Loss of obligate crossovers, defective cytokinesis and male sterility in barley caused by short-term heat stress.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2021-09-01 Epub Date: 2021-05-22 DOI:10.1007/s00497-021-00415-2
Cédric Schindfessel, Zofia Drozdowska, Len De Mooij, Danny Geelen
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引用次数: 10

Abstract

Key message: Short-term heat stress during male meiosis causes defects in crossover formation, meiotic progression and cell wall formation in the monocot barley, ultimately leading to pollen abortion. High temperature conditions cause a reduction of fertility due to alterations in meiotic processes and gametogenesis. The male gametophyte development has been shown to be particularly sensitive to heat stress, and even short-term and modest temperature shifts cause alterations in crossover formation. In line with previous reports, we observed that male meiosis in the monocot barley exposed for 24-45 h to heat stress (32-42 °C) partially or completely eliminates obligate crossover formation and causes unbalanced chromosome segregation and meiotic abortion. Depending on the severity of heat stress, the structure and organization of the chromosomes were altered. In addition to alterations in chromosome structure and dynamics, heat treatment abolished or reduced the formation of a callose wall surrounding the meiocytes and interrupted the cell cycle progression leading to cytokinesis defects and microspore cell death.

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短期热胁迫导致大麦专性杂交丧失、细胞质分裂缺陷和雄性不育。
关键信息:雄性减数分裂期间的短期热胁迫导致单子麦杂交形成、减数分裂进程和细胞壁形成缺陷,最终导致花粉败育。高温条件下由于减数分裂过程和配子体发生的改变而导致育性降低。雄性配子体的发育对热胁迫特别敏感,即使是短期和适度的温度变化也会引起杂交形成的改变。与之前的报道一致,我们观察到,暴露于热胁迫(32-42°C) 24-45 h的单子叶大麦的雄性减数分裂部分或完全消除了专性交叉形成,导致染色体分离不平衡和减数分裂流产。根据热胁迫的严重程度,染色体的结构和组织发生了变化。除了染色体结构和动力学的改变外,热处理消除或减少了围绕减数细胞的胼胝质壁的形成,并中断了细胞周期进程,导致细胞质分裂缺陷和小孢子细胞死亡。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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