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On the mechanism of sodium ion translocation by methylmalonyl-CoA decarboxylase from Veillonella alcalescens.

  • Hilpert W Mikrobiologisches Institut der Eidgenössischen Technischen Hochschule, ETH-Zentrum, Zürich, Switzerland.
  • Dimroth P
  • 1991-01-01
Published in:
  • European journal of biochemistry. - 1991
Carboxy-Lyases
Kinetics
Liposomes
Methylmalonyl-CoA Decarboxylase
Models, Biological
Proteolipids
Sodium
Veillonella
English Veillonella alcalescens during lactate degradation developed an Na+ concentration gradient with 7-8 times higher external than internal Na+ concentrations in the logarithmic growth phase. The gradient declined to a factor of 1.9 in the late stationary phase. Methylmalonyl-CoA decarboxylase reconstituted into proteoliposomes performed an active electrogenic Na+ transport, creating delta psi of 60 mV, delta pNa+ of 50 mV, and delta mu Na+ of 110 mV. In the initial phase of the transport, the decarboxylase catalyzed the uptake of 2 Na+ ions malonyl-CoA molecule decarboxylated. During further development of the electrochemical Na+ gradient, this ratio gradually declined to zero, when decarboxylation continued without further increase of the internal Na+ concentration. The rate of malonyl-CoA decarboxylation declined initially during development of the membrane potential, but remained unchanged later on. Monensin abolished the Na+ gradient and increased the malonyl-CoA decarboxylation rate 2.8-fold. On dissipating the membrane potential with valinomycin, the internal Na+ concentration reached three times higher values than in its absence, and the decarboxylation rate increased 2.8-fold. Methylmalonyl-CoA decarboxylase catalyzed an exchange of internal and external Na+ ions in addition to net Na+ accumulation. The initial rate of Na+ influx was double that of malonyl-CoA decarboxylation. In the following, both rates decreased about twofold in parallel to values which remained constant during further development of the electrochemical Na+ gradient. Thus, Na+ influx and malonyl-CoA decarboxylation follow a stoichiometry of approximately 2:1, independent of the magnitude of the electrochemical Na+ gradient and are thus highly coupled events.
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  • English
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https://sonar.rero.ch/global/documents/190984
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