Kristian A Choate, Edward J Raack, Paul B Mann, Evan A Jones, Robert J Winn, Matthew J Jennings
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Additional evaluation using glioma tumor lysates with known <i>IDH1</i>-R132 mutational status demonstrated specificity in approximately 35 min without the need for a nucleic acid extraction purification step. This LNA-LAMP-based genotyping assay can detect single base differences in purified nucleic acids or tissue homogenates, including instances where the variant of interest is present in an excess of background wild-type DNA. The pH-based colorimetric indicator of LNA-LAMP facilitates convenient visual interpretation of reactions, and we demonstrate successful translation to an end-point format using absorbance ratio, allowing for an alternative and objective approach for differentiating between positive and negative reactions. 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引用次数: 0
摘要
虽然单核苷酸变体(SNV)的检测对评估人类健康和疾病非常重要,但大多数基因分型方法都需要核酸提取步骤和漫长的分析时间。在这里,我们介绍了一种利用锁定核酸(LNA)整合到自退火环路引物中的方案,通过环路介导等温扩增(LAMP)对五种异柠檬酸脱氢酶 1 R132(IDH1-R132)变体进行等位基因鉴别。最初使用纯化的合成 DNA 对该基因分型面板进行了评估,以证明其具有特异性 SNV 识别能力。使用已知 IDH1-R132 突变状态的胶质瘤肿瘤裂解物进行的其他评估表明,该基因分型板无需核酸提取纯化步骤,在大约 35 分钟内就能达到特异性。这种基于 LNA-LAMP 的基因分型检测方法可以检测纯化核酸或组织匀浆中的单碱基差异,包括在背景野生型 DNA 过多的情况下出现的相关变体。LNA-LAMP 基于 pH 值的比色指示器便于对反应进行直观判读,我们还展示了利用吸光度比值将其转化为终点格式的成功案例,从而为区分阳性反应和阴性反应提供了另一种客观的方法。重要的是,LNA-LAMP 基因分型面板具有高度的可重复性,没有观察到假阳性或假阴性结果。
While the detection of single-nucleotide variants (SNVs) is important for evaluating human health and disease, most genotyping methods require a nucleic acid extraction step and lengthy analytical times. Here, we present a protocol which utilizes the integration of locked nucleic acids (LNAs) into self-annealing loop primers for the allelic discrimination of five isocitrate dehydrogenase 1 R132 (IDH1-R132) variants using loop-mediated isothermal amplification (LAMP). This genotyping panel was initially evaluated using purified synthetic DNA to show proof of specific SNV discrimination. Additional evaluation using glioma tumor lysates with known IDH1-R132 mutational status demonstrated specificity in approximately 35 min without the need for a nucleic acid extraction purification step. This LNA-LAMP-based genotyping assay can detect single base differences in purified nucleic acids or tissue homogenates, including instances where the variant of interest is present in an excess of background wild-type DNA. The pH-based colorimetric indicator of LNA-LAMP facilitates convenient visual interpretation of reactions, and we demonstrate successful translation to an end-point format using absorbance ratio, allowing for an alternative and objective approach for differentiating between positive and negative reactions. Importantly, the LNA-LAMP genotyping panel is highly reproducible, with no false-positive or false-negative results observed.