The work is led by Dr. Christopher Nomura of the college’s Department of Chemistry, who discovered that a simple protein molecule can interrupt the process bacteria use to move, eat, attach to surfaces, and communicate with one another or, in other words, to become potentially harmful.
“This is fundamentally a new way to think about blocking bacteria from becoming virulent,” Nomura said.
Exposing bacteria to the synthetic protein disrupts the developmental sequence that is common among such organisms, he said. This gives the process the potential to work against an array of bacteria including those that threaten patients with certain illnesses, such as cystic fibrosis, stubborn strains that commonly affect hospital patients and strains that occur in desert environments and prove troublesome for U.S. troops serving in Afghanistan or similar arid environments.
The college is seeking to patent the process.
Nomura’s research group focuses on the synthesis and properties of eco-friendly, biologically based materials, in particular the production of biobased polymers that can be used to make biodegradable plastics. He and his postdoctoral researcher, Dr. Benjamin Lundgren, were working on experiments in that realm when they overproduced some proteins that they thought would increase the expression of genes to produce the bioplastic materials. But instead of making the bacteria produce large quantities of plastics, the protein had the opposite effect.
Nomura began to investigate the chemistry behind the startling development and discovered that specific proteins can attach themselves to the bacterial DNA in a manner that essentially prevents the organism from expressing the information contained within its genes and results in short circuiting the ability of bacteria to respond to changes in their environment.
The antimicrobial process has an added advantage over traditional antibiotics currently in use: It will be extremely difficult for bacteria to do an end run around the process by simply mutating. Since the protein targets hundreds of genes simultaneously, a corresponding mutation would also involve hundreds of changes. Traditional antibiotics attack only one aspect of the bacteria’s development, making mutation a simpler task.
“Basically, we’re interrupting the flow of genetic information in the cell, in effect ‘hacking’ the program of the bacterial cell,” Nomura said. “If we can fundamentally control the mechanism of gene expression, we can control what the bacteria are capable of doing. We can prevent them from becoming virulent.”
Claire B. Dunn | Source: Newswise
Further information: www.esf.edu
More articles from Life Sciences:
New insights into the immune system of the gastrointestinal tract
09.12.2013 | Helmholtz Zentrum München
Vibrational Molecular Pathology
09.12.2013 | Journal of Biophotonics
In power electronics systems bonded connections create the central electrical connections between adjoining surfaces.
The quality of these bonded connections is one of the main factors that determines the reliability and availability of drive systems in electric vehicles, and hence constitutes a major design challenge for German auto manufacturers aiming to electrify their vehicles.
Now the partners participating in the RoBE (Robust Bonds in ...
International team of scientists develops new feedback method for optimizing the laser pulse shapes used in the control of chemical reactions
In many ways, traditional chemical synthesis is similar to cooking. To alter the final product, you can change the ingredients or their ratio, change the method of mixing ingredients, or change the temperature or pressure of the environment of the ingredients.
Like an accomplished chef, chemists have become very skilled ...
A genetic defect protects mice from infection with influenza viruses
A new study published in the scientific journal PLOS Pathogens points out that mice lacking a protein called Tmprss2 are no longer affected by certain flu viruses.
The discovery was made by researchers from the Helmholtz Centre for Infection Research (HZI) in Braunschweig in collaboration with colleagues from Göttingen and ...
The Light: Global study gets underway with online user survey
Light has a fundamental impact on our sense of well-being and performance. In cooperation with Zumtobel, a supplier of lighting solutions, Fraunhofer IAO has launched a global user survey of lighting quality in offices. The objective is to identify the best lighting conditions for a variety of spaces and lighting ...
Quantum entanglement, a perplexing phenomenon of quantum mechanics that Albert Einstein once referred to as “spooky action at a distance,” could be even spookier than Einstein perceived.
Physicists at the University of Washington and Stony Brook University in New York believe the phenomenon might be intrinsically linked with wormholes, hypothetical features of space-time that in popular science fiction can provide a much-faster-than-light shortcut from one part of the universe to another.
But here’s the catch: One couldn’t actually ...
09.12.2013 | Materials Sciences
09.12.2013 | Life Sciences
09.12.2013 | Studies and Analyses
05.12.2013 | Event News
04.12.2013 | Event News
12.11.2013 | Event News