The office of Michael Turelli, distinguished professor in the 新澳门六合彩内幕信息 Davis Department of Evolution and Ecology, is lined with books written by the world鈥檚 preeminent evolutionary geneticists. Most are Turelli鈥檚 friends and colleagues. Picking up and flipping the pages of one after another, he tells the story of evolutionary genetics and his 35-year career at 新澳门六合彩内幕信息 Davis.
鈥淔or me, the history of science is a history of personal interactions,鈥 Turelli said. 鈥淚鈥檝e gotten where I am by meeting people. From the whole field of population genetics, I鈥檓 at most 1 degree removed.鈥
His combination of smart connections, rampant curiosity and hard work 鈥 including research that could help stop the spread of dengue fever 鈥 has not gone unnoticed by his campus colleagues. The Davis Division of the Academic Senate has selected Turelli for the 2012 Faculty Research Lecture Award.
The award is the senate鈥檚 highest accolade. It recognizes outstanding scholarly research and comes with a $1,000 cash prize. The recipient delivers the annual Faculty Research Lecture. Turelli鈥檚 talk, 鈥淗ow good luck, great collaborators, pretty mathematics and a maternally inherited bacterium (Wolbachia) may stop the spread of dengue fever,鈥 is scheduled for Wednesday, June 6, at 4:10 p.m. in 1322 Storer Hall on the 新澳门六合彩内幕信息 Davis campus. It is free and open to the public.
鈥淸Professor Turelli] is one of the few and highly valued theoreticians in biology whose work is aimed directly at understanding the natural world,鈥 wrote 新澳门六合彩内幕信息 Davis evolution and ecology professor David Begun in his nomination letter. 鈥淕iven his extraordinary international stature, it seems only fitting that we honor him with the highest campus award recognizing his contributions.鈥
Making a difference
From an early age, Turelli knew that whatever he did in life, he wanted it to make a difference. When he realized, as an undergraduate mathematics student at 新澳门六合彩内幕信息 Riverside in the 1970s, that some of his classmates were as good as or better than him at math, he decided to leave the field after getting his bachelor鈥檚 degree.
鈥淚t became clear I was not going to make a significant contribution in math,鈥 Turelli said.
He began to think that the way to save the world was by applying math to biology, and he shifted his focus to mathematical ecology 鈥 鈥淲hat? You鈥檙e trying to save endangered numbers?鈥 his uncle joked at the time 鈥 and to genetics, earning his doctorate in biomathematics at the University of Washington in 1977. That same year, he joined the 新澳门六合彩内幕信息 Davis faculty.
鈥淒avis has been profoundly supportive of me,鈥 Turelli said. 鈥淚鈥檝e had great collaborators and good luck in picking and solving problems.鈥
Turelli鈥檚 current work with an international research team introducing a bacterium into mosquitoes that transmit dengue fever could help solve an enormous global problem: 鈥淚t seems quite probable it could stop the spread of dengue fever,鈥 he said.
Curious by nature
In his lecture, Turelli will describe how, in the mid-1980s, he and Ary Hoffmann, now at the University of Melbourne, Australia, set out to understand how flies adapt in nature. They did an apples-to-oranges comparison: mating flies found on oranges in Southern California with flies found on apples in Northern California. When the males from Southern California were mated to the females from Northern California, all of the flies鈥 embryos died. However, no such death occurred when Northern males were mated to Southern females. The reason, they discovered, was the bacterial symbiont Wolbachia.
Continued research, in which Turelli has played a leading part, has found that Wolbachia can spread rapidly in nature and may be the key to stopping dengue fever, a potentially fatal condition caused by a virus spread by the mosquito Aedes aegypti. More than 2.5 billion people 鈥 over 40 percent of the world鈥檚 population 鈥 are at risk from dengue. The illness is most prevalent in the tropics and subtropics, and is an increasing problem in northern Australia.
Wolbachia is transmitted by female mosquitoes to their offspring. Infected female mosquitoes produce slightly fewer eggs than uninfected females. But when an infected male mates with an uninfected female, none of her eggs hatch. So once the infection is common, uninfected females produce fewer and fewer offspring.
Turelli and others studying Wolbachia expect that as it spreads from mosquito generation to generation, the transmission of dengue should come to an end.
Turelli said he is looking forward to sharing the Wolbachia story during his public lecture.
鈥淚t鈥 s a great example of being curious, wanting to understand something in nature and discovering that this understanding has important practical applications,鈥 he said.
Media Resources
Kat Kerlin, Research news (emphasis on environmental sciences), 530-750-9195, kekerlin@ucdavis.edu
Michael Turelli, Evolution and Ecology, (530) 752-6233, mturelli@ucdavis.edu