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Researchers publish first working model that explains how biological clocks work
February 13, 2007Implications reach from medicine to job performance
Science has known for decades that biological clocks govern the behavior of everything from humans to lowly bread mold. These ticking timekeepers hold the key to many diseases, annoy passengers on intercontinental flights and can mean life or death for small creatures trying to survive in nature.
Despite the importance of biological clocks, their mechanisms have remained unclear. Now, a team of researchers from the University of Georgia has produced the first working model that explains how biological clocks work.
"When the clock goes awry in mammals, it can lead to many diseases, ranging from cancer and sleep disorders to heart and lung disease," said Jonathan Arnold, a professor in the department of genetics and leader of the research. "It is very important that we know how the clock works at the molecular level."
The research will be published this week in the online edition of the Proceedings of the National Academy of Sciences.
Arnold's co-authors on the paper were members of a UGA interdisciplinary team, though several have now moved on to other positions. They include: Heinz-Bernd Schuttler, professor of physics and astronomy at UGA; Yihai Yu, a former graduate student in physics, now working in industry; Wubei Dong, a postdoctoral fellow in Arnold's lab in genetics; Cara Altimus, a former UGA undergraduate now a graduate student at Johns Hopkins University; Xiaojia Tang, a doctoral student in Shuttler's lab; James Griffith, Arnold's research coordinator, who is supported by funds from the UGA College of Agricultural and Environmental Sciences; Melissa Morello, also a former UGA undergrad, now a student at the Medical College of Georgia; and Lisa Dudek, also a former undergraduate in physics and now a graduate student at UCLA.
Because of the importance of biological clocks to survival and health, evolution has built them into an astoundingly diverse array of organisms, including bacteria and humans. These clocks make it possible for organisms to "tell time," even in the absence of such stimuli as temperature changes or daylight.
The UGA team discovered how three genes in Neurospora crassa—bread mold—make such a clock tick at the molecular level. The paper in PNAS describes how to identify genetic networks and show how the tools of systems biology can yield insights into what makes the clock tick.
"Much of what we know about the biological clock comes from the study of Neurospora," said Arnold, "so the insights on this clock mechanism are likely to provide insights into clocks of other organisms."
The discovery also has broad implications for understanding biochemical signaling and other regulatory processes in cells, said Arnold.
Before this research, there has been little experimental support for any of the many existing models of the biological clock. The UGA team studied actions of three genes in Neurospora: white-collar-1, white-collar-2 and frequency. The team found that the products of these three genes constitute the building blocks of a biological clock. The discovery crosses species boundaries, since human beings have a gene analogous to white-collar-1.
A number of human diseases are associated with genes under control of the biological clock. For instance, a gene called PAI-1 is involved with early-morning heart attacks. Another gene called DBP affects sleep cycles. Both are controlled by clock genes.
"One of the most interesting parts of the research is that the biological clock shows how a complex trait can emerge from the interaction of even a small number of gene regulatory elements," said Arnold.
University of Georgia
"When the clock goes awry in mammals, it can lead to many diseases, ranging from cancer and sleep disorders to heart and lung disease," said Jonathan Arnold, a professor in the department of genetics and leader of the research. "It is very important that we know how the clock works at the molecular level."
The research will be published this week in the online edition of the Proceedings of the National Academy of Sciences.
Arnold's co-authors on the paper were members of a UGA interdisciplinary team, though several have now moved on to other positions. They include: Heinz-Bernd Schuttler, professor of physics and astronomy at UGA; Yihai Yu, a former graduate student in physics, now working in industry; Wubei Dong, a postdoctoral fellow in Arnold's lab in genetics; Cara Altimus, a former UGA undergraduate now a graduate student at Johns Hopkins University; Xiaojia Tang, a doctoral student in Shuttler's lab; James Griffith, Arnold's research coordinator, who is supported by funds from the UGA College of Agricultural and Environmental Sciences; Melissa Morello, also a former UGA undergrad, now a student at the Medical College of Georgia; and Lisa Dudek, also a former undergraduate in physics and now a graduate student at UCLA.
Because of the importance of biological clocks to survival and health, evolution has built them into an astoundingly diverse array of organisms, including bacteria and humans. These clocks make it possible for organisms to "tell time," even in the absence of such stimuli as temperature changes or daylight.
The UGA team discovered how three genes in Neurospora crassa—bread mold—make such a clock tick at the molecular level. The paper in PNAS describes how to identify genetic networks and show how the tools of systems biology can yield insights into what makes the clock tick.
"Much of what we know about the biological clock comes from the study of Neurospora," said Arnold, "so the insights on this clock mechanism are likely to provide insights into clocks of other organisms."
The discovery also has broad implications for understanding biochemical signaling and other regulatory processes in cells, said Arnold.
Before this research, there has been little experimental support for any of the many existing models of the biological clock. The UGA team studied actions of three genes in Neurospora: white-collar-1, white-collar-2 and frequency. The team found that the products of these three genes constitute the building blocks of a biological clock. The discovery crosses species boundaries, since human beings have a gene analogous to white-collar-1.
A number of human diseases are associated with genes under control of the biological clock. For instance, a gene called PAI-1 is involved with early-morning heart attacks. Another gene called DBP affects sleep cycles. Both are controlled by clock genes.
"One of the most interesting parts of the research is that the biological clock shows how a complex trait can emerge from the interaction of even a small number of gene regulatory elements," said Arnold.
University of Georgia
Biological Clock Current Events and Biological Clock News RSSJava and nighttime jobs don't mix: study
Night-shift workers should avoid drinking coffee if they wish to improve their sleep, according to research published in the journal Sleep Medicine.
The food-energy cellular connection revealed
Our body's activity levels fall and rise to the beat of our internal drums-the 24-hour cycles that govern fundamental physiological functions, from sleeping and feeding patterns to the energy available to our cells.
U-M discovery about biological clocks overturns long-held theory
University of Michigan mathematicians and their British colleagues say they have identified the signal that the brain sends to the rest of the body to control biological rhythms, a finding that overturns a long-held theory about our internal clock.
WUSTL research finds individual cells isolated from the biological clock can keep daily time, but are unreliable
Alexis Webb enters a small room at Washington University in St. Louis with walls, floor and ceiling painted dark green, shuts the door, turns off the lights and bends over a microscope in a black box draped with black cloth. Through the microscope, she can see a single nerve cell on a glass cover slip glowing dimly.
Chemotherapy for breast cancer is associated with disruption of sleep-wake rhythm in women
A study in the Sept.1 issue of the journal Sleep shows that the sleep-wake activity rhythms of breast cancer patients are impaired during the administration of chemotherapy.
Biological clocks of insects could lead to more effective pest control
Researchers at Oregon State University have discovered that the circadian rhythms or biological "clocks" in some insects can make them far more susceptible to pesticides at some times of the day instead of others.
Biological Timekeeper Studies Reveal New Temperature Regulator and Track Clock Protein across a Day
Dartmouth Medical School geneticists have made new inroads into understanding the regulatory circuitry of the biological clock that synchronizes the ebb and flow of daily activities.
Balancing hormones may help prevent preterm births
The relationship between two different types of estrogen and a hormone produced in the placenta may serve as the mechanism for signaling labor, according to a new study accepted for publication in The Endocrine Society's Journal of Clinical Endocrinology & Metabolism (JCEM).
Children of older fathers perform less well in intelligence tests during infancy
Children of older fathers perform less well in a range of cognitive tests during infancy and early childhood, according to a study published this week in the open-access journal PLoS Medicine. In contrast, the study finds that children with older mothers gain higher scores in the same tests - designed to measure the ability to think and reason, including concentration, learning, memory, speaking and reading skills.
School-based intervention is a promising model for improving adolescent sleep habits
A study in the March 1 issue of the journal SLEEP shows that a school-based sleep intervention is a promising model for addressing adolescent sleep problems, given its high retention rate, cost-effectiveness and potential for promoting healthy sleep knowledge and practice.
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