Early in the development of sperm, a strange event happens: the X and Y chromosomes condense into tight packages and are sequestered away from the other 44 human chromosomes. If any part of this process goes awry, the cells cannot mature into sperm. Researchers in the College of Biological Sciences have now identified an important link in this process — a little-known protein called ATF7IP2.
Yasuhisa Munakata, a postdoctoral fellow in the College of Biological Sciences, has received a grant to study how egg cells in the ovary change over time. “Our goal is to understand female reproductive aging, and why fertility rapidly declines starting in the mid-30s,” says Satoshi Namekawa, a professor of Microbiology and Molecular Genetics, in whose lab Munakata works.
Pancreatic cancer is the third leading cause of cancer-related deaths in the United States and only 12% of patients survive five years after being diagnosed. Severe pancreatic cancer is associated with metastasis, and it is this spread of secondary tumors that usually causes death, but little is known about the molecular mechanisms that drive metastasis.
Jeffrey Ross-Ibarra, a professor in the Department of Evolution and Ecology at the University of California, Davis, has been awarded the prestigious National Academy of Science Prize in Food and Agriculture Sciences for 2024. Ross-Ibarra was awarded the prize in recognition of his “pioneering studies on the evolutionary genetics of maize, a key crop species for global food production.”
Ben Cox and Rebecca McGillivary, postdoctoral researchers in the Department of Molecular and Cellular Biology, are among 10 early career scientists selected to receive 2022 Hartwell Biomedical Research Fellowships, which were announced in August, 2023.
The Hartwell Foundation, which supports innovative and cutting-edge biomedical research that may benefit children, provides fellows with $100,000 in funding, split between two years.
Plants have to be flexible to survive environmental changes, and the adaptive methods they deploy must often be as changeable as the shifts in climate and condition to which they adapt. To cope with drought, plant roots produce a water-repellent polymer called suberin that blocks water from flowing up towards the leaves, where it would quickly evaporate. Without suberin, the resulting water loss would be like leaving the tap running.
Female zebrafish (Danio rerio) have an unusual tendency: if their egg cells are damaged, they can turn into males. Bruce Draper, a professor in the Department of Molecular and Cellular Biology (MCB) and Florence Marlow, a professor at the Icahn School of Medicine at Mount Sinai, have discovered that immune cells called macrophages play a key role in this process. These cells normally keep things “tidy” by removing dead or damaged cells – but in zebrafish they can also remodel the ovaries into sperm-producing testes. “It’s a pretty interesting and novel idea,” says Draper.
Maize is one of the world’s most widely grown crops. It is used for both human and animal foods and holds great cultural significance, especially for indigenous peoples in the Americas. Yet despite its importance, the origins of the grain have been hotly debated for more than a century. Now new research, published Dec. 1 in Science, shows that all modern maize descends from a hybrid created just over 5000 years ago in central Mexico, thousands of years after the plant was first domesticated.
Many mammals, from domestic cats and dogs to giant pandas, use scent to communicate with each other. A new study from the University of California, Davis, shows how domestic cats send signals to each other using odors derived from families of bacteria living in their anal glands. The work was published Nov. 8 in Scientific Reports.
Neutrophils, the primary foot soldiers of the immune system, swarm to sites of infection and inflammation by following breadcrumb pathways made up of signaling molecules. But the human body is a complex place, and neutrophils are often simultaneously bombarded with multiple signals, some of which are more important than others. For example, signals of infection or tissue damage require more urgent attention than signals produced by other immune cells.