Microbial Metabolism Most of the energy in aerobic respiration of glucose is captured by electron transport of electrons from NADH long-chain fatty acid oxidation substrate-level phosphorylation the enzyme formic-hydrogen lyase electron transport of electrons from NADH long-chain fatty acid oxidation substrate-level phosphorylation the enzyme formic-hydrogen lyase ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism Free energy change (ΔG) of a reaction is referred as the amount of energy none of these liberated or taken up during reaction liberated during reaction taken up during reaction none of these liberated or taken up during reaction liberated during reaction taken up during reaction ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism Which of the following catalyze liberation of orthophosphate from organic P compounds and inorganic pyrophosphate ? Hydrogenase Alkaline phosphates Oxidoreductase Protease Hydrogenase Alkaline phosphates Oxidoreductase Protease ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism Bacteriochlorophyll differs from chlorophyll in what way? Both (b) and (c) They have different absorption spectra The chelated metal in bacteriochlorophyll is not Mg There are chemical differences between the two chlorophyll in their side (R) groups Both (b) and (c) They have different absorption spectra The chelated metal in bacteriochlorophyll is not Mg There are chemical differences between the two chlorophyll in their side (R) groups ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism Which of the following groups contain(s) many unique coenzymes, such as coenzyme M and coenzyme F420? Methanogens (methane-producing microbes) Sulfate-reducing bacteria Methanotrophs (methane-oxidizing microbes) Acetogens (acetigens; acetate-producing microbes) Methanogens (methane-producing microbes) Sulfate-reducing bacteria Methanotrophs (methane-oxidizing microbes) Acetogens (acetigens; acetate-producing microbes) ANSWER DOWNLOAD EXAMIANS APP
Microbial Metabolism The role of bacteriophyll in an oxygenic photosynthesis is to reduce ferridoxin directly transfer electrons to an intermediate in the sulfide oxidation pathway use light energy to energize an electron reduce NADP directly reduce ferridoxin directly transfer electrons to an intermediate in the sulfide oxidation pathway use light energy to energize an electron reduce NADP directly ANSWER DOWNLOAD EXAMIANS APP