In living cells, both intra- and ce

In living cells, both intra- and cellular fluids are heavily buffered. This is due

to all the biochemical reactions in a cell are catalysed by enzymes whose

stability and activity are extremely relied on the pH of the system. For

example, the pH at 7.4 is well-controlled in human blood providing

appropriate condition for haemoglobin and myoglobin in oxygen transport.

This is achieved by ―blood buffering system‖ being regulated by bicarbonate,

and other buffering agents. In addition, various biomolecules such as proteins

and nucleic acids as well as several organic molecules possess multiple acid-
base groups that are effective buffer components in the physiological pH

range. Likewise, to characterise the biomolecules or biochemical reactions of

interest in laboratory, all experimental solutions used are buffers to simulate

the conditions of naturally occurring systems. Because of most biochemical

studies focusing on extraction, isolation and purification of various

biomolecules, selection of an appropriate buffer with optimal pH has to be

considered. This is important as different buffers may affect extractability,

stability and even biological functioning of cell constituents. As a result, a

number of synthetic compounds have been developed for use as buffers. For

example, 0.05M glycine-NaOH buffer pH 10.5 is commonly used in

biochemical reaction catalysed by alkaline phosphatase