Amiloride, a specific inhibitor for the Na+-driven flagellar motors of alkalophilic Bacillus.
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چکیده
منابع مشابه
Intracellular Na+ kinetically interferes with the rotation of the Na(+)-driven flagellar motors of Vibrio alginolyticus.
To understand the mechanism of Na+ movement through the force-generating units of the Na(+)-driven flagellar motors of Vibrio alginolyticus, the effect of intracellular Na+ concentration on motor rotation was investigated. Control cells containing about 50 mM Na+ showed good motility even at 10 mM Na+ in the medium, i.e. in the absence of an inwardly directed Na+ gradient. In contrast, Na(+)-lo...
متن کاملSuccessive inactivation of the force-generating units of sodium-driven bacterial flagellar motors by a photoreactive amiloride analog.
Like amiloride, 6-iodoamiloride (6-IA) competitively and reversibly inhibits rotation of the Na(+)-driven flagellar motors of alkalophilic Bacillus cells. However, when 6-IA-treated cells are irradiated with UV light, motility is irreversibly inhibited. This treatment does not alter the membrane potential or affect Na(+)-coupled alpha-aminoisobutyrate transport. An increase in the Na+ concentra...
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The bacterial flagellar motor is a rotary motor in the cell envelope of bacteria that couples ion flow across the cytoplasmic membrane to torque generation by independent stators anchored to the cell wall. The recent observation of stepwise rotation of a Na(+)-driven chimeric motor in Escherichia coli promises to reveal the mechanism of the motor in unprecedented detail. We measured torque-spee...
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Bacterial flagellar motors are molecular machines powered by the electrochemical potential gradient of specific ions across the membrane. Bacteria move using rotating helical flagellar filaments. The flagellar motor is located at the base of the filament and is buried in the cytoplasmic membrane. Flagellar motors are classified into two types according to the coupling ion: namely the H(+)-drive...
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Amiloride-sensitive sodium channels have been implicated in reproductive and early developmental processes of several species. These include the fast block of polyspermy in Xenopus oocytes that follows the sperm binding to the egg or blastocoel expansion in mammalian embryo. We have now identified a gene called dGNaC1 that is specifically expressed in the gonads and early embryo in Drosophila m...
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ژورنال
عنوان ژورنال: Journal of Biological Chemistry
سال: 1988
ISSN: 0021-9258
DOI: 10.1016/s0021-9258(18)68465-0