Results
… modern sugarcane cultivars are hybrids, each with more than 100 chromosomes; assembling a sugarcane genome is incredibly complex given its estimated size of 10 billion bases (more than three times the size of the … The final sugarcane sequence generated is 382 Mb; 25,316 protein-coding gene models were predicted with more than …
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… carbon and nitrogen, paving the way for future plants and trees to grow. However, fire changes the microbes within the … forests back to full function. Foresters can transplant trees and soils, targeting helpful bacteria, viruses and … namely, ectomycorrhizal fungi species that can promote tree establishment and growth. This study builds on the …
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… the crop and its microbiome. For three consecutive years (2016-2018), researchers conducted large-scale experiments in … site and then collect and process the samples starting at 10am Pacific time. JGI researchers helped develop the … datasets. The results from the first year showed that 10,727 genes or 44% of expressed genes respond to drought …
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… to slowly break down lignin (think of a fallen, decomposing tree in the forest). Because oxygen is essential to how … Research of the U.S. Department of Energy grant DE-SC0020420 (MAO), Institute for Collaborative Biotechnologies … (MAO), US Army Research Office contract W911NF-19-1-0010 (MAO), National Science Foundation grant MCB-1553721 …
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… in Antarctic lakes, some of which have salinities 10 times that of seawater. To shed light on the global … work was supported by the Australian Research Council (DP150100244) and the Australian Antarctic Science program (project …
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… researchers working in 21 fields. Congratulations to the 2022 Highly Cited Researchers from the JGI recognized for … was found. The study was featured on the New York Times 2022 List of Firsts as well as other year-end science … bacterial and archaeal genomes from diverse branches of the Tree of Life. Its latest addition — made possible in part …
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