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Enzymes - Edexcel Factors affecting reaction rate

Enzymes are biological catalysts which speed up reactions. They are specific for their substrate. The lock and key hypothesis models this. Enzymes are denatured at extremes of temperature and pH.

Part of Biology (Single Science)Key concepts in biology

Effect of temperature, substrate concentration and pH on reaction rate

The rate of an enzyme-catalysed reaction is calculated by measuring the rate at which a is used up or by the rate at which a product is formed.

Temperature

As with many chemical reactions, the rate of an enzyme-catalysed reaction increases as the temperature increases. However, at high temperatures the rate decreases again because the enzyme becomes denatured and can no longer function. This is shown in the graph below.

Y axis: enzyme activity. X axis: temperature, centigrade.  Plotted line climbs slowly until about half way on x axis. Climbs steeply to optimum temperature then falls steeply to 0.

As the temperature increases so does the rate of enzyme activity. An activity is reached at the enzyme's optimum temperature. A continued increase in temperature results in a sharp decrease in activity as the enzyme's changes shape. It is now denatured.

Effects of pH

Changes in also alter the shape of an enzyme鈥檚 active site. Each enzyme work bests at a specific pH value. The optimum pH for an enzyme depends on where it normally works. For example, enzymes in the small intestine have an optimum pH of about 7.5, but stomach enzymes have an optimum pH of about 2.

Graph showing that as the pH increases so does the rate of enzyme activity

In the graph above, as the pH increases so does the rate of enzyme activity. An optimum activity is reached at the enzyme鈥檚 optimum pH, pH 8 in this example. A continued increase in pH results in a sharp decrease in activity as the enzyme鈥檚 active site changes shape. It is now denatured.

Substrate concentration

Enzymes will work best if there is plenty of substrate. As the of the substrate increases, so does the rate of enzyme activity. However, the rate of enzyme activity does not increase forever. This is because a point will be reached when the enzymes become saturated and no more substrates can fit at any one time even though there is plenty of substrate available.

Graph showing that as the substrate concentration increases, so does the rate of reaction

As the substrate concentration increases so does the rate of enzyme activity. An optimum rate is reached at the enzyme鈥檚 optimum substrate concentration. A continued increase in substrate concentration results in the same activity as there are not enough enzyme molecules available to break down the excess substrate molecules.