{"url":"https://tgojobor1.hatenablog.com/entry/20130619/2013061804","width":"100%","published":"2013-06-19 16:50:04","author_name":"tgojobor","html":"<iframe src=\"https://hatenablog-parts.com/embed?url=https%3A%2F%2Ftgojobor1.hatenablog.com%2Fentry%2F20130619%2F2013061804\" title=\"MDA(Multiple Displacement Amplification)\u3068\u306f\u4f55\u304b - \u5550\u5544\u540c\u6642\" class=\"embed-card embed-blogcard\" scrolling=\"no\" frameborder=\"0\" style=\"display: block; width: 100%; height: 190px; max-width: 500px; margin: 10px 0px;\"></iframe>","image_url":null,"blog_url":"https://tgojobor1.hatenablog.com/","categories":[],"description":"MDA(Multiple Displacement Amplification)\uff1c\u53c2\u8003\uff1e \u300cMultiple displacement amplification (MDA) is a non-PCR based DNA amplification technique. This method can rapidly amplify minute amounts of DNA samples to a reasonable quantity for genomic analysis. The reaction starts by annealing random hexamer primers\u2026","blog_title":"\u5550\u5544\u540c\u6642","provider_url":"https://hatena.blog","version":"1.0","title":"MDA(Multiple Displacement Amplification)\u3068\u306f\u4f55\u304b","author_url":"https://blog.hatena.ne.jp/tgojobor/","type":"rich","height":"190","provider_name":"Hatena Blog"}