Science, 23 October 1998
Vol. 282. no. 5389, p. 627
Plant Biology and the Nobel Prize
The awarding of the 1998 Nobel Prize in Physiology or Medicine to R. F.
Furchgott, L. J. Ignarro, and F. Murad for their discoveries of nitric
oxide as a signaling molecule in the cardiovascular system is, without
question, a highly deserved recognition of an important breakthrough in
biomedical research. However, the citation by the Nobel Assembly is one
more testimony to the fact that pioneering discoveries in plant biology
are not counted among the milestones in biological research. The Nobel
Assembly asserts, with respect to nitric oxide, that "signal
transmission by a gas that is produced by one cell, penetrates through
membranes and regulates the function of another cell represents an
entirely new principle for signaling in biological systems" and that
"this was the first discovery that a gas can act as a signal molecule
in the organism." In fact, ethylene, the simplest unsaturated
hydrocarbon, was recognized by the Russian plant physiologist Neljubow
in 1901 as a gas that affects plant growth, and by Gane in 1934 as a
signal molecule produced by plant cells. Endogenously produced ethylene
regulates many basic plant processes, ranging from seed germination to
senescence. Most important from an agronomic aspect is the role of
ethylene as inducer of fruit ripening and as a mediator of defense
responses in plant pathogenesis. The enzymes that catalyze the
biosynthesis of ethylene have been isolated and characterized
biochemically. The genes that encode these enzymes have been cloned,
and their regulation has been described (1). The ethylene receptor has
been identified, and the ethylene signal transduction pathway is being
elucidated in detail (2). These discoveries serve as the basis for
biotechnological applications, for example, the genetic engineering of
fruits whose ripening can be controlled and whose spoilage is, thereby,
prevented. The discovery of ethylene as an endogenous signal molecule
should be recognized as the first demonstration--by plant
biologists--that a gas can serve as a signal molecule in the organism
and that this constitutes an entirely new principle for signaling in
biological systems.
Professor Hans Kende
Michigan State University
Department of Energy
Plant Research Laboratory,
Michigan State University,
East Lansing, MI 48824-1312, USA
References
1. H. Kende, Ann. Rev. Plant Physiol. Plant Mol. Biol. 44,
283 (1993).
2. J. J. Kieber, ibid. 48, 277 (1997).