Energy Release and Conservation Suppose a eukaryotic cell had a mutation that prevented the production of cytochrome c. As a result of this mutation, which of the following processes would not occur? Cellular respiration Photosynthesis Cell wall synthesis Mitosis Cellular respiration Photosynthesis Cell wall synthesis Mitosis ANSWER DOWNLOAD EXAMIANS APP
Energy Release and Conservation Which of the following is the most complete definition of fermentation? Production of ethyl alcohol from glucose Complete catabolism of glucose to CO2 and HO2 Oxidation of glucose with organic molecules serving as electron acceptors Production of energy by substrate-level phosphorylation Production of ethyl alcohol from glucose Complete catabolism of glucose to CO2 and HO2 Oxidation of glucose with organic molecules serving as electron acceptors Production of energy by substrate-level phosphorylation ANSWER DOWNLOAD EXAMIANS APP
Energy Release and Conservation The amount of energy (cal/mole) in an ATP molecule produced by a cell from glucose by fermentation is None of these greater than aerobic metabolism less than aerobic metabolism exactly or approximately equal to aerobic metabolism None of these greater than aerobic metabolism less than aerobic metabolism exactly or approximately equal to aerobic metabolism ANSWER DOWNLOAD EXAMIANS APP
Energy Release and Conservation The amount of ATP produced by a cell from glucose when metabolizing it by fermentation means is exactly or approximately equal to by aerobic metabolism greater than by aerobic metabolism none of these lesser than by aerobic metabolism exactly or approximately equal to by aerobic metabolism greater than by aerobic metabolism none of these lesser than by aerobic metabolism ANSWER DOWNLOAD EXAMIANS APP
Energy Release and Conservation A yeast or fungal cell produces how many net ATP molecules per molecule of glucose when completely oxidized? 34 38 32 36 34 38 32 36 ANSWER DOWNLOAD EXAMIANS APP
Energy Release and Conservation In cellular metabolism, O2 is used as a terminal electron acceptor in the Krebs cycle to provide electrons for photophosphorylation in glycolysis as a terminal electron acceptor in the Krebs cycle to provide electrons for photophosphorylation in glycolysis ANSWER DOWNLOAD EXAMIANS APP