NIH Grant Supports Study of the Spread of Huntington’s Disease in the Brain
Rowan UniversityNIH grant supports study of the spread of Huntington’s disease in the brain
NIH grant supports study of the spread of Huntington’s disease in the brain
Between and around the billions of neurons in the human brain is an interlinked net of proteins and sugars, which can regulate memory, learning, and behavior. A new tool developed by University of Utah Health researchers has uncovered detailed, dynamic patterns in this network's structure.
The new study, led by researchers in the Saphire Lab at LJI, reveals the inner workings of the Ebola virus nucleocapsid. LA JOLLA, CA—At this moment, the world has few tools to combat deadly filoviruses, such as Ebola and Marburg viruses. The only approved vaccine and antibody treatments protect against just one filovirus species.
What if a drug could help you live a longer, healthier life? Scientists at the University of Connecticut are working on it. In a new study in Cell Metabolism, researchers described how to target specific cells to extend the lifespan and improve the health of mice late in life.
Two labs at the University of Utah’s Department of Chemistry joined forces to improve imaging tools that may soon enable scientists to better observe signaling in functioning cells and other molecular-scale processes central to life.
Rutgers Health researchers will enroll primary or secondary progressive multiple sclerosis (p-MS) patients to see if an engineered immune cell therapy can halt the progression of the autoimmune disease.
Nomination deadline: November 3, 2024
A recent study has identified CaSLR1, a gene in pepper plants, as a key regulator of stem strength by controlling cell wall development. This discovery offers significant potential for agriculture, paving the way for breeding crops with enhanced resistance to lodging. Such improvements can lead to increased yield stability and reduced production costs, providing substantial benefits for farmers.
Violent blows or jolts to the head can cause traumatic brain injury (TBI), and there are currently about five million people in the U.S. living with chronic neurodegeneration and related impairments due to TBI.
Cancer cells appear to hijack a genetic pathway involved in DNA repair to drive malignancy and overcome treatment, a study led by UT Southwestern Medical Center researchers shows. Their findings, published in Cell, explain how chromosomes in some tumors undergo massive rearrangements and could lead to new strategies to avoid cancer drug resistance.
Age-related changes in the fibroblasts, cells that create the skin’s structure, contribute to the development of aggressive, treatment-resistant melanoma in males, according to research in mice by the Johns Hopkins Kimmel Cancer Center.
In humans and fruit flies alike, rna editing prevents autoimmune responses and adjusts protein functions. However, in humans, most editing occurs in non-coding regions, with only a small fraction leading to changes in protein function. In contrast, in flies, the majority of rna editing events occur in sequences that directly produce proteins.
The University of Texas MD Anderson Cancer Center’s Research Highlights showcases the latest breakthroughs in cancer care, research and prevention. These advances are made possible through seamless collaboration between MD Anderson’s world-leading clinicians and scientists, bringing discoveries from the lab to the clinic and back.
Scientists who have described in a new study the step-by-step details of a bacterial defense strategy see the mechanism as a promising platform for development of a new genome-editing method.
Fibrosis, or the scaring of tissue, occurs in many diseases, and is a central component of systemic sclerosis. There are currently no treatments that can reverse fibrosis and the current treatment only has a modest effect on the course of the disease. But research is finding new targets for potential treatments.
University of Maryland School of Medicine (UMSOM) Dean Mark T. Gladwin, MD, announced today the appointment of Elana J. Fertig, PhD, FAIMBE, as the new Director of the School’s Institute for Genome Sciences (IGS).
A pioneering study has revealed the crucial role of cell wall components in tomato fruit ripening. By investigating the effects of altered SlP4H3 gene expression on arabinogalactan proteins (AGPs), researchers have illuminated the complex biochemical processes that control fruit maturation. This discovery could revolutionize agricultural practices, paving the way for tomato varieties with enhanced texture, nutritional value, and resilience to environmental challenges.
Immune cells use two different routes to produce acetyl-CoA, an essential metabolite required to fight infection and cancer, reports a study led by Van Andel Institute scientists.
Scientists at Sanford Burnham Prebys and the La Jolla Institute for Immunology have revealed a new secret regarding senescence, a cellular state similar to sleep that is more likely to affect aged cells.
Today the U.S. Department of Energy (DOE) announced $19.5 million in funding over three years for 14 projects on low-dose radiation – studying the cellular and molecular responses to doses of radiation that are at or near lower exposure limits.