In the holoenzyme, the non-protein organic molecule that activates the apoenzyme is called a coenzyme.

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Master the BOC Clinical Chemistry Test. Prepare with interactive flashcards and multiple choice questions with detailed explanations. Boost your confidence and ace the exam!

Multiple Choice

In the holoenzyme, the non-protein organic molecule that activates the apoenzyme is called a coenzyme.

The active enzyme is formed when the protein part (apoenzyme) binds its nonprotein helper, turning into the holoenzyme. If that helper is an organic molecule, it’s called a coenzyme. Coenzymes often derive from vitamins and provide the chemical groups needed for catalysis (for example, NAD+, FAD, or coenzyme A). This binding changes the apoenzyme into the fully active enzyme, capable of catalysis.

Apoenzyme refers to the enzyme protein by itself without any bound cofactor, so it is inactive. Holoenzyme is the complete, active enzyme with its cofactor attached. A proenzyme (zymogen) is an inactive precursor that requires a chemical modification to become active, not simply binding a cofactor.

In the holoenzyme, the non-protein organic molecule that activates the apoenzyme is called a coenzyme.

Master the BOC Clinical Chemistry Test. Prepare with interactive flashcards and multiple choice questions with detailed explanations. Boost your confidence and ace the exam!

In the holoenzyme, the non-protein organic molecule that activates the apoenzyme is called a coenzyme.

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