Statements in which the resource exists as a subject.
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biopax3:comment
Edited: Jupe, S, 2009-11-03, The GPVI receptor is a complex of the GPVI protein with Fc epsilon R1 gamma (FcR). The Src family kinases Fyn and Lyn constitutively associate with the GPVI-FcR complex in platelets and initiate platelet activation through phosphorylation of the immunoreceptor tyrosine-based activation motif (ITAM) in the FcR gamma chain, leading to binding and activation of the tyrosine kinase Syk. Downstream of Syk, a series of adapter molecules and effectors lead to platelet activation. <br><br>The GPVI receptor signaling cascade is similar to that of T- and B-cell immune receptors, involving the formation of a signalosome composed of adapter and effector proteins. At the core of the T-cell receptor signalosome is the transmembrane adapter LAT and two cytosolic adapters SLP-76 and Gads. While LAT is essential for signalling to PLCgamma1 downstream of the T-cell receptor, the absence of LAT in platelets only impairs the activation of PLCgamma2, the response to collagen and GPVI receptor ligands remains sufficient to elicit a full aggregation response. In contrast, GPVI signalling is almost entirely abolished in the absence of SLP-76.
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GPVI-mediated activation cascade
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biopax3:pathwayComponent
http://www.reactome.org/biopax/48887BiochemicalReaction715, http://www.reactome.org/biopax/48887BiochemicalReaction913, http://www.reactome.org/biopax/48887BiochemicalReaction914, http://www.reactome.org/biopax/48887BiochemicalReaction915, http://www.reactome.org/biopax/48887BiochemicalReaction916, http://www.reactome.org/biopax/48887BiochemicalReaction917, http://www.reactome.org/biopax/48887BiochemicalReaction918, http://www.reactome.org/biopax/48887BiochemicalReaction919, http://www.reactome.org/biopax/48887BiochemicalReaction920, http://www.reactome.org/biopax/48887BiochemicalReaction921, http://www.reactome.org/biopax/48887BiochemicalReaction922, http://www.reactome.org/biopax/48887BiochemicalReaction923, http://www.reactome.org/biopax/48887BiochemicalReaction924, http://www.reactome.org/biopax/48887BiochemicalReaction925, http://www.reactome.org/biopax/48887BiochemicalReaction926, http://www.reactome.org/biopax/48887BiochemicalReaction927, http://www.reactome.org/biopax/48887BiochemicalReaction928, http://www.reactome.org/biopax/48887BiochemicalReaction929, http://www.reactome.org/biopax/48887BiochemicalReaction930, http://www.reactome.org/biopax/48887BiochemicalReaction931, http://www.reactome.org/biopax/48887BiochemicalReaction932
biopax3:pathwayOrder
http://www.reactome.org/biopax/48887PathwayStep1162, http://www.reactome.org/biopax/48887PathwayStep1161, http://www.reactome.org/biopax/48887PathwayStep1155, http://www.reactome.org/biopax/48887PathwayStep1157, http://www.reactome.org/biopax/48887PathwayStep1156, http://www.reactome.org/biopax/48887PathwayStep1163, http://www.reactome.org/biopax/48887PathwayStep1164, http://www.reactome.org/biopax/48887PathwayStep1148, http://www.reactome.org/biopax/48887PathwayStep1149, http://www.reactome.org/biopax/48887PathwayStep1153, http://www.reactome.org/biopax/48887PathwayStep1145, http://www.reactome.org/biopax/48887PathwayStep1154, http://www.reactome.org/biopax/48887PathwayStep1147, http://www.reactome.org/biopax/48887PathwayStep1160, http://www.reactome.org/biopax/48887PathwayStep1146, http://www.reactome.org/biopax/48887PathwayStep1150, http://www.reactome.org/biopax/48887PathwayStep1152, http://www.reactome.org/biopax/48887PathwayStep1151, http://www.reactome.org/biopax/48887PathwayStep1159, http://www.reactome.org/biopax/48887PathwayStep1158