Genetic characterization, evaluation of growth and production of biomass of strains from wild edible mushrooms of Lyophyllum of Central Mexico

Abstract The present study conducted a genetic characterization and determined growth rate and biomass production in solid and liquid media, using strains obtained from wild edible sporomes of Lyophyllum that grow in high mountains. Vegetative isolation was used to obtain a total of four strains, which were divided into two clades within the section Difformia: Lyophyllum sp. and Lyophyllum aff. shimeji. Growth rate and biomass production were influenced by both the culture media and the strains. In a potato dextrose agar medium, the strains presented a higher growth rate, while in a malt extract-peptone and yeast agar medium, the growth rate was lower, but with a higher biomass production that was equal to that in the malt extract-peptone and yeast liquid medium.

Isolation and expression of two polyketide synthase genes from Trichoderma harzianum 88 during mycoparasitism

Abstract Metabolites of mycoparasitic fungal species such as Trichoderma harzianum 88 have important biological roles. In this study, two new ketoacyl synthase (KS) fragments were isolated from cultured Trichoderma harzianum 88 mycelia using degenerate primers and analysed using a phylogenetic tree. The gene fragments were determined to be present as single copies in Trichoderma harzianum 88 through southern blot analysis using digoxigenin-labelled KS gene fragments as probes. The complete sequence analysis in formation of pksT-1 (5669 bp) and pksT-2 (7901 bp) suggests that pksT-1 exhibited features of a non-reducing type I fungal PKS, whereas pksT-2 exhibited features of a highly reducing type I fungal PKS. Reverse transcription polymerase chain reaction indicated that the isolated genes are differentially regulated in Trichoderma harzianum 88 during challenge with three fungal plant pathogens, which suggests that they participate in the response of Trichoderma harzianum 88 to fungal plant pathogens. Furthermore, disruption of the pksT-2 encoding ketosynthase–acyltransferase domains through Agrobacterium -mediated gene transformation indicated that pksT-2 is a key factor for conidial pigmentation in Trichoderma harzianum 88.

Kinetic analysis of gene expression during mycelium to yeast transition and yeast to mycelium germination in Paracoccidioides brasiliensis / Análisis de la cinética de expresión de genes durante la transición de micelio a levadura y la germinación levadura a micelio en Paracoccidioides brasiliensis

Introduction: Paracoccidioidomycosis is an endemic systemic mycosis caused by Paracoccidioides brasiliensis, a thermally dimorphic fungus that in tissues and cultures at 37°C grows as a yeast while at lower temperatures (less than 24°C) it becomes a mold; however the genes that rule these processes and their expression are poorly understood. Objective: This research focused on the kinetic expression of certain genes in P. brasiliensis throughout the dimorphic process, one that involves the transition from the mycelium to yeast forms and the germination from the yeast to mycelium form. Materials and methods: A real-time quantitative polymerase chain reaction (RT-qPCR) was optimized to measure the expression of ten genes connected with diverse cellular functions including cell synthesis and wall structure, oxidative stress response, heat shock response, metabolism, proteins’ processing, solute transport across the cell membrane and signal transduction pathways at different time points during the mycelia to yeast transition, as well as in the yeast to mycelia germination processes. Results: Genes involved in cell synthesis and wall structure, metabolism and signal transduction were differentially expressed and highly up-regulated during the yeast to mycelia germination process; on the other hand, genes involved in heat shock response, cell synthesis and wall structure were highly up-regulated during the mycelia to yeast transition process. The remaining genes were differentially regulated during both processes. Conclusion: In this work the up-regulation of certain genes involved in the morphological changes occurring in P. brasiliensis yeast and mycelia forms were confirmed, indicating that these biological processes play an important role during the host-pathogen interactions, as well as in the fungus adaptation to environmental conditions.

Introducción. La paracoccidioidomicosis es una micosis sistémica causada por el hongo termodimorfo Paracoccidioides brasiliensis. En tejidos y cultivos a 37°C crece como levadura, mientras que a temperaturas menores de 24°C crece como un moho. Sin embargo, se conoce poco sobre los genes que regulan estos procesos. Objetivo. Se evaluó la cinética de expresión de algunos genes en P. brasiliensis mediante el proceso de dimorfismo incluida la transición del micelio a levadura y de la germinación de levadura a micelio. Materiales y métodos. Se optimizó una PCR cuantitativa en tiempo real (RT-qPCR) para medir la expresión de diez genes relacionados con diversas funciones celulares que incluyeron: síntesis de pared, respuesta al estrés oxidativo, respuesta al choque térmico, metabolismo, procesamiento de proteínas, trasporte de solutos a través de membranas y transducción de señales, todo ello a diferentes tiempos durante la transición de micelio a levadura, así como de la germinación de levadura a micelio. Resultados. Se encontró que los genes relacionados con síntesis de pared, metabolismo y transducción de señales, se expresaban de manera diferencial y con regulación positiva durante la germinaciónlevadura a micelio, mientras que algunos genes relacionados con respuesta a choque térmico y a síntesis de pared estaban sobreexpresados en la transición de micelio a levadura. Los genes restantes se regularon de manera diferencial en ambos procesos. Conclusiones. En este trabajo se confirma la regulación positiva de algunos genes relacionados con los cambios morfológicos de las fases levadura y micelio en P. brasiliensis, procesos biológicos que juegan un papel de importancia durante la interacción huésped-parásito y durante la adaptación del hongo al ambiente, respectivamente.

The cell wall of Paracoccidioides brasiliensis: insights from its transcriptome

The cell wall of a human pathogenic fungus is in contact with the host, serves as a barrier against host defense mechanisms and harbors most fungal antigens. In addition, cell wall biosynthesis pathways have been recognized as essential to viability and as specific drug targets. Paracoccidioides brasiliensis is a dimorphic fungus that presents mycelium morphology in the free environment and causes infection in a yeast form. The morphogenetic conversion is correlated with changes in the cell wall composition, organization and structure. Based on transcriptome analysis, the enzymes involved in the biosynthesis and remodeling of cell wall polysaccharides, as well as several cell wall-associated molecules of P. brasiliensis, were identified and addressed in further detail.