Instituto de Biotecnología, Universidad Nacional Autónoma de México, Apartado postal 510-3, Cuernavaca 62250, Morelos, México.
Centro de Desarollo de Productos Bióticos-Instituto Politécnico Nacional, Calle CeProBi No. 8, Col. San Isidro Yautepec 62731, Morelos, México.
Plant Sci. 2018 Jul;272:1-13. doi: 10.1016/j.plantsci.2018.03.026. Epub 2018 Mar 30.
This work shows that autophagy plays a key role in the hydrotropic curvature of Arabidopsis thaliana roots. An analysis of GFP-ATG8a transgenic plants showed that autophagosomes accumulated in the root curvature 2 h after the transfer of seedlings to Normal Medium-Water Stress Medium (NM-WSM). Autophagy flux was required for root bending. Remarkably, several atg mutants did not show hydrotropic curvature in NM-WSM or the splitting-agar system. Hyper, an HO sensor showed that HO preferentially accumulated in the root curvature at a similar rate as the autophagosomes did during hydrotropic response. Peroxidase and ROBH activity inhibition affected, negatively or positively root curvature. This data suggested HO balance was required for root bending. Malondialdehyde, a metabolite used as an indicator of oxidative stress, accumulated at the same rate during the development of the curvature in NM-WSM. These results suggest that autophagy is required for the hydrotropic response in NM-WSM. We discuss the possible regulatory role of HO on autophagy during the hydrotropic response that might relieve oxidative stress provoked by water stress. NM-WSM is water stress system suitable for studying hydrotropic responses on a short-term basis.
这项工作表明自噬在拟南芥根的向水弯曲中起着关键作用。对 GFP-ATG8a 转基因植物的分析表明,在将幼苗转移到正常培养基-水胁迫培养基(NM-WSM) 2 小时后,自噬体在根弯曲处积累。自噬流对于根弯曲是必需的。值得注意的是,几个 atg 突变体在 NM-WSM 或琼脂分裂系统中没有表现出向水弯曲。超敏蛋白(HO)传感器表明,HO 优先在根弯曲处积累,其积累速度与向水弯曲过程中自噬体的积累速度相似。过氧化物酶和 ROBH 活性抑制对根弯曲有负向或正向影响。这些数据表明 HO 平衡是根弯曲所必需的。丙二醛(MDA)是一种作为氧化应激指标的代谢物,在 NM-WSM 中根弯曲发育过程中以相同的速率积累。这些结果表明,自噬是 NM-WSM 中向水弯曲反应所必需的。我们讨论了 HO 在向水弯曲反应中对自噬的可能调节作用,这种作用可能减轻由水胁迫引起的氧化应激。NM-WSM 是一种适合在短期内研究向水弯曲反应的水胁迫系统。
