ORF cDNA Clones and Custom Clones » Species Summary » Drosophila melanogaster » AdamTS-A cDNA ORF clone

AdamTS-A cDNA ORF clone, Drosophila melanogaster(fruit fly)

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Summary

Gene Symbol	AdamTS-A
Entrez Gene ID	41887
Full Name	ADAM metallopeptidase with thrombospondin type 1 motif A
Synonyms	CG14869,CG6107,CT19033,Dmel\CG14869
General protein information	Preferred Names ADAM metallopeptidase with thrombospondin type 1 motif A Names CG14869 gene product from transcript CG14869-RB AdamTS-A-PB AdamTS-A-PC AdamTS-A-PE CG14869-PB CG14869-PC CG14869-PE
Gene Type	protein-coding
Organism	Drosophila melanogaster(fruit fly)
Genome	Chromosome: 3R Map Location: 88F5-88F6

Reference Sequences (RefSeq)

mRNA and Protein(s)

mRNA	Protein	Name
NM_206496.2	NP_996218.1	ADAM metallopeptidase with thrombospondin type 1 motif A, isoform B
NM_169659.3	NP_732036.2	ADAM metallopeptidase with thrombospondin type 1 motif A, isoform E
NM_001275675.1	NP_001262604.1	ADAM metallopeptidase with thrombospondin type 1 motif A, isoform C

Homologies

Drosophila melanogaster (fruit fly)	CG14869	NP_732036.2
Anopheles gambiae (African malaria mosquito)	AgaP_AGAP004201	XP_313098.5

Gene Model Annotations for Drosophila melanogaster: Impact of High-Throughput Data.
Matthews BB, Dos Santos G, Crosby MA, Emmert DB, St Pierre SE, Gramates LS, Zhou P, Schroeder AJ, Falls K, Strelets V, Russo SM, Gelbart WM,
G3 (Bethesda, Md.)5(8)1721-36(2015 Jun)

Gene Model Annotations for Drosophila melanogaster: The Rule-Benders.
Crosby MA, Gramates LS, Dos Santos G, Matthews BB, St Pierre SE, Zhou P, Schroeder AJ, Falls K, Emmert DB, Russo SM, Gelbart WM,
G3 (Bethesda, Md.)5(8)1737-49(2015 Jun)

Sequence finishing and mapping of Drosophila melanogaster heterochromatin.
Hoskins RA, Carlson JW, Kennedy C, Acevedo D, Evans-Holm M, Frise E, Wan KH, Park S, Mendez-Lago M, Rossi F, Villasante A, Dimitri P, Karpen GH, Celniker SE
Science (New York, N.Y.)316(5831)1625-8(2007 Jun)

The Release 5.1 annotation of Drosophila melanogaster heterochromatin.
Smith CD, Shu S, Mungall CJ, Karpen GH
Science (New York, N.Y.)316(5831)1586-91(2007 Jun)

Combined evidence annotation of transposable elements in genome sequences.
Quesneville H, Bergman CM, Andrieu O, Autard D, Nouaud D, Ashburner M, Anxolabehere D
PLoS computational biology1(2)166-75(2005 Jul)

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

This work supports a model in which AdamTS-A anchors cells in place and preserves central nervous system architecture by reducing tissue stiffness.
Title: The extracellular metalloprotease AdamTS-A anchors neural lineages in place within and preserves the architecture of the central nervous system.

ADAMTS-A detaches salivary gland cells from the apical extracellular matrix.
Title: The secreted AdamTS-A metalloprotease is required for collective cell migration.

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The following AdamTS-A gene cDNA ORF clone sequences were retrieved from the NCBI Reference Sequence Database (RefSeq). These sequences represent the protein coding region of the AdamTS-A 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.

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***CloneID	Accession No.	Definition	**Vector	*Turnaround time	Price (USD)
OFa05014	NM_206496.2 Latest version!	Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant B, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	25	$1021.30 $1459.00
OFa05015	NM_169659.3 Latest version!	Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant E, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	25	$881.30 $1259.00
OFa08404	NM_001275675.1 Latest version!	Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant C, mRNA.	pcDNA3.1⁺/C-(K)DYK or customized vector	25	$881.30 $1259.00

ORF Online Only Promotion

Next-day Shipping ORF Clones ( in default vector with tag)
1 Clone	30% OFF
2-4 Clone	40% OFF
5 or more Clone	50% OFF
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*Business Day

** You may select a custom vector to replace pcDNA3.1+/C-(K)DYK after clone is added to cart.

** GenScript guarantees 100% sequence accuracy of all synthetic DNA constructs we deliver, but we do not guarantee protein expression in your experimental system. Protein expression is influenced by many factors that may vary between experiments or laboratories. In addition, please pay attention to the signal peptide, propeptide and transit peptide in target ORF, which may affect the choice of vector (N/C terminal tag vector).

***One clone ID might be correlated to multiple accession numbers, which share the same CDS sequence.

Reference Sequences (Refseq)

AdamTS-A ( NM_206496.2 ) cDNA ORF clone, Drosophila melanogaster(fruit fly) -> NP_996218.1 Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant B, mRNA.

Price & Availability↑

CloneID	OFa05014
Clone ID Related Accession (Same CDS sequence)	NM_206496.2
Accession Version	NM_206496.2 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 5067bp) Protein sequence SNP
Vector	pcDNA3.1⁺/C-(K)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-04-24
Organism	Drosophila melanogaster(fruit fly)
Product	ADAM metallopeptidase with thrombospondin type 1 motif A, isoform B
Comment	Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_033777). On Jan 16, 2013 this sequence version replaced NM_206496.1. ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 6.26 URL :: http://flybase.org ##Genome-Annotation-Data-END##

ATGTCCATGC CGGATGCCGG TTCACTTAAA TCGCCCGCCG GCGGCCAGGA GGTCGAGTGC 
CATCGCCTGC TGTCGGACCT GCCCGCCTTC GCGTATCCCA GCACCACACT GCGGTCCACA 
ACTTCTGGTC ACAGCACTGG CACGAATAGT ACCACTGTCT GCGAATCTCC CGGTGCTCGG 
GATCGTACCT CCTTCGCGTG CTCCTCCTCT TGCGTATCAT CCGCCTGCTC AGCCACCGCC 
TCCGATGACG ACGAGGATGA GCGTGCCCTT GAGCGCTGTC TGCGTGGGAC GACGGACGAC 
CTTGGGGAGT CCGGCCTGCG GTATTCGCTG AAAGGACCAC CGCCGGAGCT CTACTCGGCC 
AAGAAGGACT TCATCAGCAA GGGTCCGCTG CTGGGCAGAC AGCTCGAGGT GAAGAAGAGG 
TGTGAATGGT GGTGCCACAA GTACATTCAA AAGATGTCCA CCCACTGGCG GCAGAATGCC 
TGCCTGTATG CCTGCTGCAT CGCTTTTCTG CTGGGCATGC TTATCATGTT CCATCTCGGT 
TTGCGAAGTG CCCATAAGGG CCAAGAGGAG CTGCCACAGA GCACGCACCC ACTAGCCAAC 
AGTCCACCTG CTACACCAGC CACGCTCCAT CCCAGAAGGC TTGATAACGA CACGTCGACG 
GACCACGAGC CACCCGATGG CTTAGACGAT CTGGACGAGG AGGAGCACAG CGCCTTCGTG 
ATGCCCACCA AGGTCTACAA CTACAGTCTC AGCGAAGCTG ATCTGATCTA CGAGTCGAAA 
CGAAACAGCG ACATCAACAG TTTCCTAAAA GAGTCCGCAT CGGCCTTTGC CATGACGGGA 
ACGTATCGCA ACATGTCCAA TGAGATCTGG GACCCGCATC CGCAGTACAA CCTCAATGTG 
TTCGGTCGCC AGTTGCATTT GGTGCTGCGA CAGGACGCCT CGTTCGTCCA CAACCATTCG 
ATGACCCACA TTCGGATACT GAAGGAGGGG GAGGAGCATC CGGGACCGGA GACGGAGGCG 
GAGGCGGAGC AGCGCCACCT AGGCTGCTTC TACTCCGGTT ACGTCGAGGA CGATCCGCAC 
TCGATGGTCT CCGTCTCACT GTGCGGCGGC ATGACTGGTT ATATCAAAAC GAGTTTCGGC 
GCGCTGCTCA TTCAGCCGGT GAACCGAACC AGCAGCGATG AGGTTCTCCA CCGGGTCTTT 
CGCAAATCGC AGCGCAACGC CAGACACGCT GTCTCCAAGT TCGAGCTGGG CCTGGATGAT 
TTCATGAGCA AGCTGGAGCA GGTGCAGGAG GAGGAGCAGA AGTCCAAGTC CCGCAAACTG 
AATCGGAAGA AGCGACACTA TGCGGACGTG GACAACCAGG TGTACACCTT GGAGGTGCTC 
ATTGCGGTGG ACAATAGCAT GAAGCAATTC CACGGCGAGG ACCTGCAACC ATACATTCTC 
ATCCTCATGT CGATCGTGTC CAGCATTTTT GCGGACGCCA GCATTGGTAA CTCCATTCGC 
ATTTTGCTGG TGCGACTGAT CAGCCTGCCG AATATCAACG ACCAGACGCA TTCCAGCAAC 
GAAATGCTGA AGCACTTCTG CCAGTTTATT AACCAATCTG GATACGAAAG AGATACAGCC 
ATGTTGATCA CACGCGAACC CATCTGTGGC AGCGTGCCGG GCAAGATTTG CCATATGCTG 
GGCTTGGCCG AACTGGGCAC TGTTTGCAGT TCCAGTTCCT GCTCCATTGT CCAGGACACC 
GGACTGCCCA CCGCCTTTAC CATGGCCCAC GAGCTGGGAC ACATCTTGAA CATGAACCAC 
GACGACGACG ACAAGTGTAT GCCCTATGTC ACCAGGCAGA ACAACAACAA GGTGCTCCAC 
ATCATGTCCA GCGTGATGGG CATCCACATG CATCCGTGGT CGTGGTCCAA GTGCTCCCGC 
CACTTTGTCT CCGAGTTTCT CGAGAAAACC GACAAGTCCT GTCTGGAGAC CTCCGTGGGC 
GCCCACATTC CCTATGGCAC CGAGCGTCTG CCTGGAGAGA TCTACTCCCT GGACGCCCAG 
TGCCAGCTGA GTTTCGGCAA TGACTTTGGC TACTGTCCCA CGGACGAGGA GTGCAAGCGG 
TTGTGGTGCA ACCGAACCTC CGGTAACTCC AACGAGCAGT GCGCCTCCAG CAATCTGCCA 
TGGGCCGACG GAACGCCCTG CGGCTCCAGT GGCCACTGGT GTCAGCGGGG CAAGTGTGTA 
TCCAACAAGC ATGGATACGG ACGCCAGGTG AACGGTGGAT GGGGACCATG GACGCCATTC 
ACGCCCTGCA GCCTCACCTG CGGTGGCGGA GTGCAGGAGT CGCGTCGTGA GTGCAACCAA 
CCGGTGCCGG AGAACGGTGG CAAGTACTGC ACGGGAAGTC GGAAGAAGTA CCGATCGTGC 
AACACACACC AGTGTCCGCC AGGCAGCATG GATCCGCGCG AGCAGCAGTG CTATGCGATG 
AACGGACGGA ACATGAACAT TCCGGGCGTG AACCCAGACA CCAAGTGGGT GCCCAAATAC 
GAAAAGGATG CGTGCAAGCT ATTCTGCCGC ATGGACATGA AGGTCACCTA CTTCATGCTC 
AAGAGCATGG TCACCGACGG CACCTCCTGT GCGGTGGACA GCTTCGACAA GTGCGTCAAC 
GGCATCTGCC GGCCGGCGGG ATGCGACAAC GAGCTCAACT CGATTGCCAA GCTGGACAAG 
TGCGGCGTGT GCGAGGGTCG CAATGACACA TGCCACGAGG TAACCGGAAA TCTGCTCGTC 
TCCAATCTCC TGGGGCTAAA TGATGGGAAT GAGCCGAACA AGACACTTTA CTATGTGACG 
CGAATACCAA AAGGTGCCTC CAACATAATA ATCACTCAGC GTGGCTATCC CGACCAGAAC 
TTCATAGTAC TCACCGATGA CCGGGACAAC GAACTGCTTA ATGGAAAATT CCTCAAGACC 
TATCCATTGA AATTCGTTTA TGCCGGAGTC ACGATGCAGT ACACCGGTTC TAGTAGTGTG 
GTGGAGCAGG TGAATACGAC CTACTCATGG AAACTGTCAC GTGATCTTAT AGTACAGATC 
ATTTCACTGG ACGTGAGTCC GTCCAAGCGG CAGGACACCG TCCTCTTGTC CTACTCCTAC 
ACCATCGACA AGCCACCGGA TTATGAGGCG GAGGTGGAGA TCTATCGCTG GGAGATGCAG 
GCCCCGAGCA ACTGTGATTC CCTATGCGAG GGCAGGAGTC ATCGACTGCC GGCCTGCATC 
AGCACCACCC AGGGTGTCAA GGTTGCCCCA CAGTTCTGTG ACAAGTCCGC CATGCCCAAA 
ATCGATGATC GGGCTTGCAA CACTGACTGC CGCCTCAATC TCACTGTGAC GAGCATCTCG 
GAGTGCTCGG CCGCGTGTGG AGAATTGGGT ACCCGGGAGA AGACCTACGC CTGCGTCCAG 
ACATTCACGA ATATGCAACG TTCCAATATT GTGGATATGT CATATTGCAA GCTGAAATTC 
GATGTGGCTT ACCATGAGGA GTGTCGCGAA GGATGCTGGG TTTTATCGGA GTGGTCAACT 
TGCTCCAAGT CGTGTGGCAC TGGTTCCCAG CAGCGTGAAG CTCACTGCTA CCTACACAAT 
TCCCGTGTCA GCGATGATCT GTGCAATCCA CGGACCAAGC CCCATTTGAA CACCCTAATC 
GGGATCTGCA ACACTGAGTC GTGTCCCACG TACACGAAAT CACCTAATGC CCTGGCAGTT 
AGTAACTGGG TGATTGGAGA ATGGGGCGAA TGCAATGAGT GGTGCGAGAA GACTCGTTCT 
GTGAGTTGTT CACATCCATA CGGAATCGGC TGCGGCAGTA GAAAGCCCAA GGACGTCCGC 
AAATGCTGCC ACATCAAGTA CACCAGCGAT TGGACAGACT GTTCGGTGCA ATGTGGCGAG 
GGCGTCAAGA GGAAGAAGCA AAGCTGCACG CGGGTCTACA AGCCGGATGT TCCGGGTACC 
CGAAAGCGCC GAGTGTACGT GGATGAATCG TACTGCATTA GCCGAAAGGT GCATCGTCCC 
AAGCTGCGCA CCACCACCAA ATCCTGCAGG ATCAACTGCA AGTGGAATGC CTCGGACTGG 
AGGCGCTGTC CTGCTGACTG CTCGGAGGAG TACCAAACGC GTGATGTGCG CTGCGAGTCC 
TTCCAGGGTG ACGGAGTGGA GGACAAGCAC TGCGATGCCA AGAAGCGTCC ATCCAAGCGA 
CGCATCTGCA ACAACTGCGT GCGCCGGCAG TCGAGAGTCA TCTCGCAGTG CAACTGTGAG 
GGTGTGGAGA AGAGGCGGGA CTTCTGCTTC AACTCGCACA AGGGTCGCAT CGCGTGTCCC 
ACGAGAGCCA GGGTGGAGCG TCACAGCTGC ACTCCGCCGC CACATTGCCG AAGGAGAAGT 
GCCATCGGGA GCAGCATCAG CAGCAGACCG AGGGGCACTG GAGTGAGTAG CAGCAGGAGC 
TTGAATTCAA TCGGAGGCTC ACGGAATCGC GGAACACCGA GAAGCTGTGC GGACCTGAAG 
GAGATGCACG GCTACAACAA GGATGGCAAC TACCAGCTGG AGGTGAGATC GCGAATGGTG 
CACATCTACT GCCACGGGAT GAACAGCAGG ACGCCACAGG AGTACGTGAA CGTGGATCCG 
CAGGAGAACT ACTCCATATA CTACGAGTAC AGGACGAAAC AGACCAACAG CTGTCCGCCG 
GAGTCGCGAG GCCACGAGTA CTACAACGAT CAGAACTCCG GCCGGACGCA CTTCAGAAAG 
CTGCGGCTGA ATATCACCGA TCTGCGCATC ATGGACAACG ACTTCAAGTT CGCCGATTCG 
CGAGGATTGG CTCAGAAGCT GGGATCAGCG GGCGATTGCT ACAATCGCAT TGGCCAGTGT 
CCGCAGGGCG ACTTCTCGAT TAACATGAAG GACACGGACT TCTCCATACG ACCGGGAACC 
GTGTGGCGGA TGCATGGCCA GTACTCGGTC ATGAAGCGTA TCAGTGAGTT TGATACGACC 
ACGCAGATGC GAAGGGGATT CTGCGGAGGA TACTGCGGCG GTTGCTATAT AGCGCCCGAT 
TCTGGCCTTT ACCTGGACGT GTTATGA

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

RefSeq	NP_996218.1
CDS	906..5972
Translation	MSMPDAGSLKSPAGGQEVECHRLLSDLPAFAYPSTTLRSTTSGHSTGTNSTTVCESPGARDRTSFACSSSCVSSACSATASDDDEDERALERCLRGTTDDLGESGLRYSLKGPPPELYSAKKDFISKGPLLGRQLEVKKRCEWWCHKYIQKMSTHWRQNACLYACCIAFLLGMLIMFHLGLRSAHKGQEELPQSTHPLANSPPATPATLHPRRLDNDTSTDHEPPDGLDDLDEEEHSAFVMPTKVYNYSLSEADLIYESKRNSDINSFLKESASAFAMTGTYRNMSNEIWDPHPQYNLNVFGRQLHLVLRQDASFVHNHSMTHIRILKEGEEHPGPETEAEAEQRHLGCFYSGYVEDDPHSMVSVSLCGGMTGYIKTSFGALLIQPVNRTSSDEVLHRVFRKSQRNARHAVSKFELGLDDFMSKLEQVQEEEQKSKSRKLNRKKRHYADVDNQVYTLEVLIAVDNSMKQFHGEDLQPYILILMSIVSSIFADASIGNSIRILLVRLISLPNINDQTHSSNEMLKHFCQFINQSGYERDTAMLITREPICGSVPGKICHMLGLAELGTVCSSSSCSIVQDTGLPTAFTMAHELGHILNMNHDDDDKCMPYVTRQNNNKVLHIMSSVMGIHMHPWSWSKCSRHFVSEFLEKTDKSCLETSVGAHIPYGTERLPGEIYSLDAQCQLSFGNDFGYCPTDEECKRLWCNRTSGNSNEQCASSNLPWADGTPCGSSGHWCQRGKCVSNKHGYGRQVNGGWGPWTPFTPCSLTCGGGVQESRRECNQPVPENGGKYCTGSRKKYRSCNTHQCPPGSMDPREQQCYAMNGRNMNIPGVNPDTKWVPKYEKDACKLFCRMDMKVTYFMLKSMVTDGTSCAVDSFDKCVNGICRPAGCDNELNSIAKLDKCGVCEGRNDTCHEVTGNLLVSNLLGLNDGNEPNKTLYYVTRIPKGASNIIITQRGYPDQNFIVLTDDRDNELLNGKFLKTYPLKFVYAGVTMQYTGSSSVVEQVNTTYSWKLSRDLIVQIISLDVSPSKRQDTVLLSYSYTIDKPPDYEAEVEIYRWEMQAPSNCDSLCEGRSHRLPACISTTQGVKVAPQFCDKSAMPKIDDRACNTDCRLNLTVTSISECSAACGELGTREKTYACVQTFTNMQRSNIVDMSYCKLKFDVAYHEECREGCWVLSEWSTCSKSCGTGSQQREAHCYLHNSRVSDDLCNPRTKPHLNTLIGICNTESCPTYTKSPNALAVSNWVIGEWGECNEWCEKTRSVSCSHPYGIGCGSRKPKDVRKCCHIKYTSDWTDCSVQCGEGVKRKKQSCTRVYKPDVPGTRKRRVYVDESYCISRKVHRPKLRTTTKSCRINCKWNASDWRRCPADCSEEYQTRDVRCESFQGDGVEDKHCDAKKRPSKRRICNNCVRRQSRVISQCNCEGVEKRRDFCFNSHKGRIACPTRARVERHSCTPPPHCRRRSAIGSSISSRPRGTGVSSSRSLNSIGGSRNRGTPRSCADLKEMHGYNKDGNYQLEVRSRMVHIYCHGMNSRTPQEYVNVDPQENYSIYYEYRTKQTNSCPPESRGHEYYNDQNSGRTHFRKLRLNITDLRIMDNDFKFADSRGLAQKLGSAGDCYNRIGQCPQGDFSINMKDTDFSIRPGTVWRMHGQYSVMKRISEFDTTTQMRRGFCGGYCGGCYIAPDSGLYLDVL

Target ORF information:

RefSeq Version	NM_206496.2
Organism	Drosophila melanogaster(fruit fly)
Definition	Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant B, mRNA.

Target ORF information:

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

NM_206496.2

ORF Insert Sequence:

ATGTCCATGC CGGATGCCGG TTCACTTAAA TCGCCCGCCG GCGGCCAGGA GGTCGAGTGC 
CATCGCCTGC TGTCGGACCT GCCCGCCTTC GCGTATCCCA GCACCACACT GCGGTCCACA 
ACTTCTGGTC ACAGCACTGG CACGAATAGT ACCACTGTCT GCGAATCTCC CGGTGCTCGG 
GATCGTACCT CCTTCGCGTG CTCCTCCTCT TGCGTATCAT CCGCCTGCTC AGCCACCGCC 
TCCGATGACG ACGAGGATGA GCGTGCCCTT GAGCGCTGTC TGCGTGGGAC GACGGACGAC 
CTTGGGGAGT CCGGCCTGCG GTATTCGCTG AAAGGACCAC CGCCGGAGCT CTACTCGGCC 
AAGAAGGACT TCATCAGCAA GGGTCCGCTG CTGGGCAGAC AGCTCGAGGT GAAGAAGAGG 
TGTGAATGGT GGTGCCACAA GTACATTCAA AAGATGTCCA CCCACTGGCG GCAGAATGCC 
TGCCTGTATG CCTGCTGCAT CGCTTTTCTG CTGGGCATGC TTATCATGTT CCATCTCGGT 
TTGCGAAGTG CCCATAAGGG CCAAGAGGAG CTGCCACAGA GCACGCACCC ACTAGCCAAC 
AGTCCACCTG CTACACCAGC CACGCTCCAT CCCAGAAGGC TTGATAACGA CACGTCGACG 
GACCACGAGC CACCCGATGG CTTAGACGAT CTGGACGAGG AGGAGCACAG CGCCTTCGTG 
ATGCCCACCA AGGTCTACAA CTACAGTCTC AGCGAAGCTG ATCTGATCTA CGAGTCGAAA 
CGAAACAGCG ACATCAACAG TTTCCTAAAA GAGTCCGCAT CGGCCTTTGC CATGACGGGA 
ACGTATCGCA ACATGTCCAA TGAGATCTGG GACCCGCATC CGCAGTACAA CCTCAATGTG 
TTCGGTCGCC AGTTGCATTT GGTGCTGCGA CAGGACGCCT CGTTCGTCCA CAACCATTCG 
ATGACCCACA TTCGGATACT GAAGGAGGGG GAGGAGCATC CGGGACCGGA GACGGAGGCG 
GAGGCGGAGC AGCGCCACCT AGGCTGCTTC TACTCCGGTT ACGTCGAGGA CGATCCGCAC 
TCGATGGTCT CCGTCTCACT GTGCGGCGGC ATGACTGGTT ATATCAAAAC GAGTTTCGGC 
GCGCTGCTCA TTCAGCCGGT GAACCGAACC AGCAGCGATG AGGTTCTCCA CCGGGTCTTT 
CGCAAATCGC AGCGCAACGC CAGACACGCT GTCTCCAAGT TCGAGCTGGG CCTGGATGAT 
TTCATGAGCA AGCTGGAGCA GGTGCAGGAG GAGGAGCAGA AGTCCAAGTC CCGCAAACTG 
AATCGGAAGA AGCGACACTA TGCGGACGTG GACAACCAGG TGTACACCTT GGAGGTGCTC 
ATTGCGGTGG ACAATAGCAT GAAGCAATTC CACGGCGAGG ACCTGCAACC ATACATTCTC 
ATCCTCATGT CGATCGTGTC CAGCATTTTT GCGGACGCCA GCATTGGTAA CTCCATTCGC 
ATTTTGCTGG TGCGACTGAT CAGCCTGCCG AATATCAACG ACCAGACGCA TTCCAGCAAC 
GAAATGCTGA AGCACTTCTG CCAGTTTATT AACCAATCTG GATACGAAAG AGATACAGCC 
ATGTTGATCA CACGCGAACC CATCTGTGGC AGCGTGCCGG GCAAGATTTG CCATATGCTG 
GGCTTGGCCG AACTGGGCAC TGTTTGCAGT TCCAGTTCCT GCTCCATTGT CCAGGACACC 
GGACTGCCCA CCGCCTTTAC CATGGCCCAC GAGCTGGGAC ACATCTTGAA CATGAACCAC 
GACGACGACG ACAAGTGTAT GCCCTATGTC ACCAGGCAGA ACAACAACAA GGTGCTCCAC 
ATCATGTCCA GCGTGATGGG CATCCACATG CATCCGTGGT CGTGGTCCAA GTGCTCCCGC 
CACTTTGTCT CCGAGTTTCT CGAGAAAACC GACAAGTCCT GTCTGGAGAC CTCCGTGGGC 
GCCCACATTC CCTATGGCAC CGAGCGTCTG CCTGGAGAGA TCTACTCCCT GGACGCCCAG 
TGCCAGCTGA GTTTCGGCAA TGACTTTGGC TACTGTCCCA CGGACGAGGA GTGCAAGCGG 
TTGTGGTGCA ACCGAACCTC CGGTAACTCC AACGAGCAGT GCGCCTCCAG CAATCTGCCA 
TGGGCCGACG GAACGCCCTG CGGCTCCAGT GGCCACTGGT GTCAGCGGGG CAAGTGTGTA 
TCCAACAAGC ATGGATACGG ACGCCAGGTG AACGGTGGAT GGGGACCATG GACGCCATTC 
ACGCCCTGCA GCCTCACCTG CGGTGGCGGA GTGCAGGAGT CGCGTCGTGA GTGCAACCAA 
CCGGTGCCGG AGAACGGTGG CAAGTACTGC ACGGGAAGTC GGAAGAAGTA CCGATCGTGC 
AACACACACC AGTGTCCGCC AGGCAGCATG GATCCGCGCG AGCAGCAGTG CTATGCGATG 
AACGGACGGA ACATGAACAT TCCGGGCGTG AACCCAGACA CCAAGTGGGT GCCCAAATAC 
GAAAAGGATG CGTGCAAGCT ATTCTGCCGC ATGGACATGA AGGTCACCTA CTTCATGCTC 
AAGAGCATGG TCACCGACGG CACCTCCTGT GCGGTGGACA GCTTCGACAA GTGCGTCAAC 
GGCATCTGCC GGCCGGCGGG ATGCGACAAC GAGCTCAACT CGATTGCCAA GCTGGACAAG 
TGCGGCGTGT GCGAGGGTCG CAATGACACA TGCCACGAGG TAACCGGAAA TCTGCTCGTC 
TCCAATCTCC TGGGGCTAAA TGATGGGAAT GAGCCGAACA AGACACTTTA CTATGTGACG 
CGAATACCAA AAGGTGCCTC CAACATAATA ATCACTCAGC GTGGCTATCC CGACCAGAAC 
TTCATAGTAC TCACCGATGA CCGGGACAAC GAACTGCTTA ATGGAAAATT CCTCAAGACC 
TATCCATTGA AATTCGTTTA TGCCGGAGTC ACGATGCAGT ACACCGGTTC TAGTAGTGTG 
GTGGAGCAGG TGAATACGAC CTACTCATGG AAACTGTCAC GTGATCTTAT AGTACAGATC 
ATTTCACTGG ACGTGAGTCC GTCCAAGCGG CAGGACACCG TCCTCTTGTC CTACTCCTAC 
ACCATCGACA AGCCACCGGA TTATGAGGCG GAGGTGGAGA TCTATCGCTG GGAGATGCAG 
GCCCCGAGCA ACTGTGATTC CCTATGCGAG GGCAGGAGTC ATCGACTGCC GGCCTGCATC 
AGCACCACCC AGGGTGTCAA GGTTGCCCCA CAGTTCTGTG ACAAGTCCGC CATGCCCAAA 
ATCGATGATC GGGCTTGCAA CACTGACTGC CGCCTCAATC TCACTGTGAC GAGCATCTCG 
GAGTGCTCGG CCGCGTGTGG AGAATTGGGT ACCCGGGAGA AGACCTACGC CTGCGTCCAG 
ACATTCACGA ATATGCAACG TTCCAATATT GTGGATATGT CATATTGCAA GCTGAAATTC 
GATGTGGCTT ACCATGAGGA GTGTCGCGAA GGATGCTGGG TTTTATCGGA GTGGTCAACT 
TGCTCCAAGT CGTGTGGCAC TGGTTCCCAG CAGCGTGAAG CTCACTGCTA CCTACACAAT 
TCCCGTGTCA GCGATGATCT GTGCAATCCA CGGACCAAGC CCCATTTGAA CACCCTAATC 
GGGATCTGCA ACACTGAGTC GTGTCCCACG TACACGAAAT CACCTAATGC CCTGGCAGTT 
AGTAACTGGG TGATTGGAGA ATGGGGCGAA TGCAATGAGT GGTGCGAGAA GACTCGTTCT 
GTGAGTTGTT CACATCCATA CGGAATCGGC TGCGGCAGTA GAAAGCCCAA GGACGTCCGC 
AAATGCTGCC ACATCAAGTA CACCAGCGAT TGGACAGACT GTTCGGTGCA ATGTGGCGAG 
GGCGTCAAGA GGAAGAAGCA AAGCTGCACG CGGGTCTACA AGCCGGATGT TCCGGGTACC 
CGAAAGCGCC GAGTGTACGT GGATGAATCG TACTGCATTA GCCGAAAGGT GCATCGTCCC 
AAGCTGCGCA CCACCACCAA ATCCTGCAGG ATCAACTGCA AGTGGAATGC CTCGGACTGG 
AGGCGCTGTC CTGCTGACTG CTCGGAGGAG TACCAAACGC GTGATGTGCG CTGCGAGTCC 
TTCCAGGGTG ACGGAGTGGA GGACAAGCAC TGCGATGCCA AGAAGCGTCC ATCCAAGCGA 
CGCATCTGCA ACAACTGCGT GCGCCGGCAG TCGAGAGTCA TCTCGCAGTG CAACTGTGAG 
GGTGTGGAGA AGAGGCGGGA CTTCTGCTTC AACTCGCACA AGGGTCGCAT CGCGTGTCCC 
ACGAGAGCCA GGGTGGAGCG TCACAGCTGC ACTCCGCCGC CACATTGCCG AAGGAGAAGT 
GCCATCGGGA GCAGCATCAG CAGCAGACCG AGGGGCACTG GAGTGAGTAG CAGCAGGAGC 
TTGAATTCAA TCGGAGGCTC ACGGAATCGC GGAACACCGA GAAGCTGTGC GGACCTGAAG 
GAGATGCACG GCTACAACAA GGATGGCAAC TACCAGCTGG AGGTGAGATC GCGAATGGTG 
CACATCTACT GCCACGGGAT GAACAGCAGG ACGCCACAGG AGTACGTGAA CGTGGATCCG 
CAGGAGAACT ACTCCATATA CTACGAGTAC AGGACGAAAC AGACCAACAG CTGTCCGCCG 
GAGTCGCGAG GCCACGAGTA CTACAACGAT CAGAACTCCG GCCGGACGCA CTTCAGAAAG 
CTGCGGCTGA ATATCACCGA TCTGCGCATC ATGGACAACG ACTTCAAGTT CGCCGATTCG 
CGAGGATTGG CTCAGAAGCT GGGATCAGCG GGCGATTGCT ACAATCGCAT TGGCCAGTGT 
CCGCAGGGCG ACTTCTCGAT TAACATGAAG GACACGGACT TCTCCATACG ACCGGGAACC 
GTGTGGCGGA TGCATGGCCA GTACTCGGTC ATGAAGCGTA TCAGTGAGTT TGATACGACC 
ACGCAGATGC GAAGGGGATT CTGCGGAGGA TACTGCGGCG GTTGCTATAT AGCGCCCGAT 
TCTGGCCTTT ACCTGGACGT GTTATGA

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

AdamTS-A ( NM_169659.3 ) cDNA ORF clone, Drosophila melanogaster(fruit fly) -> NP_732036.2 Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant E, mRNA.

Price & Availability↑

CloneID	OFa05015
Clone ID Related Accession (Same CDS sequence)	NM_169659.3
Accession Version	NM_169659.3 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4614bp) Protein sequence SNP
Vector	pcDNA3.1⁺/C-(K)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-04-24
Organism	Drosophila melanogaster(fruit fly)
Product	ADAM metallopeptidase with thrombospondin type 1 motif A, isoform E
Comment	Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_033777). On Jan 16, 2013 this sequence version replaced NM_169659.2. ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 6.26 URL :: http://flybase.org ##Genome-Annotation-Data-END##

ATGTCCACCC ACTGGCGGCA GAATGCCTGC CTGTATGCCT GCTGCATCGC TTTTCTGCTG 
GGCATGCTTA TCATGTTCCA TCTCGGTTTG CGAAGTGCCC ATAAGGGCCA AGAGGAGCTG 
CCACAGAGCA CGCACCCACT AGCCAACAGT CCACCTGCTA CACCAGCCAC GCTCCATCCC 
AGAAGGCTTG ATAACGACAC GTCGACGGAC CACGAGCCAC CCGATGGCTT AGACGATCTG 
GACGAGGAGG AGCACAGCGC CTTCGTGATG CCCACCAAGG TCTACAACTA CAGTCTCAGC 
GAAGCTGATC TGATCTACGA GTCGAAACGA AACAGCGACA TCAACAGTTT CCTAAAAGAG 
TCCGCATCGG CCTTTGCCAT GACGGGAACG TATCGCAACA TGTCCAATGA GATCTGGGAC 
CCGCATCCGC AGTACAACCT CAATGTGTTC GGTCGCCAGT TGCATTTGGT GCTGCGACAG 
GACGCCTCGT TCGTCCACAA CCATTCGATG ACCCACATTC GGATACTGAA GGAGGGGGAG 
GAGCATCCGG GACCGGAGAC GGAGGCGGAG GCGGAGCAGC GCCACCTAGG CTGCTTCTAC 
TCCGGTTACG TCGAGGACGA TCCGCACTCG ATGGTCTCCG TCTCACTGTG CGGCGGCATG 
ACTGGTTATA TCAAAACGAG TTTCGGCGCG CTGCTCATTC AGCCGGTGAA CCGAACCAGC 
AGCGATGAGG TTCTCCACCG GGTCTTTCGC AAATCGCAGC GCAACGCCAG ACACGCTGTC 
TCCAAGTTCG AGCTGGGCCT GGATGATTTC ATGAGCAAGC TGGAGCAGGT GCAGGAGGAG 
GAGCAGAAGT CCAAGTCCCG CAAACTGAAT CGGAAGAAGC GACACTATGC GGACGTGGAC 
AACCAGGTGT ACACCTTGGA GGTGCTCATT GCGGTGGACA ATAGCATGAA GCAATTCCAC 
GGCGAGGACC TGCAACCATA CATTCTCATC CTCATGTCGA TCGTGTCCAG CATTTTTGCG 
GACGCCAGCA TTGGTAACTC CATTCGCATT TTGCTGGTGC GACTGATCAG CCTGCCGAAT 
ATCAACGACC AGACGCATTC CAGCAACGAA ATGCTGAAGC ACTTCTGCCA GTTTATTAAC 
CAATCTGGAT ACGAAAGAGA TACAGCCATG TTGATCACAC GCGAACCCAT CTGTGGCAGC 
GTGCCGGGCA AGATTTGCCA TATGCTGGGC TTGGCCGAAC TGGGCACTGT TTGCAGTTCC 
AGTTCCTGCT CCATTGTCCA GGACACCGGA CTGCCCACCG CCTTTACCAT GGCCCACGAG 
CTGGGACACA TCTTGAACAT GAACCACGAC GACGACGACA AGTGTATGCC CTATGTCACC 
AGGCAGAACA ACAACAAGGT GCTCCACATC ATGTCCAGCG TGATGGGCAT CCACATGCAT 
CCGTGGTCGT GGTCCAAGTG CTCCCGCCAC TTTGTCTCCG AGTTTCTCGA GAAAACCGAC 
AAGTCCTGTC TGGAGACCTC CGTGGGCGCC CACATTCCCT ATGGCACCGA GCGTCTGCCT 
GGAGAGATCT ACTCCCTGGA CGCCCAGTGC CAGCTGAGTT TCGGCAATGA CTTTGGCTAC 
TGTCCCACGG ACGAGGAGTG CAAGCGGTTG TGGTGCAACC GAACCTCCGG TAACTCCAAC 
GAGCAGTGCG CCTCCAGCAA TCTGCCATGG GCCGACGGAA CGCCCTGCGG CTCCAGTGGC 
CACTGGTGTC AGCGGGGCAA GTGTGTATCC AACAAGCATG GATACGGACG CCAGGTGAAC 
GGTGGATGGG GACCATGGAC GCCATTCACG CCCTGCAGCC TCACCTGCGG TGGCGGAGTG 
CAGGAGTCGC GTCGTGAGTG CAACCAACCG GTGCCGGAGA ACGGTGGCAA GTACTGCACG 
GGAAGTCGGA AGAAGTACCG ATCGTGCAAC ACACACCAGT GTCCGCCAGG CAGCATGGAT 
CCGCGCGAGC AGCAGTGCTA TGCGATGAAC GGACGGAACA TGAACATTCC GGGCGTGAAC 
CCAGACACCA AGTGGGTGCC CAAATACGAA AAGGATGCGT GCAAGCTATT CTGCCGCATG 
GACATGAAGG TCACCTACTT CATGCTCAAG AGCATGGTCA CCGACGGCAC CTCCTGTGCG 
GTGGACAGCT TCGACAAGTG CGTCAACGGC ATCTGCCGGC CGGCGGGATG CGACAACGAG 
CTCAACTCGA TTGCCAAGCT GGACAAGTGC GGCGTGTGCG AGGGTCGCAA TGACACATGC 
CACGAGGTAA CCGGAAATCT GCTCGTCTCC AATCTCCTGG GGCTAAATGA TGGGAATGAG 
CCGAACAAGA CACTTTACTA TGTGACGCGA ATACCAAAAG GTGCCTCCAA CATAATAATC 
ACTCAGCGTG GCTATCCCGA CCAGAACTTC ATAGTACTCA CCGATGACCG GGACAACGAA 
CTGCTTAATG GAAAATTCCT CAAGACCTAT CCATTGAAAT TCGTTTATGC CGGAGTCACG 
ATGCAGTACA CCGGTTCTAG TAGTGTGGTG GAGCAGGTGA ATACGACCTA CTCATGGAAA 
CTGTCACGTG ATCTTATAGT ACAGATCATT TCACTGGACG TGAGTCCGTC CAAGCGGCAG 
GACACCGTCC TCTTGTCCTA CTCCTACACC ATCGACAAGC CACCGGATTA TGAGGCGGAG 
GTGGAGATCT ATCGCTGGGA GATGCAGGCC CCGAGCAACT GTGATTCCCT ATGCGAGGGC 
AGGAGTCATC GACTGCCGGC CTGCATCAGC ACCACCCAGG GTGTCAAGGT TGCCCCACAG 
TTCTGTGACA AGTCCGCCAT GCCCAAAATC GATGATCGGG CTTGCAACAC TGACTGCCGC 
CTCAATCTCA CTGTGACGAG CATCTCGGAG TGCTCGGCCG CGTGTGGAGA ATTGGGTACC 
CGGGAGAAGA CCTACGCCTG CGTCCAGACA TTCACGAATA TGCAACGTTC CAATATTGTG 
GATATGTCAT ATTGCAAGCT GAAATTCGAT GTGGCTTACC ATGAGGAGTG TCGCGAAGGA 
TGCTGGGTTT TATCGGAGTG GTCAACTTGC TCCAAGTCGT GTGGCACTGG TTCCCAGCAG 
CGTGAAGCTC ACTGCTACCT ACACAATTCC CGTGTCAGCG ATGATCTGTG CAATCCACGG 
ACCAAGCCCC ATTTGAACAC CCTAATCGGG ATCTGCAACA CTGAGTCGTG TCCCACGTAC 
ACGAAATCAC CTAATGCCCT GGCAGTTAGT AACTGGGTGA TTGGAGAATG GGGCGAATGC 
AATGAGTGGT GCGAGAAGAC TCGTTCTGTG AGTTGTTCAC ATCCATACGG AATCGGCTGC 
GGCAGTAGAA AGCCCAAGGA CGTCCGCAAA TGCTGCCACA TCAAGTACAC CAGCGATTGG 
ACAGACTGTT CGGTGCAATG TGGCGAGGGC GTCAAGAGGA AGAAGCAAAG CTGCACGCGG 
GTCTACAAGC CGGATGTTCC GGGTACCCGA AAGCGCCGAG TGTACGTGGA TGAATCGTAC 
TGCATTAGCC GAAAGGTGCA TCGTCCCAAG CTGCGCACCA CCACCAAATC CTGCAGGATC 
AACTGCAAGT GGAATGCCTC GGACTGGAGG CGCTGTCCTG CTGACTGCTC GGAGGAGTAC 
CAAACGCGTG ATGTGCGCTG CGAGTCCTTC CAGGGTGACG GAGTGGAGGA CAAGCACTGC 
GATGCCAAGA AGCGTCCATC CAAGCGACGC ATCTGCAACA ACTGCGTGCG CCGGCAGTCG 
AGAGTCATCT CGCAGTGCAA CTGTGAGGGT GTGGAGAAGA GGCGGGACTT CTGCTTCAAC 
TCGCACAAGG GTCGCATCGC GTGTCCCACG AGAGCCAGGG TGGAGCGTCA CAGCTGCACT 
CCGCCGCCAC ATTGCCGAAG GAGAAGTGCC ATCGGGAGCA GCATCAGCAG CAGACCGAGG 
GGCACTGGAG TGAGTAGCAG CAGGAGCTTG AATTCAATCG GAGGCTCACG GAATCGCGGA 
ACACCGAGAA GCTGTGCGGA CCTGAAGGAG ATGCACGGCT ACAACAAGGA TGGCAACTAC 
CAGCTGGAGG TGAGATCGCG AATGGTGCAC ATCTACTGCC ACGGGATGAA CAGCAGGACG 
CCACAGGAGT ACGTGAACGT GGATCCGCAG GAGAACTACT CCATATACTA CGAGTACAGG 
ACGAAACAGA CCAACAGCTG TCCGCCGGAG TCGCGAGGCC ACGAGTACTA CAACGATCAG 
AACTCCGGCC GGACGCACTT CAGAAAGCTG CGGCTGAATA TCACCGATCT GCGCATCATG 
GACAACGACT TCAAGTTCGC CGATTCGCGA GGATTGGCTC AGAAGCTGGG ATCAGCGGGC 
GATTGCTACA ATCGCATTGG CCAGTGTCCG CAGGGCGACT TCTCGATTAA CATGAAGGAC 
ACGGACTTCT CCATACGACC GGGAACCGTG TGGCGGATGC ATGGCCAGTA CTCGGTCATG 
AAGCGTATCA GTGAGTTTGA TACGACCACG CAGATGCGAA GGGGATTCTG CGGAGGATAC 
TGCGGCGGTT GCTATATAGC GCCCGATTCT GGCCTTTACC TGGACGTGTT ATGA

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

RefSeq	NP_732036.2
CDS	326..4939
Translation	MSTHWRQNACLYACCIAFLLGMLIMFHLGLRSAHKGQEELPQSTHPLANSPPATPATLHPRRLDNDTSTDHEPPDGLDDLDEEEHSAFVMPTKVYNYSLSEADLIYESKRNSDINSFLKESASAFAMTGTYRNMSNEIWDPHPQYNLNVFGRQLHLVLRQDASFVHNHSMTHIRILKEGEEHPGPETEAEAEQRHLGCFYSGYVEDDPHSMVSVSLCGGMTGYIKTSFGALLIQPVNRTSSDEVLHRVFRKSQRNARHAVSKFELGLDDFMSKLEQVQEEEQKSKSRKLNRKKRHYADVDNQVYTLEVLIAVDNSMKQFHGEDLQPYILILMSIVSSIFADASIGNSIRILLVRLISLPNINDQTHSSNEMLKHFCQFINQSGYERDTAMLITREPICGSVPGKICHMLGLAELGTVCSSSSCSIVQDTGLPTAFTMAHELGHILNMNHDDDDKCMPYVTRQNNNKVLHIMSSVMGIHMHPWSWSKCSRHFVSEFLEKTDKSCLETSVGAHIPYGTERLPGEIYSLDAQCQLSFGNDFGYCPTDEECKRLWCNRTSGNSNEQCASSNLPWADGTPCGSSGHWCQRGKCVSNKHGYGRQVNGGWGPWTPFTPCSLTCGGGVQESRRECNQPVPENGGKYCTGSRKKYRSCNTHQCPPGSMDPREQQCYAMNGRNMNIPGVNPDTKWVPKYEKDACKLFCRMDMKVTYFMLKSMVTDGTSCAVDSFDKCVNGICRPAGCDNELNSIAKLDKCGVCEGRNDTCHEVTGNLLVSNLLGLNDGNEPNKTLYYVTRIPKGASNIIITQRGYPDQNFIVLTDDRDNELLNGKFLKTYPLKFVYAGVTMQYTGSSSVVEQVNTTYSWKLSRDLIVQIISLDVSPSKRQDTVLLSYSYTIDKPPDYEAEVEIYRWEMQAPSNCDSLCEGRSHRLPACISTTQGVKVAPQFCDKSAMPKIDDRACNTDCRLNLTVTSISECSAACGELGTREKTYACVQTFTNMQRSNIVDMSYCKLKFDVAYHEECREGCWVLSEWSTCSKSCGTGSQQREAHCYLHNSRVSDDLCNPRTKPHLNTLIGICNTESCPTYTKSPNALAVSNWVIGEWGECNEWCEKTRSVSCSHPYGIGCGSRKPKDVRKCCHIKYTSDWTDCSVQCGEGVKRKKQSCTRVYKPDVPGTRKRRVYVDESYCISRKVHRPKLRTTTKSCRINCKWNASDWRRCPADCSEEYQTRDVRCESFQGDGVEDKHCDAKKRPSKRRICNNCVRRQSRVISQCNCEGVEKRRDFCFNSHKGRIACPTRARVERHSCTPPPHCRRRSAIGSSISSRPRGTGVSSSRSLNSIGGSRNRGTPRSCADLKEMHGYNKDGNYQLEVRSRMVHIYCHGMNSRTPQEYVNVDPQENYSIYYEYRTKQTNSCPPESRGHEYYNDQNSGRTHFRKLRLNITDLRIMDNDFKFADSRGLAQKLGSAGDCYNRIGQCPQGDFSINMKDTDFSIRPGTVWRMHGQYSVMKRISEFDTTTQMRRGFCGGYCGGCYIAPDSGLYLDVL

Target ORF information:

RefSeq Version	NM_169659.3
Organism	Drosophila melanogaster(fruit fly)
Definition	Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant E, mRNA.

Target ORF information:

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

NM_169659.3

ORF Insert Sequence:

ATGTCCACCC ACTGGCGGCA GAATGCCTGC CTGTATGCCT GCTGCATCGC TTTTCTGCTG 
GGCATGCTTA TCATGTTCCA TCTCGGTTTG CGAAGTGCCC ATAAGGGCCA AGAGGAGCTG 
CCACAGAGCA CGCACCCACT AGCCAACAGT CCACCTGCTA CACCAGCCAC GCTCCATCCC 
AGAAGGCTTG ATAACGACAC GTCGACGGAC CACGAGCCAC CCGATGGCTT AGACGATCTG 
GACGAGGAGG AGCACAGCGC CTTCGTGATG CCCACCAAGG TCTACAACTA CAGTCTCAGC 
GAAGCTGATC TGATCTACGA GTCGAAACGA AACAGCGACA TCAACAGTTT CCTAAAAGAG 
TCCGCATCGG CCTTTGCCAT GACGGGAACG TATCGCAACA TGTCCAATGA GATCTGGGAC 
CCGCATCCGC AGTACAACCT CAATGTGTTC GGTCGCCAGT TGCATTTGGT GCTGCGACAG 
GACGCCTCGT TCGTCCACAA CCATTCGATG ACCCACATTC GGATACTGAA GGAGGGGGAG 
GAGCATCCGG GACCGGAGAC GGAGGCGGAG GCGGAGCAGC GCCACCTAGG CTGCTTCTAC 
TCCGGTTACG TCGAGGACGA TCCGCACTCG ATGGTCTCCG TCTCACTGTG CGGCGGCATG 
ACTGGTTATA TCAAAACGAG TTTCGGCGCG CTGCTCATTC AGCCGGTGAA CCGAACCAGC 
AGCGATGAGG TTCTCCACCG GGTCTTTCGC AAATCGCAGC GCAACGCCAG ACACGCTGTC 
TCCAAGTTCG AGCTGGGCCT GGATGATTTC ATGAGCAAGC TGGAGCAGGT GCAGGAGGAG 
GAGCAGAAGT CCAAGTCCCG CAAACTGAAT CGGAAGAAGC GACACTATGC GGACGTGGAC 
AACCAGGTGT ACACCTTGGA GGTGCTCATT GCGGTGGACA ATAGCATGAA GCAATTCCAC 
GGCGAGGACC TGCAACCATA CATTCTCATC CTCATGTCGA TCGTGTCCAG CATTTTTGCG 
GACGCCAGCA TTGGTAACTC CATTCGCATT TTGCTGGTGC GACTGATCAG CCTGCCGAAT 
ATCAACGACC AGACGCATTC CAGCAACGAA ATGCTGAAGC ACTTCTGCCA GTTTATTAAC 
CAATCTGGAT ACGAAAGAGA TACAGCCATG TTGATCACAC GCGAACCCAT CTGTGGCAGC 
GTGCCGGGCA AGATTTGCCA TATGCTGGGC TTGGCCGAAC TGGGCACTGT TTGCAGTTCC 
AGTTCCTGCT CCATTGTCCA GGACACCGGA CTGCCCACCG CCTTTACCAT GGCCCACGAG 
CTGGGACACA TCTTGAACAT GAACCACGAC GACGACGACA AGTGTATGCC CTATGTCACC 
AGGCAGAACA ACAACAAGGT GCTCCACATC ATGTCCAGCG TGATGGGCAT CCACATGCAT 
CCGTGGTCGT GGTCCAAGTG CTCCCGCCAC TTTGTCTCCG AGTTTCTCGA GAAAACCGAC 
AAGTCCTGTC TGGAGACCTC CGTGGGCGCC CACATTCCCT ATGGCACCGA GCGTCTGCCT 
GGAGAGATCT ACTCCCTGGA CGCCCAGTGC CAGCTGAGTT TCGGCAATGA CTTTGGCTAC 
TGTCCCACGG ACGAGGAGTG CAAGCGGTTG TGGTGCAACC GAACCTCCGG TAACTCCAAC 
GAGCAGTGCG CCTCCAGCAA TCTGCCATGG GCCGACGGAA CGCCCTGCGG CTCCAGTGGC 
CACTGGTGTC AGCGGGGCAA GTGTGTATCC AACAAGCATG GATACGGACG CCAGGTGAAC 
GGTGGATGGG GACCATGGAC GCCATTCACG CCCTGCAGCC TCACCTGCGG TGGCGGAGTG 
CAGGAGTCGC GTCGTGAGTG CAACCAACCG GTGCCGGAGA ACGGTGGCAA GTACTGCACG 
GGAAGTCGGA AGAAGTACCG ATCGTGCAAC ACACACCAGT GTCCGCCAGG CAGCATGGAT 
CCGCGCGAGC AGCAGTGCTA TGCGATGAAC GGACGGAACA TGAACATTCC GGGCGTGAAC 
CCAGACACCA AGTGGGTGCC CAAATACGAA AAGGATGCGT GCAAGCTATT CTGCCGCATG 
GACATGAAGG TCACCTACTT CATGCTCAAG AGCATGGTCA CCGACGGCAC CTCCTGTGCG 
GTGGACAGCT TCGACAAGTG CGTCAACGGC ATCTGCCGGC CGGCGGGATG CGACAACGAG 
CTCAACTCGA TTGCCAAGCT GGACAAGTGC GGCGTGTGCG AGGGTCGCAA TGACACATGC 
CACGAGGTAA CCGGAAATCT GCTCGTCTCC AATCTCCTGG GGCTAAATGA TGGGAATGAG 
CCGAACAAGA CACTTTACTA TGTGACGCGA ATACCAAAAG GTGCCTCCAA CATAATAATC 
ACTCAGCGTG GCTATCCCGA CCAGAACTTC ATAGTACTCA CCGATGACCG GGACAACGAA 
CTGCTTAATG GAAAATTCCT CAAGACCTAT CCATTGAAAT TCGTTTATGC CGGAGTCACG 
ATGCAGTACA CCGGTTCTAG TAGTGTGGTG GAGCAGGTGA ATACGACCTA CTCATGGAAA 
CTGTCACGTG ATCTTATAGT ACAGATCATT TCACTGGACG TGAGTCCGTC CAAGCGGCAG 
GACACCGTCC TCTTGTCCTA CTCCTACACC ATCGACAAGC CACCGGATTA TGAGGCGGAG 
GTGGAGATCT ATCGCTGGGA GATGCAGGCC CCGAGCAACT GTGATTCCCT ATGCGAGGGC 
AGGAGTCATC GACTGCCGGC CTGCATCAGC ACCACCCAGG GTGTCAAGGT TGCCCCACAG 
TTCTGTGACA AGTCCGCCAT GCCCAAAATC GATGATCGGG CTTGCAACAC TGACTGCCGC 
CTCAATCTCA CTGTGACGAG CATCTCGGAG TGCTCGGCCG CGTGTGGAGA ATTGGGTACC 
CGGGAGAAGA CCTACGCCTG CGTCCAGACA TTCACGAATA TGCAACGTTC CAATATTGTG 
GATATGTCAT ATTGCAAGCT GAAATTCGAT GTGGCTTACC ATGAGGAGTG TCGCGAAGGA 
TGCTGGGTTT TATCGGAGTG GTCAACTTGC TCCAAGTCGT GTGGCACTGG TTCCCAGCAG 
CGTGAAGCTC ACTGCTACCT ACACAATTCC CGTGTCAGCG ATGATCTGTG CAATCCACGG 
ACCAAGCCCC ATTTGAACAC CCTAATCGGG ATCTGCAACA CTGAGTCGTG TCCCACGTAC 
ACGAAATCAC CTAATGCCCT GGCAGTTAGT AACTGGGTGA TTGGAGAATG GGGCGAATGC 
AATGAGTGGT GCGAGAAGAC TCGTTCTGTG AGTTGTTCAC ATCCATACGG AATCGGCTGC 
GGCAGTAGAA AGCCCAAGGA CGTCCGCAAA TGCTGCCACA TCAAGTACAC CAGCGATTGG 
ACAGACTGTT CGGTGCAATG TGGCGAGGGC GTCAAGAGGA AGAAGCAAAG CTGCACGCGG 
GTCTACAAGC CGGATGTTCC GGGTACCCGA AAGCGCCGAG TGTACGTGGA TGAATCGTAC 
TGCATTAGCC GAAAGGTGCA TCGTCCCAAG CTGCGCACCA CCACCAAATC CTGCAGGATC 
AACTGCAAGT GGAATGCCTC GGACTGGAGG CGCTGTCCTG CTGACTGCTC GGAGGAGTAC 
CAAACGCGTG ATGTGCGCTG CGAGTCCTTC CAGGGTGACG GAGTGGAGGA CAAGCACTGC 
GATGCCAAGA AGCGTCCATC CAAGCGACGC ATCTGCAACA ACTGCGTGCG CCGGCAGTCG 
AGAGTCATCT CGCAGTGCAA CTGTGAGGGT GTGGAGAAGA GGCGGGACTT CTGCTTCAAC 
TCGCACAAGG GTCGCATCGC GTGTCCCACG AGAGCCAGGG TGGAGCGTCA CAGCTGCACT 
CCGCCGCCAC ATTGCCGAAG GAGAAGTGCC ATCGGGAGCA GCATCAGCAG CAGACCGAGG 
GGCACTGGAG TGAGTAGCAG CAGGAGCTTG AATTCAATCG GAGGCTCACG GAATCGCGGA 
ACACCGAGAA GCTGTGCGGA CCTGAAGGAG ATGCACGGCT ACAACAAGGA TGGCAACTAC 
CAGCTGGAGG TGAGATCGCG AATGGTGCAC ATCTACTGCC ACGGGATGAA CAGCAGGACG 
CCACAGGAGT ACGTGAACGT GGATCCGCAG GAGAACTACT CCATATACTA CGAGTACAGG 
ACGAAACAGA CCAACAGCTG TCCGCCGGAG TCGCGAGGCC ACGAGTACTA CAACGATCAG 
AACTCCGGCC GGACGCACTT CAGAAAGCTG CGGCTGAATA TCACCGATCT GCGCATCATG 
GACAACGACT TCAAGTTCGC CGATTCGCGA GGATTGGCTC AGAAGCTGGG ATCAGCGGGC 
GATTGCTACA ATCGCATTGG CCAGTGTCCG CAGGGCGACT TCTCGATTAA CATGAAGGAC 
ACGGACTTCT CCATACGACC GGGAACCGTG TGGCGGATGC ATGGCCAGTA CTCGGTCATG 
AAGCGTATCA GTGAGTTTGA TACGACCACG CAGATGCGAA GGGGATTCTG CGGAGGATAC 
TGCGGCGGTT GCTATATAGC GCCCGATTCT GGCCTTTACC TGGACGTGTT ATGA

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

AdamTS-A ( NM_001275675.1 ) cDNA ORF clone, Drosophila melanogaster(fruit fly) -> NP_001262604.1 Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant C, mRNA.

Price & Availability↑

CloneID	OFa08404
Clone ID Related Accession (Same CDS sequence)	NM_001275675.1
Accession Version	NM_001275675.1 Latest version!	Documents for ORF clone product in default vector
Sequence Information	ORF Nucleotide Sequence (Length: 4758bp) Protein sequence SNP
Vector	pcDNA3.1⁺/C-(K)DYK or customized vector	User Manual
Clone information	Clone Map	MSDS
Tag on pcDNA3.1⁺/C-(K)DYK	C terminal DYKDDDDK tags
ORF Insert Method	CloneEZ™ Seamless cloning technology
Insert Structure	linear
Update Date	2019-04-24
Organism	Drosophila melanogaster(fruit fly)
Product	ADAM metallopeptidase with thrombospondin type 1 motif A, isoform C
Comment	Comment: REVIEWED REFSEQ: This record has been curated by FlyBase. This record is derived from an annotated genomic sequence (NT_033777). ##Genome-Annotation-Data-START## Annotation Provider :: FlyBase Annotation Status :: Full annotation Annotation Version :: Release 6.26 URL :: http://flybase.org ##Genome-Annotation-Data-END##

ATGTTCAATA GCATGGGGAT TTCCAGGGGG GATTTTCCGC AAGGAAAGCA GCGGAAAGCA 
CCTAAACCCA CGCCCTTTAT GGAGATCATT AAGCTCGAGG TGAAGAAGAG GTGTGAATGG 
TGGTGCCACA AGTACATTCA AAAGATGTCC ACCCACTGGC GGCAGAATGC CTGCCTGTAT 
GCCTGCTGCA TCGCTTTTCT GCTGGGCATG CTTATCATGT TCCATCTCGG TTTGCGAAGT 
GCCCATAAGG GCCAAGAGGA GCTGCCACAG AGCACGCACC CACTAGCCAA CAGTCCACCT 
GCTACACCAG CCACGCTCCA TCCCAGAAGG CTTGATAACG ACACGTCGAC GGACCACGAG 
CCACCCGATG GCTTAGACGA TCTGGACGAG GAGGAGCACA GCGCCTTCGT GATGCCCACC 
AAGGTCTACA ACTACAGTCT CAGCGAAGCT GATCTGATCT ACGAGTCGAA ACGAAACAGC 
GACATCAACA GTTTCCTAAA AGAGTCCGCA TCGGCCTTTG CCATGACGGG AACGTATCGC 
AACATGTCCA ATGAGATCTG GGACCCGCAT CCGCAGTACA ACCTCAATGT GTTCGGTCGC 
CAGTTGCATT TGGTGCTGCG ACAGGACGCC TCGTTCGTCC ACAACCATTC GATGACCCAC 
ATTCGGATAC TGAAGGAGGG GGAGGAGCAT CCGGGACCGG AGACGGAGGC GGAGGCGGAG 
CAGCGCCACC TAGGCTGCTT CTACTCCGGT TACGTCGAGG ACGATCCGCA CTCGATGGTC 
TCCGTCTCAC TGTGCGGCGG CATGACTGGT TATATCAAAA CGAGTTTCGG CGCGCTGCTC 
ATTCAGCCGG TGAACCGAAC CAGCAGCGAT GAGGTTCTCC ACCGGGTCTT TCGCAAATCG 
CAGCGCAACG CCAGACACGC TGTCTCCAAG TTCGAGCTGG GCCTGGATGA TTTCATGAGC 
AAGCTGGAGC AGGTGCAGGA GGAGGAGCAG AAGTCCAAGT CCCGCAAACT GAATCGGAAG 
AAGCGACACT ATGCGGACGT GGACAACCAG GTGTACACCT TGGAGGTGCT CATTGCGGTG 
GACAATAGCA TGAAGCAATT CCACGGCGAG GACCTGCAAC CATACATTCT CATCCTCATG 
TCGATCGTGT CCAGCATTTT TGCGGACGCC AGCATTGGTA ACTCCATTCG CATTTTGCTG 
GTGCGACTGA TCAGCCTGCC GAATATCAAC GACCAGACGC ATTCCAGCAA CGAAATGCTG 
AAGCACTTCT GCCAGTTTAT TAACCAATCT GGATACGAAA GAGATACAGC CATGTTGATC 
ACACGCGAAC CCATCTGTGG CAGCGTGCCG GGCAAGATTT GCCATATGCT GGGCTTGGCC 
GAACTGGGCA CTGTTTGCAG TTCCAGTTCC TGCTCCATTG TCCAGGACAC CGGACTGCCC 
ACCGCCTTTA CCATGGCCCA CGAGCTGGGA CACATCTTGA ACATGAACCA CGACGACGAC 
GACAAGTGTA TGCCCTATGT CACCAGGCAG AACAACAACA AGGTGCTCCA CATCATGTCC 
AGCGTGATGG GCATCCACAT GCATCCGTGG TCGTGGTCCA AGTGCTCCCG CCACTTTGTC 
TCCGAGTTTC TCGAGAAAAC CGACAAGTCC TGTCTGGAGA CCTCCGTGGG CGCCCACATT 
CCCTATGGCA CCGAGCGTCT GCCTGGAGAG ATCTACTCCC TGGACGCCCA GTGCCAGCTG 
AGTTTCGGCA ATGACTTTGG CTACTGTCCC ACGGACGAGG AGTGCAAGCG GTTGTGGTGC 
AACCGAACCT CCGGTAACTC CAACGAGCAG TGCGCCTCCA GCAATCTGCC ATGGGCCGAC 
GGAACGCCCT GCGGCTCCAG TGGCCACTGG TGTCAGCGGG GCAAGTGTGT ATCCAACAAG 
CATGGATACG GACGCCAGGT GAACGGTGGA TGGGGACCAT GGACGCCATT CACGCCCTGC 
AGCCTCACCT GCGGTGGCGG AGTGCAGGAG TCGCGTCGTG AGTGCAACCA ACCGGTGCCG 
GAGAACGGTG GCAAGTACTG CACGGGAAGT CGGAAGAAGT ACCGATCGTG CAACACACAC 
CAGTGTCCGC CAGGCAGCAT GGATCCGCGC GAGCAGCAGT GCTATGCGAT GAACGGACGG 
AACATGAACA TTCCGGGCGT GAACCCAGAC ACCAAGTGGG TGCCCAAATA CGAAAAGGAT 
GCGTGCAAGC TATTCTGCCG CATGGACATG AAGGTCACCT ACTTCATGCT CAAGAGCATG 
GTCACCGACG GCACCTCCTG TGCGGTGGAC AGCTTCGACA AGTGCGTCAA CGGCATCTGC 
CGGCCGGCGG GATGCGACAA CGAGCTCAAC TCGATTGCCA AGCTGGACAA GTGCGGCGTG 
TGCGAGGGTC GCAATGACAC ATGCCACGAG GTAACCGGAA ATCTGCTCGT CTCCAATCTC 
CTGGGGCTAA ATGATGGGAA TGAGCCGAAC AAGACACTTT ACTATGTGAC GCGAATACCA 
AAAGGTGCCT CCAACATAAT AATCACTCAG CGTGGCTATC CCGACCAGAA CTTCATAGTA 
CTCACCGATG ACCGGGACAA CGAACTGCTT AATGGAAAAT TCCTCAAGAC CTATCCATTG 
AAATTCGTTT ATGCCGGAGT CACGATGCAG TACACCGGTT CTAGTAGTGT GGTGGAGCAG 
GTGAATACGA CCTACTCATG GAAACTGTCA CGTGATCTTA TAGTACAGAT CATTTCACTG 
GACGTGAGTC CGTCCAAGCG GCAGGACACC GTCCTCTTGT CCTACTCCTA CACCATCGAC 
AAGCCACCGG ATTATGAGGC GGAGGTGGAG ATCTATCGCT GGGAGATGCA GGCCCCGAGC 
AACTGTGATT CCCTATGCGA GGGCAGGAGT CATCGACTGC CGGCCTGCAT CAGCACCACC 
CAGGGTGTCA AGGTTGCCCC ACAGTTCTGT GACAAGTCCG CCATGCCCAA AATCGATGAT 
CGGGCTTGCA ACACTGACTG CCGCCTCAAT CTCACTGTGA CGAGCATCTC GGAGTGCTCG 
GCCGCGTGTG GAGAATTGGG TACCCGGGAG AAGACCTACG CCTGCGTCCA GACATTCACG 
AATATGCAAC GTTCCAATAT TGTGGATATG TCATATTGCA AGCTGAAATT CGATGTGGCT 
TACCATGAGG AGTGTCGCGA AGGATGCTGG GTTTTATCGG AGTGGTCAAC TTGCTCCAAG 
TCGTGTGGCA CTGGTTCCCA GCAGCGTGAA GCTCACTGCT ACCTACACAA TTCCCGTGTC 
AGCGATGATC TGTGCAATCC ACGGACCAAG CCCCATTTGA ACACCCTAAT CGGGATCTGC 
AACACTGAGT CGTGTCCCAC GTACACGAAA TCACCTAATG CCCTGGCAGT TAGTAACTGG 
GTGATTGGAG AATGGGGCGA ATGCAATGAG TGGTGCGAGA AGACTCGTTC TGTGAGTTGT 
TCACATCCAT ACGGAATCGG CTGCGGCAGT AGAAAGCCCA AGGACGTCCG CAAATGCTGC 
CACATCAAGT ACACCAGCGA TTGGACAGAC TGTTCGGTGC AATGTGGCGA GGGCGTCAAG 
AGGAAGAAGC AAAGCTGCAC GCGGGTCTAC AAGCCGGATG TTCCGGGTAC CCGAAAGCGC 
CGAGTGTACG TGGATGAATC GTACTGCATT AGCCGAAAGG TGCATCGTCC CAAGCTGCGC 
ACCACCACCA AATCCTGCAG GATCAACTGC AAGTGGAATG CCTCGGACTG GAGGCGCTGT 
CCTGCTGACT GCTCGGAGGA GTACCAAACG CGTGATGTGC GCTGCGAGTC CTTCCAGGGT 
GACGGAGTGG AGGACAAGCA CTGCGATGCC AAGAAGCGTC CATCCAAGCG ACGCATCTGC 
AACAACTGCG TGCGCCGGCA GTCGAGAGTC ATCTCGCAGT GCAACTGTGA GGGTGTGGAG 
AAGAGGCGGG ACTTCTGCTT CAACTCGCAC AAGGGTCGCA TCGCGTGTCC CACGAGAGCC 
AGGGTGGAGC GTCACAGCTG CACTCCGCCG CCACATTGCC GAAGGAGAAG TGCCATCGGG 
AGCAGCATCA GCAGCAGACC GAGGGGCACT GGAGTGAGTA GCAGCAGGAG CTTGAATTCA 
ATCGGAGGCT CACGGAATCG CGGAACACCG AGAAGCTGTG CGGACCTGAA GGAGATGCAC 
GGCTACAACA AGGATGGCAA CTACCAGCTG GAGGTGAGAT CGCGAATGGT GCACATCTAC 
TGCCACGGGA TGAACAGCAG GACGCCACAG GAGTACGTGA ACGTGGATCC GCAGGAGAAC 
TACTCCATAT ACTACGAGTA CAGGACGAAA CAGACCAACA GCTGTCCGCC GGAGTCGCGA 
GGCCACGAGT ACTACAACGA TCAGAACTCC GGCCGGACGC ACTTCAGAAA GCTGCGGCTG 
AATATCACCG ATCTGCGCAT CATGGACAAC GACTTCAAGT TCGCCGATTC GCGAGGATTG 
GCTCAGAAGC TGGGATCAGC GGGCGATTGC TACAATCGCA TTGGCCAGTG TCCGCAGGGC 
GACTTCTCGA TTAACATGAA GGACACGGAC TTCTCCATAC GACCGGGAAC CGTGTGGCGG 
ATGCATGGCC AGTACTCGGT CATGAAGCGT ATCAGTGAGT TTGATACGAC CACGCAGATG 
CGAAGGGGAT TCTGCGGAGG ATACTGCGGC GGTTGCTATA TAGCGCCCGA TTCTGGCCTT 
TACCTGGACG TGTTATGA

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

RefSeq	NP_001262604.1
CDS	414..5171
Translation	MFNSMGISRGDFPQGKQRKAPKPTPFMEIIKLEVKKRCEWWCHKYIQKMSTHWRQNACLYACCIAFLLGMLIMFHLGLRSAHKGQEELPQSTHPLANSPPATPATLHPRRLDNDTSTDHEPPDGLDDLDEEEHSAFVMPTKVYNYSLSEADLIYESKRNSDINSFLKESASAFAMTGTYRNMSNEIWDPHPQYNLNVFGRQLHLVLRQDASFVHNHSMTHIRILKEGEEHPGPETEAEAEQRHLGCFYSGYVEDDPHSMVSVSLCGGMTGYIKTSFGALLIQPVNRTSSDEVLHRVFRKSQRNARHAVSKFELGLDDFMSKLEQVQEEEQKSKSRKLNRKKRHYADVDNQVYTLEVLIAVDNSMKQFHGEDLQPYILILMSIVSSIFADASIGNSIRILLVRLISLPNINDQTHSSNEMLKHFCQFINQSGYERDTAMLITREPICGSVPGKICHMLGLAELGTVCSSSSCSIVQDTGLPTAFTMAHELGHILNMNHDDDDKCMPYVTRQNNNKVLHIMSSVMGIHMHPWSWSKCSRHFVSEFLEKTDKSCLETSVGAHIPYGTERLPGEIYSLDAQCQLSFGNDFGYCPTDEECKRLWCNRTSGNSNEQCASSNLPWADGTPCGSSGHWCQRGKCVSNKHGYGRQVNGGWGPWTPFTPCSLTCGGGVQESRRECNQPVPENGGKYCTGSRKKYRSCNTHQCPPGSMDPREQQCYAMNGRNMNIPGVNPDTKWVPKYEKDACKLFCRMDMKVTYFMLKSMVTDGTSCAVDSFDKCVNGICRPAGCDNELNSIAKLDKCGVCEGRNDTCHEVTGNLLVSNLLGLNDGNEPNKTLYYVTRIPKGASNIIITQRGYPDQNFIVLTDDRDNELLNGKFLKTYPLKFVYAGVTMQYTGSSSVVEQVNTTYSWKLSRDLIVQIISLDVSPSKRQDTVLLSYSYTIDKPPDYEAEVEIYRWEMQAPSNCDSLCEGRSHRLPACISTTQGVKVAPQFCDKSAMPKIDDRACNTDCRLNLTVTSISECSAACGELGTREKTYACVQTFTNMQRSNIVDMSYCKLKFDVAYHEECREGCWVLSEWSTCSKSCGTGSQQREAHCYLHNSRVSDDLCNPRTKPHLNTLIGICNTESCPTYTKSPNALAVSNWVIGEWGECNEWCEKTRSVSCSHPYGIGCGSRKPKDVRKCCHIKYTSDWTDCSVQCGEGVKRKKQSCTRVYKPDVPGTRKRRVYVDESYCISRKVHRPKLRTTTKSCRINCKWNASDWRRCPADCSEEYQTRDVRCESFQGDGVEDKHCDAKKRPSKRRICNNCVRRQSRVISQCNCEGVEKRRDFCFNSHKGRIACPTRARVERHSCTPPPHCRRRSAIGSSISSRPRGTGVSSSRSLNSIGGSRNRGTPRSCADLKEMHGYNKDGNYQLEVRSRMVHIYCHGMNSRTPQEYVNVDPQENYSIYYEYRTKQTNSCPPESRGHEYYNDQNSGRTHFRKLRLNITDLRIMDNDFKFADSRGLAQKLGSAGDCYNRIGQCPQGDFSINMKDTDFSIRPGTVWRMHGQYSVMKRISEFDTTTQMRRGFCGGYCGGCYIAPDSGLYLDVL

Target ORF information:

RefSeq Version	NM_001275675.1
Organism	Drosophila melanogaster(fruit fly)
Definition	Drosophila melanogaster ADAM metallopeptidase with thrombospondin type 1 motif A (AdamTS-A), transcript variant C, mRNA.

Target ORF information:

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

NM_001275675.1

ORF Insert Sequence:

ATGTTCAATA GCATGGGGAT TTCCAGGGGG GATTTTCCGC AAGGAAAGCA GCGGAAAGCA 
CCTAAACCCA CGCCCTTTAT GGAGATCATT AAGCTCGAGG TGAAGAAGAG GTGTGAATGG 
TGGTGCCACA AGTACATTCA AAAGATGTCC ACCCACTGGC GGCAGAATGC CTGCCTGTAT 
GCCTGCTGCA TCGCTTTTCT GCTGGGCATG CTTATCATGT TCCATCTCGG TTTGCGAAGT 
GCCCATAAGG GCCAAGAGGA GCTGCCACAG AGCACGCACC CACTAGCCAA CAGTCCACCT 
GCTACACCAG CCACGCTCCA TCCCAGAAGG CTTGATAACG ACACGTCGAC GGACCACGAG 
CCACCCGATG GCTTAGACGA TCTGGACGAG GAGGAGCACA GCGCCTTCGT GATGCCCACC 
AAGGTCTACA ACTACAGTCT CAGCGAAGCT GATCTGATCT ACGAGTCGAA ACGAAACAGC 
GACATCAACA GTTTCCTAAA AGAGTCCGCA TCGGCCTTTG CCATGACGGG AACGTATCGC 
AACATGTCCA ATGAGATCTG GGACCCGCAT CCGCAGTACA ACCTCAATGT GTTCGGTCGC 
CAGTTGCATT TGGTGCTGCG ACAGGACGCC TCGTTCGTCC ACAACCATTC GATGACCCAC 
ATTCGGATAC TGAAGGAGGG GGAGGAGCAT CCGGGACCGG AGACGGAGGC GGAGGCGGAG 
CAGCGCCACC TAGGCTGCTT CTACTCCGGT TACGTCGAGG ACGATCCGCA CTCGATGGTC 
TCCGTCTCAC TGTGCGGCGG CATGACTGGT TATATCAAAA CGAGTTTCGG CGCGCTGCTC 
ATTCAGCCGG TGAACCGAAC CAGCAGCGAT GAGGTTCTCC ACCGGGTCTT TCGCAAATCG 
CAGCGCAACG CCAGACACGC TGTCTCCAAG TTCGAGCTGG GCCTGGATGA TTTCATGAGC 
AAGCTGGAGC AGGTGCAGGA GGAGGAGCAG AAGTCCAAGT CCCGCAAACT GAATCGGAAG 
AAGCGACACT ATGCGGACGT GGACAACCAG GTGTACACCT TGGAGGTGCT CATTGCGGTG 
GACAATAGCA TGAAGCAATT CCACGGCGAG GACCTGCAAC CATACATTCT CATCCTCATG 
TCGATCGTGT CCAGCATTTT TGCGGACGCC AGCATTGGTA ACTCCATTCG CATTTTGCTG 
GTGCGACTGA TCAGCCTGCC GAATATCAAC GACCAGACGC ATTCCAGCAA CGAAATGCTG 
AAGCACTTCT GCCAGTTTAT TAACCAATCT GGATACGAAA GAGATACAGC CATGTTGATC 
ACACGCGAAC CCATCTGTGG CAGCGTGCCG GGCAAGATTT GCCATATGCT GGGCTTGGCC 
GAACTGGGCA CTGTTTGCAG TTCCAGTTCC TGCTCCATTG TCCAGGACAC CGGACTGCCC 
ACCGCCTTTA CCATGGCCCA CGAGCTGGGA CACATCTTGA ACATGAACCA CGACGACGAC 
GACAAGTGTA TGCCCTATGT CACCAGGCAG AACAACAACA AGGTGCTCCA CATCATGTCC 
AGCGTGATGG GCATCCACAT GCATCCGTGG TCGTGGTCCA AGTGCTCCCG CCACTTTGTC 
TCCGAGTTTC TCGAGAAAAC CGACAAGTCC TGTCTGGAGA CCTCCGTGGG CGCCCACATT 
CCCTATGGCA CCGAGCGTCT GCCTGGAGAG ATCTACTCCC TGGACGCCCA GTGCCAGCTG 
AGTTTCGGCA ATGACTTTGG CTACTGTCCC ACGGACGAGG AGTGCAAGCG GTTGTGGTGC 
AACCGAACCT CCGGTAACTC CAACGAGCAG TGCGCCTCCA GCAATCTGCC ATGGGCCGAC 
GGAACGCCCT GCGGCTCCAG TGGCCACTGG TGTCAGCGGG GCAAGTGTGT ATCCAACAAG 
CATGGATACG GACGCCAGGT GAACGGTGGA TGGGGACCAT GGACGCCATT CACGCCCTGC 
AGCCTCACCT GCGGTGGCGG AGTGCAGGAG TCGCGTCGTG AGTGCAACCA ACCGGTGCCG 
GAGAACGGTG GCAAGTACTG CACGGGAAGT CGGAAGAAGT ACCGATCGTG CAACACACAC 
CAGTGTCCGC CAGGCAGCAT GGATCCGCGC GAGCAGCAGT GCTATGCGAT GAACGGACGG 
AACATGAACA TTCCGGGCGT GAACCCAGAC ACCAAGTGGG TGCCCAAATA CGAAAAGGAT 
GCGTGCAAGC TATTCTGCCG CATGGACATG AAGGTCACCT ACTTCATGCT CAAGAGCATG 
GTCACCGACG GCACCTCCTG TGCGGTGGAC AGCTTCGACA AGTGCGTCAA CGGCATCTGC 
CGGCCGGCGG GATGCGACAA CGAGCTCAAC TCGATTGCCA AGCTGGACAA GTGCGGCGTG 
TGCGAGGGTC GCAATGACAC ATGCCACGAG GTAACCGGAA ATCTGCTCGT CTCCAATCTC 
CTGGGGCTAA ATGATGGGAA TGAGCCGAAC AAGACACTTT ACTATGTGAC GCGAATACCA 
AAAGGTGCCT CCAACATAAT AATCACTCAG CGTGGCTATC CCGACCAGAA CTTCATAGTA 
CTCACCGATG ACCGGGACAA CGAACTGCTT AATGGAAAAT TCCTCAAGAC CTATCCATTG 
AAATTCGTTT ATGCCGGAGT CACGATGCAG TACACCGGTT CTAGTAGTGT GGTGGAGCAG 
GTGAATACGA CCTACTCATG GAAACTGTCA CGTGATCTTA TAGTACAGAT CATTTCACTG 
GACGTGAGTC CGTCCAAGCG GCAGGACACC GTCCTCTTGT CCTACTCCTA CACCATCGAC 
AAGCCACCGG ATTATGAGGC GGAGGTGGAG ATCTATCGCT GGGAGATGCA GGCCCCGAGC 
AACTGTGATT CCCTATGCGA GGGCAGGAGT CATCGACTGC CGGCCTGCAT CAGCACCACC 
CAGGGTGTCA AGGTTGCCCC ACAGTTCTGT GACAAGTCCG CCATGCCCAA AATCGATGAT 
CGGGCTTGCA ACACTGACTG CCGCCTCAAT CTCACTGTGA CGAGCATCTC GGAGTGCTCG 
GCCGCGTGTG GAGAATTGGG TACCCGGGAG AAGACCTACG CCTGCGTCCA GACATTCACG 
AATATGCAAC GTTCCAATAT TGTGGATATG TCATATTGCA AGCTGAAATT CGATGTGGCT 
TACCATGAGG AGTGTCGCGA AGGATGCTGG GTTTTATCGG AGTGGTCAAC TTGCTCCAAG 
TCGTGTGGCA CTGGTTCCCA GCAGCGTGAA GCTCACTGCT ACCTACACAA TTCCCGTGTC 
AGCGATGATC TGTGCAATCC ACGGACCAAG CCCCATTTGA ACACCCTAAT CGGGATCTGC 
AACACTGAGT CGTGTCCCAC GTACACGAAA TCACCTAATG CCCTGGCAGT TAGTAACTGG 
GTGATTGGAG AATGGGGCGA ATGCAATGAG TGGTGCGAGA AGACTCGTTC TGTGAGTTGT 
TCACATCCAT ACGGAATCGG CTGCGGCAGT AGAAAGCCCA AGGACGTCCG CAAATGCTGC 
CACATCAAGT ACACCAGCGA TTGGACAGAC TGTTCGGTGC AATGTGGCGA GGGCGTCAAG 
AGGAAGAAGC AAAGCTGCAC GCGGGTCTAC AAGCCGGATG TTCCGGGTAC CCGAAAGCGC 
CGAGTGTACG TGGATGAATC GTACTGCATT AGCCGAAAGG TGCATCGTCC CAAGCTGCGC 
ACCACCACCA AATCCTGCAG GATCAACTGC AAGTGGAATG CCTCGGACTG GAGGCGCTGT 
CCTGCTGACT GCTCGGAGGA GTACCAAACG CGTGATGTGC GCTGCGAGTC CTTCCAGGGT 
GACGGAGTGG AGGACAAGCA CTGCGATGCC AAGAAGCGTC CATCCAAGCG ACGCATCTGC 
AACAACTGCG TGCGCCGGCA GTCGAGAGTC ATCTCGCAGT GCAACTGTGA GGGTGTGGAG 
AAGAGGCGGG ACTTCTGCTT CAACTCGCAC AAGGGTCGCA TCGCGTGTCC CACGAGAGCC 
AGGGTGGAGC GTCACAGCTG CACTCCGCCG CCACATTGCC GAAGGAGAAG TGCCATCGGG 
AGCAGCATCA GCAGCAGACC GAGGGGCACT GGAGTGAGTA GCAGCAGGAG CTTGAATTCA 
ATCGGAGGCT CACGGAATCG CGGAACACCG AGAAGCTGTG CGGACCTGAA GGAGATGCAC 
GGCTACAACA AGGATGGCAA CTACCAGCTG GAGGTGAGAT CGCGAATGGT GCACATCTAC 
TGCCACGGGA TGAACAGCAG GACGCCACAG GAGTACGTGA ACGTGGATCC GCAGGAGAAC 
TACTCCATAT ACTACGAGTA CAGGACGAAA CAGACCAACA GCTGTCCGCC GGAGTCGCGA 
GGCCACGAGT ACTACAACGA TCAGAACTCC GGCCGGACGC ACTTCAGAAA GCTGCGGCTG 
AATATCACCG ATCTGCGCAT CATGGACAAC GACTTCAAGT TCGCCGATTC GCGAGGATTG 
GCTCAGAAGC TGGGATCAGC GGGCGATTGC TACAATCGCA TTGGCCAGTG TCCGCAGGGC 
GACTTCTCGA TTAACATGAA GGACACGGAC TTCTCCATAC GACCGGGAAC CGTGTGGCGG 
ATGCATGGCC AGTACTCGGT CATGAAGCGT ATCAGTGAGT TTGATACGAC CACGCAGATG 
CGAAGGGGAT TCTGCGGAGG ATACTGCGGC GGTTGCTATA TAGCGCCCGA TTCTGGCCTT 
TACCTGGACG TGTTATGA

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

PubMed

Gene Model Annotations for Drosophila melanogaster: Impact of High-Throughput Data.
G3 (Bethesda, Md.)5(8)1721-36(2015 Jun)
Matthews BB,Dos Santos G,Crosby MA,Emmert DB,St Pierre SE,Gramates LS,Zhou P,Schroeder AJ,Falls K,Strelets V,Russo SM,Gelbart WM,

Gene Model Annotations for Drosophila melanogaster: The Rule-Benders.
G3 (Bethesda, Md.)5(8)1737-49(2015 Jun)
Crosby MA,Gramates LS,Dos Santos G,Matthews BB,St Pierre SE,Zhou P,Schroeder AJ,Falls K,Emmert DB,Russo SM,Gelbart WM,

Sequence finishing and mapping of Drosophila melanogaster heterochromatin.
Science (New York, N.Y.)316(5831)1625-8(2007 Jun)
Hoskins RA,Carlson JW,Kennedy C,Acevedo D,Evans-Holm M,Frise E,Wan KH,Park S,Mendez-Lago M,Rossi F,Villasante A,Dimitri P,Karpen GH,Celniker SE

The Release 5.1 annotation of Drosophila melanogaster heterochromatin.
Science (New York, N.Y.)316(5831)1586-91(2007 Jun)
Smith CD,Shu S,Mungall CJ,Karpen GH

Combined evidence annotation of transposable elements in genome sequences.
PLoS computational biology1(2)166-75(2005 Jul)
Quesneville H,Bergman CM,Andrieu O,Autard D,Nouaud D,Ashburner M,Anxolabehere D

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AdamTS-A cDNA ORF clone, Drosophila melanogaster(fruit fly)

Summary

Reference Sequences (RefSeq)

Pathways from BioSystems

Homologies

Gene Ontology

Bibliography

Reference Sequences (Refseq)

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

Target ORF information:

Target ORF information:

ORF Insert Sequence:

PubMed

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