José Antonio Cervantes-Chávez scite author profile

Cells possess stress-activated protein kinase (SAPK) signalling pathways, which are activated practically in response to any cellular insult, regulating responses for survival and adaptation to harmful environmental changes. To understand the function of SAPK pathways in T. atroviride, mutants lacking the MAPKK Pbs2 and the MAPK Tmk3 were analysed under several cellular stresses, and in their response to light. All mutants were highly sensitive to cellular insults such as osmotic and oxidative stress, cell wall damage, high temperature, cadmium, and UV irradiation. Under oxidative stress, the Tmk3 pathway showed specific roles during development, which in conidia are essential for tolerance to oxidant agents and appear to play a minor role in mycelia. The function of this pathway was more evident in Δpbs2 and Δtmk3 mutant strains when combining oxidative stress or cell wall damage with light. Light stimulates tolerance to osmotic stress through Tmk3 independently of the photoreceptor Blr1. Strikingly, photoconidiation and expression of blue light regulated genes was severally affected in Δtmk3 and Δpbs2 strains, indicating that this pathway regulates light responses. Furthermore, Tmk3 was rapidly phosphorylated upon light exposure. Thus, our data indicate that Tmk3 signalling cooperates with the Blr photoreceptor complex in the activation of gene expression.

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An Immunity-Triggering Effector from the Barley Smut Fungus Ustilago hordei Resides in an Ustilaginaceae-Specific Cluster Bearing Signs of Transposable Element-Assisted Evolution

Ali

Laurie

Linning

et al. 2014

PLoS Pathog

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The basidiomycete smut fungus Ustilago hordei was previously shown to comprise isolates that are avirulent on various barley host cultivars. Through genetic crosses we had revealed that a dominant avirulence locus UhAvr1 which triggers immunity in barley cultivar Hannchen harboring resistance gene Ruh1, resided within an 80-kb region. DNA sequence analysis of this genetically delimited region uncovered the presence of 7 candidate secreted effector proteins. Sequence comparison of their coding sequences among virulent and avirulent parental and field isolates could not distinguish UhAvr1 candidates. Systematic deletion and complementation analyses revealed that UhAvr1 is UHOR_10022 which codes for a small effector protein of 171 amino acids with a predicted 19 amino acid signal peptide. Virulence in the parental isolate is caused by the insertion of a fragment of 5.5 kb with similarity to a common U. hordei transposable element (TE), interrupting the promoter of UhAvr1 and thereby changing expression and hence recognition of UhAVR1p. This rearrangement is likely caused by activities of TEs and variation is seen among isolates. Using GFP-chimeric constructs we show that UhAvr1 is induced only in mated dikaryotic hyphae upon sensing and infecting barley coleoptile cells. When infecting Hannchen, UhAVR1p causes local callose deposition and the production of reactive oxygen species and necrosis indicative of the immune response. UhAvr1 does not contribute significantly to overall virulence. UhAvr1 is located in a cluster of ten effectors with several paralogs and over 50% of TEs. This cluster is syntenous with clusters in closely-related U. maydis and Sporisorium reilianum. In these corn-infecting species, these clusters harbor however more and further diversified homologous effector families but very few TEs. This increased variability may have resulted from past selection pressure by resistance genes since U. maydis is not known to trigger immunity in its corn host.

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Polyamine Metabolism in Fungi with Emphasis on Phytopathogenic Species

Valdés-Santiago

Cervantes-Chávez

León-Ramírez

et al. 2012

Journal of Amino Acids

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Polyamines are essential metabolites present in all living organisms, and this subject has attracted the attention of researchers worldwide interested in defining their mode of action in the variable cell functions in which they are involved, from growth to development and differentiation. Although the mechanism of polyamine synthesis is almost universal, different biological groups show interesting differences in this aspect that require to be further analyzed. For these studies, fungi represent interesting models because of their characteristics and facility of analysis. During the last decades fungi have contributed to the understanding of polyamine metabolism. The use of specific inhibitors and the isolation of mutants have allowed the manipulation of the pathway providing information on its regulation. During host-fungus interaction polyamine metabolism suffers striking changes in response to infection, which requires examination. Additionally the role of polyamine transporter is getting importance because of its role in polyamine regulation. In this paper we analyze the metabolism of polyamines in fungi, and the difference of this process with other biological groups. Of particular importance is the difference of polyamine biosynthesis between fungi and plants, which makes this process an attractive target for the control of phytopathogenic fungi.

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Regulatory role of the PKA pathway in dimorphism and mating in Yarrowia lipolytica

Cervantes-Chávez

Kronberg

Passeron

et al. 2009

Fungal Genetics and Biology

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STE11disruption reveals the central role of a MAPK pathway in dimorphism and mating inYarrowia lipolytica

Cervantes-Chávez

Ruíz-Herrera

2006

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Yarrowia lipolytica is a dimorphic fungus whose morphology is controlled by several factors such as pH and different compounds. To determine if the STE11-mitogen-activated protein kinase (MAPK) pathway plays a role in dimorphism of Y. lipolytica, we isolated the gene encoding a Mapkkk. The isolated gene (STE11) has an ORF of 2832 bp without introns, encoding a protein of 944 amino acids, with a theoretical Mr of 100.9 kDa, that exhibits high homology to fungal Mapkkks. Disruption of the STE11 gene was achieved by the pop-in/pop-out procedure. Growth rate and response to osmotic stress or agents affecting wall integrity were unaffected in the deleted mutants, but they lost the capacity to mate and to grow in the mycelial form. Both alterations were reverted by transformation with the wild-type STE11 gene. The Y. lipolytica STE11 gene driven by two different promoters was unable to complement Saccharomyces cerevisiae ste11Delta mutants, although the gene was transcribed. Also, a wild-type MAPKKK gene from Ustilago maydis failed to complement Y. lipolyticaDeltaste11 mutants. Both negative results were attributed to a failure of the transgenic gene products to interact with the corresponding regulatory and scaffold proteins. This hypothesis was supported by the observation that a truncated version of the U. maydis MAPKKK gene reversed mating and dimorphic defects in the mutants. All these results demonstrate that the MAPK pathway is essential for both morphogenesis and mating in Y. lipolytica.

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