Urate oxidase catalyzes the oxidation of uric acid (a product of purine metabolism) to 5-hydroxyisourate. This enzyme is absent in many primates (including humans).
Glucose can be both a substrate and a product in biochemical reactions. It can serve as a substrate in processes such as glycolysis where it is broken down to produce energy, and as a product in processes like photosynthesis where it is synthesized from carbon dioxide.
The substance on which enzymes act are called substrates.
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NAD+ is a substrate in redox reactions because it serves as a coenzyme that accepts and donates electrons during cellular respiration to facilitate energy production.
The substrate for the enzyme phenolase is phenol.
Substrate.
Glucose can be both a substrate and a product in biochemical reactions. It can serve as a substrate in processes such as glycolysis where it is broken down to produce energy, and as a product in processes like photosynthesis where it is synthesized from carbon dioxide.
Reactant
An enzyme combines with a substrate to form a product through a series of chemical reactions. The substrate is the specific molecule that the enzyme acts upon, while the product is the end result of the enzyme catalyzing the reaction.
The substrate is the substance (or substances) that attaches to the enzyme's active site before the reaction occurs.The product is the substance (or substances) that is formed after the enzyme has worked on the substrate.///
substrate
The substance on which enzymes act are called substrates.
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The target molecule for an enzyme is called the substrate. Enzymes bind to specific substrates and catalyze chemical reactions to convert the substrate into a product.
There are several enzymes.Some are catalase,oxydase etc.
NAD+ is a substrate in redox reactions because it serves as a coenzyme that accepts and donates electrons during cellular respiration to facilitate energy production.
The substrate for the enzyme phenolase is phenol.