Chinh T Bui, Andreana Lambrinakos, Jeffrey J Babon, Richard GH Cotton
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引用次数: 0
Abstract
BACKGROUND: The conventional solution-phase Chemical Cleavage of Mismatch (CCM) method is time-consuming, as the protocol requires purification of DNA after each reaction step. This paper describes a new version of CCM to overcome this problem by immobilizing DNA on silica solid supports. RESULTS: DNA test samples were loaded on to silica beads and the DNA bound to the solid supports underwent chemical modification reactions with KMnO4 (potassium permanganate) and hydroxylamine in 3M TEAC (tetraethylammonium chloride) solution. The resulting modified DNA was then simultaneously cleaved by piperidine and removed from the solid supports to afford DNA fragments without the requirement of DNA purification between reaction steps. CONCLUSIONS: The new solid-phase version of CCM is a fast, cost-effective and sensitive method for detection of mismatches and mutations.
背景:传统的溶液相错配化学裂解法(CCM)耗时较长,因为每一步反应后都需要纯化 DNA。本文介绍了一种新版 CCM,通过将 DNA 固定在二氧化硅固体支持物上克服了这一问题。结果:将 DNA 检测样本装载到硅胶珠上,然后在 3M TEAC(四乙基氯化铵)溶液中用 KMnO4(高锰酸钾)和羟胺对与固体支持物结合的 DNA 进行化学修饰反应。修饰后的 DNA 同时被哌啶裂解,并从固体支持物上移除,从而得到 DNA 片段,无需在反应步骤之间进行 DNA 纯化。结论:新型固相 CCM 是一种快速、经济、灵敏的错配和突变检测方法。
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