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Literature DB >> 29979126

How Does Phytophthora infestans Evade Control Efforts? Modern Insight Into the Late Blight Disease.

Wiphawee Leesutthiphonchai¹, Andrea L Vu¹, Audrey M V Ah-Fong¹, Howard S Judelson¹.

Abstract

The infamous oomycete Phytophthora infestans has been a persistent threat to potato and tomato production worldwide, causing the diseases known as late blight. This pathogen has proved to be remarkably adept at overcoming control strategies including host-based resistance and fungicides. This review describes the features of P. infestans that make it such a daunting challenge to agriculture. These include a stealthy lifestyle that helps P. infestans evade plant defenses, effectors that suppress host defenses and promote susceptibility, profuse sporulation with a short latent period that enables rapid dissemination, and a genome structure that promotes the adaptive evolution of P. infestans by fostering genetic diversity. Nevertheless, there is reason to be optimistic that accumulated knowledge about the biology of P. infestans and its hosts will lead to improved management of late blight.

Entities: Species

Mesh：

Year: 2018 PMID： 29979126 DOI： 10.1094/PHYTO-04-18-0130-IA

Source DB: PubMed Journal: Phytopathology ISSN： 0031-949X Impact factor: 4.025

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Cited

13 in total

1. Mitochondrial Genome Contributes to the Thermal Adaptation of the Oomycete Phytophthora infestans.

Authors: Lin-Lin Shen; Abdul Waheed; Yan-Ping Wang; Oswald Nkurikiyimfura; Zong-Hua Wang; Li-Na Yang; Jiasui Zhan
Journal: Front Microbiol Date: 2022-06-28 Impact factor: 6.064

2. Niche-specific metabolic adaptation in biotrophic and necrotrophic oomycetes is manifested in differential use of nutrients, variation in gene content, and enzyme evolution.

Authors: Audrey M V Ah-Fong; Meenakshi S Kagda; Melania Abrahamian; Howard S Judelson
Journal: PLoS Pathog Date: 2019-04-19 Impact factor: 6.823

3. Metabolic Model of the Phytophthora infestans-Tomato Interaction Reveals Metabolic Switches during Host Colonization.

Authors: Francine Govers; Dick de Ridder; Sander Y A Rodenburg; Michael F Seidl; Howard S Judelson; Andrea L Vu
Journal: mBio Date: 2019-07-09 Impact factor: 7.867

4. Novel Aspects on The Interaction Between Grapevine and Plasmopara viticola: Dual-RNA-Seq Analysis Highlights Gene Expression Dynamics in The Pathogen and The Plant During The Battle For Infection.

Authors: Silvia Laura Toffolatti; Gabriella De Lorenzis; Matteo Brilli; Mirko Moser; Vahid Shariati; Elahe Tavakol; Giuliana Maddalena; Alessandro Passera; Paola Casati; Massimo Pindo; Alessandro Cestaro; David Maghradze; Osvaldo Failla; Piero Attilio Bianco; Fabio Quaglino
Journal: Genes (Basel) Date: 2020-02-28 Impact factor: 4.096

5. A wheat cysteine-rich receptor-like kinase confers broad-spectrum resistance against Septoria tritici blotch.

Authors: Cyrille Saintenac; Florence Cambon; Lamia Aouini; Els Verstappen; Seyed Mahmoud Tabib Ghaffary; Théo Poucet; William Marande; Hélène Berges; Steven Xu; Maëlle Jaouannet; Bruno Favery; Julien Alassimone; Andrea Sánchez-Vallet; Justin Faris; Gert Kema; Oliver Robert; Thierry Langin
Journal: Nat Commun Date: 2021-01-19 Impact factor: 14.919

How Does Phytophthora infestans Evade Control Efforts? Modern Insight Into the Late Blight Disease.

1. Mitochondrial Genome Contributes to the Thermal Adaptation of the Oomycete Phytophthora infestans.

2. Niche-specific metabolic adaptation in biotrophic and necrotrophic oomycetes is manifested in differential use of nutrients, variation in gene content, and enzyme evolution.

3. Metabolic Model of the Phytophthora infestans-Tomato Interaction Reveals Metabolic Switches during Host Colonization.

4. Novel Aspects on The Interaction Between Grapevine and Plasmopara viticola: Dual-RNA-Seq Analysis Highlights Gene Expression Dynamics in The Pathogen and The Plant During The Battle For Infection.

5. A wheat cysteine-rich receptor-like kinase confers broad-spectrum resistance against Septoria tritici blotch.

6. smartPARE: An R Package for Efficient Identification of True mRNA Cleavage Sites.

7. The Omics Hunt for Novel Molecular Markers of Resistance to Phytophthora infestans.

8. Invertases in Phytophthora infestans Localize to Haustoria and Are Programmed for Infection-Specific Expression.

9. In Tuber Biocontrol of Potato Late Blight by a Collection of Phenazine-1-Carboxylic Acid-Producing Pseudomonas spp.

Review 10. Phytophthora infestans: An Overview of Methods and Attempts to Combat Late Blight.