Results
… The BioSANS instrument is at the Center for Structural Molecular Biology (CSMB) at Oak Ridge … University in St. Louis on “Solar Energy Conversion in Cyanobacterial Membranes” Marcus Foston, Washington … on “Integrated Multi-omics Analyses for the Prediction of Metabolic Flux in. Lignin Conversion” …
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… In the United States, cotton production centers around two varieties: 95 percent of what is grown is known as … Berkeley National Laboratory (Berkeley Lab) has now sequenced and assembled the genomes of these five cotton … insights on crop improvements at a genetic level, including why having multiple copies of their genomes (polyploidy) is …
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… The Plant Cell. Auxenochlorella is an allodiploid hybrid of two species, similar to a mule, but that is still able to … genome assembly, researchers offer a gapless end-to-end sequence of complete chromosomes. Auxenochlorella solves a … suggests directed evolution could quickly generate improved strains. Scientists have already used this alga to …
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… to climate change and devastating fungal infections. That’s why Mars, Inc., a maker of chocolate for more than 100 years and one of the world’s … through the Cacao Genome Database project. The genome sequence was assembled by the plant team at the HudsonAlpha …
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… microbial genomics reveals one bacterial species is made of four ecologically distinct groups with different … of SAR324 cells and their gene expression, the team then sequenced community genomes and expressed gene transcripts … data gave the team unprecedented resolution to study the network of genes that contribute to the metabolisms that …
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… — making it difficult to grasp a deeper understanding of fundamental aspects of fern biology and, more broadly, … power of plants, and the lessons they can teach us, are why the U.S. Department of Energy (DOE) Joint Genome … richardii marks the first published manuscript of a genome sequence generated through the OGG. For a long time, C-fern …
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