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现场检测拟菱形藻属物种的微阵列方法的优缺点。

Strengths and weaknesses of microarray approaches to detect Pseudo-nitzschia species in the field.

机构信息

Laboratory of Ecology and Evolution of Plankton, Stazione Zoologica Anton Dohrn, Villa Comunale I, 80121, Naples, Italy.

出版信息

Environ Sci Pollut Res Int. 2013 Oct;20(10):6705-18. doi: 10.1007/s11356-012-1330-1. Epub 2012 Nov 28.

DOI:10.1007/s11356-012-1330-1
PMID:24065245
Abstract

The planktonic diatom genus Pseudo-nitzschia contains several genetically closely related species. Some of these can produce domoic acid, a potent neurotoxin. Thus, monitoring programs are needed to screen for the presence of these toxic species. Unfortunately, many are impossible to distinguish using light microscopy. Therefore, we assessed the applicability of microarray technology for detection of toxic and non-toxic Pseudo-nitzschia species in the Gulf of Naples (Mediterranean Sea). Here, 11 species have been detected, of which at least 5 are potentially toxic. A total of 49 genus- and species-specific DNA probes were designed in silico against the nuclear LSU and SSU rRNA of 19 species, and spotted on the microarray. The microarray was tested against total RNA of monoclonal cultures of eight species. Only three of the probes designed to be species-specific were indeed so within the limits of our experimental design. To assess the effectiveness of the microarray in detecting Pseudo-nitzschia species in environmental samples, we hybridized total RNA extracted from 11 seasonal plankton samples against microarray slides and compared the observed pattern with plankton counts in light microscopy and with expected hybridization patterns obtained with monoclonal cultures of the observed species. Presence of species in field samples generally resulted in signal patterns on the microarray as observed with RNA extracted from cultures of these species, but many a-specific signals appeared as well. Possible reasons for the numerous cross reactions are discussed. Calibration curves for Pseudo-nitzschia multistriata showed linear relationship between signal strength and cell number.

摘要

浮游硅藻属假菱形藻包含几个遗传上密切相关的物种。其中一些可以产生软骨藻酸,这是一种强效神经毒素。因此,需要监测计划来筛选这些有毒物种的存在。不幸的是,许多物种使用光显微镜无法区分。因此,我们评估了微阵列技术在检测那不勒斯湾(地中海)有毒和无毒假菱形藻物种中的适用性。在这里,已经检测到 11 种,其中至少有 5 种是潜在有毒的。总共设计了 49 个属和种特异性 DNA 探针,针对 19 个物种的核 LSU 和 SSU rRNA 在计算机上进行设计,并在微阵列上进行点样。微阵列针对八种单克隆培养物的总 RNA 进行了测试。在所设计的三个被认为是种特异性的探针中,只有三个在我们的实验设计范围内确实如此。为了评估微阵列在检测环境样品中假菱形藻物种的有效性,我们将从 11 个季节性浮游生物样本中提取的总 RNA 与微阵列玻片杂交,并将观察到的模式与光显微镜下的浮游生物计数以及与观察到的物种的单克隆培养物获得的预期杂交模式进行比较。在野外样本中,通常会出现与从这些物种培养物中提取的 RNA 观察到的信号模式一样的物种存在信号,但也出现了许多非特异性信号。讨论了出现许多交叉反应的可能原因。多纹假菱形藻的校准曲线显示信号强度与细胞数之间存在线性关系。

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