Increased metabolite production by deletion of an HDA1-type histone deacetylase in the phytopathogenic fungi, Magnaporthe oryzae (Pyricularia oryzae) and Fusarium asiaticum.

Histone deacetylases (HDACs) play an important role in the regulation of chromatin structure and gene expression. We found that dark pigmentation of Magnaporthe oryzae (anamorph Pyricularia oryzae) ΔMohda1, a mutant strain in which an orthologue of the yeast HDA1 was disrupted by double cross-over homologous recombination, was significantly stimulated in liquid culture. Analysis of metabolites in a ΔMohda1 mutant culture revealed that the accumulation of shunt products of the 1,8-dihydroxynaphthalene melanin and ergosterol pathways were significantly enhanced compared to the wild-type strain. Northern blot analysis of the ΔMohda1 mutant revealed transcriptional activation of three melanin genes that are dispersed throughout the genome of M. oryzae. The effect of deletion of the yeast HDA1 orthologue was also observed in Fusarium asiaticum from the Fusarium graminearum species complex; the HDF2 deletion mutant produced increased levels of nivalenol-type trichothecenes. These results suggest that histone modification via HDA1-type HDAC regulates the production of natural products in filamentous fungi. SIGNIFICANCE AND IMPACT OF THE STUDY: Natural products of fungi have significant impacts on human welfare, in both detrimental and beneficial ways. Although HDA1-type histone deacetylase is not essential for vegetative growth, deletion of the gene affects the expression of clustered secondary metabolite genes in some fungi. Here, we report that such phenomena are also observed in physically unlinked genes required for melanin biosynthesis in the rice blast fungus. In addition, production of Fusarium trichothecenes, previously reported to be unaffected by HDA1 deletion, was significantly upregulated in another Fusarium species. Thus, the HDA1-inactivation strategy may be regarded as a general approach for overproduction and/or discovery of fungal metabolites.

Cloning and characterization of six highly similar endo-1,3-beta-glucanase genes in hexaploid wheat.

Pathogenesis-related (PR) proteins are often used as a marker of plant defense reactions. Some endo-1,3-beta-glucanase (Gns) genes encode proteins that belong to the PR protein family 2 (PR-2). Although the number of homologous family member genes is significantly greater in hexaploid wheat (Triticum aestivum L.) compared to other model plants, earlier studies did not evaluate the possible contribution of their homologs to hybridization signals in Northern blot analysis. In this study, we have examined whether routine transcriptional analyses of a PR gene is of high reliability or not by isolating six highly similar Gns genes (TaGlb2a, TaGlb2b, TaGlb2c, TaGlb2d, TaGlb2e, and TaGlb2f) and characterizing their expression patterns in detail. While TaGlb2b was shown to be a PR-2 gene, transcription of TaGlb2c and TaGlb2d was not induced upon infection with either powdery mildew (Erysiphe graminis) or head blight (Fusarium graminearum) pathogens; their transcripts were most abundant in healthy spikes (lemmas and in particular paleae). Therefore, in some cases, the conventional analyses do not necessarily provide accurate information on expression pattern of a PR gene in hexaploid wheat. This is also the first report of wheat genes that are specifically expressed in lemma/palea tissues of flowering spikelets.

Reassortment between genetically distinct Japanese and US strains of Soil-borne wheat mosaic virus: RNA1 from a Japanese strain and RNA2 from a US strain make a pseudorecombinant virus.

Soil-borne wheat mosaic virus (SBWMV), the type species of the genus Furovirus, has a plus-sense bipartite RNA genome. Japanese and US strains of SBWMV are genetically distantly related, despite their biologically identical properties. Here we report formation of a pseudorecombinant virus consisting of RNA1 from a Japanese strain and RNA2 from a US strain, using infectious in vitro transcripts for both strains. Full-length infectious cDNA clones for a Japanese strain were previously constructed (Yamamiya and Shirako [38]). For RNA1 of a US strain, due to instability of full-length cDNA clones in Escherichia coli cells, it was necessary to prepare a full-length template DNA for in vitro transcription by combining overlapping 5'-terminal and 3'-terminal cDNAs individually cloned in two plasmids, whereas for RNA2 a full-length cDNA clone was the template. For infectivity assays, Chenopodium quinoa, a local lesion host, and wheat, a systemic host, were used. A mixture of Japanese RNA1 transcripts and US RNA2 transcripts caused formation of local lesions on C. quinoa leaves and systemic infection to wheat plants. The nucleotide sequence of the progeny viral RNA2 was identical to that of the US RNA2. The reciprocal combination was not infectious to either host. These results confirm that the Japanese and US SBWMV are genetically distantly related strains belonging to a single species.

Patchy renal vasoconstriction in rhabdomyolysis-related acute renal failure.

In rhabdomyolysis-related acute renal failure evidence of patchy renal vasoconstriction during the recovery phase was obtained by abdominal CT scan, which showed a wedge-shaped high-density area in the kidney.