Hidras sem olhos lançam luz sobre a evolução do olho

quarta-feira, março 10, 2010

The evolution of phototransduction from an ancestral cyclic nucleotide gated pathway

David C. Plachetzki*†, Caitlin R. Fong and Todd H. Oakley*

-Author Affiliations

Department of Ecology, Evolution and Marine Biology, University of California at Santa Barbara, Santa Barbara, CA 93106, USA

*Authors for correspondence (oakley@lifesci.ucsb.edu;plachetzki@ucdavis.edu).

Abstract

The evolutionary histories of complex traits are complicated because such traits are comprised of multiple integrated and interacting components, which may have different individual histories. Phylogenetic studies of complex trait evolution often do not take this into account, instead focusing only on the history of whole, integrated traits; for example, mapping eyes as simply present or absent through history. Using the biochemistry of animal vision as a model, we demonstrate how investigating the individual components of complex systems can aid in elucidating both the origins and diversification of such systems. Opsin-based phototransduction underlies all visual phenotypes in animals, using complex protein cascades that translate light information into changes in cyclic nucleotide gated (CNG) or canonical transient receptor potential (TRPC) ion-channel activity. Here we show that CNG ion channels play a role in cnidarian phototransduction. Transcripts of a CNG ion channel co-localize with opsin in specific cell types of the eyeless cnidarian Hydra magnipapillata. Further, the CNG inhibitor cis-diltiazem ablates a stereotypical photoresponse in the hydra. Our findings in the Cnidaria, the only non-bilaterian lineage to possess functional opsins, allow us to trace the history of CNG-based photosensitivity to the very origin of animal phototransduction. Our general analytical approach, based on explicit phylogenetic analysis of individual components, contrasts the deep evolutionary history of CNG-based phototransduction, today used in vertebrate vision, with the more recent assembly of TRPC-based systems that are common to protostome (e.g. fly and mollusc) vision.

complex trait evolution    ancestral state    phototransduction    opsin   
cnidarian    cyclic nucleotide gated ion channel

Footnotes

↵† Present address: Department of Evolution and Ecology and Center for Population Biology, University of California at Davis, Davis, CA 95616, USA.

Received October 2, 2009.
Accepted February 15, 2010.
© 2010 The Royal Society
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