Yes. Cellular respiration produces ATP, which crickets need so survive, since it is the main way energy is stored in living things. If crickets could not carry out cellular respiration, they would not be alive.
As temperature rises, the rate of cellular respiration increases.
Cellular respiration would produce less energy.
Cellular respiration would produce less energy.
electron transport chain.
Temperature can effect enzymatic action of all cellular activities to a great degree. Typically increasing the temperature will stimulate enzymes while decreasing it will hinder their activity. If the temperature is too high the protein enzymes will denture and become useless. If the temperature is too low the activation energy required to initiate enzyme action will not be able to be overcome and the enzymes will be rendered inoperable.
Damage in mitochondrial DNA will have the most effect on cellular respiration. This is due to the fact that the surface area will be damaged.
Cellular respiration would produce less energy.
Cellular respiration would produce less energy.
Cellular respiration would produce less energy.
Cellular respiration would produce less energy.
electron transport chain.
It turns in into oxygen
Temperature can effect enzymatic action of all cellular activities to a great degree. Typically increasing the temperature will stimulate enzymes while decreasing it will hinder their activity. If the temperature is too high the protein enzymes will denture and become useless. If the temperature is too low the activation energy required to initiate enzyme action will not be able to be overcome and the enzymes will be rendered inoperable.
Damage in mitochondrial DNA will have the most effect on cellular respiration. This is due to the fact that the surface area will be damaged.
It prevents the protons (H+) from moving back into the inner membrane of the mitochondria from the proton gradient. Thus, proton trasnport is prevented.
The hypotheses being tested are the effect on the respiration rate. In this case the two are warm temperature vs. cold temperature & germinating vs. non germinating. (temperature & germination)
Cellular respiration would produce less energy.
less glucose would be available for energy production.