Engineering professor co-authors Nature Medicine paper on HIV
Ryan Zurakowski, assistant professor of electrical and computer engineering at the University of Delaware, is co-author of a paper appearing in Nature Medicine on Jan. 12 highlighting the role of T-cells in HIV.
The paper, titled “HIV-1 Persistence in CD4+ T-Cells with Stem Cell-Like Properties,” provides evidence that a particular T-cell type may help researchers better understand why HIV can persist despite treatment. (more…)
Berkeley Lab scientists discover the balance that allows electricity to flow between cells and electronics
Just like electronics, living cells use electrons for energy and information transfer. Despite electrons being a common “language” of the living and electronic worlds, living cells cannot speak to our largely technological realm. Cell membranes are largely to blame for this inability to plug cells into our computers: they form a greasy barrier that tightly controls charge balance in a cell. Thus, giving a cell the ability to communicate directly with an electrode would lead to enormous opportunities in the development of new energy conversion techniques, fuel production, biological reporters, or new forms of bioelectronic systems. (more…)
A study dating the age of more than 1 million single-letter variations in the human DNA code reveals that most of these mutations are of recent origin, evolutionarily speaking. These kinds of mutations change one nucleotide – an A, C, T or G – in the DNA sequence. Over 86 percent of the harmful protein-coding mutations of this type arose in humans just during the past 5,000 to 10,000 years.
Some of the remaining mutations of this nature may have no effect on people, and a few might be beneficial, according to the project researchers. While each specific mutation is rare, the findings suggest that the human population acquired an abundance of these single-nucleotide genetic variants in a relatively short time. (more…)
*A former UA postdoctoral fellow has discovered amazing relationships between organisms: a bacterium living inside a bacterium living inside an insect. Evolving together, the organisms depend on each other for survival, and each contributes a subset of the enzymes needed in shared metabolic pathways.*
Sure, many bacteria cause disease, but most people don’t realize how beneficial they can be. The human gut, for example, brims with bacteria that play critical roles in everything from immune system development and extracting energy from food to providing necessary nutrients.
They get a nice comfy home living inside people, and in return they help us. It’s a symbiotic relationship. However, these beneficial partnerships are nothing compared to the complex relationships between bacteria and citrus mealybugs recently discovered by a team of biologists led by former UA researcher John McCutcheon, who recently took a position as an assistant professor at the University of Montana. (more…)
