Title : Molecular manipulations of extracellular superoxide dismutase: functional importance for learning.

Pub. Date : 1998 Sep

PMID : 9926619






5 Functional Relationships(s)
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Sentence
Compound Name
Protein Name
Organism
1 Extracellular superoxide dismutase (EC-SOD) controls the availability of extracellular superoxide (O2.-), which is important for a variety of physiological pathways, including the primary means of inactivating nitric oxide (NO). Superoxides superoxide dismutase 3, extracellular Mus musculus
2 Extracellular superoxide dismutase (EC-SOD) controls the availability of extracellular superoxide (O2.-), which is important for a variety of physiological pathways, including the primary means of inactivating nitric oxide (NO). Superoxides superoxide dismutase 3, extracellular Mus musculus
3 Extracellular superoxide dismutase (EC-SOD) controls the availability of extracellular superoxide (O2.-), which is important for a variety of physiological pathways, including the primary means of inactivating nitric oxide (NO). Superoxides superoxide dismutase 3, extracellular Mus musculus
4 The current finding that EC-SOD levels that were either higher or lower than controls impaired learning demonstrates that the proper control of brain extracellular O2.- may be more vital than merely reduction of brain extracellular O2.- in maintaining adequate learning function. Superoxides superoxide dismutase 3, extracellular Mus musculus
5 The current finding that EC-SOD levels that were either higher or lower than controls impaired learning demonstrates that the proper control of brain extracellular O2.- may be more vital than merely reduction of brain extracellular O2.- in maintaining adequate learning function. Superoxides superoxide dismutase 3, extracellular Mus musculus