Search Results - "Coaker, Gitta L."

Leaf microbiota in an agroecosystem: spatiotemporal variation in bacterial community composition on field-grown lettuce by Rastogi, Gurdeep, Sbodio, Adrian, Tech, Jan J, Suslow, Trevor V, Coaker, Gitta L, Leveau, Johan H J

“…The presence, size and importance of bacterial communities on plant leaf surfaces are widely appreciated. However, information is scarce regarding their…”
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The Oomycete Microbe-Associated Molecular Pattern, Arachidonic Acid, and an Ascophyllum nodosum -Derived Plant Biostimulant Induce Defense Metabolome Remodeling in Tomato by Lewis, Domonique C, van der Zwan, Timo, Richards, Andrew, Little, Holly, Coaker, Gitta L, Bostock, Richard M

“…Arachidonic acid (AA) is an oomycete-derived microbe-associated molecular pattern (MAMP) capable of eliciting robust defense responses and inducing resistance…”
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Overlapping Local and Systemic Defense Induced by an Oomycete Fatty Acid MAMP and Brown Seaweed Extract in Tomato by Lewis, Domonique C, Stevens, Danielle M, Little, Holly, Coaker, Gitta L, Bostock, Richard M

“…Eicosapolyenoic fatty acids are integral components of oomycete pathogens that can act as microbe-associated molecular patterns to induce disease resistance in…”
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ER Bodies Are Induced by Pseudomonas syringae and Negatively Regulate Immunity by Rufián, José S., Elmore, James M., Bejarano, Eduardo R., Beuzon, Carmen R., Coaker, Gitta L.

“…ER bodies are endoplasmic reticulum–derived organelles present in plants belonging to the Brassicales order. In Arabidopsis thaliana, ER bodies are ubiquitous…”
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A PCR-based toolbox for the culture-independent quantification of total bacterial abundances in plant environments by Rastogi, Gurdeep, Tech, Jan J., Coaker, Gitta L., Leveau, Johan H.J.

“…A major obstacle in the culture-independent estimation of the abundance of bacteria associated with plants is contamination with plant organelles, which…”
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New insights into the structure and function of phyllosphere microbiota through high-throughput molecular approaches by Rastogi, Gurdeep, Coaker, Gitta L., Leveau, Johan H.J.

“…Abstract The phyllosphere is an ecologically and economically important ecosystem that hosts a large and diverse microbial community. Phyllosphere microbiota…”
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Proteomic analysis of resistance mediated by Rcm 2.0 and Rcm 5.1, two loci controlling resistance to bacterial canker of tomato by Coaker, G.L, Willard, B, Kinter, M, Stockinger, E.J, Francis, D.M

“…Two quantitative trait loci from Lycopersicon hirsutum, Rcm 2.0 and Rcm 5.1, control resistance to Clavibacter michiganensis subsp. michiganensis, the causal…”
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Variation in microbial feature perception in the Rutaceae family with immune receptor conservation in citrus by Trinh, Jessica, Li, Tianrun, Franco, Jessica Y, Toruño, Tania Y, Stevens, Danielle M, Thapa, Shree P, Wong, Justin, Pineda, Rebeca, de Dios, Emmanuel Ávila, Kahn, Tracy L, Seymour, Danelle K, Ramadugu, Chandrika, Coaker, Gitta L

“…Citrus and wild relatives exhibit diversity in responsiveness to microbial features, but flagellin and chitin immune receptors are conserved in cultivated…”
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Novel Fusarium wilt resistance genes uncovered in natural and cultivated strawberry populations are found on three non-homoeologous chromosomes by Pincot, Dominique D. A., Feldmann, Mitchell J., Hardigan, Michael A., Vachev, Mishi V., Henry, Peter M., Gordon, Thomas R., Bjornson, Marta, Rodriguez, Alan, Cobo, Nicolas, Famula, Randi A., Cole, Glenn S., Coaker, Gitta L., Knapp, Steven J.

“…Key Message Several Fusarium wilt resistance genes were discovered, genetically and physically mapped, and rapidly deployed via marker-assisted selection to…”
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Phyllosphere 2022: 11th International Symposium on Leaf Surface Microbiology by Leveau, Johan H. J., Coaker, Gitta L., Marco, Maria L.

“…This Meeting Review article offers a synthesis of the science presented and discussed at the recently held 11th International Symposium on Leaf Surface…”
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A QTL Controlling Stem Morphology and Vascular Development in Lycopersicon esculentum x Lycopersicon hirsutum (Solanaceae) Crosses is Located on Chromosome 2 by Gitta L. Coaker, Meulia, Tea, Eileen A. Kabelka, Adriana K. Jones, David M. Francis

“…The vascular tissue of higher plants is organized into a continuous and unified system that undergoes a transition between two highly differentiated…”
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A QTL controlling stem morphology and vascular development in Lycopersicon esculentumxLycopersicon hirsutum (Solanaceae) crosses is located on chromosome 2 by Coaker, Gitta L, Meulia, Tea, Kabelka, Eileen A, Jones, Adriana K, Francis, David M

“…The vascular tissue of higher plants is organized into a continuous and unified system that undergoes a transition between two highly differentiated…”
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A QTL controlling stem morphology and vascular development in Lycopersicon esculentum × Lycopersicon hirsutum (Solanaceae) crosses is located on chromosome 2 by Coaker, Gitta L., Meulia, Tea, Kabelka, Eileen A., Jones, Adriana K., Francis, David M.

“…The vascular tissue of higher plants is organized into a continuous and unified system that undergoes a transition between two highly differentiated…”
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Measuring the effect of quantitative trait loci on vascular morphology and development in the tomato stem by Coaker, G.L, Francis, D.M

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