A flowering plant might not be able to tell how many fingers you鈥檙e holding up, but it can tell whether it鈥檚 light or dark outside and might grow differently if it suddenly finds itself in the shade of another plant.
Plants do that through photoreceptors, which are a major focus of research for John Clark Lagarias, a distinguished professor emeritus of molecular and cellular biology.
AMONG THE ACADEMIES
新澳门六合彩内幕信息 Davis has more than 50 faculty members who belong to the National Academies of Sciences, Engineering and Medicine, a recognition of their distinguished and continuing achievements in research. The academies are among the most prestigious membership organizations in the world.
Each month, Dateline 新澳门六合彩内幕信息 Davis will profile one of these faculty members in honor of their contributions to scientific research and knowledge.
Photoreceptors have important uses, like measuring the length of the day; plants can tell when seasons change because the days get longer or shorter.
鈥淧lants use that cue to decide whether they鈥檙e going to flower or leaf out as the days gets longer 鈥 or flower as fall approaches and they鈥檙e trying to beat the winter and set seed,鈥 he said.
Lagarias was elected to the National Academy of Sciences in 2001 and is quick to attribute much of his success to having world-class experts down the hall. But his work has major implications for the agriculture industry and beyond, and .
In agriculture, it鈥檚 important to understand how plants respond to growing in the shade of their neighbors. Photoreceptors tell a plant whether it鈥檚 in the shade or full sun by sensing the color of light reaching the plant. Some plants respond to shade by growing faster to reach out of the shadows 鈥 a change that could divert energy farmers and breeders might prefer went to producing more seed crop.
Lagarias called that competition for full sun an 鈥渁rms race鈥 between plants.
鈥淚f you want to get more yield per acre, you want to regulate or eliminate this response,鈥 Lagarias said. 鈥淚t鈥檚 critical to understand the mechanism of that so one can interfere or bypass it, or use other means to avoid this arms race and enhance crop yield.鈥
A fulfilling career
Growing up in Pittsburgh, Lagarias recalled marveling at the beauty of new flowers growing out of piles of dead leaves in the woods. He went on to study botany and organic chemistry, exploring 鈥渕olecules that would have a biological function鈥 before focusing in on the structure of photoreceptors.
In 1980, fresh off a Ph.D. in chemistry at 新澳门六合彩内幕信息 Berkeley, Lagarias came to 新澳门六合彩内幕信息 Davis, which he called 鈥渁 one-stop shop for plant biology.鈥
He cited 新澳门六合彩内幕信息 Davis鈥 international recognition in agriculture and its status as a land grant university.
鈥淚 couldn鈥檛 have asked for a better institution to work and spend my career, and that鈥檚 why I鈥檝e stayed here,鈥 he said. 鈥淎s I said to my advisor, why should I go anywhere else?鈥
He has continued research since transitioning to emeritus status, but has also pursued other interests, like making pottery and the recent co-founding of a startup that uses the same molecules Lagarias has studied for decades as pigments for food, industrial products and more.
鈥淢ost (artificial) food colorants are now being banned because they鈥檙e carcinogenic 鈥 they鈥檙e not something people want to eat,鈥 Lagarias said. 鈥淭he pigments I work with are natural 鈥 they鈥檙e found in plants.鈥
He said although it has since closed its doors, working on a startup was a fun change of pace. Lagarias said he will continue to work for as long as he continues to enjoy it. Looking back on his career as a whole, a sense of enjoyment is obvious, as he calls it 鈥absolutely wonderful.鈥
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Cody Kitaura is the editor of Dateline 新澳门六合彩内幕信息 Davis and can be reached by email or at 530-752-1932.