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ApnI, a Transmembrane Protein Responsible for Subtilomycin Immunity, Unveils a Novel Model for Lantibiotic Immunity

Deng, Yun ; Li, Cong-Zhi ; Zhu, Yi-Guang ; [weitere]

American Society for Microbiology ; 2014

In: Applied and Environmental Microbiology Vol. 80, No. 20 ( 2014-10-15), p. 6303-6315

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In: Applied and Environmental Microbiology, American Society for Microbiology, Vol. 80, No. 20 ( 2014-10-15), p. 6303-6315

Kurzfassung: Subtilomycin was detected from the plant endophytic strain Bacillus subtilis BSn5 and was first reported from B. subtilis strain MMA7. In this study, a gene cluster that has been proposed to be related to subtilomycin biosynthesis was isolated from the BSn5 genome and was experimentally validated by gene inactivation and heterologous expression. Comparison of the subtilomycin gene cluster with other verified related lantibiotic gene clusters revealed a particular organization of the genes apnI and apnT downstream of apnAPBC , which may be involved in subtilomycin immunity. Through analysis of expression of the apnI and/or apnT genes in the subtilomycin-sensitive strain CU1065 and inactivation of apnI and apnT in the producer strain BSn5, we showed that the single gene apnI , encoding a putative transmembrane protein, was responsible for subtilomycin immunity. To our knowledge, evidence for lantibiotic immunity that is solely dependent on a transmembrane protein is quite rare. Further bioinformatic analysis revealed the abundant presence of ApnI-like proteins that may be responsible for lantibiotic immunity in Bacillus and Paenibacillus . We cloned the paeI gene, encoding one such ApnI-like protein, into CU1065 and showed that it confers resistance to paenibacillin. However, no cross-resistance was detected between ApnI and PaeI, even though subtilomycin and paenibacillin share similar structures, suggesting that the protection provided by ApnI/ApnI-like proteins involves a specific-sequence recognition mechanism. Peptide release/binding assays indicated that the recombinant B. subtilis expressing apnI interacted with subtilomycin. Thus, ApnI represents a novel model for lantibiotic immunity that appears to be common.

Materialart: Online-Ressource

ISSN: 0099-2240 , 1098-5336

URL: Article

DOI: 10.1128/AEM.02280-14

RVK:

WA 15000

Sprache: Englisch

Verlag: American Society for Microbiology

Publikationsdatum: 2014

ZDB Id: 223011-2

ZDB Id: 1478346-0

SSG: 12

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Heat Stress Modulates Mycelium Growth, Heat Shock Protein Expression, Ganoderic Acid Biosynthesis, and Hyphal Branching of Ganoderma lucidum via Cytosolic Ca 2+

Zhang, Xue ; Ren, Ang ; Li, Meng-Jiao ; [weitere]

American Society for Microbiology ; 2016

In: Applied and Environmental Microbiology Vol. 82, No. 14 ( 2016-07-15), p. 4112-4125

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In: Applied and Environmental Microbiology, American Society for Microbiology, Vol. 82, No. 14 ( 2016-07-15), p. 4112-4125

Kurzfassung: Heat stress (HS) influences the growth and development of organisms. Thus, a comprehensive understanding of how organisms sense HS and respond to it is required. Ganoderma lucidum , a higher basidiomycete with bioactive secondary metabolites, has become a potential model system due to the complete sequencing of its genome, transgenic systems, and reliable reverse genetic tools. In this study, we found that HS inhibited mycelium growth, reduced hyphal branching, and induced the accumulation of ganoderic acid biosynthesis and heat shock proteins (HSPs) in G. lucidum . Our data showed that HS induced a significant increase in cytosolic Ca 2+ concentration. Further evidence showed that Ca 2+ might be a factor in the HS-mediated regulation of hyphal branching, ganoderic acid (GA) biosynthesis, and the accumulation of HSPs. Our results further showed that the calcium-permeable channel gene ( cch )-silenced and phosphoinositide-specific phospholipase gene ( plc )-silenced strains reduced the HS-induced increase in HSP expression compared with that observed for the wild type (WT). This study demonstrates that cytosolic Ca 2+ participates in heat shock signal transduction and regulates downstream events in filamentous fungi. IMPORTANCE Ganoderma lucidum , a higher basidiomycete with bioactive secondary metabolites, has become a potential model system for evaluating how environmental factors regulate the development and secondary metabolism of basidiomycetes. Heat stress (HS) is an important environmental challenge. In this study, we found that HS inhibited mycelium growth, reduced hyphal branching, and induced HSP expression and ganoderic acid biosynthesis in G. lucidum . Further evidence showed that Ca 2+ might be a factor in the HS-mediated regulation of hyphal branching, GA biosynthesis, and the accumulation of HSPs. This study demonstrates that cytosolic Ca 2+ participates in heat shock signal transduction and regulates downstream events in filamentous fungi. Our research offers a new way to understand the mechanism underlying the physiological and metabolic responses to other environmental factors in G. lucidum . This research may also provide the basis for heat shock signal transduction studies of other fungi.

Materialart: Online-Ressource

ISSN: 0099-2240 , 1098-5336

URL: Article

DOI: 10.1128/AEM.01036-16

RVK:

WA 15000

Sprache: Englisch

Verlag: American Society for Microbiology

Publikationsdatum: 2016

ZDB Id: 223011-2

ZDB Id: 1478346-0

SSG: 12

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