State Key Laboratory of Tree Genetics and Breeding, College of Biological Sciences and Technology, Beijing Forestry University, Beijing 100083, China.
State Key Laboratory of Plant Physiology and Biochemistry, College of Biological Sciences, China Agricultural University, Beijing 100193, China.
Plant Sci. 2024 Jun;343:112059. doi: 10.1016/j.plantsci.2024.112059. Epub 2024 Mar 6.
Lignin is a complex biopolymer formed through the condensation of three monomeric precursors known as monolignols. However, the mechanism underlying lignin precursor transport remains elusive, with uncertainty over whether it occurs through passive diffusion or an active energized process. ATP-binding cassette 36 (ABCG36) plays important roles in abiotic stress resistance. In this study, we investigated the transport functions of LkABCG36 (Larix kaempferi) for lignin precursors and the potential effects of LkABCG36 overexpression in plants. LkABCG36 enhanced the ability of tobacco (Nicotiana tabacum) bright yellow-2 (BY-2) cells to resist monolignol alcohol stress. Furthermore, LkABCG36 overexpression promoted lignin deposition in tobacco plant stem tissue. To understand the underlying mechanism, we measured the BY-2 cell ability to export lignin monomers and the uptake of monolignol precursors in inside-out (inverted) plasma membrane vesicles. We found that the transport of coniferyl and sinapyl alcohols is an ATP-dependent process. Our data suggest that LkABCG36 contributes to lignin accumulation in tobacco stem tissues through a mechanism involving the active transport of lignin precursors to the cell wall. These findings shed light on the lignin biosynthesis process, with important implications for enhancing lignin deposition in plants, potentially leading to improved stress tolerance and biomass production.
木质素是一种通过三种单体前体(称为苯丙醇)缩合形成的复杂生物聚合物。然而,木质素前体运输的机制仍然难以捉摸,不确定它是通过被动扩散还是主动能量过程发生的。ATP 结合盒转运蛋白 36(ABCG36)在非生物胁迫抗性中发挥重要作用。在本研究中,我们研究了 LkABCG36(日本落叶松)对木质素前体的转运功能,以及 LkABCG36 在植物中过表达的潜在影响。LkABCG36 增强了烟草(Nicotiana tabacum)亮黄色-2(BY-2)细胞抵抗苯丙醇醇胁迫的能力。此外,LkABCG36 过表达促进了烟草植物茎组织中木质素的沉积。为了了解潜在的机制,我们测量了 BY-2 细胞输出木质素单体和摄取苯丙醇前体的能力,使用的是内外翻转质膜囊泡。我们发现松柏醇和芥子醇的运输是一个依赖于 ATP 的过程。我们的数据表明,LkABCG36 通过将木质素前体主动运输到细胞壁的机制,有助于烟草茎组织中木质素的积累。这些发现揭示了木质素生物合成过程,对提高植物木质素沉积、提高抗胁迫能力和生物量生产具有重要意义。
