Zhirou Liu scite author profile

Zhirou Liu

2Publications

46Citation Statements Received

138Citation Statements Given

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138

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North West Agriculture and Forestry University

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An RXLR effector secreted by Phytophthora parasitica is a virulence factor and triggers cell death in various plants

Huang

Liu

et al. 2018

Molecular Plant Pathology

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Summary RXLR effectors encoded by Phytophthora species play a central role in pathogen–plant interactions. An understanding of the biological functions of RXLR effectors is conducive to the illumination of the pathogenic mechanisms and the development of disease control strategies. However, the virulence function of Phytophthora parasitica RXLR effectors is poorly understood. Here, we describe the identification of a P. parasitica RXLR effector gene, PPTG00121 ( PpE4 ), which is highly transcribed during the early stages of infection. Live cell imaging of P. parasitica transformants expressing a full‐length PpE4 (E4FL)‐mCherry protein indicated that PpE4 is secreted and accumulates around haustoria during plant infection. Silencing of PpE4 in P. parasitica resulted in significantly reduced virulence on Nicotiana benthamiana . Transient expression of PpE4 in N. benthamiana in turn restored the pathogenicity of the PpE4 ‐silenced lines. Furthermore, the expression of PpE4 in both N. benthamiana and Arabidopsis thaliana consistently enhanced plant susceptibility to P. parasitica . These results indicate that PpE4 contributes to pathogen infection. Finally, heterologous expression experiments showed that PpE4 triggers non‐specific cell death in a variety of plants, including tobacco, tomato, potato and A. thaliana . Virus‐induced gene silencing assays revealed that PpE4 ‐induced cell death is dependent on HSP90 , NPK and SGT1 , suggesting that PpE4 is recognized by the plant immune system. In conclusion, PpE4 is an important virulence RXLR effector of P. parasitica and recognized by a wide range of host plants.

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Population Genetic Analysis of Phytophthora parasitica From Tobacco in Chongqing, Southwestern China

et al. 2019

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Tobacco black shank, caused by Phytophthora parasitica, is one of the most notorious tobacco diseases and causes huge economic losses worldwide. Understanding the genetic variation of P. parasitica populations is essential to the development of disease control measures. In this research, 210 simple sequence repeat (SSR) markers for P. parasitica were identified, 10 of which were polymorphic among nine reference strains. We further performed population genetic analysis of 245 P. parasitica isolates randomly collected from tobacco fields in Chongqing for mating type, molecular variation at 14 SSR loci (four of which were identified previously), and sensitivity to the fungicide metalaxyl. The results showed that the A2 mating type was dominant and no A1 mating type isolate was discovered. SSR genotyping distinguished 245 P. parasitica isolates into 46 genotypes, four of which were dominant in the population. Low genotypic diversity and excess heterozygosity were common in nearly all of the populations from Chongqing. Population analysis showed that no differentiation existed among different populations. All isolates tested were highly sensitive to metalaxyl. Taken together, our results showed that the P. parasitica populations from tobacco fields in Chongqing belonged to a clonal lineage and were highly sensitive to metalaxyl.

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Zhirou Liu

An RXLR effector secreted by Phytophthora parasitica is a virulence factor and triggers cell death in various plants

Population Genetic Analysis of Phytophthora parasitica From Tobacco in Chongqing, Southwestern China

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