Specific induction of a cuticle-degrading protease of the insect pathogenic fungus Metarhizium anisopliae

Paterson, Ian C.; Charnley, A.K.; Cooper, Richard M.; Clarkson, John M.

doi:10.1099/13500872-140-1-185

Cited by 44 publications

(28 citation statements)

References 19 publications

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“…Os resultados obtidos sugerem que, sob as condições testadas, as cutículas de M. fimbriolata e D. flavopicta não demonstraram ser substrato adequado para a detecção de atividade proteolítica em placa (Figura 1). Proteases extracelulares (Pr1 e Pr2) têm sido produzidas por isolados de M. anisopliae quando cultivados em meios líquidos contendo cutículas de diversos insetos, como as dos gafanhotos Schistocerca pallens, Rhammatocerus schistocercoides e Schistocerca gregaria e as da mariposa Manduca sexta (TIAGO et al, 2002;PINTO et al, 2002;PATERSON et al, 1994e ST. LEGER et al, 1988.…”

Section: Resultsunclassified

Atividade proteolítica de isolados de Metarhizium anisopliae sobre substratos cuticulares e não-cuticulares

Tiago

Silva

2007

Cienc. Rural

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Section: Resultsunclassified

Atividade proteolítica de isolados de Metarhizium anisopliae sobre substratos cuticulares e não-cuticulares

Tiago

Silva

2007

Cienc. Rural

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“…In this work, four nuclear genes amplified by PCR using known conserved primers were cloned. The genes encoded the b-tubulin, the histone 4, the 28S rDNA, and PR1, a protease involved in pathogenicity (Paterson et al, 1994). The PR1 amplification product was sequenced and identified as the PR1 gene.…”

Section: Gene Mappingmentioning

confidence: 99%

Genome Organization inBeauveria bassiana:Electrophoretic Karyotype, Gene Mapping, and Telomeric Fingerprint

Viaud

Couteaudier

Levis

et al. 1996

Fungal Genetics and Biology

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“…The inferred amino acid sequence contains active-site motifs common to protease K subfamily subtilases (42) and is in the size range previously reported for fungal subtilases (20,27). Albin1 groups phylogenetically with extracellular subtilases T, K, R, and Pr1 from M. anisopliae that degrade the cuticle of the exoskeleton of host insects (35). If Albin1 is an extracellular subtilase responsible for the degradation of exogenous proteins, then the albin1 gene may be important for the growth of O. piliferum on wood.…”

Section: Discussionmentioning

confidence: 91%

Disruption of the Subtilase Gene, albin1 , in Ophiostoma piliferum

Hoffman

Breuil

2004

Appl Environ Microbiol

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Wood sapstaining fungi produce multiple proteases that break down wood protein. Three groups of subtilases have been identified in sapstaining fungi; however, it is not known if these groups have distinct physiological roles (B. Hoffman and C. Breuil, Curr. Genet. 41: [168][169][170][171][172][173][174][175] 2002). In this work we examined the role of the subtilase Albin1 from Ophiostoma piliferum. Reamplification of cDNA ends PCR was used to obtain the albin1 gene sequence. The encoded subtilase is probably extracellular and involved in nutrient acquisition. This gene was disrupted with an Agrobacterium tumefaciens-mediated transformation system. Two of the disruptants obtained had significantly lower levels of proteolytic activity, slower growth in bovine serum albumin, and significantly reduced growth on wood. Thus, albin1 plays an important role in O. piliferum's ability to acquire nitrogen from wood proteins.Sapstaining fungi infect wood and produce a dark blue to black discoloration that lowers the value of the wood. These fungi also are of concern in some importing countries, as they may be pathogenic. The forest products industry spends millions of dollars annually on fungicides to control sapstaining fungi, but these chemicals do not have the duration of effectiveness desired and present significant environmental concerns. Biological control agents, such as Cartapip-97, an albino strain of Ophiostoma piliferum, have been examined as an alternative method for preventing sapstain (4, 47). However, these agents may grow slowly and have not been shown to be reliable under field conditions. To develop new strategies for controlling sapstain and to improve the available biological control agents, we need to better understand how sapstaining fungi and biological control agents grow on wood and modify wood color.Sapstaining fungi cannot degrade structural components in wood. Instead, they utilize nonstructural components, including triglycerides, fatty acids, and proteins (14,32,36,41,48). Nitrogen levels in trees are low, and easily assimilated nitrogen sources, such as ammonia, are insufficient to support fungal growth (21,28). Trees store most of their nitrogen in an organic form as proteins and amino acids (25,39). To extract nitrogen from these protein sources and sustain their growth on wood, sapstaining fungi produce several extracellular proteases.Subtilases, a type of serine protease, are the dominant extracellular proteases produced by the sapstaining fungus Ophiostoma floccosum (1). Subtilase genes are common in sapstaining fungal species, and three major groups of fungal subtilases have been identified (16). One group contains intracellular subtilases thought to play a variety of housekeeping roles (22,27,33). The other two groups contain extracellular fungal subtilases, several of which are involved in pathogenesis (5,22,27,40,43).In this study we focused on the commercially important sapstaining fungus O. piliferum, which was used to develop the albino biological control agent Cartapip-97. This sp...

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Specific induction of a cuticle-degrading protease of the insect pathogenic fungus Metarhizium anisopliae

Cited by 44 publications

References 19 publications

Atividade proteolítica de isolados de Metarhizium anisopliae sobre substratos cuticulares e não-cuticulares

Atividade proteolítica de isolados de Metarhizium anisopliae sobre substratos cuticulares e não-cuticulares

Genome Organization inBeauveria bassiana:Electrophoretic Karyotype, Gene Mapping, and Telomeric Fingerprint

Disruption of the Subtilase Gene, albin1 , in Ophiostoma piliferum

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