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Full-Text Articles in Organisms
How Megadrought Causes Extensive Mortality In A Deep-Rooted Shrub Species Normally Resistant To Drought-Induced Dieback: The Role Of A Biotic Mortality Agent, Natalie M. Aguirre, Marissa E. Ochoa, Helen I. Holmlund, Gabriella N. Palmeri, Emily R. Lancaster, Gina S. Gilderman, Shaquetta R. Taylor, Kaitlyn E. Sauer, Adriana J. Borges, Avery N.D. Lamb, Sarah B. Jacques, Frank W. Ewers, Stephen D. Davis
How Megadrought Causes Extensive Mortality In A Deep-Rooted Shrub Species Normally Resistant To Drought-Induced Dieback: The Role Of A Biotic Mortality Agent, Natalie M. Aguirre, Marissa E. Ochoa, Helen I. Holmlund, Gabriella N. Palmeri, Emily R. Lancaster, Gina S. Gilderman, Shaquetta R. Taylor, Kaitlyn E. Sauer, Adriana J. Borges, Avery N.D. Lamb, Sarah B. Jacques, Frank W. Ewers, Stephen D. Davis
School of Medicine Faculty Publications
Southern California experienced unprecedented megadrought between 2012 and 2018. During this time, Malosma laurina, a chaparral species normally resilient to single-year intense drought, developed extensive mortality exceeding 60% throughout low-elevation coastal populations of the Santa Monica Mountains. We assessed the physiological mechanisms by which the advent of megadrought predisposed M. laurina to extensive shoot dieback and whole-plant death. We found that hydraulic conductance of stem xylem (Ks, native) was reduced seven to 11-fold in dieback adult and resprout branches, respectively. Staining of stem xylem vessels revealed that dieback plants experienced 68% solid-blockage, explaining the reduction in water transport. Following Koch's …
Solid-State Nmr Analysis Of Unlabeled Fungal Cell Walls From Aspergillus And Candida Species, Liyanage D. Fernando, Malitha C. Dickwella Widanage, S. Chandra Shekar, Frederic Mentink-Vigier, Ping Wang, Sungsool Wi, Tuo Wang
Solid-State Nmr Analysis Of Unlabeled Fungal Cell Walls From Aspergillus And Candida Species, Liyanage D. Fernando, Malitha C. Dickwella Widanage, S. Chandra Shekar, Frederic Mentink-Vigier, Ping Wang, Sungsool Wi, Tuo Wang
School of Medicine Faculty Publications
Fungal infections cause high mortality in immunocompromised individuals, which has emerged as a significant threat to human health. The efforts devoted to the development of antifungal agents targeting the cell wall polysaccharides have been hindered by our incomplete picture of the assembly and remodeling of fungal cell walls. High-resolution solid-state nuclear magnetic resonance (ss NMR) studies have substantially revised our understanding of the polymorphic structure of polysaccharides and the nanoscale organization of cell walls in Aspergillus fumigatus and multiple other fungi. However, this approach requires 13C/15N-enrichment of the sample being studied, severely restricting its application. Here we employ the dynamic …