Craig Clark scite author profile

Conus venoms contain a remarkable diversity of pharmacologically active small peptides. Their targets are ion channels and receptors in the neuromuscular system. The venom of Conus geographus contains high-affinity peptides that act on voltage-sensitive calcium channels, sodium channels, N-methyl-D-aspartate (NMDA) receptors, acetylcholine receptors, and vasopressin receptors; many more peptides with still uncharacterized receptor targets are present in this venom. It now seems that the Conus species (approximately 500 in number) will each use a distinctive assortment of peptides and that the pharmacological diversity in Conus venoms may be ultimately comparable to that of plant alkaloids or secondary metabolites of microorganisms. The cone snails may generate this diverse spectrum of venom peptides by a "fold-lock-cut" synthetic pathway. These peptides are specific enough to discriminate effectively between closely related receptor subtypes and can be used for structure-function correlations.

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A toxin from the venom of the marine snail Conus geographus which acts on the vertebrate central nervous system

Clark

Olivera

Cruz

1981

Toxicon

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A sleep-inducing peptide from Conus geographus venom

Olivera

McIntosh

Clark

et al. 1985

Toxicon

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Patellofemoral replacement

Hofmann¹,

Clark²,

Ponder³

et al. 2013

The Bone & Joint Journal

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Isolated patellofemoral arthritis is a common condition and there are varying opinions on the most effective treatments. Non-operative and operative treatments have failed to demonstrate effective long-term treatment for those in an advanced stage of the condition. Newer designs and increased technology in patellofemoral replacement (PFR) have produced more consistent outcomes. This has led to a renewed enthusiasm for this procedure. Newer PFR prostheses have addressed the patellar maltracking issues plaguing some of the older designs. Short-term results with contemporary prostheses and new technology are described here.

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Craig Clark

Diversity of Conus Neuropeptides

A toxin from the venom of the marine snail Conus geographus which acts on the vertebrate central nervous system

A sleep-inducing peptide from Conus geographus venom

Patellofemoral replacement

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