Molecular communications between plant heat shock responses and disease resistance.
TLDR
Interactions between plant heat and defense responses are discussed in this review hopefully for an integrated understanding of these responses in plants.Abstract:
As sessile, plants are continuously exposed to potential dangers including various abiotic stresses and pathogen attack. Although most studies focus on plant responses under an ideal condition to a specific stimulus, plants in nature must cope with a variety of stimuli at the same time. This indicates that it is critical for plants to fine-control distinct signaling pathways temporally and spatially for simultaneous and effective responses to various stresses. Global warming is currently a big issue threatening the future of humans. Reponses to high temperature affect many physiological processes in plants including growth and disease resistance, resulting in decrease of crop yield. Although plant heat stress and defense responses share important mediators such as calcium ions and heat shock proteins, it is thought that high temperature generally suppresses plant immunity. We therefore specifically discuss on interactions between plant heat and defense responses in this review hopefully for an integrated understanding of these responses in plants.read more
Citations
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Simultaneous Application of Heat, Drought, and Virus to Arabidopsis Plants Reveals Significant Shifts in Signaling Networks
TL;DR: Comparative analysis of single, double, and triple stress responses by transcriptome and metabolome analysis revealed that gene expression under multifactorial stress is not predictable from single stress treatments, suggesting that abiotic stress factors significantly altered turnip mosaic virus-specific signaling networks, which led to a deactivation of defense responses and a higher susceptibility of plants.
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Dual RNA-seq transcriptional analysis of wheat roots colonized by Azospirillum brasilense reveals up-regulation of nutrient acquisition and cell cycle genes
Doumit Camilios-Neto,Doumit Camilios-Neto,Paloma Bonato,Roseli Wassem,Michelle Z. Tadra-Sfeir,Liziane Cristina Campos Brusamarello-Santos,Glaucio Valdameri,Lucélia Donatti,Helisson Faoro,Vinicius A. Weiss,Leda S. Chubatsu,Fábio O. Pedrosa,Emanuel Maltempi de Souza +12 more
TL;DR: PGPB colonization enhanced the expression of plant genes related to nutrient up-take, nitrogen assimilation, DNA replication and regulation of cell division, which is consistent with a higher proportion of colonized root cells in the S-phase, supporting the use of PGPB as an alternative to improve nutrient acquisition in important crops such as wheat, enhancing plant productivity and sustainability.
Journal ArticleDOI
CaWRKY6 transcriptionally activates CaWRKY40, regulates Ralstonia solanacearum resistance, and confers high-temperature and high-humidity tolerance in pepper
Hanyang Cai,Sheng Yang,yan yan,Zhuoli Xiao,junbin cheng,Ji Wu,Ailian Qiu,Yan Lai,Shaoliang Mou,Deyi Guan,Ronghua Huang,Shuilin He +11 more
TL;DR: CaWRKY6 is a positive regulator of R. solanacearum resistance and heat-stress tolerance, which occurs in part by activating CaWRKY40.
Journal Article
Correction for Ca2+, cAMP, and transduction of non-self perception during plant immune responses
TL;DR: In this paper, a cyclic nucleotide-activated ion channel is identified as facilitating the Ca2+ flux that initiates immune signaling in the plant cell cytosol, and it is shown that elevation of cAMP is a key player in this signaling cascade.
Journal ArticleDOI
Endophytic colonization of barley (Hordeum vulgare) roots by the nematophagous fungus Pochonia chlamydosporia reveals plant growth promotion and a general defense and stress transcriptomic response
Eduardo Larriba,María D. L. A. Jaime,María D. L. A. Jaime,Corey Nislow,Corey Nislow,José Martín-Nieto,Luis Vicente Lopez-Llorca +6 more
TL;DR: This study supports at the molecular level the growth-promoting effect observed in plants endophytically colonized by P. chlamydosporia, which opens the door to further studies addressing the capacity of this fungus to mitigate the negative effects of biotic and abiotic factors on plant crops.
References
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