Intramembrane cleavage of AMA1 triggers Toxoplasma to switch from an invasive to a replicative mode.
about
The roles of intramembrane proteases in protozoan parasitesShedding of TRAP by a rhomboid protease from the malaria sporozoite surface is essential for gliding motility and sporozoite infectivityHost cell invasion by apicomplexan parasites: insights from the co-structure of AMA1 with a RON2 peptideBabesia divergensandNeospora caninumapical membrane antigen 1 structures reveal selectivity and plasticity in apicomplexan parasite host cell invasionLarge Lateral Movement of Transmembrane Helix S5 Is Not Required for Substrate Access to the Active Site of Rhomboid Intramembrane ProteaseConformational Change in Rhomboid Protease GlpG Induced by Inhibitor Binding to Its S′ SubsitesApical membrane antigen 1 mediates apicomplexan parasite attachment but is dispensable for host cell invasion.Ectopic expression of a Neospora caninum Kazal type inhibitor triggers developmental defects in Toxoplasma and PlasmodiumStructure and mechanism of rhomboid proteaseIdentification and characterization of Eimeria tenella apical membrane antigen-1 (AMA1)ROP18 is a key factor responsible for virulence difference between Toxoplasma gondii and Neospora caninum.Plasmodium protease ROM1 is important for proper formation of the parasitophorous vacuole.Juxtamembrane shedding of Plasmodium falciparum AMA1 is sequence independent and essential, and helps evade invasion-inhibitory antibodiesLoss-of-function analyses defines vital and redundant functions of the Plasmodium rhomboid protease family.Functional analysis of rhomboid proteases during Toxoplasma invasion.Comparative in-silico genome analysis of Leishmania (Leishmania) donovani: A step towards its species specificity.Protective immunity induced by peptides of AMA1, RON2 and RON4 containing T-and B-cell epitopes via an intranasal route against toxoplasmosis in mice.Quantitative time-course profiling of parasite and host cell proteins in the human malaria parasite Plasmodium falciparum.Expression, Purification, and Biological Characterization of Babesia microti Apical Membrane Antigen 1.Catalytic mechanism of rhomboid protease GlpG probed by 3,4-dichloroisocoumarin and diisopropyl fluorophosphonate.Intramembrane proteolysis of Toxoplasma apical membrane antigen 1 facilitates host-cell invasion but is dispensable for replication.The moving junction, a key portal to host cell invasion by apicomplexan parasites.Intramembrane protease PARL defines a negative regulator of PINK1- and PARK2/Parkin-dependent mitophagyGlobal Analysis of Palmitoylated Proteins in Toxoplasma gondii.Glycoproteins and Gal-GalNAc cause Cryptosporidium to switch from an invasive sporozoite to a replicative trophozoiteImmunization with apical membrane antigen 1 confers sterile infection-blocking immunity against Plasmodium sporozoite challenge in a rodent model.Inside scoop on outside proteins.Invasion factors are coupled to key signalling events leading to the establishment of infection in apicomplexan parasites.The moving junction of apicomplexan parasites: a key structure for invasion.Functional genetics in Apicomplexa: potentials and limits.Intramembrane proteolysis in regulated protein trafficking.Focus on the ringleader: the role of AMA1 in apicomplexan invasion and replication.Proteases as regulators of pathogenesis: examples from the Apicomplexa.Rhomboid proteases in plants - still in square one?The rhomboid protease family: a decade of progress on function and mechanism.Structural and mechanistic principles of intramembrane proteolysis--lessons from rhomboids.Architectural and thermodynamic principles underlying intramembrane protease function.Entamoeba histolytica rhomboid protease 1 has a role in migration and motility as validated by two independent genetic approaches.Distinct contribution of Toxoplasma gondii rhomboid proteases 4 and 5 to micronemal protein protease 1 activity during invasion.Rhomboid proteases in invasion and replication of Apicomplexa.
P2860
Q26829687-82B8677A-D1E1-4516-B75F-80C39F993A82Q27345395-0B6EAF43-029D-4359-9707-C91E65C696CDQ27670931-6C717AA3-CC5F-41BD-8422-5E042F876A86Q27675189-F7A200B5-3820-4D06-A6D2-5C487A505B75Q27677496-69EF2332-5F66-491E-954C-D11A9A4FB05FQ27678610-39DB7554-5515-41DA-8503-3F72B3335D85Q27973517-2EA57880-84FB-4D14-BF54-ACDB051548D9Q28544968-369F23EB-EEC8-47CB-9EC1-8FCA27FBDFEBQ30429374-58A9C6B0-0108-4E4C-8A5C-C60E29505FC5Q31075939-955BCF97-CA29-4048-B5CE-9BA1477102A4Q33753887-BED8BB59-5F49-4C53-91DC-A617520445BCQ34016204-12F223FA-CB28-4CF6-959F-69E0578B607FQ34109788-4ECEBDBF-4F56-45A4-80E2-1CBA0721256CQ34332951-444A6311-E981-49B7-AB5A-C328C6653A41Q34420141-95B68616-0447-4B53-AD74-20A755890C64Q34879257-AB0AFB06-C8E7-4FB3-915C-779C9A2EC063Q34979036-9F3E33D3-58BD-49B2-A996-48D1DBFE02B2Q35144125-FF50C07B-F508-497E-B5F4-DB254A31510AQ35701584-4D4890C8-970E-430A-B526-A7F392BC7A48Q35728121-76862188-E8F1-4443-8B9D-38AC9B16BFDFQ35982965-A3859AA0-935B-4CB7-9D60-210A3F18F5BAQ36070086-B744FA7F-1F32-49CE-9847-CB957A0585DDQ36111814-2FA75428-B1CC-4E2B-AD05-53CDA2F66262Q36412532-088F01A1-3B5E-4958-841E-7E962D7CC4D2Q36447701-487481A3-F242-4CF6-9FB9-650AB137D1F1Q37264651-644B7005-D79D-453B-BD60-D10C48D2178AQ37643881-DFE608B9-07A6-44E2-9D52-FA70A08B9F8EQ37845443-8E0AE9A8-AFED-40CB-9C0D-B09CAC0E9E7FQ37871026-1201B9AC-9A54-46D0-83C0-290C3E512439Q37873986-EB83EBD0-7623-4B95-90F4-1F783DB8DF52Q37876486-E54C9EB5-90AD-420F-A41A-31FFA27906C2Q37887281-297A0FE0-BCF2-4331-809B-4CF883DB975AQ37891227-4C033F5C-350D-4637-96FD-AC69A29065E3Q37946954-88B50176-0786-446A-83D7-8197853273B8Q37950553-C09733EB-318F-4C1D-977F-83A251503362Q38083850-932D0090-7B3D-4870-AF0F-9A967A08C08AQ39810882-06A86B22-5391-43E2-B165-AF43B36B03BDQ41100689-1BA88737-E27A-42E0-B72E-6C901E782C66Q41110139-527FED63-5D6B-4ADB-9F50-24296FA6FE4FQ41295708-6C67F562-07F9-4C6F-A4A1-97F81E801492
P2860
Intramembrane cleavage of AMA1 triggers Toxoplasma to switch from an invasive to a replicative mode.
description
2010 nî lūn-bûn
@nan
2010 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@ast
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@en
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@nl
type
label
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@ast
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@en
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@nl
prefLabel
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@ast
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@en
Intramembrane cleavage of AMA1 ...... nvasive to a replicative mode.
@nl
P2860
P356
P1433
P1476
Intramembrane cleavage of AMA1 ...... invasive to a replicative mode
@en
P2093
Joana M Santos
Michael J Blackman
P2860
P304
P356
10.1126/SCIENCE.1199284
P407
P577
2010-12-23T00:00:00Z