Sphingolipids—molecules ubiquitous throughout the human body, named after the Egyptian Sphinx for their complexity when scientists discovered them nearly 150 years ago—are not necessarily household conversation topics.
Jul 26, 2022
0
85
Weill Cornell Medicine researchers have identified a protein in Mycobacterium tuberculosis (Mtb) that contributes to drug tolerance, a phenomenon that allows bacteria to survive treatment with drugs that would normally kill ...
May 4, 2022
1
43
Cornell University researchers have identified a shift that occurs in canine coronavirus that may provide clues as to how it transmits from animals to humans.
May 3, 2022
0
116
New research from Cornell scientists is exploring how human genetics impacts functions of the gut microbiome, and is expanding awareness of the role human genetics plays in shaping the microbiome.
Apr 18, 2022
0
323
Cancer cells can disrupt a metabolic pathway that breaks down fats and proteins to boost the levels of a byproduct called methylmalonic acid, thereby driving metastasis, according to research led by scientists at Weill Cornell ...
Apr 13, 2022
0
47
A newly discovered small molecule could be sprayed into people's noses to prevent COVID-19 illness prior to exposure and provide early treatment if administered soon after infection, according to a study in mice led by Cornell ...
Mar 28, 2022
0
297
Masks that protect against SARS-CoV-2 virus can feel like a nuisance, especially while exercising.
Mar 9, 2022
0
44
After you finish a milkshake or a bowl of guacamole, those dietary fats have a typical route through your body. New research from the laboratory of Dr. Natasza Kurpios, associate professor in the Department of Molecular Medicine ...
Dec 22, 2021
0
110
Recent Cornell research compared the genetic expression profiles of a nonlethal canine tumor and the rare, devastating human oral tumor it resembles, laying the groundwork for potential translational medicine down the road.
Nov 30, 2021
0
34
Lymphomas can turbo-charge their ability to proliferate by crowding growth-supporting enzymes into highly concentrated compartments within tumor cells, according to a study led by researchers at Weill Cornell Medicine.
Oct 18, 2021
0
66
