Chemical induction of DNA demethylation by 5-Azacytidine enhances tomato fruit defense against gray mold through dicer-like protein DCL2c.

IF 7.6 Q1 GENETICS & HEREDITY 园艺研究(英文) Pub Date : 2024-06-19 eCollection Date: 2024-08-01 DOI:10.1093/hr/uhae164
Xiaorong Chang, Liyao Liu, Ziwei Liu, Liping Qiao, Ruixi Shi, Laifeng Lu
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Abstract

Postharvest decay, primarily caused by pathogenic fungi in ripening fruits and fresh vegetables, poses a challenge to agricultural sustainability and results in significant economic losses. The regulation of the fruit ripening by DNA methylation has been well demonstrated, while defense response of fruit underlying epigenetic regulation against postharvest decay remains uncertain. In the present study, treatment of tomato fruits with the DNA methyltransferase inhibitor 5-Azacytidine (5-Aza) notably decreased their susceptibility to gray mold. Following 5-Aza treatment, we observed a substantial increase in activities of chitinase (CHI) and glucanase (GLU) in tomato fruits, as well as an increase in the expression of the dicer-like SlDCL2 gene family. Suppression of SlDCL2c through double-stranded RNA-induced RNA interference (RNAi) resulted in a decrease in the expression of chitinases CHI3, CHI9, Class V chitinase, and endochitinase 4 by 71%, 29%, 55%, 64%, as well as glucanases Cel1, Cel2, and GluB by 19%, 93%, and 87%, respectively. This was accompanied by decreased activities of resistance-related enzymes, including CHI and GLU. The expression levels of genes phenylalanine ammonia-lyase PAL2, peroxidase POD 12, POD P7, CCR1, CYP84A2, and COMT in phenylpropanoid biosynthesis pathway also decreased by 33%, 53%, 18%, 50%, 30%, and 24% in SlDCL2c-RNAi fruit, resulting in decreased activities of PAL and POD. Consequently, the lesion diameter of gray mold in SlDCL2c-RNAi fruit increased by 55% compared to the control group. Overall, the present study indicated that DNA methyltransferase inhibitor 5-Aza reduces susceptibility of tomato fruit to gray mold through regulation of DCL2c-mediated inducible defense response.

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5-Azacytidine 对 DNA 去甲基化的化学诱导可通过类二聚体蛋白 DCL2c 增强番茄果实对灰霉病的防御能力。
采后腐烂主要是由成熟水果和新鲜蔬菜中的病原真菌引起的,它对农业的可持续发展构成了挑战,并造成了巨大的经济损失。DNA 甲基化对果实成熟的调控作用已得到充分证明,而果实在表观遗传调控下对采后腐烂的防御反应仍不确定。在本研究中,用 DNA 甲基转移酶抑制剂 5-氮杂胞嘧啶(5-Aza)处理番茄果实可显著降低其对灰霉病的易感性。经 5-Aza 处理后,我们观察到番茄果实中几丁质酶(CHI)和葡聚糖酶(GLU)的活性大幅提高,类二聚体 SlDCL2 基因家族的表达也有所增加。通过双链 RNA 诱导的 RNA 干扰(RNAi)抑制 SlDCL2c 会导致几丁质酶 CHI3、CHI9、V 级几丁质酶和内切几丁质酶 4 的表达量分别下降 71%、29%、55% 和 64%,以及葡聚糖酶 Cel1、Cel2 和 GluB 的表达量分别下降 19%、93% 和 87%。与此同时,抗性相关酶的活性也有所下降,包括 CHI 和 GLU。在 SlDCL2c-RNAi 果实中,苯丙氨酸氨解酶 PAL2、过氧化物酶 POD 12、POD P7、CCR1、CYP84A2 和 COMT 等苯丙类生物合成途径基因的表达水平也分别降低了 33%、53%、18%、50%、30% 和 24%,导致 PAL 和 POD 活性降低。因此,与对照组相比,SlDCL2c-RNAi 果实的灰霉病病斑直径增加了 55%。总之,本研究表明 DNA 甲基转移酶抑制剂 5-Aza 通过调节 DCL2c 介导的诱导性防御反应,降低了番茄果实对灰霉病的易感性。
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