College of Chemistry

Breakthrough Study of Cell Signaling Holds Promise for Immune Research and Beyond

April 2, 2019
Aliyah Kovner | Berkeley Lab press release

NanoEP experiment

For the first time ever, scientists have imaged the process by which an individual immune system molecule is switched on in response to a signal from the environment, leading to the critical discovery that the activation process involves hundreds of proteins suddenly coming together to form a linked network through a process known as a phase transition.

Introducing a kinder, gentler way to blow holes in cells

March 29, 2019
By Robert Sanders | UC Berkeley media relations

NanoEP experiment

A new technique developed by University of California, Berkeley, nanomaterials scientists has overcome the overcome the obstacles to delivering macromolecules using inexpensive lab equipment to efficiently infuse large macromolecules into cells. Called nanopore-electroporation, or nanoEP, the technique gently creates fewer than a dozen tiny holes in each cell that are sufficient to let molecules into the cell without traumatizing it. The pores heal rapidly afterward. In tests, more than 95 percent of the cells survived the procedure. .

Revealing the rules behind virus scaffold construction

March 28, 2019
Press Release, Northwestern University

Frances Arnold

A team of researchers, including faculty from Northwestern Engineering and UC Berkeley's College of Chemistry, has expanded the understanding of how virus shells self-assemble, an important step toward developing techniques that use viruses as vehicles to deliver targeted drugs and therapeutics throughout the body.

Meet Frances Arnold, Teenage Rebel Turned Nobel Laureate

March 28, 2019
By Virgie Hoban | California Magazine

Frances Arnold

At 15, she was a class-skipping, catch-me-if-you-can maverick hitchhiking to D.C. to protest the Vietnam War. Looking back on those years now, Frances Arnold says, “Fifteen is one of those terrifying ages, where you’re frustrated because you know something’s wrong, but you have no idea how to fix it. So I did what I could, which is protest. “But as I’ve gone through my life,” she continues, “I know that it’s my responsibility to fix it. I’m much better at fixing things than protesting.”

With nanotubes, genetic engineering in plants is easy-peasy

February 25, 2019
By Robert Sanders | UC Berkeley media relations

genetic engineering in plants just got easier and safer New research reported from the lab of Markita Landry announces scientists could make genetically engineering any type of plant—in particular, gene editing with CRISPR-Cas9—simple and quick. To deliver a gene, the researchers grafted it onto a carbon nanotube, which is tiny enough to slip easily through a plant’s tough cell wall. To date, most genetic engineering of plants is done by firing genes into the tissue—a process known as biolistics—or delivering genes via bacteria. Both are successful only a small percentage of the time, which is a major limitation for scientists seeking to create disease - or drought-resistant crops or to engineer plants so they’re more easily converted to biofuels.

Arnold Lab wins top Berkeley safety award

March 11, 2019
College of Chemistry Press Release

Michael Boreen and Trevor LohreyThis year's grand prize in campus lab safety was awarded to the Arnold lab group in Chemistry, headed by Professor of Chemistry and Undergraduate Dean John Arnold. Lab safety coordinators and chemistry graduate students Michael Boreen and Trevor Lohrey were also aknowledged and on hand to accept the award for the group in February."

Alumna Emily Derbyshire looks for malaria’s vulnerabilities

March 4, 2019
The Scientist | Shawna Williams

Emily DerbyshireAs alumna Emily Derbyshire was wrapping up her PhD in 2008 at UC Berkeley's College of Chemistry and considering where to do her postdoc, Derbyshire gravitated toward malaria. “It was a problem that was not getting a lot of attention at the time,” despite its large human impact, she says. That’s what led her to dissecting mosquito throats: the idea was to head off malaria when it first invades and transforms within a host’s liver cells, which the parasite needs to do in order to proliferate and move on to the next stage in its life cycle, infecting red blood cells.

Alumni innovation in the news

March 13, 2019
UC Berkeley, College of Chemistry Press Release

Ripple MilkGraduates of the College’s Chemistry and Chemical and Biomolecular Engineering departments are making news as they become market innovators with their recent startups and products. News stories about Lygos, Chemistry and Ripple look at the latest chemistry innovations and funding for these companies.

Scientists measure near-perfect performance in low-cost semiconductors

March 15, 2019
Taylor Kubota | Stanford News

High-quality bespoke nanocrystalsTiny, easy-to-produce particles, called quantum dots, may soon take the place of more expensive single crystal semiconductors in advanced electronics found in solar panels, camera sensors and medical imaging tools. Although quantum dots have begun to break into the consumer market – in the form of quantum dot TVs – they have been hampered by long-standing uncertainties about their quality. Now, a new measurement technique developed by researchers at Stanford University and UC Berkeley may finally dissolve those doubts.

Researchers team up to create a drug sponge to absorb excess chemotherapy medication

March 15, 2019
UCSF Department of Radiology & Biomedical Imaging press release

Steven Hetts, MD, UCSFA research team from UCSF, UC Berkeley and 3D Printer Carbon, Inc. have created a drug sponge to absorb excess chemotherapy medication. The sponge is being designed so that after the chemotherapy has gone through the tumor, the part that hasn't treated the tumor could bind to the device, absorbing the excess dose like a "drug sponge." At the end of the procedure, the device is removed from the body, preventing the spread of toxicity throughout the body. "