Results
… the 2023 Highly Cited Researchers from the JGI recognized for their “significant influence in their chosen field or … all instrumental in the development of the Novel Metagenome Protein Families (NMPF) Catalog . Published in the October … the vast functional diversity of microbes by looking at protein function within them. Kyrpides and Roux also worked …
Learn more
… a renewable energy future? Can they help lock away more carbon? Xiaohan Yang, a scientist at Oak Ridge National …
Learn more
… A nuanced understanding of peat moss drives insight into carbon storage The Science Boggy peatlands, which hold … by minimizing flood risks and filtering water. Peat formed there over thousands of years sequesters more carbon … vegetation types in the world combined. Harvesting peat for energy has been increasingly discouraged due to …
Learn more
… fungal mitochondrial genome data, unlocking new potential for AI-driven studies of energy metabolism. The Science … this set, the same 15 core genes — 14 encoding energy-production proteins plus one ribosomal protein gene — were present in …
Learn more
… Together, these teams provide analysis support and R&D for production and user science. He received his Ph.D. from the … 85(18):e01210-19 Price et al 2018. Mutant phenotypes for thousands of bacterial genes of unknown function. Nature … Wellcome Trust Prize studentship Editorial board member for Scientific Reports …
Learn more
… demonstrate how their laboratory and data science efforts support users, advance foundational science and enable … expertise to support the global research community in studies of complex biological and environmental systems. We …
Learn more
… — an energetically expensive feat thought to be too costly for them. The Science Anaerobic fungi, which die in the … can more easily convert plants into carbon-neutral biofuels . What’s more, many natural products have potential … that these expressed genes translated into expected proteins. That work was done in collaboration with the …
Learn more
… dance between a virus and microbial cell is an embrace. For a virus with a “head-tail” morphology, this means using proteins on its tail fibers to latch onto a specific target … or DGR. The DGR could mutate the virus’ tail fiber proteins, and thereby allow them to embrace different cells. …
Learn more

