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Matched Description: , an NADP and a L-glutamic gamma-semialdehyde. L-glutamic gamma-semialdehyde is dehydrated … spontaneously, resulting in a release of water,hydrogen ion and 1-Pyrroline-5-carboxylic acid. The latter … -proline. L-proline works as a repressor of the pyrroline-5-carboxylate reductase enzyme and glutamate 5 … -kinase. Three genetic loci, proA, proB and proC control the biosynthesis of L-proline in E … the antagonistic nucleophilic and aqueous environment found in the cell. Finally, NADPH-dependent

Matched Description: , an NADP and a L-glutamic gamma-semialdehyde. L-glutamic gamma-semialdehyde is dehydrated … spontaneously, resulting in a release of water,hydrogen ion and 1-Pyrroline-5-carboxylic acid. The latter … -proline. L-proline works as a repressor of the pyrroline-5-carboxylate reductase enzyme and glutamate 5 … -kinase. Three genetic loci, proA, proB and proC control the biosynthesis of L-proline in E … the antagonistic nucleophilic and aqueous environment found in the cell. Finally, NADPH-dependent

Matched Description: , an NADP and a L-glutamic gamma-semialdehyde. L-glutamic gamma-semialdehyde is dehydrated … spontaneously, resulting in a release of water,hydrogen ion and 1-Pyrroline-5-carboxylic acid. The latter … -proline. L-proline works as a repressor of the pyrroline-5-carboxylate reductase enzyme and glutamate 5 … -kinase. Three genetic loci, proA, proB and proC control the biosynthesis of L-proline in E … the antagonistic nucleophilic and aqueous environment found in the cell. Finally, NADPH-dependent

Matched Description: , an NADP and a L-glutamic gamma-semialdehyde. L-glutamic gamma-semialdehyde is dehydrated … spontaneously, resulting in a release of water,hydrogen ion and 1-Pyrroline-5-carboxylic acid. The latter … -proline. L-proline works as a repressor of the pyrroline-5-carboxylate reductase enzyme and glutamate 5 … -kinase. Three genetic loci, proA, proB and proC control the biosynthesis of L-proline in E … the antagonistic nucleophilic and aqueous environment found in the cell. Finally, NADPH-dependent

Matched Description: , an NADP and a L-glutamic gamma-semialdehyde. L-glutamic gamma-semialdehyde is dehydrated … spontaneously, resulting in a release of water,hydrogen ion and 1-Pyrroline-5-carboxylic acid. The latter … -proline. L-proline works as a repressor of the pyrroline-5-carboxylate reductase enzyme and glutamate 5 … -kinase. Three genetic loci, proA, proB and proC control the biosynthesis of L-proline in E … the antagonistic nucleophilic and aqueous environment found in the cell. Finally, NADPH-dependent

Matched Description: . CFA synthase acts on phosphatidylethanolamine, phosphatidylglycerol and phosphatidylcholine … . Cyclopropane fatty acids in the cytoplasmic membrane protect cells from ethanol, high osmotic pressure and other environmental stressors.

Matched Description: absence of glucose. If glucose is present in the cell, cAMP levels will be low, and only a small amount … bound, the protein is unactivated, and cannot bind to the activator binding site of the operon … . However, when glucose levels are low, cAMP levels are higher, and more can bind to and activate CRP … . Allolactose is necessary to bind to the lactose operon repressor, and without allolactose bound to … concentrations of lactose are higher in the cell, more allolactose is produced, and when it binds to the

Matched Description: yield energy and carbon. While the precise transport mechanisms remain under research, it is proposed … such as permeases and porins. Benzoate is then converted to benzoyl-CoA by benzoate-CoA ligase

Matched Description: yield energy and carbon. While the precise transport mechanisms remain under research, it is proposed … such as permeases and porins. Benzoate is then converted to benzoyl-CoA by benzoate-CoA ligase

Matched Description: yield energy and carbon. While the precise transport mechanisms remain under research, it is proposed … such as permeases and porins. Benzoate is then converted to benzoyl-CoA by benzoate-CoA ligase