Adenosine
Triphosphate - ATP
ATP - Nature's Energy Store
All living things, plants and
animals, require a continual supply of energy in order to function. The energy
is used for all the processes which keep the organism alive. Some of these
processes occur continually, such as the metabolism of foods, the synthesis of
large, biologically important molecules, e.g. proteins and DNA, and the
transport of molecules and ions throughout the organism. Other processes occur
only at certain times, such as muscle contraction and other cellular movements.
Animals obtain their energy by oxidation of foods, plants do so by trapping the
sunlight using chlorophyll. However, before the energy can be used, it is first
transformed into a form which the organism can handle easily. This special
carrier of energy is the molecule adenosine triphosphate, or ATP.
Structure
The ATP molecule is composed of three components. At the centre is
a sugar molecule, ribose (the same sugar that forms the basis of DNA). Attached
to one side of this is a base (a group consisting of linked rings of
carbon and nitrogen atoms); in this case the base is adenine. The other side of
the sugar is attached to a string of phosphate groups. These phosphates are the
key to the activity of ATP.
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ATP consists of
a base, in this case adenine (red), a ribose (magenta) and a phosphate chain
(blue). |
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AMP |
ADP |
ATP |
How it works
ATP works by losing the endmost phosphate group when instructed to
do so by an enzyme. This reaction releases a lot of energy, which the organism
can then use to build proteins, contact muscles, etc. The reaction
product is adenosine diphosphate (ADP), and the phosphate group either ends up
as orthophosphate (HPO4) or attached to another molecule (e.g.
an alcohol). Even more energy can be extracted by removing a second phosphate
group to produce adenosine monophosphate (AMP).
When
the organism is resting and energy is not immediately needed, the reverse
reaction takes place and the phosphate group is reattached to the molecule
using energy obtained from food or sunlight. Thus the ATP molecule acts as a
chemical 'battery', storing energy when it is not needed, but able to release
it instantly when the organism requires it.