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ATPase
They break down molecules into smaller parts.
An enzyme's optimum pH is the pH (that is, degree of acidity of alkalinity) that the enzyme catalyses reactions fastest at. If the pH varies too much from the optimum, the enzyme becomes denatured and cannot catalyse reactions any more.
Enzyme will catalyse when the substrate come close enough to interact with enzyme's active site (proximity and orientation). The rate of enzymatic reactions is influenced by the condition such as temperature or pH that favors the chemical environment, and when a co-factor is already bound (not for all enzymes).
Enzyme are not producing proteins but they catalyses the steps in proteins synthesis. Proteins are produced in ribosomes by amino acids and RNA molecules such as tRNA and mRNA. Enzyme such as peptidyl synthetase catalyse the prptide bond formation between amino acids.
is to catalyse or increase the rate of reaction without any change in itself .
ATPase
They break down molecules into smaller parts.
All fruits contain catalyse. Catalyse is found in all living things except Bactria and fungus. so all fruits and veggies have it all though when testing catalyse in those different fruits it is not always immediately evident.
Catalases are enzymes that catalyse the conversion of hydrogen peroxide to water.
All enzymes end in -ase. Their substrate is the base for the enzyme. For example: the sugar maltose is acted on by the enzyme maltase. Sucrose, by sucrase.
Enzyme inactivation refers to a certain period when the enzyme is unable to catalyse a particular reaction. For example some enzymes are inactivated at extreme temperatures of cold or heat. At this particular time the enzyme does not perform its function of catalysis but after favourable conditions return the enzyme wil resume its catalylitic function.
Enzyme inactivation refers to a certain period when the enzyme is unable to catalyse a particular reaction. For example some enzymes are inactivated at extreme temperatures of cold or heat. At this particular time the enzyme does not perform its function of catalysis but after favourable conditions return the enzyme wil resume its catalylitic function.
An enzyme's optimum pH is the pH (that is, degree of acidity of alkalinity) that the enzyme catalyses reactions fastest at. If the pH varies too much from the optimum, the enzyme becomes denatured and cannot catalyse reactions any more.
Enzyme will catalyse when the substrate come close enough to interact with enzyme's active site (proximity and orientation). The rate of enzymatic reactions is influenced by the condition such as temperature or pH that favors the chemical environment, and when a co-factor is already bound (not for all enzymes).
Cellulose is not an enzyme - it is a polysaccharide sugar.Cellulase is used to describe a class of enzymes that catalyse the hydrolysis (breakdown) of cellulose.
Enzyme are not producing proteins but they catalyses the steps in proteins synthesis. Proteins are produced in ribosomes by amino acids and RNA molecules such as tRNA and mRNA. Enzyme such as peptidyl synthetase catalyse the prptide bond formation between amino acids.