ADAMTS3 cDNA ORF clone, Manacus vitellinus(golden-collared manakin)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAMTS3
Entrez Gene ID	103762616
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif 3
Gene Type	protein-coding
Organism	Manacus vitellinus(golden-collared manakin)

mRNA and Protein(s)

mRNA	Protein	Name
XM_025896315.1	XP_025752100.1	A disintegrin and metalloproteinase with thrombospondin motifs 3
XM_029964514.1	XP_029820374.1	A disintegrin and metalloproteinase with thrombospondin motifs 3
XM_018084633.1	XP_017940122.1	A disintegrin and metalloproteinase with thrombospondin motifs 3

Pathways from BioSystems
Gene Ontology

The following ADAMTS3 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAMTS3 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)
OMa215123	XM_018084633.1 Latest version!	Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$713.30 $1019.00
OMa386996	XM_025896315.1 Latest version!	Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$559.30 $799.00
OMa461670	XM_029964514.1 Latest version!	Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$727.30 $1039.00

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)

ADAMTS3 ( XM_018084633.1 ) cDNA ORF clone, Manacus vitellinus(golden-collared manakin) -> XP_017940122.1 Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.

Price & Availability↑

CloneID	OMa215123
Clone ID Related Accession (Same CDS sequence)	XM_018084633.1
Accession Version	XM_018084633.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3549bp) 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	2016-09-07
Organism	Manacus vitellinus(golden-collared manakin)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_017220238.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Manacus vitellinus Annotation Release 101 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 7.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGATCCTG ATCAGTGGTT TGGGCTGGTA AGAAAGAGAA GCCGAAGTCA TCCATTAATC 
CCCAGGCCAA GTCCTATTGA AGCAGCTGCA GTGAAAGCTC TCACACGCTG CCCTGGAAAT 
AACCCCGGCT GTGACGTGGC TGCTAAAGAA CAGCAGATCC AAATAGAATT CCGAAAAAGC 
AGGCCGAGGC CGTACGGTTT AGTGATTCCC ATTAGCACCA ATGCAGATGG AAGCTACAGC 
TCCAACATCC TCTCTGCGAG TCACCAGCGG CGAGCGCCGC GGGAGGTGTC CCAGAGCCCC 
AGACAGCTCT ACTTCAACGT CACTGCCTTC GGGAGGGAAT TCCACCTCCG GCTGAAGCCC 
AACACTCGCC TGCTGGCTCC CGAGGCCGTG GTGGAGTGGT ACGAAGACTC TGTGCAAACT 
GGGAGCGATG GTGGTAACGC GAGTCACGCT GGGACTGCTA CGGAGCGCTT GTGGAAGAGG 
GAGCCCCTGT GGACCAACTG CGCCTACGTG GGGGACATCA CGGACATCCC CGGAGCTGCG 
GTGGCCATCA GCAACTGTGA CGGGCTGGCT GGAATGATAA GAACTGATGA GGATGAATAC 
TTCATCGAGC CCTTGGAAAG AGGAAAGCAA ATGGAAGAGG AGAAGGGAAG GATCCACATG 
GTGTACCGGC GGTCGGCGGT AGCGCAGCAT CCGCCTGACG TGCTCCCTGA TGTCCACACA 
GAAGGGTCCC TCCTGGGGGC ACTGAGTTCC CTGCACGGCC ACGTGGAGCA GCAGCTGAAC 
GAGACCCTGC GGCGGCGCCG GCATGCGGGA GATGACGACC ACAACATCGA GGTGCTGCTG 
GGGGTGGACG ACTCCGTCGT CAGATTCCAC GGCAAAGAAC ACGTCCAAAA CTACCTCCTC 
ACCCTCATGA ACATCGTGAA TGAGATTTAC CACGACGAGT CCCTGGGCGT TCACATCAAC 
GTCGTGCTGG TCCGAATGAT CATGTTGGGG TACGCAAAGT CCATCAGCCT GATCGAAAGG 
GGGAACCCCT CGCGCAGCCT GGAGAACGTG TGCCGCTGGG CCTATCAGCA GCAGAAGGCG 
GACCCCGGCC ACGCCGAGCA CCACGACCAT GCCATCTTCT TAACCAGGCA AGATTTTGGG 
CCCGCTGGTA TGCAAGGATA CGCTCCTGTG ACGGGCATGT GCCACCCGGT CCGGAGCTGC 
ACCCTCAACC ACGAGGACGG GTTTTCGTCA GCCTTTGTTG TTGCTCATGA GACTGGGCAC 
GTGCTGGGCA TGGAGCACGA CGGGCAAGGG AACAGATGTG GGGACGAGAC GGCGATGGGC 
AGTGTCATGG CCCCCTTGGT GCAGGCCGCC TTCCACCGCT ACCACTGGTC CCGCTGCAGC 
GGCCAGGAGC TCAGGAGATA CATCCACTCT TACGACTGTC TGCTCGACGA CCCTTTCGAG 
CACGACTGGC CCAAGCTTCC TGAGCTGCCA GGCATCAACT ATTCCATGGA CGAGCAGTGC 
CGCTTCGACT TCGGTGTGGG CTACAGGATG TGCACAGCGT TCCGAACCTT TGATCCGTGC 
AAGCAGCTGT GGTGCAGCCA CCCCGACAAC CCCTATTTCT GCAAGACCAA GAAAGGACCT 
CCCCTCGACG GCACGGAATG TGCCCCTGGA AAATGGTGCT ACAAAGGTCA CTGCATGTGG 
AAGAACACCA ACCAGCTGAA GCAGGATGGA CACTGGGGAC CCTGGACCAA GTTTGGCTCC 
TGCTCCCGGA CCTGTGGAAC TGGGGTTCGC TTCCGCACGC GCCAGTGCAA CAACCCAATG 
CCCATCAACG GAGGTGACGA CTGCGCCGGG GTCAATTTTG AGTTCCAGCT GTGCAGCACC 
GAGGAGTGTC CGAAGCACTT TGAGGACTTC AGGGCACAGC AGTGCCAGCA GCGCAATTCC 
CACCTGGAGT TCCGGGGCAG CCGGCACCAC TGGCTGCCCT ACGAGCACCC CGACCCTCCC 
AAGAGATGTC ACCTGTACTG CCAGTCCAGG GAAACCGGGG ATGTGGCTCA CATGAAGCAG 
CCGGTGCATG ATGGGACTCG CTGCTCCTAC AAGGATCCCT ACAGCATCTG TGTCCGTGGG 
GAATGTGTGA AAGTGGGCTG TGACAAGGAA ATTGGCTCCA ACAAGGCCGA GGATCAGTGC 
GGGGTCTGCG GCGGGGATGA CTCCCACTGC CGGACCGTGA AGGGGACCTT CACCCGCACT 
CCCAAAAAGC TGGGAAAACA TTTAAGCAAG AAGTGCCAAA AAGAGTTTGA GTTTCTGGAA 
AATGAAATCT GGAAGAGCAG AGGATCCCTT CCCTTGCCCA GAGGAGGTCA CAGTGTTCCC 
CTGTCTGGGA CAAAGGAGGC AGAAAACACA CTGGGGTACC TTAAGATGTT TGATATCCCT 
CCTGGGGCTC GACATGTGTT TATCCAAGAA GACGAGGCCT CTCCTCACTT CCTTGCAATC 
AAGAACCAGG CTACAGGACA CTATATCCTG AATGGGAAAG GGGAGGAGGC CAGATCCCGA 
TCCTTCATCG ACCTGGGCGT GCAGTGGGAA TACAGCATCG AGGACGACAT CGAAACGCTG 
CACACGGACG GGCCTCTGCA CGACGCCGTG GTGGTGCTGA TCATTCCTCG GGAGAACGAC 
ACCAGATCCA GCCTGACTTA CAAATACATC ATCCACGAGG ATTCGGTGCC GACCATCCAC 
AGCAACAACG TGCTGCGGGA GGACACGGAC ACCTTTGAGT GGGCCTTGAA GAGCTGGTCC 
CAGTGCTCCA AACCCTGTGG TGGAGATGCC AAGTTCTGCA GCGGGGATCG CCCTGAGAGC 
CGCCGGTCCT GCAACCGGGC ACCGTGTCCT GCGCCTTGGA AAGCTGGACC CTGGTCCCAG 
TGCTCAGTGA CCTGCGGGGA GGGGACTGAG AGCCGGCAGG TCCTGTGCCG TGCTGGGGAC 
CGGTGCGACG GGGAGCGGCC CGAGTCCGTG AGGGTTTGCC AGCTCGCTCC CTGTGATGAC 
GAGCCCTGCC TGGGAGACAA ATCCATCTTC TGTCAGATGG AAGTGCTGGC CCGGTACTGC 
TCCATCCCTG GCTACCACAA GCTGTGCTGT GAATCCTGCG GGCAGCGCAG CAGCACCTTC 
CCACCTCCCA GAGCTGCCGG GACCGAGAGG GACACACCGT TGGATCCGGG CAGCCTGCCG 
AGGGCTCCGC CAGTGCCCAC CCCTGCGGTG CCCCCCCGGG CTCAGCTCCT GCCCAGGAGC 
AGTTCCCTGG GCCGGCCGCC TCCAGCGACA GAGGAGGCTG AGTGGCACAT CCCACCCTCC 
AGCCCCGAGC CTAAAGGCAC CGGTGTTCCA CACCGGAGAG CTCCTCCAGC TGGGAAGACT 
TCCCGGCTCT TGGCTTTGCT GCACCAGGCC CCTGCCAACA GTAGCAGCCT TGGTCCTCGC 
AGGGCTCTGC CTCCAGTGCC AGTGGAGAAC ATGGCAGCAG GGGCTCCTGC GCCAGCCAGG 
ACCTCCGGGA ACAGCGAGGA GCTCCTTGGG AAGCGATGGC CTCCAAGGGC TGGCCCTGTG 
GATCGATGA

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

RefSeq	XP_017940122.1
CDS	1..3549
Translation	MDPDQWFGLVRKRSRSHPLIPRPSPIEAAAVKALTRCPGNNPGCDVAAKEQQIQIEFRKSRPRPYGLVIPISTNADGSYSSNILSASHQRRAPREVSQSPRQLYFNVTAFGREFHLRLKPNTRLLAPEAVVEWYEDSVQTGSDGGNASHAGTATERLWKREPLWTNCAYVGDITDIPGAAVAISNCDGLAGMIRTDEDEYFIEPLERGKQMEEEKGRIHMVYRRSAVAQHPPDVLPDVHTEGSLLGALSSLHGHVEQQLNETLRRRRHAGDDDHNIEVLLGVDDSVVRFHGKEHVQNYLLTLMNIVNEIYHDESLGVHINVVLVRMIMLGYAKSISLIERGNPSRSLENVCRWAYQQQKADPGHAEHHDHAIFLTRQDFGPAGMQGYAPVTGMCHPVRSCTLNHEDGFSSAFVVAHETGHVLGMEHDGQGNRCGDETAMGSVMAPLVQAAFHRYHWSRCSGQELRRYIHSYDCLLDDPFEHDWPKLPELPGINYSMDEQCRFDFGVGYRMCTAFRTFDPCKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCYKGHCMWKNTNQLKQDGHWGPWTKFGSCSRTCGTGVRFRTRQCNNPMPINGGDDCAGVNFEFQLCSTEECPKHFEDFRAQQCQQRNSHLEFRGSRHHWLPYEHPDPPKRCHLYCQSRETGDVAHMKQPVHDGTRCSYKDPYSICVRGECVKVGCDKEIGSNKAEDQCGVCGGDDSHCRTVKGTFTRTPKKLGKHLSKKCQKEFEFLENEIWKSRGSLPLPRGGHSVPLSGTKEAENTLGYLKMFDIPPGARHVFIQEDEASPHFLAIKNQATGHYILNGKGEEARSRSFIDLGVQWEYSIEDDIETLHTDGPLHDAVVVLIIPRENDTRSSLTYKYIIHEDSVPTIHSNNVLREDTDTFEWALKSWSQCSKPCGGDAKFCSGDRPESRRSCNRAPCPAPWKAGPWSQCSVTCGEGTESRQVLCRAGDRCDGERPESVRVCQLAPCDDEPCLGDKSIFCQMEVLARYCSIPGYHKLCCESCGQRSSTFPPPRAAGTERDTPLDPGSLPRAPPVPTPAVPPRAQLLPRSSSLGRPPPATEEAEWHIPPSSPEPKGTGVPHRRAPPAGKTSRLLALLHQAPANSSSLGPRRALPPVPVENMAAGAPAPARTSGNSEELLGKRWPPRAGPVDR

Target ORF information:

RefSeq Version	XM_018084633.1
Organism	Manacus vitellinus(golden-collared manakin)
Definition	Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.

Target ORF information:

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

XM_018084633.1

ORF Insert Sequence:

ATGGATCCTG ATCAGTGGTT TGGGCTGGTA AGAAAGAGAA GCCGAAGTCA TCCATTAATC 
CCCAGGCCAA GTCCTATTGA AGCAGCTGCA GTGAAAGCTC TCACACGCTG CCCTGGAAAT 
AACCCCGGCT GTGACGTGGC TGCTAAAGAA CAGCAGATCC AAATAGAATT CCGAAAAAGC 
AGGCCGAGGC CGTACGGTTT AGTGATTCCC ATTAGCACCA ATGCAGATGG AAGCTACAGC 
TCCAACATCC TCTCTGCGAG TCACCAGCGG CGAGCGCCGC GGGAGGTGTC CCAGAGCCCC 
AGACAGCTCT ACTTCAACGT CACTGCCTTC GGGAGGGAAT TCCACCTCCG GCTGAAGCCC 
AACACTCGCC TGCTGGCTCC CGAGGCCGTG GTGGAGTGGT ACGAAGACTC TGTGCAAACT 
GGGAGCGATG GTGGTAACGC GAGTCACGCT GGGACTGCTA CGGAGCGCTT GTGGAAGAGG 
GAGCCCCTGT GGACCAACTG CGCCTACGTG GGGGACATCA CGGACATCCC CGGAGCTGCG 
GTGGCCATCA GCAACTGTGA CGGGCTGGCT GGAATGATAA GAACTGATGA GGATGAATAC 
TTCATCGAGC CCTTGGAAAG AGGAAAGCAA ATGGAAGAGG AGAAGGGAAG GATCCACATG 
GTGTACCGGC GGTCGGCGGT AGCGCAGCAT CCGCCTGACG TGCTCCCTGA TGTCCACACA 
GAAGGGTCCC TCCTGGGGGC ACTGAGTTCC CTGCACGGCC ACGTGGAGCA GCAGCTGAAC 
GAGACCCTGC GGCGGCGCCG GCATGCGGGA GATGACGACC ACAACATCGA GGTGCTGCTG 
GGGGTGGACG ACTCCGTCGT CAGATTCCAC GGCAAAGAAC ACGTCCAAAA CTACCTCCTC 
ACCCTCATGA ACATCGTGAA TGAGATTTAC CACGACGAGT CCCTGGGCGT TCACATCAAC 
GTCGTGCTGG TCCGAATGAT CATGTTGGGG TACGCAAAGT CCATCAGCCT GATCGAAAGG 
GGGAACCCCT CGCGCAGCCT GGAGAACGTG TGCCGCTGGG CCTATCAGCA GCAGAAGGCG 
GACCCCGGCC ACGCCGAGCA CCACGACCAT GCCATCTTCT TAACCAGGCA AGATTTTGGG 
CCCGCTGGTA TGCAAGGATA CGCTCCTGTG ACGGGCATGT GCCACCCGGT CCGGAGCTGC 
ACCCTCAACC ACGAGGACGG GTTTTCGTCA GCCTTTGTTG TTGCTCATGA GACTGGGCAC 
GTGCTGGGCA TGGAGCACGA CGGGCAAGGG AACAGATGTG GGGACGAGAC GGCGATGGGC 
AGTGTCATGG CCCCCTTGGT GCAGGCCGCC TTCCACCGCT ACCACTGGTC CCGCTGCAGC 
GGCCAGGAGC TCAGGAGATA CATCCACTCT TACGACTGTC TGCTCGACGA CCCTTTCGAG 
CACGACTGGC CCAAGCTTCC TGAGCTGCCA GGCATCAACT ATTCCATGGA CGAGCAGTGC 
CGCTTCGACT TCGGTGTGGG CTACAGGATG TGCACAGCGT TCCGAACCTT TGATCCGTGC 
AAGCAGCTGT GGTGCAGCCA CCCCGACAAC CCCTATTTCT GCAAGACCAA GAAAGGACCT 
CCCCTCGACG GCACGGAATG TGCCCCTGGA AAATGGTGCT ACAAAGGTCA CTGCATGTGG 
AAGAACACCA ACCAGCTGAA GCAGGATGGA CACTGGGGAC CCTGGACCAA GTTTGGCTCC 
TGCTCCCGGA CCTGTGGAAC TGGGGTTCGC TTCCGCACGC GCCAGTGCAA CAACCCAATG 
CCCATCAACG GAGGTGACGA CTGCGCCGGG GTCAATTTTG AGTTCCAGCT GTGCAGCACC 
GAGGAGTGTC CGAAGCACTT TGAGGACTTC AGGGCACAGC AGTGCCAGCA GCGCAATTCC 
CACCTGGAGT TCCGGGGCAG CCGGCACCAC TGGCTGCCCT ACGAGCACCC CGACCCTCCC 
AAGAGATGTC ACCTGTACTG CCAGTCCAGG GAAACCGGGG ATGTGGCTCA CATGAAGCAG 
CCGGTGCATG ATGGGACTCG CTGCTCCTAC AAGGATCCCT ACAGCATCTG TGTCCGTGGG 
GAATGTGTGA AAGTGGGCTG TGACAAGGAA ATTGGCTCCA ACAAGGCCGA GGATCAGTGC 
GGGGTCTGCG GCGGGGATGA CTCCCACTGC CGGACCGTGA AGGGGACCTT CACCCGCACT 
CCCAAAAAGC TGGGAAAACA TTTAAGCAAG AAGTGCCAAA AAGAGTTTGA GTTTCTGGAA 
AATGAAATCT GGAAGAGCAG AGGATCCCTT CCCTTGCCCA GAGGAGGTCA CAGTGTTCCC 
CTGTCTGGGA CAAAGGAGGC AGAAAACACA CTGGGGTACC TTAAGATGTT TGATATCCCT 
CCTGGGGCTC GACATGTGTT TATCCAAGAA GACGAGGCCT CTCCTCACTT CCTTGCAATC 
AAGAACCAGG CTACAGGACA CTATATCCTG AATGGGAAAG GGGAGGAGGC CAGATCCCGA 
TCCTTCATCG ACCTGGGCGT GCAGTGGGAA TACAGCATCG AGGACGACAT CGAAACGCTG 
CACACGGACG GGCCTCTGCA CGACGCCGTG GTGGTGCTGA TCATTCCTCG GGAGAACGAC 
ACCAGATCCA GCCTGACTTA CAAATACATC ATCCACGAGG ATTCGGTGCC GACCATCCAC 
AGCAACAACG TGCTGCGGGA GGACACGGAC ACCTTTGAGT GGGCCTTGAA GAGCTGGTCC 
CAGTGCTCCA AACCCTGTGG TGGAGATGCC AAGTTCTGCA GCGGGGATCG CCCTGAGAGC 
CGCCGGTCCT GCAACCGGGC ACCGTGTCCT GCGCCTTGGA AAGCTGGACC CTGGTCCCAG 
TGCTCAGTGA CCTGCGGGGA GGGGACTGAG AGCCGGCAGG TCCTGTGCCG TGCTGGGGAC 
CGGTGCGACG GGGAGCGGCC CGAGTCCGTG AGGGTTTGCC AGCTCGCTCC CTGTGATGAC 
GAGCCCTGCC TGGGAGACAA ATCCATCTTC TGTCAGATGG AAGTGCTGGC CCGGTACTGC 
TCCATCCCTG GCTACCACAA GCTGTGCTGT GAATCCTGCG GGCAGCGCAG CAGCACCTTC 
CCACCTCCCA GAGCTGCCGG GACCGAGAGG GACACACCGT TGGATCCGGG CAGCCTGCCG 
AGGGCTCCGC CAGTGCCCAC CCCTGCGGTG CCCCCCCGGG CTCAGCTCCT GCCCAGGAGC 
AGTTCCCTGG GCCGGCCGCC TCCAGCGACA GAGGAGGCTG AGTGGCACAT CCCACCCTCC 
AGCCCCGAGC CTAAAGGCAC CGGTGTTCCA CACCGGAGAG CTCCTCCAGC TGGGAAGACT 
TCCCGGCTCT TGGCTTTGCT GCACCAGGCC CCTGCCAACA GTAGCAGCCT TGGTCCTCGC 
AGGGCTCTGC CTCCAGTGCC AGTGGAGAAC ATGGCAGCAG GGGCTCCTGC GCCAGCCAGG 
ACCTCCGGGA ACAGCGAGGA GCTCCTTGGG AAGCGATGGC CTCCAAGGGC TGGCCCTGTG 
GATCGATGA

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

ADAMTS3 ( XM_025896315.1 ) cDNA ORF clone, Manacus vitellinus(golden-collared manakin) -> XP_025752100.1 Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.

Price & Availability↑

CloneID	OMa386996
Clone ID Related Accession (Same CDS sequence)	XM_025896315.1
Accession Version	XM_025896315.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3408bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2018-07-24
Organism	Manacus vitellinus(golden-collared manakin)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_020340938.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Manacus vitellinus Annotation Release 102 Annotation Version :: 102 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.1 Annotation Method :: Best-placed RefSeq; Gnomon Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END## ##RefSeq-Attributes-START## ab initio :: 1% of CDS bases ##RefSeq-Attributes-END##

ATGGATCCTG ATCAGTGGTT TGGGCTGGTA AGAAAGAGAA GCCGAAGTCA TCCATTAATC 
CCCAGGCCAA GTCCTATTGA AGCAGCTGCA GTGAAAGCTC TCACACGCTG CCCTGGAAAT 
AACCCCGGCT GTGACGTGGC TGCTAAAGAA CAGCAGATCC AAATAGAATT CCGAAAAAGC 
AGGCCGAGGC CGTACGGTTT AGTGATTCCC ATTAGCACCA ATGCAGATGG AAGCTACAGC 
TCCAACATCC TCTCTGCGAG TCACCAGCGG CGAGCGCCGC GGGAGGTGTC CCAGAGCCCC 
AGACAGCTCT ACTTCAACGT CACTGCCTTC GGGAGGGAAT TCCACCTCCG GCTGAAGCCC 
AACACTCGCC TGCTGGCTCC CGAGGCCGTG GTGGAGTGGT ACGAAGACTC TGTGCAAACT 
GGGAGCGATG GTGGTAACGC GAGTCACGCT GGGACTGCTA CGGAGCGCTT GTGGAAGAGG 
GAGCCCCTGT GGACCAACTG CGCCTACGTG GGGGACATCA CGGACATCCC CGGAGCTGCG 
GTGGCCATCA GCAACTGTGA CGGGCTGGCT GGAATGATAA GAACTGATGA GGATGAATAC 
TTCATCGAGC CCTTGGAAAG AGGAAAGCAA ATGGAAGAGG AGAAGGGAAG GATCCACATG 
GTGTACCGGC GGTCGGCGGT AGCGCAGCAT CCGCCTGACG TGCTCCCTGA TGTCCACACA 
GAAGGGTCCC TCCTGGGGGC ACTGAGTTCC CTGCACGGCC ACGTGGAGCA GCAGCTGAAC 
GAGACCCTGC GGCGGCGCCG GCATGCGGGA GATGACGACC ACAACATCGA GGTGCTGCTG 
GGGGTGGACG ACTCCGTCGT CAGATTCCAC GGCAAAGAAC ACGTCCAAAA CTACCTCCTC 
ACCCTCATGA ACATCGTGAA TGAGATTTAC CACGACGAGT CCCTGGGCGT TCACATCAAC 
GTCGTGCTGG TCCGAATGAT CATGTTGGGG TACGCAAAGT CCATCAGCCT GATCGAAAGG 
GGGAACCCCT CGCGCAGCCT GGAGAACGTG TGCCGCTGGG CCTATCAGCA GCAGAAGGCG 
GACCCCGGCC ACGCCGAGCA CCACGACCAT GCCATCTTCT TAACCAGGCA AGATTTTGGG 
CCCGCTGGTA TGCAAGGATA CGCTCCTGTG ACGGGCATGT GCCACCCGGT CCGGAGCTGC 
ACCCTCAACC ACGAGGACGG GTTTTCGTCA GCCTTTGTTG TTGCTCATGA GACTGGGCAC 
GTGCTGGGCA TGGAGCACGA CGGGCAAGGG AACAGATGTG GGGACGAGAC GGCGATGGGC 
AGTGTCATGG CCCCCTTGGT GCAGGCCGCC TTCCACCGCT ACCACTGGTC CCGCTGCAGC 
GGCCAGGAGC TCAGGAGATA CATCCACTCT TACGACTGTC TGCTCGACGA CCCTTTCGAG 
CACGACTGGC CCAAGCTTCC TGAGCTGCCA GGCATCAACT ATTCCATGGA CGAGCAGTGC 
CGCTTCGACT TCGGTGTGGG CTACAGGATG TGCACAGCGT TCCGAACCTT TGATCCGTGC 
AAGCAGCTGT GGTGCAGCCA CCCCGACAAC CCCTATTTCT GCAAGACCAA GAAAGGACCT 
CCCCTCGACG GCACGGAATG TGCCCCTGGA AAATGGTGCT ACAAAGGTCA CTGCATGTGG 
AAGAACACCA ACCAGCTGAA GCAGGATGGA CACTGGGGAC CCTGGACCAA GTTTGGCTCC 
TGCTCCCGGA CCTGTGGAAC TGGGGTTCGC TTCCGCACGC GCCAGTGCAA CAACCCAATG 
CCCATCAACG GAGGTGACGA CTGCGCCGGG GTCAATTTTG AGTTCCAGCT GTGCAGCACC 
GAGGAGTGTC CGAAGCACTT TGAGGACTTC AGGGCACAGC AGTGCCAGCA GCGCAATTCC 
CACCTGGAGT TCCGGGGCAG CCGGCACCAC TGGCTGCCCT ACGAGCACCC CGACCCTCCC 
AAGAGATGTC ACCTGTACTG CCAGTCCAGG GAAACCGGGG ATGTGGCTCA CATGAAGCAG 
CCGGTGCATG ATGGGACTCG CTGCTCCTAC AAGGATCCCT ACAGCATCTG TGTCCGTGGG 
GAATGTGTGA AAGTGGGCTG TGACAAGGAA ATTGGCTCCA ACAAGGCCGA GGATCAGTGC 
GGGGTCTGCG GCGGGGATGA CTCCCACTGC CGGACCGTGA AGGGGACCTT CACCCGCACT 
CCCAAAAAGC TCGGGTACCT TAAGATGTTT GATATCCCTC CTGGGGCTCG ACATGTGTTT 
ATCCAAGAAG ACGAGGCCTC TCCTCACTTC CTTGCAATCA AGAACCAGGC TACAGGACAC 
TATATCCTGA ATGGGAAAGG GGAGGAGGCC AGATCCCGAT CCTTCATCGA CCTGGGCGTG 
CAGTGGGAAT ACAGCATCGA GGACGACATC GAAACGCTGC ACACGGACGG GCCTCTGCAC 
GACGCCGTGG TGGTGCTGAT CATTCCTCGG GAGAACGACA CCAGATCCAG CCTGACTTAC 
AAATACATCA TCCACGAGGA TTCGGTGCCG ACCATCCACA GCAACAACGT GCTGCGGGAG 
GACACGGACA CCTTTGAGTG GGCCTTGAAG AGCTGGTCCC AGTGCTCCAA ACCCTGTGGT 
GGAGATGCCA AGTTCTGCAG CGGGGATCGC CCTGAGAGCC GCCGGTCCTG CAACCGGGCA 
CCGTGTCCTG CGCCTTGGAA AGCTGGACCC TGGTCCCAGT GCTCAGTGAC CTGCGGGGAG 
GGGACTGAGA GCCGGCAGGT CCTGTGCCGT GCTGGGGACC GGTGCGACGG GGAGCGGCCC 
GAGTCCGTGA GGGTTTGCCA GCTCGCTCCC TGTGATGACG AGCCCTGCCT GGGAGACAAA 
TCCATCTTCT GTCAGATGGA AGTGCTGGCC CGGTACTGCT CCATCCCTGG CTACCACAAG 
CTGTGCTGTG AATCCTGCGG GCAGCGCAGC AGCACCTTCC CACCTCCCAG AGCTGCCGGG 
ACCGAGAGGG ACACACCGTT GGATCCGGGC AGCCTGCCGA GGGCTCCGCC AGTGCCCACC 
CCTGCGGTGC CCCCCCGGGC TCAGCTCCTG CCCAGGAGCA GTTCCCTGGG CCGGCCGCCT 
CCAGCGACAG AGGAGGCTGA GTGGCACATC CCACCCTCCA GCCCCGAGCC TAAAGGCACC 
GGTGTTCCAC ACCGGAGAGC TCCTCCAGCT GGGAAGACTT CCCGGCTCTT GGCTTTGCTG 
CACCAGGCCC CTGCCAACAG TAGCAGCCTT GGTCCTCGCA GGGCTCTGCC TCCAGTGCCA 
GTGGAGAACA TGGCAGCAGG GGCTCCTGCG CCAGCCAGGA CCTCCGGGAA CAGCGAGGAG 
CTCCTTGGGA AGCGATGGCC TCCAAGGGCT GGCCCTGTGG ATCGATGA

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

RefSeq	XP_025752100.1
CDS	1..3408
Translation	MDPDQWFGLVRKRSRSHPLIPRPSPIEAAAVKALTRCPGNNPGCDVAAKEQQIQIEFRKSRPRPYGLVIPISTNADGSYSSNILSASHQRRAPREVSQSPRQLYFNVTAFGREFHLRLKPNTRLLAPEAVVEWYEDSVQTGSDGGNASHAGTATERLWKREPLWTNCAYVGDITDIPGAAVAISNCDGLAGMIRTDEDEYFIEPLERGKQMEEEKGRIHMVYRRSAVAQHPPDVLPDVHTEGSLLGALSSLHGHVEQQLNETLRRRRHAGDDDHNIEVLLGVDDSVVRFHGKEHVQNYLLTLMNIVNEIYHDESLGVHINVVLVRMIMLGYAKSISLIERGNPSRSLENVCRWAYQQQKADPGHAEHHDHAIFLTRQDFGPAGMQGYAPVTGMCHPVRSCTLNHEDGFSSAFVVAHETGHVLGMEHDGQGNRCGDETAMGSVMAPLVQAAFHRYHWSRCSGQELRRYIHSYDCLLDDPFEHDWPKLPELPGINYSMDEQCRFDFGVGYRMCTAFRTFDPCKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCYKGHCMWKNTNQLKQDGHWGPWTKFGSCSRTCGTGVRFRTRQCNNPMPINGGDDCAGVNFEFQLCSTEECPKHFEDFRAQQCQQRNSHLEFRGSRHHWLPYEHPDPPKRCHLYCQSRETGDVAHMKQPVHDGTRCSYKDPYSICVRGECVKVGCDKEIGSNKAEDQCGVCGGDDSHCRTVKGTFTRTPKKLGYLKMFDIPPGARHVFIQEDEASPHFLAIKNQATGHYILNGKGEEARSRSFIDLGVQWEYSIEDDIETLHTDGPLHDAVVVLIIPRENDTRSSLTYKYIIHEDSVPTIHSNNVLREDTDTFEWALKSWSQCSKPCGGDAKFCSGDRPESRRSCNRAPCPAPWKAGPWSQCSVTCGEGTESRQVLCRAGDRCDGERPESVRVCQLAPCDDEPCLGDKSIFCQMEVLARYCSIPGYHKLCCESCGQRSSTFPPPRAAGTERDTPLDPGSLPRAPPVPTPAVPPRAQLLPRSSSLGRPPPATEEAEWHIPPSSPEPKGTGVPHRRAPPAGKTSRLLALLHQAPANSSSLGPRRALPPVPVENMAAGAPAPARTSGNSEELLGKRWPPRAGPVDR

Target ORF information:

RefSeq Version	XM_025896315.1
Organism	Manacus vitellinus(golden-collared manakin)
Definition	Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.

Target ORF information:

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

XM_025896315.1

ORF Insert Sequence:

ATGGATCCTG ATCAGTGGTT TGGGCTGGTA AGAAAGAGAA GCCGAAGTCA TCCATTAATC 
CCCAGGCCAA GTCCTATTGA AGCAGCTGCA GTGAAAGCTC TCACACGCTG CCCTGGAAAT 
AACCCCGGCT GTGACGTGGC TGCTAAAGAA CAGCAGATCC AAATAGAATT CCGAAAAAGC 
AGGCCGAGGC CGTACGGTTT AGTGATTCCC ATTAGCACCA ATGCAGATGG AAGCTACAGC 
TCCAACATCC TCTCTGCGAG TCACCAGCGG CGAGCGCCGC GGGAGGTGTC CCAGAGCCCC 
AGACAGCTCT ACTTCAACGT CACTGCCTTC GGGAGGGAAT TCCACCTCCG GCTGAAGCCC 
AACACTCGCC TGCTGGCTCC CGAGGCCGTG GTGGAGTGGT ACGAAGACTC TGTGCAAACT 
GGGAGCGATG GTGGTAACGC GAGTCACGCT GGGACTGCTA CGGAGCGCTT GTGGAAGAGG 
GAGCCCCTGT GGACCAACTG CGCCTACGTG GGGGACATCA CGGACATCCC CGGAGCTGCG 
GTGGCCATCA GCAACTGTGA CGGGCTGGCT GGAATGATAA GAACTGATGA GGATGAATAC 
TTCATCGAGC CCTTGGAAAG AGGAAAGCAA ATGGAAGAGG AGAAGGGAAG GATCCACATG 
GTGTACCGGC GGTCGGCGGT AGCGCAGCAT CCGCCTGACG TGCTCCCTGA TGTCCACACA 
GAAGGGTCCC TCCTGGGGGC ACTGAGTTCC CTGCACGGCC ACGTGGAGCA GCAGCTGAAC 
GAGACCCTGC GGCGGCGCCG GCATGCGGGA GATGACGACC ACAACATCGA GGTGCTGCTG 
GGGGTGGACG ACTCCGTCGT CAGATTCCAC GGCAAAGAAC ACGTCCAAAA CTACCTCCTC 
ACCCTCATGA ACATCGTGAA TGAGATTTAC CACGACGAGT CCCTGGGCGT TCACATCAAC 
GTCGTGCTGG TCCGAATGAT CATGTTGGGG TACGCAAAGT CCATCAGCCT GATCGAAAGG 
GGGAACCCCT CGCGCAGCCT GGAGAACGTG TGCCGCTGGG CCTATCAGCA GCAGAAGGCG 
GACCCCGGCC ACGCCGAGCA CCACGACCAT GCCATCTTCT TAACCAGGCA AGATTTTGGG 
CCCGCTGGTA TGCAAGGATA CGCTCCTGTG ACGGGCATGT GCCACCCGGT CCGGAGCTGC 
ACCCTCAACC ACGAGGACGG GTTTTCGTCA GCCTTTGTTG TTGCTCATGA GACTGGGCAC 
GTGCTGGGCA TGGAGCACGA CGGGCAAGGG AACAGATGTG GGGACGAGAC GGCGATGGGC 
AGTGTCATGG CCCCCTTGGT GCAGGCCGCC TTCCACCGCT ACCACTGGTC CCGCTGCAGC 
GGCCAGGAGC TCAGGAGATA CATCCACTCT TACGACTGTC TGCTCGACGA CCCTTTCGAG 
CACGACTGGC CCAAGCTTCC TGAGCTGCCA GGCATCAACT ATTCCATGGA CGAGCAGTGC 
CGCTTCGACT TCGGTGTGGG CTACAGGATG TGCACAGCGT TCCGAACCTT TGATCCGTGC 
AAGCAGCTGT GGTGCAGCCA CCCCGACAAC CCCTATTTCT GCAAGACCAA GAAAGGACCT 
CCCCTCGACG GCACGGAATG TGCCCCTGGA AAATGGTGCT ACAAAGGTCA CTGCATGTGG 
AAGAACACCA ACCAGCTGAA GCAGGATGGA CACTGGGGAC CCTGGACCAA GTTTGGCTCC 
TGCTCCCGGA CCTGTGGAAC TGGGGTTCGC TTCCGCACGC GCCAGTGCAA CAACCCAATG 
CCCATCAACG GAGGTGACGA CTGCGCCGGG GTCAATTTTG AGTTCCAGCT GTGCAGCACC 
GAGGAGTGTC CGAAGCACTT TGAGGACTTC AGGGCACAGC AGTGCCAGCA GCGCAATTCC 
CACCTGGAGT TCCGGGGCAG CCGGCACCAC TGGCTGCCCT ACGAGCACCC CGACCCTCCC 
AAGAGATGTC ACCTGTACTG CCAGTCCAGG GAAACCGGGG ATGTGGCTCA CATGAAGCAG 
CCGGTGCATG ATGGGACTCG CTGCTCCTAC AAGGATCCCT ACAGCATCTG TGTCCGTGGG 
GAATGTGTGA AAGTGGGCTG TGACAAGGAA ATTGGCTCCA ACAAGGCCGA GGATCAGTGC 
GGGGTCTGCG GCGGGGATGA CTCCCACTGC CGGACCGTGA AGGGGACCTT CACCCGCACT 
CCCAAAAAGC TCGGGTACCT TAAGATGTTT GATATCCCTC CTGGGGCTCG ACATGTGTTT 
ATCCAAGAAG ACGAGGCCTC TCCTCACTTC CTTGCAATCA AGAACCAGGC TACAGGACAC 
TATATCCTGA ATGGGAAAGG GGAGGAGGCC AGATCCCGAT CCTTCATCGA CCTGGGCGTG 
CAGTGGGAAT ACAGCATCGA GGACGACATC GAAACGCTGC ACACGGACGG GCCTCTGCAC 
GACGCCGTGG TGGTGCTGAT CATTCCTCGG GAGAACGACA CCAGATCCAG CCTGACTTAC 
AAATACATCA TCCACGAGGA TTCGGTGCCG ACCATCCACA GCAACAACGT GCTGCGGGAG 
GACACGGACA CCTTTGAGTG GGCCTTGAAG AGCTGGTCCC AGTGCTCCAA ACCCTGTGGT 
GGAGATGCCA AGTTCTGCAG CGGGGATCGC CCTGAGAGCC GCCGGTCCTG CAACCGGGCA 
CCGTGTCCTG CGCCTTGGAA AGCTGGACCC TGGTCCCAGT GCTCAGTGAC CTGCGGGGAG 
GGGACTGAGA GCCGGCAGGT CCTGTGCCGT GCTGGGGACC GGTGCGACGG GGAGCGGCCC 
GAGTCCGTGA GGGTTTGCCA GCTCGCTCCC TGTGATGACG AGCCCTGCCT GGGAGACAAA 
TCCATCTTCT GTCAGATGGA AGTGCTGGCC CGGTACTGCT CCATCCCTGG CTACCACAAG 
CTGTGCTGTG AATCCTGCGG GCAGCGCAGC AGCACCTTCC CACCTCCCAG AGCTGCCGGG 
ACCGAGAGGG ACACACCGTT GGATCCGGGC AGCCTGCCGA GGGCTCCGCC AGTGCCCACC 
CCTGCGGTGC CCCCCCGGGC TCAGCTCCTG CCCAGGAGCA GTTCCCTGGG CCGGCCGCCT 
CCAGCGACAG AGGAGGCTGA GTGGCACATC CCACCCTCCA GCCCCGAGCC TAAAGGCACC 
GGTGTTCCAC ACCGGAGAGC TCCTCCAGCT GGGAAGACTT CCCGGCTCTT GGCTTTGCTG 
CACCAGGCCC CTGCCAACAG TAGCAGCCTT GGTCCTCGCA GGGCTCTGCC TCCAGTGCCA 
GTGGAGAACA TGGCAGCAGG GGCTCCTGCG CCAGCCAGGA CCTCCGGGAA CAGCGAGGAG 
CTCCTTGGGA AGCGATGGCC TCCAAGGGCT GGCCCTGTGG ATCGATGA

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

ADAMTS3 ( XM_029964514.1 ) cDNA ORF clone, Manacus vitellinus(golden-collared manakin) -> XP_029820374.1 Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.

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CloneID	OMa461670
Clone ID Related Accession (Same CDS sequence)	XM_029964514.1
Accession Version	XM_029964514.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4113bp) 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	2019-07-28
Organism	Manacus vitellinus(golden-collared manakin)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NW_021940773.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Name :: Manacus vitellinus 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## ##RefSeq-Attributes-START## ab initio :: 14% of CDS bases ##RefSeq-Attributes-END##

ATGCCGCGGG AGTGCGGTGG GAGGACTTCT CAGTGTGTGT GTATGTGTGT ATGTGTGTGT 
GCGCGGAGCC GGGCGGGTTC CCCGGCGGTT CCCCGGCAGT TCCCGGCGGG CCGGGCCGTT 
CCTGACGTGG AGCGCCGGGC CGGCCGGAGG CGGAGCGCGC GGGTTTATCA GCGCCGCGGT 
CGGCGCAGGG CGCGCAGCAA ACAGGCGGCG GCGGGGACCG CCGCCTCTCG CCGCCCGCCT 
GCGCAGCGGC CCGGAGCCGC CGCCGGAGGG CAGGGAAGGA AGGCAGGAGG AGGGAGGCGG 
GCGGAAGCGC GCGGGGCCGG GGCGCGGGCG GCGCGCTCGG GATGGTGCTC CTGCCCTCTG 
GTAGATGGCA GCCGGCGCTC CTGGGGGCCG GGTCGTGCGC CGCGGCGGCT AGGCTACCTG 
GGATCTGCGG CGGCACCCAG GGCTGGGCTG TCGCCTCCTC GCTCCTCCGC GCCGTACAAC 
CGCCGCATCC GAGCAGCCCC GAGCCGGGCA CGGCATCCCC GGCCCGGGCT GGCGAACTGC 
AGCAGCCCAT CTCTCCAGAT CCCGTCCCCA CGGGTCCCAT TCCCCTGCCA AGAGCAGGCT 
GCTAAAGAAC AGCAGATCCA AATAGAATTC CGAAAAAGCA GGCCGAGGCC GTACGGTTTA 
GTGATTCCCA TTAGCACCAA TGCAGATGGA AGCTACAGCT CCAACATCCT CTCTGCGAGT 
CACCAGCGGC GAGCGCCGCG GGAGGTGTCC CAGAGCCCCA GACAGCTCTA CTTCAACGTC 
ACTGCCTTCG GGAGGGAATT CCACCTCCGG CTGAAGCCCA ACACTCGCCT GCTGGCTCCC 
GAGGCCGTGG TGGAGTGGTA CGAAGACTCT GTGCAAACTG GGAGCGATGG TGGTAACGCG 
AGTCACGCTG GGACTGCTAC GGAGCGCTTG TGGAAGAGGG AGCCCCTGTG GACCAACTGC 
GCCTACGTGG GGGACATCAC GGACATCCCC GGAGCTGCGG TGGCCATCAG CAACTGTGAC 
GGGCTGGCTG GAATGATAAG AACTGATGAG GATGAATACT TCATCGAGCC CTTGGAAAGA 
GGAAAGCAAA TGGAAGAGGA GAAGGGAAGG ATCCACATGG TGTACCGGCG GTCGGCGGTA 
GCGCAGCATC CGCCTGACGT GCTCCCTGAT GTCCACACAG AAGGGTCCCT CCTGGGGGCA 
CTGAGTTCCC TGCACGGCCA CGTGGAGCAG CAGCTGAACG AGACCCTGCG GCGGCGCCGG 
CATGCGGGAG ATGACGACCA CAACATCGAG GTGCTGCTGG GGGTGGACGA CTCCGTCGTC 
AGATTCCACG GCAAAGAACA CGTCCAAAAC TACCTCCTCA CCCTCATGAA CATCGTGAAT 
GAGATTTACC ACGACGAGTC CCTGGGCGTT CACATCAACG TCGTGCTGGT CCGAATGATC 
ATGTTGGGGT ACGCAAAGTC CATCAGCCTG ATCGAAAGGG GGAACCCCTC GCGCAGCCTG 
GAGAACGTGT GCCGCTGGGC CTATCAGCAG CAGAAGGCGG ACCCCGGCCA CGCCGAGCAC 
CACGACCATG CCATCTTCTT AACCAGGCAA GATTTTGGGC CCGCTGGTAT GCAAGGATAC 
GCTCCTGTGA CGGGCATGTG CCACCCGGTC CGGAGCTGCA CCCTCAACCA CGAGGACGGG 
TTTTCGTCAG CCTTTGTTGT TGCTCATGAG ACTGGGCACG TGCTGGGCAT GGAGCACGAC 
GGGCAAGGGA ACAGATGTGG GGACGAGACG GCGATGGGCA GTGTCATGGC CCCCTTGGTG 
CAGGCCGCCT TCCACCGCTA CCACTGGTCC CGCTGCAGCG GCCAGGAGCT CAGGAGATAC 
ATCCACTCTT ACGACTGTCT GCTCGACGAC CCTTTCGAGC ACGACTGGCC CAAGCTTCCT 
GAGCTGCCAG GCATCAACTA TTCCATGGAC GAGCAGTGCC GCTTCGACTT CGGTGTGGGC 
TACAGGATGT GCACAGCGTT CCGAACCTTT GATCCGTGCA AGCAGCTGTG GTGCAGCCAC 
CCCGACAACC CCTATTTCTG CAAGACCAAG AAAGGACCTC CCCTCGACGG CACGGAATGT 
GCCCCTGGAA AATGGTGCTA CAAAGGTCAC TGCATGTGGA AGAACACCAA CCAGCTGAAG 
CAGGATGGAC ACTGGGGACC CTGGACCAAG TTTGGCTCCT GCTCCCGGAC CTGTGGAACT 
GGGGTTCGCT TCCGCACGCG CCAGTGCAAC AACCCAATGC CCATCAACGG AGGTGACGAC 
TGCGCCGGGG TCAATTTTGA GTTCCAGCTG TGCAGCACCG AGGAGTGTCC GAAGCACTTT 
GAGGACTTCA GGGCACAGCA GTGCCAGCAG CGCAATTCCC ACCTGGAGTT CCGGGGCAGC 
CGGCACCACT GGCTGCCCTA CGAGCACCCC GACCCTCCCA AGAGATGTCA CCTGTACTGC 
CAGTCCAGGG AAACCGGGGA TGTGGCTCAC ATGAAGCAGC CGGTGCATGA TGGGACTCGC 
TGCTCCTACA AGGATCCCTA CAGCATCTGT GTCCGTGGGG AATGTGTGAA AGTGGGCTGT 
GACAAGGAAA TTGGCTCCAA CAAGGCCGAG GATCAGTGCG GGGTCTGCGG CGGGGATGAC 
TCCCACTGCC GGACCGTGAA GGGGACCTTC ACCCGCACTC CCAAAAAGCT CGGGTACCTT 
AAGATGTTTG ATATCCCTCC TGGGGCTCGA CATGTGTTTA TCCAAGAAGA CGAGGCCTCT 
CCTCACTTCC TTGCAATCAA GAACCAGGCT ACAGGACACT ATATCCTGAA TGGGAAAGGG 
GAGGAGGCCA GATCCCGATC CTTCATCGAC CTGGGCGTGC AGTGGGAATA CAGCATCGAG 
GACGACATCG AAACGCTGCA CACGGACGGG CCTCTGCACG ACGCCGTGGT GGTGCTGATC 
ATTCCTCGGG AGAACGACAC CAGATCCAGC CTGACTTACA AATACATCAT CCACGAGGAT 
TCGGTGCCGA CCATCCACAG CAACAACGTG CTGCGGGAGG ACACGGACAC CTTTGAGTGG 
GCCTTGAAGA GCTGGTCCCA GTGCTCCAAA CCCTGTGGTG GAGGGTTCCA GTACACCAAA 
TACGGGTGCC GCAGGAAGAG TGACAACAAA ATGGTTCATC GCAGCTTCTG TGAAGGCAGC 
AAAAAGCCAA AGCCCATCCG TAGGATGTGC AACCTGCAGG AGTGCACGGA GCCCCTCTGG 
GCAGCAGATG AGTGGGAACA CTGCACCAAA ACCTGTGGGA ATTCTGGTTA CCAGCTACGC 
ACGGTGCGCT GCATCCAGCC TCTTCCCGAC GGCACCAACC GCTCCGTCCA TGCCAAGTTC 
TGCAGCGGGG ATCGCCCTGA GAGCCGCCGG TCCTGCAACC GGGCACCGTG TCCTGCGCCT 
TGGAAAGCTG GACCCTGGTC CCAGTGCTCA GTGACCTGCG GGGAGGGGAC TGAGAGCCGG 
CAGGTCCTGT GCCGTGCTGG GGACCGGTGC GACGGGGAGC GGCCCGAGTC CGTGAGGGTT 
TGCCAGCTCG CTCCCTGTGA TGACGAGCCC TGCCTGGGAG ACAAATCCAT CTTCTGTCAG 
ATGGAAGTGC TGGCCCGGTA CTGCTCCATC CCTGGCTACC ACAAGCTGTG CTGTGAATCC 
TGCGGGCAGC GCAGCAGCAC CTTCCCACCT CCCAGAGCTG CCGGGACCGA GAGGGACACA 
CCGTTGGATC CGGGCAGCCT GCCGAGGGCT CCGCCAGTGC CCACCCCTGC GGTGCCCCCC 
CGGGCTCAGC TCCTGCCCAG GAGCAGTTCC CTGGGCCGGC CGCCTCCAGC GACAGAGGAG 
GCTGAGTGGC ACATCCCACC CTCCAGCCCC GAGCCTAAAG GCACCGGTGT TCCACACCGG 
AGAGCTCCTC CAGCTGGGAA GACTTCCCGG CTCTTGGCTT TGCTGCACCA GGCCCCTGCC 
AACAGTAGCA GCCTTGGTCC TCGCAGGGCT CTGCCTCCAG TGCCAGTGGA GAACATGGCA 
GCAGGGGCTC CTGCGCCAGC CAGGACCTCC GGGAACAGCG AGGAGCTCCT TGGGAAGCGA 
TGGCCTCCAA GGGCTGGCCC TGTGGATCGA TGA

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

RefSeq	XP_029820374.1
CDS	1..4113
Translation	MPRECGGRTSQCVCMCVCVCARSRAGSPAVPRQFPAGRAVPDVERRAGRRRSARVYQRRGRRRARSKQAAAGTAASRRPPAQRPGAAAGGQGRKAGGGRRAEARGAGARAARSGWCSCPLVDGSRRSWGPGRAPRRLGYLGSAAAPRAGLSPPRSSAPYNRRIRAAPSRARHPRPGLANCSSPSLQIPSPRVPFPCQEQAAKEQQIQIEFRKSRPRPYGLVIPISTNADGSYSSNILSASHQRRAPREVSQSPRQLYFNVTAFGREFHLRLKPNTRLLAPEAVVEWYEDSVQTGSDGGNASHAGTATERLWKREPLWTNCAYVGDITDIPGAAVAISNCDGLAGMIRTDEDEYFIEPLERGKQMEEEKGRIHMVYRRSAVAQHPPDVLPDVHTEGSLLGALSSLHGHVEQQLNETLRRRRHAGDDDHNIEVLLGVDDSVVRFHGKEHVQNYLLTLMNIVNEIYHDESLGVHINVVLVRMIMLGYAKSISLIERGNPSRSLENVCRWAYQQQKADPGHAEHHDHAIFLTRQDFGPAGMQGYAPVTGMCHPVRSCTLNHEDGFSSAFVVAHETGHVLGMEHDGQGNRCGDETAMGSVMAPLVQAAFHRYHWSRCSGQELRRYIHSYDCLLDDPFEHDWPKLPELPGINYSMDEQCRFDFGVGYRMCTAFRTFDPCKQLWCSHPDNPYFCKTKKGPPLDGTECAPGKWCYKGHCMWKNTNQLKQDGHWGPWTKFGSCSRTCGTGVRFRTRQCNNPMPINGGDDCAGVNFEFQLCSTEECPKHFEDFRAQQCQQRNSHLEFRGSRHHWLPYEHPDPPKRCHLYCQSRETGDVAHMKQPVHDGTRCSYKDPYSICVRGECVKVGCDKEIGSNKAEDQCGVCGGDDSHCRTVKGTFTRTPKKLGYLKMFDIPPGARHVFIQEDEASPHFLAIKNQATGHYILNGKGEEARSRSFIDLGVQWEYSIEDDIETLHTDGPLHDAVVVLIIPRENDTRSSLTYKYIIHEDSVPTIHSNNVLREDTDTFEWALKSWSQCSKPCGGGFQYTKYGCRRKSDNKMVHRSFCEGSKKPKPIRRMCNLQECTEPLWAADEWEHCTKTCGNSGYQLRTVRCIQPLPDGTNRSVHAKFCSGDRPESRRSCNRAPCPAPWKAGPWSQCSVTCGEGTESRQVLCRAGDRCDGERPESVRVCQLAPCDDEPCLGDKSIFCQMEVLARYCSIPGYHKLCCESCGQRSSTFPPPRAAGTERDTPLDPGSLPRAPPVPTPAVPPRAQLLPRSSSLGRPPPATEEAEWHIPPSSPEPKGTGVPHRRAPPAGKTSRLLALLHQAPANSSSLGPRRALPPVPVENMAAGAPAPARTSGNSEELLGKRWPPRAGPVDR

Target ORF information:

RefSeq Version	XM_029964514.1
Organism	Manacus vitellinus(golden-collared manakin)
Definition	Manacus vitellinus ADAM metallopeptidase with thrombospondin type 1 motif 3 (ADAMTS3), mRNA.

Target ORF information:

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

XM_029964514.1

ORF Insert Sequence:

ATGCCGCGGG AGTGCGGTGG GAGGACTTCT CAGTGTGTGT GTATGTGTGT ATGTGTGTGT 
GCGCGGAGCC GGGCGGGTTC CCCGGCGGTT CCCCGGCAGT TCCCGGCGGG CCGGGCCGTT 
CCTGACGTGG AGCGCCGGGC CGGCCGGAGG CGGAGCGCGC GGGTTTATCA GCGCCGCGGT 
CGGCGCAGGG CGCGCAGCAA ACAGGCGGCG GCGGGGACCG CCGCCTCTCG CCGCCCGCCT 
GCGCAGCGGC CCGGAGCCGC CGCCGGAGGG CAGGGAAGGA AGGCAGGAGG AGGGAGGCGG 
GCGGAAGCGC GCGGGGCCGG GGCGCGGGCG GCGCGCTCGG GATGGTGCTC CTGCCCTCTG 
GTAGATGGCA GCCGGCGCTC CTGGGGGCCG GGTCGTGCGC CGCGGCGGCT AGGCTACCTG 
GGATCTGCGG CGGCACCCAG GGCTGGGCTG TCGCCTCCTC GCTCCTCCGC GCCGTACAAC 
CGCCGCATCC GAGCAGCCCC GAGCCGGGCA CGGCATCCCC GGCCCGGGCT GGCGAACTGC 
AGCAGCCCAT CTCTCCAGAT CCCGTCCCCA CGGGTCCCAT TCCCCTGCCA AGAGCAGGCT 
GCTAAAGAAC AGCAGATCCA AATAGAATTC CGAAAAAGCA GGCCGAGGCC GTACGGTTTA 
GTGATTCCCA TTAGCACCAA TGCAGATGGA AGCTACAGCT CCAACATCCT CTCTGCGAGT 
CACCAGCGGC GAGCGCCGCG GGAGGTGTCC CAGAGCCCCA GACAGCTCTA CTTCAACGTC 
ACTGCCTTCG GGAGGGAATT CCACCTCCGG CTGAAGCCCA ACACTCGCCT GCTGGCTCCC 
GAGGCCGTGG TGGAGTGGTA CGAAGACTCT GTGCAAACTG GGAGCGATGG TGGTAACGCG 
AGTCACGCTG GGACTGCTAC GGAGCGCTTG TGGAAGAGGG AGCCCCTGTG GACCAACTGC 
GCCTACGTGG GGGACATCAC GGACATCCCC GGAGCTGCGG TGGCCATCAG CAACTGTGAC 
GGGCTGGCTG GAATGATAAG AACTGATGAG GATGAATACT TCATCGAGCC CTTGGAAAGA 
GGAAAGCAAA TGGAAGAGGA GAAGGGAAGG ATCCACATGG TGTACCGGCG GTCGGCGGTA 
GCGCAGCATC CGCCTGACGT GCTCCCTGAT GTCCACACAG AAGGGTCCCT CCTGGGGGCA 
CTGAGTTCCC TGCACGGCCA CGTGGAGCAG CAGCTGAACG AGACCCTGCG GCGGCGCCGG 
CATGCGGGAG ATGACGACCA CAACATCGAG GTGCTGCTGG GGGTGGACGA CTCCGTCGTC 
AGATTCCACG GCAAAGAACA CGTCCAAAAC TACCTCCTCA CCCTCATGAA CATCGTGAAT 
GAGATTTACC ACGACGAGTC CCTGGGCGTT CACATCAACG TCGTGCTGGT CCGAATGATC 
ATGTTGGGGT ACGCAAAGTC CATCAGCCTG ATCGAAAGGG GGAACCCCTC GCGCAGCCTG 
GAGAACGTGT GCCGCTGGGC CTATCAGCAG CAGAAGGCGG ACCCCGGCCA CGCCGAGCAC 
CACGACCATG CCATCTTCTT AACCAGGCAA GATTTTGGGC CCGCTGGTAT GCAAGGATAC 
GCTCCTGTGA CGGGCATGTG CCACCCGGTC CGGAGCTGCA CCCTCAACCA CGAGGACGGG 
TTTTCGTCAG CCTTTGTTGT TGCTCATGAG ACTGGGCACG TGCTGGGCAT GGAGCACGAC 
GGGCAAGGGA ACAGATGTGG GGACGAGACG GCGATGGGCA GTGTCATGGC CCCCTTGGTG 
CAGGCCGCCT TCCACCGCTA CCACTGGTCC CGCTGCAGCG GCCAGGAGCT CAGGAGATAC 
ATCCACTCTT ACGACTGTCT GCTCGACGAC CCTTTCGAGC ACGACTGGCC CAAGCTTCCT 
GAGCTGCCAG GCATCAACTA TTCCATGGAC GAGCAGTGCC GCTTCGACTT CGGTGTGGGC 
TACAGGATGT GCACAGCGTT CCGAACCTTT GATCCGTGCA AGCAGCTGTG GTGCAGCCAC 
CCCGACAACC CCTATTTCTG CAAGACCAAG AAAGGACCTC CCCTCGACGG CACGGAATGT 
GCCCCTGGAA AATGGTGCTA CAAAGGTCAC TGCATGTGGA AGAACACCAA CCAGCTGAAG 
CAGGATGGAC ACTGGGGACC CTGGACCAAG TTTGGCTCCT GCTCCCGGAC CTGTGGAACT 
GGGGTTCGCT TCCGCACGCG CCAGTGCAAC AACCCAATGC CCATCAACGG AGGTGACGAC 
TGCGCCGGGG TCAATTTTGA GTTCCAGCTG TGCAGCACCG AGGAGTGTCC GAAGCACTTT 
GAGGACTTCA GGGCACAGCA GTGCCAGCAG CGCAATTCCC ACCTGGAGTT CCGGGGCAGC 
CGGCACCACT GGCTGCCCTA CGAGCACCCC GACCCTCCCA AGAGATGTCA CCTGTACTGC 
CAGTCCAGGG AAACCGGGGA TGTGGCTCAC ATGAAGCAGC CGGTGCATGA TGGGACTCGC 
TGCTCCTACA AGGATCCCTA CAGCATCTGT GTCCGTGGGG AATGTGTGAA AGTGGGCTGT 
GACAAGGAAA TTGGCTCCAA CAAGGCCGAG GATCAGTGCG GGGTCTGCGG CGGGGATGAC 
TCCCACTGCC GGACCGTGAA GGGGACCTTC ACCCGCACTC CCAAAAAGCT CGGGTACCTT 
AAGATGTTTG ATATCCCTCC TGGGGCTCGA CATGTGTTTA TCCAAGAAGA CGAGGCCTCT 
CCTCACTTCC TTGCAATCAA GAACCAGGCT ACAGGACACT ATATCCTGAA TGGGAAAGGG 
GAGGAGGCCA GATCCCGATC CTTCATCGAC CTGGGCGTGC AGTGGGAATA CAGCATCGAG 
GACGACATCG AAACGCTGCA CACGGACGGG CCTCTGCACG ACGCCGTGGT GGTGCTGATC 
ATTCCTCGGG AGAACGACAC CAGATCCAGC CTGACTTACA AATACATCAT CCACGAGGAT 
TCGGTGCCGA CCATCCACAG CAACAACGTG CTGCGGGAGG ACACGGACAC CTTTGAGTGG 
GCCTTGAAGA GCTGGTCCCA GTGCTCCAAA CCCTGTGGTG GAGGGTTCCA GTACACCAAA 
TACGGGTGCC GCAGGAAGAG TGACAACAAA ATGGTTCATC GCAGCTTCTG TGAAGGCAGC 
AAAAAGCCAA AGCCCATCCG TAGGATGTGC AACCTGCAGG AGTGCACGGA GCCCCTCTGG 
GCAGCAGATG AGTGGGAACA CTGCACCAAA ACCTGTGGGA ATTCTGGTTA CCAGCTACGC 
ACGGTGCGCT GCATCCAGCC TCTTCCCGAC GGCACCAACC GCTCCGTCCA TGCCAAGTTC 
TGCAGCGGGG ATCGCCCTGA GAGCCGCCGG TCCTGCAACC GGGCACCGTG TCCTGCGCCT 
TGGAAAGCTG GACCCTGGTC CCAGTGCTCA GTGACCTGCG GGGAGGGGAC TGAGAGCCGG 
CAGGTCCTGT GCCGTGCTGG GGACCGGTGC GACGGGGAGC GGCCCGAGTC CGTGAGGGTT 
TGCCAGCTCG CTCCCTGTGA TGACGAGCCC TGCCTGGGAG ACAAATCCAT CTTCTGTCAG 
ATGGAAGTGC TGGCCCGGTA CTGCTCCATC CCTGGCTACC ACAAGCTGTG CTGTGAATCC 
TGCGGGCAGC GCAGCAGCAC CTTCCCACCT CCCAGAGCTG CCGGGACCGA GAGGGACACA 
CCGTTGGATC CGGGCAGCCT GCCGAGGGCT CCGCCAGTGC CCACCCCTGC GGTGCCCCCC 
CGGGCTCAGC TCCTGCCCAG GAGCAGTTCC CTGGGCCGGC CGCCTCCAGC GACAGAGGAG 
GCTGAGTGGC ACATCCCACC CTCCAGCCCC GAGCCTAAAG GCACCGGTGT TCCACACCGG 
AGAGCTCCTC CAGCTGGGAA GACTTCCCGG CTCTTGGCTT TGCTGCACCA GGCCCCTGCC 
AACAGTAGCA GCCTTGGTCC TCGCAGGGCT CTGCCTCCAG TGCCAGTGGA GAACATGGCA 
GCAGGGGCTC CTGCGCCAGC CAGGACCTCC GGGAACAGCG AGGAGCTCCT TGGGAAGCGA 
TGGCCTCCAA GGGCTGGCCC TGTGGATCGA TGA

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

PubMed

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ADAMTS3 cDNA ORF clone, Manacus vitellinus(golden-collared manakin)

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:

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