A new perception about cytomixis: Causes, mechanisms and role

V. Singhal, Rohit Kumar, Puneet Kumar
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引用次数: 4

Abstract

Till date, several classical and modern methodological tools had been employed to investigate the phenomenon of cytomixis for developing a clear understand-ing about its occurrence, causes, mechanism, and role in plant evolution. These attempts have succeeded to some extent in modifying general perception about it ever since its discovery. Based on the published literature as well as own work, the authors opined that cytomixis has no correlation with ploidy level/genomic status. Rather, it is the genetic makeup and environmental conditions which are responsible for cytomixis. We also assume that recipient meiocytes adjust to extra chromatin either through exclusion or condensation of chromatin. Other-wise, meiocytes depicted spindle abnormalities leading to gametes with the variable genetic constitution. Such gametes led to the origin of aneuploids/polyploids. High frequency of cytomixis during early stages has a direct correlation with the easier passage of genetic material. In some cases, whole nucleus migration resulted into syncytes which yielded unreduced pollen, leading to the origin of polyploids. Another evolutionary aspect of cytomixis is that it induces high pollen sterility in plants of cold deserts acquiring perennial habits and vegetative modes of propagation. We are of the opinion that like other cytological processes, cytomixis is a natural meiotic aberration of potential evolutionary significance.
对巨细胞增生的新认识:原因、机制和作用
迄今为止,已有几种经典和现代的方法工具对细胞分裂现象进行了研究,以期对其发生、原因、机制及其在植物进化中的作用有一个清晰的认识。这些尝试在一定程度上成功地改变了自发现以来对它的普遍看法。作者结合已发表的文献和自己的工作,认为细胞分裂与倍性水平/基因组状态无关。相反,是基因组成和环境条件导致了细胞分裂。我们还假设受体减数细胞通过排除或凝聚染色质来适应额外的染色质。否则,减数细胞描述纺锤体异常导致配子具有可变遗传结构。这样的配子导致了非整倍体/多倍体的起源。早期细胞分裂的高频率与遗传物质更容易传代有直接关系。在某些情况下,整个细胞核迁移导致合子产生未还原性花粉,导致多倍体的产生。细胞分裂的另一个进化方面是,它诱导了寒冷沙漠植物的高花粉不育性,获得了多年生习性和营养繁殖模式。我们认为,像其他细胞学过程一样,细胞分裂是一种具有潜在进化意义的自然减数分裂畸变。
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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