An Interaction Between BZR1 and DELLAs Mediates Direct Signaling Crosstalk Between Brassinosteroids and Gibberellins in
            <i>Arabidopsis</i>

Li, Qianfeng; Wang, Chunming; Jiang, Lei; Li, Shuo; Sun, Samuel S. M.; He, Jun

doi:10.1126/scisignal.2002908

Cited by 243 publications

(230 citation statements)

References 66 publications

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“…For example, it has been demonstrated that ABA inhibits plant growth by suppressing BR signaling downstream of BR receptor (Zhang et al 2009). An antagonistic interaction has been also evidenced between BRs and gibberellins, since the GA repressor DELLA directly interacts with BZR1 to inhibit its DNA binding and thus transcription activity in controlling photomorphogenesis (Sun et al 2010;Li et al 2012). In this scenario, given the apparent involvement of multiple phytohormones also in nitrogen signalling (Kiba et al 2011), one future challenge will be to understand how BRs interact with other phytohormones to respond to N deficiency.…”

Section: Discussionmentioning

confidence: 99%

“…The remaining genes (ZmBZR1, ZmBZR4, ZmBZR5, ZmBZR9, ZmBZR10 and ZmBZR11) were ubiquitously expressed in all the tissues examined, suggesting that they could function as growth regulators during maize development. In fact, recent studies have demonstrated that BR signaling pathway is required to regulate hypocotyl cell expansion (Gallego-Bartolomé et al 2012;Li et al 2012;Oh et al 2012), as well as, to promote the transition from meristematic cells to primordial cells in the shoot (Oh et al 2011;Zhiponova et al 2013). In the root apex, BRs are further involved in controlling root growth, both coordinating root meristem size and also root cell elongation Heyman et al 2013;Vilarrasa-Blasi et al 2014;Vragovic et al 2015).…”

Section: Discussionmentioning

confidence: 99%

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Identification and characterization of the BZR transcription factor family and its expression in response to abiotic stresses in Zea mays L.

et al. 2017

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Brassinosteroids (BRs) are plant specific steroidal hormones that play diverse roles in regulating a broad spectrum of plant growth and developmental processes, as well as, in responding to various biotic and abiotic stresses. Extensive research over the years has established stress-impact-mitigating role of BRs and associated compounds in different plants exposed to various abiotic and biotic stresses, suggesting the idea that they may act as immunomodulators, thus opening new approaches for plant resistance against hazardous environmental conditions. In this research the characterization of the transcriptional response of 11 transcription factors (TFs) belonging to BRASSINAZOLE-RESISTANT 1 (BZR1) TF family of Zea mays L. was analyzed in seedlings subjected to different stress conditions. Being important regulators of the BR synthesis, BZR TFs might have stress resistance related activities. However, no stress resistance related functional study of BZR TFs has been reported in maize so far. In silico analyses of the selected 11 TFs validated the features of their protein domains, where the highest degree of similarity observed with recognized BZR TFs of rice and Sorghum bicolor. Additionally, we investigated the organ-specific expression of 11 ZmBZR in maize seedlings. Five of them did not show any transcript accumulation, suggesting that ZmBZR expression might be regulated in a manner dependent on plant developmental stage. For the remaining six ZmBZR, their ubiquitous expression in the whole plant indicates they could function as growth regulators during maize development. More importantly, in response to various stress conditions, the spatial transcript accumulation of all ZmBZR varies along the plant. All six ZmBZR showed up-regulation against N starvation, hypoxia and salt stress. On the contrary, heat stress clearly down-regulated gene expression of all ZmBZR analysed. Consistently with the expression results, the distribution of stress-related cis-acting elements in the promoter of these genes inferred that the maize BZR TFs might play some roles in regulating the expression of the corresponding genes in response to multifarious stresses. In conclusion, these data reveal that BZR TFs have stress signaling activity in maize, in addition to their confirmed role in regulating plant physiology and morphology.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Identification and characterization of the BZR transcription factor family and its expression in response to abiotic stresses in Zea mays L.

et al. 2017

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“…The GA signaling negative regulator, DELLA protein, interacts with BZR1/BES1 and inhibits their function. Thus, GA can release the inhibition of DELLA on BZR1/BES1 to induce downstream BR responses in Arabidopsis (Bai et al, 2012;Gallego-Bartolomé et al, 2012;Li et al, 2012). Although great progress has been made in this aspect, the knowledge we have now is far from enough to understand the interaction network of BR and GA. More related research work needs to be carried out.…”

mentioning

confidence: 99%

OsmiR396d Affects Gibberellin and Brassinosteroid Signaling to Regulate Plant Architecture in Rice

et al. 2017

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“…For instance, this is the case for several PIFs (de Lucas et al, 2008;Feng et al, 2008;Cheminant et al, 2011;Gallego-Bartolomé et al, 2011) and BZR1 (Bai et al, 2012;Gallego-Bartolomé et al, 2012;Li et al, 2012). In other cases, the interaction with the TF occurs in the vicinity of the promoters of certain genes to promote their expression (Lim et al, 2013;Park et al, 2013).…”

Section: Gai Counteracts Rap23-mediated Transcriptional Activationmentioning

confidence: 99%

Large-Scale Identification of Gibberellin-Related Transcription Factors Defines Group VII ETHYLENE RESPONSE FACTORS as Functional DELLA Partners

et al. 2014

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DELLA proteins are the master negative regulators in gibberellin (GA) signaling acting in the nucleus as transcriptional regulators. The current view of DELLA action indicates that their activity relies on the physical interaction with transcription factors (TFs). Therefore, the identification of TFs through which DELLAs regulate GA responses is key to understanding these responses from a mechanistic point of view. Here, we have determined the TF interactome of the Arabidopsis (Arabidopsis thaliana) DELLA protein GIBBERELLIN INSENSITIVE and screened a collection of conditional TF overexpressors in search of those that alter GA sensitivity. As a result, we have found RELATED TO APETALA2.3, an ethylene-induced TF belonging to the group VII ETHYLENE RESPONSE FACTOR of the APETALA2/ethylene responsive element binding protein superfamily, as a DELLA interactor with physiological relevance in the context of apical hook development. The combination of transactivation assays and chromatin immunoprecipitation indicates that the interaction with GIBBERELLIN INSENSITIVE impairs the activity of RELATED TO APETALA2.3 on the target promoters. This mechanism represents a unique node in the cross regulation between the GA and ethylene signaling pathways controlling differential growth during apical hook development.

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An Interaction Between BZR1 and DELLAs Mediates Direct Signaling Crosstalk Between Brassinosteroids and Gibberellins in Arabidopsis

Cited by 243 publications

References 66 publications

Identification and characterization of the BZR transcription factor family and its expression in response to abiotic stresses in Zea mays L.

Identification and characterization of the BZR transcription factor family and its expression in response to abiotic stresses in Zea mays L.

OsmiR396d Affects Gibberellin and Brassinosteroid Signaling to Regulate Plant Architecture in Rice

Large-Scale Identification of Gibberellin-Related Transcription Factors Defines Group VII ETHYLENE RESPONSE FACTORS as Functional DELLA Partners

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