ETHYLENE-INSENSITIVE3 Is a Senescence-Associated Gene That Accelerates Age-Dependent Leaf Senescence by Directly Repressing miR164 Transcription in Arabidopsis

Li, Zhonghai; Ji, Peng; Xing, Wen; Guo, Hongwei

doi:10.1105/tpc.113.113340

Cited by 345 publications

(349 citation statements)

References 86 publications

(132 reference statements)

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“…WRKY53 expression is down-regulated by Whirly1 (Miao et al, 2013), which may explain the coincidence of low transcript levels and high levels of H3K4me3 marks. Examples of posttranscriptional regulation mediated by small RNAs have been identified during leaf senescence (Kim et al, 2009a(Kim et al, , 2009bLi et al, 2013b;Thatcher et al, 2015) and may also explain some of the inconsistencies between H3K4me3 marks and gene expression. Senescence associated gene12 (SAG12), a molecular marker for senescence, was up-regulated 3,300-fold between 29 and 57 d (0.022-72.5 RPKM) and showed increased levels of H3K4me3 marks 250 to 650 bp upstream of the TSS but no clear H3K9ac marks (Supplemental Fig.…”

Section: Discussionmentioning

confidence: 99%

“…Toward understanding the mechanisms that regulate gene expression during senescence, numerous studies have shown that transcription factors, such as WRKY53 (Hinderhofer and Zentgraf, 2001;Miao et al, 2004;Miao and Zentgraf, 2010), ORESARA1/NAC2 (Oh et al, 1997;Matallana-Ramirez et al, 2013), and ETHYLENE-INSENSITIVE3 (Li et al, 2013b), promote leaf senescence as well as many others listed in the Leaf Senescence Database (Liu et al, 2011). In addition, mutants that affect chromatin structure have been shown to affect senescence; however, phenotypes are often pleiotropic (Lim et al, 2007b;Wu et al, 2008;Ay et al, 2009;Humbeck, 2013).…”

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confidence: 99%

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A Genome-Wide Chronological Study of Gene Expression and Two Histone Modifications, H3K4me3 and H3K9ac, during Developmental Leaf Senescence

et al. 2015

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The genome-wide abundance of two histone modifications, H3K4me3 and H3K9ac (both associated with actively expressed genes), was monitored in Arabidopsis (Arabidopsis thaliana) leaves at different time points during developmental senescence along with expression in the form of RNA sequencing data. H3K9ac and H3K4me3 marks were highly convergent at all stages of leaf aging, but H3K4me3 marks covered nearly 2 times the gene area as H3K9ac marks. Genes with the greatest fold change in expression displayed the largest positively correlated percentage change in coverage for both marks. Most senescence up-regulated genes were premarked by H3K4me3 and H3K9ac but at levels below the whole-genome average, and for these genes, gene expression increased without a significant increase in either histone mark. However, for a subset of genes showing increased or decreased expression, the respective gain or loss of H3K4me3 marks was found to closely match the temporal changes in mRNA abundance; 22% of genes that increased expression during senescence showed accompanying changes in H3K4me3 modification, and they include numerous regulatory genes, which may act as primary response genes.

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Section: Discussionmentioning

confidence: 99%

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confidence: 99%

A Genome-Wide Chronological Study of Gene Expression and Two Histone Modifications, H3K4me3 and H3K9ac, during Developmental Leaf Senescence

et al. 2015

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“…It 226 has been shown that external ethylene stimulates leaf senescence (Bleecker et al, 1988;Zacarias & 227 Reid, 1990), while ethylene-insensitive mutants (etr1-1, ers1, ein2-1, ein2-5, ein3-1 and ein3-1 eil1-1 228 in Arabidopsis and Nr in tomato) show a reduced rate of senescence (Bleecker, 1988;Hua et al, 229 1995;Grbic and Bleecker, 1995;Oh et al, 1997;Lanahan et al, 1994, Li et al, 2013Kim et al, 2014). 230…”

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confidence: 99%

“…It can activate the expression of NAP (NAM/ATAF1,2/CUC2) and NAC2 (ORE1/NAC092), two 252 important transcription factors controlling leaf senescence Kim et al, 2009;Kim et 253 al., 2014). Furthermore, EIN3 binds to the promotor of the microRNA (miRNA) miR164 and 254 progressively inhibits its expression during leaf development (Li et al, 2013). In turn, miR164 inhibits 255 the expression of the transcription factor NAC2 (Kim et al, 2009;Kim et al, 2014;Li et al, 2013), 256 unraveling a dual feed-forward and feedback regulation of senescence by ethylene through the 257 action of EIN3 ( Figure 1).…”

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confidence: 99%

Ethylene Exerts Species-Specific and Age-Dependent Control of Photosynthesis

Ceusters

Poel

2018

Plant Physiol.

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31The volatile plant hormone ethylene plays a regulatory role in many developmental processes and in 32 biotic and abiotic stress responses. One of the under-explored actions of ethylene is its regulation of 33 photosynthesis and associated components such as stomatal conductance, chlorophyll content, light 34 reactions, carboxylation events, carbohydrate partitioning, and age-related senescence. In this 35 update, we summarize the current knowledge concerning the regulation of photosynthesis, focusing 36 on the model species Arabidopsis thaliana. We describe how ethylene directs photosynthesis in 37 juvenile non-senescing leaves and mature senescing leaves. Furthermore, we extend these insights 38 Plant Physiology Preview.

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“…Both ethylene (ET) and jasmonate (JA) are essential plant hormones that regulate various plant developmental processes and diverse defense responses (Kieber, 1997;Bleecker and Kende, 2000;Guo and Ecker, 2004;Broekaert et al, 2006;Howe and Jander, 2008;Browse, 2009;Shan et al, 2012;Wasternack and Hause, 2013). ET signal is perceived by its receptors ETHYLENE RESPONSE1 (ETR1), ETR2, ETHYLENE RESPONSE SENSOR1 (ERS1), ERS2, and ETHYLENE INSENSITIVE4 (EIN4) (Hua and Meyerowitz, 1998) to repress CONSTITUTIVE TRIPLE RESPONSE1 (CTR1) (Kieber et al, 1993), which activates EIN2 (Alonso et al, 1999;Ju et al, 2012;Qiao et al, 2012;Wen et al, 2012) and subsequently stabilizes EIN3 and EIN3-LIKE1 (EIL1) (Chao et al, 1997;Guo and Ecker, 2003;Potuschak et al, 2003;Gagne et al, 2004) to mediate various ET responses, including hypocotyl growth (Zhong et al, 2012), apical hook formation (Knight et al, 1910;An et al, 2012), root growth (Ortega-Martínez et al, 2007;Růzicka et al, 2007), flowering (Ogawara et al, 2003;Achard et al, 2007), fruit ripening (Burg and Burg, 1962;Theologis et al, 1992), leaf senescence (Gepstein and Thimann, 1981;Li et al, 2013), freezing tolerance , and resistance against pathogen infection (Alonso et al, 2003;Chen et al, 2009).…”

Section: Introductionmentioning

confidence: 99%

Interaction between MYC2 and ETHYLENE INSENSITIVE3 Modulates Antagonism between Jasmonate and Ethylene Signaling inArabidopsis

et al. 2014

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Plants have evolved sophisticated mechanisms for integration of endogenous and exogenous signals to adapt to the changing environment. Both the phytohormones jasmonate (JA) and ethylene (ET) regulate plant growth, development, and defense. In addition to synergistic regulation of root hair development and resistance to necrotrophic fungi, JA and ET act antagonistically to regulate gene expression, apical hook curvature, and plant defense against insect attack. However, the molecular mechanism for such antagonism between JA and ET signaling remains unclear. Here, we demonstrate that interaction between the JA-activated transcription factor MYC2 and the ET-stabilized transcription factor ETHYLENE-INSENSITIVE3 (EIN3) modulates JA and ET signaling antagonism in Arabidopsis thaliana. MYC2 interacts with EIN3 to attenuate the transcriptional activity of EIN3 and repress ET-enhanced apical hook curvature. Conversely, EIN3 interacts with and represses MYC2 to inhibit JA-induced expression of wound-responsive genes and herbivory-inducible genes and to attenuate JA-regulated plant defense against generalist herbivores. Coordinated regulation of plant responses in both antagonistic and synergistic manners would help plants adapt to fluctuating environments.

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ETHYLENE-INSENSITIVE3 Is a Senescence-Associated Gene That Accelerates Age-Dependent Leaf Senescence by Directly Repressing miR164 Transcription in Arabidopsis

Cited by 345 publications

References 86 publications

A Genome-Wide Chronological Study of Gene Expression and Two Histone Modifications, H3K4me3 and H3K9ac, during Developmental Leaf Senescence

A Genome-Wide Chronological Study of Gene Expression and Two Histone Modifications, H3K4me3 and H3K9ac, during Developmental Leaf Senescence

Ethylene Exerts Species-Specific and Age-Dependent Control of Photosynthesis

Interaction between MYC2 and ETHYLENE INSENSITIVE3 Modulates Antagonism between Jasmonate and Ethylene Signaling inArabidopsis

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