On July 14, Biosciences Principal Deputy Mary Maxon participated in the invitation-only Cellular Agriculture Innovators’ Workshop of New Harvest, a non-profit research institute with the mission of building and establishing the field of cellular agriculture. Maxon presented on public-private partnerships and pre-competitive collaborations for the advancement of the field, specifically looking at government programs that could assist in moving it forward.
The Golden Time to Do Hybrid Methodologies
The work of Eva Nogales and Jennifer Doudna, Molecular Biophysics & Integrated Bioimaging Division faculty scientists, were highlighted in the August 18 Nature technology feature article, “Let the structural symphony begin,” a discussion of the current “golden time to do hybrid methodologies,” according to Nogales. Structural biologists, such as Nogales who was interviewed for this article, now have “the tools to tackle important questions about cells’ molecular machinery that would have been impossible to answer just a few years ago.” Combining these imaging methods – selecting from an impressive suite of different imaging techniques – is an increasingly popular approach in the field of structural biology, in which X-ray crystallography has been the premier method for more than a century. According to the article, while “the most powerful insights come from (these) hybrid methodologies that integrate images from several different tools, ” it also has its drawbacks. Read the full article here.
Fleming Honored by Japanese Chemical Society
Graham R. Fleming, senior scientist in the Molecular Biophysics & Integrated Bioimaging Division, has been named an Honorary Member of the Chemical Society of Japan (CSJ). The award will be presented at the 97th CSJ Annual Meeting in March 2017. Fleming will join a select group of only fourteen living honorary members, five of whom are Nobel Laureates. The society was founded in 1878. With its current membership exceeding 34,000, it is one of the most affluent academic societies in Japan, covering most areas of pure and applied chemistry.
Biosciences Technology Among R&D 100 Award Finalists
A technology developed by Diane Bryant and Simon Morton, of the Molecular Biophysics & Integrated Bioimaging Division, has been named a 2016 R&D 100 Award finalist. The Compact Dynamic Beamstop (CDBS), a compact, customizable tool for X-ray scattering experiments providing real-time data, is one of seven Berkeley Lab technologies plus one multi-lab nomination including the Lab that made the list of finalists.
Widely recognized in industry, government, and academia as a mark of excellence for the most innovative ideas of the year, the R&D 100 Awards are the only industry-wide competition rewarding the practical applications of science. They recognize the most promising new products, processes, materials, or software developed throughout the world and introduced to the market the previous year. This year’s 100 award winners will be announced in November.
How Does a Bird Know What’s Coming Next?
Bengalese finches, songbirds that have been used to research the learning, perception, and production of bird song, are the model system used by Berkeley Lab scientist Kristofer Bouchard and Michael Brainard of UC San Francisco to determine the relationship between song sequence structure and brain activity. As reported in their PNAS article published last week, “Auditory-induced neural dynamics in sensory-motor circuitry predict learned temporal and sequential statistics of birdsong,” the researchers studied how the birds brain forms predictions for the timing and identity of specific “syllables” that it has learned to sing.
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