Biological process  Protein metabolism
 Molecular function  Metallopeptidase activity
 
Protein   ADAM metallopeptidase with thrombospondin type 1 motif, 20  Gene symbol   ADAMTS20
 
 Cellular component  
     
 
Component
Extracellular
 
   
 
Experimental evidence   
  Total number of studies : 1    
 
Peptide sequence Method Platform  Sample  Reference
Mass spectrometry Plasma Liu et al. 2007
 
   
 
 Multiple reaction monitoring data  
     
 
Peptide sequence MH+ Sample Number of studies Reference
Data not present
 
   
 
  Protein concentration    
     
 
Protein concentration Method Sample
Reference
Data not present
 
   
 
  Extracellular vesicle proteins    
     
 
Sample Isolation  Experimental method Vesiclepedia accession Reference
Data not present
 
   
 
 Architecture  
     
 
Domains Motifs
REP   259 - 467
TSP1   1659 - 1710
TSP1   1591 - 1653
TSP1   1536 - 1589
TSP1   1478 - 1531
TSP1   1422 - 1475
TSP1   1363 - 1416
TSP1   1309 - 1360
TSP1   1212 - 1264
TSP1   1157 - 1205
TSP1   1081 - 1135
TSP1   1026 - 1078
TSP1   971 - 1023
TSP1   850 - 904
TSP1   559 - 610
TSP1   473 - 548
SP   1 - 19
 
   
 
 External links  
     
 
HPRD UniProt NetPath 
07471  P59510  NetPath_M80070 
 
   
 
 
 Protein sequence  P59510
     
   
    MWVAKWLTGL LYHLSLFITR SWEVDFHPRQ EALVRTLTSY EVVIPERVNE FGEVFPQSHH FSRQKRSSEA LEPMPFRTHY RFTAYGQLFQ LNLTADASFL AAGYTEVHLG TPERGAWESD
AGPSDLRHCF YRGQVNSQED YKAVVSLCGG LTGTFKGQNG EYFLEPIMKA DGNEYEDGHN KPHLIYRQDL NNSFLQTLKY CSVSESQIKE TSLPFHTYSN MNEDLNVMKE RVLGHTSKNV
PLKDERRHSR KKRLISYPRY IEIMVTADAK VVSAHGSNLQ NYILTLMSIV ATIYKDPSIG NLIHIVVVKL VMIHREEEGP VINFDGATTL KNFCSWQQTQ NDLDDVHPSH HDTAVLITRE
DICSSKEKCN TLGLSYLGTI CDPLQSCFIN EEKGLISAFT IAHELGHTLG VQHDDNPRCK EMKVTKYHVM APALSFHMSP WSWSNCSRKY VTEFLDTGYG ECLLDKPDEE IYNLPSELPG
SRYDGNKQCE LAFGPGSQMC PHINICMHLW CTSTEKLHKG CFTQHVPPAD GTDCGPGMHC RHGLCVNKET ETRPVNGEWG PWEPYSSCSR TCGGGIESAT RRCNRPEPRN GGNYCVGRRM
KFRSCNTDSC PKGTQDFREK QCSDFNGKHL DISGIPSNVR WLPRYSGIGT KDRCKLYCQV AGTNYFYLLK DMVEDGTPCG TETHDICVQG QCMAAGCDHV LNSSAKIDKC GVCGGDNSSC
KTITGVFNSS HYGYNVVVKI PAGATNVDIR QYSYSGQPDD SYLALSDAEG NFLFNGNFLL STSKKEINVQ GTRTVIEYSG SNNAVERINS TNRQEKELIL QVLCVGNLYN PDVHYSFNIP
LEERSDMFTW DPYGPWEGCT KMCQGLQRRN ITCIHKSDHS VVSDKECDHL PLPSFVTQSC NTDCELRGML LAKKSECSSQ CGQGYRTLDI HCMKYSIHEG QTVQVDDHYC GDQLKPPTQE
LCHGNCVFTR WHYSEWSQCS RSCGGGERSR ESYCMNNFGH RLADNECQEL SRVTRENCNE FSCPSWAASE WSECLVTCGK GTKQRQVWCQ LNVDHLSDGF CNSSTKPESL SPCELHTCAS
WQVGPWGPCT TTCGHGYQMR DVKCVNELAS AVLEDTECHE ASRPSDRQSC VLTPCSFISK LETALLPTVL IKKMAQWRHG SWTPCSVSCG RGTQARYVSC RDALDRIADE SYCAHLPRPA
EIWDCFTPCG EWQAGDWSPC SASCGHGKTT RQVLCMNYHQ PIDENYCDPE VRPLMEQECS LAACPPAHSH FPSSPVQPSY YLSTNLPLTQ KLEDNENQVV HPSVRGNQWR TGPWGSCSSS
CSGGLQHTAV VCQDENGQSA SYCDAASKPP ELQQCGPGPC PQWNYGNWGE CSQTCGGGIK SRLVICQFPN GQILEDHNCE IVNKPPSVIQ CHMHACPADV SWHQEPWTSC SASCGKGRKY
REVFCIDQFQ RKLEDTNCSQ VQKPPTHKAC RSVRCPSWKA NSWNECSVTC GSGVQQRDVY CRLKGVGQVV EEMCDQSTRP CSQRRCWSQD CVQHKGMERG RLNCSTSCER KDSHQRMECT
DNQIRQVNEI VYNSSTISLT SKNCRNPPCN YIVVTADSSQ CANNCGFSYR QRITYCTEIP STKKHKLHRL RPIVYQECPV VPSSQVYQCI NSCLHLATWK VGKWSKCSVT CGIGIMKRQV
KCITKHGLSS DLCLNHLKPG AQKKCYANDC KSFTTCKEIQ VKNHIRKDGD YYLNIKGRII KIYCADMYLE NPKEYLTLVQ GEENFSEVYG FRLKNPYQCP FNGSRREDCE CDNGHLAAGY
TVFSKIRIDL TSMQIKTTDL LFSKTIFGNA VPFATAGDCY SAFRCPQGQF SINLSGTGMK ISSTAKWLTQ GSYTSVSIRR SEDGTRFFGK CGGYCGKCLP HMTTGLPIQV I