ROS, RNS production in phagocytes - Wikidata - awgldk - TriplyDB

ROS, RNS production in phagocytes

ROS, RNS production in phagocytes

http://www.wikidata.org/entity/Q45317103

about

Nitric oxide oxidizes to nitrosyl ion Nitric oxide diffuses into the phagosome Nitric oxide enters the bacterium Intraphagosomal pH is lowered to 5 by V-ATPase Protonation of superoxide Hydroperoxyl enters the bacterium Peroxynitrite enters the bacterium Peroxynitrite oxidizes methionine residues Glutathione scavenges nitrosyl

P361

Innate Immune System

P527

Q50292406-7EE8BECB-6200-424A-A2F9-388F4BCBC3CD Q50292407-DC860B00-0572-4FCF-A2D1-3595EA490B58 Q50292408-E856E297-FDFE-4219-89CB-080057B4F4D7 Q50292409-EB1B6D8C-4D32-404E-81D4-6DEFA2298CDC Q50292410-3138081B-5559-45E4-9E52-F527B01D5E26 Q50292411-6976AEC7-C6FC-4A7B-97B3-D02A8B0D209D Q50292412-E9C78030-B630-47D0-AF01-27A96B2A0E4D Q50292413-5BC2E08D-E02A-472F-B4A4-603C22352EC3 Q50292414-3F8ADF84-1AFC-4D61-8286-EE99338CDE2A

P361

Q45316977-73A16F42-4296-462B-B90B-1231B92D7077

P527

ROS, RNS production in phagocytes

http://www.wikidata.org/entity/Q45317103

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

P2860

Q45317103-EECCDC8F-840A-477A-8DF7-AD039B50253A

Q45317103-F997E2C1-FA71-4D63-ABE7-3B2298A84888

P2888

Q45317103-41CFDD33-A3DC-4380-9BFF-7BBA044AD110

P31

Q45317103-1318AE18-8670-45D6-B7C7-BFE49B73D6F6

Q45317103-7021EB51-1FB2-4E60-85C8-8C1C175A6E00

P361

Q45317103-9462FC5A-7381-419F-8C6E-4C77C4C79D3F

P3937

Q45317103-2FB22AE2-2F7F-40D6-BBB6-B11EB0571069

P527

Q45317103-0CC495D3-76A5-4D29-AF93-7482578F7D5F

Q45317103-2D7009A9-3758-4BBE-B45C-9A88A3DADE3D

Q45317103-3D58D0E0-2333-435E-9894-17B4F12D311C

Q45317103-42552AFF-6843-4C0A-AAAA-F8A1224FA7DD

Q45317103-50082A05-47E1-4BBE-AE5B-DAB0195A28C7

Q45317103-5E0F8CAD-5C1D-487D-B10A-115541B633BA

Q45317103-66ABC36F-DB9B-47C4-A38B-46C157B40ED5

Q45317103-BE95FC6B-808D-4025-AD7B-C1A8E7E66EFE

Q45317103-D6062AAA-1212-4D13-AF69-E9C0505E851B

Q45317103-E948B6A3-6182-431B-BC0A-570448F474F7

P703

Q45317103-424B1C46-1C44-4593-BAB1-5D67F9D5A186

P2860

Antimicrobial mechanisms of phagocytes and bacterial evasion strategies.

Reactive oxygen species in the immune system.

P2888

reactome:R-HSA-1222556

P31

cell redox homeostasis

biological pathway

P361

Innate Immune System

P3937

R-HSA-1222556

http://www.w3.org/2001/XMLSchema#string

P527

NOX2 generates superoxide from oxygen

Superoxide and nitric oxide react to peroxynitrite

Nitric Oxide Synthase (NOS) produces Nitric Oxide (NO)

NRAMP1 transports divalent metal ions across phagosomal membranes of macrophages

Nitric oxide oxidizes to nitrosyl ion

Nitric oxide diffuses into the phagosome

Nitric oxide enters the bacterium

Intraphagosomal pH is lowered to 5 by V-ATPase

Protonation of superoxide

Hydroperoxyl enters the bacterium

P703