Manasa R. Appidi
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View article: Unraveling Bacterial Adaptation Strategies in the Microbiome Shaped by the Chemical Environment of the Plant Rhizosphere
Unraveling Bacterial Adaptation Strategies in the Microbiome Shaped by the Chemical Environment of the Plant Rhizosphere Open
The rhizosphere is a dynamic environment where rhizodeposits that include primary and secondary metabolites and mucilage serve as nutrient sources for soil microorganisms, attracting them toward plant roots. However, understanding how thes…
View article: Decoding the chemical language of <i>Suillus</i> fungi: genome mining and untargeted metabolomics uncover terpene chemical diversity
Decoding the chemical language of <i>Suillus</i> fungi: genome mining and untargeted metabolomics uncover terpene chemical diversity Open
Ectomycorrhizal fungi establish mutually beneficial relationships with trees, trading nutrients for carbon. Suillus are ectomycorrhizal fungi that are critical to the health of boreal and temperate forest ecosystems. Comparative genomics h…
View article: Formation of a constructed microbial community in a nutrient-rich environment indicates bacterial interspecific competition
Formation of a constructed microbial community in a nutrient-rich environment indicates bacterial interspecific competition Open
Understanding the organizational principles of microbial communities is essential for interpreting ecosystem stability. Previous studies have investigated the formation of bacterial communities under nutrient-poor conditions or obligate re…
View article: KBase Narrative - Formation of a constructed microbial community in a nutrient rich environment indicates bacterial interspecific competition
KBase Narrative - Formation of a constructed microbial community in a nutrient rich environment indicates bacterial interspecific competition Open
This Narrative is the parent for the three Narratives referenced in "Formation of a constructed microbial community in a nutrient rich environment indicates bacterial interspecific competition." Wang J, Appidi MR, Burdick LH, Abraham PE, H…
View article: Decoding the chemical language of<i>Suillus</i>fungi: genome mining and untargeted metabolomics uncover terpene chemical diversity
Decoding the chemical language of<i>Suillus</i>fungi: genome mining and untargeted metabolomics uncover terpene chemical diversity Open
Ectomycorrhizal fungi establish mutually beneficial relationships with trees, trading nutrients for carbon. Suillus are ectomycorrhizal fungi that are critical to the health of boreal and temperate forest ecosystems. Comparative genomics h…
View article: The Promises, Challenges, and Opportunities of Omics for Studying the Plant Holobiont
The Promises, Challenges, and Opportunities of Omics for Studying the Plant Holobiont Open
Microorganisms are critical drivers of biological processes that contribute significantly to plant sustainability and productivity. In recent years, emerging research on plant holobiont theory and microbial invasion ecology has radically t…
View article: Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance
Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance Open
View article: Additional file 5 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance
Additional file 5 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance Open
Additional file 5.
View article: Additional file 7 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance
Additional file 7 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance Open
Additional file 7.
View article: Additional file 6 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance
Additional file 6 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance Open
Additional file 6.
View article: Additional file 4 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance
Additional file 4 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance Open
Additional file 4.
View article: Additional file 8 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance
Additional file 8 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance Open
Additional file 8.
View article: Additional file 2 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance
Additional file 2 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance Open
Additional file 2.
View article: Formation, characterization and modeling of emergent synthetic microbial communities
Formation, characterization and modeling of emergent synthetic microbial communities Open
Microbial communities colonize plant tissues and contribute to host function. How these communities form and how individual members contribute to shaping the microbial community are not well understood. Synthetic microbial communities, whe…
View article: Additional file 3 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance
Additional file 3 of Metaproteomics reveals insights into microbial structure, interactions, and dynamic regulation in defined communities as they respond to environmental disturbance Open
Additional file 3.