Analysis of gene expression in response to cadmium and heat shock in the aquatic fungus Blastocladiella emersonii / Análise da expressão gênica em resposta ao choque térmico e cádmio no fungo aquático Blastocladiella emersonii

AUTOR(ES)

Raphaela de Castro Georg

DATA DE PUBLICAÇÃO

2006

RESUMO

In this work we realized a large scale, sequencing program of cDNAs libraries obtained from mRNA of B. emersonii cells submitted to heat shock and cadmium stress. A total of 6350 high quality expressed sequence tags (ESTs) were obtained, representing 2326 unique putative genes (unigenes) of this fungus. From these putative unigenes, 1282 genes were classified at least in one of the three Gene Ontology Consortium (GO) categories. The analysis of the partial transcriptome of B. emersonii, determined until now, allowed the identification of 78 unigenes encoding molecular chaperones of all known protein families. To evaluate the global expression of the genes in response to environmental stresses, such as heat shock and cadmium, DNA microarray assays were performed. We observed that in response to heat shock B. emersonii induces the expreession of genes encoding proteins related to protein folding and proteolysis, as expected under high temperature conditions, as well as genes encoding proteins with antioxidant properties and proteins involved in nucleotide and carbohydrate metabolism. In response to cadmium stress, we mainly verified the induction of genes for proteins with antioxidant properties, proteins involved in amino acid metabolism, proteins related to cellular transport and proteins related to protein folding and proteolysis. One of the consequences of the exposure to cadmium is the increase of oxidative stress, and antioxidant proteins have a fundamental role in the response to this kind of injury. Amongst the genes observed during the B. emersonii EST sequencing program, ten genes encoding distinct proteins from the Hsp70 family were observed. Nine of them are expressed at least in one stage of the fungus development and seven genes presented a significant induction during heat shock treatment. These data suggest that the hsp70 genes perform an important role during development and in response to heat stress in B. emersonii. Another interesting result from this work was the enrichment of ESTs containing introns in the stress libraries. Thus, heat shock and cadmium stress decrease the efficiency of intron processing in B. emersonii, allowing for intron characterization. The cDNA for the Hsp17 protein presented the highest number of ESTs sequenced from the stress libraries. Northern blot experiments indicated that the hsp17 gene is expressed at very low levels throughout the life cycle of B. emersonii, however, as expected its expression increases drastically when sporulation or germination cells are submitted to heat shock. Hsp17 protein levels accompany its mRNA levels, indicating that the control of expression of the hsp17 gene occurs at a transcriptional level.

ASSUNTO(S)

cádmio dna microarrays choque térmico chaperones moleculares heat shock est cadmium microarranjos de dna est molecular chaperones

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