We report a general strategy based on digital counting principle that enables an efficient acquisition of enzyme mutants with desired activities from just a few clones within a day. We prepared a high-density femtoliter droplet array, consisting of 1 million uniform droplets per 1 cm2 to carry out high-throughput protein synthesis and screening. Single DNA molecules were randomly distributed into each droplet following a Poisson process to initiate the protein synthesis with coupled cell-free transcription and translation reactions and then recovered by a microcapillary. The protein yield in each droplet was proportional to the number of DNA molecules, meaning that droplets with apparent intensities higher than the Poisson distribution–predicted maximum can be readily identified as the exact hits exhibiting the desired increased activity. We improved the activity of an alkaline phosphatase up to near 20-fold by using less than 10 nl of reagents.
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机译:我们报告了基于数字计数原理的一般策略,该策略能够在一天之内从几个克隆中高效获取具有所需活性的酶突变体。我们制备了高密度的飞升微滴阵列,每1 cm 2 由100万个均匀的微滴组成,以进行高通量蛋白质合成和筛选。在泊松过程之后,单个DNA分子随机分配到每个液滴中,从而通过无细胞的转录和翻译反应启动蛋白质合成,然后通过微毛细管进行回收。每个液滴中的蛋白质产量与DNA分子的数量成正比,这意味着具有明显高于Poisson分布预测的最大值的表观强度的液滴可以很容易地识别为表现出所需活性增加的精确命中。通过使用少于10 nl的试剂,我们将碱性磷酸酶的活性提高了近20倍。
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