Department of Applied Genetics and Cell Biology, Institute of Molecular Plant Biology, BOKU University, Muthgasse 18, 1190, Vienna, Austria.
"Gheorghe Rosca Codreanu" National College, Nicolae Balcescu, Barlad, 731183, Vaslui, Romania.
New Phytol. 2024 Aug;243(3):1065-1081. doi: 10.1111/nph.19904. Epub 2024 Jun 14.
The phytohormone abscisic acid (ABA) functions in the control of plant stress responses, particularly in drought stress. A significant mechanism in attenuating and terminating ABA signals involves regulated protein turnover, with certain ABA receptors, despite their main presence in the cytosol and nucleus, subjected to vacuolar degradation via the Endosomal Sorting Complex Required for Transport (ESCRT) machinery. Collectively our findings show that discrete TOM1-LIKE (TOL) proteins, which are functional ESCRT-0 complex substitutes in plants, affect the trafficking for degradation of core components of the ABA signaling and transport machinery. TOL2,3,5 and 6 modulate ABA signaling where they function additively in degradation of ubiquitinated ABA receptors and transporters. TOLs colocalize with their cargo in different endocytic compartments in the root epidermis and in guard cells of stomata, where they potentially function in ABA-controlled stomatal aperture. Although the tol2/3/5/6 quadruple mutant plant line is significantly more drought-tolerant and has a higher ABA sensitivity than control plant lines, it has no obvious growth or development phenotype under standard conditions, making the TOL genes ideal candidates for engineering to improved plant performance.
植物激素脱落酸(ABA)在植物应激反应的控制中起作用,特别是在干旱胁迫中。减轻和终止 ABA 信号的一个重要机制涉及到受调控的蛋白质周转,某些 ABA 受体,尽管它们主要存在于细胞质和核内,通过内体分选复合物必需的运输(ESCRT)机制被液泡降解。总的来说,我们的研究结果表明,离散的 TOM1-LIKE(TOL)蛋白,它们是植物中功能性 ESCRT-0 复合物替代物,影响 ABA 信号和运输机制核心成分的运输和降解。TOL2、3、5 和 6 调节 ABA 信号,它们在降解泛素化的 ABA 受体和转运体方面具有加性作用。TOL 与它们在根表皮和气孔保卫细胞中的不同内吞隔室中的货物共定位,在那里它们可能在 ABA 控制的气孔开度中发挥作用。尽管 tol2/3/5/6 四重突变体植物系比对照植物系更耐旱且对 ABA 更敏感,但在标准条件下,它没有明显的生长或发育表型,因此 TOL 基因是工程改良植物性能的理想候选基因。
