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小黄片视频 Researcher Wins NIH Grant to Fight Cancer at a Molecular Level

Single molecule biophysics sounds complicated because it is. Then again, so is cancer.
So it makes sense that one of 小黄片视频's molecular biophysicists would take on the most notorious challenge in medical science.
Now Dr. Hamza Balci, an associate professor of physics in 小黄片视频鈥檚 College of Arts and Sciences, has at least one powerful ally 鈥 the National Institutes of Health (NIH). The agency recently awarded him a three-year $437,600 grant for his project, titled 鈥淚nfluence of small molecules on G-quadruplex stability, folding kinetics and interactions with proteins.鈥Dr. Hamza Balci, Associate Professor of Physics at 小黄片视频, who has received a garnt from the NIH to research molecular approaches to pharmacological treatments for cancer.
He hopes to help develop more effective pharmaceuticals, which would attack cancer at the molecular level by strengthening a genetic feature that prohibits cell replication.
鈥淚nstead of studying the average behavior of thousands and thousands of molecules, like in traditional biology, we put these molecules on a surface and we image them with single molecule fluorescence microscopy, so we can see individual molecules and their behavior,鈥 Dr. Balci said. 鈥淵ou get a more detailed, accurate picture.鈥
Dr. Balci鈥檚 lab focuses on the G-quadruplex, a cluster formed in DNA nucleotides with high amounts of the nucleobase guanine.
Such nucleotides are found at the ends of DNA strands in human chromosomes. At the end of every double-helix strand is a single-strand tail called a telomere, formed by thousands of nucleotides in a repeating sequence 鈥 GGGTTA.
Every time a cell divides, some nucleotides are lost and the tail shortens. If the tail reaches a critical length, the cell stops replicating (senescence) or it dies (apoptosis). This is common among nearly all cells.
Cancer cells, however, can replicate quickly without dying because of a protein called telomerase. This protein lengthens telomeres as cells divide, preventing cell death.
While G-quadruplexes do form at the ends of telomeres, Dr. Balci鈥檚 work also extends to those that form on regulatory sites. These structures play a role in determining whether or not a specific protein will be expressed, and how much of it to make.
The stability of G-quadruplexes allows them to act as roadblocks, and they most often prevent protein expression. In cancer cells, G-quadruplexes are known to block telomere extension.
However, certain proteins in the body can cause G-quadruplexes to break down.
鈥淵ou can see why the single molecule aspect comes into the picture,鈥 Dr. Balci said. 鈥淏eing able to see individual molecules, and watch in real time how they work, gives us a lot of information on what type of mechanism the protein uses to destabilize the G-quadruplexes.鈥
He said pharmaceutically administering molecules that stabilize G-quadruplexes in cancer cells could prevent them from lengthening their telomeres, forcing them to abide by regular rules of senescence and apoptosis, thereby inhibiting cancer cells from multiplying.
鈥淲e take those G-quadruplexes and conduct measurements with various small molecules, and study the stability against the proteins that are known to destabilize G-quadruplexes,鈥 he said.

Media Contacts
Dan Pompili:
330-672-0731, dpompili@kent.edu
Emily Vincent: 330-672-8595, evincen2@kent.edu 

 

Return to October 2018 Newsletter

 

小黄片视频 Psychologist Leads NIH-funded Study to Identify Children at Risk for Persistent Distress After a Traumatic Injury

 

Congressman Presents Ceremonial Check to KSU For $3.7 Million in Research Funds

 

小黄片视频 Geologist Wins Grant to Study Climate Change Factors and Inspire Young Scientists

 

小黄片视频 Astrophysicist Wins NSF Grant to Search for Exotic Matter in Neutron Stars