Results
… thermophiles, stabilizing the polymerase chain reaction technology that enables researchers to generating thousands … System, operated and supported by MSU’s Information Technology Center. …
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… decide on the order in which this fungus breaks down plant cell wall materials including lignin, cellulose and hemicellulose. The Impact N. crassa is the … Filamentous fungi are also being used in the biotechnology industry to produce enzymes, proteins, and other …
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… Genome annotations of two C. citriodora subspecies broaden understanding of the terpene synthase gene family across … annotation of two C. citriodora subspecies provides an excellent opportunity to investigate the conservation and … in biotic and abiotic stress responses. Overall, this study improves our understanding of the terpene synthase gene …
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… and environmental challenges. Chlamydomonas is a single-celled alga with a unique place in evolutionary history. … Retaining ancestral features of both plant and animal cells, it shares nearly 7,000 genes with other organisms (a … Merchant would go on to work on research that identified signaling pathways in Chlamydomonas. So, Merchant was …
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… kill outright, replicating so thoroughly that they lyse the cell — a process called lytic infection. But some viruses … cycling of carbon, nitrogen, and other elements, better understanding the predator-prey dynamics in these mats helps … sample — a small proportion of the sample’s billions of bacterial and archaeal cells — and detected the virus in 34 …
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… A deep dive into microbial genomics reveals one bacterial species is made of four ecologically distinct … carbon cycle — fixing, transforming, and respiring carbon. Understanding the metabolisms that SAR324 and other microbes … In order to determine the genome structure of SAR324 cells and their gene expression, the team then sequenced …
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… In order to do so, these organisms share space at cellular scale: fungi stretch a network of tendrils called … Berkeley National Laboratory (Berkeley Lab). Specific understanding of this symbiosis could offer improvements in … from both plant cells and fungal cells. “Because this technology relies on just polyadenylated transcript capture …
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