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The mysterious route of sterols in oomycetes
PLoS Pathogens, 2021 Sterols are a class of lipids with essential roles in sustaining the domain structure of cell membranes and regulating biological processes [1]. Human health is affected by high cholesterol levels [2]; drugs preventing this are widely used. Also striking is the high demand for compounds classified as sterol biosynthesis inhibitors (SBIs), either as ...
Weizhen Wang +2 more
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Microbial Partnerships of Pathogenic Oomycetes
PLoS Pathogens, 2017 Microbial Partnerships of Pathogenic ...
Eric Galiana
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2023
Abstract Oomycetes are in the Stramenopiles group of protists and many are aggressive plant pathogens. Oomycetes grow as coenocytic hyphae creating mycelial networks. They can reproduce through long-lasting sexual oospores or asexual chlamydospores.
Gregory S. Gilbert, Ingrid M. Parker
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Abstract Oomycetes are in the Stramenopiles group of protists and many are aggressive plant pathogens. Oomycetes grow as coenocytic hyphae creating mycelial networks. They can reproduce through long-lasting sexual oospores or asexual chlamydospores.
Gregory S. Gilbert, Ingrid M. Parker
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Population Structure of Oomycetes
1999The class Oomycetes includes saprobes and pathogens of both plants and insects. However, the plant pathogens have been studied most intensively so will be the primary subject of this chapter. Important plant pathogens include Pythium, Phytophthora, and the Peronosporaceae, commonly known as the downy mildews.
Drenth, Andre, Goodwin, Stephen B.
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2013
The most important oomycete forest pathogens comprise two genera: Pythium and the formidable genus Phytophthora, whose name appropriately means 'plant destroyer'. Pythium spp. cause seed and root rots and damping off diseases that thwart seedling establishment, and have been implicated in helping to drive forest diversity patterns through increased ...
Hayden, K.J. +2 more
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The most important oomycete forest pathogens comprise two genera: Pythium and the formidable genus Phytophthora, whose name appropriately means 'plant destroyer'. Pythium spp. cause seed and root rots and damping off diseases that thwart seedling establishment, and have been implicated in helping to drive forest diversity patterns through increased ...
Hayden, K.J. +2 more
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Exoproteinases of the Oomycete Phytophthora infestans
Applied Biochemistry and Microbiology, 2004When grown in a medium containing heat-stable potato tuber proteins, the oomycete Phytophthora infestans (Mont.) de Bary produces a set of exoproteinases active at neutral and mildly basic pH values. These extracellular proteinases have been shown by SDS-PAGE with the presence of gelatin to include at least six components differing in molecular weight.
E L, Gvozdeva +4 more
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Lactate Dehydrogenases in Oomycetes
Mycologia, 1972Lactate dehydrogenases [D(-)-lactate: NAD oxidoreductase, E.C. 1.1.1.28] have recently been detected in a number of lower fungi particularly among the Oomycetes (Gleason and Price, 1969; Warren and Mullins, 1969; LeJohn, 1971) and the Chytridiomycetes (Gleason and Price, 1969; LeJohn, 1971).
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Recent advances in oomycete genomics
2020The oomycetes are a class of ubiquitous, filamentous microorganisms that include some of the biggest threats to global food security and natural ecosystems. Within the oomycete class are highly diverse species that infect a broad range of animals and plants. Some of the most destructive plant pathogens are oomycetes, such as Phytophthora infestans, the
Jamie, McGowan, David A, Fitzpatrick
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