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 NamesADAM metallopeptidase with thrombospondin type 1 motif A
NamesCG14869 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
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
Drosophila melanogaster (fruit fly)
CG14869
NP_732036.2
Anopheles gambiae (African malaria mosquito)
AgaP_AGAP004201
XP_313098.5
Related articles in PubMed
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?
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.
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##
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 4801 4861 4921 4981 5041 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
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 AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_206496.2
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 4801 4861 4921 4981 5041 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.
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##
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 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
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 AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_169659.3
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 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.
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##
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 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
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 AMPR
Mammalian selection NeoR
Vector pcDNA3.1+ /C-(K)DYK
NM_001275675.1
ORF Insert Sequence:
1 61 121 181 241 301 361 421 481 541 601 661 721 781 841 901 961 1021 1081 1141 1201 1261 1321 1381 1441 1501 1561 1621 1681 1741 1801 1861 1921 1981 2041 2101 2161 2221 2281 2341 2401 2461 2521 2581 2641 2701 2761 2821 2881 2941 3001 3061 3121 3181 3241 3301 3361 3421 3481 3541 3601 3661 3721 3781 3841 3901 3961 4021 4081 4141 4201 4261 4321 4381 4441 4501 4561 4621 4681 4741 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.
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