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多倍体化是自然植物种群对 UV-B 胁迫的常见反应,但多倍体化的程度可能受染色体类型的影响。

Endopolyploidy is a common response to UV-B stress in natural plant populations, but its magnitude may be affected by chromosome type.

机构信息

Department of Botany and Zoology, Masaryk University, Brno, Czech Republic.

出版信息

Ann Bot. 2020 Oct 6;126(5):883-889. doi: 10.1093/aob/mcaa109.

DOI:10.1093/aob/mcaa109
PMID:32582956
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7750947/
Abstract

BACKGROUND AND AIMS

Ultraviolet-B radiation (UV-B) radiation damages the DNA, cells and photosynthetic apparatus of plants. Plants commonly prevent this damage by synthetizing UV-B-protective compounds. Recent laboratory experiments in Arabidopsis and cucumber have indicated that plants can also respond to UV-B stress with endopolyploidy. Here we test the generality of this response in natural plant populations, considering their monocentric or holocentric chromosomal structure.

METHODS

We measured the endopolyploidy index (flow cytometry) and the concentration of UV-B-protective compounds in leaves of 12 herbaceous species (1007 individuals) from forest interiors and neighbouring clearings where they were exposed to increased UV-B radiation (103 forest + clearing populations). We then analysed the data using phylogenetic mixed models.

KEY RESULTS

The concentration of UV-B protectives increased with UV-B doses estimated from hemispheric photographs of the sky above sample collection sites, but the increase was more rapid in species with monocentric chromosomes. Endopolyploidy index increased with UV-B doses and with concentrations of UV-B-absorbing compounds only in species with monocentric chromosomes, while holocentric species responded negligibly.

CONCLUSIONS

Endopolyploidy seems to be a common response to increased UV-B in monocentric plants. Low sensitivity to UV-B in holocentric species might relate to their success in high-UV-stressed habitats and corroborates the hypothesized role of holocentric chromosomes in plant terrestrialization.

摘要

背景与目的

紫外线-B 辐射(UV-B)会破坏植物的 DNA、细胞和光合作用装置。植物通常通过合成 UV-B 保护化合物来防止这种损伤。最近在拟南芥和黄瓜中的实验室实验表明,植物也可以通过内多倍体化来应对 UV-B 胁迫。在这里,我们考虑到植物的单中心或全中心染色体结构,在自然植物群体中测试这种反应的普遍性。

方法

我们使用流式细胞术测量了 12 种草本物种(1007 个个体)的内多倍体指数(flow cytometry)和叶片中 UV-B 保护化合物的浓度,这些物种来自森林内部和相邻的空旷地,这些空旷地暴露在增加的 UV-B 辐射下(103 个森林+空旷地种群)。然后,我们使用系统发育混合模型分析了数据。

主要结果

从样本采集地点上空半球天空的照片估计的 UV-B 剂量与 UV-B 保护剂的浓度呈正相关,但在具有单中心染色体的物种中,这种相关性更为迅速。内多倍体指数随着 UV-B 剂量的增加而增加,并且仅在具有单中心染色体的物种中随着 UV-B 吸收化合物的浓度增加而增加,而全中心物种的反应微不足道。

结论

内多倍体似乎是单中心植物对增加的 UV-B 的常见反应。全中心物种对 UV-B 的低敏感性可能与其在高 UV 胁迫生境中的成功有关,并证实了全中心染色体在植物陆地化中的假设作用。

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Pest Arthropods with Holocentric Chromosomes are More Resistant to Sterilizing Ionizing Radiation.具着丝粒染色体的害虫节肢动物对绝育电离辐射更具抗性。
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