This section contains 688 words (approx. 3 pages at 300 words per page) |
Allosteric regulation is a major mechanism by which enzymes are controlled in cells. Since enzymes perform virtually every function in a cell, their regulation is a vital part of cell biochemistry. The structure and production of enzymes are ultimately directed by genes and the mechanisms of genetic regulation
Enzymes are highly specific catalysts for cell reactions. They promote reactions by binding to reactants, called substrates, at a cleft in their surface called the active site. When substrate binds to the active site, it is transformed into the product, which then detaches to open the site for new substrates.
In order to control the rate of the catalyzed reaction, the cell must have a way to turn the enzyme on and off as needed. This can either be accomplished by blocking the active site directly, or by inducing a change in the enzyme's shape (called a conformation...
This section contains 688 words (approx. 3 pages at 300 words per page) |