A twist in the tail – How sperm wriggle
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Project leader Dr Peter Knight said: "Dynein molecules are attached to tiny tubes within the sperm tail, and as the molecules changes shape, they make the tubes slide back and forth causing the sperm's tail to wriggle. We call these proteins 'molecular motors,' as they work very much like engines -- using fuel which the body creates from the food we eat to power movement."
The scientists identified this movement by combining thousands of electron microscope images (taken by Dr Matt Walker) of individual molecules of the protein under different biochemical conditions -- the first time such images had been obtained. Lead researcher Dr Stan Burgess said, "Combining the images revealed the major shape change within the dynein molecule. That change is equivalent to the piston movement in a car's engine, which ultimately drives the wheels round."
As well as making sperm wriggle, dynein also powers the cilia, which push eggs along the fallopian tubes towards the womb. The hard-working protein also helps clear the lungs of airborne debris and transports chemicals within our nervous system. Head of the molecular contractility group, Professor John Trinick relates molecular motors to a railway network. "Our body is full of proteins which form tracks. Along these tracks, molecular motors are the locomotives, transporting a variety of cargoes to wherever they are needed."
The protein plays a crucial role in a variety of gynaecological, bronchial, infertility and neurological disorders. It also ensures the body's internal organs are the right way round: the body's left-right axis, which places the heart on the left and the liver on the right, is caused by the activity of cilia during early development of the embryo.
