Professor Markus Meister
November 15, 2005
Harvard University researcher recognized for revealing retina research
Harvard University’s Markus Meister, PhD, is the recipient of the 2005 Golden Brain Award from the Berkeley, California-based Minerva Foundation. The Golden Brain Award, now in its 21 st year, honors researchers who make seminal findings in vision and brain research. Meister, Professor of Molecular and Cellular Biology at Harvard, received the award at a private ceremony November 14 in Washington, DC, where he was attending the 35th annual meeting of the Society for Neuroscience.
According to the Foundation, Meister’s research has revealed surprising ways that sensory organs, specifically the retina, are organizing and coding information before sending it to the brain. “He is doing the most innovative work in the field,” said Elwin Marg, PhD, director of the Minerva Foundation and University of California at Berkeley professor emeritus. “We thought the brain did almost all. Now we know complex processing takes place in the retina,” Marg said.
Scientists have long held a simplistic view of the retina, Meister said. “People believed that the sole function of the retina was to convert light to nervous signals and the brain did most of the work that was involved in seeing,” he explained.
That’s because previous studies had measured signals of just one or two retinal neurons at a time. Meister developed an electrode array that allows him to measure impulses from up to 100 nerve cells simultaneously. He found that groups of cells were firing in synchrony, sending coded information to the brain. “We found that the retina is doing computations on images that people thought previously were happening in the brain,” Meister said.
He and his colleagues have discovered that the retina:
- can anticipate the motion of an object in a field, saving the brain valuable response time
- distinguishes movement of objects in a field of view from field movement
- automatically adjusts when moving from a high contrast environment to one of low contrast, as in moving from sunshine to fog
Meister hopes that he and his collaborators will one day identify upwards of a dozen computations performed by the retina. He is also beginning to apply what he has learned about vision to the study of olfaction. “We want to know if what we are discovering in the retina generalizes to other parts of the nervous system,” he said. “We are hoping to find a set of unifying principles that will guide future brain research.”