Regulation of Gene Expression by Phosphate in the Filamentous Fungus Neurospora crassa / Regulação da expressão gênica pelo fosfato no fungo filamentoso Neurospora crassa

AUTOR(ES)

Diana Ester Gras

DATA DE PUBLICAÇÃO

2009

RESUMO

Gene expression regulation is crucial for all organisms to rapidly adapt to environmental changes. These adaptive mechanisms are highly complex and most of them have not been completely elucidated. The inorganic phosphate (Pi), an essential nutrient for all organisms, is required for important cellular processes, such as nucleic acids biosynthesis and metabolic signaling. The Pi acquisition system in the filamentous fungus Neurospora crassa includes at least four regulatory genes: nuc-2, preg, pgov and nuc-1. Under limiting Pi conditions, NUC-2, an ankyrin-like repeat protein, inhibits the functioning of the PREG-PGOV complex, allowing the activation of the transcription factor NUC-1 and the expression of genes involved in phosphate acquisition, such as phosphatases, phosphate permeases and nucleases. Aiming at a better comprehension of the nuc-2 functionality in gene expression regulation in response to exogenous Pi levels, two cDNA subtraction libraries were constructed comparing N. crassa wild type St.L.74A and nuc-2A strains, grown under Pi starvation. We obtained 52 NUC-2 up- and 16 downregulated genes. Functional categorization of these sequences revealed genes involved in several cellular processes, such as cellular transport, transcriptional regulation, metabolism, protein synthesis and development. Among the NUC-2 negatively modulated genes, we identified the MAK-2 (mitogen-activated protein kinase-2) protein coding gene, involved in the intracellular signaling pathway. The functional role of this gene in the extracellular Pi sensing was evaluated by oligonucleotide microarrays, comparing wild type and mak-2 strains responses under Pi starvation. We identified 4.214 MAK-2 regulated genes, among them the cyclin coding gene, preg. Furthermore, 3.174 genes regulated in response to Pi levels were identified. In a nutshell, the results obtained in this work reveal novel molecular aspects of the adaptation to extracellular Pi availability, suggesting that the mak-2 gene constitutes a novel component of the N. crassa phosphate sensing and signaling pathway.

ASSUNTO(S)

fosfato inorgânico neurospora crassa mak-2. inorganic phosphate nuc-2. neurospora crassa mak-2 gene expression expressão gênica nuc-2

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