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Field	Query

	Field	Term

General Information:

Id:	591 (click here to show other Interactions for entry)
Diseases:	Amyotrophic lateral sclerosis
Organism:	Homo sapiens
Tissue/Cell line:	BTO:0004488 NSC-34 cell
Publication type:	article
Reference:	Ferri A et al.(2006) Familial ALS-superoxide dismutases associate with mitochondria and shift their redox potentials Proc. Natl. Acad. Sci. U.S.A. 103 [PMID: 16945901]

Interaction Information:

Comment	MutSOD1s themselves may contribute to creating a prooxidant environment, because expression of many of the mutSOD1s was found to shift the GSH/GSSG ratio toward the oxidized form in mitochondria of motoneuronal cells, irrespective of the basal level.
Formal Description Interaction-ID: 3116	gene/protein mutant SOD1-p.H46R increases_activity of process response to oxidative stress in mitochondria

Comment	MutSOD1s themselves may contribute to creating a prooxidant environment, because expression of many of the mutSOD1s was found to shift the GSH/GSSG ratio toward the oxidized form in mitochondria of motoneuronal cells, irrespective of the basal level.
Formal Description Interaction-ID: 13773	gene/protein mutant SOD1-p.H80R increases_activity of process response to oxidative stress in mitochondria

Comment	MutSOD1s themselves may contribute to creating a prooxidant environment, because expression of many of the mutSOD1s was found to shift the GSH/GSSG ratio toward the oxidized form in mitochondria of motoneuronal cells, irrespective of the basal level.
Formal Description Interaction-ID: 13778	gene/protein mutant SOD1-p.D124V increases_activity of process response to oxidative stress in mitochondria

Comment	MutSOD1s themselves may contribute to creating a prooxidant environment, because expression of many of the mutSOD1s was found to shift the GSH/GSSG ratio toward the oxidized form in mitochondria of motoneuronal cells, irrespective of the basal level.
Formal Description Interaction-ID: 13783	gene/protein mutant SOD1-p.G85R increases_activity of process response to oxidative stress in mitochondria

Comment	MutSOD1s themselves may contribute to creating a prooxidant environment, because expression of many of the mutSOD1s was found to shift the GSH/GSSG ratio toward the oxidized form in mitochondria of motoneuronal cells, irrespective of the basal level.
Formal Description Interaction-ID: 13788	gene/protein mutant SOD1-p.A4V increases_activity of process response to oxidative stress in mitochondria

Comment	MutSOD1s themselves may contribute to creating a prooxidant environment, because expression of many of the mutSOD1s was found to shift the GSH/GSSG ratio toward the oxidized form in mitochondria of motoneuronal cells, irrespective of the basal level.
Formal Description Interaction-ID: 13793	gene/protein mutant SOD1-p.G93A increases_activity of process response to oxidative stress in mitochondria

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