genes

A team of researchers from Washington University and the Israeli Institute of Technology (Technion) in Haifa, Israel, has developed a technique to detect the ancestry of disease genes in hybrid, or mixed, human populations.

A team of researchers from Washington University in St. Louis that includes Alan R. Templeton and the Israeli Institute of Technology (Technion) in Haifa has developed a technique to detect the ancestry of disease genes in hybrid, or mixed, human populations. The technique, called expected mutual information (EMI), determines how a set of DNA markers is likely to show the ancestral origin of locations on each chromosome.

Human diseases and social networks seem to have little in common. However, at the crux of these two lies a network, communities within the network, and farther even, substructures of the communities. Weixiong Zhang, Ph.D., Washington University associate professor of computer science and engineering and of genetics, along with his Ph.D. student, Jianhua Ruan, has published an algorithm (a recipe of computer instructions) to automatically discover communities and their subtle structures in various networks.

Researchers at Washington University in St. Louis have discovered through genetic analyses a metabolic pathway in bacteria comprised of just three genes, all known to be players in metabolism. This pathway was previously shown to be involved in synthesizing modified membrane lipids but data from Petra Levin’s lab indicate that it also has a major role in cell division. This is the first identification of a pathway responsible for regulating bacterial cell size.

Olga Pontes is Going FISHin’.Biologists at Washington University in St. Louis have made an important breakthrough in understanding a pathway plant cells take to silence unwanted or extra genes using short bits of RNA. Basically, they have made it possible to see where, and how, the events in the pathway unfold within the cell, and seeing is believing, as the old saying goes. Craig Pikaard, Ph.D., Washington University professor of biology in Arts & Sciences and his collaborators have described the roles that eight proteins in Arabidopsis plants play in a pathway that brings about DNA methylation, an epigenetic function that involves a chemical modification of cytosine, one of the four chemical subunits of DNA. More…

Olga Pontes & Craig PikaardThe protein HDA6 shows up as a red stain in this Arabidopsis leaf cell nucleus.A team of researchers, including biologists at Washington University in St. Louis, has discovered the key role one protein plays in a major turn-off — in this case, the turning off of thousands of nearly identical genes in a hybrid plant. Studying the phenomenon of nucleolar dominance, in which one parental set of ribosomal genes in a hybrid is silenced, Craig Pikaard, Ph.D., Washington University professor of biology in Arts & Sciences and colleagues have identified the protein HDA6 as an important player in the silencing. More…

This is *C. elegans*. Its genome was thought to have been completed until a WUSTL computer scientist found otherwise.A computer scientist at Washington University in St. Louis has applied software that he has developed to the genome of a worm and has found 150 genes that were missed by previous genome analysis methods. Moreover, using the software, he and his colleagues have developed predictions for the existence of a whopping 1,119 more genes.

Photo courtesy University of IowaCould there be a link between the obesity epidemic and eugenic thinking? A historian of science at Washington University in St. Louis poses the question.As obesity rates continue to grow in the United States, threatening the health of millions of Americans, a historian of science warns that social problems such as this cannot be solved through science, especially genetics, alone. In this new “gene age” in which large amounts of research funds are used for studies on the genetics of such complex social traits as alcoholism, criminality or obesity, for example, Garland E. Allen, Ph.D., professor of biology in Arts & Sciences at Washington University in St. Louis, says the climate is ripe for a “re-packaged” eugenics in American society. Allen points out that 100 years ago, eugenics, a movement that claimed many social, personality and mental traits were hereditary, was emerging as a major social movement in Europe and the United States. His concern: it might well still be with us today.

Everett Mendelsohn, one of America’s foremost historians of science, will deliver the Thomas Hall Lecture titled “Dolly and the Historians: Science, Politics and Ethics of Cloning” as part of the Washington University Assembly Series at 4 p.m., Thursday, November 13. The lecture is free and open to the public and will be held in Rebstock Hall, Room 215, located just east of Mallinckrodt Center (6445 Forsyth Blvd) on the Washington University campus.

Nobel Prize-winning biologist Sydney Brenner will deliver the annual Arthur Holly Compton Memorial Lecture for the Assembly Series at 4 p.m. Tues, Oct. 14. The lecture,”Humanity’s Genes,” is free and open to the public and will be held in Graham Chapel, located just north of Mallinckrodt Center (6445 Forsyth Blvd.) on the Washington University campus. Brenner’s lecture will discuss some of the questions raised by the completion of the Human Genome Project. He will talk about both the benefits and the fears raised by recent breakthroughs in genetic research, and his belief that the brain is mightier than the genome.