Biosciences Area

All-star Scientific Team Seeks to Edit Entire Microbiomes with CRISPR

CRISPR enzymes are like super scissors: they cut, delete, and add genes to a specific kind of cell, one at a time. But now, UC Berkeley faculty and Biosciences Area researchers have figured out how to add or modify genes within a microbial community of many different species, coining the phrase, “community editing.”

New Device Advances Commercial Viability of Solar Fuels

A research team led by Francesca Toma, a staff scientist in the Liquid Sunlight Alliance (LiSA) and Chemical Sciences Division (CSD), has developed an artificial photosynthesis device with remarkable stability and longevity as it converts sunlight and carbon dioxide into ethylene and hydrogen—two promising sources of renewable fuels. The team used electron microscopy at the Molecular Foundry and ambient pressure X-ray photoelectron spectroscopy (APXPS) at the Advanced Light Source  to reveal how the device degrades with use, then demonstrate how to mitigate those processes.

Sounding the Antiviral Alarm

At the cellular level, as a virus invades, its DNA or RNA trigger immune responses in the healthy host cells. How this process is triggered and a better understanding of the specific enzymes involved is still being defined. A collaboration across multiple X-ray facilities, including the Berkeley Center for Structural Biology beamlines at the Advanced Light Source (ALS), compared the enzymes involved in both human and insect immune responses. They used protein crystallography to closely examine the structures, and learned that although overall function is similar, each group of organisms has a slightly different DNA-binding surface and resulting molecular immune response.

DNA Synthesis: Flip It and Reverse It

Every time our cells divide, the DNA inside must be copied accurately to avoid mistakes that could be harmful to our health. Known as DNA synthesis, the precise sequence of steps has until now only been hypothesized. In a recent study, timestamps have been added to step-by-step snapshots, revealing a switch-up between two of the steps that, if replicated in additional studies, would upend our current assumptions of the process.

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