Ravi Bellamkonda, Ph.D., Wallace H.
T-cells are the body’s sentinels, patrolling every corner of the body in search of foreign threats such as bacteria and viruses. Receptor molecules on the T-cells identify invaders by recognizing their specific antigens, helping the T-cells discriminate attackers from the body’s own cells.
Mohamad Ali Najia, an Honor's Program undergraduate in Georgia Tech’s Wallace H. Coulter Department of Biomedical Engineering, has earned the prestigious Barry M. Goldwater Scholarship for his work in science and engineering.
The 10 graduate students are discussing stem cell population analysis, when it’s time. Before they can continue the discussion, Todd McDevitt, the instructor, has to do one thing — turn on the TV.
From time to time, living cells will accidently make an extra copy of a gene during the normal replication process. Throughout the history of life, evolution has molded some of these seemingly superfluous genes into a source of genetic novelty, adaptation and diversity.
When life on Earth was first getting started, simple molecules bonded together into the precursors of modern genetic material. A catalyst would have been needed, but enzymes had not yet evolved.
A new microfluidic method for evaluating drugs commonly used for preventing heart attacks has found that while aspirin can prevent dangerous blood clots in some at-risk patients, it may not be effective in all patients with narrowed arteries.
Travel abroad while researching the latest technologies in cloud computing with NSF funded OSDC-PIRE fellowship.
Jeffrey Skolnick, Ph.D., Mary and Maisie Gibson Chair and Georgia Research Alliance Eminent Scholar in Computational Systems Biology at Georgia Tech, will receive the Southeastern Universities Research Association’s (SURA) 2014 Distinguished Scientist Award.
Georgia Institute of Technology graduate programs continue to earn high marks from U.S. News & World Report's annual rankings.
A new type of biomolecular tweezers could help researchers study how mechanical forces affect the biochemical activity of cells and proteins.
Imagine driving on a dark road. In the distance you see a single light. As the light approaches it splits into two headlights. That’s a car, not a motorcycle, your brain tells you.
ATLANTA—A new research partnership between Emory University and the Georgia Institute of Technology will apply the principles of engineering to study the immune system and develop new therapies that can improve the immune response to diseases.
The annual ritual of visiting a doctor’s office or health clinic to receive a flu shot may soon be outdated, thanks to the findings of a new study published in the journal Vaccine.
If a driver is traveling to New York City, I-95 might be their route of choice. But they could also take I-78, I-87 or any number of alternate routes. Most cancers begin similarly, with many possible routes to the same disease.
When a pandemic spreads, health officials must quickly formulate a strategy to limit infections and deaths. That requires sifting through massive amounts of data in a short amount of time and organizing medical personnel who may have little information on the pandemic.
One factor that makes glioblastoma cancers so difficult to treat is that malignant cells from the tumors spread throughout the brain by following nerve fibers and blood vessels to invade new locations.
Exploiting the use of DNA single- and double-strand breaking forms of the I-SceI endonuclease to stimulate homologous recombination and gene targeting in budding yeast and in human cells, the research of Samantha S.
Researchers have developed the technology for a catheter-based device that would provide forward-looking, real-time, three-dimensional imaging from inside the heart, coronary arteries and peripheral blood vessels.
J. Brandon Dixon, assistant professor in the George W.