David G. King scite author profile

Simple sequence repeats (SSRs) often serve to modify genes with which they are associated. The influence of SSRs on gene regulation, transcription and protein function typically depends on the number of repeats, while mutations that add or subtract repeat units are both frequent and reversible. SSRs thus provide a prolific source of quantitative and qualitative variation. Over the past decade, researchers have found that this spontaneous variation has been tapped by natural and artificial selection to adjust almost every aspect of gene function. These studies support the hypothesis that SSRs, by virtue of their special mutational and functional qualities, have a major role in generating the genetic variation underlying adaptive evolution.

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Simple sequence repeats as a source of quantitative genetic variation

Kashi

1997

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Evolutionary tuning knobs

King¹,

Soller²,

Kashi³

1997

Endeavour

147

110

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Anatomy of the giant fibre pathway inDrosophila. I. Three thoracic components of the pathway

1980

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Activity in the flight muscles and jump muscles in Drosophila can be stimulated by excitation of a pair of giant fibres that enter the thoracic ganglion from the brain. Contrary to previous descriptions, these giant fibres are not themselves motor axons. Each giant fibre contacts both a large motor axon and an interneuron. The motor axon innervates the ipsilateral tergotrochanteral (jump) muscle. The interneuron synapses in turn with the motor neurons that innervate the contralateral dorsal longitudinal flight muscle. The output synapses of this interneuron occur directly onto the motor axons within a peripheral nerve. The unusual peripheral location for these interneuron synapses suggests that the interneuron may function to speed up activation of the motor axons by bypassing integration within the motor neurons' dendritic trees. The synapses are typical dipteran chemical synapses, with occasional reciprocal contacts from the motor axons back onto the interneuron. The interneuron-motor axon synapses may be especially useful for morphological studies of identified synaptic contacts because their peripheral location makes them extremely easy to locate and identify.

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Simple sequence repeats: genetic modulators of brain function and behavior

Fondon

Hammock

Hannan

et al. 2008

Trends in Neurosciences

117

112

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David G. King

Simple sequence repeats as advantageous mutators in evolution

Simple sequence repeats as a source of quantitative genetic variation

Evolutionary tuning knobs

Anatomy of the giant fibre pathway inDrosophila. I. Three thoracic components of the pathway

Simple sequence repeats: genetic modulators of brain function and behavior

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