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Journal home Current issue Advance Online Publication Web Focuses Archive Browse by subject Free online sample issue Aims and scope Press releases ToC by email Authors & Referees Guide for authors Submit an Article Guide for referees Editorial Team, Senior Advisors and Advisory Editorial Board Contact Editorial office Customer services Subscribe Order sample copy Purchase articles Reprints and permissions Contact NPG Advertising www.embo.org			The EMBO Journal (1998) 17, 3838–3849, doi:10.1093/emboj/17.14.3838 Complementation of the Mpg1 mutant phenotype in Magnaporthe grisea reveals functional relationships between fungal hydrophobins Michael J. Kershaw, Gavin Wakley and Nicholas J. Talbot Department of Biological Sciences, University of Exeter, Washington Singer Laboratories, Perry Road, Exeter EX4 4QG, UK To whom correspondence should be addressed Nicholas J. Talbot, N.J.Talbot@exeter.ac.uk Received 6 March 1998; Revised 8 April 1998; Accepted 20 May 1998. Abstract The functional relationship between fungal hydrophobins was studied by complementation analysis of an mpg1- gene disruption mutant in Magnaporthe grisea. MPG1 encodes a hydrophobin required for full pathogenicity of the fungus, efficient elaboration of its infection structures and conidial rodlet protein production. Seven heterologous hydrophobin genes were selected which play distinct roles in conidiogenesis, fruit body development, aerial hyphae formation and infection structure elaboration in diverse fungal species. Each hydrophobin was introduced into an mpg1- mutant by transformation. Only one hydrophobin gene, SC1 from Schizophyllum commune, was able partially to complement mpg1- mutant phenotypes when regulated by its own promoter. In contrast, six of the transformants expressing hydrophobin genes controlled by the MPG1 promoter (SC1 and SC4 from S.commune, rodA and dewA from Aspergillus nidulans, EAS from Neurospora crassa and ssgA from Metarhizium anisopliae) could partially complement each of the diverse functions of MPG1. Complementation was always associated with partial restoration of a rodlet protein layer, characteristic of the particular hydrophobin being expressed, and with hydrophobin surface assembly during infection structure formation. This provides the first genetic evidence that diverse hydrophobin-encoding genes encode functionally related proteins and suggests that, although very diverse in amino acid sequence, the hydrophobins constitute a closely related group of morphogenetic proteins. Keywords: appressorium development, conidiation, fungal pathogenicity, hydrophobin, rodlet layer		Email link to a friend Download PDF Full text Next article Previous article Table of contents Rights and permissions Reprints Register for table of contents by email

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