Adamts16 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene
Clones
gRNAs

Summary

Gene Symbol	Adamts16
Entrez Gene ID	306664
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif, 16
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif, 16 Names A disintegrin and metalloproteinase with thrombospondin motifs 16 a disintegrin-like and metallopeptidase (reprolysin type) with thrombospondin type 1 motif, 16
Gene Type	protein-coding
Organism	Rattus norvegicus(Norway rat)
Genome	Chromosome: 1 Map Location: 1p11

mRNA and Protein(s)

mRNA	Protein	Name
XM_003753157.4	XP_003753205.1	A disintegrin and metalloproteinase with thrombospondin motifs 16 isoform X1
XM_006222882.3	XP_006222944.1	A disintegrin and metalloproteinase with thrombospondin motifs 16 isoform X2
XM_008774310.2	XP_008772532.1	A disintegrin and metalloproteinase with thrombospondin motifs 16 isoform X3
XM_003748684.4	XP_003748732.1	A disintegrin and metalloproteinase with thrombospondin motifs 16 isoform X1
NM_001372015.1	NP_001358944.1	A disintegrin and metalloproteinase with thrombospondin motifs 16 precursor

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	ADAMTS16	XP_005639761.1
Xenopus tropicalis (tropical clawed frog)	adamts16	XP_002935179.2
	ADAMTS16	XP_001082662.1
Danio rerio (zebrafish)	adamts16	XP_001922446.3
Homo sapiens (human)	ADAMTS16	NP_620687.2
Rattus norvegicus (Norway rat)	Adamts16	XP_003748732.1
Mus musculus (house mouse)	Adamts16	NP_742050.2
Pan troglodytes (chimpanzee)	ADAMTS16	XP_526829.2
Bos taurus (cattle)	ADAMTS16	XP_002696504.3

Gene Ontology
Bibliography

Related articles in PubMed

Cryptorchidism and infertility in rats with targeted disruption of the Adamts16 locus.
Abdul-Majeed S, Mell B, Nauli SM, Joe B
PloS one9(7)e100967(2014)

Transcriptional regulation by the Wilms tumor protein, Wt1, suggests a role of the metalloproteinase Adamts16 in murine genitourinary development.
Jacobi CL, Rudigier LJ, Scholz H, Kirschner KM
The Journal of biological chemistry288(26)18811-24(2013 Jun)

Targeted disruption of Adamts16 gene in a rat genetic model of hypertension.
Gopalakrishnan K, Kumarasamy S, Abdul-Majeed S, Kalinoski AL, Morgan EE, Gohara AF, Nauli SM, Filipiak WE, Saunders TL, Joe B
Proceedings of the National Academy of Sciences of the United States of America109(50)20555-9(2012 Dec)

Positional identification of variants of Adamts16 linked to inherited hypertension.
Joe B, Saad Y, Dhindaw S, Lee NH, Frank BC, Achinike OH, Luu TV, Gopalakrishnan K, Toland EJ, Farms P, Yerga-Woolwine S, Manickavasagam E, Rapp JP, Garrett MR, Coe D, Apte SS, Rankinen T, P?russe L, Ehret GB, Ganesh SK, Cooper RS, O'Connor A, Rice T, Weder AB, Chakravarti A, Rao DC, Bouchard C
Human molecular genetics18(15)2825-38(2009 Aug)

GeneRIFs: Gene References Into Functions What's a GeneRIF?

These observations, taken together with our previous report of renal abnormalities observed with the same Adamts16mutant rats, suggest an important mechanistic link between Adamts16 and the functioning of the male genitourinary system.
Title: Cryptorchidism and infertility in rats with targeted disruption of the Adamts16 locus.

physiological observations functionally link Adamts16 to blood pressure regulation and suggest the vasculature as the potential site of action of Adamts16 to lower blood pressure
Title: Targeted disruption of Adamts16 gene in a rat genetic model of hypertension.

Genetic variation of Adamts16 is linked to inherited hypertension in a rat model.
Title: Positional identification of variants of Adamts16 linked to inherited hypertension.

The following Adamts16 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the Adamts16 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)
ORa14034	XM_006222882.3 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
ORa46437	XM_008774310.2 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	12-14	$475.30 $679.00
ORa14031	NM_001372015.1 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), mRNA.	pcDNA3.1-C-(k)DYK or customized vector	19-21	$643.30 $919.00
ORa14031	XM_003748684.4 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00
ORa14031	XM_003753157.4 Latest version!	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	20	$643.30 $919.00

ORF Online Only Promotion

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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)

Adamts16 ( XM_006222882.3 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_006222944.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X2, mRNA.

Price & Availability↑

CloneID	ORa14034
Clone ID Related Accession (Same CDS sequence)	XM_006222882.3
Accession Version	XM_006222882.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2976bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 16 isoform X2
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000069.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_006222882.2. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 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##

ATGACAACTT TCACCTTGGC CTCTCACGAA AGCAGCATTT CTGTGGAAGA CGCAAGAAAT 
GTATACATGC CCCAACCTCC GGATGATAAC CTCTACATCT TGCCTGATGA GTACAAGCCT 
AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA TCCCACAGAA ATGAAGAGTT GAATGTGGAG 
ACTCTGGTGG TGGTTGACAG AAAAATGCTG CAAAGCCATG GCCATGAAAA TATTACGACC 
TATGTGCTTA CCATTCTCAA CATGGTGTCT GCTTTATTCA AGGATGGAAC AATTGGGGGA 
AACATCAATA TTGTCATTGT GGGACTCATT CTGCTGGAAG ACGAACAGCC AGGGCTGGCG 
ATTAGTCACC ATGCAGACCG CACGTTAACC AGCTTCTGCC AGTGGCAATC TGGACTGATG 
GGGAAAGATG GAGCTCGTCA TGACCACGCC ATCTTACTGA CTGGTCTGGA CATATGTTCC 
TGGAAGAATG AACCCTGTGA CACATTGGGT TTCGCACCCA TCAGTGGGAT GTGCAGTAAG 
TACCGCAGCT GCACGGTCAA CGAAGACTCA GGCCTTGGAC TGGCCTTCAC CATTGCTCAT 
GAATCTGGAC ACAACTTTGG CATGGTCCAT GATGGAGAAG GGAATATGTG CAAGAAGTCT 
GAGGGCAACA TAATGTCCCC AACACTGGCA GGACGCAATG GCGTCTTCTC CTGGTCCTCC 
TGCAGTCGTC AGTACCTGCA CAAGTTCTTA AGCACCGCCC AAGCAATATG CCTTGCTGAC 
CAGCCGAAGC CTGTGAAAGA GTACAAGTAC CCGGAAAAGC TGCCAGGACA GTTATACGAT 
GCAAATACAC AGTGCAAGTG GCAGTTTGGA GAGAAAGCCA AGCTTTGCAT GCTGGACTTC 
AGAAAGGACA TCTGTAAGGC CTTGTGGTGC CATCGGATTG GAAGGAAATG TGAGACTAAG 
TTCATGCCAG CAGCAGAGGG TACACTGTGT GGGCAGGACA TGTGGTGTCG TGGAGGACAG 
TGTGTGAAGT ACGGTGACGA AGGCCCCAAG CCTACTCACG GCCATTGGTC AGATTGGTCC 
CCTTGGTCCC CCTGTTCCCG GACCTGTGGG GGAGGAGTCT CTCACAGAGA CCGTCTCTGT 
ACCAATCCCA GACCATCTCA TGGAGGGAAG TTTTGCCAGG GTTCCGCACG CACTCTGAAG 
CTTTGCAACA GTCAGAAATG CCCTCTGGAC AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT 
GAGTACAACA GCAAGCGTTT CCGAGGGTGG CTCTACAAGT GGACGCCTTA CACCCAAGTG 
GAAGATCAGG ACTTATGCAA ACTCTACTGT ATCGCAGAAG GATTTGATTT CTTCTTTTCT 
TTGTCAAATA AAGTCAAAGA TGGGACTCCA TGCTCGGAGG ATAGCCGTAA TGTTTGTATA 
GATGGGATGT GTGAGAAGGT TGGCTGTGAC AATGTCCTTG GATCGGATGC AACTGAGGAC 
TCCTGTGGGG TCTGCCAGGG GAATAACTCA GACTGCGTCA TGCATAGAGG ACTCTACAGT 
AAGAATCACC CCACCAACCA GTACTACCAC GTGGTAACCA TTCCCTCTGG AGCTCGGAGC 
ATTCACATCT ATGAAACAAA CATCTCTACC TCCTATATTT CTGTGCGCAA TTCTGTCAAG 
AAATATTACC TGAATGGGCA CTGGAGTGTG GACTGGCCAG GGCGATACAA GTTTTCAGGT 
ACCACCTTCA ACTACAGACG ATCCTACAAG GAGCCTGAGA GTTTAACCTC CACTGGACCA 
ACCAACGAAA CACTGATTGT GGAGCTTTTG TTCCAAGGCA GGAACCCTGG AGTGGCCTGG 
GAATTCTCAG TGCCCAGGTC AGGGTCTAAA AGGACTCCAC CTCCCCAGCC CAGCTACTCA 
TGGGCTATCC TGCGCTCTGA GTGCTCTGTC TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG 
GCGGGATGCT ACAGAGACCT GAAGGTTCTG GTCAATGCAT CCTTCTGCAA CCCCAAGACA 
CGACCTGTCC CAGCACTGGT GCCCTGCAAG GTGTCAGCTT GTCCTCCCAG CTGGTCTGTG 
GGAAACTGGA GCACATGCAG CCGGACATGT GGTGGGGGCA CCCAGAGCAG GCCCGTGCAC 
TGTACACGGA GGGCACACTA CCGTGAGGAG TCCATCTCAG CCAGCCTGTG TCCACAGCCT 
GCACCCCCCC TTCACCAAGC CTGCAACTCT CAGAGCTGCC CACCTGCTTG GAGCACTGGG 
CCCTGGGCAG AGTGCTCACG GACCTGTGGG AAGGGCTGGA GGAAGAGGAC AGTGGCCTGC 
AAGAGCACCA ACCCCTCAGC TCGAGCCCAG CTGCTGCATG ACACGGCCTG CACTTCGGAA 
CCCAAGCCTC GGACCCACCA AGTCTGCCTG CTCAAGCGCT GCCACAAGCA TAAGAAGCTA 
CAGTGGCTGG TATCTGCCTG GTCCCCGTGC TCTGCGACAT GCCAGAGAGG AACACAGCAT 
AGAGTTCTCA GGTGTGCTGA GAAGTACGTC TCCGGAAAGT ACCGAGAGCT GGCCTCCAAG 
AAGTGCTTGC ATCTGCCAAA GCCTGACCTG GAACTGGAAC GTGCTTGCGG CCTGATTCCC 
TGCCCCAAGC ACCCTCCGTA TGCTGCTTCA GGGCCCCCAA GAGGCAGCTG GTTTGCCTCA 
CCCTGGTCTC TGTGCACAGC CAGCTGTGGG GGTGGTGTGC AGAGGAGAAC CGTGCAGTGT 
CTGCTGGGGG GACAGCCGGC CTCGGATTGC TTCCTGCATG AGAAACCCGA GACCTCCACA 
GCGTGCAACA CCCATTTCTG CCCTATTGCA GAGAAGAGAG ACACCTTCTG CAGAGACCTA 
TTCCACTGGT GCTACCTGGT GCCACAGCAT GGCATGTGCA GCCACAGGTT CTACAGCAAG 
CAGTGCTGCA ACACCTGTTC CAAGTCCAAC CTGTGA

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

RefSeq	XP_006222944.1
CDS	101..3076
Translation	MTTFTLASHESSISVEDARNVYMPQPPDDNLYILPDEYKPSSRPKRSLLKSHRNEELNVETLVVVDRKMLQSHGHENITTYVLTILNMVSALFKDGTIGGNINIVIVGLILLEDEQPGLAISHHADRTLTSFCQWQSGLMGKDGARHDHAILLTGLDICSWKNEPCDTLGFAPISGMCSKYRSCTVNEDSGLGLAFTIAHESGHNFGMVHDGEGNMCKKSEGNIMSPTLAGRNGVFSWSSCSRQYLHKFLSTAQAICLADQPKPVKEYKYPEKLPGQLYDANTQCKWQFGEKAKLCMLDFRKDICKALWCHRIGRKCETKFMPAAEGTLCGQDMWCRGGQCVKYGDEGPKPTHGHWSDWSPWSPCSRTCGGGVSHRDRLCTNPRPSHGGKFCQGSARTLKLCNSQKCPLDSVGFRAAQCAEYNSKRFRGWLYKWTPYTQVEDQDLCKLYCIAEGFDFFFSLSNKVKDGTPCSEDSRNVCIDGMCEKVGCDNVLGSDATEDSCGVCQGNNSDCVMHRGLYSKNHPTNQYYHVVTIPSGARSIHIYETNISTSYISVRNSVKKYYLNGHWSVDWPGRYKFSGTTFNYRRSYKEPESLTSTGPTNETLIVELLFQGRNPGVAWEFSVPRSGSKRTPPPQPSYSWAILRSECSVSCGGGKMSSKAGCYRDLKVLVNASFCNPKTRPVPALVPCKVSACPPSWSVGNWSTCSRTCGGGTQSRPVHCTRRAHYREESISASLCPQPAPPLHQACNSQSCPPAWSTGPWAECSRTCGKGWRKRTVACKSTNPSARAQLLHDTACTSEPKPRTHQVCLLKRCHKHKKLQWLVSAWSPCSATCQRGTQHRVLRCAEKYVSGKYRELASKKCLHLPKPDLELERACGLIPCPKHPPYAASGPPRGSWFASPWSLCTASCGGGVQRRTVQCLLGGQPASDCFLHEKPETSTACNTHFCPIAEKRDTFCRDLFHWCYLVPQHGMCSHRFYSKQCCNTCSKSNL

Target ORF information:

RefSeq Version	XM_006222882.3
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X2, mRNA.

Target ORF information:

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

XM_006222882.3

ORF Insert Sequence:

ATGACAACTT TCACCTTGGC CTCTCACGAA AGCAGCATTT CTGTGGAAGA CGCAAGAAAT 
GTATACATGC CCCAACCTCC GGATGATAAC CTCTACATCT TGCCTGATGA GTACAAGCCT 
AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA TCCCACAGAA ATGAAGAGTT GAATGTGGAG 
ACTCTGGTGG TGGTTGACAG AAAAATGCTG CAAAGCCATG GCCATGAAAA TATTACGACC 
TATGTGCTTA CCATTCTCAA CATGGTGTCT GCTTTATTCA AGGATGGAAC AATTGGGGGA 
AACATCAATA TTGTCATTGT GGGACTCATT CTGCTGGAAG ACGAACAGCC AGGGCTGGCG 
ATTAGTCACC ATGCAGACCG CACGTTAACC AGCTTCTGCC AGTGGCAATC TGGACTGATG 
GGGAAAGATG GAGCTCGTCA TGACCACGCC ATCTTACTGA CTGGTCTGGA CATATGTTCC 
TGGAAGAATG AACCCTGTGA CACATTGGGT TTCGCACCCA TCAGTGGGAT GTGCAGTAAG 
TACCGCAGCT GCACGGTCAA CGAAGACTCA GGCCTTGGAC TGGCCTTCAC CATTGCTCAT 
GAATCTGGAC ACAACTTTGG CATGGTCCAT GATGGAGAAG GGAATATGTG CAAGAAGTCT 
GAGGGCAACA TAATGTCCCC AACACTGGCA GGACGCAATG GCGTCTTCTC CTGGTCCTCC 
TGCAGTCGTC AGTACCTGCA CAAGTTCTTA AGCACCGCCC AAGCAATATG CCTTGCTGAC 
CAGCCGAAGC CTGTGAAAGA GTACAAGTAC CCGGAAAAGC TGCCAGGACA GTTATACGAT 
GCAAATACAC AGTGCAAGTG GCAGTTTGGA GAGAAAGCCA AGCTTTGCAT GCTGGACTTC 
AGAAAGGACA TCTGTAAGGC CTTGTGGTGC CATCGGATTG GAAGGAAATG TGAGACTAAG 
TTCATGCCAG CAGCAGAGGG TACACTGTGT GGGCAGGACA TGTGGTGTCG TGGAGGACAG 
TGTGTGAAGT ACGGTGACGA AGGCCCCAAG CCTACTCACG GCCATTGGTC AGATTGGTCC 
CCTTGGTCCC CCTGTTCCCG GACCTGTGGG GGAGGAGTCT CTCACAGAGA CCGTCTCTGT 
ACCAATCCCA GACCATCTCA TGGAGGGAAG TTTTGCCAGG GTTCCGCACG CACTCTGAAG 
CTTTGCAACA GTCAGAAATG CCCTCTGGAC AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT 
GAGTACAACA GCAAGCGTTT CCGAGGGTGG CTCTACAAGT GGACGCCTTA CACCCAAGTG 
GAAGATCAGG ACTTATGCAA ACTCTACTGT ATCGCAGAAG GATTTGATTT CTTCTTTTCT 
TTGTCAAATA AAGTCAAAGA TGGGACTCCA TGCTCGGAGG ATAGCCGTAA TGTTTGTATA 
GATGGGATGT GTGAGAAGGT TGGCTGTGAC AATGTCCTTG GATCGGATGC AACTGAGGAC 
TCCTGTGGGG TCTGCCAGGG GAATAACTCA GACTGCGTCA TGCATAGAGG ACTCTACAGT 
AAGAATCACC CCACCAACCA GTACTACCAC GTGGTAACCA TTCCCTCTGG AGCTCGGAGC 
ATTCACATCT ATGAAACAAA CATCTCTACC TCCTATATTT CTGTGCGCAA TTCTGTCAAG 
AAATATTACC TGAATGGGCA CTGGAGTGTG GACTGGCCAG GGCGATACAA GTTTTCAGGT 
ACCACCTTCA ACTACAGACG ATCCTACAAG GAGCCTGAGA GTTTAACCTC CACTGGACCA 
ACCAACGAAA CACTGATTGT GGAGCTTTTG TTCCAAGGCA GGAACCCTGG AGTGGCCTGG 
GAATTCTCAG TGCCCAGGTC AGGGTCTAAA AGGACTCCAC CTCCCCAGCC CAGCTACTCA 
TGGGCTATCC TGCGCTCTGA GTGCTCTGTC TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG 
GCGGGATGCT ACAGAGACCT GAAGGTTCTG GTCAATGCAT CCTTCTGCAA CCCCAAGACA 
CGACCTGTCC CAGCACTGGT GCCCTGCAAG GTGTCAGCTT GTCCTCCCAG CTGGTCTGTG 
GGAAACTGGA GCACATGCAG CCGGACATGT GGTGGGGGCA CCCAGAGCAG GCCCGTGCAC 
TGTACACGGA GGGCACACTA CCGTGAGGAG TCCATCTCAG CCAGCCTGTG TCCACAGCCT 
GCACCCCCCC TTCACCAAGC CTGCAACTCT CAGAGCTGCC CACCTGCTTG GAGCACTGGG 
CCCTGGGCAG AGTGCTCACG GACCTGTGGG AAGGGCTGGA GGAAGAGGAC AGTGGCCTGC 
AAGAGCACCA ACCCCTCAGC TCGAGCCCAG CTGCTGCATG ACACGGCCTG CACTTCGGAA 
CCCAAGCCTC GGACCCACCA AGTCTGCCTG CTCAAGCGCT GCCACAAGCA TAAGAAGCTA 
CAGTGGCTGG TATCTGCCTG GTCCCCGTGC TCTGCGACAT GCCAGAGAGG AACACAGCAT 
AGAGTTCTCA GGTGTGCTGA GAAGTACGTC TCCGGAAAGT ACCGAGAGCT GGCCTCCAAG 
AAGTGCTTGC ATCTGCCAAA GCCTGACCTG GAACTGGAAC GTGCTTGCGG CCTGATTCCC 
TGCCCCAAGC ACCCTCCGTA TGCTGCTTCA GGGCCCCCAA GAGGCAGCTG GTTTGCCTCA 
CCCTGGTCTC TGTGCACAGC CAGCTGTGGG GGTGGTGTGC AGAGGAGAAC CGTGCAGTGT 
CTGCTGGGGG GACAGCCGGC CTCGGATTGC TTCCTGCATG AGAAACCCGA GACCTCCACA 
GCGTGCAACA CCCATTTCTG CCCTATTGCA GAGAAGAGAG ACACCTTCTG CAGAGACCTA 
TTCCACTGGT GCTACCTGGT GCCACAGCAT GGCATGTGCA GCCACAGGTT CTACAGCAAG 
CAGTGCTGCA ACACCTGTTC CAAGTCCAAC CTGTGA

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

Adamts16 ( XM_008774310.2 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_008772532.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X3, mRNA.

Price & Availability↑

CloneID	ORa46437
Clone ID Related Accession (Same CDS sequence)	XM_008774310.2
Accession Version	XM_008774310.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2961bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 16 isoform X3
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000069.1) annotated using gene prediction method: Gnomon. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_008774310.1. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 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##

ATGGAACCCC GCGGTTGCTT TGCGCTCTGG GTGCTGTTGC TGGCGCAGCT CAGTGAGCAG 
CAAACACCTG CGTGCGCCCT AGGAGCTGCA GCTGCAGCGA CTGAGCGCCT GGGAGACCCT 
CATCCTCCCT CTTCCTCCGG GTCGGACTGG CTGGAAACCA GCGAGTATGA CCTGGTGTCT 
GCCTATGAGG TAGACCACAG CGGGGATTAT GTATCCTATG ACATCATGCA TCACCAGCGG 
CGACGGAGAA GAGCTGTGAC CCAGTCAAAA GGAGATGCCC TTCATCTACG GCTGAAGGGC 
CCCAGGCATG ACCTCCACCT AGACCTGAAA GCTGCCAGCA ACTTGATGGC TCCTGGATTC 
ATGGTGCAAA CTCTGGGGAA GGGAGGCACC AAGTCTGTAC AGATGTTTCC AGCAGAGGAG 
AACTGCTTTT ATCAAGGGTC CTTAAGGTCC CAGGGGAATT CTTCTGTGGC CCTTTCTACC 
TGCCAAGGTT TGTTAGGCAT GATAAGAACA AAAGACGCTG ATTACTTCTT AAAGCCGCTG 
CCTCCACAAC TAACAAGCAA ACTAAACAGG TCTGCACAGG GCGGCTCTCC TTCCCATATT 
CTGTACAAGA GATCCACAGA GCACCAGGCT CCCAGAGAAA ATGAAGTCCT GATGATCACC 
AGGAAGCGAG ATCTGGCAAG AACGCATCTG CACCATGACA ACTTTCACCT TGGCCTCTCA 
CGAAAGCAGC ATTTCTGTGG AAGACGCAAG AAATACATGC CCCAACCTCC GGATGATAAC 
CTCTACATCT TGCCTGATGA GTACAAGCCT AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA 
TCCCACAGAA ATGAAGAGTT GAATGTGGAG ACTCTGGTGG TGGTTGACAG AAAAATGCTG 
CAAAGCCATG GCCATGAAAA TATTACGACC TATGTGCTTA CCATTCTCAA CATGGTGTCT 
GCTTTATTCA AGGATGGAAC AATTGGGGGA AACATCAATA TTGTCATTGT GGGACTCATT 
CTGCTGGAAG ACGAACAGCC AGGGCTGGCG ATTAGTCACC ATGCAGACCG CACGTTAACC 
AGCTTCTGCC AGTGGCAATC TGGACTGATG GGGAAAGATG GAGCTCGTCA TGACCACGCC 
ATCTTACTGA CTGGTCTGGA CATATGTTCC TGGAAGAATG AACCCTGTGA CACATTGGGT 
TTCGCACCCA TCAGTGGGAT GTGCAGTAAG TACCGCAGCT GCACGGTCAA CGAAGACTCA 
GGCCTTGGAC TGGCCTTCAC CATTGCTCAT GAATCTGGAC ACAACTTTGG CATGGTCCAT 
GATGGAGAAG GGAATATGTG CAAGAAGTCT GAGGGCAACA TAATGTCCCC AACACTGGCA 
GGACGCAATG GCGTCTTCTC CTGGTCCTCC TGCAGTCGTC AGTACCTGCA CAAGTTCTTA 
AGCACCGCCC AAGCAATATG CCTTGCTGAC CAGCCGAAGC CTGTGAAAGA GTACAAGTAC 
CCGGAAAAGC TGCCAGGACA GTTATACGAT GCAAATACAC AGTGCAAGTG GCAGTTTGGA 
GAGAAAGCCA AGCTTTGCAT GCTGGACTTC AGAAAGGACA TCTGTAAGGC CTTGTGGTGC 
CATCGGATTG GAAGGAAATG TGAGACTAAG TTCATGCCAG CAGCAGAGGG TACACTGTGT 
GGGCAGGACA TGTGGTGTCG TGGAGGACAG TGTGTGAAGT ACGGTGACGA AGGCCCCAAG 
CCTACTCACG GCCATTGGTC AGATTGGTCC CCTTGGTCCC CCTGTTCCCG GACCTGTGGG 
GGAGGAGTCT CTCACAGAGA CCGTCTCTGT ACCAATCCCA GACCATCTCA TGGAGGGAAG 
TTTTGCCAGG GTTCCGCACG CACTCTGAAG CTTTGCAACA GTCAGAAATG CCCTCTGGAC 
AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT GAGTACAACA GCAAGCGTTT CCGAGGGTGG 
CTCTACAAGT GGACGCCTTA CACCCAAGTG GAAGATCAGG ACTTATGCAA ACTCTACTGT 
ATCGCAGAAG GATTTGATTT CTTCTTTTCT TTGTCAAATA AAGTCAAAGA TGGGACTCCA 
TGCTCGGAGG ATAGCCGTAA TGTTTGTATA GATGGGATGT GTGAGAAGGT TGGCTGTGAC 
AATGTCCTTG GATCGGATGC AACTGAGGAC TCCTGTGGGG TCTGCCAGGG GAATAACTCA 
GACTGCGTCA TGCATAGAGG ACTCTACAGT AAGAATCACC CCACCAACCA GTACTACCAC 
GTGGTAACCA TTCCCTCTGG AGCTCGGAGC ATTCACATCT ATGAAACAAA CATCTCTACC 
TCCTATATTT CTGTGCGCAA TTCTGTCAAG AAATATTACC TGAATGGGCA CTGGAGTGTG 
GACTGGCCAG GGCGATACAA GTTTTCAGGT ACCACCTTCA ACTACAGACG ATCCTACAAG 
GAGCCTGAGA GTTTAACCTC CACTGGACCA ACCAACGAAA CACTGATTGT GGAGCTTTTG 
TTCCAAGGCA GGAACCCTGG AGTGGCCTGG GAATTCTCAG TGCCCAGGTC AGGGTCTAAA 
AGGACTCCAC CTCCCCAGCC CAGCTACTCA TGGGCTATCC TGCGCTCTGA GTGCTCTGTC 
TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG GCGGGATGCT ACAGAGACCT GAAGGTTCTG 
GTCAATGCAT CCTTCTGCAA CCCCAAGACA CGACCTGTCC CAGCACTGGT GCCCTGCAAG 
GTGTCAGCTT GTCCTCCCAG CAATGGAAGC ACATACAACA CTTGGAGCTT AGAGTTACCT 
CTGTCAAGCA CAGGACCTTC TTCAGAAAAT TATATTCTCC CAAAGCTGGT CTGTGGGAAA 
CTGGAGCACA TGCAGCCGGA CATGTGGTGG GGGCACCCAG AGCAGGCCCG TGCACTGTAC 
ACGGAGGGCA CACTACCGTG A

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

RefSeq	XP_008772532.1
CDS	223..3183
Translation	MEPRGCFALWVLLLAQLSEQQTPACALGAAAAATERLGDPHPPSSSGSDWLETSEYDLVSAYEVDHSGDYVSYDIMHHQRRRRRAVTQSKGDALHLRLKGPRHDLHLDLKAASNLMAPGFMVQTLGKGGTKSVQMFPAEENCFYQGSLRSQGNSSVALSTCQGLLGMIRTKDADYFLKPLPPQLTSKLNRSAQGGSPSHILYKRSTEHQAPRENEVLMITRKRDLARTHLHHDNFHLGLSRKQHFCGRRKKYMPQPPDDNLYILPDEYKPSSRPKRSLLKSHRNEELNVETLVVVDRKMLQSHGHENITTYVLTILNMVSALFKDGTIGGNINIVIVGLILLEDEQPGLAISHHADRTLTSFCQWQSGLMGKDGARHDHAILLTGLDICSWKNEPCDTLGFAPISGMCSKYRSCTVNEDSGLGLAFTIAHESGHNFGMVHDGEGNMCKKSEGNIMSPTLAGRNGVFSWSSCSRQYLHKFLSTAQAICLADQPKPVKEYKYPEKLPGQLYDANTQCKWQFGEKAKLCMLDFRKDICKALWCHRIGRKCETKFMPAAEGTLCGQDMWCRGGQCVKYGDEGPKPTHGHWSDWSPWSPCSRTCGGGVSHRDRLCTNPRPSHGGKFCQGSARTLKLCNSQKCPLDSVGFRAAQCAEYNSKRFRGWLYKWTPYTQVEDQDLCKLYCIAEGFDFFFSLSNKVKDGTPCSEDSRNVCIDGMCEKVGCDNVLGSDATEDSCGVCQGNNSDCVMHRGLYSKNHPTNQYYHVVTIPSGARSIHIYETNISTSYISVRNSVKKYYLNGHWSVDWPGRYKFSGTTFNYRRSYKEPESLTSTGPTNETLIVELLFQGRNPGVAWEFSVPRSGSKRTPPPQPSYSWAILRSECSVSCGGGKMSSKAGCYRDLKVLVNASFCNPKTRPVPALVPCKVSACPPSNGSTYNTWSLELPLSSTGPSSENYILPKLVCGKLEHMQPDMWWGHPEQARALYTEGTLP

Target ORF information:

RefSeq Version	XM_008774310.2
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X3, mRNA.

Target ORF information:

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

XM_008774310.2

ORF Insert Sequence:

ATGGAACCCC GCGGTTGCTT TGCGCTCTGG GTGCTGTTGC TGGCGCAGCT CAGTGAGCAG 
CAAACACCTG CGTGCGCCCT AGGAGCTGCA GCTGCAGCGA CTGAGCGCCT GGGAGACCCT 
CATCCTCCCT CTTCCTCCGG GTCGGACTGG CTGGAAACCA GCGAGTATGA CCTGGTGTCT 
GCCTATGAGG TAGACCACAG CGGGGATTAT GTATCCTATG ACATCATGCA TCACCAGCGG 
CGACGGAGAA GAGCTGTGAC CCAGTCAAAA GGAGATGCCC TTCATCTACG GCTGAAGGGC 
CCCAGGCATG ACCTCCACCT AGACCTGAAA GCTGCCAGCA ACTTGATGGC TCCTGGATTC 
ATGGTGCAAA CTCTGGGGAA GGGAGGCACC AAGTCTGTAC AGATGTTTCC AGCAGAGGAG 
AACTGCTTTT ATCAAGGGTC CTTAAGGTCC CAGGGGAATT CTTCTGTGGC CCTTTCTACC 
TGCCAAGGTT TGTTAGGCAT GATAAGAACA AAAGACGCTG ATTACTTCTT AAAGCCGCTG 
CCTCCACAAC TAACAAGCAA ACTAAACAGG TCTGCACAGG GCGGCTCTCC TTCCCATATT 
CTGTACAAGA GATCCACAGA GCACCAGGCT CCCAGAGAAA ATGAAGTCCT GATGATCACC 
AGGAAGCGAG ATCTGGCAAG AACGCATCTG CACCATGACA ACTTTCACCT TGGCCTCTCA 
CGAAAGCAGC ATTTCTGTGG AAGACGCAAG AAATACATGC CCCAACCTCC GGATGATAAC 
CTCTACATCT TGCCTGATGA GTACAAGCCT AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA 
TCCCACAGAA ATGAAGAGTT GAATGTGGAG ACTCTGGTGG TGGTTGACAG AAAAATGCTG 
CAAAGCCATG GCCATGAAAA TATTACGACC TATGTGCTTA CCATTCTCAA CATGGTGTCT 
GCTTTATTCA AGGATGGAAC AATTGGGGGA AACATCAATA TTGTCATTGT GGGACTCATT 
CTGCTGGAAG ACGAACAGCC AGGGCTGGCG ATTAGTCACC ATGCAGACCG CACGTTAACC 
AGCTTCTGCC AGTGGCAATC TGGACTGATG GGGAAAGATG GAGCTCGTCA TGACCACGCC 
ATCTTACTGA CTGGTCTGGA CATATGTTCC TGGAAGAATG AACCCTGTGA CACATTGGGT 
TTCGCACCCA TCAGTGGGAT GTGCAGTAAG TACCGCAGCT GCACGGTCAA CGAAGACTCA 
GGCCTTGGAC TGGCCTTCAC CATTGCTCAT GAATCTGGAC ACAACTTTGG CATGGTCCAT 
GATGGAGAAG GGAATATGTG CAAGAAGTCT GAGGGCAACA TAATGTCCCC AACACTGGCA 
GGACGCAATG GCGTCTTCTC CTGGTCCTCC TGCAGTCGTC AGTACCTGCA CAAGTTCTTA 
AGCACCGCCC AAGCAATATG CCTTGCTGAC CAGCCGAAGC CTGTGAAAGA GTACAAGTAC 
CCGGAAAAGC TGCCAGGACA GTTATACGAT GCAAATACAC AGTGCAAGTG GCAGTTTGGA 
GAGAAAGCCA AGCTTTGCAT GCTGGACTTC AGAAAGGACA TCTGTAAGGC CTTGTGGTGC 
CATCGGATTG GAAGGAAATG TGAGACTAAG TTCATGCCAG CAGCAGAGGG TACACTGTGT 
GGGCAGGACA TGTGGTGTCG TGGAGGACAG TGTGTGAAGT ACGGTGACGA AGGCCCCAAG 
CCTACTCACG GCCATTGGTC AGATTGGTCC CCTTGGTCCC CCTGTTCCCG GACCTGTGGG 
GGAGGAGTCT CTCACAGAGA CCGTCTCTGT ACCAATCCCA GACCATCTCA TGGAGGGAAG 
TTTTGCCAGG GTTCCGCACG CACTCTGAAG CTTTGCAACA GTCAGAAATG CCCTCTGGAC 
AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT GAGTACAACA GCAAGCGTTT CCGAGGGTGG 
CTCTACAAGT GGACGCCTTA CACCCAAGTG GAAGATCAGG ACTTATGCAA ACTCTACTGT 
ATCGCAGAAG GATTTGATTT CTTCTTTTCT TTGTCAAATA AAGTCAAAGA TGGGACTCCA 
TGCTCGGAGG ATAGCCGTAA TGTTTGTATA GATGGGATGT GTGAGAAGGT TGGCTGTGAC 
AATGTCCTTG GATCGGATGC AACTGAGGAC TCCTGTGGGG TCTGCCAGGG GAATAACTCA 
GACTGCGTCA TGCATAGAGG ACTCTACAGT AAGAATCACC CCACCAACCA GTACTACCAC 
GTGGTAACCA TTCCCTCTGG AGCTCGGAGC ATTCACATCT ATGAAACAAA CATCTCTACC 
TCCTATATTT CTGTGCGCAA TTCTGTCAAG AAATATTACC TGAATGGGCA CTGGAGTGTG 
GACTGGCCAG GGCGATACAA GTTTTCAGGT ACCACCTTCA ACTACAGACG ATCCTACAAG 
GAGCCTGAGA GTTTAACCTC CACTGGACCA ACCAACGAAA CACTGATTGT GGAGCTTTTG 
TTCCAAGGCA GGAACCCTGG AGTGGCCTGG GAATTCTCAG TGCCCAGGTC AGGGTCTAAA 
AGGACTCCAC CTCCCCAGCC CAGCTACTCA TGGGCTATCC TGCGCTCTGA GTGCTCTGTC 
TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG GCGGGATGCT ACAGAGACCT GAAGGTTCTG 
GTCAATGCAT CCTTCTGCAA CCCCAAGACA CGACCTGTCC CAGCACTGGT GCCCTGCAAG 
GTGTCAGCTT GTCCTCCCAG CAATGGAAGC ACATACAACA CTTGGAGCTT AGAGTTACCT 
CTGTCAAGCA CAGGACCTTC TTCAGAAAAT TATATTCTCC CAAAGCTGGT CTGTGGGAAA 
CTGGAGCACA TGCAGCCGGA CATGTGGTGG GGGCACCCAG AGCAGGCCCG TGCACTGTAC 
ACGGAGGGCA CACTACCGTG A

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

Adamts16 ( NM_001372015.1 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> NP_001358944.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), mRNA.

Price & Availability↑

CloneID	ORa14031
Clone ID Related Accession (Same CDS sequence)	XM_003753157.4 , XM_003748684.4 , NM_001372015.1
Accession Version	NM_001372015.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3666bp) 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	2019-07-31
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 16 precursor
Comment	Comment: VALIDATED REFSEQ: This record has undergone validation or preliminary review. The reference sequence was derived from AABR07001035.1, AABR07001036.1, AABR07001037.1 and AABR07001039.1. On or before Aug 1, 2019 this sequence version replaced XM_003748684.4, XM_003753157.4. 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 :: single sample supports all introns SAMN04563757, SAMN04563758 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## inferred exon combination :: based on alignments, homology ##RefSeq-Attributes-END##

ATGGAACCCC GCGGTTGCTT TGCGCTCTGG GTGCTGTTGC TGGCGCAGCT CAGTGAGCAG 
CAAACACCTG CGTGCGCCCT AGGAGCTGCA GCTGCAGCGA CTGAGCGCCT GGGAGACCCT 
CATCCTCCCT CTTCCTCCGG GTCGGACTGG CTGGAAACCA GCGAGTATGA CCTGGTGTCT 
GCCTATGAGG TAGACCACAG CGGGGATTAT GTATCCTATG ACATCATGCA TCACCAGCGG 
CGACGGAGAA GAGCTGTGAC CCAGTCAAAA GGAGATGCCC TTCATCTACG GCTGAAGGGC 
CCCAGGCATG ACCTCCACCT AGACCTGAAA GCTGCCAGCA ACTTGATGGC TCCTGGATTC 
ATGGTGCAAA CTCTGGGGAA GGGAGGCACC AAGTCTGTAC AGATGTTTCC AGCAGAGGAG 
AACTGCTTTT ATCAAGGGTC CTTAAGGTCC CAGGGGAATT CTTCTGTGGC CCTTTCTACC 
TGCCAAGGTT TGTTAGGCAT GATAAGAACA AAAGACGCTG ATTACTTCTT AAAGCCGCTG 
CCTCCACAAC TAACAAGCAA ACTAAACAGG TCTGCACAGG GCGGCTCTCC TTCCCATATT 
CTGTACAAGA GATCCACAGA GCACCAGGCT CCCAGAGAAA ATGAAGTCCT GATGATCACC 
AGGAAGCGAG ATCTGGCAAG AACGCATCTG CACCATGACA ACTTTCACCT TGGCCTCTCA 
CGAAAGCAGC ATTTCTGTGG AAGACGCAAG AAATACATGC CCCAACCTCC GGATGATAAC 
CTCTACATCT TGCCTGATGA GTACAAGCCT AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA 
TCCCACAGAA ATGAAGAGTT GAATGTGGAG ACTCTGGTGG TGGTTGACAG AAAAATGCTG 
CAAAGCCATG GCCATGAAAA TATTACGACC TATGTGCTTA CCATTCTCAA CATGGTGTCT 
GCTTTATTCA AGGATGGAAC AATTGGGGGA AACATCAATA TTGTCATTGT GGGACTCATT 
CTGCTGGAAG ACGAACAGCC AGGGCTGGCG ATTAGTCACC ATGCAGACCG CACGTTAACC 
AGCTTCTGCC AGTGGCAATC TGGACTGATG GGGAAAGATG GAGCTCGTCA TGACCACGCC 
ATCTTACTGA CTGGTCTGGA CATATGTTCC TGGAAGAATG AACCCTGTGA CACATTGGGT 
TTCGCACCCA TCAGTGGGAT GTGCAGTAAG TACCGCAGCT GCACGGTCAA CGAAGACTCA 
GGCCTTGGAC TGGCCTTCAC CATTGCTCAT GAATCTGGAC ACAACTTTGG CATGGTCCAT 
GATGGAGAAG GGAATATGTG CAAGAAGTCT GAGGGCAACA TAATGTCCCC AACACTGGCA 
GGACGCAATG GCGTCTTCTC CTGGTCCTCC TGCAGTCGTC AGTACCTGCA CAAGTTCTTA 
AGCACCGCCC AAGCAATATG CCTTGCTGAC CAGCCGAAGC CTGTGAAAGA GTACAAGTAC 
CCGGAAAAGC TGCCAGGACA GTTATACGAT GCAAATACAC AGTGCAAGTG GCAGTTTGGA 
GAGAAAGCCA AGCTTTGCAT GCTGGACTTC AGAAAGGACA TCTGTAAGGC CTTGTGGTGC 
CATCGGATTG GAAGGAAATG TGAGACTAAG TTCATGCCAG CAGCAGAGGG TACACTGTGT 
GGGCAGGACA TGTGGTGTCG TGGAGGACAG TGTGTGAAGT ACGGTGACGA AGGCCCCAAG 
CCTACTCACG GCCATTGGTC AGATTGGTCC CCTTGGTCCC CCTGTTCCCG GACCTGTGGG 
GGAGGAGTCT CTCACAGAGA CCGTCTCTGT ACCAATCCCA GACCATCTCA TGGAGGGAAG 
TTTTGCCAGG GTTCCGCACG CACTCTGAAG CTTTGCAACA GTCAGAAATG CCCTCTGGAC 
AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT GAGTACAACA GCAAGCGTTT CCGAGGGTGG 
CTCTACAAGT GGACGCCTTA CACCCAAGTG GAAGATCAGG ACTTATGCAA ACTCTACTGT 
ATCGCAGAAG GATTTGATTT CTTCTTTTCT TTGTCAAATA AAGTCAAAGA TGGGACTCCA 
TGCTCGGAGG ATAGCCGTAA TGTTTGTATA GATGGGATGT GTGAGAAGGT TGGCTGTGAC 
AATGTCCTTG GATCGGATGC AACTGAGGAC TCCTGTGGGG TCTGCCAGGG GAATAACTCA 
GACTGCGTCA TGCATAGAGG ACTCTACAGT AAGAATCACC CCACCAACCA GTACTACCAC 
GTGGTAACCA TTCCCTCTGG AGCTCGGAGC ATTCACATCT ATGAAACAAA CATCTCTACC 
TCCTATATTT CTGTGCGCAA TTCTGTCAAG AAATATTACC TGAATGGGCA CTGGAGTGTG 
GACTGGCCAG GGCGATACAA GTTTTCAGGT ACCACCTTCA ACTACAGACG ATCCTACAAG 
GAGCCTGAGA GTTTAACCTC CACTGGACCA ACCAACGAAA CACTGATTGT GGAGCTTTTG 
TTCCAAGGCA GGAACCCTGG AGTGGCCTGG GAATTCTCAG TGCCCAGGTC AGGGTCTAAA 
AGGACTCCAC CTCCCCAGCC CAGCTACTCA TGGGCTATCC TGCGCTCTGA GTGCTCTGTC 
TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG GCGGGATGCT ACAGAGACCT GAAGGTTCTG 
GTCAATGCAT CCTTCTGCAA CCCCAAGACA CGACCTGTCC CAGCACTGGT GCCCTGCAAG 
GTGTCAGCTT GTCCTCCCAG CTGGTCTGTG GGAAACTGGA GCACATGCAG CCGGACATGT 
GGTGGGGGCA CCCAGAGCAG GCCCGTGCAC TGTACACGGA GGGCACACTA CCGTGAGGAG 
TCCATCTCAG CCAGCCTGTG TCCACAGCCT GCACCCCCCC TTCACCAAGC CTGCAACTCT 
CAGAGCTGCC CACCTGCTTG GAGCACTGGG CCCTGGGCAG AGTGCTCACG GACCTGTGGG 
AAGGGCTGGA GGAAGAGGAC AGTGGCCTGC AAGAGCACCA ACCCCTCAGC TCGAGCCCAG 
CTGCTGCATG ACACGGCCTG CACTTCGGAA CCCAAGCCTC GGACCCACCA AGTCTGCCTG 
CTCAAGCGCT GCCACAAGCA TAAGAAGCTA CAGTGGCTGG TATCTGCCTG GTCCCCGTGC 
TCTGCGACAT GCCAGAGAGG AACACAGCAT AGAGTTCTCA GGTGTGCTGA GAAGTACGTC 
TCCGGAAAGT ACCGAGAGCT GGCCTCCAAG AAGTGCTTGC ATCTGCCAAA GCCTGACCTG 
GAACTGGAAC GTGCTTGCGG CCTGATTCCC TGCCCCAAGC ACCCTCCGTA TGCTGCTTCA 
GGGCCCCCAA GAGGCAGCTG GTTTGCCTCA CCCTGGTCTC TGTGCACAGC CAGCTGTGGG 
GGTGGTGTGC AGAGGAGAAC CGTGCAGTGT CTGCTGGGGG GACAGCCGGC CTCGGATTGC 
TTCCTGCATG AGAAACCCGA GACCTCCACA GCGTGCAACA CCCATTTCTG CCCTATTGCA 
GAGAAGAGAG ACACCTTCTG CAGAGACCTA TTCCACTGGT GCTACCTGGT GCCACAGCAT 
GGCATGTGCA GCCACAGGTT CTACAGCAAG CAGTGCTGCA ACACCTGTTC CAAGTCCAAC 
CTGTGA

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

RefSeq	NP_001358944.1
CDS	223..3888
Translation	MEPRGCFALWVLLLAQLSEQQTPACALGAAAAATERLGDPHPPSSSGSDWLETSEYDLVSAYEVDHSGDYVSYDIMHHQRRRRRAVTQSKGDALHLRLKGPRHDLHLDLKAASNLMAPGFMVQTLGKGGTKSVQMFPAEENCFYQGSLRSQGNSSVALSTCQGLLGMIRTKDADYFLKPLPPQLTSKLNRSAQGGSPSHILYKRSTEHQAPRENEVLMITRKRDLARTHLHHDNFHLGLSRKQHFCGRRKKYMPQPPDDNLYILPDEYKPSSRPKRSLLKSHRNEELNVETLVVVDRKMLQSHGHENITTYVLTILNMVSALFKDGTIGGNINIVIVGLILLEDEQPGLAISHHADRTLTSFCQWQSGLMGKDGARHDHAILLTGLDICSWKNEPCDTLGFAPISGMCSKYRSCTVNEDSGLGLAFTIAHESGHNFGMVHDGEGNMCKKSEGNIMSPTLAGRNGVFSWSSCSRQYLHKFLSTAQAICLADQPKPVKEYKYPEKLPGQLYDANTQCKWQFGEKAKLCMLDFRKDICKALWCHRIGRKCETKFMPAAEGTLCGQDMWCRGGQCVKYGDEGPKPTHGHWSDWSPWSPCSRTCGGGVSHRDRLCTNPRPSHGGKFCQGSARTLKLCNSQKCPLDSVGFRAAQCAEYNSKRFRGWLYKWTPYTQVEDQDLCKLYCIAEGFDFFFSLSNKVKDGTPCSEDSRNVCIDGMCEKVGCDNVLGSDATEDSCGVCQGNNSDCVMHRGLYSKNHPTNQYYHVVTIPSGARSIHIYETNISTSYISVRNSVKKYYLNGHWSVDWPGRYKFSGTTFNYRRSYKEPESLTSTGPTNETLIVELLFQGRNPGVAWEFSVPRSGSKRTPPPQPSYSWAILRSECSVSCGGGKMSSKAGCYRDLKVLVNASFCNPKTRPVPALVPCKVSACPPSWSVGNWSTCSRTCGGGTQSRPVHCTRRAHYREESISASLCPQPAPPLHQACNSQSCPPAWSTGPWAECSRTCGKGWRKRTVACKSTNPSARAQLLHDTACTSEPKPRTHQVCLLKRCHKHKKLQWLVSAWSPCSATCQRGTQHRVLRCAEKYVSGKYRELASKKCLHLPKPDLELERACGLIPCPKHPPYAASGPPRGSWFASPWSLCTASCGGGVQRRTVQCLLGGQPASDCFLHEKPETSTACNTHFCPIAEKRDTFCRDLFHWCYLVPQHGMCSHRFYSKQCCNTCSKSNL

Target ORF information:

RefSeq Version	NM_001372015.1
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), mRNA.

Target ORF information:

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

NM_001372015.1

ORF Insert Sequence:

ATGGAACCCC GCGGTTGCTT TGCGCTCTGG GTGCTGTTGC TGGCGCAGCT CAGTGAGCAG 
CAAACACCTG CGTGCGCCCT AGGAGCTGCA GCTGCAGCGA CTGAGCGCCT GGGAGACCCT 
CATCCTCCCT CTTCCTCCGG GTCGGACTGG CTGGAAACCA GCGAGTATGA CCTGGTGTCT 
GCCTATGAGG TAGACCACAG CGGGGATTAT GTATCCTATG ACATCATGCA TCACCAGCGG 
CGACGGAGAA GAGCTGTGAC CCAGTCAAAA GGAGATGCCC TTCATCTACG GCTGAAGGGC 
CCCAGGCATG ACCTCCACCT AGACCTGAAA GCTGCCAGCA ACTTGATGGC TCCTGGATTC 
ATGGTGCAAA CTCTGGGGAA GGGAGGCACC AAGTCTGTAC AGATGTTTCC AGCAGAGGAG 
AACTGCTTTT ATCAAGGGTC CTTAAGGTCC CAGGGGAATT CTTCTGTGGC CCTTTCTACC 
TGCCAAGGTT TGTTAGGCAT GATAAGAACA AAAGACGCTG ATTACTTCTT AAAGCCGCTG 
CCTCCACAAC TAACAAGCAA ACTAAACAGG TCTGCACAGG GCGGCTCTCC TTCCCATATT 
CTGTACAAGA GATCCACAGA GCACCAGGCT CCCAGAGAAA ATGAAGTCCT GATGATCACC 
AGGAAGCGAG ATCTGGCAAG AACGCATCTG CACCATGACA ACTTTCACCT TGGCCTCTCA 
CGAAAGCAGC ATTTCTGTGG AAGACGCAAG AAATACATGC CCCAACCTCC GGATGATAAC 
CTCTACATCT TGCCTGATGA GTACAAGCCT AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA 
TCCCACAGAA ATGAAGAGTT GAATGTGGAG ACTCTGGTGG TGGTTGACAG AAAAATGCTG 
CAAAGCCATG GCCATGAAAA TATTACGACC TATGTGCTTA CCATTCTCAA CATGGTGTCT 
GCTTTATTCA AGGATGGAAC AATTGGGGGA AACATCAATA TTGTCATTGT GGGACTCATT 
CTGCTGGAAG ACGAACAGCC AGGGCTGGCG ATTAGTCACC ATGCAGACCG CACGTTAACC 
AGCTTCTGCC AGTGGCAATC TGGACTGATG GGGAAAGATG GAGCTCGTCA TGACCACGCC 
ATCTTACTGA CTGGTCTGGA CATATGTTCC TGGAAGAATG AACCCTGTGA CACATTGGGT 
TTCGCACCCA TCAGTGGGAT GTGCAGTAAG TACCGCAGCT GCACGGTCAA CGAAGACTCA 
GGCCTTGGAC TGGCCTTCAC CATTGCTCAT GAATCTGGAC ACAACTTTGG CATGGTCCAT 
GATGGAGAAG GGAATATGTG CAAGAAGTCT GAGGGCAACA TAATGTCCCC AACACTGGCA 
GGACGCAATG GCGTCTTCTC CTGGTCCTCC TGCAGTCGTC AGTACCTGCA CAAGTTCTTA 
AGCACCGCCC AAGCAATATG CCTTGCTGAC CAGCCGAAGC CTGTGAAAGA GTACAAGTAC 
CCGGAAAAGC TGCCAGGACA GTTATACGAT GCAAATACAC AGTGCAAGTG GCAGTTTGGA 
GAGAAAGCCA AGCTTTGCAT GCTGGACTTC AGAAAGGACA TCTGTAAGGC CTTGTGGTGC 
CATCGGATTG GAAGGAAATG TGAGACTAAG TTCATGCCAG CAGCAGAGGG TACACTGTGT 
GGGCAGGACA TGTGGTGTCG TGGAGGACAG TGTGTGAAGT ACGGTGACGA AGGCCCCAAG 
CCTACTCACG GCCATTGGTC AGATTGGTCC CCTTGGTCCC CCTGTTCCCG GACCTGTGGG 
GGAGGAGTCT CTCACAGAGA CCGTCTCTGT ACCAATCCCA GACCATCTCA TGGAGGGAAG 
TTTTGCCAGG GTTCCGCACG CACTCTGAAG CTTTGCAACA GTCAGAAATG CCCTCTGGAC 
AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT GAGTACAACA GCAAGCGTTT CCGAGGGTGG 
CTCTACAAGT GGACGCCTTA CACCCAAGTG GAAGATCAGG ACTTATGCAA ACTCTACTGT 
ATCGCAGAAG GATTTGATTT CTTCTTTTCT TTGTCAAATA AAGTCAAAGA TGGGACTCCA 
TGCTCGGAGG ATAGCCGTAA TGTTTGTATA GATGGGATGT GTGAGAAGGT TGGCTGTGAC 
AATGTCCTTG GATCGGATGC AACTGAGGAC TCCTGTGGGG TCTGCCAGGG GAATAACTCA 
GACTGCGTCA TGCATAGAGG ACTCTACAGT AAGAATCACC CCACCAACCA GTACTACCAC 
GTGGTAACCA TTCCCTCTGG AGCTCGGAGC ATTCACATCT ATGAAACAAA CATCTCTACC 
TCCTATATTT CTGTGCGCAA TTCTGTCAAG AAATATTACC TGAATGGGCA CTGGAGTGTG 
GACTGGCCAG GGCGATACAA GTTTTCAGGT ACCACCTTCA ACTACAGACG ATCCTACAAG 
GAGCCTGAGA GTTTAACCTC CACTGGACCA ACCAACGAAA CACTGATTGT GGAGCTTTTG 
TTCCAAGGCA GGAACCCTGG AGTGGCCTGG GAATTCTCAG TGCCCAGGTC AGGGTCTAAA 
AGGACTCCAC CTCCCCAGCC CAGCTACTCA TGGGCTATCC TGCGCTCTGA GTGCTCTGTC 
TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG GCGGGATGCT ACAGAGACCT GAAGGTTCTG 
GTCAATGCAT CCTTCTGCAA CCCCAAGACA CGACCTGTCC CAGCACTGGT GCCCTGCAAG 
GTGTCAGCTT GTCCTCCCAG CTGGTCTGTG GGAAACTGGA GCACATGCAG CCGGACATGT 
GGTGGGGGCA CCCAGAGCAG GCCCGTGCAC TGTACACGGA GGGCACACTA CCGTGAGGAG 
TCCATCTCAG CCAGCCTGTG TCCACAGCCT GCACCCCCCC TTCACCAAGC CTGCAACTCT 
CAGAGCTGCC CACCTGCTTG GAGCACTGGG CCCTGGGCAG AGTGCTCACG GACCTGTGGG 
AAGGGCTGGA GGAAGAGGAC AGTGGCCTGC AAGAGCACCA ACCCCTCAGC TCGAGCCCAG 
CTGCTGCATG ACACGGCCTG CACTTCGGAA CCCAAGCCTC GGACCCACCA AGTCTGCCTG 
CTCAAGCGCT GCCACAAGCA TAAGAAGCTA CAGTGGCTGG TATCTGCCTG GTCCCCGTGC 
TCTGCGACAT GCCAGAGAGG AACACAGCAT AGAGTTCTCA GGTGTGCTGA GAAGTACGTC 
TCCGGAAAGT ACCGAGAGCT GGCCTCCAAG AAGTGCTTGC ATCTGCCAAA GCCTGACCTG 
GAACTGGAAC GTGCTTGCGG CCTGATTCCC TGCCCCAAGC ACCCTCCGTA TGCTGCTTCA 
GGGCCCCCAA GAGGCAGCTG GTTTGCCTCA CCCTGGTCTC TGTGCACAGC CAGCTGTGGG 
GGTGGTGTGC AGAGGAGAAC CGTGCAGTGT CTGCTGGGGG GACAGCCGGC CTCGGATTGC 
TTCCTGCATG AGAAACCCGA GACCTCCACA GCGTGCAACA CCCATTTCTG CCCTATTGCA 
GAGAAGAGAG ACACCTTCTG CAGAGACCTA TTCCACTGGT GCTACCTGGT GCCACAGCAT 
GGCATGTGCA GCCACAGGTT CTACAGCAAG CAGTGCTGCA ACACCTGTTC CAAGTCCAAC 
CTGTGA

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

Adamts16 ( XM_003753157.4 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_003753205.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X1, mRNA.

Price & Availability↑

CloneID	ORa14031
Clone ID Related Accession (Same CDS sequence)	XM_003753157.4 , XM_003748684.4 , NM_001372015.1
Accession Version	XM_003753157.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3666bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 16 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (AC_000069.1) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_003753157.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 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##

ATGGAACCCC GCGGTTGCTT TGCGCTCTGG GTGCTGTTGC TGGCGCAGCT CAGTGAGCAG 
CAAACACCTG CGTGCGCCCT AGGAGCTGCA GCTGCAGCGA CTGAGCGCCT GGGAGACCCT 
CATCCTCCCT CTTCCTCCGG GTCGGACTGG CTGGAAACCA GCGAGTATGA CCTGGTGTCT 
GCCTATGAGG TAGACCACAG CGGGGATTAT GTATCCTATG ACATCATGCA TCACCAGCGG 
CGACGGAGAA GAGCTGTGAC CCAGTCAAAA GGAGATGCCC TTCATCTACG GCTGAAGGGC 
CCCAGGCATG ACCTCCACCT AGACCTGAAA GCTGCCAGCA ACTTGATGGC TCCTGGATTC 
ATGGTGCAAA CTCTGGGGAA GGGAGGCACC AAGTCTGTAC AGATGTTTCC AGCAGAGGAG 
AACTGCTTTT ATCAAGGGTC CTTAAGGTCC CAGGGGAATT CTTCTGTGGC CCTTTCTACC 
TGCCAAGGTT TGTTAGGCAT GATAAGAACA AAAGACGCTG ATTACTTCTT AAAGCCGCTG 
CCTCCACAAC TAACAAGCAA ACTAAACAGG TCTGCACAGG GCGGCTCTCC TTCCCATATT 
CTGTACAAGA GATCCACAGA GCACCAGGCT CCCAGAGAAA ATGAAGTCCT GATGATCACC 
AGGAAGCGAG ATCTGGCAAG AACGCATCTG CACCATGACA ACTTTCACCT TGGCCTCTCA 
CGAAAGCAGC ATTTCTGTGG AAGACGCAAG AAATACATGC CCCAACCTCC GGATGATAAC 
CTCTACATCT TGCCTGATGA GTACAAGCCT AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA 
TCCCACAGAA ATGAAGAGTT GAATGTGGAG ACTCTGGTGG TGGTTGACAG AAAAATGCTG 
CAAAGCCATG GCCATGAAAA TATTACGACC TATGTGCTTA CCATTCTCAA CATGGTGTCT 
GCTTTATTCA AGGATGGAAC AATTGGGGGA AACATCAATA TTGTCATTGT GGGACTCATT 
CTGCTGGAAG ACGAACAGCC AGGGCTGGCG ATTAGTCACC ATGCAGACCG CACGTTAACC 
AGCTTCTGCC AGTGGCAATC TGGACTGATG GGGAAAGATG GAGCTCGTCA TGACCACGCC 
ATCTTACTGA CTGGTCTGGA CATATGTTCC TGGAAGAATG AACCCTGTGA CACATTGGGT 
TTCGCACCCA TCAGTGGGAT GTGCAGTAAG TACCGCAGCT GCACGGTCAA CGAAGACTCA 
GGCCTTGGAC TGGCCTTCAC CATTGCTCAT GAATCTGGAC ACAACTTTGG CATGGTCCAT 
GATGGAGAAG GGAATATGTG CAAGAAGTCT GAGGGCAACA TAATGTCCCC AACACTGGCA 
GGACGCAATG GCGTCTTCTC CTGGTCCTCC TGCAGTCGTC AGTACCTGCA CAAGTTCTTA 
AGCACCGCCC AAGCAATATG CCTTGCTGAC CAGCCGAAGC CTGTGAAAGA GTACAAGTAC 
CCGGAAAAGC TGCCAGGACA GTTATACGAT GCAAATACAC AGTGCAAGTG GCAGTTTGGA 
GAGAAAGCCA AGCTTTGCAT GCTGGACTTC AGAAAGGACA TCTGTAAGGC CTTGTGGTGC 
CATCGGATTG GAAGGAAATG TGAGACTAAG TTCATGCCAG CAGCAGAGGG TACACTGTGT 
GGGCAGGACA TGTGGTGTCG TGGAGGACAG TGTGTGAAGT ACGGTGACGA AGGCCCCAAG 
CCTACTCACG GCCATTGGTC AGATTGGTCC CCTTGGTCCC CCTGTTCCCG GACCTGTGGG 
GGAGGAGTCT CTCACAGAGA CCGTCTCTGT ACCAATCCCA GACCATCTCA TGGAGGGAAG 
TTTTGCCAGG GTTCCGCACG CACTCTGAAG CTTTGCAACA GTCAGAAATG CCCTCTGGAC 
AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT GAGTACAACA GCAAGCGTTT CCGAGGGTGG 
CTCTACAAGT GGACGCCTTA CACCCAAGTG GAAGATCAGG ACTTATGCAA ACTCTACTGT 
ATCGCAGAAG GATTTGATTT CTTCTTTTCT TTGTCAAATA AAGTCAAAGA TGGGACTCCA 
TGCTCGGAGG ATAGCCGTAA TGTTTGTATA GATGGGATGT GTGAGAAGGT TGGCTGTGAC 
AATGTCCTTG GATCGGATGC AACTGAGGAC TCCTGTGGGG TCTGCCAGGG GAATAACTCA 
GACTGCGTCA TGCATAGAGG ACTCTACAGT AAGAATCACC CCACCAACCA GTACTACCAC 
GTGGTAACCA TTCCCTCTGG AGCTCGGAGC ATTCACATCT ATGAAACAAA CATCTCTACC 
TCCTATATTT CTGTGCGCAA TTCTGTCAAG AAATATTACC TGAATGGGCA CTGGAGTGTG 
GACTGGCCAG GGCGATACAA GTTTTCAGGT ACCACCTTCA ACTACAGACG ATCCTACAAG 
GAGCCTGAGA GTTTAACCTC CACTGGACCA ACCAACGAAA CACTGATTGT GGAGCTTTTG 
TTCCAAGGCA GGAACCCTGG AGTGGCCTGG GAATTCTCAG TGCCCAGGTC AGGGTCTAAA 
AGGACTCCAC CTCCCCAGCC CAGCTACTCA TGGGCTATCC TGCGCTCTGA GTGCTCTGTC 
TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG GCGGGATGCT ACAGAGACCT GAAGGTTCTG 
GTCAATGCAT CCTTCTGCAA CCCCAAGACA CGACCTGTCC CAGCACTGGT GCCCTGCAAG 
GTGTCAGCTT GTCCTCCCAG CTGGTCTGTG GGAAACTGGA GCACATGCAG CCGGACATGT 
GGTGGGGGCA CCCAGAGCAG GCCCGTGCAC TGTACACGGA GGGCACACTA CCGTGAGGAG 
TCCATCTCAG CCAGCCTGTG TCCACAGCCT GCACCCCCCC TTCACCAAGC CTGCAACTCT 
CAGAGCTGCC CACCTGCTTG GAGCACTGGG CCCTGGGCAG AGTGCTCACG GACCTGTGGG 
AAGGGCTGGA GGAAGAGGAC AGTGGCCTGC AAGAGCACCA ACCCCTCAGC TCGAGCCCAG 
CTGCTGCATG ACACGGCCTG CACTTCGGAA CCCAAGCCTC GGACCCACCA AGTCTGCCTG 
CTCAAGCGCT GCCACAAGCA TAAGAAGCTA CAGTGGCTGG TATCTGCCTG GTCCCCGTGC 
TCTGCGACAT GCCAGAGAGG AACACAGCAT AGAGTTCTCA GGTGTGCTGA GAAGTACGTC 
TCCGGAAAGT ACCGAGAGCT GGCCTCCAAG AAGTGCTTGC ATCTGCCAAA GCCTGACCTG 
GAACTGGAAC GTGCTTGCGG CCTGATTCCC TGCCCCAAGC ACCCTCCGTA TGCTGCTTCA 
GGGCCCCCAA GAGGCAGCTG GTTTGCCTCA CCCTGGTCTC TGTGCACAGC CAGCTGTGGG 
GGTGGTGTGC AGAGGAGAAC CGTGCAGTGT CTGCTGGGGG GACAGCCGGC CTCGGATTGC 
TTCCTGCATG AGAAACCCGA GACCTCCACA GCGTGCAACA CCCATTTCTG CCCTATTGCA 
GAGAAGAGAG ACACCTTCTG CAGAGACCTA TTCCACTGGT GCTACCTGGT GCCACAGCAT 
GGCATGTGCA GCCACAGGTT CTACAGCAAG CAGTGCTGCA ACACCTGTTC CAAGTCCAAC 
CTGTGA

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

RefSeq	XP_003753205.1
CDS	222..3887
Translation	MEPRGCFALWVLLLAQLSEQQTPACALGAAAAATERLGDPHPPSSSGSDWLETSEYDLVSAYEVDHSGDYVSYDIMHHQRRRRRAVTQSKGDALHLRLKGPRHDLHLDLKAASNLMAPGFMVQTLGKGGTKSVQMFPAEENCFYQGSLRSQGNSSVALSTCQGLLGMIRTKDADYFLKPLPPQLTSKLNRSAQGGSPSHILYKRSTEHQAPRENEVLMITRKRDLARTHLHHDNFHLGLSRKQHFCGRRKKYMPQPPDDNLYILPDEYKPSSRPKRSLLKSHRNEELNVETLVVVDRKMLQSHGHENITTYVLTILNMVSALFKDGTIGGNINIVIVGLILLEDEQPGLAISHHADRTLTSFCQWQSGLMGKDGARHDHAILLTGLDICSWKNEPCDTLGFAPISGMCSKYRSCTVNEDSGLGLAFTIAHESGHNFGMVHDGEGNMCKKSEGNIMSPTLAGRNGVFSWSSCSRQYLHKFLSTAQAICLADQPKPVKEYKYPEKLPGQLYDANTQCKWQFGEKAKLCMLDFRKDICKALWCHRIGRKCETKFMPAAEGTLCGQDMWCRGGQCVKYGDEGPKPTHGHWSDWSPWSPCSRTCGGGVSHRDRLCTNPRPSHGGKFCQGSARTLKLCNSQKCPLDSVGFRAAQCAEYNSKRFRGWLYKWTPYTQVEDQDLCKLYCIAEGFDFFFSLSNKVKDGTPCSEDSRNVCIDGMCEKVGCDNVLGSDATEDSCGVCQGNNSDCVMHRGLYSKNHPTNQYYHVVTIPSGARSIHIYETNISTSYISVRNSVKKYYLNGHWSVDWPGRYKFSGTTFNYRRSYKEPESLTSTGPTNETLIVELLFQGRNPGVAWEFSVPRSGSKRTPPPQPSYSWAILRSECSVSCGGGKMSSKAGCYRDLKVLVNASFCNPKTRPVPALVPCKVSACPPSWSVGNWSTCSRTCGGGTQSRPVHCTRRAHYREESISASLCPQPAPPLHQACNSQSCPPAWSTGPWAECSRTCGKGWRKRTVACKSTNPSARAQLLHDTACTSEPKPRTHQVCLLKRCHKHKKLQWLVSAWSPCSATCQRGTQHRVLRCAEKYVSGKYRELASKKCLHLPKPDLELERACGLIPCPKHPPYAASGPPRGSWFASPWSLCTASCGGGVQRRTVQCLLGGQPASDCFLHEKPETSTACNTHFCPIAEKRDTFCRDLFHWCYLVPQHGMCSHRFYSKQCCNTCSKSNL

Target ORF information:

RefSeq Version	XM_003753157.4
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X1, mRNA.

Target ORF information:

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

XM_003753157.4

ORF Insert Sequence:

ATGGAACCCC GCGGTTGCTT TGCGCTCTGG GTGCTGTTGC TGGCGCAGCT CAGTGAGCAG 
CAAACACCTG CGTGCGCCCT AGGAGCTGCA GCTGCAGCGA CTGAGCGCCT GGGAGACCCT 
CATCCTCCCT CTTCCTCCGG GTCGGACTGG CTGGAAACCA GCGAGTATGA CCTGGTGTCT 
GCCTATGAGG TAGACCACAG CGGGGATTAT GTATCCTATG ACATCATGCA TCACCAGCGG 
CGACGGAGAA GAGCTGTGAC CCAGTCAAAA GGAGATGCCC TTCATCTACG GCTGAAGGGC 
CCCAGGCATG ACCTCCACCT AGACCTGAAA GCTGCCAGCA ACTTGATGGC TCCTGGATTC 
ATGGTGCAAA CTCTGGGGAA GGGAGGCACC AAGTCTGTAC AGATGTTTCC AGCAGAGGAG 
AACTGCTTTT ATCAAGGGTC CTTAAGGTCC CAGGGGAATT CTTCTGTGGC CCTTTCTACC 
TGCCAAGGTT TGTTAGGCAT GATAAGAACA AAAGACGCTG ATTACTTCTT AAAGCCGCTG 
CCTCCACAAC TAACAAGCAA ACTAAACAGG TCTGCACAGG GCGGCTCTCC TTCCCATATT 
CTGTACAAGA GATCCACAGA GCACCAGGCT CCCAGAGAAA ATGAAGTCCT GATGATCACC 
AGGAAGCGAG ATCTGGCAAG AACGCATCTG CACCATGACA ACTTTCACCT TGGCCTCTCA 
CGAAAGCAGC ATTTCTGTGG AAGACGCAAG AAATACATGC CCCAACCTCC GGATGATAAC 
CTCTACATCT TGCCTGATGA GTACAAGCCT AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA 
TCCCACAGAA ATGAAGAGTT GAATGTGGAG ACTCTGGTGG TGGTTGACAG AAAAATGCTG 
CAAAGCCATG GCCATGAAAA TATTACGACC TATGTGCTTA CCATTCTCAA CATGGTGTCT 
GCTTTATTCA AGGATGGAAC AATTGGGGGA AACATCAATA TTGTCATTGT GGGACTCATT 
CTGCTGGAAG ACGAACAGCC AGGGCTGGCG ATTAGTCACC ATGCAGACCG CACGTTAACC 
AGCTTCTGCC AGTGGCAATC TGGACTGATG GGGAAAGATG GAGCTCGTCA TGACCACGCC 
ATCTTACTGA CTGGTCTGGA CATATGTTCC TGGAAGAATG AACCCTGTGA CACATTGGGT 
TTCGCACCCA TCAGTGGGAT GTGCAGTAAG TACCGCAGCT GCACGGTCAA CGAAGACTCA 
GGCCTTGGAC TGGCCTTCAC CATTGCTCAT GAATCTGGAC ACAACTTTGG CATGGTCCAT 
GATGGAGAAG GGAATATGTG CAAGAAGTCT GAGGGCAACA TAATGTCCCC AACACTGGCA 
GGACGCAATG GCGTCTTCTC CTGGTCCTCC TGCAGTCGTC AGTACCTGCA CAAGTTCTTA 
AGCACCGCCC AAGCAATATG CCTTGCTGAC CAGCCGAAGC CTGTGAAAGA GTACAAGTAC 
CCGGAAAAGC TGCCAGGACA GTTATACGAT GCAAATACAC AGTGCAAGTG GCAGTTTGGA 
GAGAAAGCCA AGCTTTGCAT GCTGGACTTC AGAAAGGACA TCTGTAAGGC CTTGTGGTGC 
CATCGGATTG GAAGGAAATG TGAGACTAAG TTCATGCCAG CAGCAGAGGG TACACTGTGT 
GGGCAGGACA TGTGGTGTCG TGGAGGACAG TGTGTGAAGT ACGGTGACGA AGGCCCCAAG 
CCTACTCACG GCCATTGGTC AGATTGGTCC CCTTGGTCCC CCTGTTCCCG GACCTGTGGG 
GGAGGAGTCT CTCACAGAGA CCGTCTCTGT ACCAATCCCA GACCATCTCA TGGAGGGAAG 
TTTTGCCAGG GTTCCGCACG CACTCTGAAG CTTTGCAACA GTCAGAAATG CCCTCTGGAC 
AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT GAGTACAACA GCAAGCGTTT CCGAGGGTGG 
CTCTACAAGT GGACGCCTTA CACCCAAGTG GAAGATCAGG ACTTATGCAA ACTCTACTGT 
ATCGCAGAAG GATTTGATTT CTTCTTTTCT TTGTCAAATA AAGTCAAAGA TGGGACTCCA 
TGCTCGGAGG ATAGCCGTAA TGTTTGTATA GATGGGATGT GTGAGAAGGT TGGCTGTGAC 
AATGTCCTTG GATCGGATGC AACTGAGGAC TCCTGTGGGG TCTGCCAGGG GAATAACTCA 
GACTGCGTCA TGCATAGAGG ACTCTACAGT AAGAATCACC CCACCAACCA GTACTACCAC 
GTGGTAACCA TTCCCTCTGG AGCTCGGAGC ATTCACATCT ATGAAACAAA CATCTCTACC 
TCCTATATTT CTGTGCGCAA TTCTGTCAAG AAATATTACC TGAATGGGCA CTGGAGTGTG 
GACTGGCCAG GGCGATACAA GTTTTCAGGT ACCACCTTCA ACTACAGACG ATCCTACAAG 
GAGCCTGAGA GTTTAACCTC CACTGGACCA ACCAACGAAA CACTGATTGT GGAGCTTTTG 
TTCCAAGGCA GGAACCCTGG AGTGGCCTGG GAATTCTCAG TGCCCAGGTC AGGGTCTAAA 
AGGACTCCAC CTCCCCAGCC CAGCTACTCA TGGGCTATCC TGCGCTCTGA GTGCTCTGTC 
TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG GCGGGATGCT ACAGAGACCT GAAGGTTCTG 
GTCAATGCAT CCTTCTGCAA CCCCAAGACA CGACCTGTCC CAGCACTGGT GCCCTGCAAG 
GTGTCAGCTT GTCCTCCCAG CTGGTCTGTG GGAAACTGGA GCACATGCAG CCGGACATGT 
GGTGGGGGCA CCCAGAGCAG GCCCGTGCAC TGTACACGGA GGGCACACTA CCGTGAGGAG 
TCCATCTCAG CCAGCCTGTG TCCACAGCCT GCACCCCCCC TTCACCAAGC CTGCAACTCT 
CAGAGCTGCC CACCTGCTTG GAGCACTGGG CCCTGGGCAG AGTGCTCACG GACCTGTGGG 
AAGGGCTGGA GGAAGAGGAC AGTGGCCTGC AAGAGCACCA ACCCCTCAGC TCGAGCCCAG 
CTGCTGCATG ACACGGCCTG CACTTCGGAA CCCAAGCCTC GGACCCACCA AGTCTGCCTG 
CTCAAGCGCT GCCACAAGCA TAAGAAGCTA CAGTGGCTGG TATCTGCCTG GTCCCCGTGC 
TCTGCGACAT GCCAGAGAGG AACACAGCAT AGAGTTCTCA GGTGTGCTGA GAAGTACGTC 
TCCGGAAAGT ACCGAGAGCT GGCCTCCAAG AAGTGCTTGC ATCTGCCAAA GCCTGACCTG 
GAACTGGAAC GTGCTTGCGG CCTGATTCCC TGCCCCAAGC ACCCTCCGTA TGCTGCTTCA 
GGGCCCCCAA GAGGCAGCTG GTTTGCCTCA CCCTGGTCTC TGTGCACAGC CAGCTGTGGG 
GGTGGTGTGC AGAGGAGAAC CGTGCAGTGT CTGCTGGGGG GACAGCCGGC CTCGGATTGC 
TTCCTGCATG AGAAACCCGA GACCTCCACA GCGTGCAACA CCCATTTCTG CCCTATTGCA 
GAGAAGAGAG ACACCTTCTG CAGAGACCTA TTCCACTGGT GCTACCTGGT GCCACAGCAT 
GGCATGTGCA GCCACAGGTT CTACAGCAAG CAGTGCTGCA ACACCTGTTC CAAGTCCAAC 
CTGTGA

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

Adamts16 ( XM_003748684.4 ) cDNA ORF clone, Rattus norvegicus(Norway rat) -> XP_003748732.1 Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X1, mRNA.

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CloneID	ORa14031
Clone ID Related Accession (Same CDS sequence)	XM_003753157.4 , XM_003748684.4 , NM_001372015.1
Accession Version	XM_003748684.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 3666bp) 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	2016-07-25
Organism	Rattus norvegicus(Norway rat)
Product	A disintegrin and metalloproteinase with thrombospondin motifs 16 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_005100.4) annotated using gene prediction method: Gnomon, supported by EST evidence. Also see: Documentation of NCBI's Annotation Process On Jul 26, 2016 this sequence version replaced XM_003748684.3. ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Full annotation Annotation Version :: Rattus norvegicus Annotation Release 106 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##

ATGGAACCCC GCGGTTGCTT TGCGCTCTGG GTGCTGTTGC TGGCGCAGCT CAGTGAGCAG 
CAAACACCTG CGTGCGCCCT AGGAGCTGCA GCTGCAGCGA CTGAGCGCCT GGGAGACCCT 
CATCCTCCCT CTTCCTCCGG GTCGGACTGG CTGGAAACCA GCGAGTATGA CCTGGTGTCT 
GCCTATGAGG TAGACCACAG CGGGGATTAT GTATCCTATG ACATCATGCA TCACCAGCGG 
CGACGGAGAA GAGCTGTGAC CCAGTCAAAA GGAGATGCCC TTCATCTACG GCTGAAGGGC 
CCCAGGCATG ACCTCCACCT AGACCTGAAA GCTGCCAGCA ACTTGATGGC TCCTGGATTC 
ATGGTGCAAA CTCTGGGGAA GGGAGGCACC AAGTCTGTAC AGATGTTTCC AGCAGAGGAG 
AACTGCTTTT ATCAAGGGTC CTTAAGGTCC CAGGGGAATT CTTCTGTGGC CCTTTCTACC 
TGCCAAGGTT TGTTAGGCAT GATAAGAACA AAAGACGCTG ATTACTTCTT AAAGCCGCTG 
CCTCCACAAC TAACAAGCAA ACTAAACAGG TCTGCACAGG GCGGCTCTCC TTCCCATATT 
CTGTACAAGA GATCCACAGA GCACCAGGCT CCCAGAGAAA ATGAAGTCCT GATGATCACC 
AGGAAGCGAG ATCTGGCAAG AACGCATCTG CACCATGACA ACTTTCACCT TGGCCTCTCA 
CGAAAGCAGC ATTTCTGTGG AAGACGCAAG AAATACATGC CCCAACCTCC GGATGATAAC 
CTCTACATCT TGCCTGATGA GTACAAGCCT AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA 
TCCCACAGAA ATGAAGAGTT GAATGTGGAG ACTCTGGTGG TGGTTGACAG AAAAATGCTG 
CAAAGCCATG GCCATGAAAA TATTACGACC TATGTGCTTA CCATTCTCAA CATGGTGTCT 
GCTTTATTCA AGGATGGAAC AATTGGGGGA AACATCAATA TTGTCATTGT GGGACTCATT 
CTGCTGGAAG ACGAACAGCC AGGGCTGGCG ATTAGTCACC ATGCAGACCG CACGTTAACC 
AGCTTCTGCC AGTGGCAATC TGGACTGATG GGGAAAGATG GAGCTCGTCA TGACCACGCC 
ATCTTACTGA CTGGTCTGGA CATATGTTCC TGGAAGAATG AACCCTGTGA CACATTGGGT 
TTCGCACCCA TCAGTGGGAT GTGCAGTAAG TACCGCAGCT GCACGGTCAA CGAAGACTCA 
GGCCTTGGAC TGGCCTTCAC CATTGCTCAT GAATCTGGAC ACAACTTTGG CATGGTCCAT 
GATGGAGAAG GGAATATGTG CAAGAAGTCT GAGGGCAACA TAATGTCCCC AACACTGGCA 
GGACGCAATG GCGTCTTCTC CTGGTCCTCC TGCAGTCGTC AGTACCTGCA CAAGTTCTTA 
AGCACCGCCC AAGCAATATG CCTTGCTGAC CAGCCGAAGC CTGTGAAAGA GTACAAGTAC 
CCGGAAAAGC TGCCAGGACA GTTATACGAT GCAAATACAC AGTGCAAGTG GCAGTTTGGA 
GAGAAAGCCA AGCTTTGCAT GCTGGACTTC AGAAAGGACA TCTGTAAGGC CTTGTGGTGC 
CATCGGATTG GAAGGAAATG TGAGACTAAG TTCATGCCAG CAGCAGAGGG TACACTGTGT 
GGGCAGGACA TGTGGTGTCG TGGAGGACAG TGTGTGAAGT ACGGTGACGA AGGCCCCAAG 
CCTACTCACG GCCATTGGTC AGATTGGTCC CCTTGGTCCC CCTGTTCCCG GACCTGTGGG 
GGAGGAGTCT CTCACAGAGA CCGTCTCTGT ACCAATCCCA GACCATCTCA TGGAGGGAAG 
TTTTGCCAGG GTTCCGCACG CACTCTGAAG CTTTGCAACA GTCAGAAATG CCCTCTGGAC 
AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT GAGTACAACA GCAAGCGTTT CCGAGGGTGG 
CTCTACAAGT GGACGCCTTA CACCCAAGTG GAAGATCAGG ACTTATGCAA ACTCTACTGT 
ATCGCAGAAG GATTTGATTT CTTCTTTTCT TTGTCAAATA AAGTCAAAGA TGGGACTCCA 
TGCTCGGAGG ATAGCCGTAA TGTTTGTATA GATGGGATGT GTGAGAAGGT TGGCTGTGAC 
AATGTCCTTG GATCGGATGC AACTGAGGAC TCCTGTGGGG TCTGCCAGGG GAATAACTCA 
GACTGCGTCA TGCATAGAGG ACTCTACAGT AAGAATCACC CCACCAACCA GTACTACCAC 
GTGGTAACCA TTCCCTCTGG AGCTCGGAGC ATTCACATCT ATGAAACAAA CATCTCTACC 
TCCTATATTT CTGTGCGCAA TTCTGTCAAG AAATATTACC TGAATGGGCA CTGGAGTGTG 
GACTGGCCAG GGCGATACAA GTTTTCAGGT ACCACCTTCA ACTACAGACG ATCCTACAAG 
GAGCCTGAGA GTTTAACCTC CACTGGACCA ACCAACGAAA CACTGATTGT GGAGCTTTTG 
TTCCAAGGCA GGAACCCTGG AGTGGCCTGG GAATTCTCAG TGCCCAGGTC AGGGTCTAAA 
AGGACTCCAC CTCCCCAGCC CAGCTACTCA TGGGCTATCC TGCGCTCTGA GTGCTCTGTC 
TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG GCGGGATGCT ACAGAGACCT GAAGGTTCTG 
GTCAATGCAT CCTTCTGCAA CCCCAAGACA CGACCTGTCC CAGCACTGGT GCCCTGCAAG 
GTGTCAGCTT GTCCTCCCAG CTGGTCTGTG GGAAACTGGA GCACATGCAG CCGGACATGT 
GGTGGGGGCA CCCAGAGCAG GCCCGTGCAC TGTACACGGA GGGCACACTA CCGTGAGGAG 
TCCATCTCAG CCAGCCTGTG TCCACAGCCT GCACCCCCCC TTCACCAAGC CTGCAACTCT 
CAGAGCTGCC CACCTGCTTG GAGCACTGGG CCCTGGGCAG AGTGCTCACG GACCTGTGGG 
AAGGGCTGGA GGAAGAGGAC AGTGGCCTGC AAGAGCACCA ACCCCTCAGC TCGAGCCCAG 
CTGCTGCATG ACACGGCCTG CACTTCGGAA CCCAAGCCTC GGACCCACCA AGTCTGCCTG 
CTCAAGCGCT GCCACAAGCA TAAGAAGCTA CAGTGGCTGG TATCTGCCTG GTCCCCGTGC 
TCTGCGACAT GCCAGAGAGG AACACAGCAT AGAGTTCTCA GGTGTGCTGA GAAGTACGTC 
TCCGGAAAGT ACCGAGAGCT GGCCTCCAAG AAGTGCTTGC ATCTGCCAAA GCCTGACCTG 
GAACTGGAAC GTGCTTGCGG CCTGATTCCC TGCCCCAAGC ACCCTCCGTA TGCTGCTTCA 
GGGCCCCCAA GAGGCAGCTG GTTTGCCTCA CCCTGGTCTC TGTGCACAGC CAGCTGTGGG 
GGTGGTGTGC AGAGGAGAAC CGTGCAGTGT CTGCTGGGGG GACAGCCGGC CTCGGATTGC 
TTCCTGCATG AGAAACCCGA GACCTCCACA GCGTGCAACA CCCATTTCTG CCCTATTGCA 
GAGAAGAGAG ACACCTTCTG CAGAGACCTA TTCCACTGGT GCTACCTGGT GCCACAGCAT 
GGCATGTGCA GCCACAGGTT CTACAGCAAG CAGTGCTGCA ACACCTGTTC CAAGTCCAAC 
CTGTGA

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

RefSeq	XP_003748732.1
CDS	223..3888
Translation	MEPRGCFALWVLLLAQLSEQQTPACALGAAAAATERLGDPHPPSSSGSDWLETSEYDLVSAYEVDHSGDYVSYDIMHHQRRRRRAVTQSKGDALHLRLKGPRHDLHLDLKAASNLMAPGFMVQTLGKGGTKSVQMFPAEENCFYQGSLRSQGNSSVALSTCQGLLGMIRTKDADYFLKPLPPQLTSKLNRSAQGGSPSHILYKRSTEHQAPRENEVLMITRKRDLARTHLHHDNFHLGLSRKQHFCGRRKKYMPQPPDDNLYILPDEYKPSSRPKRSLLKSHRNEELNVETLVVVDRKMLQSHGHENITTYVLTILNMVSALFKDGTIGGNINIVIVGLILLEDEQPGLAISHHADRTLTSFCQWQSGLMGKDGARHDHAILLTGLDICSWKNEPCDTLGFAPISGMCSKYRSCTVNEDSGLGLAFTIAHESGHNFGMVHDGEGNMCKKSEGNIMSPTLAGRNGVFSWSSCSRQYLHKFLSTAQAICLADQPKPVKEYKYPEKLPGQLYDANTQCKWQFGEKAKLCMLDFRKDICKALWCHRIGRKCETKFMPAAEGTLCGQDMWCRGGQCVKYGDEGPKPTHGHWSDWSPWSPCSRTCGGGVSHRDRLCTNPRPSHGGKFCQGSARTLKLCNSQKCPLDSVGFRAAQCAEYNSKRFRGWLYKWTPYTQVEDQDLCKLYCIAEGFDFFFSLSNKVKDGTPCSEDSRNVCIDGMCEKVGCDNVLGSDATEDSCGVCQGNNSDCVMHRGLYSKNHPTNQYYHVVTIPSGARSIHIYETNISTSYISVRNSVKKYYLNGHWSVDWPGRYKFSGTTFNYRRSYKEPESLTSTGPTNETLIVELLFQGRNPGVAWEFSVPRSGSKRTPPPQPSYSWAILRSECSVSCGGGKMSSKAGCYRDLKVLVNASFCNPKTRPVPALVPCKVSACPPSWSVGNWSTCSRTCGGGTQSRPVHCTRRAHYREESISASLCPQPAPPLHQACNSQSCPPAWSTGPWAECSRTCGKGWRKRTVACKSTNPSARAQLLHDTACTSEPKPRTHQVCLLKRCHKHKKLQWLVSAWSPCSATCQRGTQHRVLRCAEKYVSGKYRELASKKCLHLPKPDLELERACGLIPCPKHPPYAASGPPRGSWFASPWSLCTASCGGGVQRRTVQCLLGGQPASDCFLHEKPETSTACNTHFCPIAEKRDTFCRDLFHWCYLVPQHGMCSHRFYSKQCCNTCSKSNL

Target ORF information:

RefSeq Version	XM_003748684.4
Organism	Rattus norvegicus(Norway rat)
Definition	Rattus norvegicus ADAM metallopeptidase with thrombospondin type 1 motif, 16 (Adamts16), transcript variant X1, mRNA.

Target ORF information:

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

XM_003748684.4

ORF Insert Sequence:

ATGGAACCCC GCGGTTGCTT TGCGCTCTGG GTGCTGTTGC TGGCGCAGCT CAGTGAGCAG 
CAAACACCTG CGTGCGCCCT AGGAGCTGCA GCTGCAGCGA CTGAGCGCCT GGGAGACCCT 
CATCCTCCCT CTTCCTCCGG GTCGGACTGG CTGGAAACCA GCGAGTATGA CCTGGTGTCT 
GCCTATGAGG TAGACCACAG CGGGGATTAT GTATCCTATG ACATCATGCA TCACCAGCGG 
CGACGGAGAA GAGCTGTGAC CCAGTCAAAA GGAGATGCCC TTCATCTACG GCTGAAGGGC 
CCCAGGCATG ACCTCCACCT AGACCTGAAA GCTGCCAGCA ACTTGATGGC TCCTGGATTC 
ATGGTGCAAA CTCTGGGGAA GGGAGGCACC AAGTCTGTAC AGATGTTTCC AGCAGAGGAG 
AACTGCTTTT ATCAAGGGTC CTTAAGGTCC CAGGGGAATT CTTCTGTGGC CCTTTCTACC 
TGCCAAGGTT TGTTAGGCAT GATAAGAACA AAAGACGCTG ATTACTTCTT AAAGCCGCTG 
CCTCCACAAC TAACAAGCAA ACTAAACAGG TCTGCACAGG GCGGCTCTCC TTCCCATATT 
CTGTACAAGA GATCCACAGA GCACCAGGCT CCCAGAGAAA ATGAAGTCCT GATGATCACC 
AGGAAGCGAG ATCTGGCAAG AACGCATCTG CACCATGACA ACTTTCACCT TGGCCTCTCA 
CGAAAGCAGC ATTTCTGTGG AAGACGCAAG AAATACATGC CCCAACCTCC GGATGATAAC 
CTCTACATCT TGCCTGATGA GTACAAGCCT AGCTCCCGAC CCAAGCGCTC GCTCTTGAAA 
TCCCACAGAA ATGAAGAGTT GAATGTGGAG ACTCTGGTGG TGGTTGACAG AAAAATGCTG 
CAAAGCCATG GCCATGAAAA TATTACGACC TATGTGCTTA CCATTCTCAA CATGGTGTCT 
GCTTTATTCA AGGATGGAAC AATTGGGGGA AACATCAATA TTGTCATTGT GGGACTCATT 
CTGCTGGAAG ACGAACAGCC AGGGCTGGCG ATTAGTCACC ATGCAGACCG CACGTTAACC 
AGCTTCTGCC AGTGGCAATC TGGACTGATG GGGAAAGATG GAGCTCGTCA TGACCACGCC 
ATCTTACTGA CTGGTCTGGA CATATGTTCC TGGAAGAATG AACCCTGTGA CACATTGGGT 
TTCGCACCCA TCAGTGGGAT GTGCAGTAAG TACCGCAGCT GCACGGTCAA CGAAGACTCA 
GGCCTTGGAC TGGCCTTCAC CATTGCTCAT GAATCTGGAC ACAACTTTGG CATGGTCCAT 
GATGGAGAAG GGAATATGTG CAAGAAGTCT GAGGGCAACA TAATGTCCCC AACACTGGCA 
GGACGCAATG GCGTCTTCTC CTGGTCCTCC TGCAGTCGTC AGTACCTGCA CAAGTTCTTA 
AGCACCGCCC AAGCAATATG CCTTGCTGAC CAGCCGAAGC CTGTGAAAGA GTACAAGTAC 
CCGGAAAAGC TGCCAGGACA GTTATACGAT GCAAATACAC AGTGCAAGTG GCAGTTTGGA 
GAGAAAGCCA AGCTTTGCAT GCTGGACTTC AGAAAGGACA TCTGTAAGGC CTTGTGGTGC 
CATCGGATTG GAAGGAAATG TGAGACTAAG TTCATGCCAG CAGCAGAGGG TACACTGTGT 
GGGCAGGACA TGTGGTGTCG TGGAGGACAG TGTGTGAAGT ACGGTGACGA AGGCCCCAAG 
CCTACTCACG GCCATTGGTC AGATTGGTCC CCTTGGTCCC CCTGTTCCCG GACCTGTGGG 
GGAGGAGTCT CTCACAGAGA CCGTCTCTGT ACCAATCCCA GACCATCTCA TGGAGGGAAG 
TTTTGCCAGG GTTCCGCACG CACTCTGAAG CTTTGCAACA GTCAGAAATG CCCTCTGGAC 
AGTGTGGGCT TCCGTGCTGC CCAGTGTGCT GAGTACAACA GCAAGCGTTT CCGAGGGTGG 
CTCTACAAGT GGACGCCTTA CACCCAAGTG GAAGATCAGG ACTTATGCAA ACTCTACTGT 
ATCGCAGAAG GATTTGATTT CTTCTTTTCT TTGTCAAATA AAGTCAAAGA TGGGACTCCA 
TGCTCGGAGG ATAGCCGTAA TGTTTGTATA GATGGGATGT GTGAGAAGGT TGGCTGTGAC 
AATGTCCTTG GATCGGATGC AACTGAGGAC TCCTGTGGGG TCTGCCAGGG GAATAACTCA 
GACTGCGTCA TGCATAGAGG ACTCTACAGT AAGAATCACC CCACCAACCA GTACTACCAC 
GTGGTAACCA TTCCCTCTGG AGCTCGGAGC ATTCACATCT ATGAAACAAA CATCTCTACC 
TCCTATATTT CTGTGCGCAA TTCTGTCAAG AAATATTACC TGAATGGGCA CTGGAGTGTG 
GACTGGCCAG GGCGATACAA GTTTTCAGGT ACCACCTTCA ACTACAGACG ATCCTACAAG 
GAGCCTGAGA GTTTAACCTC CACTGGACCA ACCAACGAAA CACTGATTGT GGAGCTTTTG 
TTCCAAGGCA GGAACCCTGG AGTGGCCTGG GAATTCTCAG TGCCCAGGTC AGGGTCTAAA 
AGGACTCCAC CTCCCCAGCC CAGCTACTCA TGGGCTATCC TGCGCTCTGA GTGCTCTGTC 
TCCTGTGGAG GAGGTAAGAT GAGCTCAAAG GCGGGATGCT ACAGAGACCT GAAGGTTCTG 
GTCAATGCAT CCTTCTGCAA CCCCAAGACA CGACCTGTCC CAGCACTGGT GCCCTGCAAG 
GTGTCAGCTT GTCCTCCCAG CTGGTCTGTG GGAAACTGGA GCACATGCAG CCGGACATGT 
GGTGGGGGCA CCCAGAGCAG GCCCGTGCAC TGTACACGGA GGGCACACTA CCGTGAGGAG 
TCCATCTCAG CCAGCCTGTG TCCACAGCCT GCACCCCCCC TTCACCAAGC CTGCAACTCT 
CAGAGCTGCC CACCTGCTTG GAGCACTGGG CCCTGGGCAG AGTGCTCACG GACCTGTGGG 
AAGGGCTGGA GGAAGAGGAC AGTGGCCTGC AAGAGCACCA ACCCCTCAGC TCGAGCCCAG 
CTGCTGCATG ACACGGCCTG CACTTCGGAA CCCAAGCCTC GGACCCACCA AGTCTGCCTG 
CTCAAGCGCT GCCACAAGCA TAAGAAGCTA CAGTGGCTGG TATCTGCCTG GTCCCCGTGC 
TCTGCGACAT GCCAGAGAGG AACACAGCAT AGAGTTCTCA GGTGTGCTGA GAAGTACGTC 
TCCGGAAAGT ACCGAGAGCT GGCCTCCAAG AAGTGCTTGC ATCTGCCAAA GCCTGACCTG 
GAACTGGAAC GTGCTTGCGG CCTGATTCCC TGCCCCAAGC ACCCTCCGTA TGCTGCTTCA 
GGGCCCCCAA GAGGCAGCTG GTTTGCCTCA CCCTGGTCTC TGTGCACAGC CAGCTGTGGG 
GGTGGTGTGC AGAGGAGAAC CGTGCAGTGT CTGCTGGGGG GACAGCCGGC CTCGGATTGC 
TTCCTGCATG AGAAACCCGA GACCTCCACA GCGTGCAACA CCCATTTCTG CCCTATTGCA 
GAGAAGAGAG ACACCTTCTG CAGAGACCTA TTCCACTGGT GCTACCTGGT GCCACAGCAT 
GGCATGTGCA GCCACAGGTT CTACAGCAAG CAGTGCTGCA ACACCTGTTC CAAGTCCAAC 
CTGTGA

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

PubMed

Cryptorchidism and infertility in rats with targeted disruption of the Adamts16 locus.
PloS one9(7)e100967(2014)
Abdul-Majeed S,Mell B,Nauli SM,Joe B

Transcriptional regulation by the Wilms tumor protein, Wt1, suggests a role of the metalloproteinase Adamts16 in murine genitourinary development.
The Journal of biological chemistry288(26)18811-24(2013 Jun)
Jacobi CL,Rudigier LJ,Scholz H,Kirschner KM

Targeted disruption of Adamts16 gene in a rat genetic model of hypertension.
Proceedings of the National Academy of Sciences of the United States of America109(50)20555-9(2012 Dec)
Gopalakrishnan K,Kumarasamy S,Abdul-Majeed S,Kalinoski AL,Morgan EE,Gohara AF,Nauli SM,Filipiak WE,Saunders TL,Joe B

Positional identification of variants of Adamts16 linked to inherited hypertension.
Human molecular genetics18(15)2825-38(2009 Aug)
Joe B,Saad Y,Dhindaw S,Lee NH,Frank BC,Achinike OH,Luu TV,Gopalakrishnan K,Toland EJ,Farms P,Yerga-Woolwine S,Manickavasagam E,Rapp JP,Garrett MR,Coe D,Apte SS,Rankinen T,P?russe L,Ehret GB,Ganesh SK,Cooper RS,O'Connor A,Rice T,Weder AB,Chakravarti A,Rao DC,Bouchard C

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Adamts16 cDNA ORF clone, Rattus norvegicus(Norway rat)

Gene

Clones

gRNAs

Related articles in PubMed

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:

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