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Most likely an enzyme from one of your body cells would NOT be able to function in a place as hot as a hot spring because the enzyme would get denatured. denaturization can occur when enzymes are put to extreme temperatures. Since the enzyme is used to your body temp. it is a huge increase to put the enzyme in almost boiling water.
The rate of photosynthesis depends on temperature the same way enzymes depend on temperature.Photosynthesis involves enzyme assistance. Enzymes are biological catalysts that speed up chemical reactions.Enzymes are affected by pH and temperature. If the pH is too acidic or basic, enzymes will be denatured (which means they will change shape and not be able to catalyze reactions as well or entirely).Same goes for temperature. If the temperature is too cold or too hot, the enzymes might deactivate, or their efficiency will be inhibited.So, if the temperature of the organism's environment is too high or low, the rate of photosynthesis will decrease because the enzymes aren't working properly.On the other hand, if the temperature is optimal for enzyme activity, the rate will increase, as production is at its high.
The enzyme denatures, the internal bonds break. This means that the active site changes shape. This is because the arrangement of the secondary structures change After overheating an enzyme it is unusable
Enzymes speed up chemical reactions by lowering the activation energy. The activation energy is the amount of energy needed to start a reaction and if this is lowered the reaction can occur more rapidly.
Warmer temperatures mean little more than that molecules are moving more rapidly. This promotes enzyme activity on its own, however, as movement allows the enzymes to react to more material in a shorter amount of time.
Yes because if the heat is to hot it can damage the enzymes
Most likely an enzyme from one of your body cells would NOT be able to function in a place as hot as a hot spring because the enzyme would get denatured. denaturization can occur when enzymes are put to extreme temperatures. Since the enzyme is used to your body temp. it is a huge increase to put the enzyme in almost boiling water.
The rate of photosynthesis depends on temperature the same way enzymes depend on temperature. Photosynthesis involves enzyme assistance. Enzymes are biological catalysts that speed up chemical reactions. Enzymes are affected by pH and temperature. If the pH is too acidic or basic, enzymes will be denatured (which means they will change shape and not be able to catalyze reactions as well or entirely). Same goes for temperature. If the temperature is too cold or too hot, the enzymes might deactivate, or their efficiency will be inhibited. So, if the temperature of the organism's environment is too high or low, the rate of photosynthesis will decrease because the enzymes aren't working properly. On the other hand, if the temperature is optimal for enzyme activity, the rate will increase, as production is at its high.
Temperature - too cold the enzyme will still work but slowly, too hot and the enzyme will become denatured pH - different types of enzymes work best in different pH environments enzyme and substrate concentration - how many there is of each. eg. too many enzymes etcetera. enzyme inhibitors
Temperature - too cold the enzyme will still work but slowly, too hot and the enzyme will become denatured . As temperature increases, the kinetic energy of the molecules increases so they move around more, meaning that there are more collisions between the enzymes and substrate molecules and therefore more reactions. pH - different types of enzymes work best in different pH environments. A change in pH interferes with the shape of the enzymes active site (where it bonds and reacts with substrate) and therefore does not fit the shape of the substrate as well so the enzyme is unable to work on the substrate. enzyme and substrate concentration - how many there is of each. Changing the concentrations of enzyme and substrate concentrations will affect the number of collisions between them and therefore the number of reactions. enzyme inhibitors - these are molecules which bind to enzymes, reducing their activity (many drugs are enzyme inhibitors). co-factors - these are chemical compounds which bind to enzymes and which are needed by the enzyme to work on substrate molecules. They are often called helper molecules.
The rate of photosynthesis depends on temperature the same way enzymes depend on temperature.Photosynthesis involves enzyme assistance. Enzymes are biological catalysts that speed up chemical reactions.Enzymes are affected by pH and temperature. If the pH is too acidic or basic, enzymes will be denatured (which means they will change shape and not be able to catalyze reactions as well or entirely).Same goes for temperature. If the temperature is too cold or too hot, the enzymes might deactivate, or their efficiency will be inhibited.So, if the temperature of the organism's environment is too high or low, the rate of photosynthesis will decrease because the enzymes aren't working properly.On the other hand, if the temperature is optimal for enzyme activity, the rate will increase, as production is at its high.
if the envirionment is cold, the reaction rate decreases. if the envirionment is warm, the reaction rate increases. however, if the envirinment is too hot, the enzyme will be denatured. a pH out of the enzyme's optimal range will also denature it. when an enzyme is denatured, it looses its shape a its active site is no longer able to recive the molecule and break it down.
Short Answer: Yes. It is an enzyme based cleaner that was designed to use cold water. If the water is too hot, it will destroy the enzymes and be ineffective.
The enzyme denatures, the internal bonds break. This means that the active site changes shape. This is because the arrangement of the secondary structures change After overheating an enzyme it is unusable
Enzymes speed up chemical reactions by lowering the activation energy. The activation energy is the amount of energy needed to start a reaction and if this is lowered the reaction can occur more rapidly.
above 60 degrees C enzymes "denature", therefore in hot water, germs' enzymes are being rendered useless, and the germ cannot carry out it's essential reactions, and therefore dies
Warmer temperatures mean little more than that molecules are moving more rapidly. This promotes enzyme activity on its own, however, as movement allows the enzymes to react to more material in a shorter amount of time.