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Researchers find snippet of RNA that helps make individuals remarkably alike
May 06, 2009"No two people are alike." Yet when we consider the thousands of genes with frequent differences in genetic composition among different people, it is remarkable how much alike we are.
Uniformity, or singleness of form, is not unique to humans but a general property of life. Biologists have long pondered how this feature is produced in the face of such great variation in genetics as well as environmental conditions.
Northwestern University researchers now have identified a type of molecule that plays a specific role in maintaining uniformity: a little snippet of RNA called a microRNA. They found that a microRNA called miR-7 is critical to the robustness of the molecular network that helps regulate uniformity.
The findings are published online by the journal Cell and also are featured in a Cell podcast: http://www.cell.com/. This knowledge could lead to a better understanding of the workings of cancer cells, which do not act in controllable, uniform ways.
The Northwestern research builds on an idea that originated in the 1940's: Molecules within cells of the body work together in networks, each molecule interconnected with others.
"When something is changed, say the genetic sequence of a molecule or the temperature of the organism, the network responds to compensate for the change and keep things intact," said Richard W. Carthew, Owen L. Coon Professor of Molecular Biology in the Weinberg College of Arts and Sciences at Northwestern. Carthew led the research. "This design is similar to the principle that engineers use to design safety features into products."
There are hundreds of different types of microRNAs in animals. Their function is to dampen or shut down the production of proteins in the body. The Carthew group found one of these microRNAs, miR-7, dampens production of proteins that work in the same networks as miR-7.
In a study of Drosophila, when the researchers eliminated miR-7, the networks remained intact but only under uniform environmental conditions. When the researchers perturbed the environment by modulating the temperature, the networks failed to keep things intact, and animals suffered from developmental defects. If the microRNA was present, however, the networks resisted the temperature fluctuation, and animals were normal and healthy.
MicroRNAs, found in all plants and animals, may have evolved as tiny buffers within multicellular organisms to allow the remarkable unity of form in a constantly changing environment.
"This idea has health implications as well," said Carthew. "Cancer cells are notoriously heterogeneous and do not act in controllable ways. Interestingly, microRNAs are among the most frequently mutated targets in cancers, leading some to speculate that their absence is linked to cancer's heterogeneous behavior."
Northwestern University
The findings are published online by the journal Cell and also are featured in a Cell podcast: http://www.cell.com/. This knowledge could lead to a better understanding of the workings of cancer cells, which do not act in controllable, uniform ways.
The Northwestern research builds on an idea that originated in the 1940's: Molecules within cells of the body work together in networks, each molecule interconnected with others.
"When something is changed, say the genetic sequence of a molecule or the temperature of the organism, the network responds to compensate for the change and keep things intact," said Richard W. Carthew, Owen L. Coon Professor of Molecular Biology in the Weinberg College of Arts and Sciences at Northwestern. Carthew led the research. "This design is similar to the principle that engineers use to design safety features into products."
There are hundreds of different types of microRNAs in animals. Their function is to dampen or shut down the production of proteins in the body. The Carthew group found one of these microRNAs, miR-7, dampens production of proteins that work in the same networks as miR-7.
In a study of Drosophila, when the researchers eliminated miR-7, the networks remained intact but only under uniform environmental conditions. When the researchers perturbed the environment by modulating the temperature, the networks failed to keep things intact, and animals suffered from developmental defects. If the microRNA was present, however, the networks resisted the temperature fluctuation, and animals were normal and healthy.
MicroRNAs, found in all plants and animals, may have evolved as tiny buffers within multicellular organisms to allow the remarkable unity of form in a constantly changing environment.
"This idea has health implications as well," said Carthew. "Cancer cells are notoriously heterogeneous and do not act in controllable ways. Interestingly, microRNAs are among the most frequently mutated targets in cancers, leading some to speculate that their absence is linked to cancer's heterogeneous behavior."
Northwestern University
Genetic Composition Current Events and Genetic Composition News RSSIn the war between the sexes, the one with the closest fungal relationship wins
The war between the sexes has been fought on many fronts throughout time-from humans to birds to insects, the animal kingdom is replete with species involved in their own skirmishes.
Study provides documentation that tumor 'stem-like cells' exist in benign tumors
Cancer stem-like cells have been implicated in the genesis of a variety of malignant cancers. Research scientists at Cedars-Sinai Medical Center's Maxine Dunitz Neurosurgical Institute have isolated stem-like cells in benign (pituitary) tumors and used these "mother" cells to generate new tumors in laboratory mice.
Chromosomal problems affect nearly all human embryos
For the first time, scientists have shown that chromosomal abnormalities are present in more than 90% of IVF embryos, even those produced by young, fertile couples.
Gene enhancer in evolution of human opposable thumb
Scientists have discovered a gene enhancer, known as HACNS1, that may have contributed to the evolution of the uniquely opposable human thumb, and possibly also modifications in the ankle or foot that allow humans to walk on two legs.
Ice Ages and rivers may have affected gorilla diversification
Geography and historical climate change may have both played a major role in gorilla evolutionary diversification, according to a new genetic study by Cardiff University and the University of New Orleans.
Cigarette smoke alters DNA in sperm, genetic damage could pass to offspring
The science has long been clear that smoking causes cancer, but new research shows that children could inherit genetic damage from a father who smokes.
Urbanization favors sedentary males
Urbanization changes landscapes and local environments, which can alter the life histories and traits of the creatures living in and around these areas.
Despite their heft, many dinosaurs had surprisingly tiny genomes
They might be giants, but many dinosaurs apparently had genomes no larger than that of a modern hummingbird.
Dragonfly's metabolic disease provides clues about human obesity
Parasite-infected dragonflies suffer the same metabolic disorders that have led to an epidemic of obesity and type-2 diabetes in humans.
First Far Eastern leopard captured in southeast Russia by international team
Just three days after catching a Siberian tiger in the Russian Far East, an international team led by biologists from the Wildlife Conservation Society captured another species last week that carries the dubious distinction of being the world's most endangered big cat: an extremely Far Eastern leopard.
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