麻豆传媒

Curated 麻豆传媒: National Institute of General Medical Sciences (NIGMS)

Filters close
麻豆传媒: Study: AI Could Transform How Hospitals Produce Quality Reports
Released: 21-Oct-2024 11:35 AM EDT
Study: AI Could Transform How Hospitals Produce Quality Reports
UC San Diego Health

University of California San Diego School of Medicine researchers find advanced AI could lead to easier, faster and more efficient hospital quality reporting.

Released: 19-Aug-2024 3:05 PM EDT
UChicago lands $7.4 million grant to study how cells adapt to surroundings
University of Chicago Medical Center

Eight-member team from UChicago and Northwestern will launch the Cellular Adaptation Lab to study how fundamental cellular behaviors are linked to disease and responses to climate change.

Released: 10-Aug-2023 10:40 AM EDT
Research team makes surprising discovery of low-noise genes
Virginia Tech

While engaging in cell division research, Silke Hauf and members of her lab made a surprisingly quiet discovery. When cells express RNA, there are always some fluctuations, or noise, in how much RNA is produced. Hauf鈥檚 group found several genes whose noise dips below a previously established minimum threshold, known as the noise floor, during expression 鈥淲e have solid data for this phenomenon,鈥 said Hauf, associate professor in the Department of Biological Sciences聽at Virginia Tech.

麻豆传媒: Nanozymes drive tumor-specific drug delivery while minimizing toxicity
Released: 9-Aug-2023 10:35 AM EDT
Nanozymes drive tumor-specific drug delivery while minimizing toxicity
National Institute of Biomedical Imaging and Bioengineering

Nanozymes鈥攁rtificial enzymes that can carry out pre-determined chemical reactions鈥攃ould selectively activate a cancer drug within a tumor while minimizing damage to healthy tissue in a mouse model of triple negative breast cancer.

麻豆传媒: New RNA-based Therapy Combats Melanoma in Mouse Models
24-Jul-2023 11:30 AM EDT
New RNA-based Therapy Combats Melanoma in Mouse Models
Mount Sinai Health System

Investigators at the Icahn School of Medicine at Mount Sinai have designed an innovative RNA-based strategy to activate dendritic cells鈥攚hich play a key role in immune response鈥攖hat eradicated tumors and prevented their recurrence in mouse models of melanoma.

Released: 26-Jul-2023 11:30 AM EDT
Unraveling a protein that may inspire a new biotechnology tool
Ohio State University

Scientists have unraveled the step-by-step activation process of a protein with a deep evolutionary history in all domains of life, opening the door to harnessing its functions for use as a biotechnology tool.

麻豆传媒: Let鈥檚 see some ID: simulated molecular bouncer helps track protein movement across the nuclear membrane
Released: 13-Jul-2023 12:00 PM EDT
Let鈥檚 see some ID: simulated molecular bouncer helps track protein movement across the nuclear membrane
Beckman Institute for Advanced Science and Technology, University of Illinois Urbana-Champaign

If the human cell is a nightclub, then the nucleus is a VIP lounge fiercely maintained by the nuclear pore complex. By modeling a dynamic simulation of the NPC, Beckman physicists have theorized as to why some proteins enter the nucleus more readily than others.

   
麻豆传媒:Video Embedded proteins-predict-significant-step-toward-development-of-diabetes
VIDEO
28-Jun-2023 3:00 PM EDT
Proteins Predict Significant Step Toward Development of Diabetes
Pacific Northwest National Laboratory

Scientists have taken an important step forward in predicting who will develop Type 1 diabetes months before symptoms appear.

Released: 7-Jun-2023 8:00 PM EDT
Exposure to 鈥渇orever chemicals鈥 during pregnancy linked to increased risk of obesity in kids
Brown University

The risks of exposure to 鈥渇orever chemicals鈥 start even before birth, a new study confirms, potentially setting up children for future health issues.

Released: 1-Jun-2023 5:40 PM EDT
The breakthrough that could lead to new obesity treatments
University of East Anglia

Researchers at the University of East Anglia and the University of Cambridge have made an important discovery in the race to find treatments for obesity and related diseases, such as diabetes. A new study published today is the first to reveal the molecular structure of a protein called 鈥楿ncoupling protein 1鈥 (UCP1).

30-May-2023 2:45 PM EDT
New Penn Medicine Study Uncovers Key Details of Fat Cells, Advancing Potential Treatments for Obesity, Diabetes
Perelman School of Medicine at the University of Pennsylvania

New research has unlocked insights into how 鈥済ood fat鈥 tissue could potentially be harnessed to combat obesity and remove glucose from the blood, helping to control diabetes. Published today in Science Advances, the work is a collaboration between researchers with the Perelman School of Medicine at the University of Pennsylvania and University of Cambridge, Free University of Brussels and University of East Anglia.

麻豆传媒: Rethinking the Protein Inhibitor Approach to Cancer Therapy
Released: 25-May-2023 12:05 PM EDT
Rethinking the Protein Inhibitor Approach to Cancer Therapy
Stony Brook University

A new method than enables researchers to dial up or tone down the amount of a certain metastatic protein inhibitor (BACH1) within a cell could provide a new path in cancer research that reassesses the effectiveness of protein inhibitors to treat disease.

Released: 17-May-2023 2:00 PM EDT
Study finds cancer cells use a new fuel in absence of sugar
Michigan Medicine - University of Michigan

Researchers at the University of Michigan Rogel Cancer Center have discovered a new nutrient source that pancreatic cancer cells use to grow. The molecule, uridine, offers insight into both biochemical processes and possible therapeutic pathways. The findings, published in Nature, show that cancer cells can adapt when they don鈥檛 have access to glucose.

Released: 16-May-2023 5:15 PM EDT
Scientists use X-ray beams to determine role of zinc in development of ovarian follicles
Argonne National Laboratory

Researchers from Argonne, Michigan State University and Northwestern University used Argonne鈥檚 Bionanoprobe beamline to look at the concentration of zinc in egg cells.

   
Released: 4-May-2023 7:40 AM EDT
High School Students Learn the Basics of Base Editing to Cure 鈥淕FP-itis鈥
University of California San Diego

Genome editing is used to modify the genes of living organisms to elicit certain traits, such as climate-resilient crops or treating human disease at the genetic level. It has become increasingly popular in agriculture, medicine and basic science research over the past decade, and will continue to be relevant and utilized well into the future.

   
麻豆传媒: Discovery suggests route to safer pain medications
2-May-2023 3:00 PM EDT
Discovery suggests route to safer pain medications
Washington University in St. Louis

Strategies to treat pain without triggering dangerous side effects such as euphoria and addiction have proven elusive. Now scientists at Washington University School of Medicine have identified a potential pathway to pain relief that neither triggers addiction nor causes hallucinations.

麻豆传媒: Even Worms Get the Munchies
19-Mar-2023 11:05 AM EDT
Even Worms Get the Munchies
University of Oregon

A study, led by University of Oregon neuroscientist Shawn Lockery, points to worms as a useful tool for understanding more about the many roles that cannabinoids naturally play in the body. And it could help researchers develop better drugs that target this system.

   
Released: 14-Apr-2023 3:25 PM EDT
Wayne State researcher receives $1.95 million NIH grant to study impact of inositol homeostasis on essential cellular functions
Wayne State University Division of Research

A researcher from Wayne State University鈥檚 Department of Biological Sciences has received a five-year, $1.95 million grant from the National Institute of General Medical Sciences of the National Institutes of Health to identify mechanisms that regulate inositol synthesis in mammalian cells and determine the cellular consequences of inositol depletion.

   
麻豆传媒: AI Tool Predicts Colon Cancer Survival, Treatment Response
Released: 13-Apr-2023 6:25 PM EDT
AI Tool Predicts Colon Cancer Survival, Treatment Response
Harvard Medical School

New AI tool accurately predicts both overall survival and disease-free survival after colorectal cancer diagnosis. The model uses visual markers on pathology images to glean insights into a tumor鈥檚 genomic profile and predicts tumor behavior, disease progression, treatment response. The new model could help augment clinical decision-making. Because the AI tool relies on images alone, it could be particularly valuable for hospitals lacking the technology or expertise to perform sophisticated genomic profiling of tumor tissues.

麻豆传媒: Dissecting the Circadian Clock in Real Time
Released: 30-Mar-2023 2:40 PM EDT
Dissecting the Circadian Clock in Real Time
University of California San Diego

Scientists have made progress in understanding the circadian clock, the 24-hour cycle that synchronizes with light-dark exposure, and how it functions. They developed a new way to study how the circadian clock synchronizes in real time, revealing surprises about the clock鈥檚 mechanisms.



close
2.01553