Add to ORKGThe mechanism of metabolic energy generation by malolactic fermentation was studied with artificial membrane vesicles of Leuconostoc oenos (Oenococcus oeni). (Note that although L. oenos was recently reclassified as O. oeni, the old designation was kept in the present work.) Purified malolactic enzyme was entrapped in artificial membrane vesicles prepared from L. oenos cells able to transport L-malate. We show that the in vitro reconstituted system, including an electrogenic L-malate carrier and the decarboxylating malolactic enzyme, generated a proton motive force that was able to drive intravesicular accumulation of leucine.
Lactobacillus sanfrancisco LTH 2581 can use only glucose and maltose as sources of metabolic energy....
The mechanism and energetics of citrate transport in Leuconostoc oenos were investigated. Resting ce...
Membrane vesicles were isolated from the obligate anaerobic bacterium Clostridium acetobutylicum. Be...
The mechanism of metabolic energy generation by malolactic fermentation was studied with artificial ...
In cells of Leuconostoc oenos, the fermentation of L-malic acid generates both a transmembrane pH gr...
The mechanism of metabolic energy production by malolactic fermentation in Lactococcus lactis has be...
L-malate transport was studied in membrane vesicles from Leuconostoc oenos MLE(-) (mutant lacking ma...
The mechanism of metabolic energy production by malolactic fermentation in Lactococcus lactis has be...
Malolactic enzymes (MLE) are known to directly convert L-malic acid into L-lactic acid with a cataly...
This review article summarizes the state of the art on Leuconostoc oenos, the bacteria responsible f...
Using degenerated primers from conserved regions of the protein sequences of malic enzymes, we ampli...
The sugar-induced inhibition of malolactic fermentation in cell suspensions of Leuconostoc oenos, re...
Lactobacillus sanfrancisco LTH 2581 can use only glucose and maltose as sources of metabolic energy....
The mechanism and energetics of citrate transport in Leuconostoc oenos were investigated. Resting ce...
Membrane vesicles were isolated from the obligate anaerobic bacterium Clostridium acetobutylicum. Be...
The mechanism of metabolic energy generation by malolactic fermentation was studied with artificial ...
In cells of Leuconostoc oenos, the fermentation of L-malic acid generates both a transmembrane pH gr...
The mechanism of metabolic energy production by malolactic fermentation in Lactococcus lactis has be...
L-malate transport was studied in membrane vesicles from Leuconostoc oenos MLE(-) (mutant lacking ma...
The mechanism of metabolic energy production by malolactic fermentation in Lactococcus lactis has be...
Malolactic enzymes (MLE) are known to directly convert L-malic acid into L-lactic acid with a cataly...
This review article summarizes the state of the art on Leuconostoc oenos, the bacteria responsible f...
Using degenerated primers from conserved regions of the protein sequences of malic enzymes, we ampli...
The sugar-induced inhibition of malolactic fermentation in cell suspensions of Leuconostoc oenos, re...
Lactobacillus sanfrancisco LTH 2581 can use only glucose and maltose as sources of metabolic energy....
The mechanism and energetics of citrate transport in Leuconostoc oenos were investigated. Resting ce...
Membrane vesicles were isolated from the obligate anaerobic bacterium Clostridium acetobutylicum. Be...