Matches in Nanopublications for { ?s ?p "The mitochondria have their own NOS (mtNOS), which may be attached to the mitochondrial inner membrane [Ghafourifar and Richter, [1997]; Richter et al., [1999]]. Mitochondrial NO has been shown to reversibly inhibit complex IV (COX), causing a reduction in mitochondrial potential and Ca++ release [Richter et al., [1997]]." ?g. }
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- _2 value "The mitochondria have their own NOS (mtNOS), which may be attached to the mitochondrial inner membrane [Ghafourifar and Richter, [1997]; Richter et al., [1999]]. Mitochondrial NO has been shown to reversibly inhibit complex IV (COX), causing a reduction in mitochondrial potential and Ca++ release [Richter et al., [1997]]." provenance.
- _3 value "The mitochondria have their own NOS (mtNOS), which may be attached to the mitochondrial inner membrane [Ghafourifar and Richter, [1997]; Richter et al., [1999]]. Mitochondrial NO has been shown to reversibly inhibit complex IV (COX), causing a reduction in mitochondrial potential and Ca++ release [Richter et al., [1997]]." provenance.
- _2 value "The mitochondria have their own NOS (mtNOS), which may be attached to the mitochondrial inner membrane [Ghafourifar and Richter, [1997]; Richter et al., [1999]]. Mitochondrial NO has been shown to reversibly inhibit complex IV (COX), causing a reduction in mitochondrial potential and Ca++ release [Richter et al., [1997]]." provenance.
- _3 value "The mitochondria have their own NOS (mtNOS), which may be attached to the mitochondrial inner membrane [Ghafourifar and Richter, [1997]; Richter et al., [1999]]. Mitochondrial NO has been shown to reversibly inhibit complex IV (COX), causing a reduction in mitochondrial potential and Ca++ release [Richter et al., [1997]]." provenance.