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Data for "The low energy-coupling respiration in Zymomonas mobilis accelerates flux in the Entner-Doudoroff pathway "

Harvard Dataverse (Africa Rice Center, Bioversity International, CCAFS, CIAT, IFPRI, IRRI and WorldFish)

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Title Data for "The low energy-coupling respiration in Zymomonas mobilis accelerates flux in the Entner-Doudoroff pathway "
 
Identifier https://doi.org/10.7910/DVN/6SNGNA
 
Creator Rutkis, Reinis
 
Publisher Harvard Dataverse
 
Description Performing oxidative phosphorylation is the primary role of respiratory chain both in bacteria and eukaryotes. Yet, the branched respiratory chains of prokaryotes contain alternative, low energy-coupling electron pathways, which serve for functions other than oxidative ATP generation (like those of respiratory protection, adaptation to low-oxygen media, redox balancing, etc.), some of which are still poorly understood. We here demonstrate that withdrawal of reducing equivalents by the active, yet energetically uncoupled respiratory chain of the bacterium Zymomonas mobilis accelerates its fermentative catabolism, increasing the glucose consumption rate, in contrast to what has been observed in other respiring bacteria and yeast. This effect takes place after air is introduced to glucose-consuming anaerobic cell suspension, and can be simulated using a kinetic model of the Entner-Doudoroff (E-D) pathway in combination with a simple net reaction of NADH oxidation that does not involve oxidative phosphorylation. Although aeration hampers batch growth of respiring Z. mobilis culture due to accumulation of toxic byproducts, nevertheless under non-growing conditions respiration is shown to confer an adaptive advantage for the wild type over the non-respiring Ndh knock-out mutant. If cells get occasional access to limited amount of glucose for short periods of time, the elevated glucose uptake rate selectively improves starvation survival of the respiring Z. mobilis phenotype.
 
Subject Medicine, Health and Life Sciences
 
Contributor Rutkis, Reinis