The bHLH transcription factor ILR3 modulates multiple stress responses in Arabidopsis

Samira, Rozalynne; Li, Baohua; Kliebenstein, Daniel J.; Li, Chunying; Davis, Eric; Gillikin, Jeffrey W.; Long, Terri A.

doi:10.1007/s11103-018-0735-8

Cited by 67 publications

(57 citation statements)

References 37 publications

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“…New Phytologist repressor of glucosinolate biosynthesis, a class of secondary metabolites conferring resistance against several pathogens, confirming the dual role of ILR3 in regulating genes expression (Li et al, 2014;Samira et al, 2018).…”

Section: Researchmentioning

confidence: 78%

Transcriptional integration of the responses to iron availability in Arabidopsis by the bHLH factor ILR3

et al. 2019

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Summary Iron (Fe) homeostasis is crucial for all living organisms. In mammals, an integrated posttranscriptional mechanism couples the regulation of both Fe deficiency and Fe excess responses. Whether in plants an integrated control mechanism involving common players regulates responses both to deficiency and to excess is still to be determined. In this study, molecular, genetic and biochemical approaches were used to investigate transcriptional responses to both Fe deficiency and excess. A transcriptional activator of responses to Fe shortage in Arabidopsis, called bHLH105/ILR3, was found to also negatively regulate the expression of ferritin genes, which are markers of the plant's response to Fe excess. Further investigations revealed that ILR3 repressed the expression of several structural genes that function in the control of Fe homeostasis. ILR3 interacts directly with the promoter of its target genes, and repressive activity was conferred by its dimerisation with bHLH47/PYE. Last, this study highlighted that important facets of plant growth in response to Fe deficiency or excess rely on ILR3 activity. Altogether, the data presented herein support that ILR3 is at the centre of the transcriptional regulatory network that controls Fe homeostasis in Arabidopsis, in which it acts as both transcriptional activator and repressor.

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Section: Researchmentioning

confidence: 78%

Transcriptional integration of the responses to iron availability in Arabidopsis by the bHLH factor ILR3

et al. 2019

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“…The degradation of MYB96 attenuates ABA-mediated responses to abiotic stress like drought (Seo et al, 2009). Additionally, transcription factors from different families have been shown to be involved in plant-nematode interactions (Grunewald et al, 2008;Samira et al, 2018;Warmerdam et al, 2019). For example, WRKY23 from Arabidopsis is strongly up-regulated in the early stages of infection by root-knot and cyst nematodes (Grunewald et al, 2008).…”

Section: Discussionmentioning

confidence: 99%

The effector GpRbp‐1 of Globodera pallida targets a nuclear HECT E3 ubiquitin ligase to modulate gene expression in the host

Diaz-Granados

Sterken

Overmars

et al. 2019

Molecular Plant Pathology

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Summary Plant‐parasitic nematodes secrete effectors that manipulate plant cell morphology and physiology to achieve host invasion and establish permanent feeding sites. Effectors from the highly expanded SPRYSEC (SPRY domain with a signal peptide for secretion) family in potato cyst nematodes have been implicated in activation and suppression of plant immunity, but the mechanisms underlying these activities remain largely unexplored. To study the host mechanisms used by SPRYSEC effectors, we identified plant targets of GpRbp‐1 from the potato cyst nematode Globodera pallida. Here, we show that GpRbp‐1 interacts in yeast and in planta with a functional potato homologue of the Homology to E6‐AP C‐Terminus (HECT)‐type ubiquitin E3 ligase UPL3, which is located in the nucleus. Potato lines lacking StUPL3 are not available, but the Arabidopsis mutant upl3‐5 displaying a reduced UPL3 expression showed a consistently small but not significant decrease in susceptibility to cyst nematodes. We observed a major impact on the root transcriptome by the lower levels of AtUPL3 in the upl3‐5 mutant, but surprisingly only in association with infections by cyst nematodes. To our knowledge, this is the first example that a HECT‐type ubiquitin E3 ligase is targeted by a pathogen effector and that a member of this class of proteins specifically regulates gene expression under biotic stress conditions. Together, our data suggest that GpRbp‐1 targets a specific component of the plant ubiquitination machinery to manipulate the stress response in host cells.

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“…Similarly, members in subfamilies S15 and S26 have been demonstrated to respond to ABA [47,64], while members of the S19 subfamily negatively regulate the BR signaling pathway [67]. Additionally, genes in the S4 subfamily participate in auxin-conjugate metabolism [41,68] (Table 1). Accordingly, our RNA-seq data shows that many BnabHLHs (221, 36.7%) respond to more than one hormone treatment in B. napus roots (Additional file 7: Table S7).…”

Section: The Potential Roles Of Bhlhs In B Napus Rootsmentioning

confidence: 99%

“…Regulates the network that controls wounding response in plant roots. Participates in auxin metabolism [41,68]. Act redundantly to positively regulate the deve root hairs [45,46,83].…”

Section: Atbhlh105/ilr3 Arabidopsismentioning

confidence: 99%

Genome-wide Survey of the bHLH Super Gene Family in Brassica napus

Zhou

et al. 2020

Preprint

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Background: The basic helix-loop-helix (bHLH) gene family is one of the largest transcription factor families in plants and is functionally characterized in diverse species. However, less is known about its functions in the economically important allopolyploid oil crop, Brassica napus . Results : We identified 602 potential bHLHs in the B. napus genome ( BnabHLHs ) and categorized them into 35 subfamilies, including seven newly separated subfamilies, based on phylogeny, protein structure, and exon-intron organization analysis. The intron insertion patterns of this gene family were analyzed and a total of

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The bHLH transcription factor ILR3 modulates multiple stress responses in Arabidopsis

Cited by 67 publications

References 37 publications

Transcriptional integration of the responses to iron availability in Arabidopsis by the bHLH factor ILR3

Transcriptional integration of the responses to iron availability in Arabidopsis by the bHLH factor ILR3

The effector GpRbp‐1 of Globodera pallida targets a nuclear HECT E3 ubiquitin ligase to modulate gene expression in the host

Genome-wide Survey of the bHLH Super Gene Family in Brassica napus

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