Differential Functions of Two Metalloproteases, Mrmep1 and Mrmep2, in Growth, Sporulation, Cell Wall Integrity, and Virulence in the Filamentous Fungus Metarhizium robertsii

Zhou, Rong; Zhou, Xiazhi; Fan, Ali; Wang, Zhangxun; Huang, Bo

doi:10.3389/fmicb.2018.01528

Cited by 25 publications

(18 citation statements)

References 35 publications

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“…The transcriptional profiles of RcMEP2, RcMEP3, RcMEP4, and RcMEP5 were examined during the infection process to wheat basal sheaths/stems, including five different inoculation time points (18,36,72,96, and 240 h post inoculation (hpi)) and in vitro culturing hypha. Quantitative RT-PCR (qRT-PCR) analyses indicated that during in vitro culturing, RcMEP2, RcMEP3, RcMEP4, and RcMEP5 displayed a very low transcriptional level set as 1, respectively.…”

Section: Transcriptional Profiles Of Rcmep2-rcmep5 During the Fungus mentioning

confidence: 99%

“…After purification, these His-TF-RcMEP2, His-TF-RcMEP2-1, and His-TF-RcMEP2-2 proteins were checked using sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE) ( Figure 3C). stems/sheaths, including five different infection time points (18,36,72,96, and 240 h post inoculation (hpi)) and compared to in vitro culturing. Error bars were calculated based on three replicates.…”

Section: Rcmep2 and Its M35 Domain-containing Peptides Induce Cell Dementioning

confidence: 99%

“…Metalloproteases include a diverse family of metal ion-dependent proteases and distribute widely in a broad diversity of pathogens [17,18]. Among them, protein sequences of zinc ion-dependent metalloproteases all contain the common HEXXH motif, in which two histidine (H) residues function as the first and the second zinc ligand, respectively [19][20][21].…”

Section: Introductionmentioning

confidence: 99%

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Genome-Wide Identification of M35 Family Metalloproteases in Rhizoctonia cerealis and Functional Analysis of RcMEP2 as a Virulence Factor during the Fungal Infection to Wheat

Pan

Wen

et al. 2020

IJMS

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Rhizoctonia cerealis is the causal pathogen of the devastating disease, sharp eyespot, of the important crop wheat (Triticum aestivum L.). In phytopathogenic fungi, several M36 metalloproteases have been implicated in virulence, but pathogenesis roles of M35 family metalloproteases are largely unknown. Here, we identified four M35 family metalloproteases from R. cerealis genome, designated RcMEP2–RcMEP5, measured their transcriptional profiles, and investigated RcMEP2 function. RcMEP2-RcMEP5 are predicted as secreted metalloproteases since each protein sequence contains a signal peptide and an M35 domain that includes two characteristic motifs HEXXE and GTXDXXYG. Transcription levels of RcMEP2-RcMEP5 markedly elevated during the fungus infection to wheat, among which RcMEP2 expressed with the highest level. Functional dissection indicated that RcMEP2 and its M35 domain could trigger H2O2 rapidly-excessive accumulation, induce cell death, and inhibit expression of host chitinases. This consequently enhanced the susceptibility of wheat to R. cerealis and the predicated signal peptide of RcMEP2 functions required for secretion and cell death-induction. These results demonstrate that RcMEP2 is a virulence factor and that its M35 domain and signal peptide are necessary for the virulence role of RcMEP2. This study facilitates a better understanding of the pathogenesis mechanism of metalloproteases in phytopathogens including R. cerealis.

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Section: Transcriptional Profiles Of Rcmep2-rcmep5 During the Fungus mentioning

confidence: 99%

Section: Rcmep2 and Its M35 Domain-containing Peptides Induce Cell Dementioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Genome-Wide Identification of M35 Family Metalloproteases in Rhizoctonia cerealis and Functional Analysis of RcMEP2 as a Virulence Factor during the Fungal Infection to Wheat

Pan

Wen

et al. 2020

IJMS

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“…To assess the effects of MrGpa1 on virulence, bioassays with Galleria mellonella larvae (RuiQing Bait, Shanghai, China) were performed as described previously (Zhou et al 2018). The larvae were immersed in conidial suspension (1 ´ 10 6 conidia /ml) for 90 s or injected (into the hemocoel) with 10 ml of conidial suspensions (1 ´ 10 5 conidia /ml) and incubated at 25 °C, Each treatment was performed in triplicate, with 18 larvae in each group.…”

Section: Phenotype Assaysmentioning

confidence: 99%

G-protein subunit Gai in mitochondria, MrGPA1, affects conidiation, stress resistance, and virulence of entomopathogenic fungus Metarhizium robertsii

Tong

Liu

et al. 2020

Preprint

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G proteins are critical modulators or transducers in various transmembrane signaling systems. They play key roles in numerous biological processes in fungi, including vegetative growth, development of infection-related structures, asexual sporulation, and virulence. However, their function in entomopathogenic fungi remains unclear. Here, we characterized the roles of MrGPA1, a G-protein subunit Gα i , in conidiation, stress resistance, and virulence in Metarhizium robertsii . MrGPA1 was localized in the mitochondria. MrGpa1 deletion resulted in a significant reduction (47%) in the conidiation capacity, and reduced expression of several key conidiation-related genes, including fluG , flbD , brlA , wetA , phiA , and stuA . Further, MrGpa1 disruption resulted in decreased fungal sensitivity to UV irradiation and thermal stress, as determined based on conidial germination of ∆MrGpa1 and wild-type strains. Chemical stress analysis indicated that MrGpa1 contributes to fungal antioxidant capacity and cell wall integrity, but is not involved in antifungal ability and osmotic stress. Importantly, insect bioassays involving (topical inoculation and injection) of Galleria mellonella larvae revealed decreased virulence of ∆MrGpa1 strain after cuticle infection. This was accompanied by decreased rates of appressorium formation and reduced expression of several cuticle penetration-related genes. These observations suggest that MrGpa1 contributes to the regulation of conidiation, UV irradiation, thermal stress response, antioxidant capacity and cell wall integrity in M. robertsii . This gene is also involved in insect cuticle penetration during infection. These findings raise the possibility of designing powerful strategies for genetic improvement of M. robertsii conidiation capacity and virulence for killing pests.

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“…Abuse of pesticides have caused serious threats to human health, environment, and the extinction of beneficial species (Gao et al, ; J. Xiao et al, ; J. J. Xiao et al, ). In recent years, more studies have focused on the development of biological approaches to effectively control S. litura (Li et al, ; Liu, Chen, Li, Yang, & Long, ; Wang et al, ; Zhou, Zhou, Fan, Wang, & Huang, ). The immune system of insects plays a crucial role in the success of biological control measures (Luo et al, ; Qian et al, ; Wang et al, ).…”

Section: Introductionmentioning

confidence: 99%

Characterization of the active fragments of Spodoptera litura Lebocin‐1

Yang

Zhan

Zhuo

et al. 2019

Arch Insect Biochem Physiol

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Insects can produce various antimicrobial peptides (AMPs) upon immune stimulation. One class of AMPs are characterized by their high proline content in certain fragments. They are generally called proline-rich antimicrobial peptides (PrAMPs). We previously reported the characterization of Spodoptera litura lebocin-1 (SlLeb-1), a PrAMP proprotein.Preliminary studies with synthetic polypeptides showed that among the four deductive active fragments, the C-terminal fragment SlLeb-1 (124-158) showed strong antibacterial activities. Here, we further characterized the antibacterial and antifungal activities of 124-158 and its four subfragments: 124-155, 124-149, 127-158, and 135-158. Only 124-158 and 127-158 could agglutinate bacteria, while 124-158 and four subfragments all could agglutinate Beauveria bassiana spores. Confocal microscopy showed that fluorescent peptides were located on the microbial surface. Fragment 135-158 lost activity completely against Escherichia coli and Staphylococcus aureus, and partially against Bacillus subtilis. Only 124-149 showed low activity against Serratia marcescens. Negative staining, transmission, and scanning electron microscopy of 124-158 treated bacteria showed different morphologies. Flow cytometry analysis of S. aureus showed that 124-158 and four subfragments changed bacterial subpopulations and

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Differential Functions of Two Metalloproteases, Mrmep1 and Mrmep2, in Growth, Sporulation, Cell Wall Integrity, and Virulence in the Filamentous Fungus Metarhizium robertsii

Cited by 25 publications

References 35 publications

Genome-Wide Identification of M35 Family Metalloproteases in Rhizoctonia cerealis and Functional Analysis of RcMEP2 as a Virulence Factor during the Fungal Infection to Wheat

Genome-Wide Identification of M35 Family Metalloproteases in Rhizoctonia cerealis and Functional Analysis of RcMEP2 as a Virulence Factor during the Fungal Infection to Wheat

G-protein subunit Gai in mitochondria, MrGPA1, affects conidiation, stress resistance, and virulence of entomopathogenic fungus Metarhizium robertsii

Characterization of the active fragments of Spodoptera litura Lebocin‐1

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Differential Functions of Two Metalloproteases, Mrmep1 and Mrmep2, in Growth, Sporulation, Cell Wall Integrity, and Virulence in the Filamentous Fungus Metarhizium robertsii

Cited by 25 publications

References 35 publications

Genome-Wide Identification of M35 Family Metalloproteases in Rhizoctonia cerealis and Functional Analysis of RcMEP2 as a Virulence Factor during the Fungal Infection to Wheat

Genome-Wide Identification of M35 Family Metalloproteases in Rhizoctonia cerealis and Functional Analysis of RcMEP2 as a Virulence Factor during the Fungal Infection to Wheat

G-protein subunit Gai in mitochondria, MrGPA1, affects conidiation, stress resistance, and virulence of entomopathogenic fungus Metarhizium robertsii﻿

Characterization of the active fragments of Spodoptera litura Lebocin‐1

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G-protein subunit Gai in mitochondria, MrGPA1, affects conidiation, stress resistance, and virulence of entomopathogenic fungus Metarhizium robertsii