Corie Ralston and Marc Allaire, both staff scientists, have been promoted to new leadership positions. Ralston has assumed the position of Facility Director for the Biological Nanostructures Facility at the Molecular Foundry. Allaire has been appointed Head of the Molecular Biophysics and Integrated Bioimaging (MBIB) Division’s Berkeley Center for Structural Biology (BCSB). The BCSB manages six macromolecular crystallography beamlines at the Advanced Light Source (ALS).
Biosciences Area 2020 LDRD Projects
The projects of 14 Biosciences Area scientists and engineers received funding through the FY20 Laboratory Directed Research and Development (LDRD) program. The funded projects span a diverse array of topics and approaches including: developing closed-loop plastics from biogenic feedstocks; reimagining a root system optimized for plant-microbe interactions; and creating computational tools for extracting macromolecular conformational dynamics. Lab-wide, 96 projects were selected from a field of 168 proposals. Biosciences Area efforts account for 18.5 percent of the $23 million allocated.
MBIB Leadership Changes Announced
Molecular Biophysics and Integrated Bioimaging (MBIB) Division Director Paul Adams has announced a number of changes in the Division leadership, effective October 1. Earlier this summer, Corie Ralston agreed to serve as the Interim Director of the Molecular Foundry’s Biological Nanostructures Facility. She will step down as MBIB Division Deputy and remain as the Head of the Berkeley Center for Structural Biology (BCSB) at the Advanced Light Source (ALS).
X-ray Footprinting Reveals Molecular Basis of Orange Carotenoid Protein Photoprotection
Researchers at Berkeley Lab and Michigan State University (MSU), led by Corie Ralston and Cheryl Kerfeld, performed X-ray footprinting mass spectrometry (XFMS) experiments at the Advanced Light Source (ALS) beamline 5.3.1, which revealed new mechanistic details of the key events in orange carotenoid protein (OCP) photoprotection. XFMS is ideally suited to probing conformational dynamics at the single residue level, providing both a spatial and temporal view of site-specific changes in the OCP and its interaction with the fluorescence recovery protein (FRP). The experiments showed that FRP provides an extended binding region that holds the OCP together and forces proximity of the two domains that accelerate relaxation of OCP to its native state.
Biosciences Area FY19 LDRD Projects
The projects of 13 Biosciences Area scientists and engineers received funding through the FY19 Laboratory Directed Research and Development (LDRD) program. The funded projects span a diverse array of topics and approaches including the harnessing of microbiome data to uncover patterns of mutualism, evaluating radiobiological effects of laser-accelerated ion beams, improving bioenergy yield under drought stress, and the application of machine learning in tomogram segmentation. Lab-wide, 89 projects were selected from a field of 158 proposals. Biosciences Area efforts account for 15.07 percent of the $22.2 million allocated.
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