REORGANIZATION OF INTERPHASE MICROTUBULES IN ROOT CELLS OF MEDICAGO SATIVA L. DURING ACCLIMATION TO OSMOTIC AND SALT STRESS CONDITION.

Q4 Medicine

Tsitologiya Pub Date : 2017-01-01

E M Lazareva, E N Baranova, E A Smirnova

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引用次数: 0

Abstract

We have investigated the organization of microtubule system in interphase cells of Medicago sativa L. roots during acclimation to salt and osmotic stress at different concentrations of NaCl, Na2SO4 and mannitol. We have identified several morphological changes in tubulin cytoskeleton that appear during the acclimation to salt and osmotic stress in the cells of different root tissues: 1) decreased density of cortical microtubule network, 2) random orientation of cortical microtubule bundles, 3) non-uniform density of the bundles, 4) thickening of the bundles, 5) fragmentation of the bundles, 6) formation of centers of converging microtubule. Reduced density of the microtubule network and thickening of the bundles was detected during osmotic and salt stress, yet random orientation of cortical microtubules was observed under osmotic stress and not found during salt stress. Fragmentation of microtubule bundles was apparent during salt stress and less evident at high concentration of mannitol. Formation of centers of converging microtubule was common under prolonged action of sodium sulfate, less common under sodium chloride and not found after mannitol treatment. Our data show that cortical microtubules in alfalfa root cells rearrange not only in response to different ions, but also to osmotic pressure. Thus, the signaling pathways and molecular mechanisms inducing reorganization of the microtubule system may be triggered not only by sodium cations but also by sulfate and chloride anion at the concentrations that do not cause irreversible cell damage. Our study show that the osmotic and salt stress differently affect the cortical microtubules, and their reorganization in response to stress depends on the salt cations as well as anions might also show additional effect under salt stress.

本刊更多论文

渗透和盐胁迫下紫花苜蓿根细胞间期微管的重组。

研究了不同浓度NaCl、Na2SO4和甘露醇胁迫下紫花苜蓿(Medicago sativa L.)根系间期细胞微管系统的组织结构。我们发现不同根组织细胞在适应盐胁迫和渗透胁迫过程中，微管细胞骨架出现了几种形态变化:1)皮质微管网络密度降低，2)皮质微管束取向随机，3)皮质微管束密度不均匀，4)皮质微管束增厚，5)皮质微管束断裂，6)会聚微管中心形成。在渗透和盐胁迫下，微管网络密度降低，微管束增厚，但在渗透胁迫下，皮层微管的方向是随机的，而在盐胁迫下没有发现。盐胁迫下微管束断裂明显，高浓度甘露醇下不明显。聚敛微管中心的形成在硫酸钠长期作用下较为常见，在氯化钠作用下较少，甘露醇作用后未见。我们的数据表明，紫花苜蓿根细胞的皮层微管不仅对不同的离子有反应，而且对渗透压有反应。因此，诱导微管系统重组的信号通路和分子机制不仅可以由钠离子触发，还可以由硫酸盐和氯阴离子在不引起不可逆细胞损伤的浓度下触发。我们的研究表明，渗透和盐胁迫对皮质微管的影响不同，它们在盐胁迫下的重组依赖于盐阳离子，阴离子也可能在盐胁迫下表现出额外的作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Tsitologiya Medicine-Pathology and Forensic Medicine

CiteScore

0.40

自引率

0.00%

发文量

期刊介绍： TSITOLOGIYA publishes papers on all chief problems of cell biology: morphology, physiology, immunology, biochemistry, molecular biology, biophysics. The submitted manuscripts may be in Russian or in English. The Journal accepts the original papers not published previously and dealing with studies on both animal and plant cells, reviews, discussional papers, communications on new methods of investigations, reviews of books published the current year, chronicle. Communications on research meetings (congresses, conferences, symposia, etc.) for the Chronicle Section of the Journal are accepted only if submitted not later than 2 months after the date of the meeting.