Hsu Tsui-Kang, Chen Jung-Sheng, Hsu Bing-Mu, Chen Yu-Pin, Leu Tsai-Hsueh, Huang Tung-Yi, Hsu Yu-Wen, Wu Shu-Fen
Department of Biomedical Sciences, National Chung Cheng University, 168 University Road, Minhsiung Township, Chiayi County, 62102, Taiwan.
Department of Ophthalmology, Cheng Hsin General Hospital, Taipei, Taiwan.
Parasitol Res. 2018 Feb;117(2):437-446. doi: 10.1007/s00436-017-5719-0. Epub 2017 Dec 17.
Acanthamoeba spp. are ubiquitous, opportunistic potential human pathogens, causing granulomatous amoebic encephalitis and keratitis. They are classified as protozoa, and they include at least 20 different genotypes (T1-T20) based on variation in the 18S rRNA gene. Acanthamoeba spp. are diverse in their production of toxins and in their ability to resist environmental factors. Therefore, it is necessary to develop a rapid genotyping method for Acanthamoeba spp. in aquatic environments. Although the denaturing gradient gel electrophoresis (DGGE) method for analysing microbial genotypes is potentially useful for rapid identification of aquatic environmental species, the technique has been compromised by artificial DGGE profiles in which many DNA fragments of identical sequences are segregated and displayed as different bands. The results indicate that PCR-DGGE genotyping with a GC clamp results in many segregated weaker bands of identical DNA sequences. In contrast, PCR-DGGE genotyping without a GC clamp displays genotype-dependent patterns in the major bands. Thus, DGGE without a GC clamp was performed to compare genotyping efficiency for Acanthamoeba in 21 water samples from rivers and reservoirs in Taiwan. Among them, four samples were found to demonstrate a banding pattern with more than one major band, and these band profiles of major bands were identical to those of positive controls. DNA cloning further confirmed that the sequences of the major bands were identical. In conclusion, more than two genotypes of Acanthamoeba in the four samples were identified by this method, suggesting that PCR-DGGE genotyping without a GC clamp is a useful approach for studying the diversity of Acanthamoeba communities. Graphical abstract.
棘阿米巴属是普遍存在的、具有机会致病性的潜在人类病原体,可引起肉芽肿性阿米巴脑炎和角膜炎。它们被归类为原生动物,基于18S rRNA基因的变异,它们至少包括20种不同的基因型(T1 - T20)。棘阿米巴属在毒素产生和抵抗环境因素的能力方面具有多样性。因此,有必要开发一种用于快速对水生环境中的棘阿米巴属进行基因分型的方法。尽管用于分析微生物基因型的变性梯度凝胶电泳(DGGE)方法可能有助于快速鉴定水生环境物种,但该技术受到人工DGGE图谱的影响,其中许多相同序列的DNA片段被分离并显示为不同的条带。结果表明,带有GC夹的PCR - DGGE基因分型会导致许多相同DNA序列的较弱分离条带。相比之下,没有GC夹的PCR - DGGE基因分型在主要条带中显示出基因型依赖性模式。因此,进行了没有GC夹的DGGE以比较台湾河流和水库21个水样中棘阿米巴的基因分型效率。其中,发现四个样本显示出具有多个主要条带的条带模式,并且这些主要条带的条带图谱与阳性对照的图谱相同。DNA克隆进一步证实主要条带的序列是相同的。总之,通过该方法在四个样本中鉴定出了两种以上的棘阿米巴基因型,这表明没有GC夹的PCR - DGGE基因分型是研究棘阿米巴群落多样性的一种有用方法。图形摘要。
