2022
DOI: 10.3389/fpls.2022.939395
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Understanding plant–microbe interaction of rice and soybean with two contrasting diazotrophic bacteria through comparative transcriptome analysis

Abstract: Understanding the beneficial plant–microbe interactions is becoming extremely critical for deploying microbes imparting plant fitness and achieving sustainability in agriculture. Diazotrophic bacteria have the unique ability to survive without external sources of nitrogen and simultaneously promote host plant growth, but the mechanisms of endophytic interaction in cereals and legumes have not been studied extensively. We have studied the early interaction of two diazotrophic bacteria, Gluconacetobacter diazotr… Show more

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Cited by 4 publications
(2 citation statements)
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“…In other scenarios, elevated CO 2 decreased, and thus interfered with, high-affinity uptake of nitrogen compounds under limiting nitrogen supply [78]. The plant microbiome can stimulate root growth and nutrient uptake in various species [80], including rice [81,82], maize [83], and soybean [82]. Duckweeds [84] and soybean [85] can thrive under low nitrogen supply due to partnerships with N 2 -fixing endophytic microbial symbionts, such as Rhizobium lemnae for Lemna species [86] and various rhizobia species for soybean [87].…”
Section: Interactions Among Nutrient Transporters Hormones Elevated C...mentioning
confidence: 99%
“…In other scenarios, elevated CO 2 decreased, and thus interfered with, high-affinity uptake of nitrogen compounds under limiting nitrogen supply [78]. The plant microbiome can stimulate root growth and nutrient uptake in various species [80], including rice [81,82], maize [83], and soybean [82]. Duckweeds [84] and soybean [85] can thrive under low nitrogen supply due to partnerships with N 2 -fixing endophytic microbial symbionts, such as Rhizobium lemnae for Lemna species [86] and various rhizobia species for soybean [87].…”
Section: Interactions Among Nutrient Transporters Hormones Elevated C...mentioning
confidence: 99%
“…Beyond their primary functions in the plant growth and development, BRs are also involved in growth‐defense trade‐offs. The BR signaling pathway exhibits cross‐talk with various immune‐related pathways triggered by diverse microbe‐ and pathogen‐associated molecular patterns at the receptor, cytoplasmic, or transcriptional level (Antolín‐Llovera et al., 2012; Bar et al., 2010; Bjornson et al., 2016; Chen & Shimamoto, 2011; Feng et al., 2021; Kalachova et al., 2022; Lin et al., 2014; Ranf et al., 2012; Saini et al., 2022; Turnbull et al., 2019; Yang et al., 2007; Yu et al., 2018; Zhang & Zhou, 2010). In Nicotiana benthamiana – Phytophthora sojae interactions, the virulence effector aldose 1‐epimerase (AEP1) activates plant immunity through mediating P. sojae extracellular sugar uptake, which depends on the BR receptor brassinosteroid insensitive 1‐associated receptor kinase 1 (BAK1) (Xu et al., 2021).…”
Section: Introductionmentioning
confidence: 99%