在镉耐受方面木质素生物合成的分子见解：柳树形态、转录组和蛋白质组分析。

Molecular insights into lignin biosynthesis on cadmium tolerance: Morphology, transcriptome and proteome profiling in Salix matsudana.

机构信息

State Key Laboratory of Tree Genetics and Breeding, Key Laboratory of Tree Breeding of Zhejiang Province, Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Hangzhou, Zhejiang 311400, China; Forestry Faculty, Nanjing Forestry University, Nanjing, Jiangsu 210037, China.

出版信息

J Hazard Mater. 2023 Jan 5;441:129909. doi: 10.1016/j.jhazmat.2022.129909. Epub 2022 Sep 8.

DOI:10.1016/j.jhazmat.2022.129909

PMID:36099736

Abstract

Soil pollution caused by cadmium (Cd) is a serious concern. Phytoremediation is a popular technology in the remediation of Cd-contaminated soil. Salix matsudana var. matsudana f. umbraculifera Rehd. has been characterized as a high Cd-accumulating and tolerant willow (HCW). Here, transcriptome and proteome profiling, along with morphology analyses were performed to explore molecular cross-talk involved in Cd tolerance. Our results showed that 73%- 83% of the Cd in roots accumulated in the cell walls and root xylem cell walls were significantly thickened. From transcriptome and proteome analysis, a total of 153 up-regulated differentially-expressed genes and 655 up-regulated differentially-expressed proteins were found in common between two comparison groups (1 d and 4 d vs. respective control). Furthermore, phenylpropanoid biosynthesis was identified as a key pathway in response to Cd stress. In this pathway, lignin biosynthesis genes or proteins were significantly up-regulated, and lignin content increased significantly in roots under Cd stress. Two Cd-induced genes cinnamoyl-CoA reductase 1 (SmCCR1) and cinnamyl alcohol dehydrogenase 7 (SmCAD7) from HCW increased the lignin content and enhanced Cd tolerance in transgenic poplar calli. These results lay the foundation for further clarifying the molecular mechanisms of Cd tolerance in woody plants.

摘要

土壤镉污染问题严峻，植物修复技术是一种用于污染土壤修复的热门技术。柳树（Salix matsudana var. matsudana f. umbraculifera Rehd.）具有较强的镉积累和耐受能力，被称为高镉积累耐受柳树（HCW）。本研究通过对 HCW 进行转录组和蛋白质组分析，并结合形态学分析，探讨其耐受镉的分子调控机制。结果表明，根系 73%-83%的镉积累在细胞壁中，根木质部细胞壁明显增厚。转录组和蛋白质组分析结果表明，在两个比较组（1 d 和 4 d 与相应的对照组）之间共发现 153 个上调的差异表达基因和 655 个上调的差异表达蛋白。此外，苯丙烷生物合成被鉴定为响应 Cd 胁迫的关键途径。在该途径中，木质素生物合成基因或蛋白显著上调，且木质素含量在 Cd 胁迫下的根中显著增加。HCW 中的两个 Cd 诱导基因肉桂酰辅酶 A 还原酶 1（SmCCR1）和肉桂醇脱氢酶 7（SmCAD7）增加了木质素含量，并增强了转基因杨树愈伤组织对 Cd 的耐受性。这些结果为进一步阐明木本植物 Cd 耐受的分子机制奠定了基础。

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在镉耐受方面木质素生物合成的分子见解：柳树形态、转录组和蛋白质组分析。

Molecular insights into lignin biosynthesis on cadmium tolerance: Morphology, transcriptome and proteome profiling in Salix matsudana.

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