Question

What biochemical molecules make up enzymes?

Answer 1

Enzymes are the catalysts that drive natural substance responses. They are the "dwarves" inside each of us who take molecules like nucleotides and combine them to make DNA, or amino acids to make proteins, to name just two of thousands of such abilities.

Complete answer:
There are countless different compounds, but they are all produced using proteins or, more modestly, amino acids. Enzymes are massive natural atoms that are responsible for the vast majority of metabolic cycles that sustain life. They are profoundly specific stimuli, significantly speeding up both the rate and explicitness of metabolic responses ranging from food processing to DNA synthesis. The majority of catalysts are proteins, though some reactant RNA atoms have been identified. Compounds are given a three-dimensional design and can use both natural (biotin) and inorganic (magnesium particle) cofactors to aid catalysis.
A few compounds do not require any additional segments to demonstrate full action. Others, however, require non-protein atoms known as cofactors to be active. Cofactors can be inorganic (for example, metal particles and iron-Sulphur clusters) or natural mixtures (e.g., flavin and heme). Natural cofactors can be prosthetic aggregates that are tightly bound to a compound or coenzymes that are delivered from the catalyst's dynamic site during the response. NADH, NADPH, and adenosine triphosphate are all components of coenzymes.

Note:
The state of the dynamic site where the substrate will tie is determined by the action of amino acids deposits. This is what gives a catalyst its explicitness for a substrate. Consider it on a regular basis. Various affirmations of various moulded and measured amino acid deposits coming together would frame various shapes/sizes of clefts or holes (dynamic site).