about
Nitric oxide oxidizes to nitrosyl ionNitric oxide diffuses into the phagosomeNitric oxide enters the bacteriumIntraphagosomal pH is lowered to 5 by V-ATPaseProtonation of superoxideHydroperoxyl enters the bacteriumPeroxynitrite enters the bacteriumPeroxynitrite oxidizes methionine residuesGlutathione scavenges nitrosyl
P361
Q50292406-7EE8BECB-6200-424A-A2F9-388F4BCBC3CDQ50292407-DC860B00-0572-4FCF-A2D1-3595EA490B58Q50292408-E856E297-FDFE-4219-89CB-080057B4F4D7Q50292409-EB1B6D8C-4D32-404E-81D4-6DEFA2298CDCQ50292410-3138081B-5559-45E4-9E52-F527B01D5E26Q50292411-6976AEC7-C6FC-4A7B-97B3-D02A8B0D209DQ50292412-E9C78030-B630-47D0-AF01-27A96B2A0E4DQ50292413-5BC2E08D-E02A-472F-B4A4-603C22352EC3Q50292414-3F8ADF84-1AFC-4D61-8286-EE99338CDE2A
P361
description
An instance of the biological pathway ROS; RNS production in phagocytes in Homo sapiens
@en
name
ROS, RNS production in phagocytes
@en
type
label
ROS, RNS production in phagocytes
@en
prefLabel
ROS, RNS production in phagocytes
@en
P527
P2860
P3937
R-HSA-1222556