葡萄根部不规则食根菌的显微镜检测与qPCR方法(SYBR Green)的相关性研究

K. Labonova, M. Sineux, O. Zekri
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引用次数: 1

摘要

为了更容易地鉴定和定量葡萄藤中的不规则葡萄球菌,开发了一种分子工具,使每个DNA浓度计算与根系定植程度相关。为了将qPCR和显微镜获得的结果联系起来,选择了一种不同的可视化技术方法。将显微镜载玻片的详细标准评价方法与网格中的全局放大镜评价方法相结合。全局评估取样更接近于对整个根系的代表性部分进行的qPCR取样。这一事实成为显微镜与qPCR成功关联的基础。这些测量的结果是将平均qPCR值归因于定义为五个不同类别的每个定殖水平。DNA浓度约为0.66 ng·µL-1,对应于真菌与葡萄根(M1类)的第一次接触,而DNA浓度约为42 ng·µL-1,对应于菌根共生(M2类)的开始。258 ng·µL-1 (M3类)的DNA浓度为满意菌根水平,563 ng·µL-1 (M4类)以上的DNA浓度为完全菌根水平。该qPCR工具的开发可以快速准确地评估根系菌根化水平,而无需进行任何显微镜观察。
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Correlation between the microscopy and qPCR methods (SYBR Green) to detect and quantify Rhizophagus irregularis in grapevine roots
For an easier identification and quantification of R. irregularis in grapevine, a molecular tool was developed so that each DNA concentration calculated would relate to the degree of root system colonization. To correlate the results obtained by qPCR and microscopy, a different approach for the visualization technique was chosen. It combined the detailed standard method of evaluation on microscopic slides with the global magnifying glass evaluation method in the grids. The global assessment sampling was closer to the qPCR sampling that was made on a representative fraction of the whole root system. This fact became the base of successful correlation between microscopy and qPCR. The result of these measures were the attribution of an average qPCR value to each level of colonization defined as five different classes. Around 0.66 ng·µL-1, the DNA concentration corresponded to the first contacts between the fungus and the grapevine roots (class M1), while around 42 ng·µL-1 it accounted for the beginning of the mycorrhizal symbiosis (class M2). A satisfactory mycorrhization level could be concluded from a 258 ng·µL-1 DNA concentration (class M3), while all values above 563 ng·µL-1 (class M4) showed a full mycorrhization level. The development of this qPCR tool allowed the fast and accurate evaluation of the mycorrhization level in the root system without having to realize any microscopic observation.
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