Exploring the Potential of Russula griseocarnosa: A Molecular Ecology Perspective

Exploring the Potential of Russula griseocarnosa: A Molecular Ecology Perspective

Russula griseocarnosa, an edible and medicinal mushroom abundant in nutrients and notable bioactivities, is predominantly grown in the broad-leaved forest with trees of the family Fagaceae in southern China. This species forms ectomycorrhizal associations with plant roots and cannot be artificially...

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Bibliographic Details
Published in:Agriculture (Basel) Vol. 14; no. 6; p. 879
Main Authors: Liu, Yuanchao, Yong, Tianqiao, Cai, Manjun, Wu, Xiaoxian, Guo, Huiyang, Xie, Yizhen, Hu, Huiping, Wu, Qingping
Format: Journal Article
Language:English
Published: Basel MDPI AG 01-06-2024
Subjects:
Amino acids
artificial domestication
Carbohydrates
Cholesterol
Climate change
Cultivation
Culture media
Domestication
Ecology
Ectomycorrhizas
Eggs
Fungi
Fungiculture
habitat microorganisms
Habitats
Host plants
Medicinal plants
Microbial activity
Microbiomes
Microbiota
Microorganisms
Molds (Fungi)
molecular ecology
Mushrooms
Nutrients
nutritional composition and bioactivity
Plant roots
Postpartum period
Potassium
Propagation
Proteins
R. griseocarnosa
Research methodology
Rhizosphere
Russula
symbiotic characteristics
Taxonomy
China
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Summary:Russula griseocarnosa, an edible and medicinal mushroom abundant in nutrients and notable bioactivities, is predominantly grown in the broad-leaved forest with trees of the family Fagaceae in southern China. This species forms ectomycorrhizal associations with plant roots and cannot be artificially cultivated currently. Previous research indicates a strong correlation between the growth of R. griseocarnosa and factors such as the host plant, climate variables (specifically mean temperature and precipitation from June to October), and the rhizosphere microbiota of its habitat. However, comprehensive studies on the fundamental biology of this species are lacking. The interaction between R. griseocarnosa and its host plant, as well as the mechanisms underlying the microbial community dynamics within its habitat, remain ambiguous. The limited repertoire and diversity of carbohydrate-active enzymes (CAZymes) in R. griseocarnosa relative to saprophytic fungi may contribute to its recalcitrance to cultivation on synthetic media. The specific core enzyme and the substances provided by the host plant to facilitate growth are yet to be elucidated, posing a significant challenge in the artificial cultivation of R. griseocarnosa. The habitat of R. griseocarnosa harbours unique microbial communities, indicating the presence of potentially beneficial microorganisms that could be exploited for artificial propagation and conservation efforts. However, the lack of definitive functional verification experiments hinders the realization of this promising prospect. This review offers a comprehensive overview of the nutritional profile and health benefits of R. griseocarnosa, emphasizing recent developments in its isolation, molecular ecology, and artificial cultivation. Additionally, it explores prospective advancements in R. griseocarnosa research, aiming to enrich our foundational understanding for applied purposes and fostering progress in the realm of ectomycorrhizal edible mushrooms.
ISSN:2077-0472
2077-0472
DOI:10.3390/agriculture14060879