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1 April 2001 Gaseous Transmission Across Time and Species
Leonid L. Moroz
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Abstract

This paper reviews comparative and evolutionary aspects of nitric oxide (NO) signaling in major systematic groups such as prokaryotes, plants, fungi and invertebrate animals. It appears that NO-mediated signaling can be as old as cellular organization itself. Both non-enzymatic and enzymatic (in addition to NOS) synthetic pathways can contribute to NO formation in living systems. The evolutionary roots of this means of gaseous signaling can be traced back to the role of NO in non-immune defensive mechanisms and the role of NO in control of gene expression, chemical ecology and, perhaps, symbiotic interactions in the ancient prokaryotic world. These functions of NO can be preserved in practically all modern taxons and be widely expressed in the nervous system. However, it is hypothesized that neuronal NO signaling is a relatively new evolutionary invention and it is likely to have happened several times during animal evolution. Although a comparative analysis of neuronal NO signaling is still in its early stages, the hypothesis is proposed that in many invertebrate lineages one of the primary neuronal functions of NO was regulation of feeding patterns, chemosensory processing and neurodevelopment.

Leonid L. Moroz "Gaseous Transmission Across Time and Species," American Zoologist 41(2), 304-320, (1 April 2001). https://doi.org/10.1668/0003-1569(2001)041[0304:GTATAS]2.0.CO;2
Published: 1 April 2001
JOURNAL ARTICLE
17 PAGES

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