about
Glutamate-cysteine ligase modifier subunitChaC glutathione specific gamma-glutamylcyclotransferase 2ChaC glutathione specific gamma-glutamylcyclotransferase 1Carnosine dipeptidase 2Hydroxyacylglutathione hydrolaseGamma-glutamyltransferase 1Glutamate-cysteine ligase catalytic subunitPutative gamma-glutamyltranspeptidase 3Gamma-glutamyltransferase 5Gamma-glutamylcyclotransferaseGamma-glutamyltransferase 7Microsomal glutathione S-transferase 2Gamma-glutamyltransferase 6Glutamate--cysteine ligase BU407Glutathione synthetase BU547Glutathione synthetase FTT_0926Glutamate--cysteine ligase FTT_0367cGamma-glutamyltransferase 1Gamma-glutamyltransferase 5Hydroxyacyl glutathione hydrolaseGamma-glutamyltransferase 6Gamma-glutamyltransferase 7Glutathione synthetaseGlutamate-cysteine ligase, modifier subunitGlutamate-cysteine ligase, catalytic subunitGlutathione synthetase ECIAI39_3365Glutamate--cysteine ligase ECIAI39_2878Hypothetical protein Rv3304Hypothetical protein Rv0923cGlutathione synthetase NMB1559Glutamate--cysteine ligase PP_0243Glutathione synthetase PP_4993Glutathione synthetase lpg1846glutamate--cysteine ligase YPO3301Gamma-glutamylcyclotransferaseGlutathione synthetase5-oxoprolinase, ATP-hydrolysingGlutamate--cysteine ligase PA5203Glutathione synthetase PA0407Putative glutathione synthetase RSP_1005
P682
A novel missense mutation in the gamma-glutamylcysteine synthetase catalytic subunit gene causes both decreased enzymatic activity and glutathione productionPolymorphism in the 5'-flanking region of human glutamate-cysteine ligase modifier subunit gene is associated with myocardial infarctionMolecular cloning, heterologous expression, and characterization of human glyoxalase II
P921
Q21102186-049BF1E2-ED79-491A-9D8A-C9E964CFC10AQ21102186-7FBB0FEF-15A6-4B59-A88A-F78C0AF9E34FQ21102186-A762667F-55FB-43C4-A6B0-19D4AF3FAA29Q21102304-BD569052-94CB-45BB-A7EB-D5CAA98CC4E7Q21102305-47CF85D8-58DA-47DE-86F6-4E1503D8EC3BQ21105684-51DF976B-F41E-442D-ADDA-C64454ABEE4CQ21106164-FF6EB101-FDDB-497C-88D9-4330F09BAD3FQ21114607-085F61CE-5766-47CD-914C-3D0AD0B588D6Q21119010-64A7A8F3-19CE-40FF-998D-C43BCFA47328Q21119010-9CB911C7-5176-4828-AB9E-C5F20A0B3E06Q21119010-AC964186-E070-469E-BED9-939740E250FCQ21132643-9E68BC73-F7EB-4B77-A70D-26493C4DC1D1Q21139809-E86134D0-EF8C-43E7-BE07-907346B5EE1EQ21140276-14D62E4F-C8BC-4C59-9F86-32AEB65260CCQ21156457-8B45620C-3C3C-407E-8924-81FECED863EFQ21158847-DC314996-4DE1-4387-BA08-DD9B0BC28DD1Q21173472-31CADF9D-2D9B-43DB-96D8-D80EBE195A36Q21599694-1727207C-E0F5-4CA9-963B-02E048029BDDQ21599886-9AF3617A-BEFA-46A3-AD45-84B761183154Q21631404-111264AD-6AE5-498D-BAF5-EAABE233C410Q21631579-D52D36E4-596C-428D-A625-E086B1EC1BC2Q21982090-231C5A38-385B-4536-AEED-F9256A7A7636Q21982108-EB71D551-0D48-4E5B-80EA-5A797136A053Q21984271-41AEEA4F-756A-4FCD-B6D4-48C2567C2CD6Q21984852-5BC49B7F-991D-4DFC-80AC-5FBA4BF0AF6FQ21984855-F7BF9E91-C856-49D9-B1C4-39CB3E4A10E1Q21985411-370F9B2C-A418-4AE8-882F-32B90C442E32Q21985413-9355C32C-22E3-49C4-AD27-A6BE1F9926F8Q21985413-FCCD14CF-9A94-48BA-B662-86F64A5B6BADQ21985414-04DC43D9-5CB6-4D0B-823A-38F868955D8DQ21985414-A48C0BE2-2F81-451F-8CA9-7B669F3F4AB4Q22135100-364C067A-478A-42BC-883E-07EF43B3BBF5Q22161836-2909B130-BA1E-463F-98D1-BF35F53396ECQ22233366-5A5FAF71-BFCB-4E30-96CD-0FE2190DD173Q22234496-C0BC1A8E-3819-413D-B146-1F161566D52CQ22270304-129B3373-4D8D-4F25-8968-AA5D89774E44Q22313997-E96EE4B2-4863-4420-8743-AF73ED1F667AQ22316902-31E3068C-34AB-4F7F-9EE6-4F7743513A98Q22335472-9AF6AD94-FAEB-4D73-AE33-D7B40A35230DQ22574740-50A71F70-D61E-4CDA-93AB-9ED220795A93
P682
description
The chemical reactions and pat ...... ps in enzymes and other protei
@en
biologisch proces
@nl
name
glutathione biosynthetic process
@en
type
label
glutathione biosynthetic process
@en
altLabel
GO:0006750
@en
glutathione anabolism
@en
glutathione biosynthesis
@en
glutathione formation
@en
glutathione synthesis
@en
prefLabel
glutathione biosynthetic process
@en
P279
P279
P2888
P527
P686
GO:0006750