Your search keyword '"Thatcher LF"' showing total 2 results

1. Genomic and Untargeted Metabolomic Analysis of Secondary Metabolites in the Streptomyces griseoaurantiacus Strain MH191 Shows Media-Based Dependency for the Production of Bioactive Compounds with Potential Antifungal Activity.

Author

Ramarajan M, Devilla R, Dow L, Walsh N, Mead O, Zakeel MCM, Gallart M, Richardson AE, and Thatcher LF

Subjects

Multigene Family, Plant Diseases microbiology, Genomics, Fungicides, Industrial pharmacology, Fungicides, Industrial chemistry, Fungicides, Industrial metabolism, Antifungal Agents pharmacology, Antifungal Agents metabolism, Antifungal Agents chemistry, Triticum microbiology, Triticum metabolism, Culture Media chemistry, Culture Media metabolism, Bacterial Proteins genetics, Bacterial Proteins metabolism, Secondary Metabolism, Metabolomics, Streptomyces metabolism, Streptomyces genetics, Streptomyces chemistry

Abstract

Streptomyces species can form beneficial relationships with hosts as endophytes, including the phytopathogen-inhibiting strain, Streptomyces griseoaurantiacus MH191, isolated from wheat plants. Using genomic characterization and untargeted metabolomics, we explored the capacity of strain MH191 to inhibit a range of fungal phytopathogens through the production of secondary metabolites. Complete genome assembly of strain MH191 predicted 24 biosynthetic gene clusters. Secondary metabolite production was assessed following culture on six different media, with the detection of 205 putative compounds. Members of the manumycin family, undecylprodigiosin, and desferrioxamine were identified as the predominant metabolites. Antifungal activity was validated for undecylprodigiosin and manumycin. These compounds were produced from different BGCs, which showed similarity to asukamycin, undecylprodigiosin, and FW0622 gene clusters, respectively. The growth of strain MH191 on different media illustrated the metabolic regulation of these gene clusters and the strain's extended chemical potential, with the asukamycin gene cluster alone, producing a variety of antifungal metabolites. The study highlights the extended chemical capability of strain MH191, which could be exploited as a biological control agent for designing future crop protection solutions.

Published

2024

2. Streptomyces and their specialised metabolites for phytopathogen control - comparative in vitro and in planta metabolic approaches.

Author

Dow L, Gallart M, Ramarajan M, Law SR, and Thatcher LF

Abstract

In the search for new crop protection microbial biocontrol agents, isolates from the genus Streptomyces are commonly found with promising attributes. Streptomyces are natural soil dwellers and have evolved as plant symbionts producing specialised metabolites with antibiotic and antifungal activities. Streptomyces biocontrol strains can effectively suppress plant pathogens via direct antimicrobial activity, but also induce plant resistance through indirect biosynthetic pathways. The investigation of factors stimulating the production and release of Streptomyces bioactive compounds is commonly conducted in vitro , between Streptomyces sp. and a plant pathogen. However, recent research is starting to shed light on the behaviour of these biocontrol agents in planta , where the biotic and abiotic conditions share little similarity to those of controlled laboratory conditions. With a focus on specialised metabolites, this review details (i) the various methods by which Streptomyces biocontrol agents employ specialised metabolites as an additional line of defence against plant pathogens, (ii) the signals shared in the tripartite system of plant, pathogen and biocontrol agent, and (iii) an outlook on new approaches to expedite the identification and ecological understanding of these metabolites under a crop protection lens., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Dow, Gallart, Ramarajan, Law and Thatcher.)

Published

2023