A systematic comparison of computational methods for expression forecasting.

Eric Kernfeld, Yunxiao Yang, Joshua Weinstock, Alexis Battle, Patrick Cahan
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Abstract

Expression forecasting methods use machine learning models to predict how a cell will alter its transcriptome upon perturbation. Such methods are enticing because they promise to answer pressing questions in fields ranging from developmental genetics to cell fate engineering and because they are a fast, cheap, and accessible complement to the corresponding experiments. However, the absolute and relative accuracy of these methods is poorly characterized, limiting their informed use, their improvement, and the interpretation of their predictions. To address these issues, we created a benchmarking platform that combines a panel of 11 large-scale perturbation datasets with an expression forecasting software engine that encompasses or interfaces to a wide variety of methods. We used our platform to systematically assess methods, parameters, and sources of auxiliary data, finding that performance strongly depends on the choice of metric, and especially for simple metrics like mean squared error, it is uncommon for expression forecasting methods to out-perform simple baselines. Our platform will serve as a resource to improve methods and to identify contexts in which expression forecasting can succeed.

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表情预测计算方法的系统比较。
由于单细胞RNA-seq数据丰富,最近发表了许多预测扰动后表达的方法。表达预测方法之所以吸引人,是因为它们有望回答从发育遗传学到细胞命运工程等领域的紧迫问题,而且它们比实验方法更快、更便宜、产量更高。然而,这些方法的绝对和相对准确性特征不佳,限制了它们的知情使用、改进和对其预测的解释。为了解决这些问题,我们创建了一个基准测试平台,该平台将大规模扰动数据集面板与包含或接口当前方法的表达式预测软件引擎相结合。我们使用我们的平台系统地评估方法、参数和辅助数据的来源。我们发现不知情的基线预测,并不总是包括在先前的评估中,在所有测试用例中产生与基准方法相同或更好的平均绝对误差。这些结果对当前表达预测方法提供机制见解或对实验后续假设进行排序的能力提出了质疑。然而,鉴于该领域的快速创新,新的方法可能会产生更准确的表达预测。我们的平台将作为一个中立的基准来改进方法,并确定表达预测可以成功的上下文。
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