Plant disease resistance-related pathways recruit beneficial bacteria by remodeling root exudates upon Bacillus cereus AR156 treatment
B Yang, M Zheng, W Dong, P Xu, Y Zheng… - Microbiology …, 2023 - Am Soc Microbiol
The environmentally friendly biological control strategy that relies on beneficial bacterial
inoculants to improve plant disease resistance is a promising strategy. Previously, it has …
inoculants to improve plant disease resistance is a promising strategy. Previously, it has …
Harvesting the complex pathways of antibiotic production and resistance of soil bacilli for optimizing plant microbiome
Q Hou, I Kolodkin-Gal - FEMS microbiology ecology, 2020 - academic.oup.com
ABSTRACT A sustainable future increasing depends on our capacity to utilize beneficial
plant microbiomes to meet our growing needs. Plant microbiome symbiosis is a hallmark of …
plant microbiomes to meet our growing needs. Plant microbiome symbiosis is a hallmark of …
The biocontrol agent Bacillus velezensis T-5 changes the soil bacterial community composition by affecting the tomato root exudate profile
Aims Root exudates modulate the interaction between plants, pathogens, and beneficial
microbes. In this study, we tested whether tomato plants modify their root exudates in the …
microbes. In this study, we tested whether tomato plants modify their root exudates in the …
Probiotic diversity enhances rhizosphere microbiome function and plant disease suppression
Bacterial communities associated with plant roots play an important role in the suppression
of soil-borne pathogens, and multispecies probiotic consortia may enhance disease …
of soil-borne pathogens, and multispecies probiotic consortia may enhance disease …
[HTML][HTML] A simplified synthetic community rescues Astragalus mongholicus from root rot disease by activating plant-induced systemic resistance
Z Li, X Bai, S Jiao, Y Li, P Li, Y Yang, H Zhang, G Wei - Microbiome, 2021 - Springer
Background Plant health and growth are negatively affected by pathogen invasion; however,
plants can dynamically modulate their rhizosphere microbiome and adapt to such biotic …
plants can dynamically modulate their rhizosphere microbiome and adapt to such biotic …
Biocontrol mechanisms of Bacillus: Improving the efficiency of green agriculture
Species of the genus Bacillus have been widely used for the biocontrol of plant diseases in
the demand for sustainable agricultural development. New mechanisms underlying Bacillus …
the demand for sustainable agricultural development. New mechanisms underlying Bacillus …
Plant-microbe interaction: mining the impact of native Bacillus amyloliquefaciens WS-10 on tobacco bacterial wilt disease and rhizosphere microbial communities
Ralstonia solanacearum, the causative agent of bacterial wilt disease, has been a major
threat to tobacco production globally. Several control methods have failed. Thus, it is …
threat to tobacco production globally. Several control methods have failed. Thus, it is …
Citric acid in rice root exudates enhanced the colonization and plant growth-promoting ability of Bacillus altitudinis LZP02
H Jiao, W Xu, Y Hu, R Tian, Z Wang - Microbiology Spectrum, 2022 - Am Soc Microbiol
Exploration of the underlying mechanisms of plant-microbe interactions is very important. In
the present study, citric acid in the root exudates of rice significantly enhanced the …
the present study, citric acid in the root exudates of rice significantly enhanced the …
[HTML][HTML] Leymus chinensis resists degraded soil stress by modulating root exudate components to attract beneficial microorganisms
Y Lin, L Mei, Q Wei, B Li, P Zhang, S Sun… - Frontiers in …, 2022 - frontiersin.org
Phytoremediation is an effective means to improve degraded soil nutrients and soil structure.
Here, we investigated the remediation effects of Leymus chinensis on the physicochemical …
Here, we investigated the remediation effects of Leymus chinensis on the physicochemical …
[HTML][HTML] Rhizosphere community selection reveals bacteria associated with reduced root disease
Background Microbes benefit plants by increasing nutrient availability, producing plant
growth hormones, and protecting against pathogens. However, it is largely unknown how …
growth hormones, and protecting against pathogens. However, it is largely unknown how …