Biological process  Protein metabolism
 Molecular function  Metallopeptidase activity
 
Protein   ADAM metallopeptidase with thrombospondin type 1 motif, 9  Gene symbol   ADAMTS9
 
 Cellular component  
     
 
Component
Extracellular
 
   
 
Experimental evidence   
  Total number of studies : 2    
 
Peptide sequence Method Platform  Sample  Reference
Mass spectrometry Plasma Liu et al. 2007
Mass spectrometry IMS-TOF Plasma Valentine et al. 2006
 
   
 
 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
ACR   510 - 580
REP   293 - 499
TSP1   1501 - 1555
TSP1   1444 - 1499
TSP1   1385 - 1440
TSP1   1332 - 1384
TSP1   1242 - 1296
TSP1   1186 - 1240
TSP1   1110 - 1166
TSP1   1055 - 1104
TSP1   1000 - 1054
TSP1   881 - 936
TSP1   591 - 643
TSP1   1558 - 1613
SP   1 - 18
 
   
 
 External links  
     
 
HPRD UniProt NetPath 
05662  Q9P2N4  NetPath_M56999 
 
   
 
 
 Protein sequence  NP_891550.1
     
   
    MQFVSWATLL TLLVRDLAEM GSPDAAAAVR KDRLHPRQVK LLETLSEYEI VSPIRVNALG EPFPTNVHFK RTRRSINSAT DPWPAFASSS SSSTSSQAHY RLSAFGQQFL FNLTANAGFI
APLFTVTLLG TPGVNQTKFY SEEEAELKHC FYKGYVNTNS EHTAVISLCS GMLGTFRSHD GDYFIEPLQS MDEQEDEEEQ NKPHIIYRRS APQREPSTGR HACDTSEHKN RHSKDKKKTR
ARKWGERINL AGDVAALNSG LATEAFSAYG NKTDNTREKR THRRTKRFLS YPRFVEVLVV ADNRMVSYHG ENLQHYILTL MSIVASIYKD PSIGNLINIV IVNLIVIHNE QDGPSISFNA
QTTLKNFCQW QHSKNSPGGI HHDTAVLLTR QDICRAHDKC DTLGLAELGT ICDPYRSCSI SEDSGLSTAF TIAHELGHVF NMPHDDNNKC KEEGVKSPQH VMAPTLNFYT NPWMWSKCSR
KYITEFLDTG YGECLLNEPE SRPYPLPVQL PGILYNVNKQ CELIFGPGSQ VCPYMMQCRR LWCNNVNGVH KGCRTQHTPW ADGTECEPGK HCKYGFCVPK EMDVPVTDGS WGSWSPFGTC
SRTCGGGIKT AIRECNRPEP KNGGKYCVGR RMKFKSCNTE PCLKQKRDFR DEQCAHFDGK HFNINGLLPN VRWVPKYSGI LMKDRCKLFC RVAGNTAYYQ LRDRVIDGTP CGQDTNDICV
QGLCRQAGCD HVLNSKARRD KCGVCGGDNS SCKTVAGTFN TVHYGYNTVV RIPAGATNID VRQHSFSGET DDDNYLALSS SKGEFLLNGN FVVTMAKREI RIGNAVVEYS GSETAVERIN
STDRIEQELL LQVLSVGKLY NPDVRYSFNI PIEDKPQQFY WNSHGPWQAC SKPCQGERKR KLVCTRESDQ LTVSDQRCDR LPQPGHITEP CGTDCDLRWH VASRSECSAQ CGLGYRTLDI
YCAKYSRLDG KTEKVDDGFC SSHPKPSNRE KCSGECNTGG WRYSAWTECS KSCDGGTQRR RAICVNTRND VLDDSKCTHQ EKVTIQRCSE FPCPQWKSGD WSECLVTCGK GHKHRQVWCQ
FGEDRLNDRM CDPETKPTSM QTCQQPECAS WQAGPWGQCS VTCGQGYQLR AVKCIIGTYM SVVDDNDCNA ATRPTDTQDC ELPSCHPPPA APETRRSTYS APRTQWRFGS WTPCSATCGK
GTRMRYVSCR DENGSVADES ACATLPRPVA KEECSVTPCG QWKALDWSSC SVTCGQGRAT RQVMCVNYSD HVIDRSECDQ DYIPETDQDC SMSPCPQRTP DSGLAQHPFQ NEDYRPRSAS
PSRTHVLGGN QWRTGPWGAC SSTCAGGSQR RVVVCQDENG YTANDCVERI KPDEQRACES GPCPQWAYGN WGECTKLCGG GIRTRLVVCQ RSNGERFPDL SCEILDKPPD REQCNTHACP
HDAAWSTGPW SSCSVSCGRG HKQRNVYCMA KDGSHLESDY CKHLAKPHGH RKCRGGRCPK WKAGAWSQCS VSCGRGVQQR HVGCQIGTHK IARETECNPY TRPESERDCQ GPRCPLYTWR
AEEWQECTKT CGEGSRYRKV VCVDDNKNEV HGARCDVSKR PVDRESCSLQ PCEYVWITGE WSECSVTCGK GYKQRLVSCS EIYTGKENYE YSYQTTINCP GTQPPSVHPC YLRDCPVSAT
WRVGNWGSCS VSCGVGVMQR SVQCLTNEDQ PSHLCHTDLK PEERKTCRNV YNCELPQNCK EVKRLKGASE DGEYFLMIRG KLLKIFCAGM HSDHPKEYVT LVHGDSENFS EVYGHRLHNP
TECPYNGSRR DDCQCRKDYT AAGFSSFQKI RIDLTSMQII TTDLQFARTS EGHPVPFATA GDCYSAAKCP QGRFSINLYG TGLSLTESAR WISQGNYAVS DIKKSPDGTR VVGKCGGYCG
KCTPSSGTGL EVRVL