Yanan Chang scite author profile

In eukaryotic cells, gene expression is greatly influenced by the dynamic chromatin environment. Epigenetic mechanisms, including covalent modifications to DNA and histone tails and the accessibility of chromatin, create various chromatin states for stress-responsive gene expression that is important for adaptation to harsh environmental conditions. Recent studies have revealed that many epigenetic factors participate in abiotic stress responses, and various chromatin modifications are changed when plants are exposed to stressful environments. In this review, we summarize recent progress on the cross-talk between abiotic stress response pathways and epigenetic regulatory pathways in plants. Our review focuses on epigenetic regulation of plant responses to extreme temperatures, drought, salinity, the stress hormone abscisic acid, nutrient limitations and ultraviolet stress, and on epigenetic mechanisms of stress memory.

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The liver-enriched lnc-LFAR1 promotes liver fibrosis by activating TGFβ and Notch pathways

Zhang

et al. 2017

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Long noncoding RNAs (lncRNAs) play important roles in various biological processes such as proliferation, cell death and differentiation. Here, we show that a liver-enriched lncRNA, named liver fibrosis-associated lncRNA1 (lnc-LFAR1), promotes liver fibrosis. We demonstrate that lnc-LFAR1 silencing impairs hepatic stellate cells (HSCs) activation, reduces TGFβ-induced hepatocytes apoptosis in vitro and attenuates both CCl4- and bile duct ligation-induced liver fibrosis in mice. Lnc-LFAR1 promotes the binding of Smad2/3 to TGFβR1 and its phosphorylation in the cytoplasm. Lnc-LFAR1 binds directly to Smad2/3 and promotes transcription of TGFβ, Smad2, Smad3, Notch2 and Notch3 which, in turn, results in TGFβ and Notch pathway activation. We show that the TGFβ1/Smad2/3/lnc-LFAR1 pathway provides a positive feedback loop to increase Smad2/3 response and a novel link connecting TGFβ with Notch pathway. Our work identifies a liver-enriched lncRNA that regulates liver fibrogenesis and suggests it as a potential target for fibrosis treatment.

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The ways of action of long non-coding RNAs in cytoplasm and nucleus

Zhang

Shi

Chang

et al. 2014

Gene

200

148

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The gene TaWOX5 overcomes genotype dependency in wheat genetic transformation

et al. 2022

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Genotype dependency is the most important factor in wheat genetic transformation, which further limits wheat improvement by transgenic integration and genome editing approaches. The application of regeneration related genes during in vitro culture could potentially contribute to enhancement of plant transformation e ciency. In the present study, a wheat gene TaCB1 in the WUSCHEL family was identi ed to dramatically increase the transformation e ciencies of many wheat varieties without genotype dependency after its over-expression. The expression of TaCB1 in wheat calli did not prohibit shoot differentiation and root development. The application of TaCB1 can lighten the requirement to wheat immature embryo for plant regeneration. Transgenic wheat plants can be clearly recognized by the visible phenotype of wide ag leaves. The promise function of TaCB1 on improving transformation e ciency was also tested in T. monococcum, triticale, rye, barley, and maize.

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Hypoxia-regulated lncRNAs in cancer

Chang

Zhang

et al. 2016

Gene

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Yanan Chang

Epigenetic regulation in plant abiotic stress responses

The liver-enriched lnc-LFAR1 promotes liver fibrosis by activating TGFβ and Notch pathways

The ways of action of long non-coding RNAs in cytoplasm and nucleus

The gene TaWOX5 overcomes genotype dependency in wheat genetic transformation

Hypoxia-regulated lncRNAs in cancer

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