Investigators at Burnham Institute for Medical Research (Burnham) have deciphered a large percentage of the total protein complement of the genome (proteome) in Schizosaccharomyces pombe (S. pombe) fission yeast.
Laurence Brill, Khatereh Motamedchaboki, PhD and lead investigator Dieter Wolf, MD, developed the novel method, used to identify 4,600 proteins in the organism, using an array of sophisticated techniques. The research was published online on March 9 in the journal Methods.
“Analysis of the proteome of an organism tells us so much more than simple DNA sequence analysis,” said Dr. Wolf. “Proteome analysis gives us a snapshot of what proteins are being expressed in the cell at any given point in time. This can tell us how protein expression changes in response to certain stimuli and in disease states, which may help identify new biomarkers for diseases. We are now applying the methodology to protein profiling of human stem cells in collaboration with Burnham’s stem cell program director, Evan Snyder.”
The method developed by Burnham scientists involved digestion of the proteins into smaller peptides, then separation of the peptides based on electrostatic charge using strong cationic exchange chromatography. The peptides were further separated by mass over charge value using high pressure liquid chromatography coupled to a LTQ-OrbiTrap Mass Spectrometer. Each of the individual peptides was detected and identified using mass spectrometry and database analysis. DNA analysis of the yeast’s genome predicts 5027 proteins. The team identified 4,600 proteins, which is not quite the entire proteome. The remaining 400 are only expressed during S. pombe’s mating state.
S. pombe is often used as a model organism to study DNA damage response and repair, cell division, stress responses and other aspects of cellular biology.