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Yeast Genetics


​For over 6000 years yeasts have been useful to humans in the production of food (bread) and beverages (beer and wine), but over the last 50 years bakers’ and brewers’ yeast has become even more important to us by enabling scientists to gain insight into cellular function and disease.  Why?  Because yeasts inhabit the same kingdom of life as humans and therefore share fundamental biological processes with them.  

Yeast cells and human cells do many things the same way using similar genes:  their basic metabolism is nearly identical; the components of their machinery for growth and division are similar; they respond to insults in similar ways using similar cellular machines.  Human genes are so similar to their yeast counterparts that they can often function in yeast to replace the yeast gene.  This makes yeasts an excellent model for human cells because yeasts are much more amenable to experimentation.  For this reason, many laboratories in the Department of Biochemistry and Molecular Genetics employ yeasts in their experiments. 

Laboratories in the Department use yeast to probe mechanisms of DNA replication and cell division, to understand the control of gene expression and the process of transcribing information in the DNA into the RNA that codes for proteins, to learn how DNA is organized and packaged in the nucleus, and how DNA and RNA are modified and what that does to the cell, and to reveal how cells sense and respond to nutrients.  The product of these research programs are advancing our understanding of how cells work and informing the causes of disease.  And after a productive day in the lab we often retreat to the local pub to discuss our results and ideas over one of the other products of yeasts.   

 

Faculty



David Bentley, PhD
Messenger RNA Production by RNA polymerase II

Jay Hesselberth, PhD
Genomics of gene regulation

Aaron Johnson, PhD
Mechanisms of chromatin-mediated gene silencing

Mark Johnston, PhD
Functional genomics, glucose sensing and signaling

Robert A Sclafani, PhD

The regulation of the G1 to S phase transition of the cell cycle in yeast and mammalian cells

Rui Zhao, PhD

Molecular mechanism of pre-mRNA splicing; drug design targeting transcriptional complex in breast cancer