- Transcript 'Haaura.CG.MTP2014.S2...'
Transcript Model
Transcript Id
Haaura.CG.MTP2014.S2.g00061.01.t
Possible name(s)
ADAMTS1; ADAMTS20; ADAMTS9
Gene model
Location
S2 [17,019 / 33,544]
Amino acid sequence
Length: 1,081
>Haaura.CG.MTP2014.S2.g00061.01.p
MIATDISPLLIILIWFSESSSGNSETEKEPMKESKEFKTDNEQANTKTEQLLNGKPKCVF
DPEILQRLKTSRLTTKNLINQFHMIKKLHARGNSSTTILWNDGFGGRKLRKLKRNRIHLY
RNNCRQPLGDHGPHTETSERAKSRTKRYLSYPRNVEVMVTADNKMYRAHTSNLQHYVLTL
LAIVHHVYLDPSIENLINIVLVKLVVIGDGDVEYGPRITKNAHDCLRNFCLWQADQNDPD
DSHPNHHDTAVLITRQDICRSETACDTLGLAELGTMCDPLRSCSINEDNGLSTAFTIAHE
IGHEFNAPHDNNEKCISPQGKPEKMHVMSPTLDHKSQPWSWSKCSAKYITNFLDYGNGQC
LLDAPPQRVLPLPAEEPGQIYDVNQQCSFVYGEGVTHCGFMTTCVRLWCVSADRRHGCRT
PHMPWADGTKCDVGKWCYRGQCIPEDRHRRPVNGQWGEWSRFGDCSRTCGGGVRIAEREC
NNPKPQDGGKYCVGKRKKFRSCNWQDRCKLICQVKRSDQYAAPWYVLSPKVINGTPCGPE
THDICVEGICKRAGCDHVLNSNTREDNCGICGGDNSYCRTIKGVYNVGNLYGYSVVVQIP
AGATNALIEQRSYNMLPEDNNYLALRDSSGVFILNGNRNVVQFEHTVQKRSRNGLGYDYY
FDYSGTDNILERINSTNPLRENITVMILSAGDLVPPDIRYRFNIPLPDYVTYTWDPYGPW
SICSRPCQGRTKRKLLCVRSTDNQTVADQKCYNKEKPASIIRTCNTHCVIKWQLENRECS
SRCGKGIATLNYKCIKLTTSSISADSTVESIPDSECTTDKPSTREPCSGVCLRTAWHYEQ
WTECTRKCDGGSQRREAVCRDIKNVPLPDSECDVRGRIKSKTCNNHPCPQWVTTVLSKCL
ATCGNGVRRRKVWCKGNDRNVRIESKCDPSSKPPSTVPCSLVPCPTWHYGPWQECSVTCG
TGFTMRRSQCINHMGQQVDAEKCKEGLRERDTNTCTMSVLCPDLPLARSDRTMLINRGIA
GRGVHIPSEDPPPAVEMPFFDDDNQIHMVIKNPIIPDVNSLSSEMIQDMPQPELREMTMY
*
Nucleotide sequence
Length: 5,481
>Haaura.CG.MTP2014.S2.g00061.01.t
ATGATAGCAACTGACATTTCACCACTTCTAATTATACTGATCTGGTTTTCAGAATCTTCA
TCTGGTAACTCTGAAACGGAAAAGGAACCTATGAAAGAATCCAAAGAATTCAAGACAGAT
AATGAACAAGCAAATACAAAAACCGAGCAATTGCTGAACGGAAAACCCAAATGCGTTTTT
GATCCCGAAATTCTGCAGAGGCTCAAAACCAGTCGATTAACCACAAAGAATCTTATCAAT
CAATTTCACATGATAAAGAAACTTCATGCGCGGGGCAATTCGTCAACAACAATTCTATGG
AACGATGGATTTGGTGGAAGGAAACTACGAAAACTAAAACGGAATCGGATCCATCTGTAC
AGAAACAACTGTCGACAACCGTTAGGAGATCACGGACCTCACACCGAGACGTCGGAACGA
GCGAAATCACGAACAAAGCGATACCTGTCATATCCACGAAACGTGGAAGTGATGGTGACT
GCGGACAATAAAATGTACAGAGCTCATACGTCCAATTTACAGCACTATGTCTTGACACTT
CTGGCAATTGTACATCATGTCTACCTCGATCCGAGCATAGAAAACCTAATTAACATTGTT
CTTGTCAAACTGGTAGTAATTGGAGATGGAGATGTTGAGTACGGTCCACGTATTACGAAG
AATGCACACGATTGTCTGCGCAACTTCTGTCTCTGGCAAGCGGACCAAAACGATCCAGAC
GATTCCCACCCAAATCATCACGACACTGCCGTCCTTATAACCAGGCAAGATATCTGTCGC
TCTGAAACAGCCTGCGATACCCTGGGTCTTGCTGAGCTGGGAACAATGTGCGATCCGCTG
CGAAGTTGCTCAATAAACGAAGACAACGGACTAAGCACAGCGTTTACAATTGCACATGAA
ATTGGACACGAGTTTAACGCACCTCATGACAACAACGAAAAGTGTATATCTCCGCAAGGA
AAGCCAGAAAAAATGCACGTCATGTCGCCTACGCTAGATCACAAGTCACAACCTTGGTCG
TGGTCGAAGTGCAGCGCGAAGTACATCACAAACTTCCTCGATTATGGGAACGGCCAGTGT
CTACTCGACGCCCCTCCCCAACGAGTCCTCCCACTTCCGGCAGAGGAGCCCGGTCAAATC
TATGACGTTAATCAGCAATGTAGTTTCGTGTACGGCGAGGGAGTCACACACTGCGGTTTT
ATGACAACATGTGTACGTTTGTGGTGCGTAAGCGCAGACAGGCGTCATGGTTGCCGCACG
CCACACATGCCATGGGCGGATGGGACTAAATGTGACGTGGGGAAGTGGTGCTACAGAGGT
CAATGTATACCAGAGGATAGACACAGACGACCGGTGAATGGACAATGGGGCGAATGGAGC
CGTTTCGGAGACTGTTCGCGCACGTGTGGTGGCGGTGTAAGGATTGCTGAACGAGAGTGT
AACAATCCAAAGCCTCAGGACGGCGGTAAATACTGTGTCGGCAAACGCAAGAAATTTCGT
TCATGCAACTGGCAGGATCGGTGTAAATTGATTTGTCAAGTGAAACGCAGTGACCAGTAC
GCCGCACCCTGGTATGTTTTGAGTCCCAAGGTAATCAACGGGACGCCGTGTGGTCCCGAA
ACTCACGATATATGCGTGGAAGGCATTTGTAAGCGCGCTGGATGCGATCATGTACTCAAC
TCAAACACGCGGGAAGACAATTGCGGCATTTGCGGTGGAGACAACAGTTATTGCAGAACA
ATCAAAGGCGTTTATAACGTAGGCAACCTATATGGGTACAGCGTCGTCGTACAAATACCG
GCTGGTGCCACTAATGCACTGATAGAACAACGATCGTATAACATGCTGCCAGAGGACAAT
AATTATTTAGCCCTCAGAGATTCGTCGGGTGTATTCATTCTAAACGGTAATCGCAACGTC
GTTCAATTCGAGCACACCGTTCAAAAGCGATCAAGAAATGGTTTGGGTTACGATTACTAT
TTCGACTATAGCGGGACAGACAACATTTTGGAACGCATAAATTCAACAAATCCCCTGCGA
GAAAATATTACAGTGATGATTCTCTCTGCGGGCGACCTCGTTCCTCCGGACATTAGGTAC
CGGTTCAATATTCCCTTGCCAGATTATGTAACGTACACTTGGGACCCATACGGCCCTTGG
AGCATTTGCAGTCGCCCTTGTCAAGGAAGAACTAAGAGAAAGTTACTCTGTGTCCGGTCT
ACTGATAATCAGACAGTGGCAGATCAGAAATGTTACAATAAGGAAAAGCCAGCTTCAATC
ATCAGAACATGCAATACCCACTGTGTCATAAAGTGGCAGCTAGAGAACAGGGAATGCTCA
TCCCGATGCGGAAAAGGAATTGCAACTCTCAATTACAAATGTATTAAACTCACAACATCA
AGTATCAGTGCAGATTCTACCGTGGAATCCATTCCAGATTCGGAATGTACCACGGACAAA
CCGAGCACCAGGGAACCGTGTAGTGGCGTATGTTTGCGTACAGCCTGGCATTACGAACAA
TGGACTGAGTGCACACGTAAATGTGACGGAGGATCGCAAAGAAGGGAAGCTGTTTGTCGG
GACATTAAGAACGTTCCCCTGCCAGACAGTGAATGCGATGTCAGAGGCCGTATCAAATCA
AAAACCTGTAATAACCATCCATGCCCTCAGTGGGTCACTACAGTTTTGTCTAAGTGCTTA
GCCACATGTGGGAATGGTGTTCGACGTCGTAAAGTTTGGTGCAAGGGTAATGACCGCAAC
GTCCGCATCGAGTCGAAGTGCGACCCGTCTAGCAAACCGCCCTCAACAGTACCCTGTTCA
CTAGTTCCCTGTCCCACATGGCATTACGGACCTTGGCAAGAATGTTCAGTGACTTGCGGA
ACCGGGTTTACCATGCGTCGATCTCAGTGCATCAATCACATGGGACAACAGGTTGATGCT
GAAAAATGTAAAGAAGGATTGCGTGAAAGAGACACAAATACTTGCACTATGTCCGTGTTA
TGCCCGGATCTACCTTTAGCTAGATCTGATCGAACAATGCTTATAAACAGAGGGATAGCG
GGACGGGGAGTTCATATACCCAGTGAAGACCCCCCTCCTGCGGTGGAGATGCCTTTTTTC
GATGATGATAACCAAATTCACATGGTGATCAAGAATCCTATCATCCCTGATGTAAATTCG
TTATCCTCAGAAATGATCCAGGATATGCCACAACCGGAACTAAGAGAGATGACAATGTAC
TAAATTTCTTTGTATTTCCAGTGTTCCACGACATGCGGACCTGGTATCCATGAGCGATAT
GTTAGCTGTCGTCATGATGATGGACATGAGGTCAGTGACAGTTTCTGTGGTTCTGAACAG
ACACGTCCAACGCACAAAGAAGTTTGTGAAAACCAGCCATGCTTTGGAAAATGGAGAACA
GGAGACTGGTCGGAGTGTTCTGTTTCTTGCGGCGAAGGAGTAAAAACACGATACGTTCAT
TGTATGTACAATGATAAGTATGATGTCGAGTCTAGATGCCAAGGAGTTGCAAAGCCAGAA
ACAGAAGCTGAATGCATGTGGATGTGTGACGAGGATGAAGATTCTTTGACCATGATGGTA
TCCTCCAATCTGGAATCCCAAGAACCTGACGACAGAGCAAAGACTTCTGAGAACGATTAT
GAAAGAATTTGGCGGACCGGTACGTGGTCTCAGTGCTCAAGCTCTTGCGGGAGTGGGAAT
CAGAAAAGAGTAGTTGTATGCACTGGAAACTGTGATCCTACTACGAAGCCGTCTGTATTG
CGCCTCTGTGACTCTGGTGCTTGTCCAACATGGAGACATGGTTCCTGGTCAATATGCTCG
AAGTCTTGTGGTGGTGGAAATAAATATCGTCAAGTTCGCTGTGTTATGGTTGATGGAAAT
CTGACTCATGATGCCCGGTGTAACATCATGAACCGTCCATCCCCTAGCATTCCCTGCAAT
CTAGCAATTTGTCCTGGACGCAGATATAGATGGAGAACTACACATTGGAGCGAGTGCTCT
GTGACTTGCGGGCGGGGAGTCAAAAATCGTAATGCCACTTGCATTGACCGTCACAAAAAT
CCTGTAGCAGATAACTTGTGTGCGGATATGAGAGGCCGAAGACCTAGAATTGTTCGCAAA
TGTCGGACTAAAACGAGGTGTCCGAGATGGCATACTGGAGAATGGAATCAGTGCTCCGTT
AACTGCGGCGTTGGAGTGAGAATCCGCGGAGTGCGTTGCAGATACAAAAGAAAAACAATT
GCAGATTCCCTATGCGATCCGAAACACAAGCCTGACGACATCGAAACTTGTAACGGTACC
AAATGTGATGAGAATTATAGATGGACTACTTCTACATGGCAACAGTGTTCTAGAAGTTGC
GGATCTGGATTAAGTACACGTCAGGTCAACTGTATAAGTGGAGAAAGAACCCGTGTAGCT
GATTATCATTGTTTCAAAACATCCACCAGACCATTGTCAAGGCAGTACTGTAGCCAGGGT
CCTTGCGGGTCCTACTGGAATGCAGGTGTCTGGTCAGAGTGCTCAACAACGTGCGGCAAA
GGAGTGCAATCTCGCGAAGTCAAATGTGTTTATGTAGAGCGACAGACGCTAACCTGGCAA
CCGGCAACCAACTGCGATACAACTGAGACACCACGAGACACACAGGACTGTATCCTGAAC
AATTGTAATTCTGAATTTTACTGGAGAGTAGGATCGTGGAACAAGTGCTCAGCTAGTTGT
GGAGAAGGCATGTCGGTCAGGCTAGTCATCTGCTTCAGTCGCTTCGGCCAAAATAAAGTT
GCTGACTCTGAGTGTGAAATCAATTCCTCCAAACCAGAAAGCCAACGACGATGTAACCTA
TCGCCGTGTGTTCCAGCGACATGTAGACATGTACAAGTACAGTTTGGAGATGTTGTTGAT
GCAGAATACAATTTACTAGTCCGAGGGAACAGATTAAAAATATACTGCAAGGATATGAAT
ACAATGCATCCTAAGGAATATATCAGCCTTCCAGAAGGAGATAATGAGAATTACTCAGAG
ATTTACAGTCAGAGATTAATAAATCCAGACACCTGCCCAAACAATGGTAGCAGGAGCGAG
AGGTGCGATTGTAAAAGCTATCCAGGGCAAGGCAAAACCTTATATCGGAAAATCCGTCTT
GATGTGAGATCAATGAAAGTCATTACTAGCGACTTCAGTTTCTCTGTTAATGAGCATGGA
CAACCAGTTGAATTTGGTGTTGCTGGTGATTGTTACAGTCGTGCCAGCTGTCCACAGGGT
GAGTTTCGCATTAATCTGGCCGGTACAGGTTTAGCAATCACAACAAGCACCCAGTGGAGT
TCTTATGGACGCAGCGCTGTTCAACAGATCGATCGAACAAATAACGGAGTTATAGTGACG
GGAAAGTGCGGTGGCTACTGTGGACAATGTCGACCAGATCCATTAGCTGGGATGATATTG
ACTCAAATACCAACGAGATAG
| Gene3D |
MetalloPept_cat_dom_sf (IPR024079) - T[148-385] 1.2E-87 |
| ProSiteProfiles |
Peptidase_M12B (IPR001590) - T[153-365] 22.306 |
| Pfam |
Peptidase_M12B (IPR001590) - T[154-365] 1.6E-22 |
| SMART |
ADAM_Cys-rich (IPR006586) - T[374-445] 0.0084 |
| Gene3D |
TSP1_rpt_sf (IPR036383) - T[451-508] 3.5E-15 - T[831-889] 9.2E-7 - T[890-945] 4.5E-6 - T[946-1002] 1.1E-7 |
| SUPERFAMILY |
TSP1_rpt_sf (IPR036383) - T[452-505] 4.19E-13 - T[710-767] 1.57E-5 - T[835-888] 3.92E-7 - T[883-944] 2.22E-5 - T[939-997] 3.01E-9 |
| ProSiteProfiles |
TSP1_rpt (IPR000884) - T[453-509] 12.676 - T[711-769] 8.354 - T[831-889] 9.429 - T[943-1002] 10.767 |
| SMART |
TSP1_rpt (IPR000884) - T[456-509] 2.7E-10 - T[714-769] 0.31 - T[835-889] 1.5E-4 - T[890-945] 0.18 - T[946-1002] 1.1E-7 |
| Pfam |
TSP1_rpt (IPR000884) - T[457-508] 1.8E-7 - T[896-944] 0.067 - T[949-1001] 8.3E-6 |
| Pfam |
ADAM_spacer1 (IPR010294) - T[580-705] 6.2E-21 |
| Protein Name | Identity | Bit Score | e-value |
|---|---|---|---|
| ATS9_HUMAN | 48.352 % | 844 | 0 |
| ATS1_HUMAN | 39.528 % | 531 | 2.18E-172 |
| ATS20_HUMAN | 46.035 % | 811 | 0 |
