ADAM29 cDNA ORF clone, Homo sapiens(human)

Gene
Clones
gRNAs

Summary

Gene Symbol	ADAM29
Entrez Gene ID	11086
Full Name	ADAM metallopeptidase domain 29
Synonyms	CT73,svph1
General protein information	Preferred Names ADAM metallopeptidase domain 29 Names disintegrin and metalloproteinase domain-containing protein 29 a disintegrin and metalloproteinase domain 29 cancer/testis antigen 73 metallaproteinase-disintegrin (ADAM29) testis secretory sperm-binding protein Li 207a
Gene Type	protein-coding
Organism	Homo sapiens(human)
Genome	Chromosome: 4 Map Location: 4q34.1
Summary	This gene encodes a member of the ADAM (a disintegrin and metalloprotease domain) family. Members of this family are membrane-anchored proteins structurally related to snake venom disintegrins, and have been implicated in a variety of biological processes involving cell-cell and cell-matrix interactions, including fertilization, muscle development, and neurogenesis. The protein encoded by this gene is highly expressed in testis and may be involved in human spermatogenesis. Alternative splicing results in multiple transcript variants that encode the same protein. [provided by RefSeq, Jul 2008].
Disorder MIM:	604778

mRNA and Protein(s)

mRNA	Protein	Name
XM_011531559.1	XP_011529861.1	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
XM_011531560.1	XP_011529862.1	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
XM_011531561.1	XP_011529863.1	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
NM_001130704.1	NP_001124176.1	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
NM_001278125.1	NP_001265054.1	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
NM_014269.4	NP_055084.3	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
XM_011531556.1	XP_011529858.1	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
XM_011531557.1	XP_011529859.1	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
NM_001278126.1	NP_001265055.1	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
NM_001278127.1	NP_001265056.1	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
NM_001130705.1	NP_001124177.1	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
NM_001130703.1	NP_001124175.1	disintegrin and metalloproteinase domain-containing protein 29 preproprotein

Pathways from BioSystems

Homologies

Canis lupus familiaris (dog)	ADAM29	XP_005635702.1
Mus musculus (house mouse)	Adam29	NP_787953.2
Pan troglodytes (chimpanzee)	ADAM29	XP_003950526.1
Bos taurus (cattle)	ADAM29	XP_005209878.1
Homo sapiens (human)	ADAM29	NP_001124177.1
	ADAM29	XP_001088304.1

Gene Ontology
Bibliography

Related articles in PubMed

ADAM29 Expression in Human Breast Cancer and its Effects on Breast Cancer Cells In Vitro.
Zhao M, Jia W, Jiang WG, Wang P, DU G, Cheng S, Song M
Anticancer research36(3)1251-8(2016 Mar)

Gene expression profiles in peripheral blood mononuclear cells of Asian obstructive sleep apnea patients.
Lin SW, Tsai CN, Lee YS, Chu SF, Chen NH
Biomedical journal37(2)60-70(2014 Mar-Apr)

Large-scale genotyping identifies 41 new loci associated with breast cancer risk.
Michailidou K, Hall P, Gonzalez-Neira A, Ghoussaini M, Dennis J, Milne RL, Schmidt MK, Chang-Claude J, Bojesen SE, Bolla MK, Wang Q, Dicks E, Lee A, Turnbull C, Rahman N, , Fletcher O, Peto J, Gibson L, Dos Santos Silva I, Nevanlinna H, Muranen TA, Aittom?ki K, Blomqvist C, Czene K, Irwanto A, Liu J, Waisfisz Q, Meijers-Heijboer H, Adank M, , van der Luijt RB, Hein R, Dahmen N, Beckman L, Meindl A, Schmutzler RK, M?ller-Myhsok B, Lichtner P, Hopper JL, Southey MC, Makalic E, Schmidt DF, Uitterlinden AG, Hofman A, Hunter DJ, Chanock SJ, Vincent D, Bacot F, Tessier DC, Canisius S, Wessels LF, Haiman CA, Shah M, Luben R, Brown J, Luccarini C, Schoof N, Humphreys K, Li J, Nordestgaard BG, Nielsen SF, Flyger H, Couch FJ, Wang X, Vachon C, Stevens KN, Lambrechts D, Moisse M, Paridaens R, Christiaens MR, Rudolph A, Nickels S, Flesch-Janys D, Johnson N, Aitken Z, Aaltonen K, Heikkinen T, Broeks A, Veer LJ, van der Schoot CE, Gu?nel P, Truong T, Laurent-Puig P, Menegaux F, Marme F, Schneeweiss A, Sohn C, Burwinkel B, Zamora MP, Perez JI, Pita G, Alonso MR, Cox A, Brock IW, Cross SS, Reed MW, Sawyer EJ, Tomlinson I, Kerin MJ, Miller N, Henderson BE, Schumacher F, Le Marchand L, Andrulis IL, Knight JA, Glendon G, Mulligan AM, , , Lindblom A, Margolin S, Hooning MJ, Hollestelle A, van den Ouweland AM, Jager A, Bui QM, Stone J, Dite GS, Apicella C, Tsimiklis H, Giles GG, Severi G, Baglietto L, Fasching PA, Haeberle L, Ekici AB, Beckmann MW, Brenner H, M?ller H, Arndt V, Stegmaier C, Swerdlow A, Ashworth A, Orr N, Jones M, Figueroa J, Lissowska J, Brinton L, Goldberg MS, Labr?che F, Dumont M, Winqvist R, Pylk?s K, Jukkola-Vuorinen A, Grip M, Brauch H, Hamann U, Br?ning T, , Radice P, Peterlongo P, Manoukian S, Bonanni B, Devilee P, Tollenaar RA, Seynaeve C, van Asperen CJ, Jakubowska A, Lubinski J, Jaworska K, Durda K, Mannermaa A, Kataja V, Kosma VM, Hartikainen JM, Bogdanova NV, Antonenkova NN, D?rk T, Kristensen VN, Anton-Culver H, Slager S, Toland AE, Edge S, Fostira F, Kang D, Yoo KY, Noh DY, Matsuo K, Ito H, Iwata H, Sueta A, Wu AH, Tseng CC, Van Den Berg D, Stram DO, Shu XO, Lu W, Gao YT, Cai H, Teo SH, Yip CH, Phuah SY, Cornes BK, Hartman M, Miao H, Lim WY, Sng JH, Muir K, Lophatananon A, Stewart-Brown S, Siriwanarangsan P, Shen CY, Hsiung CN, Wu PE, Ding SL, Sangrajrang S, Gaborieau V, Brennan P, McKay J, Blot WJ, Signorello LB, Cai Q, Zheng W, Deming-Halverson S, Shrubsole M, Long J, Simard J, Garcia-Closas M, Pharoah PD, Chenevix-Trench G, Dunning AM, Benitez J, Easton DF
Nature genetics45(4)353-61, 361e1-2(2013 Apr)

Analysis of the disintegrin-metalloproteinases family reveals ADAM29 and ADAM7 are often mutated in melanoma.
Wei X, Moncada-Pazos A, Cal S, Soria-Valles C, Gartner J, Rudloff U, Lin JC, , Rosenberg SA, L?pez-Ot?n C, Samuels Y
Human mutation32(6)E2148-75(2011 Jun)

IGHV gene mutational status and LPL/ADAM29 gene expression as clinical outcome predictors in CLL patients in remission following treatment with oral fludarabine plus cyclophosphamide.
Maloum K, Settegrana C, Chapiro E, Cazin B, Lepr?tre S, Delmer A, Leporrier M, Dreyfus B, Tournilhac O, Mahe B, Nguyen-Khac F, Lesty C, Davi F, Merle-B?ral H
Annals of hematology88(12)1215-21(2009 Dec)

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

Increased transcript expression of ADAM29 was observed in breast cancer tissues compared to normal ones. The expression of ADAM29 and its mutations in different domains significantly influenced proliferation, migration and invasion of breast cancer cells in vitro.
Title: ADAM29 Expression in Human Breast Cancer and its Effects on Breast Cancer Cells In Vitro.

PCMC expression of ADAM29, FLRT2, and SLC18A3 could be assessed as part of a routine screen to help identify individuals at risk of severe Obstructive sleep apnea in Asian populations
Title: Gene expression profiles in peripheral blood mononuclear cells of Asian obstructive sleep apnea patients.

mutated ADAM27 and ADAM7 genes could play a role in melanoma progression.
Title: Analysis of the disintegrin-metalloproteinases family reveals ADAM29 and ADAM7 are often mutated in melanoma.

Results support the use of LPL and ADAM29 gene expression associated to IGHV mutational status for predicting the clinical outcome of patients treated by oral fludarabine + cyclophosphamide and could be considered for treatment strategies.
Title: IGHV gene mutational status and LPL/ADAM29 gene expression as clinical outcome predictors in CLL patients in remission following treatment with oral fludarabine plus cyclophosphamide.

quantification of LPL and ADAM29 gene expression is a strong prognostic indicator in CLL, providing better prognostic assessment than ZAP-70 in advanced stages of the disease
Title: The LPL/ADAM29 expression ratio is a novel prognosis indicator in chronic lymphocytic leukemia.

The following ADAM29 gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the ADAM29 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)
OHu16679	NM_001278127.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 7, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	NM_001130705.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	NM_001278125.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	NM_001130704.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	NM_014269.4 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	NM_001278126.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 6, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	NM_001130703.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	XM_011531560.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X4, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	XM_011531561.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X5, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	XM_011531559.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X3, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	XM_011531556.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X1, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00
OHu16679	XM_011531557.1 Latest version!	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X2, mRNA.	pcDNA3.1-C-(k)DYK or customized vector	TBD	$391.30 $559.00

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** 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)

ADAM29 ( NM_001130704.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001124176.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 3, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	NM_001130704.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-24
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB073142.1, DB080702.1, AK292410.1 and BC036070.1. Transcript Variant: This variant (3) differs in the 5' UTR, compared to variant 1. Variants 1, 2, 3, 4, 5, 6, and 7 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: AK292410.1, BI561525.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	NP_001124176.1
CDS	565..3027
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	NM_001130704.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 3, mRNA.

Target ORF information:

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

NM_001130704.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( NM_001278125.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001265054.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 5, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	NM_001278125.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) 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	2019-02-23
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from AC105914.4, DB078627.1, AK292410.1 and BC036070.1. Transcript Variant: This variant (5) differs in the 5' UTR, compared to variant 1. Variants 1, 2, 3, 4, 5, 6, and 7 encode the same protein. Sequence Note: This RefSeq record was created from transcript and genomic sequence data to make the sequence consistent with the reference genome assembly. The genomic coordinates used for the transcript record were based on transcript alignments. ##Evidence-Data-START## Transcript exon combination :: DB078627.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA2151119, SAMEA2158188 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	NP_001265054.1
CDS	732..3194
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	NM_001278125.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 5, mRNA.

Target ORF information:

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

NM_001278125.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( NM_014269.4 ) cDNA ORF clone, Homo sapiens(human) -> NP_055084.3 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 1, mRNA.

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CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	NM_014269.4 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-24
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB073142.1, DB078034.1, DB080702.1, AK292410.1 and BC036070.1. On Aug 1, 2008 this sequence version replaced NM_014269.3. Transcript Variant: This variant (1) encodes the functional protein. Variants 1, 2, 3, 4, 5, 6, and 7 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: CD625434.1, CD625429.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## ##RefSeq-Attributes-START## MANE Ensembl match :: ENST00000359240.7/ ENSP00000352177.3 RefSeq Select criteria :: based on conservation, expression, longest protein ##RefSeq-Attributes-END## COMPLETENESS: complete on the 3' end.

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	NP_055084.3
CDS	671..3133
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	NM_014269.4
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 1, mRNA.

Target ORF information:

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

NM_014269.4

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( NM_001278126.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001265055.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 6, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	NM_001278126.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) 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	2019-02-23
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB073142.1, DB051105.1, DB078125.1, AK292410.1 and BC036070.1. Transcript Variant: This variant (6) differs in the 5' UTR, compared to variant 1. Variants 1, 2, 3, 4, 5, 6, and 7 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: DB078125.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2151119 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	NP_001265055.1
CDS	725..3187
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	NM_001278126.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 6, mRNA.

Target ORF information:

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

NM_001278126.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( NM_001278127.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001265056.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 7, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	NM_001278127.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-23
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB073142.1, DB044176.1, AK292410.1 and BC036070.1. Transcript Variant: This variant (7) differs in the 5' UTR, compared to variant 1. Variants 1, 2, 3, 4, 5, 6, and 7 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: DB044176.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	NP_001265056.1
CDS	295..2757
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	NM_001278127.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 7, mRNA.

Target ORF information:

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

NM_001278127.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( NM_001130705.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001124177.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 4, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	NM_001130705.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-23
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB073142.1, DB039551.1, AK292410.1 and BC036070.1. Transcript Variant: This variant (4) differs in the 5' UTR, compared to variant 1. Variants 1, 2, 3, 4, 5, 6, and 7 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: DB020346.1, DB028775.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	NP_001124177.1
CDS	484..2946
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	NM_001130705.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 4, mRNA.

Target ORF information:

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

NM_001130705.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( NM_001130703.1 ) cDNA ORF clone, Homo sapiens(human) -> NP_001124175.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 2, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	NM_001130703.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-24
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 preproprotein
Comment	Comment: REVIEWED REFSEQ: This record has been curated by NCBI staff. The reference sequence was derived from DB073142.1, DB051105.1, AK292410.1 and BC036070.1. Transcript Variant: This variant (2) differs in the 5' UTR, compared to variant 1. Variants 1, 2, 3, 4, 5, 6, and 7 encode the same protein. ##Evidence-Data-START## Transcript exon combination :: HM005325.1, DB051105.1 [ECO:0000332] RNAseq introns :: single sample supports all introns SAMEA1968968, SAMEA2148093 [ECO:0000348] ##Evidence-Data-END## COMPLETENESS: complete on the 3' end.

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	NP_001124175.1
CDS	590..3052
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	NM_001130703.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant 2, mRNA.

Target ORF information:

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

NM_001130703.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( XM_011531559.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011529861.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X3, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	XM_011531559.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	XP_011529861.1
CDS	703..3165
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	XM_011531559.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X3, mRNA.

Target ORF information:

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

XM_011531559.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( XM_011531560.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011529862.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X4, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	XM_011531560.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	XP_011529862.1
CDS	730..3192
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	XM_011531560.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X4, mRNA.

Target ORF information:

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

XM_011531560.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( XM_011531561.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011529863.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X5, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	XM_011531561.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	XP_011529863.1
CDS	622..3084
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	XM_011531561.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X5, mRNA.

Target ORF information:

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

XM_011531561.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( XM_011531556.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011529858.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X1, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	XM_011531556.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	XP_011529858.1
CDS	814..3276
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	XM_011531556.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X1, mRNA.

Target ORF information:

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

XM_011531556.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

ADAM29 ( XM_011531557.1 ) cDNA ORF clone, Homo sapiens(human) -> XP_011529859.1 Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X2, mRNA.

Price & Availability↑

CloneID	OHu16679
Clone ID Related Accession (Same CDS sequence)	XM_011531559.1 , XM_011531560.1 , XM_011531561.1 , NM_001130704.1 , NM_001278125.1 , NM_014269.4 , XM_011531556.1 , XM_011531557.1 , NM_001278126.1 , NM_001278127.1 , NM_001130705.1 , NM_001130703.1
Accession Version	XM_011531557.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 2463bp) Protein sequence SNP
Vector	pcDNA3.1-C-(k)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-12-05
Organism	Homo sapiens(human)
Product	disintegrin and metalloproteinase domain-containing protein 29 isoform X1
Comment	Comment: MODEL REFSEQ: This record is predicted by automated computational analysis. This record is derived from a genomic sequence (NC_000004.12) annotated using gene prediction method: Gnomon, supported by mRNA and EST evidence. Also see: Documentation of NCBI's Annotation Process ##Genome-Annotation-Data-START## Annotation Provider :: NCBI Annotation Status :: Updated annotation Annotation Name :: Homo sapiens Updated Annotation Release 109.20191205 Annotation Version :: 109.20191205 Annotation Pipeline :: NCBI eukaryotic genome annotation pipeline Annotation Software Version :: 8.3 Annotation Method :: Best-placed RefSeq; propagated RefSeq model Features Annotated :: Gene; mRNA; CDS; ncRNA ##Genome-Annotation-Data-END##

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

RefSeq	XP_011529859.1
CDS	972..3434
Translation	MKMLLLLHCLGVFLSCSGHIQDEHPQYHSPPDVVIPVRITGTTRGMTPPGWLSYILPFGGQKHIIHIKVKKLLFSKHLPVFTYTDQGAILEDQPFVQNNCYYHGYVEGDPESLVSLSTCFGGFQGILQINDFAYEIKPLAFSTTFEHLVYKMDSEEKQFSTMRSGFMQNEITCRMEFEEIDNSTQKQSSYVGWWIHFRIVEIVVVIDNYLYIRYERNDSKLLEDLYVIVNIVDSILDVIGVKVLLFGLEIWTNKNLIVVDDVRKSVHLYCKWKSENITPRMQHDTSHLFTTLGLRGLSGIGAFRGMCTPHRSCAIVTFMNKTLGTFSIAVAHHLGHNLGMNHDEDTCRCSQPRCIMHEGNPPITKFSNCSYGDFWEYTVERTKCLLETVHTKDIFNVKRCGNGVVEEGEECDCGPLKHCAKDPCCLSNCTLTDGSTCAFGLCCKDCKFLPSGKVCRKEVNECDLPEWCNGTSHKCPDDFYVEDGIPCKERGYCYEKSCHDRNEQCRRIFGAGANTASETCYKELNTLGDRVGHCGIKNATYIKCNISDVQCGRIQCENVTEIPNMSDHTTVHWARFNDIMCWSTDYHLGMKGPDIGEVKDGTECGIDHICIHRHCVHITILNSNCSPAFCNKRGICNNKHHCHCNYLWDPPNCLIKGYGGSVDSGPPPKRKKKKKFCYLCILLLIVLFILLCCLYRLCKKSKPIKKQQDVQTPSAKEEEKIQRRPHELPPQSQPWVMPSQSQPPVTPSQSHPQVMPSQSQPPVTPSQSQPRVMPSQSQPPVMPSQSHPQLTPSQSQPPVTPSQRQPQLMPSQSQPPVTPS

Target ORF information:

RefSeq Version	XM_011531557.1
Organism	Homo sapiens(human)
Definition	Homo sapiens ADAM metallopeptidase domain 29 (ADAM29), transcript variant X2, mRNA.

Target ORF information:

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

XM_011531557.1

ORF Insert Sequence:

ATGAAGATGT TACTCCTGCT GCATTGCCTT GGGGTGTTTC TGTCCTGTTC TGGACACATC 
CAGGATGAGC ACCCCCAATA TCACAGCCCT CCGGATGTGG TGATTCCTGT GAGGATAACT 
GGCACCACCA GAGGCATGAC ACCTCCAGGC TGGCTCTCCT ATATCCTGCC CTTTGGAGGC 
CAGAAACACA TTATCCACAT AAAGGTCAAG AAGCTTTTGT TTTCCAAACA CCTCCCTGTG 
TTCACCTACA CAGACCAGGG TGCTATCCTT GAGGACCAGC CATTTGTCCA GAATAACTGC 
TACTATCATG GTTATGTGGA AGGGGACCCA GAATCCCTGG TTTCCCTCAG TACCTGTTTT 
GGGGGTTTTC AAGGAATATT ACAGATAAAT GACTTTGCTT ATGAAATCAA GCCCCTAGCA 
TTTTCTACCA CGTTTGAACA TCTGGTATAC AAGATGGACA GTGAGGAGAA ACAATTTTCA 
ACCATGAGAT CCGGATTTAT GCAAAATGAA ATAACATGCC GAATGGAATT TGAAGAAATT 
GATAATTCCA CTCAGAAGCA AAGTTCTTAT GTGGGCTGGT GGATCCATTT TAGGATTGTT 
GAAATTGTAG TCGTCATTGA TAATTATCTG TACATTCGTT ATGAAAGGAA CGACTCAAAG 
TTGCTGGAGG ATCTATATGT TATTGTTAAT ATAGTGGATT CCATTTTGGA TGTCATTGGT 
GTTAAGGTGT TATTATTTGG TTTGGAGATC TGGACCAATA AAAACCTCAT TGTAGTAGAT 
GATGTAAGGA AATCTGTGCA CCTGTATTGC AAGTGGAAGT CGGAGAACAT TACGCCCCGG 
ATGCAACATG ACACCTCACA TCTTTTCACA ACTCTAGGAT TAAGAGGGTT AAGTGGCATA 
GGAGCTTTTA GAGGAATGTG TACACCACAC CGTAGTTGTG CAATTGTTAC TTTCATGAAC 
AAAACTTTGG GCACTTTTTC AATTGCAGTG GCTCATCATC TAGGTCATAA TTTGGGCATG 
AACCATGATG AGGATACATG TCGTTGTTCA CAACCTAGAT GCATAATGCA TGAAGGCAAC 
CCACCAATAA CTAAATTTAG CAATTGTAGT TATGGTGATT TTTGGGAATA TACTGTAGAG 
AGGACAAAGT GTTTGCTTGA AACAGTACAC ACAAAGGACA TCTTTAATGT GAAGCGCTGT 
GGGAATGGTG TTGTTGAAGA AGGAGAAGAG TGTGACTGTG GACCTTTAAA GCATTGTGCA 
AAAGATCCCT GCTGTCTGTC AAATTGCACT CTGACTGATG GTTCTACTTG TGCTTTTGGG 
CTTTGTTGCA AAGACTGCAA GTTCCTACCA TCAGGGAAAG TGTGTAGAAA GGAGGTCAAT 
GAATGTGATC TTCCAGAGTG GTGCAATGGT ACTTCCCATA AGTGCCCAGA TGACTTTTAT 
GTGGAAGATG GAATTCCCTG TAAGGAGAGG GGCTACTGCT ATGAAAAGAG CTGTCATGAC 
CGCAATGAAC AGTGTAGGAG GATTTTTGGT GCAGGCGCAA ATACTGCAAG TGAGACTTGC 
TACAAAGAAT TGAACACCTT AGGTGACCGT GTTGGTCACT GTGGTATCAA AAATGCTACA 
TATATAAAGT GTAATATCTC AGATGTCCAG TGTGGAAGAA TTCAGTGTGA GAATGTGACA 
GAAATTCCCA ATATGAGTGA TCATACTACT GTGCATTGGG CTCGCTTCAA TGACATAATG 
TGCTGGAGTA CTGATTACCA TTTGGGGATG AAGGGACCTG ATATTGGTGA AGTGAAAGAT 
GGAACAGAGT GTGGGATAGA TCATATATGC ATCCACAGGC ACTGTGTCCA TATAACCATC 
TTGAATAGTA ATTGCTCACC TGCATTTTGT AACAAGAGGG GCATCTGCAA CAATAAACAT 
CACTGCCATT GCAATTATCT GTGGGACCCT CCCAACTGCC TGATAAAAGG CTATGGAGGT 
AGTGTTGACA GTGGCCCACC CCCTAAGAGA AAGAAGAAAA AGAAGTTCTG TTATCTGTGT 
ATATTGTTGC TTATTGTTTT GTTTATTTTA TTATGTTGTC TTTATCGACT TTGTAAAAAA 
AGTAAACCAA TAAAAAAGCA GCAAGATGTT CAAACTCCAT CTGCAAAAGA AGAGGAAAAA 
ATTCAGCGTC GACCTCATGA GTTACCTCCC CAGAGTCAAC CTTGGGTGAT GCCTTCCCAG 
AGTCAACCTC CTGTGACGCC TTCCCAGAGT CATCCTCAGG TGATGCCTTC CCAGAGTCAA 
CCTCCTGTGA CACCCTCCCA GAGTCAACCT CGGGTGATGC CTTCTCAGAG TCAACCTCCT 
GTGATGCCTT CCCAGAGTCA TCCTCAGTTG ACGCCTTCCC AGAGTCAACC TCCTGTGACA 
CCCTCCCAGA GGCAACCTCA GTTGATGCCT TCCCAGAGTC AACCTCCTGT GACGCCCTCC 
TAG

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

PubMed

ADAM29 Expression in Human Breast Cancer and its Effects on Breast Cancer Cells In Vitro.
Anticancer research36(3)1251-8(2016 Mar)
Zhao M,Jia W,Jiang WG,Wang P,DU G,Cheng S,Song M

Gene expression profiles in peripheral blood mononuclear cells of Asian obstructive sleep apnea patients.
Biomedical journal37(2)60-70(2014 Mar-Apr)
Lin SW,Tsai CN,Lee YS,Chu SF,Chen NH

Large-scale genotyping identifies 41 new loci associated with breast cancer risk.
Nature genetics45(4)353-61, 361e1-2(2013 Apr)
Michailidou K,Hall P,Gonzalez-Neira A,Ghoussaini M,Dennis J,Milne RL,Schmidt MK,Chang-Claude J,Bojesen SE,Bolla MK,Wang Q,Dicks E,Lee A,Turnbull C,Rahman N,,Fletcher O,Peto J,Gibson L,Dos Santos Silva I,Nevanlinna H,Muranen TA,Aittom?ki K,Blomqvist C,Czene K,Irwanto A,Liu J,Waisfisz Q,Meijers-Heijboer H,Adank M,,van der Luijt RB,Hein R,Dahmen N,Beckman L,Meindl A,Schmutzler RK,M?ller-Myhsok B,Lichtner P,Hopper JL,Southey MC,Makalic E,Schmidt DF,Uitterlinden AG,Hofman A,Hunter DJ,Chanock SJ,Vincent D,Bacot F,Tessier DC,Canisius S,Wessels LF,Haiman CA,Shah M,Luben R,Brown J,Luccarini C,Schoof N,Humphreys K,Li J,Nordestgaard BG,Nielsen SF,Flyger H,Couch FJ,Wang X,Vachon C,Stevens KN,Lambrechts D,Moisse M,Paridaens R,Christiaens MR,Rudolph A,Nickels S,Flesch-Janys D,Johnson N,Aitken Z,Aaltonen K,Heikkinen T,Broeks A,Veer LJ,van der Schoot CE,Gu?nel P,Truong T,Laurent-Puig P,Menegaux F,Marme F,Schneeweiss A,Sohn C,Burwinkel B,Zamora MP,Perez JI,Pita G,Alonso MR,Cox A,Brock IW,Cross SS,Reed MW,Sawyer EJ,Tomlinson I,Kerin MJ,Miller N,Henderson BE,Schumacher F,Le Marchand L,Andrulis IL,Knight JA,Glendon G,Mulligan AM,,,Lindblom A,Margolin S,Hooning MJ,Hollestelle A,van den Ouweland AM,Jager A,Bui QM,Stone J,Dite GS,Apicella C,Tsimiklis H,Giles GG,Severi G,Baglietto L,Fasching PA,Haeberle L,Ekici AB,Beckmann MW,Brenner H,M?ller H,Arndt V,Stegmaier C,Swerdlow A,Ashworth A,Orr N,Jones M,Figueroa J,Lissowska J,Brinton L,Goldberg MS,Labr?che F,Dumont M,Winqvist R,Pylk?s K,Jukkola-Vuorinen A,Grip M,Brauch H,Hamann U,Br?ning T,,Radice P,Peterlongo P,Manoukian S,Bonanni B,Devilee P,Tollenaar RA,Seynaeve C,van Asperen CJ,Jakubowska A,Lubinski J,Jaworska K,Durda K,Mannermaa A,Kataja V,Kosma VM,Hartikainen JM,Bogdanova NV,Antonenkova NN,D?rk T,Kristensen VN,Anton-Culver H,Slager S,Toland AE,Edge S,Fostira F,Kang D,Yoo KY,Noh DY,Matsuo K,Ito H,Iwata H,Sueta A,Wu AH,Tseng CC,Van Den Berg D,Stram DO,Shu XO,Lu W,Gao YT,Cai H,Teo SH,Yip CH,Phuah SY,Cornes BK,Hartman M,Miao H,Lim WY,Sng JH,Muir K,Lophatananon A,Stewart-Brown S,Siriwanarangsan P,Shen CY,Hsiung CN,Wu PE,Ding SL,Sangrajrang S,Gaborieau V,Brennan P,McKay J,Blot WJ,Signorello LB,Cai Q,Zheng W,Deming-Halverson S,Shrubsole M,Long J,Simard J,Garcia-Closas M,Pharoah PD,Chenevix-Trench G,Dunning AM,Benitez J,Easton DF

Analysis of the disintegrin-metalloproteinases family reveals ADAM29 and ADAM7 are often mutated in melanoma.
Human mutation32(6)E2148-75(2011 Jun)
Wei X,Moncada-Pazos A,Cal S,Soria-Valles C,Gartner J,Rudloff U,Lin JC,,Rosenberg SA,L?pez-Ot?n C,Samuels Y

IGHV gene mutational status and LPL/ADAM29 gene expression as clinical outcome predictors in CLL patients in remission following treatment with oral fludarabine plus cyclophosphamide.
Annals of hematology88(12)1215-21(2009 Dec)
Maloum K,Settegrana C,Chapiro E,Cazin B,Lepr?tre S,Delmer A,Leporrier M,Dreyfus B,Tournilhac O,Mahe B,Nguyen-Khac F,Lesty C,Davi F,Merle-B?ral H

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ADAM29 cDNA ORF clone, Homo sapiens(human)

Gene

Clones

gRNAs

Related articles in PubMed

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Target ORF information:

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ORF Insert Sequence:

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電話

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オンラインフォーム