Maybe now more than ever, scientists need to understand the immune system.
A new National Institutes of Health grant is funding a cross-disciplinary collaboration between bioengineering Professor Joel Spencer and immunology Professor Jennifer Manilay that will allow them to watch as immune-system cells develop in the bone marrow of a living mouse to gain insights into how they work.
Many of the items people use in their everyday lives, from baby clothes and Halloween costumes to furniture, are doused with chemical flame retardants designed to make the items safer.
Theoretical physics Professor Ajay Gopinathan has been working over the past decade to model a submicroscopic mystery. Now, he and a team of colleagues have verified an important piece of the puzzle of how tiny, intrinsically twisted protein filaments responsible for repairing and growing cells know where to go to perform their function.
The work could someday enable scientists to control bacterial growth.
About 4.5 billion people around the globe do not have access to adequate sanitation, and what they do have — typically pit latrines and lagoons — are responsible for widespread illnesses and a portion of the greenhouse gases that are warming the planet.
UC Merced Professor Rebecca Ryals and a group of colleagues have a solution that not only increases safety, sustainability and jobs, but reduces greenhouse gas emissions and waste-borne illnesses while producing an effective fertilizer for agriculture.
A UC Merced researcher and her lab have unlocked one of the mysteries that could lead to treatments — or even cures — for prion diseases in mammals.
Prion diseases are a family of rare, progressive neurodegenerative disorders that affect both humans — such as with Creutzfeldt-Jakob disease or fatal familial insomnia — and animals, such as mad-cow disease. These disorders are usually rapidly progressive and always fatal, according to the Centers for Disease Control.
Most people wouldn’t think physics has anything to do with baby babble and human language development.
But most people aren’t Ritwika Vallomparambath PanikkasserySugasree.
Flocks of starlings producing dazzling patterns across the sky are natural examples of active matter — groups of individual agents coming together to create collective dynamics.
In a study featured on last week’s cover of the journal Science, a team of researchers including a UC Merced theoretical physicist revealed new insights into what happens inside such active systems.
Breakthrough collaborative science by an interdisciplinary team of researchers brought together by computational biology Professor David Ardell promises a new approach for treating all types of infections.
Infections have become more dangerous in recent years because bacteria and parasites rapidly evolve resistance to the medicines.
Professor Sarah Kurtz has become the first UC Merced faculty member to be elected to the National Academy of Engineering (NAE) in recognition of her contributions to the development of gallium indium phosphide/gallium arsenide photovoltaic cells and for her leadership in solar-cell reliability and quality.
Professor Sarah Kurtz has become the first UC Merced faculty member to be elected to the National Academy of Engineering (NAE) in recognition of her contributions to the development of gallium indium phosphide/gallium arsenide photovoltaic cells and for her leadership in solar-cell reliability and quality.
