ADAMTS20 cDNA ORF clone, Macaca mulatta(Rhesus monkey)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS20
Entrez Gene ID	699935
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 20
Gene Type	protein-coding
Organism	Macaca mulatta(Rhesus monkey)

mRNA and Protein(s)

mRNA	Protein	Name
NM_001110539.3	NP_001104009.3	A disintegrin and metalloproteinase with thrombospondin motifs 20 precursor
NM_001110539.2	NP_001104009.2	A disintegrin and metalloproteinase with thrombospondin motifs 20 precursor
XM_028828834.1	XP_028684667.1	A disintegrin and metalloproteinase with thrombospondin motifs 20 isoform X1

Pathways from BioSystems

Homologies

Mus musculus (house mouse)	Adamts20	NP_803180.3
Rattus norvegicus (Norway rat)	Adamts20	XP_006242337.1
	ADAMTS20	NP_001104009.1
Bos taurus (cattle)	ADAMTS20	NP_001193022.1
Gallus gallus (chicken)	ADAMTS20	XP_416037.4
Canis lupus familiaris (dog)	ADAMTS20	XP_852138.3
Xenopus tropicalis (tropical clawed frog)	adamts20	XP_002932868.2
Homo sapiens (human)	ADAMTS20	NP_079279.3

Gene Ontology

The following ADAMTS20 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS20 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)
OMb57554	NM_001110539.2 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$1021.30 $1459.00
OMb94558	NM_001110539.3 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	24-26	$951.30 $1359.00
OMb63695	XM_028828834.1 Latest version!	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), transcript variant X1, 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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5 or more Clone	50% OFF
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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)

ADAMTS20 ( NM_001110539.2 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> NP_001104009.2 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.

Price & Availability↑

CloneID	OMb57554
Clone ID Related Accession (Same CDS sequence)	NM_001110539.2
Accession Version	NM_001110539.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5736bp) 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	2019-04-27
Organism	Macaca mulatta(Rhesus monkey)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 20 precursor
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from JSUE03006603.1 and JSUE03006602.1. On Jun 7, 2016 this sequence version replaced NM_001110539.1. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA4688315, SAMEA4688316 [ECO:0000350] ##Evidence-Data-END##

ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTGCCATC TCTTGCTCAT CACCAGGTCT 
TGGGAAGTTC ACTTCCACCC CAGGCAAGAA GCCCTGGTGA GGACCCTGAC CACCTACGAA 
GTAGTGATCC CCGAGCGGGT CAATGAGTTT GGAGAAGTGT TCCCTCAGAG CCACCACTTC 
AGCCGGCAGA AACGCAGCTC CGAGGCGCTG GAACCCATGC CGTTCAGAAC CCACTATCGC 
GTCACTGCCT ACGGACAGCT CTTCCAGCTG AACCTGACCG CCGATGCATC CTTTCTGGCC 
GCCGGCTACA CCGAAGTGCA CTTGGGAGCC CCGGGACGCG GGACCTGGGA GAGCGACGCA 
GGGCCCTCAG ACCTGCGCCA CTGCTTCTAC CGCGGCCAGG TTAACTCGCA GGAGGATTAC 
AAGGCCGTCG TAAGCTTATG TGGAGGCCTG ACGGGAACAT TTAAAGGACA TGACGGTGAT 
TATTTCTTAG AACCTATAAT GAAGGCAGAT GGGAATGAGT ATGAAGATGG TCACAACAAG 
CCACATCTTA TATACAGACA AGAATTAAAT AACTCTTTTC TGCAAACTCT GAAGTATTGC 
AGTGTGTCAG AAAGTCAAAT AAAGGAAACC AGTTTACCCT TTCATACCTA CAGAAACATG 
AATGAAGATC TTAATGTAAT GAAAGAAAGA GTTTTAGGAC ACCCATCAAA AAATGTACCA 
TTGAAAGATG AAAGAAGTCA ATTACATTCC AGGAAAAAAC GTCTTATATC ATATCCAAGA 
TACGTTGAAA TTATGGTTAC AGCTGATGCT AAAGTGGTTT CTGCTCATGG ATCGAATTTG 
CAAAACTATA TACTGACTCT AATGTCAATT GTTGCAACAA TCTACAAAGA TCCAAGTATT 
GGAAGTTTTA TACACATAGT AGTGGTAAAA TTAGTTATGA TTCACCACGA GGAGGAAGGG 
CCAGTCATTA ATTTTGATGG TGCTACCACA TTAAATAACT TTTGTTCATG GCAACAAACT 
CAGAATGACG TTGATGATGT TCACCCTTCC CACCATGATG CTGCTATTCT TATCACTAGG 
GAAGACATTT GTTCATCTAA AGAGAAATGT AACATATTAG GTTTATCATA CTTAGGTACC 
ATATGTGATC CTTTACAAAG CTGCTTTATT AATGAAGAAA AAGGACTCAT TTCTGCTTTT 
ACTATAGCCC ATGAACTTGG GCACACACTT GGTGTTCAAC ATGATGATAC TCCTAGATGT 
AGAGAAATGA ATGTTACACA ATATCATGTA ATGGCCCCTG TTTTAAGTTT TCACATGAGT 
CCTTGGAGCT GGTCAAACTG TAGTCGGAAA TACATTACTG AATTCCTAGA TACTGGCTAC 
GGGGAATGTC TTCTTGACAA ACCAGATGAA GAAATATATA ATCTGCCTTC AGAACTTCCT 
GGATCACGAT ATGATGGAAA CAAGCAGTGT GAACTTGCGT TTGGTCCTGG GTCACAAATG 
TGTCCCCATA TAAATATATG CATGCATCTG TGGTGCACAA GTGCTGAAAA GCTTCACAAA 
GGCTGTTTCA CTCAACATGT GCCACCAGCA GATGGAACAG ACTGTGGTCC TGGAATGCAT 
TGCCGCCGTG GGCTATGTGT AAACAAAGAA ATGGAAACAC GTCCTGTAAA TGGTGAATGG 
GGACCATGGG AACCTTACAG TTCTTGTTCA AGAACATGTG GAGGTGGAAT CGAAAGCTCA 
ACCAGGCACT GTAATCGTCC TGAGCCAAGA AACGGAGGAA ATTACTGTGT GGGCCGCAGG 
ATGAAATTTC GATCATGTAA TACTGATTCA TGTCCAAAAG GCACACAAGA CTTTCGAGAG 
AAGCAATGCT CTGATTTTAA TGGCAAACAT TTGGGCATCA ATGGCATTCC CTCTAATGTG 
AGGTGGCTTC CAAGATACAG TGGCATTCGC ACAAAAGATC GTTGTAAACT CTACTGTCAG 
GTTGCTGGAA CCAATGATTT CTACCTATTG AAGTATATGG TTGAAGATGG TACTCCTTGT 
GAAAATGAAA CTCATGACAT CTGTGTTCAA GGCCGGTGTA TGGCAGCTGG TTGTGATCAC 
GTGTTAAACT CCAGTGCCAA GATAGACAAA TGTGGAGTGT GTGGTGGGGA CAACTCTTCA 
TGCAAGACAA TAACAGGTGT CTTCAACAGT TCTCATTATG GTTATAATGT TGTTGTAAAG 
ATTCCTGCAG GAGCAACAAA CATTGACATT CGTCAGTACA GCTATTCTGG ACAACCAGAT 
GACAGTTACC TTGCATTATC TGACGCTGAA GGGAATTTTC TTTTCAATGG AAATTTTGTT 
CTAAGTAGAT CAAAGAAAGA AGTCAATGTG CAAGGAACAA GAACTGTTAT TGAATACAGT 
GGATCAAACA ACTCAGTTGA AAGAATTAAT AGTACTAATC GACAAGAGAA AGAACTTATT 
TTGCAGGTGT TATGTGTGGG TAATTTATAC AACCCTGATG TACGTTATTC CTTCAATATC 
CCTTTGGAAG AGTGGAGCGA GCTGTTCACA TGGGACCCCT ATGGACCATG GGAAGGCTGT 
ACCAAAATGT GTCAAGGTCT TCAGCGAAGA AAAATAACTT GCATACATAA GAGTGATCAT 
AGTGTTGTGT CTGATCAAAA ATGTGACCAA TTGCCACTTC CATCATTTGT TACTCAAAGT 
TGCAATACAG ACTGTGAACT AAGGTGGCAT GTTACTGGCA AAAGTGAATG TTCAACCCAA 
TGTGGTCAAG GATATAGAAC CTTGGACATC CATTGCATGA AGTATTCCAT TCATAAAGGA 
CAGACTGTTC AAGTGGATGA CCACTACTGT GGTGACCAAC TTAAACCTCC TACCCGAGAA 
CTATGCCGTG GTAACTGTGT CTTCACAAGA TGGCATTTTT CAGAATGGTC TCAGTGTTCC 
AGGAGTTGTG GAGGAGGGGA AAGGTCTCGA GAATCTTATT GTATGAATAA CTTTGGCCAT 
CGTCTTGCTG ACAATGAATG CGAAGAACTG TCCCGAGTGA CGAGAGAGAA TTGCAATGAA 
TTTTCCTGTC CCAGTTGGGC CGCTAGTGAA TGGAGCGAGT GCCTTGTTAC ATGTGGTAAA 
GGAATAAAGC AGCGGCAGGT ATGGTGTCAG CTGAATGAAG ATCACTTGAG TGATGGCTTC 
TGTAACTCAA GTACCAAACC TGAATCTCTG AGTCCATGTG AACTTCATAC ATGTGCTTCC 
TGGCAAGTAG GACCATGGGG TCCTTGCACA ACCACATGTG GACATGGGTA TCAGATGCGA 
GATGTTAAAT GTGTCAATGA GCTAGTTAGT GCAGTGTTAG AAGACACAGA ATGCCATGAA 
GCTAGTCGCC CCAGCAACAG ACAGAACTGT GTACTTACAC CTTGCCCATT TATTTCTAAA 
CTTAAGACCA CTTCATTACC AACTGCTCTC ATAGAAAAGA TGGCACAATG GCGACATGGT 
TCTTGGACCC CATGCTCCGT ATCTTGTGGA AGAGGTACTC AAGCCCGCTA TGTAAGCTGT 
CGTGATGCTC TTGATAGAAT AGCAGATGAA TCATATTGTG CCCACTTACC CCAACCTGCT 
GAAATATGGG ACTGTTTTAC CCCTTGTGGA GAGTGGCAAG CAGGGGATTG GTCACCCTGT 
TCAGCTTCCT GTGGCTATGG AAAAACAACT CGACAAGTTT TATGCATGAA CTACCATCAG 
CCAATTGATG AGAATTACTG TGATCCTGAA GTTCGCCCCT TGATGGAACA GGAATGTAGC 
CTAGCAGCCT GCCCGCCTGC ACACAGCCAC TTTCCTAGTT CTGCTGTGCA ACCAAGCTAT 
TATCTAAGCA CGAATTTGCC ATTAACTCAC AAACTTGAAG ATGATGAAAA TCAGGTGGTC 
CTTCCATCAG TCAGAGGAAA CCAGTGGAGA ACCGGACCGT GGGGATCATG CTCTAGCAGT 
TGTTCTGGAG GACTTCAGCG TAGGGCTGTG GTCTGCCAGG ATGAAAATGG ACAAAGTGCT 
AGTTACTGCG ATGCAACCTC CAAGCCTCCA GAGTTACAGC ACTGTGGTCC AGGGCCTTGT 
CCACAGTGGA ACTACGGAAA TTGGGGAGAA TGTTCACAAA CATGTGGAGG AGGAATAAAA 
TCAAGACTTG TAATATGTCA ATTTCCCAAT GGCCAAATAT TAGAAGATCA CAACTGTGAA 
ATCGTAAACA AGCCACCTAG TGTAATACAG TGTCATATGC ATGCTTGCCC TGCTGATGTG 
TCATGGCATC AGGAACCATG GACATCGTGC TCAGCCTCTT GTGGTAAAGG TAGAAAGTAC 
CGTGAAGTGT TTTGCATTGA CCAATTCCAA AGGAAATTAG AAGACACAAA TTGCAGTCAA 
GTACAGAAAC CTCCAACTCA CAAAGCCTGT AGATCTGTCA GATGCCCTTC ATGGAAAGCC 
AATAGCTGGA ATAAGTGCTC TATGACCTGC GGCTCTGGAG TTCAGCAGAG GGATATATAC 
TGCAGACTGA AAGGTGTTGG TCGGGTGGTT GAAGAAATGT GTGATCAGTC CACCCGACCT 
TGTTCTCAGA GGCGATGTTG GAGTCAGGAC TGTGTGCACC ACAAGGGGAT GGAAAGAGAG 
AGGCTGAATT GTTCAACATC ATGTGAGAGA AAAGATTCAC ATCACCGAAC GGAGTGCACA 
GATAGCCAAA TTGGACAAGT GAATGAAATA GTCTATAATT CTTCAACCAT GTCTCTTACA 
TCTAAGAATT GCAGGAACCC TCCTTGCAAT TACATTGTGG TAACAGCAGA CTCATCACAG 
TGTGCAAACA ACTGTGGATT TAGTTACAGA CAAAGGATTA CATATTGCAC TGGGATCCCA 
TCTACTAAGA AACATAAGCT CCATCGACTT CAGCCTATAG TCTATCAAGA ATGCCCTGTG 
GTGCCTTCCT CTCAGGTTTA CAAATGCATT AACAGCTGTT TGCATTTGGC CACTTGGAAA 
GTTGGAAAAT GGAGCAAGTG CTCAGTGACT TGTGGAATTG GGATAATGAA GAGACAAGTG 
AAATGCGTTA CCAAACATGG TTTGTCCAGT GACTTATGTT TAAATCATTT AAAACCAGGT 
GCTCAAAAGA AATGCTATGC CAATGACTGT AAATCATTTA CCACCTGCGA AGAAATTCAA 
GTGAAAAACC ACATTAGAAA GGATGGTGAC TATTACCTTA ACATTAAGGG AAGAATAATA 
AAGATTCATT GTGCAGACAT GCACTTGGAG AACCCTAAGG AATATTTGAC ACTGGTCCAA 
GGTGAAGAAA ACTTTTCTGA AGTGTATGGC TTTAGACTAA AAAATCCATA TCAATGTCCT 
TTTAATGGGA GTAGGAGGGA AGACTGCGAA TGTGACAATG GACACCTAGC TGCTGGATAC 
ACTGTTTTCA GCAAAATAAG AATTGATCTC ACTTCCATGC AAATTAAAAC TACAGACCTT 
CGTTTTTCCA AAACAATATT TGGAAATGCA GTTCCATTTG CCACAGCTGG AGATTGCTAC 
AGTGCTGTCA GATGCCCACA GGGACAGTTT AGCATTAATT TAGCAGGAAC TGGGATGAAG 
ATATCCAACA CAGCAAAGTG GCTTGCTCAG GGGAGTTATA CCTCTGTCAG CATACGGAGA 
TCAGAGGATG GAACCAGATT TTTCGGCAAG TGTGGAGGGT ACTGTGGAAA GTGTCTTCCT 
CACATGACTA CTGGTCTCCC AATTCAAGTC ATATGA

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

RefSeq	NP_001104009.2
CDS	1..5736
Translation	MWVAKWLTGLLCHLLLITRSWEVHFHPRQEALVRTLTTYEVVIPERVNEFGEVFPQSHHFSRQKRSSEALEPMPFRTHYRVTAYGQLFQLNLTADASFLAAGYTEVHLGAPGRGTWESDAGPSDLRHCFYRGQVNSQEDYKAVVSLCGGLTGTFKGHDGDYFLEPIMKADGNEYEDGHNKPHLIYRQELNNSFLQTLKYCSVSESQIKETSLPFHTYRNMNEDLNVMKERVLGHPSKNVPLKDERSQLHSRKKRLISYPRYVEIMVTADAKVVSAHGSNLQNYILTLMSIVATIYKDPSIGSFIHIVVVKLVMIHHEEEGPVINFDGATTLNNFCSWQQTQNDVDDVHPSHHDAAILITREDICSSKEKCNILGLSYLGTICDPLQSCFINEEKGLISAFTIAHELGHTLGVQHDDTPRCREMNVTQYHVMAPVLSFHMSPWSWSNCSRKYITEFLDTGYGECLLDKPDEEIYNLPSELPGSRYDGNKQCELAFGPGSQMCPHINICMHLWCTSAEKLHKGCFTQHVPPADGTDCGPGMHCRRGLCVNKEMETRPVNGEWGPWEPYSSCSRTCGGGIESSTRHCNRPEPRNGGNYCVGRRMKFRSCNTDSCPKGTQDFREKQCSDFNGKHLGINGIPSNVRWLPRYSGIRTKDRCKLYCQVAGTNDFYLLKYMVEDGTPCENETHDICVQGRCMAAGCDHVLNSSAKIDKCGVCGGDNSSCKTITGVFNSSHYGYNVVVKIPAGATNIDIRQYSYSGQPDDSYLALSDAEGNFLFNGNFVLSRSKKEVNVQGTRTVIEYSGSNNSVERINSTNRQEKELILQVLCVGNLYNPDVRYSFNIPLEEWSELFTWDPYGPWEGCTKMCQGLQRRKITCIHKSDHSVVSDQKCDQLPLPSFVTQSCNTDCELRWHVTGKSECSTQCGQGYRTLDIHCMKYSIHKGQTVQVDDHYCGDQLKPPTRELCRGNCVFTRWHFSEWSQCSRSCGGGERSRESYCMNNFGHRLADNECEELSRVTRENCNEFSCPSWAASEWSECLVTCGKGIKQRQVWCQLNEDHLSDGFCNSSTKPESLSPCELHTCASWQVGPWGPCTTTCGHGYQMRDVKCVNELVSAVLEDTECHEASRPSNRQNCVLTPCPFISKLKTTSLPTALIEKMAQWRHGSWTPCSVSCGRGTQARYVSCRDALDRIADESYCAHLPQPAEIWDCFTPCGEWQAGDWSPCSASCGYGKTTRQVLCMNYHQPIDENYCDPEVRPLMEQECSLAACPPAHSHFPSSAVQPSYYLSTNLPLTHKLEDDENQVVLPSVRGNQWRTGPWGSCSSSCSGGLQRRAVVCQDENGQSASYCDATSKPPELQHCGPGPCPQWNYGNWGECSQTCGGGIKSRLVICQFPNGQILEDHNCEIVNKPPSVIQCHMHACPADVSWHQEPWTSCSASCGKGRKYREVFCIDQFQRKLEDTNCSQVQKPPTHKACRSVRCPSWKANSWNKCSMTCGSGVQQRDIYCRLKGVGRVVEEMCDQSTRPCSQRRCWSQDCVHHKGMERERLNCSTSCERKDSHHRTECTDSQIGQVNEIVYNSSTMSLTSKNCRNPPCNYIVVTADSSQCANNCGFSYRQRITYCTGIPSTKKHKLHRLQPIVYQECPVVPSSQVYKCINSCLHLATWKVGKWSKCSVTCGIGIMKRQVKCVTKHGLSSDLCLNHLKPGAQKKCYANDCKSFTTCEEIQVKNHIRKDGDYYLNIKGRIIKIHCADMHLENPKEYLTLVQGEENFSEVYGFRLKNPYQCPFNGSRREDCECDNGHLAAGYTVFSKIRIDLTSMQIKTTDLRFSKTIFGNAVPFATAGDCYSAVRCPQGQFSINLAGTGMKISNTAKWLAQGSYTSVSIRRSEDGTRFFGKCGGYCGKCLPHMTTGLPIQVI

Target ORF information:

RefSeq Version	NM_001110539.2
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.

Target ORF information:

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

NM_001110539.2

ORF Insert Sequence:

ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTGCCATC TCTTGCTCAT CACCAGGTCT 
TGGGAAGTTC ACTTCCACCC CAGGCAAGAA GCCCTGGTGA GGACCCTGAC CACCTACGAA 
GTAGTGATCC CCGAGCGGGT CAATGAGTTT GGAGAAGTGT TCCCTCAGAG CCACCACTTC 
AGCCGGCAGA AACGCAGCTC CGAGGCGCTG GAACCCATGC CGTTCAGAAC CCACTATCGC 
GTCACTGCCT ACGGACAGCT CTTCCAGCTG AACCTGACCG CCGATGCATC CTTTCTGGCC 
GCCGGCTACA CCGAAGTGCA CTTGGGAGCC CCGGGACGCG GGACCTGGGA GAGCGACGCA 
GGGCCCTCAG ACCTGCGCCA CTGCTTCTAC CGCGGCCAGG TTAACTCGCA GGAGGATTAC 
AAGGCCGTCG TAAGCTTATG TGGAGGCCTG ACGGGAACAT TTAAAGGACA TGACGGTGAT 
TATTTCTTAG AACCTATAAT GAAGGCAGAT GGGAATGAGT ATGAAGATGG TCACAACAAG 
CCACATCTTA TATACAGACA AGAATTAAAT AACTCTTTTC TGCAAACTCT GAAGTATTGC 
AGTGTGTCAG AAAGTCAAAT AAAGGAAACC AGTTTACCCT TTCATACCTA CAGAAACATG 
AATGAAGATC TTAATGTAAT GAAAGAAAGA GTTTTAGGAC ACCCATCAAA AAATGTACCA 
TTGAAAGATG AAAGAAGTCA ATTACATTCC AGGAAAAAAC GTCTTATATC ATATCCAAGA 
TACGTTGAAA TTATGGTTAC AGCTGATGCT AAAGTGGTTT CTGCTCATGG ATCGAATTTG 
CAAAACTATA TACTGACTCT AATGTCAATT GTTGCAACAA TCTACAAAGA TCCAAGTATT 
GGAAGTTTTA TACACATAGT AGTGGTAAAA TTAGTTATGA TTCACCACGA GGAGGAAGGG 
CCAGTCATTA ATTTTGATGG TGCTACCACA TTAAATAACT TTTGTTCATG GCAACAAACT 
CAGAATGACG TTGATGATGT TCACCCTTCC CACCATGATG CTGCTATTCT TATCACTAGG 
GAAGACATTT GTTCATCTAA AGAGAAATGT AACATATTAG GTTTATCATA CTTAGGTACC 
ATATGTGATC CTTTACAAAG CTGCTTTATT AATGAAGAAA AAGGACTCAT TTCTGCTTTT 
ACTATAGCCC ATGAACTTGG GCACACACTT GGTGTTCAAC ATGATGATAC TCCTAGATGT 
AGAGAAATGA ATGTTACACA ATATCATGTA ATGGCCCCTG TTTTAAGTTT TCACATGAGT 
CCTTGGAGCT GGTCAAACTG TAGTCGGAAA TACATTACTG AATTCCTAGA TACTGGCTAC 
GGGGAATGTC TTCTTGACAA ACCAGATGAA GAAATATATA ATCTGCCTTC AGAACTTCCT 
GGATCACGAT ATGATGGAAA CAAGCAGTGT GAACTTGCGT TTGGTCCTGG GTCACAAATG 
TGTCCCCATA TAAATATATG CATGCATCTG TGGTGCACAA GTGCTGAAAA GCTTCACAAA 
GGCTGTTTCA CTCAACATGT GCCACCAGCA GATGGAACAG ACTGTGGTCC TGGAATGCAT 
TGCCGCCGTG GGCTATGTGT AAACAAAGAA ATGGAAACAC GTCCTGTAAA TGGTGAATGG 
GGACCATGGG AACCTTACAG TTCTTGTTCA AGAACATGTG GAGGTGGAAT CGAAAGCTCA 
ACCAGGCACT GTAATCGTCC TGAGCCAAGA AACGGAGGAA ATTACTGTGT GGGCCGCAGG 
ATGAAATTTC GATCATGTAA TACTGATTCA TGTCCAAAAG GCACACAAGA CTTTCGAGAG 
AAGCAATGCT CTGATTTTAA TGGCAAACAT TTGGGCATCA ATGGCATTCC CTCTAATGTG 
AGGTGGCTTC CAAGATACAG TGGCATTCGC ACAAAAGATC GTTGTAAACT CTACTGTCAG 
GTTGCTGGAA CCAATGATTT CTACCTATTG AAGTATATGG TTGAAGATGG TACTCCTTGT 
GAAAATGAAA CTCATGACAT CTGTGTTCAA GGCCGGTGTA TGGCAGCTGG TTGTGATCAC 
GTGTTAAACT CCAGTGCCAA GATAGACAAA TGTGGAGTGT GTGGTGGGGA CAACTCTTCA 
TGCAAGACAA TAACAGGTGT CTTCAACAGT TCTCATTATG GTTATAATGT TGTTGTAAAG 
ATTCCTGCAG GAGCAACAAA CATTGACATT CGTCAGTACA GCTATTCTGG ACAACCAGAT 
GACAGTTACC TTGCATTATC TGACGCTGAA GGGAATTTTC TTTTCAATGG AAATTTTGTT 
CTAAGTAGAT CAAAGAAAGA AGTCAATGTG CAAGGAACAA GAACTGTTAT TGAATACAGT 
GGATCAAACA ACTCAGTTGA AAGAATTAAT AGTACTAATC GACAAGAGAA AGAACTTATT 
TTGCAGGTGT TATGTGTGGG TAATTTATAC AACCCTGATG TACGTTATTC CTTCAATATC 
CCTTTGGAAG AGTGGAGCGA GCTGTTCACA TGGGACCCCT ATGGACCATG GGAAGGCTGT 
ACCAAAATGT GTCAAGGTCT TCAGCGAAGA AAAATAACTT GCATACATAA GAGTGATCAT 
AGTGTTGTGT CTGATCAAAA ATGTGACCAA TTGCCACTTC CATCATTTGT TACTCAAAGT 
TGCAATACAG ACTGTGAACT AAGGTGGCAT GTTACTGGCA AAAGTGAATG TTCAACCCAA 
TGTGGTCAAG GATATAGAAC CTTGGACATC CATTGCATGA AGTATTCCAT TCATAAAGGA 
CAGACTGTTC AAGTGGATGA CCACTACTGT GGTGACCAAC TTAAACCTCC TACCCGAGAA 
CTATGCCGTG GTAACTGTGT CTTCACAAGA TGGCATTTTT CAGAATGGTC TCAGTGTTCC 
AGGAGTTGTG GAGGAGGGGA AAGGTCTCGA GAATCTTATT GTATGAATAA CTTTGGCCAT 
CGTCTTGCTG ACAATGAATG CGAAGAACTG TCCCGAGTGA CGAGAGAGAA TTGCAATGAA 
TTTTCCTGTC CCAGTTGGGC CGCTAGTGAA TGGAGCGAGT GCCTTGTTAC ATGTGGTAAA 
GGAATAAAGC AGCGGCAGGT ATGGTGTCAG CTGAATGAAG ATCACTTGAG TGATGGCTTC 
TGTAACTCAA GTACCAAACC TGAATCTCTG AGTCCATGTG AACTTCATAC ATGTGCTTCC 
TGGCAAGTAG GACCATGGGG TCCTTGCACA ACCACATGTG GACATGGGTA TCAGATGCGA 
GATGTTAAAT GTGTCAATGA GCTAGTTAGT GCAGTGTTAG AAGACACAGA ATGCCATGAA 
GCTAGTCGCC CCAGCAACAG ACAGAACTGT GTACTTACAC CTTGCCCATT TATTTCTAAA 
CTTAAGACCA CTTCATTACC AACTGCTCTC ATAGAAAAGA TGGCACAATG GCGACATGGT 
TCTTGGACCC CATGCTCCGT ATCTTGTGGA AGAGGTACTC AAGCCCGCTA TGTAAGCTGT 
CGTGATGCTC TTGATAGAAT AGCAGATGAA TCATATTGTG CCCACTTACC CCAACCTGCT 
GAAATATGGG ACTGTTTTAC CCCTTGTGGA GAGTGGCAAG CAGGGGATTG GTCACCCTGT 
TCAGCTTCCT GTGGCTATGG AAAAACAACT CGACAAGTTT TATGCATGAA CTACCATCAG 
CCAATTGATG AGAATTACTG TGATCCTGAA GTTCGCCCCT TGATGGAACA GGAATGTAGC 
CTAGCAGCCT GCCCGCCTGC ACACAGCCAC TTTCCTAGTT CTGCTGTGCA ACCAAGCTAT 
TATCTAAGCA CGAATTTGCC ATTAACTCAC AAACTTGAAG ATGATGAAAA TCAGGTGGTC 
CTTCCATCAG TCAGAGGAAA CCAGTGGAGA ACCGGACCGT GGGGATCATG CTCTAGCAGT 
TGTTCTGGAG GACTTCAGCG TAGGGCTGTG GTCTGCCAGG ATGAAAATGG ACAAAGTGCT 
AGTTACTGCG ATGCAACCTC CAAGCCTCCA GAGTTACAGC ACTGTGGTCC AGGGCCTTGT 
CCACAGTGGA ACTACGGAAA TTGGGGAGAA TGTTCACAAA CATGTGGAGG AGGAATAAAA 
TCAAGACTTG TAATATGTCA ATTTCCCAAT GGCCAAATAT TAGAAGATCA CAACTGTGAA 
ATCGTAAACA AGCCACCTAG TGTAATACAG TGTCATATGC ATGCTTGCCC TGCTGATGTG 
TCATGGCATC AGGAACCATG GACATCGTGC TCAGCCTCTT GTGGTAAAGG TAGAAAGTAC 
CGTGAAGTGT TTTGCATTGA CCAATTCCAA AGGAAATTAG AAGACACAAA TTGCAGTCAA 
GTACAGAAAC CTCCAACTCA CAAAGCCTGT AGATCTGTCA GATGCCCTTC ATGGAAAGCC 
AATAGCTGGA ATAAGTGCTC TATGACCTGC GGCTCTGGAG TTCAGCAGAG GGATATATAC 
TGCAGACTGA AAGGTGTTGG TCGGGTGGTT GAAGAAATGT GTGATCAGTC CACCCGACCT 
TGTTCTCAGA GGCGATGTTG GAGTCAGGAC TGTGTGCACC ACAAGGGGAT GGAAAGAGAG 
AGGCTGAATT GTTCAACATC ATGTGAGAGA AAAGATTCAC ATCACCGAAC GGAGTGCACA 
GATAGCCAAA TTGGACAAGT GAATGAAATA GTCTATAATT CTTCAACCAT GTCTCTTACA 
TCTAAGAATT GCAGGAACCC TCCTTGCAAT TACATTGTGG TAACAGCAGA CTCATCACAG 
TGTGCAAACA ACTGTGGATT TAGTTACAGA CAAAGGATTA CATATTGCAC TGGGATCCCA 
TCTACTAAGA AACATAAGCT CCATCGACTT CAGCCTATAG TCTATCAAGA ATGCCCTGTG 
GTGCCTTCCT CTCAGGTTTA CAAATGCATT AACAGCTGTT TGCATTTGGC CACTTGGAAA 
GTTGGAAAAT GGAGCAAGTG CTCAGTGACT TGTGGAATTG GGATAATGAA GAGACAAGTG 
AAATGCGTTA CCAAACATGG TTTGTCCAGT GACTTATGTT TAAATCATTT AAAACCAGGT 
GCTCAAAAGA AATGCTATGC CAATGACTGT AAATCATTTA CCACCTGCGA AGAAATTCAA 
GTGAAAAACC ACATTAGAAA GGATGGTGAC TATTACCTTA ACATTAAGGG AAGAATAATA 
AAGATTCATT GTGCAGACAT GCACTTGGAG AACCCTAAGG AATATTTGAC ACTGGTCCAA 
GGTGAAGAAA ACTTTTCTGA AGTGTATGGC TTTAGACTAA AAAATCCATA TCAATGTCCT 
TTTAATGGGA GTAGGAGGGA AGACTGCGAA TGTGACAATG GACACCTAGC TGCTGGATAC 
ACTGTTTTCA GCAAAATAAG AATTGATCTC ACTTCCATGC AAATTAAAAC TACAGACCTT 
CGTTTTTCCA AAACAATATT TGGAAATGCA GTTCCATTTG CCACAGCTGG AGATTGCTAC 
AGTGCTGTCA GATGCCCACA GGGACAGTTT AGCATTAATT TAGCAGGAAC TGGGATGAAG 
ATATCCAACA CAGCAAAGTG GCTTGCTCAG GGGAGTTATA CCTCTGTCAG CATACGGAGA 
TCAGAGGATG GAACCAGATT TTTCGGCAAG TGTGGAGGGT ACTGTGGAAA GTGTCTTCCT 
CACATGACTA CTGGTCTCCC AATTCAAGTC ATATGA

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

ADAMTS20 ( NM_001110539.3 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> NP_001104009.3 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.

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CloneID	OMb94558
Clone ID Related Accession (Same CDS sequence)	NM_001110539.3
Accession Version	NM_001110539.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5736bp) 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	2019-12-11
Organism	Macaca mulatta(Rhesus monkey)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 20 precursor
Comment	Comment: PROVISIONAL REFSEQ: This record has not yet been subject to final NCBI review. The reference sequence was derived from QNVO02000060.1. On Dec 12, 2019 this sequence version replaced NM_001110539.2. Sequence Note: The RefSeq transcript and protein were derived from genomic sequence to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on alignments. ##Evidence-Data-START## RNAseq introns :: mixed/partial sample support SAMEA4688315, SAMEA4688316 [ECO:0000350] ##Evidence-Data-END##

ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTGCCATC TCTCGCTCAT CACCAGGTCT 
TGGGAAGTTC ACTTCCACCC CAGGCAAGAA GCCCTGGTGA GGACCCTGAC CACCTACGAA 
GTAGTGATCC CCGAGCGGGT CAATGAGTTT GGAGAAGTGT TCCCTCAGAG CCACCACTTC 
AGCCGGCAGA AACGCAGCTC CGAGGCGCTG GAACCCATGC CGTTCAGAAC CCACTATCGC 
GTCACTGCCT ACGGACAGCT CTTCCAGCTG AACCTGACCG CCGATGCATC CTTTCTGGCC 
GCCGGCTACA CCGAAGTGCA CTTGGGAGCC CCGGGACGCG GGACCTGGGA GAGCGACGCA 
GGGCCCTCAG ACCTGCGCCA CTGCTTCTAC CGCGGCCAGG TTAACTCGCA GGAGGATTAC 
AAGGCCGTCG TAAGCTTATG TGGAGGCCTG ACGGGAACAT TTAAAGGACA TGACGGTGAT 
TATTTCTTAG AACCTATAAT GAAGGCAGAT GGGAATGAGT ATGAAGATGG TCACAACAAG 
CCACATCTTA TATACAGACA AGAATTAAAT AACTCTTTTC TGCAAACTCT GAAGTATTGC 
AGTGTGTCAG AAAGTCAAAT AAAGGAAACC AGTTTACCCT TTCATACCTA CAGAAACATG 
AATGAAGATC TTAATGTAAT GAAAGAAAGA GTTTTAGGAC ACCCATCAAA AAATGTATCA 
TTGAAAGATG AAAGAAGTCA ATTACATTCC AGGAAAAAAC GTCTTATATC ATATCCAAGA 
TATGTTGAAA TTATGGTTAC AGCTGATGCT AAAGTGGTTT CTGCTCATGG ATCGAATTTG 
CAAAACTATA TACTGACTCT AATGTCAATT GTTGCAACAA TCTACAAAGA TCCAAGTATT 
GGAAGTTTTA TACACATAGT AGTGGTAAAA TTAGTTATGA TTCACCACGA GGAGGAAGGG 
CCAGTCATTA ATTTTGATGG TGCTACCACA TTAAATAACT TTTGTTCATG GCAACAAACT 
CAGAATGACG TTGATGATGT TCACCCTTCC CACCATGATG CTGCTATTCT TATCACTAGG 
GAAGACATTT GTTCATCTAA AGAGAAATGT AACATATTAG GTTTATCATA CTTAGGTACC 
ATATGTGATC CTTTACAAAG CTGCTTTATT AATGAAGAAA AAGGACTCAT TTCTGCTTTT 
ACTATAGCCC ATGAACTTGG GCACACACTT GGTGTTCAAC ATGATGATAC TCCTAGATGT 
AGAGAAATGA ATGTTACACA ATATCATGTA ATGGCCCCTG TTTTAAGTTT TCACATGAGT 
CCTTGGAGCT GGTCAAACTG TAGTCGGAAA TACATTACTG AATTCCTAGA TACTGGCTAC 
GGGGAATGTC TTCTTGACAA ACCAGATGAA GAAATATATA ATCTGCCTTC AGAACTTCCT 
GGATCACGAT ATGATGGAAA CAAGCAGTGT GAACTTACGT TTGGTCCTGG GTCACAAATG 
TGTCCCCATA TAAATATATG CATGCATCTG TGGTGCACAA GTGCAGAAAA GCTTCACAAA 
GGCTGTTTCA CTCAACATGT GCCACCAGCA GATGGAACAG ACTGTGGTCC TGGAATGCAT 
TGCCGCCGTG GGCTATGTGT AAACAAAGAA ATGGAAACAC GTCCTGTAAA TGGTGAATGG 
GGACCATGGG AACCTTACAG TTCTTGTTCA AGAACATGTG GAGGTGGAAT CGAAAGCTCA 
ACCAGGCACT GTAATCGTCC TGAGCCAAGA AACGGAGGAA ATTACTGTGT GGGCCGCAGG 
ATGAAATTTC GATCATGTAA TACTGATTCA TGTCCAAAAG GCACACAAGA CTTTCGAGAG 
AAGCAATGCT CTGATTTTAA TGGCAAACAT TTGGGCATCA ATGGCATTCC CTCTAATGTG 
AGGTGGCTTC CAAGATACAG TGGCATTCGC ACAAAAGATC GTTGTAAACT CTACTGTCAG 
GTTGCTGGAA CCAATGATTT CTACCTATTG AAGTATATGG TTGAAGATGG TACTCCTTGT 
GAAAATGAAA CTCATGACAT CTGTGTTCAA GGCCGGTGTA TGGCAGCTGG TTGTGATCAC 
GTGTTAAACT CCAGTGCCAA GATAGACAAA TGTGGAGTGT GTGGTGGGGA CAACTCTTCA 
TGCAAGACAA TAACAGGTGT CTTCAACAGT TCTCATTATG GTTATAATGT TGTTGTAAAG 
ATTCCTGCAG GAGCAACAAA CATTGACATT CGTCAGTACA GCTATTCTGG ACAACCAGAT 
GACAGTTACC TTGCATTATC TGACGCTGAA GGGAATTTTC TTTTCAATGG AAATTTTGTT 
CTAAGTAGAT CAAAGAAAGA AGTCAATGTG CAAGGAACAA GAACTGTTAT TGAATACAGT 
GGATCAAACA ACTCAGTTGA AAGAATTAAT AGTACTAATC GACAAGAGAA AGAACTTATT 
TTGCAGGTGT TATGTGTGGG TAATTTATAC AACCCTGATG TACGTTATTC CTTCAATATC 
CCTTTGGAAG AGTGGAGCGA GCTGTTCACA TGGGACCCCT ATGGACCATG GGAAGGCTGT 
ACCAAAATGT GTCAAGGTCT TCAGCGAAGA AAAATAACTT GCATACATAA GAGTGATCAT 
AGTGTTGTGT CTGATCAAAA ATGTGACCAA TTGCCACTTC CATCATTTGT TACTCAAAGT 
TGCAATACAG ACTGTGAACT AAGGTGGCAT GTTACTGGCA AAAGTGAATG TTCAACCCAA 
TGTGGTCAAG GATATAGAAC CTTGGACATC CATTGCATGA AGTATTCCAT TCATAAAGGA 
CAGACTGTTC AAGTGGATGA CCACTACTGT GGTGACCAAC TTAAACCTCC TACCCGAGAA 
CTATGCCGTG GTAACTGTGT CTTCACAAGA TGGCATTTTT CAGAATGGTC TCAGTGTTCC 
AGGAGTTGTG GAGGAGGGGA AAGGTCTCGA GAATCTTATT GTATGAATAA CTTTGGCCAT 
CGTCTTGCTG ACAATGAATG CGAAGAACTG TCCCGAGTGA CGAGAGAGAA TTGCAATGAA 
TTTTCCTGTC CCAGTTGGGC TGCTAGTGAA TGGAGCGAGT GCCTTGTTAC ATGTGGTAAA 
GGAATAAAGC AGCGGCAGGT ATGGTGTCAG CTGAATGAAG ATCACTTGAG TGATGGCTTC 
TGTAACTCAA GTACCAAACC TGAATCTCTG AGTCCATGTG AACTTCATAC ATGTGCTTCC 
TGGCAAGTAG GACCATGGGG TCCTTGCACA ACCACATGTG GACATGGGTA TCAGATGCGA 
GATGTTAAAT GTGTCAATGA GCTAGTTAGT GCAGTGTTAG AAGACACAGA ATGCCATGAA 
GCTAGTCGCC CCAGCGACAG ACAGAACTGT GTACTTACAC CTTGCCCATT TATTTCTAAA 
CTTAAGACCA CTTCATTACC AACTGCTCTC ATAGAAAAGA TGGCACAATG GCGACATGGT 
TCTTGGACCC CATGCTCCGT ATCTTGTGGA AGAGGTACTC AAGCCCGCTA TGTAAGCTGT 
CGTGATGCTC TTGATAGAAT AGCAGATGAA TCATATTGTG CCCACTTACC CCAACCTGCT 
GAAATATGGG ACTGTTTTAC CCCTTGTGGA GAGTGGCAAG CAGGGGATTG GTCACCCTGT 
TCAGCTTCCT GTGGCTATGG AAAAACAACT CGACAAGTTT TATGCATGAA CTACCATCAG 
CCAATTGATG AGAATTACTG TGATCCTGAA GTTCGCCCCT TGATGGAACA GGAATGTAGC 
CTAGCAGCCT GCCCGCCTGC ACACAGCCAC TTTCCTAGTT CTGCTGTGCA ACCAAGCTAT 
TATCTAAGCA CGAATTTGCC ATTAACTCAC AAACTTGAAG ATGATGAAAA TCAGGTGGTC 
CTTCCATCAG TCAGAGGAAA CCAGTGGAGA ACCGGACCGT GGGGATCATG CTCTAGCAGT 
TGTTCTGGAG GACTTCAGCG TAGGGCTGTG GTCTGCCAGG ATGAAAATGG ACAAAGTGCT 
AGTTACTGCG ATGCAACCTC CAAGCCTCCA GAGTTACAGC ACTGTGGTCC AGGGCCTTGT 
CCACAGTGGA ACTACGGAAA TTGGGGAGAA TGTTCACAAA CATGTGGAGG AGGAATAAAA 
TCAAGACTTG TAATATGTCA ATTTCCCAAT GGCCAAATAT TAGAAGATCA CAACTGTGAA 
ATCGTAAACA AGCCACCTAG TGTAATACAG TGTCATATGC ATGCTTGCCC TGCTGATGTG 
TCATGGCATC AGGAACCATG GACATCGTGC TCAGCCTCTT GTGGTAAAGG TAGAAAGTAC 
CGTGAAGTGT TTTGCATTGA CCAATTCCAA AGGAAATTAG AAGACACAAA TTGCAGTCAA 
GTACAGAAAC CTCCAACTCA CAAAGCCTGT AGATCTGTCA GATGCCCTTC ATGGAAAGCC 
AATAGCTGGA ATAAGTGCTC TATGACCTGC GGCTCTGGAG TTCAGCAGAG GGATATATAC 
TGCAGACTGA AAGGTGTTGG TCGGGTGGTT GAAGAAATGT GTGATCAGTC CACCCGACCT 
TGTTCTCAGA GGCGATGTTG GAGTCAGGAC TGTGTGCACC ACAAGGGGAT GGAAAGAGAG 
AGGCTGAATT GTTCAACATC ATGTGAGAGA AAAGATTCAC ATCACCGAAC GGAGTGCACA 
GATAGCCAAA TTGGACAAGT GAATGAAATA GTCTATAATT CTTCAACCAT GTCTCTTACA 
TCTAAGAATT GCAGGAACCC TCCTTGCAAT TACATTGTGG TAACAGCAGA CTCATCACAG 
TGTGCAAACA ACTGTGGATT TAGTTACAGA CAAAGGATTA CATATTGCAC TGGGATCCCA 
TCTACTAAGA AACATAAGCT CCATCGACTT CAGCCTATAG TCTATCAAGA ATGCCCTGTG 
GTGCCTTCCT CTCAGGTTTA CAAATGCATT AACAGCTGTT TGCATTTGGC CACTTGGAAA 
GTTGGAAAAT GGAGCAAGTG CTCAGTGACT TGTGGAATTG GGATAATGAA GAGACAAGTG 
AAATGCGTTA CCAAACATGG TTTGTCCAGT GACTTATGTT TAAATCATTT AAAACCAGGT 
GCTCAAAAGA AATGCTATGC CAATGACTGT AAATCATTTA CCACCTGCGA AGAAATTCAA 
GTGAAAAACC ACATTAGAAA GGATGGTGAC TATTACCTTA ACATTAAGGG AAGAATAATA 
AAGATTCATT GTGCAGACAT GCACTTGGAG AACCCTAAGG AATATTTGAC ACTGGTCCAA 
GGTGAAGAAA ACTTTTCTGA AGTGTATGGC TTTAGACTAA AAAATCCATA TCAATGTCCT 
TTTAATGGGA GTAGGAGGGA AGACTGCGAA TGTGACAATG GACACCTAGC TGCTGGATAC 
ACTGTTTTCA GCAAAATAAG AATTGATCTC ACTTCCATGC AAATTAAAAC TACAGACCTT 
CGTTTTTCCA AAACAATATT TGGAAATGCA GTTCCATTTG CCACAGCTGG AGATTGCTAC 
AGTGCTGTCA GATGCCCACA GGGACAGTTT AGCATTAATT TAGCAGGAAC TGGGATGAAG 
ATATCCAACA CAGCAAAGTG GCTTGCTCAG GGGAGTTATA CCTCTGTCAG CATACGGAGA 
TCAGAGGATG GAACCAGATT TTTCGGCAAG TGTGGAGGGT ACTGTGGAAA GTGTCTTCCT 
CACATGACTA CTGGTCTCCC AATTCAAGTC ATATGA

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

RefSeq	NP_001104009.3
CDS	1..5736
Translation	MWVAKWLTGLLCHLSLITRSWEVHFHPRQEALVRTLTTYEVVIPERVNEFGEVFPQSHHFSRQKRSSEALEPMPFRTHYRVTAYGQLFQLNLTADASFLAAGYTEVHLGAPGRGTWESDAGPSDLRHCFYRGQVNSQEDYKAVVSLCGGLTGTFKGHDGDYFLEPIMKADGNEYEDGHNKPHLIYRQELNNSFLQTLKYCSVSESQIKETSLPFHTYRNMNEDLNVMKERVLGHPSKNVSLKDERSQLHSRKKRLISYPRYVEIMVTADAKVVSAHGSNLQNYILTLMSIVATIYKDPSIGSFIHIVVVKLVMIHHEEEGPVINFDGATTLNNFCSWQQTQNDVDDVHPSHHDAAILITREDICSSKEKCNILGLSYLGTICDPLQSCFINEEKGLISAFTIAHELGHTLGVQHDDTPRCREMNVTQYHVMAPVLSFHMSPWSWSNCSRKYITEFLDTGYGECLLDKPDEEIYNLPSELPGSRYDGNKQCELTFGPGSQMCPHINICMHLWCTSAEKLHKGCFTQHVPPADGTDCGPGMHCRRGLCVNKEMETRPVNGEWGPWEPYSSCSRTCGGGIESSTRHCNRPEPRNGGNYCVGRRMKFRSCNTDSCPKGTQDFREKQCSDFNGKHLGINGIPSNVRWLPRYSGIRTKDRCKLYCQVAGTNDFYLLKYMVEDGTPCENETHDICVQGRCMAAGCDHVLNSSAKIDKCGVCGGDNSSCKTITGVFNSSHYGYNVVVKIPAGATNIDIRQYSYSGQPDDSYLALSDAEGNFLFNGNFVLSRSKKEVNVQGTRTVIEYSGSNNSVERINSTNRQEKELILQVLCVGNLYNPDVRYSFNIPLEEWSELFTWDPYGPWEGCTKMCQGLQRRKITCIHKSDHSVVSDQKCDQLPLPSFVTQSCNTDCELRWHVTGKSECSTQCGQGYRTLDIHCMKYSIHKGQTVQVDDHYCGDQLKPPTRELCRGNCVFTRWHFSEWSQCSRSCGGGERSRESYCMNNFGHRLADNECEELSRVTRENCNEFSCPSWAASEWSECLVTCGKGIKQRQVWCQLNEDHLSDGFCNSSTKPESLSPCELHTCASWQVGPWGPCTTTCGHGYQMRDVKCVNELVSAVLEDTECHEASRPSDRQNCVLTPCPFISKLKTTSLPTALIEKMAQWRHGSWTPCSVSCGRGTQARYVSCRDALDRIADESYCAHLPQPAEIWDCFTPCGEWQAGDWSPCSASCGYGKTTRQVLCMNYHQPIDENYCDPEVRPLMEQECSLAACPPAHSHFPSSAVQPSYYLSTNLPLTHKLEDDENQVVLPSVRGNQWRTGPWGSCSSSCSGGLQRRAVVCQDENGQSASYCDATSKPPELQHCGPGPCPQWNYGNWGECSQTCGGGIKSRLVICQFPNGQILEDHNCEIVNKPPSVIQCHMHACPADVSWHQEPWTSCSASCGKGRKYREVFCIDQFQRKLEDTNCSQVQKPPTHKACRSVRCPSWKANSWNKCSMTCGSGVQQRDIYCRLKGVGRVVEEMCDQSTRPCSQRRCWSQDCVHHKGMERERLNCSTSCERKDSHHRTECTDSQIGQVNEIVYNSSTMSLTSKNCRNPPCNYIVVTADSSQCANNCGFSYRQRITYCTGIPSTKKHKLHRLQPIVYQECPVVPSSQVYKCINSCLHLATWKVGKWSKCSVTCGIGIMKRQVKCVTKHGLSSDLCLNHLKPGAQKKCYANDCKSFTTCEEIQVKNHIRKDGDYYLNIKGRIIKIHCADMHLENPKEYLTLVQGEENFSEVYGFRLKNPYQCPFNGSRREDCECDNGHLAAGYTVFSKIRIDLTSMQIKTTDLRFSKTIFGNAVPFATAGDCYSAVRCPQGQFSINLAGTGMKISNTAKWLAQGSYTSVSIRRSEDGTRFFGKCGGYCGKCLPHMTTGLPIQVI

Target ORF information:

RefSeq Version	NM_001110539.3
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), mRNA.

Target ORF information:

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

NM_001110539.3

ORF Insert Sequence:

ATGTGGGTGG CCAAGTGGCT GACTGGGCTG CTCTGCCATC TCTCGCTCAT CACCAGGTCT 
TGGGAAGTTC ACTTCCACCC CAGGCAAGAA GCCCTGGTGA GGACCCTGAC CACCTACGAA 
GTAGTGATCC CCGAGCGGGT CAATGAGTTT GGAGAAGTGT TCCCTCAGAG CCACCACTTC 
AGCCGGCAGA AACGCAGCTC CGAGGCGCTG GAACCCATGC CGTTCAGAAC CCACTATCGC 
GTCACTGCCT ACGGACAGCT CTTCCAGCTG AACCTGACCG CCGATGCATC CTTTCTGGCC 
GCCGGCTACA CCGAAGTGCA CTTGGGAGCC CCGGGACGCG GGACCTGGGA GAGCGACGCA 
GGGCCCTCAG ACCTGCGCCA CTGCTTCTAC CGCGGCCAGG TTAACTCGCA GGAGGATTAC 
AAGGCCGTCG TAAGCTTATG TGGAGGCCTG ACGGGAACAT TTAAAGGACA TGACGGTGAT 
TATTTCTTAG AACCTATAAT GAAGGCAGAT GGGAATGAGT ATGAAGATGG TCACAACAAG 
CCACATCTTA TATACAGACA AGAATTAAAT AACTCTTTTC TGCAAACTCT GAAGTATTGC 
AGTGTGTCAG AAAGTCAAAT AAAGGAAACC AGTTTACCCT TTCATACCTA CAGAAACATG 
AATGAAGATC TTAATGTAAT GAAAGAAAGA GTTTTAGGAC ACCCATCAAA AAATGTATCA 
TTGAAAGATG AAAGAAGTCA ATTACATTCC AGGAAAAAAC GTCTTATATC ATATCCAAGA 
TATGTTGAAA TTATGGTTAC AGCTGATGCT AAAGTGGTTT CTGCTCATGG ATCGAATTTG 
CAAAACTATA TACTGACTCT AATGTCAATT GTTGCAACAA TCTACAAAGA TCCAAGTATT 
GGAAGTTTTA TACACATAGT AGTGGTAAAA TTAGTTATGA TTCACCACGA GGAGGAAGGG 
CCAGTCATTA ATTTTGATGG TGCTACCACA TTAAATAACT TTTGTTCATG GCAACAAACT 
CAGAATGACG TTGATGATGT TCACCCTTCC CACCATGATG CTGCTATTCT TATCACTAGG 
GAAGACATTT GTTCATCTAA AGAGAAATGT AACATATTAG GTTTATCATA CTTAGGTACC 
ATATGTGATC CTTTACAAAG CTGCTTTATT AATGAAGAAA AAGGACTCAT TTCTGCTTTT 
ACTATAGCCC ATGAACTTGG GCACACACTT GGTGTTCAAC ATGATGATAC TCCTAGATGT 
AGAGAAATGA ATGTTACACA ATATCATGTA ATGGCCCCTG TTTTAAGTTT TCACATGAGT 
CCTTGGAGCT GGTCAAACTG TAGTCGGAAA TACATTACTG AATTCCTAGA TACTGGCTAC 
GGGGAATGTC TTCTTGACAA ACCAGATGAA GAAATATATA ATCTGCCTTC AGAACTTCCT 
GGATCACGAT ATGATGGAAA CAAGCAGTGT GAACTTACGT TTGGTCCTGG GTCACAAATG 
TGTCCCCATA TAAATATATG CATGCATCTG TGGTGCACAA GTGCAGAAAA GCTTCACAAA 
GGCTGTTTCA CTCAACATGT GCCACCAGCA GATGGAACAG ACTGTGGTCC TGGAATGCAT 
TGCCGCCGTG GGCTATGTGT AAACAAAGAA ATGGAAACAC GTCCTGTAAA TGGTGAATGG 
GGACCATGGG AACCTTACAG TTCTTGTTCA AGAACATGTG GAGGTGGAAT CGAAAGCTCA 
ACCAGGCACT GTAATCGTCC TGAGCCAAGA AACGGAGGAA ATTACTGTGT GGGCCGCAGG 
ATGAAATTTC GATCATGTAA TACTGATTCA TGTCCAAAAG GCACACAAGA CTTTCGAGAG 
AAGCAATGCT CTGATTTTAA TGGCAAACAT TTGGGCATCA ATGGCATTCC CTCTAATGTG 
AGGTGGCTTC CAAGATACAG TGGCATTCGC ACAAAAGATC GTTGTAAACT CTACTGTCAG 
GTTGCTGGAA CCAATGATTT CTACCTATTG AAGTATATGG TTGAAGATGG TACTCCTTGT 
GAAAATGAAA CTCATGACAT CTGTGTTCAA GGCCGGTGTA TGGCAGCTGG TTGTGATCAC 
GTGTTAAACT CCAGTGCCAA GATAGACAAA TGTGGAGTGT GTGGTGGGGA CAACTCTTCA 
TGCAAGACAA TAACAGGTGT CTTCAACAGT TCTCATTATG GTTATAATGT TGTTGTAAAG 
ATTCCTGCAG GAGCAACAAA CATTGACATT CGTCAGTACA GCTATTCTGG ACAACCAGAT 
GACAGTTACC TTGCATTATC TGACGCTGAA GGGAATTTTC TTTTCAATGG AAATTTTGTT 
CTAAGTAGAT CAAAGAAAGA AGTCAATGTG CAAGGAACAA GAACTGTTAT TGAATACAGT 
GGATCAAACA ACTCAGTTGA AAGAATTAAT AGTACTAATC GACAAGAGAA AGAACTTATT 
TTGCAGGTGT TATGTGTGGG TAATTTATAC AACCCTGATG TACGTTATTC CTTCAATATC 
CCTTTGGAAG AGTGGAGCGA GCTGTTCACA TGGGACCCCT ATGGACCATG GGAAGGCTGT 
ACCAAAATGT GTCAAGGTCT TCAGCGAAGA AAAATAACTT GCATACATAA GAGTGATCAT 
AGTGTTGTGT CTGATCAAAA ATGTGACCAA TTGCCACTTC CATCATTTGT TACTCAAAGT 
TGCAATACAG ACTGTGAACT AAGGTGGCAT GTTACTGGCA AAAGTGAATG TTCAACCCAA 
TGTGGTCAAG GATATAGAAC CTTGGACATC CATTGCATGA AGTATTCCAT TCATAAAGGA 
CAGACTGTTC AAGTGGATGA CCACTACTGT GGTGACCAAC TTAAACCTCC TACCCGAGAA 
CTATGCCGTG GTAACTGTGT CTTCACAAGA TGGCATTTTT CAGAATGGTC TCAGTGTTCC 
AGGAGTTGTG GAGGAGGGGA AAGGTCTCGA GAATCTTATT GTATGAATAA CTTTGGCCAT 
CGTCTTGCTG ACAATGAATG CGAAGAACTG TCCCGAGTGA CGAGAGAGAA TTGCAATGAA 
TTTTCCTGTC CCAGTTGGGC TGCTAGTGAA TGGAGCGAGT GCCTTGTTAC ATGTGGTAAA 
GGAATAAAGC AGCGGCAGGT ATGGTGTCAG CTGAATGAAG ATCACTTGAG TGATGGCTTC 
TGTAACTCAA GTACCAAACC TGAATCTCTG AGTCCATGTG AACTTCATAC ATGTGCTTCC 
TGGCAAGTAG GACCATGGGG TCCTTGCACA ACCACATGTG GACATGGGTA TCAGATGCGA 
GATGTTAAAT GTGTCAATGA GCTAGTTAGT GCAGTGTTAG AAGACACAGA ATGCCATGAA 
GCTAGTCGCC CCAGCGACAG ACAGAACTGT GTACTTACAC CTTGCCCATT TATTTCTAAA 
CTTAAGACCA CTTCATTACC AACTGCTCTC ATAGAAAAGA TGGCACAATG GCGACATGGT 
TCTTGGACCC CATGCTCCGT ATCTTGTGGA AGAGGTACTC AAGCCCGCTA TGTAAGCTGT 
CGTGATGCTC TTGATAGAAT AGCAGATGAA TCATATTGTG CCCACTTACC CCAACCTGCT 
GAAATATGGG ACTGTTTTAC CCCTTGTGGA GAGTGGCAAG CAGGGGATTG GTCACCCTGT 
TCAGCTTCCT GTGGCTATGG AAAAACAACT CGACAAGTTT TATGCATGAA CTACCATCAG 
CCAATTGATG AGAATTACTG TGATCCTGAA GTTCGCCCCT TGATGGAACA GGAATGTAGC 
CTAGCAGCCT GCCCGCCTGC ACACAGCCAC TTTCCTAGTT CTGCTGTGCA ACCAAGCTAT 
TATCTAAGCA CGAATTTGCC ATTAACTCAC AAACTTGAAG ATGATGAAAA TCAGGTGGTC 
CTTCCATCAG TCAGAGGAAA CCAGTGGAGA ACCGGACCGT GGGGATCATG CTCTAGCAGT 
TGTTCTGGAG GACTTCAGCG TAGGGCTGTG GTCTGCCAGG ATGAAAATGG ACAAAGTGCT 
AGTTACTGCG ATGCAACCTC CAAGCCTCCA GAGTTACAGC ACTGTGGTCC AGGGCCTTGT 
CCACAGTGGA ACTACGGAAA TTGGGGAGAA TGTTCACAAA CATGTGGAGG AGGAATAAAA 
TCAAGACTTG TAATATGTCA ATTTCCCAAT GGCCAAATAT TAGAAGATCA CAACTGTGAA 
ATCGTAAACA AGCCACCTAG TGTAATACAG TGTCATATGC ATGCTTGCCC TGCTGATGTG 
TCATGGCATC AGGAACCATG GACATCGTGC TCAGCCTCTT GTGGTAAAGG TAGAAAGTAC 
CGTGAAGTGT TTTGCATTGA CCAATTCCAA AGGAAATTAG AAGACACAAA TTGCAGTCAA 
GTACAGAAAC CTCCAACTCA CAAAGCCTGT AGATCTGTCA GATGCCCTTC ATGGAAAGCC 
AATAGCTGGA ATAAGTGCTC TATGACCTGC GGCTCTGGAG TTCAGCAGAG GGATATATAC 
TGCAGACTGA AAGGTGTTGG TCGGGTGGTT GAAGAAATGT GTGATCAGTC CACCCGACCT 
TGTTCTCAGA GGCGATGTTG GAGTCAGGAC TGTGTGCACC ACAAGGGGAT GGAAAGAGAG 
AGGCTGAATT GTTCAACATC ATGTGAGAGA AAAGATTCAC ATCACCGAAC GGAGTGCACA 
GATAGCCAAA TTGGACAAGT GAATGAAATA GTCTATAATT CTTCAACCAT GTCTCTTACA 
TCTAAGAATT GCAGGAACCC TCCTTGCAAT TACATTGTGG TAACAGCAGA CTCATCACAG 
TGTGCAAACA ACTGTGGATT TAGTTACAGA CAAAGGATTA CATATTGCAC TGGGATCCCA 
TCTACTAAGA AACATAAGCT CCATCGACTT CAGCCTATAG TCTATCAAGA ATGCCCTGTG 
GTGCCTTCCT CTCAGGTTTA CAAATGCATT AACAGCTGTT TGCATTTGGC CACTTGGAAA 
GTTGGAAAAT GGAGCAAGTG CTCAGTGACT TGTGGAATTG GGATAATGAA GAGACAAGTG 
AAATGCGTTA CCAAACATGG TTTGTCCAGT GACTTATGTT TAAATCATTT AAAACCAGGT 
GCTCAAAAGA AATGCTATGC CAATGACTGT AAATCATTTA CCACCTGCGA AGAAATTCAA 
GTGAAAAACC ACATTAGAAA GGATGGTGAC TATTACCTTA ACATTAAGGG AAGAATAATA 
AAGATTCATT GTGCAGACAT GCACTTGGAG AACCCTAAGG AATATTTGAC ACTGGTCCAA 
GGTGAAGAAA ACTTTTCTGA AGTGTATGGC TTTAGACTAA AAAATCCATA TCAATGTCCT 
TTTAATGGGA GTAGGAGGGA AGACTGCGAA TGTGACAATG GACACCTAGC TGCTGGATAC 
ACTGTTTTCA GCAAAATAAG AATTGATCTC ACTTCCATGC AAATTAAAAC TACAGACCTT 
CGTTTTTCCA AAACAATATT TGGAAATGCA GTTCCATTTG CCACAGCTGG AGATTGCTAC 
AGTGCTGTCA GATGCCCACA GGGACAGTTT AGCATTAATT TAGCAGGAAC TGGGATGAAG 
ATATCCAACA CAGCAAAGTG GCTTGCTCAG GGGAGTTATA CCTCTGTCAG CATACGGAGA 
TCAGAGGATG GAACCAGATT TTTCGGCAAG TGTGGAGGGT ACTGTGGAAA GTGTCTTCCT 
CACATGACTA CTGGTCTCCC AATTCAAGTC ATATGA

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

ADAMTS20 ( XM_028828834.1 ) cDNA ORF clone, Macaca mulatta(Rhesus monkey) -> XP_028684667.1 Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), transcript variant X1, mRNA.

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CloneID	OMb63695
Clone ID Related Accession (Same CDS sequence)	XM_028828834.1
Accession Version	XM_028828834.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5520bp) 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 20 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_041764.1) 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 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##

ATGCCGTTCA GAACCCACTA TCGCGTCACT GCCTACGGAC AGCTCTTCCA GCTGAACCTG 
ACCGCCGATG CATCCTTTCT GGCCGCCGGC TACACCGAAG TGCACTTGGG AGCCCCGGGA 
CGCGGGACCT GGGAGAGCGA CGCAGGGCCC TCAGACCTGC GCCACTGCTT CTACCGCGGC 
CAGGTTAACT CGCAGGAGGA TTACAAGGCC GTCGTAAGCT TATGTGGAGG CCTGACGGGA 
ACATTTAAAG GACATGACGG TGATTATTTC TTAGAACCTA TAATGAAGGC AGATGGGAAT 
GAGTATGAAG ATGGTCACAA CAAGCCACAT CTTATATACA GACAAGAATT AAATAACTCT 
TTTCTGCAAA CTCTGAAGTA TTGCAGTGTG TCAGAAAGTC AAATAAAGGA AACCAGTTTA 
CCCTTTCATA CCTACAGAAA CATGAATGAA GATCTTAATG TAATGAAAGA AAGAGTTTTA 
GGACACCCAT CAAAAAATGT ATCATTGAAA GATGAAAGAA GTCAATTACA TTCCAGGAAA 
AAACGTCTTA TATCATATCC AAGATATGTT GAAATTATGG TTACAGCTGA TGCTAAAGTG 
GTTTCTGCTC ATGGATCGAA TTTGCAAAAC TATATACTGA CTCTAATGTC AATTGTTGCA 
ACAATCTACA AAGATCCAAG TATTGGAAGT TTTATACACA TAGTAGTGGT AAAATTAGTT 
ATGATTCACC ACGAGGAGGA AGGGCCAGTC ATTAATTTTG ATGGTGCTAC CACATTAAAT 
AACTTTTGTT CATGGCAACA AACTCAGAAT GACGTTGATG ATGTTCACCC TTCCCACCAT 
GATGCTGCTA TTCTTATCAC TAGGGAAGAC ATTTGTTCAT CTAAAGAGAA ATGTAACATA 
TTAGGTTTAT CATACTTAGG TACCATATGT GATCCTTTAC AAAGCTGCTT TATTAATGAA 
GAAAAAGGAC TCATTTCTGC TTTTACTATA GCCCATGAAC TTGGGCACAC ACTTGGTGTT 
CAACATGATG ATACTCCTAG ATGTAGAGAA ATGAATGTTA CACAATATCA TGTAATGGCC 
CCTGTTTTAA GTTTTCACAT GAGTCCTTGG AGCTGGTCAA ACTGTAGTCG GAAATACATT 
ACTGAATTCC TAGATACTGG CTACGGGGAA TGTCTTCTTG ACAAACCAGA TGAAGAAATA 
TATAATCTGC CTTCAGAACT TCCTGGATCA CGATATGATG GAAACAAGCA GTGTGAACTT 
ACGTTTGGTC CTGGGTCACA AATGTGTCCC CATATAAATA TATGCATGCA TCTGTGGTGC 
ACAAGTGCAG AAAAGCTTCA CAAAGGCTGT TTCACTCAAC ATGTGCCACC AGCAGATGGA 
ACAGACTGTG GTCCTGGAAT GCATTGCCGC CGTGGGCTAT GTGTAAACAA AGAAATGGAA 
ACACGTCCTG TAAATGGTGA ATGGGGACCA TGGGAACCTT ACAGTTCTTG TTCAAGAACA 
TGTGGAGGTG GAATCGAAAG CTCAACCAGG CACTGTAATC GTCCTGAGCC AAGAAACGGA 
GGAAATTACT GTGTGGGCCG CAGGATGAAA TTTCGATCAT GTAATACTGA TTCATGTCCA 
AAAGGCACAC AAGACTTTCG AGAGAAGCAA TGCTCTGATT TTAATGGCAA ACATTTGGGC 
ATCAATGGCA TTCCCTCTAA TGTGAGGTGG CTTCCAAGAT ACAGTGGCAT TCGCACAAAA 
GATCGTTGTA AACTCTACTG TCAGGTTGCT GGAACCAATG ATTTCTACCT ATTGAAGTAT 
ATGGTTGAAG ATGGTACTCC TTGTGAAAAT GAAACTCATG ACATCTGTGT TCAAGGCCGG 
TGTATGGCAG CTGGTTGTGA TCACGTGTTA AACTCCAGTG CCAAGATAGA CAAATGTGGA 
GTGTGTGGTG GGGACAACTC TTCATGCAAG ACAATAACAG GTGTCTTCAA CAGTTCTCAT 
TATGGTTATA ATGTTGTTGT AAAGATTCCT GCAGGAGCAA CAAACATTGA CATTCGTCAG 
TACAGCTATT CTGGACAACC AGATGACAGT TACCTTGCAT TATCTGACGC TGAAGGGAAT 
TTTCTTTTCA ATGGAAATTT TGTTCTAAGT AGATCAAAGA AAGAAGTCAA TGTGCAAGGA 
ACAAGAACTG TTATTGAATA CAGTGGATCA AACAACTCAG TTGAAAGAAT TAATAGTACT 
AATCGACAAG AGAAAGAACT TATTTTGCAG GTGTTATGTG TGGGTAATTT ATACAACCCT 
GATGTACGTT ATTCCTTCAA TATCCCTTTG GAAGAGTGGA GCGAGCTGTT CACATGGGAC 
CCCTATGGAC CATGGGAAGG CTGTACCAAA ATGTGTCAAG GTCTTCAGCG AAGAAAAATA 
ACTTGCATAC ATAAGAGTGA TCATAGTGTT GTGTCTGATC AAAAATGTGA CCAATTGCCA 
CTTCCATCAT TTGTTACTCA AAGTTGCAAT ACAGACTGTG AACTAAGGTG GCATGTTACT 
GGCAAAAGTG AATGTTCAAC CCAATGTGGT CAAGGATATA GAACCTTGGA CATCCATTGC 
ATGAAGTATT CCATTCATAA AGGACAGACT GTTCAAGTGG ATGACCACTA CTGTGGTGAC 
CAACTTAAAC CTCCTACCCG AGAACTATGC CGTGGTAACT GTGTCTTCAC AAGATGGCAT 
TTTTCAGAAT GGTCTCAGTG TTCCAGGAGT TGTGGAGGAG GGGAAAGGTC TCGAGAATCT 
TATTGTATGA ATAACTTTGG CCATCGTCTT GCTGACAATG AATGCGAAGA ACTGTCCCGA 
GTGACGAGAG AGAATTGCAA TGAATTTTCC TGTCCCAGTT GGGCTGCTAG TGAATGGAGC 
GAGTGCCTTG TTACATGTGG TAAAGGAATA AAGCAGCGGC AGGTATGGTG TCAGCTGAAT 
GAAGATCACT TGAGTGATGG CTTCTGTAAC TCAAGTACCA AACCTGAATC TCTGAGTCCA 
TGTGAACTTC ATACATGTGC TTCCTGGCAA GTAGGACCAT GGGGTCCTTG CACAACCACA 
TGTGGACATG GGTATCAGAT GCGAGATGTT AAATGTGTCA ATGAGCTAGT TAGTGCAGTG 
TTAGAAGACA CAGAATGCCA TGAAGCTAGT CGCCCCAGCG ACAGACAGAA CTGTGTACTT 
ACACCTTGCC CATTTATTTC TAAACTTAAG ACCACTTCAT TACCAACTGC TCTCATAGAA 
AAGATGGCAC AATGGCGACA TGGTTCTTGG ACCCCATGCT CCGTATCTTG TGGAAGAGGT 
ACTCAAGCCC GCTATGTAAG CTGTCGTGAT GCTCTTGATA GAATAGCAGA TGAATCATAT 
TGTGCCCACT TACCCCAACC TGCTGAAATA TGGGACTGTT TTACCCCTTG TGGAGAGTGG 
CAAGCAGGGG ATTGGTCACC CTGTTCAGCT TCCTGTGGCT ATGGAAAAAC AACTCGACAA 
GTTTTATGCA TGAACTACCA TCAGCCAATT GATGAGAATT ACTGTGATCC TGAAGTTCGC 
CCCTTGATGG AACAGGAATG TAGCCTAGCA GCCTGCCCGC CTGCACACAG CCACTTTCCT 
AGTTCTGCTG TGCAACCAAG CTATTATCTA AGCACGAATT TGCCATTAAC TCACAAACTT 
GAAGATGATG AAAATCAGGT GGTCCTTCCA TCAGTCAGAG GAAACCAGTG GAGAACCGGA 
CCGTGGGGAT CATGCTCTAG CAGTTGTTCT GGAGGACTTC AGCGTAGGGC TGTGGTCTGC 
CAGGATGAAA ATGGACAAAG TGCTAGTTAC TGCGATGCAA CCTCCAAGCC TCCAGAGTTA 
CAGCACTGTG GTCCAGGGCC TTGTCCACAG TGGAACTACG GAAATTGGGG AGAATGTTCA 
CAAACATGTG GAGGAGGAAT AAAATCAAGA CTTGTAATAT GTCAATTTCC CAATGGCCAA 
ATATTAGAAG ATCACAACTG TGAAATCGTA AACAAGCCAC CTAGTGTAAT ACAGTGTCAT 
ATGCATGCTT GCCCTGCTGA TGTGTCATGG CATCAGGAAC CATGGACATC GTGCTCAGCC 
TCTTGTGGTA AAGGTAGAAA GTACCGTGAA GTGTTTTGCA TTGACCAATT CCAAAGGAAA 
TTAGAAGACA CAAATTGCAG TCAAGTACAG AAACCTCCAA CTCACAAAGC CTGTAGATCT 
GTCAGATGCC CTTCATGGAA AGCCAATAGC TGGAATAAGT GCTCTATGAC CTGCGGCTCT 
GGAGTTCAGC AGAGGGATAT ATACTGCAGA CTGAAAGGTG TTGGTCGGGT GGTTGAAGAA 
ATGTGTGATC AGTCCACCCG ACCTTGTTCT CAGAGGCGAT GTTGGAGTCA GGACTGTGTG 
CACCACAAGG GGATGGAAAG AGAGAGGCTG AATTGTTCAA CATCATGTGA GAGAAAAGAT 
TCACATCACC GAACGGAGTG CACAGATAGC CAAATTGGAC AAGTGAATGA AATAGTCTAT 
AATTCTTCAA CCATGTCTCT TACATCTAAG AATTGCAGGA ACCCTCCTTG CAATTACATT 
GTGGTAACAG CAGACTCATC ACAGTGTGCA AACAACTGTG GATTTAGTTA CAGACAAAGG 
ATTACATATT GCACTGGGAT CCCATCTACT AAGAAACATA AGCTCCATCG ACTTCAGCCT 
ATAGTCTATC AAGAATGCCC TGTGGTGCCT TCCTCTCAGG TTTACAAATG CATTAACAGC 
TGTTTGCATT TGGCCACTTG GAAAGTTGGA AAATGGAGCA AGTGCTCAGT GACTTGTGGA 
ATTGGGATAA TGAAGAGACA AGTGAAATGC GTTACCAAAC ATGGTTTGTC CAGTGACTTA 
TGTTTAAATC ATTTAAAACC AGGTGCTCAA AAGAAATGCT ATGCCAATGA CTGTAAATCA 
TTTACCACCT GCGAAGAAAT TCAAGTGAAA AACCACATTA GAAAGGATGG TGACTATTAC 
CTTAACATTA AGGGAAGAAT AATAAAGATT CATTGTGCAG ACATGCACTT GGAGAACCCT 
AAGGAATATT TGACACTGGT CCAAGGTGAA GAAAACTTTT CTGAAGTGTA TGGCTTTAGA 
CTAAAAAATC CATATCAATG TCCTTTTAAT GGGAGTAGGA GGGAAGACTG CGAATGTGAC 
AATGGACACC TAGCTGCTGG ATACACTGTT TTCAGCAAAA TAAGAATTGA TCTCACTTCC 
ATGCAAATTA AAACTACAGA CCTTCGTTTT TCCAAAACAA TATTTGGAAA TGCAGTTCCA 
TTTGCCACAG CTGGAGATTG CTACAGTGCT GTCAGATGCC CACAGGGACA GTTTAGCATT 
AATTTAGCAG GAACTGGGAT GAAGATATCC AACACAGCAA AGTGGCTTGC TCAGGGGAGT 
TATACCTCTG TCAGCATACG GAGATCAGAG GATGGAACCA GATTTTTCGG CAAGTGTGGA 
GGGTACTGTG GAAAGTGTCT TCCTCACATG ACTACTGGTC TCCCAATTCA AGTCATATGA

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

RefSeq	XP_028684667.1
CDS	174..5693
Translation	MPFRTHYRVTAYGQLFQLNLTADASFLAAGYTEVHLGAPGRGTWESDAGPSDLRHCFYRGQVNSQEDYKAVVSLCGGLTGTFKGHDGDYFLEPIMKADGNEYEDGHNKPHLIYRQELNNSFLQTLKYCSVSESQIKETSLPFHTYRNMNEDLNVMKERVLGHPSKNVSLKDERSQLHSRKKRLISYPRYVEIMVTADAKVVSAHGSNLQNYILTLMSIVATIYKDPSIGSFIHIVVVKLVMIHHEEEGPVINFDGATTLNNFCSWQQTQNDVDDVHPSHHDAAILITREDICSSKEKCNILGLSYLGTICDPLQSCFINEEKGLISAFTIAHELGHTLGVQHDDTPRCREMNVTQYHVMAPVLSFHMSPWSWSNCSRKYITEFLDTGYGECLLDKPDEEIYNLPSELPGSRYDGNKQCELTFGPGSQMCPHINICMHLWCTSAEKLHKGCFTQHVPPADGTDCGPGMHCRRGLCVNKEMETRPVNGEWGPWEPYSSCSRTCGGGIESSTRHCNRPEPRNGGNYCVGRRMKFRSCNTDSCPKGTQDFREKQCSDFNGKHLGINGIPSNVRWLPRYSGIRTKDRCKLYCQVAGTNDFYLLKYMVEDGTPCENETHDICVQGRCMAAGCDHVLNSSAKIDKCGVCGGDNSSCKTITGVFNSSHYGYNVVVKIPAGATNIDIRQYSYSGQPDDSYLALSDAEGNFLFNGNFVLSRSKKEVNVQGTRTVIEYSGSNNSVERINSTNRQEKELILQVLCVGNLYNPDVRYSFNIPLEEWSELFTWDPYGPWEGCTKMCQGLQRRKITCIHKSDHSVVSDQKCDQLPLPSFVTQSCNTDCELRWHVTGKSECSTQCGQGYRTLDIHCMKYSIHKGQTVQVDDHYCGDQLKPPTRELCRGNCVFTRWHFSEWSQCSRSCGGGERSRESYCMNNFGHRLADNECEELSRVTRENCNEFSCPSWAASEWSECLVTCGKGIKQRQVWCQLNEDHLSDGFCNSSTKPESLSPCELHTCASWQVGPWGPCTTTCGHGYQMRDVKCVNELVSAVLEDTECHEASRPSDRQNCVLTPCPFISKLKTTSLPTALIEKMAQWRHGSWTPCSVSCGRGTQARYVSCRDALDRIADESYCAHLPQPAEIWDCFTPCGEWQAGDWSPCSASCGYGKTTRQVLCMNYHQPIDENYCDPEVRPLMEQECSLAACPPAHSHFPSSAVQPSYYLSTNLPLTHKLEDDENQVVLPSVRGNQWRTGPWGSCSSSCSGGLQRRAVVCQDENGQSASYCDATSKPPELQHCGPGPCPQWNYGNWGECSQTCGGGIKSRLVICQFPNGQILEDHNCEIVNKPPSVIQCHMHACPADVSWHQEPWTSCSASCGKGRKYREVFCIDQFQRKLEDTNCSQVQKPPTHKACRSVRCPSWKANSWNKCSMTCGSGVQQRDIYCRLKGVGRVVEEMCDQSTRPCSQRRCWSQDCVHHKGMERERLNCSTSCERKDSHHRTECTDSQIGQVNEIVYNSSTMSLTSKNCRNPPCNYIVVTADSSQCANNCGFSYRQRITYCTGIPSTKKHKLHRLQPIVYQECPVVPSSQVYKCINSCLHLATWKVGKWSKCSVTCGIGIMKRQVKCVTKHGLSSDLCLNHLKPGAQKKCYANDCKSFTTCEEIQVKNHIRKDGDYYLNIKGRIIKIHCADMHLENPKEYLTLVQGEENFSEVYGFRLKNPYQCPFNGSRREDCECDNGHLAAGYTVFSKIRIDLTSMQIKTTDLRFSKTIFGNAVPFATAGDCYSAVRCPQGQFSINLAGTGMKISNTAKWLAQGSYTSVSIRRSEDGTRFFGKCGGYCGKCLPHMTTGLPIQVI

Target ORF information:

RefSeq Version	XM_028828834.1
Organism	Macaca mulatta(Rhesus monkey)
Definition	Macaca mulatta ADAM metallopeptidase with thrombospondin type 1 motif 20 (ADAMTS20), transcript variant X1, mRNA.

Target ORF information:

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

XM_028828834.1

ORF Insert Sequence:

ATGCCGTTCA GAACCCACTA TCGCGTCACT GCCTACGGAC AGCTCTTCCA GCTGAACCTG 
ACCGCCGATG CATCCTTTCT GGCCGCCGGC TACACCGAAG TGCACTTGGG AGCCCCGGGA 
CGCGGGACCT GGGAGAGCGA CGCAGGGCCC TCAGACCTGC GCCACTGCTT CTACCGCGGC 
CAGGTTAACT CGCAGGAGGA TTACAAGGCC GTCGTAAGCT TATGTGGAGG CCTGACGGGA 
ACATTTAAAG GACATGACGG TGATTATTTC TTAGAACCTA TAATGAAGGC AGATGGGAAT 
GAGTATGAAG ATGGTCACAA CAAGCCACAT CTTATATACA GACAAGAATT AAATAACTCT 
TTTCTGCAAA CTCTGAAGTA TTGCAGTGTG TCAGAAAGTC AAATAAAGGA AACCAGTTTA 
CCCTTTCATA CCTACAGAAA CATGAATGAA GATCTTAATG TAATGAAAGA AAGAGTTTTA 
GGACACCCAT CAAAAAATGT ATCATTGAAA GATGAAAGAA GTCAATTACA TTCCAGGAAA 
AAACGTCTTA TATCATATCC AAGATATGTT GAAATTATGG TTACAGCTGA TGCTAAAGTG 
GTTTCTGCTC ATGGATCGAA TTTGCAAAAC TATATACTGA CTCTAATGTC AATTGTTGCA 
ACAATCTACA AAGATCCAAG TATTGGAAGT TTTATACACA TAGTAGTGGT AAAATTAGTT 
ATGATTCACC ACGAGGAGGA AGGGCCAGTC ATTAATTTTG ATGGTGCTAC CACATTAAAT 
AACTTTTGTT CATGGCAACA AACTCAGAAT GACGTTGATG ATGTTCACCC TTCCCACCAT 
GATGCTGCTA TTCTTATCAC TAGGGAAGAC ATTTGTTCAT CTAAAGAGAA ATGTAACATA 
TTAGGTTTAT CATACTTAGG TACCATATGT GATCCTTTAC AAAGCTGCTT TATTAATGAA 
GAAAAAGGAC TCATTTCTGC TTTTACTATA GCCCATGAAC TTGGGCACAC ACTTGGTGTT 
CAACATGATG ATACTCCTAG ATGTAGAGAA ATGAATGTTA CACAATATCA TGTAATGGCC 
CCTGTTTTAA GTTTTCACAT GAGTCCTTGG AGCTGGTCAA ACTGTAGTCG GAAATACATT 
ACTGAATTCC TAGATACTGG CTACGGGGAA TGTCTTCTTG ACAAACCAGA TGAAGAAATA 
TATAATCTGC CTTCAGAACT TCCTGGATCA CGATATGATG GAAACAAGCA GTGTGAACTT 
ACGTTTGGTC CTGGGTCACA AATGTGTCCC CATATAAATA TATGCATGCA TCTGTGGTGC 
ACAAGTGCAG AAAAGCTTCA CAAAGGCTGT TTCACTCAAC ATGTGCCACC AGCAGATGGA 
ACAGACTGTG GTCCTGGAAT GCATTGCCGC CGTGGGCTAT GTGTAAACAA AGAAATGGAA 
ACACGTCCTG TAAATGGTGA ATGGGGACCA TGGGAACCTT ACAGTTCTTG TTCAAGAACA 
TGTGGAGGTG GAATCGAAAG CTCAACCAGG CACTGTAATC GTCCTGAGCC AAGAAACGGA 
GGAAATTACT GTGTGGGCCG CAGGATGAAA TTTCGATCAT GTAATACTGA TTCATGTCCA 
AAAGGCACAC AAGACTTTCG AGAGAAGCAA TGCTCTGATT TTAATGGCAA ACATTTGGGC 
ATCAATGGCA TTCCCTCTAA TGTGAGGTGG CTTCCAAGAT ACAGTGGCAT TCGCACAAAA 
GATCGTTGTA AACTCTACTG TCAGGTTGCT GGAACCAATG ATTTCTACCT ATTGAAGTAT 
ATGGTTGAAG ATGGTACTCC TTGTGAAAAT GAAACTCATG ACATCTGTGT TCAAGGCCGG 
TGTATGGCAG CTGGTTGTGA TCACGTGTTA AACTCCAGTG CCAAGATAGA CAAATGTGGA 
GTGTGTGGTG GGGACAACTC TTCATGCAAG ACAATAACAG GTGTCTTCAA CAGTTCTCAT 
TATGGTTATA ATGTTGTTGT AAAGATTCCT GCAGGAGCAA CAAACATTGA CATTCGTCAG 
TACAGCTATT CTGGACAACC AGATGACAGT TACCTTGCAT TATCTGACGC TGAAGGGAAT 
TTTCTTTTCA ATGGAAATTT TGTTCTAAGT AGATCAAAGA AAGAAGTCAA TGTGCAAGGA 
ACAAGAACTG TTATTGAATA CAGTGGATCA AACAACTCAG TTGAAAGAAT TAATAGTACT 
AATCGACAAG AGAAAGAACT TATTTTGCAG GTGTTATGTG TGGGTAATTT ATACAACCCT 
GATGTACGTT ATTCCTTCAA TATCCCTTTG GAAGAGTGGA GCGAGCTGTT CACATGGGAC 
CCCTATGGAC CATGGGAAGG CTGTACCAAA ATGTGTCAAG GTCTTCAGCG AAGAAAAATA 
ACTTGCATAC ATAAGAGTGA TCATAGTGTT GTGTCTGATC AAAAATGTGA CCAATTGCCA 
CTTCCATCAT TTGTTACTCA AAGTTGCAAT ACAGACTGTG AACTAAGGTG GCATGTTACT 
GGCAAAAGTG AATGTTCAAC CCAATGTGGT CAAGGATATA GAACCTTGGA CATCCATTGC 
ATGAAGTATT CCATTCATAA AGGACAGACT GTTCAAGTGG ATGACCACTA CTGTGGTGAC 
CAACTTAAAC CTCCTACCCG AGAACTATGC CGTGGTAACT GTGTCTTCAC AAGATGGCAT 
TTTTCAGAAT GGTCTCAGTG TTCCAGGAGT TGTGGAGGAG GGGAAAGGTC TCGAGAATCT 
TATTGTATGA ATAACTTTGG CCATCGTCTT GCTGACAATG AATGCGAAGA ACTGTCCCGA 
GTGACGAGAG AGAATTGCAA TGAATTTTCC TGTCCCAGTT GGGCTGCTAG TGAATGGAGC 
GAGTGCCTTG TTACATGTGG TAAAGGAATA AAGCAGCGGC AGGTATGGTG TCAGCTGAAT 
GAAGATCACT TGAGTGATGG CTTCTGTAAC TCAAGTACCA AACCTGAATC TCTGAGTCCA 
TGTGAACTTC ATACATGTGC TTCCTGGCAA GTAGGACCAT GGGGTCCTTG CACAACCACA 
TGTGGACATG GGTATCAGAT GCGAGATGTT AAATGTGTCA ATGAGCTAGT TAGTGCAGTG 
TTAGAAGACA CAGAATGCCA TGAAGCTAGT CGCCCCAGCG ACAGACAGAA CTGTGTACTT 
ACACCTTGCC CATTTATTTC TAAACTTAAG ACCACTTCAT TACCAACTGC TCTCATAGAA 
AAGATGGCAC AATGGCGACA TGGTTCTTGG ACCCCATGCT CCGTATCTTG TGGAAGAGGT 
ACTCAAGCCC GCTATGTAAG CTGTCGTGAT GCTCTTGATA GAATAGCAGA TGAATCATAT 
TGTGCCCACT TACCCCAACC TGCTGAAATA TGGGACTGTT TTACCCCTTG TGGAGAGTGG 
CAAGCAGGGG ATTGGTCACC CTGTTCAGCT TCCTGTGGCT ATGGAAAAAC AACTCGACAA 
GTTTTATGCA TGAACTACCA TCAGCCAATT GATGAGAATT ACTGTGATCC TGAAGTTCGC 
CCCTTGATGG AACAGGAATG TAGCCTAGCA GCCTGCCCGC CTGCACACAG CCACTTTCCT 
AGTTCTGCTG TGCAACCAAG CTATTATCTA AGCACGAATT TGCCATTAAC TCACAAACTT 
GAAGATGATG AAAATCAGGT GGTCCTTCCA TCAGTCAGAG GAAACCAGTG GAGAACCGGA 
CCGTGGGGAT CATGCTCTAG CAGTTGTTCT GGAGGACTTC AGCGTAGGGC TGTGGTCTGC 
CAGGATGAAA ATGGACAAAG TGCTAGTTAC TGCGATGCAA CCTCCAAGCC TCCAGAGTTA 
CAGCACTGTG GTCCAGGGCC TTGTCCACAG TGGAACTACG GAAATTGGGG AGAATGTTCA 
CAAACATGTG GAGGAGGAAT AAAATCAAGA CTTGTAATAT GTCAATTTCC CAATGGCCAA 
ATATTAGAAG ATCACAACTG TGAAATCGTA AACAAGCCAC CTAGTGTAAT ACAGTGTCAT 
ATGCATGCTT GCCCTGCTGA TGTGTCATGG CATCAGGAAC CATGGACATC GTGCTCAGCC 
TCTTGTGGTA AAGGTAGAAA GTACCGTGAA GTGTTTTGCA TTGACCAATT CCAAAGGAAA 
TTAGAAGACA CAAATTGCAG TCAAGTACAG AAACCTCCAA CTCACAAAGC CTGTAGATCT 
GTCAGATGCC CTTCATGGAA AGCCAATAGC TGGAATAAGT GCTCTATGAC CTGCGGCTCT 
GGAGTTCAGC AGAGGGATAT ATACTGCAGA CTGAAAGGTG TTGGTCGGGT GGTTGAAGAA 
ATGTGTGATC AGTCCACCCG ACCTTGTTCT CAGAGGCGAT GTTGGAGTCA GGACTGTGTG 
CACCACAAGG GGATGGAAAG AGAGAGGCTG AATTGTTCAA CATCATGTGA GAGAAAAGAT 
TCACATCACC GAACGGAGTG CACAGATAGC CAAATTGGAC AAGTGAATGA AATAGTCTAT 
AATTCTTCAA CCATGTCTCT TACATCTAAG AATTGCAGGA ACCCTCCTTG CAATTACATT 
GTGGTAACAG CAGACTCATC ACAGTGTGCA AACAACTGTG GATTTAGTTA CAGACAAAGG 
ATTACATATT GCACTGGGAT CCCATCTACT AAGAAACATA AGCTCCATCG ACTTCAGCCT 
ATAGTCTATC AAGAATGCCC TGTGGTGCCT TCCTCTCAGG TTTACAAATG CATTAACAGC 
TGTTTGCATT TGGCCACTTG GAAAGTTGGA AAATGGAGCA AGTGCTCAGT GACTTGTGGA 
ATTGGGATAA TGAAGAGACA AGTGAAATGC GTTACCAAAC ATGGTTTGTC CAGTGACTTA 
TGTTTAAATC ATTTAAAACC AGGTGCTCAA AAGAAATGCT ATGCCAATGA CTGTAAATCA 
TTTACCACCT GCGAAGAAAT TCAAGTGAAA AACCACATTA GAAAGGATGG TGACTATTAC 
CTTAACATTA AGGGAAGAAT AATAAAGATT CATTGTGCAG ACATGCACTT GGAGAACCCT 
AAGGAATATT TGACACTGGT CCAAGGTGAA GAAAACTTTT CTGAAGTGTA TGGCTTTAGA 
CTAAAAAATC CATATCAATG TCCTTTTAAT GGGAGTAGGA GGGAAGACTG CGAATGTGAC 
AATGGACACC TAGCTGCTGG ATACACTGTT TTCAGCAAAA TAAGAATTGA TCTCACTTCC 
ATGCAAATTA AAACTACAGA CCTTCGTTTT TCCAAAACAA TATTTGGAAA TGCAGTTCCA 
TTTGCCACAG CTGGAGATTG CTACAGTGCT GTCAGATGCC CACAGGGACA GTTTAGCATT 
AATTTAGCAG GAACTGGGAT GAAGATATCC AACACAGCAA AGTGGCTTGC TCAGGGGAGT 
TATACCTCTG TCAGCATACG GAGATCAGAG GATGGAACCA GATTTTTCGG CAAGTGTGGA 
GGGTACTGTG GAAAGTGTCT TCCTCACATG ACTACTGGTC TCCCAATTCA AGTCATATGA

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

PubMed

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オンライン注文

ADAMTS20 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:

見積依頼

Eメール

電話

FAX

オンラインフォーム

サポート

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