In this paper we introduce monobromobimane, a thiol reagent, as a selective blocker of the recently identified dithiol whose oxidation-reduction status modifies voltage sensing by the mitochondrial permeability transition pore, a cyclosporin A-sensitive channel. Monobromobimane does not inhibit the phosphate carrier, nor does it interfere with Ca2+ transport, energy coupling or ATP production and transport, We show that monobromobimane selectively prevents the shift in pore gating potential caused by some dithiol oxidants or crosslinkers but not by increasing [Ca2+], allowing a clear distinction of the pore agonists which act at this site.
SELECTIVE-INHIBITION OF THE MITOCHONDRIAL PERMEABILITY TRANSITION PORE AT THE OXIDATION-REDUCTION SENSITIVE DITHIOL BY MONOBROMOBIMANE
PETRONILLI V;
1995
Abstract
In this paper we introduce monobromobimane, a thiol reagent, as a selective blocker of the recently identified dithiol whose oxidation-reduction status modifies voltage sensing by the mitochondrial permeability transition pore, a cyclosporin A-sensitive channel. Monobromobimane does not inhibit the phosphate carrier, nor does it interfere with Ca2+ transport, energy coupling or ATP production and transport, We show that monobromobimane selectively prevents the shift in pore gating potential caused by some dithiol oxidants or crosslinkers but not by increasing [Ca2+], allowing a clear distinction of the pore agonists which act at this site.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
