Study on sheep shows link between personality, survival, and reproductive success

September 17, 2009 By Leave a Comment

Washington, September 16 (ANI): Canadian researchers have established a link between personality, survival, and reproductive success by carrying out a study on male bighorn sheep.

Denis Reale, a professor in the Department of Biological Sciences at UQAM and Canada Research Chair in Behavioural Ecology, says that the new study offers insight into personality differences in animals and humans, from an evolutionary perspective.

Since 1969, several teams of researchers have been studying this population of bighorn sheep in Alberta, Canada. They have collected considerable data over the years.

Working in collaboration with researchers from the University of Sherbrooke and the University of Alberta, Reale identified the rams in terms of boldness and docility.

The researchers then conducted paternity tests to determine which rams were reproducing.

They point out that in a system like that of bighorn sheep where there is strong competition among the males for impregnating females, large size and high dominance status are normally key factors in a male’s success.

Males usually attain these conditions in the prime of life, between 6 and 12 years, the researchers say.

However, the paternity tests showed that some young males manage to fertilize females.

The researchers also concentrated on the risk associated with participation in the rut-males can be injured or fall from a cliff in fighting.

Reale and his colleagues hypothesized that the young males that manage to reproduce would be the boldest and most combative, and analysis of the data confirmed it.

However, in exchange for sexual precocity and risk-taking, these rams often die younger than their more docile peers. The latter, instead, invest in the long term, breed later and reach an older age.

Based on their observations, the researchers came to the conclusion that their findings indicate a variation in the personalities and life histories of the population, with two extreme types: one that could be characterised as “live fast and die” and the other as “slow and steady wins the race”.

Depending on their personality, the males managed to breed and to transmit their genes, but in different ways.

The study demonstrates that personality has a direct influence on the lifestyle of individuals.

A research article describing the study has been published in the Journal of Evolutionary Biology. (ANI)

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Protein that may protect against Alzheimer”s identified

January 7, 2009 By Leave a Comment

Washington, Jan 7 (ANI): An international team of researchers have claimed that a protein, found in increased levels in the Alzheimer’s brain, might actually protect against the neurodegenerative disease.

Researchers from Universite du Quebec a Montreal (UQAM) Biological Sciences Department, Armand-Frappier Institute and the University of Valladolid in Spain have successfully demonstrated the protective and reparative role of apolipoprotein D, or ApoD, in neurodegenerative diseases such as Alzhiemer’s, Parkinson’s, stroke and dementia.

In earlier studies, investigator Eric Rassart of the Universite du Quebec a Montreal (UQAM) had found increased levels of ApoD in the brains of people with several types of neurodegenerative disorders, including Alzheimer”s.

During the study including biological sciences Ph.D. student Sonia Do Carmo, the researchers used two types of genetically modified mice: one type with increased levels of ApoD in the brain and a second type with no ApoD.

The mice were then exposed to neurodegenerative agents. A group of the modified mice and a control group (unmodified) were exposed to paraquat, a widely used herbicide that has been shown to increase the risk of Parkinson”s.

The same experiment was performed by injecting two groups with a virus that causes encephalitis.

They found that mice modified for increased levels of ApoD had the best outcomes, with a better ability to combat the diseases and a higher survival rate than the unmodified mice. On the other hand mice with no ApoD displayed the poorest outcomes.

These experiments serve to illustrate the protective and reparative role of this protein.

However, lead researcher Professor Eric Rassart of the Universite du Quebec a Montreal (UQAM) said further studies are required to translate it into effective drugs against neurodegenerative conditions.

“You cannot simply inject ApoD, as it has to enter the brain in order for it to be active. We have successfully demonstrated the role of ApoD, but now we need to understand the action of this protein,” said Rassart,

“Only then will we be able to think about creating a drug to prevent these types of diseases and to slow their progression. All the same, this discovery by Sonia Do Carmo and her collaborators is a significant breakthrough, as we know very little about the mechanisms of neurodegenerative diseases,” he added. (ANI)

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