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Review
. 2020 Mar;22(3):858-872.
doi: 10.1111/1462-2920.14765. Epub 2019 Sep 9.

Growing edible mushrooms: a conversation between bacteria and fungi

Jaime Carrasco  1   2 Gail M Preston  1
Affiliations
Review

Growing edible mushrooms: a conversation between bacteria and fungi

Jaime Carrasco et al. Environ Microbiol. 2020 Mar.

Abstract

Mushroom cropping consists of the development and fructification of different fungal species in soil or selective substrates that provide nutrients and support for the crop. The microorganisms present in these environments strongly influence, and in some cases are required for the growth and fructification of cultivated mushrooms. Some fungi such as truffles and morels form ectomycorrhizal associations with host plants. For these fungi, helper bacteria play an important role in the establishment of plant-fungal symbioses. Selective processes acting on the microbiota present in substrates and soils determine the composition of the microbiota inhabiting the fruit bodies or interacting with fungal hyphae, and both configure the mushroom holobiont, understood as the fungus plus associated microorganisms. Here, we review current knowledge regarding the cross-talk between bacteria and fungi during mushroom cultivation. We highlight the potential use of bioinoculants as agronomical amendments to increase mushroom productivity through growth promotion or as biocontrol agents to control pests and diseases.

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References

    1. Antony-Babu, S., Deveau, A., Van Nostrand, J.D., Zhou, J., Le Tacon, F., Robin, C., et al. (2014) Black truffle-associated bacterial communities during the development and maturation of Tuber melanosporum ascocarps and putative functional roles. Environ Microbiol 16: 2831-2847.
    1. Antunes, L.P., Martins, L.F., Pereira, R.V., Thomas, A.M., Barbosa, D., Lemos, L.N., et al. (2016) Microbial community structure and dynamics in thermophilic composting viewed through metagenomics and metatranscriptomics. Sci Rep 6: 38915.
    1. Aslani, M.A., Harighi, B., and Abdollahzadeh, J. (2018) Screening of endofungal bacteria isolated from wild growing mushrooms as potential biological control agents against brown blotch and internal stipe necrosis diseases of Agaricus bisporus. Biol Control 119: 20-26.
    1. Bahram, M., Vanderpool, D., Pent, M., Hiltunen, M., and Ryberg, M. (2018) The genome and microbiome of a dikaryotic fungus (Inocybe terrigena, Inocybaceae) revealed by metagenomics. Environ Microbiol Rep 10: 155-166.
    1. Benucci, G.M.N., and Bonito, G.M. (2016) The truffle microbiome: species and geography effects on bacteria associated with fruiting bodies of hypogeous Pezizales. Microb Ecol 72: 4-8.

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