白杨(水杨科)无性系的分子鉴定与核化学分析。

International journal of plant genomics Pub Date : 2017-01-01 Epub Date: 2017-04-23 DOI:10.1155/2017/5636314
Dmitry V Politov, Yuri S Belokon, Anna V Shatokhina, Maryana M Belokon, Nail A Khanov, Elena A Mudrik, Tatyana A Polyakova, Anna B Azarova, Konstantin A Shestibratov
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引用次数: 2

摘要

在俄罗斯鞑靼斯坦共和国一处乡土林分的种群遗传多样性分析中,发现了一株高度杂合的白杨(Populus tremula L.)无性系“Meshabash”。在这里,我们报告的核分析结果表明,这个高活力的无性系是二倍体(2n = 38),而典型的三倍体杨树表现出更高的生长速度和对真菌Phellinus tremulae引起的杨树树干腐烂的抗性。利用14个SSR位点对一系列模型树进行DNA鉴定,初步确定了该无性系所占的面积(至少1.94 ha),结果表明该无性系在该地块上48个基因型树干中占40个,最大间距为254 m。由于白杨能够在距离达20-35米的地方被树根吸盘切断或死亡后再生,因此假设目前的林分是在至少5代的时间内从一棵白杨树上扩散而来的。模型树的树干腐烂损伤表明,该病菌对所研究的无性系的生存力和生产性能影响较小,其杂合度(0.926)高于本研究样地和其他3个对照样地的所有研究树。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Molecular Identification and Karyological Analysis of a Rampant Aspen <i>Populus tremula</i> L. (Salicaceae) Clone.

Molecular Identification and Karyological Analysis of a Rampant Aspen <i>Populus tremula</i> L. (Salicaceae) Clone.

Molecular Identification and Karyological Analysis of a Rampant Aspen <i>Populus tremula</i> L. (Salicaceae) Clone.

Molecular Identification and Karyological Analysis of a Rampant Aspen Populus tremula L. (Salicaceae) Clone.

A rampant highly heterozygous aspen (Populus tremula L.) clone "Meshabash" has been revealed in course of population genetic diversity analysis in a native stand in the Republic of Tatarstan, Russia. Here we report the results of karyological analysis showing that this highly vigorous clone is diploid (2n = 38) while typically triploid aspen demonstrates increased growth rate and resistance to aspen trunk rot caused by fungus Phellinus tremulae. By means of DNA identification of a series of model trees using 14 SSR loci we outlined the area occupied by this clone (at least 1.94 ha) and demonstrated that its ramets constitute 40 out of 48 genotyped trunks on the plot with the maximal distance between ramets 254 m. Since aspen is able to regenerate after cutting or die-off of maternal tree by root suckers at a distance up to 20-35 m this assumed that current stand appeared as a result of such spreading from an ortet tree during at least 5 generations. Trunk rot damage in the wood of model trees indicated low influence of this pathogen on viability and performance of the studied clone that can be associated with its extreme heterozygosity level (0.926) exceeding all the studied trees in this research plot and in three other control samples.

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