Microbial Metabolism As the electron flow through the chains, much of their free energy is conserved in the form of ATP. This process is called none of these electromotive potential oxidative phosphorylation dehydrogenations none of these electromotive potential oxidative phosphorylation dehydrogenations ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism DAHP synthetase catalyzes the condensation of both (a) and (b) erythrose-4-phosphate phenylalanine phosphoenol pyruvate both (a) and (b) erythrose-4-phosphate phenylalanine phosphoenol pyruvate ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism The relationship between an oxidation-reduction potential difference and the standard free energy change is (where n is the number of moles of electron transferred, F= Faraday's constant and E°= standard oxidation-reduction potential difference) ΔG° = nFE° ΔG° = -nFlnE° ΔG° = nFlnE° ΔG° = -nFE° ΔG° = nFE° ΔG° = -nFlnE° ΔG° = nFlnE° ΔG° = -nFE° ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism In aerobic respiration, the terminal electron acceptor is hydrogen nitrogen nitrate oxygen hydrogen nitrogen nitrate oxygen ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism The major route for incorporation of ammonia (NH4+) into organic compounds is via oxidation of pyruvate atmospheric nitrogen fixation all of these reduction of pyruvate or alpha-ketoglutarate by enzymes oxidation of pyruvate atmospheric nitrogen fixation all of these reduction of pyruvate or alpha-ketoglutarate by enzymes ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism During the reduction phase of the Calvin cycle, phosphoglyceric acid is reduced to______utilizing________as the reduction source. phosphoglyceraldehyde; NADPH+H+ phosphoglyceraldehyde; NADH+H+ ribulose 1,5 - bisphosphate; NADH+H+ pyruvic acid; NADPH+H+ phosphoglyceraldehyde; NADPH+H+ phosphoglyceraldehyde; NADH+H+ ribulose 1,5 - bisphosphate; NADH+H+ pyruvic acid; NADPH+H+ ANSWER DOWNLOAD EXAMIANS APP
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