG GTGAACGGTT TCCAGATCTG 
AGCTGTGAAA TTCTTGATAA ACCTCCCGAT CGTGAGCAGT GTAACACACA TGCTTGTCCA 
CACGACGCTG CATGGAGTAC TGGCCCTTGG AGCTCGTGTT CTGTCTCTTG TGGTCGAGGG 
CATAAACAAC GAAATGTTTA CTGCATGGCA AAAGATGGAA GCCATTTAGA AAGTGATTAC 
TGTAAACACC TGGCTAAGCC ACATGGGCAC AGAAAGTGCC GAGGAGGAAG ATGCCCCAAA 
TGGAAAACTG GCGCTTGGAG TCAGTGCTCT GTGTCCTGTG GCCGAGGCGT ACAGCAGAGG 
CATGTGGGCT GTCAGATCGG AACACATAAA ATAGCCAGAG AGACCGAGTG CAACCCCTAC 
ACCAGACCGG AGTCGGAACG CGACTGCCAA GGCCCACGGT GTCCCCTCTA CACTTGGAGG 
GCAGAGGAAT GGCAAGAATG CACCAAAACC TGCGGTGAAG GCTCCAGGTA CCGCAAGGTG 
GTGTGTGTGG ATGACAGCAA AAATGAGGTG CATGGTGCAC GCTGTGACGT GAGCAAGCGG 
CCGGCAGACC ACGAAAGCTG TAGTTTGCAA CCCTGCGAGT ATGTCTGGAT CACAGGAGAA 
TGGTCAGAGT GCTCAGTGAC CTGTGGAAAA GGCTACAAAC AAAGGCTTGT CTCATGCAGC 
GAGATTTACA CCGGGAAGGA GAATTATGAA TACAGCTACC AAACCACTGT CAACTGCCCG 
GGCACGCAGC CCCCCAGTGT TCACCCCTGT TACCTGAGGG AGTGCCCTGT CTCGGCCACC 
TGGAGAGTTG GCAACTGGGG AAGTTGCTCA GTGTCTTGTG GTGTTGGAGT GATGCAGAGA 
TCTGTGCAAT GTTTAACCAA TGAGGACCAA CCCAGCCACT TATGCCACAC TGATTTGAAG 
CCAGAAGAAC GAAAAACCTG CCGCAATATC TATAACTGTG AGTTACCCCA GAATTGCAAG 
GAAGTAAAAA GACTTAAAGG TGCCAGTGAA GATGGTGAAT ATTTCCTGAT GATTAGAGGA 
AAGCTTCTGA AGATATTCTG TGCGGGGATG CACTCTGACC ACCCCAAAGA GTACGTGACA 
CTGGTGCATG GAGACTCAGA GAATTTCTCC GAGGTTTATG GACACAGGTT ACACAACCCA 
ACGGAATGTC CCTATAACGG GAGCCGGCGT GATGATTGCC AATGTCGGAA GGATTACACG 
GCGGCTGGGT TTTCCAGTTT TCAGAAAATC AGAATAGACC TGACCAGCAT GCAGATAATA 
ACCACTGACT TACAATTTGC AAGGACAAGC GAAGGACATC CCGTCCCTTT TGCCACAGCC 
GGGGATTGCT ACAGCGCTGC CAAGTGCCCA CAGGGTCGTT TTAGCATCAA CCTTTATGGA 
ACCGGCCTTT CTTTAACTGA ATCTGCCAGA TGGATATCAC AAGGGAATTA CGCTGTCTCT 
GACATCAAGA AGTCTCCGGA TGGTACCCGA GTCATAGGGA AATGCGGTGG TTACTGTGGG 
AAATGCACTC CATCCTCTGG TACTGGCCTG GAGGTGCGAG TTTTATAA

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

RefSeq	XP_014985954.1
CDS	339..6146
Translation	MQFVSWATLLTLLVRDLAEMGIPDAAAAVRKDRLHPRQVKLLETLSEYEIVSPIRVNALGEPFPTNVHFKRRRRSINSATDPWPAFASSSSSSTSSQAHYRLSAFGQQFLFNLTANAGFIAPLFTVTLLGTPGVNQTKFYSEEEAELKHCFYKGYVNTKSEHTAVISLCSGMLGTFRSYDGDYFIEPLQSMDEQEDEEEQNKPHIIYRRSTPQREPSTGRHACDTSEHKNRHSKDKKKTRARKWGERINLADDVAALNSGLATEAFSAYGNKTDNTTEKRTHRRTKRFLSYPRFVEVLVVADNRMVSYHGENLQHYILTLMSIVASIYKDPSIGNLINIVIVNLIVIHNEQDGPSISFNAQTTLKNFCQWQHSKNSPGGIHHDTAVLLTRQDICRAHDKCDTLGLAELGTICDPYRSCSISEDSGLSTAFTIAHELGHVFNMPHDDNNKCKEEGVKSPQHVMAPTLNFYTNPWMWSKCSRKYITEFLDTGYGECLLNEPESRPYPLPVQLPGILYNVNKQCELIFGPGSQVCPYMMQCRRLWCNNVNGVHKGCRTQHTPWADGTECEPGKHCKYGFCVPKEMDVPVTDGSWGSWSPFGTCSRTCGGGIKTAIRECNRPEPKNGGKYCVGRRMKFKSCNTEPCLKQKRDFRDEQCAHFDGKHFNINGLLPNVRWVPKYSGILMKDRCKLFCRVAGNTAYYQLRDRVIDGTPCGQDTNDICVQGLCRQAGCDHVLNSKARRDKCGVCGGDNSSCKTVAGTFNTVHYGYNTVVRIPAGATNIDVRQHSFSGETDDDNYLALSSSKGEFLLNGNFVVTMAKREIRIGNAVVEYSGSETAVERINSTDRIEQELLLQVLSVGKLYNPDVRYSFNIPIEDKPQQFYWNSHGPWQACSKPCQGERKRKLVCTRESDQLTVSDQRCDRLPQPGPITEPCGTDCDLRWHVASRSECSAQCGLGYRTLDIYCAKYSRLDGKTEKVDDGFCSSHPKPSNREKCSGECNTGGWRYSAWTECSKSCDGGTQRRRAICVNTRNDVLDDSKCTHQEKVTIQRCSEFPCPQWKSGDWSECLVTCGKGHKHRQVWCQFGEDRLNDRMCDPETKPTSMQTCQQPECASWQAGPWGQCSVTCGQGYQLRAVKCIIGTYMSVVDDNDCNAATRPTDTQDCELPSCHPPPAAPETRRSTYSAPRTQWRFGSWTPCSATCGKGTRMRYVSCRDENGSVADESACATLPRPVAKEECSVTPCGQWKALDWSSCSVTCGQGRATRQVVCVNYSDHVIDRSECDQDYIPETDQDCSMSPCPQRTPDSGLAQHPFQNEDYRPRSASPSRTHVLGGNQWRTGPWGACSSTCAGGSQRRVVVCQDENGYTANDCVERIKPDEQRACESGPCPQWAYGNWGECTKLCGGGIRTRLVVCQRSNGERFPDLSCEILDKPPDREQCNTHACPHDAAWSTGPWSSCSVSCGRGHKQRNVYCMAKDGSHLESDYCKHLAKPHGHRKCRGGRCPKWKTGAWSQCSVSCGRGVQQRHVGCQIGTHKIARETECNPYTRPESERDCQGPRCPLYTWRAEEWQECTKTCGEGSRYRKVVCVDDSKNEVHGARCDVSKRPADHESCSLQPCEYVWITGEWSECSVTCGKGYKQRLVSCSEIYTGKENYEYSYQTTVNCPGTQPPSVHPCYLRECPVSATWRVGNWGSCSVSCGVGVMQRSVQCLTNEDQPSHLCHTDLKPEERKTCRNIYNCELPQNCKEVKRLKGASEDGEYFLMIRGKLLKIFCAGMHSDHPKEYVTLVHGDSENFSEVYGHRLHNPTECPYNGSRRDDCQCRKDYTAAGFSSFQKIRIDLTSMQIITTDLQFARTSEGHPVPFATAGDCYSAAKCPQGRFSINLYGTGLSLTESARWISQGNYAVSDIKKSPDGTRVIGKCGGYCGKCTPSSGTGLEVRVL

Target ORF information:

RefSeq Version	XM_015130468.2
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X1, mRNA.

Target ORF information:

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

XM_015130468.2

ORF Insert Sequence:

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG TAGCCTCTAT CTATAAAGAC CCAAGTATTG GAAATTTAAT TAATATTGTT 
ATTGTGAACT TAATTGTGAT TCATAATGAA CAGGATGGGC CTTCCATATC TTTTAATGCT 
CAGACAACAT TAAAAAACTT TTGCCAGTGG CAGCATTCGA AGAACAGTCC AGGTGGAATC 
CATCATGATA CTGCTGTTCT CTTAACAAGA CAGGATATCT GCAGAGCTCA CGACAAATGT 
GATACCTTAG GCCTGGCTGA ACTGGGAACC ATTTGTGATC CCTACAGAAG CTGTTCTATT 
AGTGAAGATA GTGGATTGAG TACAGCTTTT ACGATTGCCC ATGAGCTGGG TCATGTGTTT 
AACATGCCTC ATGATGACAA CAACAAATGT AAAGAAGAAG GAGTTAAGAG TCCCCAGCAT 
GTCATGGCTC CAACACTGAA CTTCTACACC AACCCCTGGA TGTGGTCAAA GTGTAGTCGA 
AAATATATCA CTGAGTTTTT AGACACTGGT TATGGCGAGT GTTTGCTTAA TGAACCTGAA 
TCCAGACCCT ACCCTTTGCC TGTCCAACTG CCAGGCATCC TTTACAACGT GAATAAACAA 
TGTGAATTGA TTTTTGGACC AGGTTCTCAG GTGTGCCCGT ATATGATGCA ATGTAGACGG 
CTCTGGTGCA ATAATGTCAA TGGAGTACAC AAAGGCTGCC GGACTCAGCA CACACCCTGG 
GCCGATGGGA CGGAGTGCGA GCCTGGAAAG CACTGCAAGT ATGGATTTTG TGTTCCCAAA 
GAAATGGATG TCCCTGTGAC AGATGGATCC TGGGGAAGTT GGAGTCCCTT TGGAACCTGC 
TCCAGAACAT GTGGAGGGGG CATCAAAACA GCCATTCGAG AGTGCAACAG ACCAGAGCCA 
AAAAATGGTG GAAAATACTG TGTAGGACGT AGAATGAAAT TTAAGTCCTG CAACACGGAG 
CCATGTCTCA AGCAGAAGCG AGACTTCCGA GATGAACAGT GTGCTCACTT TGACGGGAAG 
CATTTTAACA TCAACGGTCT GCTTCCCAAT GTGCGCTGGG TCCCTAAGTA TAGTGGAATT 
CTGATGAAGG ACCGGTGCAA GTTGTTCTGC AGAGTGGCAG GGAACACGGC CTACTATCAG 
CTTCGAGACA GAGTGATAGA CGGAACTCCT TGTGGCCAGG ACACAAACGA TATCTGTGTC 
CAGGGTCTTT GCCGGCAAGC TGGATGCGAT CATGTTTTAA ACTCAAAAGC CCGGAGAGAT 
AAATGTGGGG TTTGTGGTGG CGATAATTCT TCATGCAAAA CAGTGGCAGG AACATTTAAT 
ACAGTACATT ATGGTTACAA CACTGTGGTC CGAATTCCAG CAGGTGCTAC CAATATTGAT 
GTGCGGCAGC ACAGTTTCTC AGGGGAAACA GACGACGACA ACTACTTAGC TTTATCAAGC 
AGTAAAGGTG AATTCTTGCT AAATGGAAAC TTTGTTGTCA CAATGGCCAA AAGGGAAATC 
CGCATTGGGA ATGCTGTGGT AGAGTACAGT GGATCCGAGA CTGCCGTAGA AAGAATTAAC 
TCAACAGATC GCATTGAGCA AGAACTTTTG CTTCAGGTTT TGTCGGTGGG AAAGTTATAC 
AACCCCGATG TACGCTATTC TTTCAATATT CCAATTGAAG ATAAACCTCA GCAGTTTTAC 
TGGAACAGTC ATGGGCCGTG GCAAGCATGC AGTAAACCCT GCCAAGGGGA ACGGAAACGA 
AAACTTGTTT GCACCAGGGA ATCTGATCAG CTTACTGTTT CTGATCAAAG ATGCGATCGG 
CTGCCCCAGC CTGGACCCAT TACTGAACCC TGCGGCACAG ACTGTGACCT GAGGTGGCAT 
GTGGCCAGCA GGAGTGAATG TAGTGCCCAG TGTGGTTTGG GTTACCGCAC ATTAGACATC 
TACTGTGCCA AATATAGCAG GCTGGATGGG AAGACCGAGA AGGTTGATGA TGGTTTCTGC 
AGTAGTCATC CCAAACCAAG CAACCGTGAA AAATGCTCAG GGGAATGTAA CACAGGTGGC 
TGGCGCTATT CTGCCTGGAC TGAATGTTCT AAAAGCTGTG ATGGTGGGAC CCAGAGGAGA 
AGGGCCATTT GTGTCAATAC CCGAAATGAT GTGCTGGATG ACAGCAAATG CACACATCAA 
GAGAAAGTTA CCATTCAGAG GTGCAGTGAG TTTCCTTGTC CACAGTGGAA ATCTGGAGAC 
TGGTCAGAGT GCTTGGTCAC CTGTGGAAAA GGGCATAAGC ACCGCCAGGT CTGGTGTCAG 
TTTGGTGAAG ATCGATTAAA TGATAGAATG TGTGACCCTG AGACCAAGCC AACATCTATG 
CAGACTTGTC AGCAGCCGGA ATGTGCATCC TGGCAGGCGG GTCCCTGGGG ACAGTGCAGT 
GTCACTTGTG GACAGGGATA CCAGCTAAGA GCAGTGAAAT GCATCATTGG GACTTATATG 
TCAGTGGTAG ATGACAATGA CTGTAATGCA GCAACTAGAC CAACTGATAC CCAGGACTGT 
GAATTACCAT CTTGTCATCC TCCCCCAGCT GCCCCGGAAA CGAGGAGAAG CACATACAGT 
GCACCAAGAA CCCAGTGGCG ATTTGGGTCT TGGACCCCAT GCTCAGCCAC TTGTGGGAAA 
GGTACCCGAA TGAGATACGT CAGCTGCCGA GATGAGAATG GCTCTGTGGC TGATGAGAGT 
GCCTGTGCTA CCCTGCCTAG ACCAGTGGCA AAGGAAGAAT GTTCTGTGAC ACCCTGTGGG 
CAATGGAAGG CCTTGGACTG GAGCTCTTGC TCTGTAACCT GTGGGCAAGG TAGGGCAACC 
CGGCAAGTGG TGTGTGTCAA CTATAGTGAC CATGTGATCG ATCGGAGTGA GTGCGACCAG 
GATTATATCC CAGAAACCGA CCAGGACTGT TCCATGTCAC CATGCCCTCA AAGGACCCCA 
GACAGTGGCT TAGCTCAGCA CCCCTTCCAA AATGAGGACT ATCGTCCCCG GAGCGCCAGC 
CCTAGCCGCA CCCACGTACT CGGTGGAAAC CAGTGGAGAA CTGGCCCCTG GGGAGCATGT 
TCCAGTACCT GTGCTGGCGG ATCCCAGCGG CGTGTTGTTG TATGTCAGGA CGAAAATGGA 
TACACCGCAA ACGACTGTGT GGAGAGAATA AAACCTGATG AGCAAAGAGC TTGTGAATCC 
GGCCCTTGTC CTCAGTGGGC TTATGGCAAC TGGGGAGAGT GCACTAAGCT ATGTGGTGGA 
GGCATAAGAA CAAGACTGGT GGTCTGTCAG CGGTCCAACG GTGAACGGTT TCCAGATCTG 
AGCTGTGAAA TTCTTGATAA ACCTCCCGAT CGTGAGCAGT GTAACACACA TGCTTGTCCA 
CACGACGCTG CATGGAGTAC TGGCCCTTGG AGCTCGTGTT CTGTCTCTTG TGGTCGAGGG 
CATAAACAAC GAAATGTTTA CTGCATGGCA AAAGATGGAA GCCATTTAGA AAGTGATTAC 
TGTAAACACC TGGCTAAGCC ACATGGGCAC AGAAAGTGCC GAGGAGGAAG ATGCCCCAAA 
TGGAAAACTG GCGCTTGGAG TCAGTGCTCT GTGTCCTGTG GCCGAGGCGT ACAGCAGAGG 
CATGTGGGCT GTCAGATCGG AACACATAAA ATAGCCAGAG AGACCGAGTG CAACCCCTAC 
ACCAGACCGG AGTCGGAACG CGACTGCCAA GGCCCACGGT GTCCCCTCTA CACTTGGAGG 
GCAGAGGAAT GGCAAGAATG CACCAAAACC TGCGGTGAAG GCTCCAGGTA CCGCAAGGTG 
GTGTGTGTGG ATGACAGCAA AAATGAGGTG CATGGTGCAC GCTGTGACGT GAGCAAGCGG 
CCGGCAGACC ACGAAAGCTG TAGTTTGCAA CCCTGCGAGT ATGTCTGGAT CACAGGAGAA 
TGGTCAGAGT GCTCAGTGAC CTGTGGAAAA GGCTACAAAC AAAGGCTTGT CTCATGCAGC 
GAGATTTACA CCGGGAAGGA GAATTATGAA TACAGCTACC AAACCACTGT CAACTGCCCG 
GGCACGCAGC CCCCCAGTGT TCACCCCTGT TACCTGAGGG AGTGCCCTGT CTCGGCCACC 
TGGAGAGTTG GCAACTGGGG AAGTTGCTCA GTGTCTTGTG GTGTTGGAGT GATGCAGAGA 
TCTGTGCAAT GTTTAACCAA TGAGGACCAA CCCAGCCACT TATGCCACAC TGATTTGAAG 
CCAGAAGAAC GAAAAACCTG CCGCAATATC TATAACTGTG AGTTACCCCA GAATTGCAAG 
GAAGTAAAAA GACTTAAAGG TGCCAGTGAA GATGGTGAAT ATTTCCTGAT GATTAGAGGA 
AAGCTTCTGA AGATATTCTG TGCGGGGATG CACTCTGACC ACCCCAAAGA GTACGTGACA 
CTGGTGCATG GAGACTCAGA GAATTTCTCC GAGGTTTATG GACACAGGTT ACACAACCCA 
ACGGAATGTC CCTATAACGG GAGCCGGCGT GATGATTGCC AATGTCGGAA GGATTACACG 
GCGGCTGGGT TTTCCAGTTT TCAGAAAATC AGAATAGACC TGACCAGCAT GCAGATAATA 
ACCACTGACT TACAATTTGC AAGGACAAGC GAAGGACATC CCGTCCCTTT TGCCACAGCC 
GGGGATTGCT ACAGCGCTGC CAAGTGCCCA CAGGGTCGTT TTAGCATCAA CCTTTATGGA 
ACCGGCCTTT CTTTAACTGA ATCTGCCAGA TGGATATCAC AAGGGAATTA CGCTGTCTCT 
GACATCAAGA AGTCTCCGGA TGGTACCCGA GTCATAGGGA AATGCGGTGG TTACTGTGGG 
AAATGCACTC CATCCTCTGG TACTGGCCTG GAGGTGCGAG TTTTATAA

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

ADAMTS9 ( XM_015130469.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014985955.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OMb79329
Clone ID Related Accession (Same CDS sequence)	XM_015130469.2
Accession Version	XM_015130469.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5724bp) 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	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041755.1) 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_015130469.1. ##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##

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG ATGGGCCTTC CATATCTTTT AATGCTCAGA CAACATTAAA AAACTTTTGC 
CAGTGGCAGC ATTCGAAGAA CAGTCCAGGT GGAATCCATC ATGATACTGC TGTTCTCTTA 
ACAAGACAGG ATATCTGCAG AGCTCACGAC AAATGTGATA CCTTAGGCCT GGCTGAACTG 
GGAACCATTT GTGATCCCTA CAGAAGCTGT TCTATTAGTG AAGATAGTGG ATTGAGTACA 
GCTTTTACGA TTGCCCATGA GCTGGGTCAT GTGTTTAACA TGCCTCATGA TGACAACAAC 
AAATGTAAAG AAGAAGGAGT TAAGAGTCCC CAGCATGTCA TGGCTCCAAC ACTGAACTTC 
TACACCAACC CCTGGATGTG GTCAAAGTGT AGTCGAAAAT ATATCACTGA GTTTTTAGAC 
ACTGGTTATG GCGAGTGTTT GCTTAATGAA CCTGAATCCA GACCCTACCC TTTGCCTGTC 
CAACTGCCAG GCATCCTTTA CAACGTGAAT AAACAATGTG AATTGATTTT TGGACCAGGT 
TCTCAGGTGT GCCCGTATAT GATGCAATGT AGACGGCTCT GGTGCAATAA TGTCAATGGA 
GTACACAAAG GCTGCCGGAC TCAGCACACA CCCTGGGCCG ATGGGACGGA GTGCGAGCCT 
GGAAAGCACT GCAAGTATGG ATTTTGTGTT CCCAAAGAAA TGGATGTCCC TGTGACAGAT 
GGATCCTGGG GAAGTTGGAG TCCCTTTGGA ACCTGCTCCA GAACATGTGG AGGGGGCATC 
AAAACAGCCA TTCGAGAGTG CAACAGACCA GAGCCAAAAA ATGGTGGAAA ATACTGTGTA 
GGACGTAGAA TGAAATTTAA GTCCTGCAAC ACGGAGCCAT GTCTCAAGCA GAAGCGAGAC 
TTCCGAGATG AACAGTGTGC TCACTTTGAC GGGAAGCATT TTAACATCAA CGGTCTGCTT 
CCCAATGTGC GCTGGGTCCC TAAGTATAGT GGAATTCTGA TGAAGGACCG GTGCAAGTTG 
TTCTGCAGAG TGGCAGGGAA CACGGCCTAC TATCAGCTTC GAGACAGAGT GATAGACGGA 
ACTCCTTGTG GCCAGGACAC AAACGATATC TGTGTCCAGG GTCTTTGCCG GCAAGCTGGA 
TGCGATCATG TTTTAAACTC AAAAGCCCGG AGAGATAAAT GTGGGGTTTG TGGTGGCGAT 
AATTCTTCAT GCAAAACAGT GGCAGGAACA TTTAATACAG TACATTATGG TTACAACACT 
GTGGTCCGAA TTCCAGCAGG TGCTACCAAT ATTGATGTGC GGCAGCACAG TTTCTCAGGG 
GAAACAGACG ACGACAACTA CTTAGCTTTA TCAAGCAGTA AAGGTGAATT CTTGCTAAAT 
GGAAACTTTG TTGTCACAAT GGCCAAAAGG GAAATCCGCA TTGGGAATGC TGTGGTAGAG 
TACAGTGGAT CCGAGACTGC CGTAGAAAGA ATTAACTCAA CAGATCGCAT TGAGCAAGAA 
CTTTTGCTTC AGGTTTTGTC GGTGGGAAAG TTATACAACC CCGATGTACG CTATTCTTTC 
AATATTCCAA TTGAAGATAA ACCTCAGCAG TTTTACTGGA ACAGTCATGG GCCGTGGCAA 
GCATGCAGTA AACCCTGCCA AGGGGAACGG AAACGAAAAC TTGTTTGCAC CAGGGAATCT 
GATCAGCTTA CTGTTTCTGA TCAAAGATGC GATCGGCTGC CCCAGCCTGG ACCCATTACT 
GAACCCTGCG GCACAGACTG TGACCTGAGG TGGCATGTGG CCAGCAGGAG TGAATGTAGT 
GCCCAGTGTG GTTTGGGTTA CCGCACATTA GACATCTACT GTGCCAAATA TAGCAGGCTG 
GATGGGAAGA CCGAGAAGGT TGATGATGGT TTCTGCAGTA GTCATCCCAA ACCAAGCAAC 
CGTGAAAAAT GCTCAGGGGA ATGTAACACA GGTGGCTGGC GCTATTCTGC CTGGACTGAA 
TGTTCTAAAA GCTGTGATGG TGGGACCCAG AGGAGAAGGG CCATTTGTGT CAATACCCGA 
AATGATGTGC TGGATGACAG CAAATGCACA CATCAAGAGA AAGTTACCAT TCAGAGGTGC 
AGTGAGTTTC CTTGTCCACA GTGGAAATCT GGAGACTGGT CAGAGTGCTT GGTCACCTGT 
GGAAAAGGGC ATAAGCACCG CCAGGTCTGG TGTCAGTTTG GTGAAGATCG ATTAAATGAT 
AGAATGTGTG ACCCTGAGAC CAAGCCAACA TCTATGCAGA CTTGTCAGCA GCCGGAATGT 
GCATCCTGGC AGGCGGGTCC CTGGGGACAG TGCAGTGTCA CTTGTGGACA GGGATACCAG 
CTAAGAGCAG TGAAATGCAT CATTGGGACT TATATGTCAG TGGTAGATGA CAATGACTGT 
AATGCAGCAA CTAGACCAAC TGATACCCAG GACTGTGAAT TACCATCTTG TCATCCTCCC 
CCAGCTGCCC CGGAAACGAG GAGAAGCACA TACAGTGCAC CAAGAACCCA GTGGCGATTT 
GGGTCTTGGA CCCCATGCTC AGCCACTTGT GGGAAAGGTA CCCGAATGAG ATACGTCAGC 
TGCCGAGATG AGAATGGCTC TGTGGCTGAT GAGAGTGCCT GTGCTACCCT GCCTAGACCA 
GTGGCAAAGG AAGAATGTTC TGTGACACCC TGTGGGCAAT GGAAGGCCTT GGACTGGAGC 
TCTTGCTCTG TAACCTGTGG GCAAGGTAGG GCAACCCGGC AAGTGGTGTG TGTCAACTAT 
AGTGACCATG TGATCGATCG GAGTGAGTGC GACCAGGATT ATATCCCAGA AACCGACCAG 
GACTGTTCCA TGTCACCATG CCCTCAAAGG ACCCCAGACA GTGGCTTAGC TCAGCACCCC 
TTCCAAAATG AGGACTATCG TCCCCGGAGC GCCAGCCCTA GCCGCACCCA CGTACTCGGT 
GGAAACCAGT GGAGAACTGG CCCCTGGGGA GCATGTTCCA GTACCTGTGC TGGCGGATCC 
CAGCGGCGTG TTGTTGTATG TCAGGACGAA AATGGATACA CCGCAAACGA CTGTGTGGAG 
AGAATAAAAC CTGATGAGCA AAGAGCTTGT GAATCCGGCC CTTGTCCTCA GTGGGCTTAT 
GGCAACTGGG GAGAGTGCAC TAAGCTATGT GGTGGAGGCA TAAGAACAAG ACTGGTGGTC 
TGTCAGCGGT CCAACGGTGA ACGGTTTCCA GATCTGAGCT GTGAAATTCT TGATAAACCT 
CCCGATCGTG AGCAGTGTAA CACACATGCT TGTCCACACG ACGCTGCATG GAGTACTGGC 
CCTTGGAGCT CGTGTTCTGT CTCTTGTGGT CGAGGGCATA AACAACGAAA TGTTTACTGC 
ATGGCAAAAG ATGGAAGCCA TTTAGAAAGT GATTACTGTA AACACCTGGC TAAGCCACAT 
GGGCACAGAA AGTGCCGAGG AGGAAGATGC CCCAAATGGA AAACTGGCGC TTGGAGTCAG 
TGCTCTGTGT CCTGTGGCCG AGGCGTACAG CAGAGGCATG TGGGCTGTCA GATCGGAACA 
CATAAAATAG CCAGAGAGAC CGAGTGCAAC CCCTACACCA GACCGGAGTC GGAACGCGAC 
TGCCAAGGCC CACGGTGTCC CCTCTACACT TGGAGGGCAG AGGAATGGCA AGAATGCACC 
AAAACCTGCG GTGAAGGCTC CAGGTACCGC AAGGTGGTGT GTGTGGATGA CAGCAAAAAT 
GAGGTGCATG GTGCACGCTG TGACGTGAGC AAGCGGCCGG CAGACCACGA AAGCTGTAGT 
TTGCAACCCT GCGAGTATGT CTGGATCACA GGAGAATGGT CAGAGTGCTC AGTGACCTGT 
GGAAAAGGCT ACAAACAAAG GCTTGTCTCA TGCAGCGAGA TTTACACCGG GAAGGAGAAT 
TATGAATACA GCTACCAAAC CACTGTCAAC TGCCCGGGCA CGCAGCCCCC CAGTGTTCAC 
CCCTGTTACC TGAGGGAGTG CCCTGTCTCG GCCACCTGGA GAGTTGGCAA CTGGGGAAGT 
TGCTCAGTGT CTTGTGGTGT TGGAGTGATG CAGAGATCTG TGCAATGTTT AACCAATGAG 
GACCAACCCA GCCACTTATG CCACACTGAT TTGAAGCCAG AAGAACGAAA AACCTGCCGC 
AATATCTATA ACTGTGAGTT ACCCCAGAAT TGCAAGGAAG TAAAAAGACT TAAAGGTGCC 
AGTGAAGATG GTGAATATTT CCTGATGATT AGAGGAAAGC TTCTGAAGAT ATTCTGTGCG 
GGGATGCACT CTGACCACCC CAAAGAGTAC GTGACACTGG TGCATGGAGA CTCAGAGAAT 
TTCTCCGAGG TTTATGGACA CAGGTTACAC AACCCAACGG AATGTCCCTA TAACGGGAGC 
CGGCGTGATG ATTGCCAATG TCGGAAGGAT TACACGGCGG CTGGGTTTTC CAGTTTTCAG 
AAAATCAGAA TAGACCTGAC CAGCATGCAG ATAATAACCA CTGACTTACA ATTTGCAAGG 
ACAAGCGAAG GACATCCCGT CCCTTTTGCC ACAGCCGGGG ATTGCTACAG CGCTGCCAAG 
TGCCCACAGG GTCGTTTTAG CATCAACCTT TATGGAACCG GCCTTTCTTT AACTGAATCT 
GCCAGATGGA TATCACAAGG GAATTACGCT GTCTCTGACA TCAAGAAGTC TCCGGATGGT 
ACCCGAGTCA TAGGGAAATG CGGTGGTTAC TGTGGGAAAT GCACTCCATC CTCTGGTACT 
GGCCTGGAGG TGCGAGTTTT ATAA

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

RefSeq	XP_014985955.1
CDS	38..5761
Translation	MQFVSWATLLTLLVRDLAEMGIPDAAAAVRKDRLHPRQVKLLETLSEYEIVSPIRVNALGEPFPTNVHFKRRRRSINSATDPWPAFASSSSSSTSSQAHYRLSAFGQQFLFNLTANAGFIAPLFTVTLLGTPGVNQTKFYSEEEAELKHCFYKGYVNTKSEHTAVISLCSGMLGTFRSYDGDYFIEPLQSMDEQEDEEEQNKPHIIYRRSTPQREPSTGRHACDTSEHKNRHSKDKKKTRARKWGERINLADDVAALNSGLATEAFSAYGNKTDNTTEKRTHRRTKRFLSYPRFVEVLVVADNRMVSYHGENLQHYILTLMSIDGPSISFNAQTTLKNFCQWQHSKNSPGGIHHDTAVLLTRQDICRAHDKCDTLGLAELGTICDPYRSCSISEDSGLSTAFTIAHELGHVFNMPHDDNNKCKEEGVKSPQHVMAPTLNFYTNPWMWSKCSRKYITEFLDTGYGECLLNEPESRPYPLPVQLPGILYNVNKQCELIFGPGSQVCPYMMQCRRLWCNNVNGVHKGCRTQHTPWADGTECEPGKHCKYGFCVPKEMDVPVTDGSWGSWSPFGTCSRTCGGGIKTAIRECNRPEPKNGGKYCVGRRMKFKSCNTEPCLKQKRDFRDEQCAHFDGKHFNINGLLPNVRWVPKYSGILMKDRCKLFCRVAGNTAYYQLRDRVIDGTPCGQDTNDICVQGLCRQAGCDHVLNSKARRDKCGVCGGDNSSCKTVAGTFNTVHYGYNTVVRIPAGATNIDVRQHSFSGETDDDNYLALSSSKGEFLLNGNFVVTMAKREIRIGNAVVEYSGSETAVERINSTDRIEQELLLQVLSVGKLYNPDVRYSFNIPIEDKPQQFYWNSHGPWQACSKPCQGERKRKLVCTRESDQLTVSDQRCDRLPQPGPITEPCGTDCDLRWHVASRSECSAQCGLGYRTLDIYCAKYSRLDGKTEKVDDGFCSSHPKPSNREKCSGECNTGGWRYSAWTECSKSCDGGTQRRRAICVNTRNDVLDDSKCTHQEKVTIQRCSEFPCPQWKSGDWSECLVTCGKGHKHRQVWCQFGEDRLNDRMCDPETKPTSMQTCQQPECASWQAGPWGQCSVTCGQGYQLRAVKCIIGTYMSVVDDNDCNAATRPTDTQDCELPSCHPPPAAPETRRSTYSAPRTQWRFGSWTPCSATCGKGTRMRYVSCRDENGSVADESACATLPRPVAKEECSVTPCGQWKALDWSSCSVTCGQGRATRQVVCVNYSDHVIDRSECDQDYIPETDQDCSMSPCPQRTPDSGLAQHPFQNEDYRPRSASPSRTHVLGGNQWRTGPWGACSSTCAGGSQRRVVVCQDENGYTANDCVERIKPDEQRACESGPCPQWAYGNWGECTKLCGGGIRTRLVVCQRSNGERFPDLSCEILDKPPDREQCNTHACPHDAAWSTGPWSSCSVSCGRGHKQRNVYCMAKDGSHLESDYCKHLAKPHGHRKCRGGRCPKWKTGAWSQCSVSCGRGVQQRHVGCQIGTHKIARETECNPYTRPESERDCQGPRCPLYTWRAEEWQECTKTCGEGSRYRKVVCVDDSKNEVHGARCDVSKRPADHESCSLQPCEYVWITGEWSECSVTCGKGYKQRLVSCSEIYTGKENYEYSYQTTVNCPGTQPPSVHPCYLRECPVSATWRVGNWGSCSVSCGVGVMQRSVQCLTNEDQPSHLCHTDLKPEERKTCRNIYNCELPQNCKEVKRLKGASEDGEYFLMIRGKLLKIFCAGMHSDHPKEYVTLVHGDSENFSEVYGHRLHNPTECPYNGSRRDDCQCRKDYTAAGFSSFQKIRIDLTSMQIITTDLQFARTSEGHPVPFATAGDCYSAAKCPQGRFSINLYGTGLSLTESARWISQGNYAVSDIKKSPDGTRVIGKCGGYCGKCTPSSGTGLEVRVL

Target ORF information:

RefSeq Version	XM_015130469.2
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X2, mRNA.

Target ORF information:

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

XM_015130469.2

ORF Insert Sequence:

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG ATGGGCCTTC CATATCTTTT AATGCTCAGA CAACATTAAA AAACTTTTGC 
CAGTGGCAGC ATTCGAAGAA CAGTCCAGGT GGAATCCATC ATGATACTGC TGTTCTCTTA 
ACAAGACAGG ATATCTGCAG AGCTCACGAC AAATGTGATA CCTTAGGCCT GGCTGAACTG 
GGAACCATTT GTGATCCCTA CAGAAGCTGT TCTATTAGTG AAGATAGTGG ATTGAGTACA 
GCTTTTACGA TTGCCCATGA GCTGGGTCAT GTGTTTAACA TGCCTCATGA TGACAACAAC 
AAATGTAAAG AAGAAGGAGT TAAGAGTCCC CAGCATGTCA TGGCTCCAAC ACTGAACTTC 
TACACCAACC CCTGGATGTG GTCAAAGTGT AGTCGAAAAT ATATCACTGA GTTTTTAGAC 
ACTGGTTATG GCGAGTGTTT GCTTAATGAA CCTGAATCCA GACCCTACCC TTTGCCTGTC 
CAACTGCCAG GCATCCTTTA CAACGTGAAT AAACAATGTG AATTGATTTT TGGACCAGGT 
TCTCAGGTGT GCCCGTATAT GATGCAATGT AGACGGCTCT GGTGCAATAA TGTCAATGGA 
GTACACAAAG GCTGCCGGAC TCAGCACACA CCCTGGGCCG ATGGGACGGA GTGCGAGCCT 
GGAAAGCACT GCAAGTATGG ATTTTGTGTT CCCAAAGAAA TGGATGTCCC TGTGACAGAT 
GGATCCTGGG GAAGTTGGAG TCCCTTTGGA ACCTGCTCCA GAACATGTGG AGGGGGCATC 
AAAACAGCCA TTCGAGAGTG CAACAGACCA GAGCCAAAAA ATGGTGGAAA ATACTGTGTA 
GGACGTAGAA TGAAATTTAA GTCCTGCAAC ACGGAGCCAT GTCTCAAGCA GAAGCGAGAC 
TTCCGAGATG AACAGTGTGC TCACTTTGAC GGGAAGCATT TTAACATCAA CGGTCTGCTT 
CCCAATGTGC GCTGGGTCCC TAAGTATAGT GGAATTCTGA TGAAGGACCG GTGCAAGTTG 
TTCTGCAGAG TGGCAGGGAA CACGGCCTAC TATCAGCTTC GAGACAGAGT GATAGACGGA 
ACTCCTTGTG GCCAGGACAC AAACGATATC TGTGTCCAGG GTCTTTGCCG GCAAGCTGGA 
TGCGATCATG TTTTAAACTC AAAAGCCCGG AGAGATAAAT GTGGGGTTTG TGGTGGCGAT 
AATTCTTCAT GCAAAACAGT GGCAGGAACA TTTAATACAG TACATTATGG TTACAACACT 
GTGGTCCGAA TTCCAGCAGG TGCTACCAAT ATTGATGTGC GGCAGCACAG TTTCTCAGGG 
GAAACAGACG ACGACAACTA CTTAGCTTTA TCAAGCAGTA AAGGTGAATT CTTGCTAAAT 
GGAAACTTTG TTGTCACAAT GGCCAAAAGG GAAATCCGCA TTGGGAATGC TGTGGTAGAG 
TACAGTGGAT CCGAGACTGC CGTAGAAAGA ATTAACTCAA CAGATCGCAT TGAGCAAGAA 
CTTTTGCTTC AGGTTTTGTC GGTGGGAAAG TTATACAACC CCGATGTACG CTATTCTTTC 
AATATTCCAA TTGAAGATAA ACCTCAGCAG TTTTACTGGA ACAGTCATGG GCCGTGGCAA 
GCATGCAGTA AACCCTGCCA AGGGGAACGG AAACGAAAAC TTGTTTGCAC CAGGGAATCT 
GATCAGCTTA CTGTTTCTGA TCAAAGATGC GATCGGCTGC CCCAGCCTGG ACCCATTACT 
GAACCCTGCG GCACAGACTG TGACCTGAGG TGGCATGTGG CCAGCAGGAG TGAATGTAGT 
GCCCAGTGTG GTTTGGGTTA CCGCACATTA GACATCTACT GTGCCAAATA TAGCAGGCTG 
GATGGGAAGA CCGAGAAGGT TGATGATGGT TTCTGCAGTA GTCATCCCAA ACCAAGCAAC 
CGTGAAAAAT GCTCAGGGGA ATGTAACACA GGTGGCTGGC GCTATTCTGC CTGGACTGAA 
TGTTCTAAAA GCTGTGATGG TGGGACCCAG AGGAGAAGGG CCATTTGTGT CAATACCCGA 
AATGATGTGC TGGATGACAG CAAATGCACA CATCAAGAGA AAGTTACCAT TCAGAGGTGC 
AGTGAGTTTC CTTGTCCACA GTGGAAATCT GGAGACTGGT CAGAGTGCTT GGTCACCTGT 
GGAAAAGGGC ATAAGCACCG CCAGGTCTGG TGTCAGTTTG GTGAAGATCG ATTAAATGAT 
AGAATGTGTG ACCCTGAGAC CAAGCCAACA TCTATGCAGA CTTGTCAGCA GCCGGAATGT 
GCATCCTGGC AGGCGGGTCC CTGGGGACAG TGCAGTGTCA CTTGTGGACA GGGATACCAG 
CTAAGAGCAG TGAAATGCAT CATTGGGACT TATATGTCAG TGGTAGATGA CAATGACTGT 
AATGCAGCAA CTAGACCAAC TGATACCCAG GACTGTGAAT TACCATCTTG TCATCCTCCC 
CCAGCTGCCC CGGAAACGAG GAGAAGCACA TACAGTGCAC CAAGAACCCA GTGGCGATTT 
GGGTCTTGGA CCCCATGCTC AGCCACTTGT GGGAAAGGTA CCCGAATGAG ATACGTCAGC 
TGCCGAGATG AGAATGGCTC TGTGGCTGAT GAGAGTGCCT GTGCTACCCT GCCTAGACCA 
GTGGCAAAGG AAGAATGTTC TGTGACACCC TGTGGGCAAT GGAAGGCCTT GGACTGGAGC 
TCTTGCTCTG TAACCTGTGG GCAAGGTAGG GCAACCCGGC AAGTGGTGTG TGTCAACTAT 
AGTGACCATG TGATCGATCG GAGTGAGTGC GACCAGGATT ATATCCCAGA AACCGACCAG 
GACTGTTCCA TGTCACCATG CCCTCAAAGG ACCCCAGACA GTGGCTTAGC TCAGCACCCC 
TTCCAAAATG AGGACTATCG TCCCCGGAGC GCCAGCCCTA GCCGCACCCA CGTACTCGGT 
GGAAACCAGT GGAGAACTGG CCCCTGGGGA GCATGTTCCA GTACCTGTGC TGGCGGATCC 
CAGCGGCGTG TTGTTGTATG TCAGGACGAA AATGGATACA CCGCAAACGA CTGTGTGGAG 
AGAATAAAAC CTGATGAGCA AAGAGCTTGT GAATCCGGCC CTTGTCCTCA GTGGGCTTAT 
GGCAACTGGG GAGAGTGCAC TAAGCTATGT GGTGGAGGCA TAAGAACAAG ACTGGTGGTC 
TGTCAGCGGT CCAACGGTGA ACGGTTTCCA GATCTGAGCT GTGAAATTCT TGATAAACCT 
CCCGATCGTG AGCAGTGTAA CACACATGCT TGTCCACACG ACGCTGCATG GAGTACTGGC 
CCTTGGAGCT CGTGTTCTGT CTCTTGTGGT CGAGGGCATA AACAACGAAA TGTTTACTGC 
ATGGCAAAAG ATGGAAGCCA TTTAGAAAGT GATTACTGTA AACACCTGGC TAAGCCACAT 
GGGCACAGAA AGTGCCGAGG AGGAAGATGC CCCAAATGGA AAACTGGCGC TTGGAGTCAG 
TGCTCTGTGT CCTGTGGCCG AGGCGTACAG CAGAGGCATG TGGGCTGTCA GATCGGAACA 
CATAAAATAG CCAGAGAGAC CGAGTGCAAC CCCTACACCA GACCGGAGTC GGAACGCGAC 
TGCCAAGGCC CACGGTGTCC CCTCTACACT TGGAGGGCAG AGGAATGGCA AGAATGCACC 
AAAACCTGCG GTGAAGGCTC CAGGTACCGC AAGGTGGTGT GTGTGGATGA CAGCAAAAAT 
GAGGTGCATG GTGCACGCTG TGACGTGAGC AAGCGGCCGG CAGACCACGA AAGCTGTAGT 
TTGCAACCCT GCGAGTATGT CTGGATCACA GGAGAATGGT CAGAGTGCTC AGTGACCTGT 
GGAAAAGGCT ACAAACAAAG GCTTGTCTCA TGCAGCGAGA TTTACACCGG GAAGGAGAAT 
TATGAATACA GCTACCAAAC CACTGTCAAC TGCCCGGGCA CGCAGCCCCC CAGTGTTCAC 
CCCTGTTACC TGAGGGAGTG CCCTGTCTCG GCCACCTGGA GAGTTGGCAA CTGGGGAAGT 
TGCTCAGTGT CTTGTGGTGT TGGAGTGATG CAGAGATCTG TGCAATGTTT AACCAATGAG 
GACCAACCCA GCCACTTATG CCACACTGAT TTGAAGCCAG AAGAACGAAA AACCTGCCGC 
AATATCTATA ACTGTGAGTT ACCCCAGAAT TGCAAGGAAG TAAAAAGACT TAAAGGTGCC 
AGTGAAGATG GTGAATATTT CCTGATGATT AGAGGAAAGC TTCTGAAGAT ATTCTGTGCG 
GGGATGCACT CTGACCACCC CAAAGAGTAC GTGACACTGG TGCATGGAGA CTCAGAGAAT 
TTCTCCGAGG TTTATGGACA CAGGTTACAC AACCCAACGG AATGTCCCTA TAACGGGAGC 
CGGCGTGATG ATTGCCAATG TCGGAAGGAT TACACGGCGG CTGGGTTTTC CAGTTTTCAG 
AAAATCAGAA TAGACCTGAC CAGCATGCAG ATAATAACCA CTGACTTACA ATTTGCAAGG 
ACAAGCGAAG GACATCCCGT CCCTTTTGCC ACAGCCGGGG ATTGCTACAG CGCTGCCAAG 
TGCCCACAGG GTCGTTTTAG CATCAACCTT TATGGAACCG GCCTTTCTTT AACTGAATCT 
GCCAGATGGA TATCACAAGG GAATTACGCT GTCTCTGACA TCAAGAAGTC TCCGGATGGT 
ACCCGAGTCA TAGGGAAATG CGGTGGTTAC TGTGGGAAAT GCACTCCATC CTCTGGTACT 
GGCCTGGAGG TGCGAGTTTT ATAA

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

ADAMTS9 ( XM_015130470.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_014985956.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OMb79330
Clone ID Related Accession (Same CDS sequence)	XM_015130470.2
Accession Version	XM_015130470.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5634bp) 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	A disintegrin and metalloproteinase with thrombospondin motifs 9 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041755.1) 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_015130470.1. ##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##

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG TAGCCTCTAT CTATAAAGAC CCAAGTATTG GAAATTTAAT TAATATTGTT 
ATTGTGAACT TAATTGTGAT TCATAATGAA CAGGATGGGC CTTCCATATC TTTTAATGCT 
CAGACAACAT TAAAAAACTT TTGCCAGTGG CAGCATTCGA AGAACAGTCC AGGTGGAATC 
CATCATGATA CTGCTGTTCT CTTAACAAGA CAGGATATCT GCAGAGCTCA CGACAAATGT 
GATACCTTAG GCCTGGCTGA ACTGGGAACC ATTTGTGATC CCTACAGAAG CTGTTCTATT 
AGTGAAGATA GTGGATTGAG TACAGCTTTT ACGATTGCCC ATGAGCTGGG TCATGTGTTT 
AACATGCCTC ATGATGACAA CAACAAATGT AAAGAAGAAG GAGTTAAGAG TCCCCAGCAT 
GTCATGGCTC CAACACTGAA CTTCTACACC AACCCCTGGA TGTGGTCAAA GTGTAGTCGA 
AAATATATCA CTGAGTTTTT AGACACTGGT TATGGCGAGT GTTTGCTTAA TGAACCTGAA 
TCCAGACCCT ACCCTTTGCC TGTCCAACTG CCAGGCATCC TTTACAACGT GAATAAACAA 
TGTGAATTGA TTTTTGGACC AGGTTCTCAG GTGTGCCCGT ATATGATGCA ATGTAGACGG 
CTCTGGTGCA ATAATGTCAA TGGAGTACAC AAAGGCTGCC GGACTCAGCA CACACCCTGG 
GCCGATGGGA CGGAGTGCGA GCCTGGAAAG CACTGCAAGT ATGGATTTTG TGTTCCCAAA 
GAAATGGATG TCCCTGTGAC AGATGGATCC TGGGGAAGTT GGAGTCCCTT TGGAACCTGC 
TCCAGAACAT GTGGAGGGGG CATCAAAACA GCCATTCGAG AGTGCAACAG ACCAGAGCCA 
AAAAATGGTG GAAAATACTG TGTAGGACGT AGAATGAAAT TTAAGTCCTG CAACACGGAG 
CCATGTCTCA AGCAGAAGCG AGACTTCCGA GATGAACAGT GTGCTCACTT TGACGGGAAG 
CATTTTAACA TCAACGGTCT GCTTCCCAAT GTGCGCTGGG TCCCTAAGTA TAGTGGAATT 
CTGATGAAGG ACCGGTGCAA GTTGTTCTGC AGAGTGGCAG GGAACACGGC CTACTATCAG 
CTTCGAGACA GAGTGATAGA CGGAACTCCT TGTGGCCAGG ACACAAACGA TATCTGTGTC 
CAGGGTCTTT GCCGGCAAGC TGGATGCGAT CATGTTTTAA ACTCAAAAGC CCGGAGAGAT 
AAATGTGGGG TTTGTGGTGG CGATAATTCT TCATGCAAAA CAGTGGCAGG AACATTTAAT 
ACAGTACATT ATGGTTACAA CACTGTGGTC CGAATTCCAG CAGGTGCTAC CAATATTGAT 
GTGCGGCAGC ACAGTTTCTC AGGGGAAACA GACGACGACA ACTACTTAGC TTTATCAAGC 
AGTAAAGGTG AATTCTTGCT AAATGGAAAC TTTGTTGTCA CAATGGCCAA AAGGGAAATC 
CGCATTGGGA ATGCTGTGGT AGAGTACAGT GGATCCGAGA CTGCCGTAGA AAGAATTAAC 
TCAACAGATC GCATTGAGCA AGAACTTTTG CTTCAGGTTT TGTCGGTGGG AAAGTTATAC 
AACCCCGATG TACGCTATTC TTTCAATATT CCAATTGAAG ATAAACCTCA GCAGTTTTAC 
TGGAACAGTC ATGGGCCGTG GCAAGCATGC AGTAAACCCT GCCAAGGGGA ACGGAAACGA 
AAACTTGTTT GCACCAGGGA ATCTGATCAG CTTACTGTTT CTGATCAAAG ATGCGATCGG 
CTGCCCCAGC CTGGACCCAT TACTGAACCC TGCGGCACAG ACTGTGACCT GAGGTGGCAT 
GTGGCCAGCA GGAGTGAATG TAGTGCCCAG TGTGGTTTGG GTTACCGCAC ATTAGACATC 
TACTGTGCCA AATATAGCAG GCTGGATGGG AAGACCGAGA AGGTTGATGA TGGTTTCTGC 
AGTAGTCATC CCAAACCAAG CAACCGTGAA AAATGCTCAG GGGAATGTAA CACAGGTGGC 
TGGCGCTATT CTGCCTGGAC TGAATGTTCT AAAAGCTGTG ATGGTGGGAC CCAGAGGAGA 
AGGGCCATTT GTGTCAATAC CCGAAATGAT GTGCTGGATG ACAGCAAATG CACACATCAA 
GAGAAAGTTA CCATTCAGAG GTGCAGTGAG TTTCCTTGTC CACAGTGGAA ATCTGGAGAC 
TGGTCAGAGT GCTTGGTCAC CTGTGGAAAA GGGCATAAGC ACCGCCAGGT CTGGTGTCAG 
TTTGGTGAAG ATCGATTAAA TGATAGAATG TGTGACCCTG AGACCAAGCC AACATCTATG 
CAGACTTGTC AGCAGCCGGA ATGTGCATCC TGGCAGGCGG GTCCCTGGGG ACAGTGCAGT 
GTCACTTGTG GACAGGGATA CCAGCTAAGA GCAGTGAAAT GCATCATTGG GACTTATATG 
TCAGTGGTAG ATGACAATGA CTGTAATGCA GCAACTAGAC CAACTGATAC CCAGGACTGT 
GAATTACCAT CTTGTCATCC TCCCCCAGCT GCCCCGGAAA CGAGGAGAAG CACATACAGT 
GCACCAAGAA CCCAGTGGCG ATTTGGGTCT TGGACCCCAT GCTCAGCCAC TTGTGGGAAA 
GGTACCCGAA TGAGATACGT CAGCTGCCGA GATGAGAATG GCTCTGTGGC TGATGAGAGT 
GCCTGTGCTA CCCTGCCTAG ACCAGTGGCA AAGGAAGAAT GTTCTGTGAC ACCCTGTGGG 
CAATGGAAGG CCTTGGACTG GAGCTCTTGC TCTGTAACCT GTGGGCAAGG TAGGGCAACC 
CGGCAAGTGG TGTGTGTCAA CTATAGTGAC CATGTGATCG ATCGGAGTGA GTGCGACCAG 
GATTATATCC CAGAAACCGA CCAGGACTGT TCCATGTCAC CATGCCCTCA AAGGACCCCA 
GACAGTGGCT TAGCTCAGCA CCCCTTCCAA AATGAGGACT ATCGTCCCCG GAGCGCCAGC 
CCTAGCCGCA CCCACGTACT CGGTGGAAAC CAGTGGAGAA CTGGCCCCTG GGGAGCATGT 
TCCAGTACCT GTGCTGGCGG ATCCCAGCGG CGTGTTGTTG TATGTCAGGA CGAAAATGGA 
TACACCGCAA ACGACTGTGT GGAGAGAATA AAACCTGATG AGCAAAGAGC TTGTGAATCC 
GGCCCTTGTC CTCAGTGGGC TTATGGCAAC TGGGGAGAGT GCACTAAGCT ATGTGGTGGA 
GGCATAAGAA CAAGACTGGT GGTCTGTCAG CGGTCCAACG GTGAACGGTT TCCAGATCTG 
AGCTGTGAAA TTCTTGATAA ACCTCCCGAT CGTGAGCAGT GTAACACACA TGCTTGTCCA 
CACGACGCTG CATGGAGTAC TGGCCCTTGG AGCTCGTGTT CTGTCTCTTG TGGTCGAGGG 
CATAAACAAC GAAATGTTTA CTGCATGGCA AAAGATGGAA GCCATTTAGA AAGTGATTAC 
TGTAAACACC TGGCTAAGCC ACATGGGCAC AGAAAGTGCC GAGGAGGAAG ATGCCCCAAA 
TGGAAAACTG GCGCTTGGAG TCAGTGCACC AAAACCTGCG GTGAAGGCTC CAGGTACCGC 
AAGGTGGTGT GTGTGGATGA CAGCAAAAAT GAGGTGCATG GTGCACGCTG TGACGTGAGC 
AAGCGGCCGG CAGACCACGA AAGCTGTAGT TTGCAACCCT GCGAGTATGT CTGGATCACA 
GGAGAATGGT CAGAGTGCTC AGTGACCTGT GGAAAAGGCT ACAAACAAAG GCTTGTCTCA 
TGCAGCGAGA TTTACACCGG GAAGGAGAAT TATGAATACA GCTACCAAAC CACTGTCAAC 
TGCCCGGGCA CGCAGCCCCC CAGTGTTCAC CCCTGTTACC TGAGGGAGTG CCCTGTCTCG 
GCCACCTGGA GAGTTGGCAA CTGGGGAAGT TGCTCAGTGT CTTGTGGTGT TGGAGTGATG 
CAGAGATCTG TGCAATGTTT AACCAATGAG GACCAACCCA GCCACTTATG CCACACTGAT 
TTGAAGCCAG AAGAACGAAA AACCTGCCGC AATATCTATA ACTGTGAGTT ACCCCAGAAT 
TGCAAGGAAG TAAAAAGACT TAAAGGTGCC AGTGAAGATG GTGAATATTT CCTGATGATT 
AGAGGAAAGC TTCTGAAGAT ATTCTGTGCG GGGATGCACT CTGACCACCC CAAAGAGTAC 
GTGACACTGG TGCATGGAGA CTCAGAGAAT TTCTCCGAGG TTTATGGACA CAGGTTACAC 
AACCCAACGG AATGTCCCTA TAACGGGAGC CGGCGTGATG ATTGCCAATG TCGGAAGGAT 
TACACGGCGG CTGGGTTTTC CAGTTTTCAG AAAATCAGAA TAGACCTGAC CAGCATGCAG 
ATAATAACCA CTGACTTACA ATTTGCAAGG ACAAGCGAAG GACATCCCGT CCCTTTTGCC 
ACAGCCGGGG ATTGCTACAG CGCTGCCAAG TGCCCACAGG GTCGTTTTAG CATCAACCTT 
TATGGAACCG GCCTTTCTTT AACTGAATCT GCCAGATGGA TATCACAAGG GAATTACGCT 
GTCTCTGACA TCAAGAAGTC TCCGGATGGT ACCCGAGTCA TAGGGAAATG CGGTGGTTAC 
TGTGGGAAAT GCACTCCATC CTCTGGTACT GGCCTGGAGG TGCGAGTTTT ATAA

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

RefSeq	XP_014985956.1
CDS	339..5972
Translation	MQFVSWATLLTLLVRDLAEMGIPDAAAAVRKDRLHPRQVKLLETLSEYEIVSPIRVNALGEPFPTNVHFKRRRRSINSATDPWPAFASSSSSSTSSQAHYRLSAFGQQFLFNLTANAGFIAPLFTVTLLGTPGVNQTKFYSEEEAELKHCFYKGYVNTKSEHTAVISLCSGMLGTFRSYDGDYFIEPLQSMDEQEDEEEQNKPHIIYRRSTPQREPSTGRHACDTSEHKNRHSKDKKKTRARKWGERINLADDVAALNSGLATEAFSAYGNKTDNTTEKRTHRRTKRFLSYPRFVEVLVVADNRMVSYHGENLQHYILTLMSIVASIYKDPSIGNLINIVIVNLIVIHNEQDGPSISFNAQTTLKNFCQWQHSKNSPGGIHHDTAVLLTRQDICRAHDKCDTLGLAELGTICDPYRSCSISEDSGLSTAFTIAHELGHVFNMPHDDNNKCKEEGVKSPQHVMAPTLNFYTNPWMWSKCSRKYITEFLDTGYGECLLNEPESRPYPLPVQLPGILYNVNKQCELIFGPGSQVCPYMMQCRRLWCNNVNGVHKGCRTQHTPWADGTECEPGKHCKYGFCVPKEMDVPVTDGSWGSWSPFGTCSRTCGGGIKTAIRECNRPEPKNGGKYCVGRRMKFKSCNTEPCLKQKRDFRDEQCAHFDGKHFNINGLLPNVRWVPKYSGILMKDRCKLFCRVAGNTAYYQLRDRVIDGTPCGQDTNDICVQGLCRQAGCDHVLNSKARRDKCGVCGGDNSSCKTVAGTFNTVHYGYNTVVRIPAGATNIDVRQHSFSGETDDDNYLALSSSKGEFLLNGNFVVTMAKREIRIGNAVVEYSGSETAVERINSTDRIEQELLLQVLSVGKLYNPDVRYSFNIPIEDKPQQFYWNSHGPWQACSKPCQGERKRKLVCTRESDQLTVSDQRCDRLPQPGPITEPCGTDCDLRWHVASRSECSAQCGLGYRTLDIYCAKYSRLDGKTEKVDDGFCSSHPKPSNREKCSGECNTGGWRYSAWTECSKSCDGGTQRRRAICVNTRNDVLDDSKCTHQEKVTIQRCSEFPCPQWKSGDWSECLVTCGKGHKHRQVWCQFGEDRLNDRMCDPETKPTSMQTCQQPECASWQAGPWGQCSVTCGQGYQLRAVKCIIGTYMSVVDDNDCNAATRPTDTQDCELPSCHPPPAAPETRRSTYSAPRTQWRFGSWTPCSATCGKGTRMRYVSCRDENGSVADESACATLPRPVAKEECSVTPCGQWKALDWSSCSVTCGQGRATRQVVCVNYSDHVIDRSECDQDYIPETDQDCSMSPCPQRTPDSGLAQHPFQNEDYRPRSASPSRTHVLGGNQWRTGPWGACSSTCAGGSQRRVVVCQDENGYTANDCVERIKPDEQRACESGPCPQWAYGNWGECTKLCGGGIRTRLVVCQRSNGERFPDLSCEILDKPPDREQCNTHACPHDAAWSTGPWSSCSVSCGRGHKQRNVYCMAKDGSHLESDYCKHLAKPHGHRKCRGGRCPKWKTGAWSQCTKTCGEGSRYRKVVCVDDSKNEVHGARCDVSKRPADHESCSLQPCEYVWITGEWSECSVTCGKGYKQRLVSCSEIYTGKENYEYSYQTTVNCPGTQPPSVHPCYLRECPVSATWRVGNWGSCSVSCGVGVMQRSVQCLTNEDQPSHLCHTDLKPEERKTCRNIYNCELPQNCKEVKRLKGASEDGEYFLMIRGKLLKIFCAGMHSDHPKEYVTLVHGDSENFSEVYGHRLHNPTECPYNGSRRDDCQCRKDYTAAGFSSFQKIRIDLTSMQIITTDLQFARTSEGHPVPFATAGDCYSAAKCPQGRFSINLYGTGLSLTESARWISQGNYAVSDIKKSPDGTRVIGKCGGYCGKCTPSSGTGLEVRVL

Target ORF information:

RefSeq Version	XM_015130470.2
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 9 (ADAMTS9), transcript variant X3, mRNA.

Target ORF information:

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

XM_015130470.2

ORF Insert Sequence:

ATGCAGTTTG TATCCTGGGC CACACTGCTA ACGCTCCTGG TGCGGGACCT GGCTGAGATG 
GGGATCCCAG ACGCCGCGGC GGCCGTGCGC AAGGACAGGC TGCACCCGAG GCAAGTGAAA 
TTATTAGAGA CCCTGAGTGA ATACGAAATC GTGTCTCCCA TCCGAGTGAA CGCTCTCGGA 
GAACCCTTTC CCACGAACGT CCACTTCAAA AGAAGGCGAC GGAGCATTAA CTCTGCCACT 
GACCCCTGGC CTGCCTTCGC CTCCTCCTCT TCCTCCTCTA CCTCCTCCCA GGCGCATTAC 
CGCCTCTCCG CCTTCGGCCA GCAGTTTCTA TTTAATCTCA CCGCCAATGC CGGATTTATC 
GCTCCACTGT TCACTGTCAC CCTCCTCGGG ACGCCCGGGG TGAACCAGAC CAAGTTTTAT 
TCCGAAGAGG AAGCGGAACT CAAGCACTGT TTCTACAAAG GCTATGTCAA TACCAAGTCC 
GAGCACACGG CCGTCATCAG CCTCTGCTCG GGAATGCTGG GCACATTCCG GTCTTATGAT 
GGGGATTATT TTATTGAACC ACTACAGTCC ATGGATGAAC AAGAAGATGA AGAGGAACAA 
AACAAACCCC ACATCATTTA TAGGCGCAGC ACCCCCCAGA GAGAGCCCTC AACGGGAAGG 
CATGCATGTG ACACCTCAGA ACACAAAAAT AGGCACAGTA AAGACAAGAA GAAAACCAGA 
GCAAGAAAAT GGGGAGAAAG GATTAACCTG GCTGATGACG TGGCAGCATT AAACAGCGGC 
TTAGCAACAG AGGCATTTTC TGCCTATGGT AATAAGACGG ACAACACAAC AGAAAAGAGG 
ACCCACAGAA GGACAAAACG TTTTTTATCC TATCCACGGT TTGTAGAAGT CTTGGTGGTG 
GCAGACAACA GAATGGTTTC ATACCACGGA GAAAACCTTC AACACTATAT TTTAACTTTA 
ATGTCAATTG TAGCCTCTAT CTATAAAGAC CCAAGTATTG GAAATTTAAT TAATATTGTT 
ATTGTGAACT TAATTGTGAT TCATAATGAA CAGGATGGGC CTTCCATATC TTTTAATGCT 
CAGACAACAT TAAAAAACTT TTGCCAGTGG CAGCATTCGA AGAACAGTCC AGGTGGAATC 
CATCATGATA CTGCTGTTCT CTTAACAAGA CAGGATATCT GCAGAGCTCA CGACAAATGT 
GATACCTTAG GCCTGGCTGA ACTGGGAACC ATTTGTGATC CCTACAGAAG CTGTTCTATT 
AGTGAAGATA GTGGATTGAG TACAGCTTTT ACGATTGCCC ATGAGCTGGG TCATGTGTTT 
AACATGCCTC ATGATGACAA CAACAAATGT AAAGAAGAAG GAGTTAAGAG TCCCCAGCAT 
GTCATGGCTC CAACACTGAA CTTCTACACC AACCCCTGGA TGTGGTCAAA GTGTAGTCGA 
AAATATATCA CTGAGTTTTT AGACACTGGT TATGGCGAGT GTTTGCTTAA TGAACCTGAA 
TCCAGACCCT ACCCTTTGCC TGTCCAACTG CCAGGCATCC TTTACAACGT GAATAAACAA 
TGTGAATTGA TTTTTGGACC AGGTTCTCAG GTGTGCCCGT ATATGATGCA ATGTAGACGG 
CTCTGGTGCA ATAATGTCAA TGGAGTACAC AAAGGCTGCC GGACTCAGCA CACACCCTGG 
GCCGATGGGA CGGAGTGCGA GCCTGGAAAG CACTGCAAGT ATGGATTTTG TGTTCCCAAA 
GAAATGGATG TCCCTGTGAC AGATGGATCC TGGGGAAGTT GGAGTCCCTT TGGAACCTGC 
TCCAGAACAT GTGGAGGGGG CATCAAAACA GCCATTCGAG AGTGCAACAG ACCAGAGCCA 
AAAAATGGTG GAAAATACTG TGTAGGACGT AGAATGAAAT TTAAGTCCTG CAACACGGAG 
CCATGTCTCA AGCAGAAGCG AGACTTCCGA GATGAACAGT GTGCTCACTT TGACGGGAAG 
CATTTTAACA TCAACGGTCT GCTTCCCAAT GTGCGCTGGG TCCCTAAGTA TAGTGGAATT 
CTGATGAAGG ACCGGTGCAA GTTGTTCTGC AGAGTGGCAG GGAACACGGC CTACTATCAG 
CTTCGAGACA GAGTGATAGA CGGAACTCCT TGTGGCCAGG ACACAAACGA TATCTGTGTC 
CAGGGTCTTT GCCGGCAAGC TGGATGCGAT CATGTTTTAA ACTCAAAAGC CCGGAGAGAT 
AAATGTGGGG TTTGTGGTGG CGATAATTCT TCATGCAAAA CAGTGGCAGG AACATTTAAT 
ACAGTACATT ATGGTTACAA CACTGTGGTC CGAATTCCAG CAGGTGCTAC CAATATTGAT 
GTGCGGCAGC ACAGTTTCTC AGGGGAAACA GACGACGACA ACTACTTAGC TTTATCAAGC 
AGTAAAGGTG AATTCTTGCT AAATGGAAAC TTTGTTGTCA CAATGGCCAA AAGGGAAATC 
CGCATTGGGA ATGCTGTGGT AGAGTACAGT GGATCCGAGA CTGCCGTAGA AAGAATTAAC 
TCAACAGATC GCATTGAGCA AGAACTTTTG CTTCAGGTTT TGTCGGTGGG AAAGTTATAC 
AACCCCGATG TACGCTATTC TTTCAATATT CCAATTGAAG ATAAACCTCA GCAGTTTTAC 
TGGAACAGTC ATGGGCCGTG GCAAGCATGC AGTAAACCCT GCCAAGGGGA ACGGAAACGA 
AAACTTGTTT GCACCAGGGA ATCTGATCAG CTTACTGTTT CTGATCAAAG ATGCGATCGG 
CTGCCCCAGC CTGGACCCAT TACTGAACCC TGCGGCACAG ACTGTGACCT GAGGTGGCAT 
GTGGCCAGCA GGAGTGAATG TAGTGCCCAG TGTGGTTTGG GTTACCGCAC ATTAGACATC 
TACTGTGCCA AATATAGCAG GCTGGATGGG AAGACCGAGA AGGTTGATGA TGGTTTCTGC 
AGTAGTCATC CCAAACCAAG CAACCGTGAA AAATGCTCAG GGGAATGTAA CACAGGTGGC 
TGGCGCTATT CTGCCTGGAC TGAATGTTCT AAAAGCTGTG ATGGTGGGAC CCAGAGGAGA 
AGGGCCATTT GTGTCAATAC CCGAAATGAT GTGCTGGATG ACAGCAAATG CACACATCAA 
GAGAAAGTTA CCATTCAGAG GTGCAGTGAG TTTCCTTGTC CACAGTGGAA ATCTGGAGAC 
TGGTCAGAGT GCTTGGTCAC CTGTGGAAAA GGGCATAAGC ACCGCCAGGT CTGGTGTCAG 
TTTGGTGAAG ATCGATTAAA TGATAGAATG TGTGACCCTG AGACCAAGCC AACATCTATG 
CAGACTTGTC AGCAGCCGGA ATGTGCATCC TGGCAGGCGG GTCCCTGGGG ACAGTGCAGT 
GTCACTTGTG GACAGGGATA CCAGCTAAGA GCAGTGAAAT GCATCATTGG GACTTATATG 
TCAGTGGTAG ATGACAATGA CTGTAATGCA GCAACTAGAC CAACTGATAC CCAGGACTGT 
GAATTACCAT CTTGTCATCC TCCCCCAGCT GCCCCGGAAA CGAGGAGAAG CACATACAGT 
GCACCAAGAA CCCAGTGGCG ATTTGGGTCT TGGACCCCAT GCTCAGCCAC TTGTGGGAAA 
GGTACCCGAA TGAGATACGT CAGCTGCCGA GATGAGAATG GCTCTGTGGC TGATGAGAGT 
GCCTGTGCTA CCCTGCCTAG ACCAGTGGCA AAGGAAGAAT GTTCTGTGAC ACCCTGTGGG 
CAATGGAAGG CCTTGGACTG GAGCTCTTGC TCTGTAACCT GTGGGCAAGG TAGGGCAACC 
CGGCAAGTGG TGTGTGTCAA CTATAGTGAC CATGTGATCG ATCGGAGTGA GTGCGACCAG 
GATTATATCC CAGAAACCGA CCAGGACTGT TCCATGTCAC CATGCCCTCA AAGGACCCCA 
GACAGTGGCT TAGCTCAGCA CCCCTTCCAA AATGAGGACT ATCGTCCCCG GAGCGCCAGC 
CCTAGCCGCA CCCACGTACT CGGTGGAAAC CAGTGGAGAA CTGGCCCCTG GGGAGCATGT 
TCCAGTACCT GTGCTGGCGG ATCCCAGCGG CGTGTTGTTG TATGTCAGGA CGAAAATGGA 
TACACCGCAA ACGACTGTGT GGAGAGAATA AAACCTGATG AGCAAAGAGC TTGTGAATCC 
GGCCCTTGTC CTCAGTGGGC TTATGGCAAC TGGGGAGAGT GCACTAAGCT ATGTGGTGGA 
GGCATAAGAA CAAGACTGGT GGTCTGTCAG CGGTCCAACG GTGAACGGTT TCCAGATCTG 
AGCTGTGAAA TTCTTGATAA ACCTCCCGAT CGTGAGCAGT GTAACACACA TGCTTGTCCA 
CACGACGCTG CATGGAGTAC TGGCCCTTGG AGCTCGTGTT CTGTCTCTTG TGGTCGAGGG 
CATAAACAAC GAAATGTTTA CTGCATGGCA AAAGATGGAA GCCATTTAGA AAGTGATTAC 
TGTAAACACC TGGCTAAGCC ACATGGGCAC AGAAAGTGCC GAGGAGGAAG ATGCCCCAAA 
TGGAAAACTG GCGCTTGGAG TCAGTGCACC AAAACCTGCG GTGAAGGCTC CAGGTACCGC 
AAGGTGGTGT GTGTGGATGA CAGCAAAAAT GAGGTGCATG GTGCACGCTG TGACGTGAGC 
AAGCGGCCGG CAGACCACGA AAGCTGTAGT TTGCAACCCT GCGAGTATGT CTGGATCACA 
GGAGAATGGT CAGAGTGCTC AGTGACCTGT GGAAAAGGCT ACAAACAAAG GCTTGTCTCA 
TGCAGCGAGA TTTACACCGG GAAGGAGAAT TATGAATACA GCTACCAAAC CACTGTCAAC 
TGCCCGGGCA CGCAGCCCCC CAGTGTTCAC CCCTGTTACC TGAGGGAGTG CCCTGTCTCG 
GCCACCTGGA GAGTTGGCAA CTGGGGAAGT TGCTCAGTGT CTTGTGGTGT TGGAGTGATG 
CAGAGATCTG TGCAATGTTT AACCAATGAG GACCAACCCA GCCACTTATG CCACACTGAT 
TTGAAGCCAG AAGAACGAAA AACCTGCCGC AATATCTATA ACTGTGAGTT ACCCCAGAAT 
TGCAAGGAAG TAAAAAGACT TAAAGGTGCC AGTGAAGATG GTGAATATTT CCTGATGATT 
AGAGGAAAGC TTCTGAAGAT ATTCTGTGCG GGGATGCACT CTGACCACCC CAAAGAGTAC 
GTGACACTGG TGCATGGAGA CTCAGAGAAT TTCTCCGAGG TTTATGGACA CAGGTTACAC 
AACCCAACGG AATGTCCCTA TAACGGGAGC CGGCGTGATG ATTGCCAATG TCGGAAGGAT 
TACACGGCGG CTGGGTTTTC CAGTTTTCAG AAAATCAGAA TAGACCTGAC CAGCATGCAG 
ATAATAACCA CTGACTTACA ATTTGCAAGG ACAAGCGAAG GACATCCCGT CCCTTTTGCC 
ACAGCCGGGG ATTGCTACAG CGCTGCCAAG TGCCCACAGG GTCGTTTTAG CATCAACCTT 
TATGGAACCG GCCTTTCTTT AACTGAATCT GCCAGATGGA TATCACAAGG GAATTACGCT 
GTCTCTGACA TCAAGAAGTC TCCGGATGGT ACCCGAGTCA TAGGGAAATG CGGTGGTTAC 
TGTGGGAAAT GCACTCCATC CTCTGGTACT GGCCTGGAGG TGCGAGTTTT ATAA

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

PubMed

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03-6811-6572

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03-6811-6573
050-3174-7589(受注専用)

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オンライン注文

ADAMTS9 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

Gene

Clones

gRNAs

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:

見積依頼

Eメール

電話

FAX

オンラインフォーム

サポート

会社情報

サポート

会社情報