Results 51 to 60 of about 17,336 (273)

Distribution of root-associated bacterial communities along a salt-marsh primary succession

open access: yesFrontiers in Plant Science, 2016
Proper quantification of the relative influence of soil and plant host on the root-associated microbiome can only be achieved by studying its distribution along an environmental gradient. Here we used an undisturbed salt marsh chronosequence to study the
Miao eWang   +2 more
doaj   +1 more source

Bacterial community composition of vermicompost-treated tomato rhizospheres.

open access: yesPLoS ONE, 2020
Vermicompost application has been shown to promote plant growth, alter the rhizosphere microbiome, and suppress plant pathogens. These beneficial properties are often attributed to the activity of vermicompost-associated microorganisms.
Juana Munoz-Ucros   +2 more
doaj   +1 more source

Rhizosphere microbiome assemblage is affected by plant development [PDF]

open access: yesThe ISME Journal, 2013
Abstract There is a concerted understanding of the ability of root exudates to influence the structure of rhizosphere microbial communities. However, our knowledge of the connection between plant development, root exudation and microbiome assemblage is limited.
Jacqueline M, Chaparro   +2 more
openaire   +2 more sources

The rhizosphere microbiome improves the adaptive capabilities of plants under high soil cadmium conditions

open access: yesFrontiers in Plant Science, 2022
Cadmium (Cd) contamination of agricultural soils poses a potential public health issue for humans. Phytoremediation-based accumulating plants are an effective and sustainable technology for Cadmium remediation of contaminated agricultural soil.
Wenjun Fan   +9 more
doaj   +1 more source

Impact of plant domestication on rhizosphere microbiome assembly and functions [PDF]

open access: yes, 2016
The rhizosphere microbiome is pivotal for plant health and growth, providing defence against pests and diseases, facilitating nutrient acquisition and helping plants to withstand abiotic stresses. Plants can actively recruit members of the soil microbial
Mendes, Rodrigo   +2 more
core   +2 more sources

Transcription Factor Promiscuity Drives Regulatory Rewiring and Evolvability in Gene Networks in Bacteria

open access: yesAdvanced Science, EarlyView.
When a master transcription factor (TF) is lost, bacteria can rapidly rewire gene regulatory networks by co‐opting related regulators. Using experimental evolution in Pseudomonas fluorescens, we show that TF promiscuity (low‐level, non‐cognate binding) provides the raw material for rewiring. Successful co‐option follows a predictable hierarchy governed
Tiffany B. Taylor, Alan M. Rice
wiley   +1 more source

MFPD: A Multiple Fungal Pathogen Detection Pipeline Across Diverse Habitats

open access: yesAdvanced Science, EarlyView.
The MFPD pipeline integrates a comprehensive ITS reference database of fungal pathogens, optimized parameters, and algorithms tailored for both full‐length and subregion sequences that balance accuracy and computational efficiency; it enables high‐throughput, species‐level identification from amplicon sequencing data, supporting large‐scale ...
Yi Shen   +13 more
wiley   +1 more source

Heterosis of leaf and rhizosphere microbiomes in field‐grown maize [PDF]

open access: yesNew Phytologist, 2020
Summary Macroorganisms’ genotypes shape their phenotypes, which in turn shape the habitat available to potential microbial symbionts. This influence of host genotype on microbiome composition has been demonstrated in many systems; however, most previous studies have ...
Maggie R. Wagner   +3 more
openaire   +2 more sources

Exploring the temporal dynamics of a disease suppressive rhizo-microbiome in eggplants

open access: yesiScience
Summary: The rhizosphere microbiome is important for plant health, yet their contributions to disease resistance and assembly dynamics remain unclear.
Yuling Zhang   +17 more
doaj   +1 more source

Resistant Peanut Genotype Reprograms Rhizosphere Metabolism to Enhance Bacterial Wilt Suppression

open access: yesAdvanced Science, EarlyView.
The resistant peanut genotype selectively recruits beneficial bacteria, which coincides with the activation of salicylic acid (SA)‐dependent systemic acquired resistance (SAR) against Ralstonia solanacearum. Keystone rhizosphere metabolites are positively correlated with both beneficial microbiome assembly and SAR gene expression.
Rui Ren   +20 more
wiley   +1 more source

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