基于生理变化与转录组学的薄壳山核桃耐低温响应研究OA
Analysis of the Low-temperature Response of Carya illinoinensis Based on Physiological Changes and Transcriptomics
以薄壳山核桃耐寒新疆(XJ)和不耐寒的"绍兴一号"(SX)半同胞家系为研究对象,比较它们低温处理下叶片中超氧化物歧化酶(SOD)活性、脯氨酸(Pro)以及丙二醛(MDA)含量等生理生化变化,并通过转录组测序对低温处理前后叶片中基因表达变化进行分析.结果表明:低温处理后XJ家系中的SOD、Pro和MDA相对于对照分别上升了58.11%、39.30%和3.42%,而在SX家系中则分别上升了152.53%、94.52%和7.97%;低温处理下,XJ家系传上具有寡聚糖生物合成和代谢相关基因的上调,而低温相关的细胞表受体和膜受体信号转导途径,分生组织和生长发育相关的基因被抑制.低温胁迫下XJ相对于SX家系,油菜素内酯合成及信号转导途径相关基因在上调基因中明显富集.因此,XJ家系的薄壳山核桃遗传上可能具有的较强寡聚糖合成能力;同时,低温胁迫下,XJ家系还会通过增强油菜素内酯的生物合成和信号转导能力,提高CBF途径相关基因表达参与低温胁迫响应,实现其抗寒能力的提高.
Taking the cold-tolerant Carya illinoinensis from Xinjiang Provenance(XJ)and cold-sensitive"Shaoxing No.1"C.illinoinensis(SX)half-sib families of C.illinoinensis as research subjects,this study com-pared the physiological and biochemical changes in leaves under low-temperature treatment,including superox-ide dismutase(SOD)activity,proline(Pro)content,and malondialdehyde(MDA)content.Through transcriptome sequencing,the changes in gene expression in leaves before and after low-temperature treatment were analyzed.The findings indicated that after low-temperature treatment,compared with the control,the physiological indicat-ors in response to low-temperature,SOD,proline,and MDA,increased by 58.11%,39.30%,and 3.42%respect-ively in XJ,while in SX,they increased by 152.53%,94.52%,and 7.97%respectively.Under low-temperature treatment,genes related to oligosaccharide biosynthesis and metabolism were upregulated in the XJ family of C.illinoinensis,whereas genes involved in low-temperature-related cell surface receptor and membrane receptor sig-nal transduction pathways,as well as those associated with meristem and growth and development,were sup-pressed.Under low-temperature stress,genes involved in brassinosteroid biosynthesis and signal transduction pathways were significantly enriched among the upregulated genes in the XJ family compared with the SX family.Therefore,the XJ family of C.illinoinensis may possess a genetically enhanced capacity for oligosaccharide syn-thesis.Under low-temperature stress,XJ also participates in the low-temperature stress response by enhancing the biosynthesis and signaling of brassinosteroids and increasing gene expression in the CBF pathway,thereby im-proving its cold resistance.
吴晓羚;庄晨晨;吴小双;姜年春;余拥军
嘉兴市林业技术推广站,浙江嘉兴 314001浙江农林大学林业与生物技术学院 浙江 杭州 311300嘉兴市林业技术推广站,浙江嘉兴 314001开化县林场,浙江衢州 324300开化县林业局,浙江衢州 324300
农业科技
薄壳山核桃低温生理生化转录组基因表达
Carya illinoinensislow-temperaturephysiological and biochemicaltranscriptomegene expres-sion
《西南林业大学学报》 2026 (5)
106-115,10
浙江省院合作林业科技项目(2023SY07)资助.
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