核酸混合物模型中成分估计的贝叶斯方法

Taichi Tomono, Satoshi Hara, Yusuke Nakai, Kazuma Takahara, Junko Iida, Takashi Washio
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引用次数: 0

摘要

质谱(MS)是一种功能强大的分析方法,可用于药物开发、质量保证、食品检验和环境污染物监测等多种用途。近年来,随着抗体和核酸类药物的积极开发,产生了各种修饰的杂质。这些杂质会导致药物稳定性、药代动力学和药效降低,因此区分这些杂质至关重要。以前,人们曾尝试估算电喷雾离子化(ESI)产生的光谱中的单异位质量和离子数量。但是,传统方法无法明确估计成分的数量,也无法进行离散状态评估,例如成分数量为 k 或 k+1 的概率。我们提出了一种方法,即针对样品中每种可能的成分数量,使用单异位质量和离子计数等参数建立质谱模型。利用模拟退火、NUTS 和随机变异推理,我们确定了每个成分数模型的参数和最大后验概率。最后,通过比较不同模型的最大后验概率,我们选择了最佳成分数,并估算了该方案下的单异位质量和离子计数。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Bayesian approach for constituent estimation in nucleic acid mixture models
Mass spectrometry (MS) is a powerful analytical method used for various purposes such as drug development, quality assurance, food inspection, and monitoring of pollutants in the environment. In recent years, with the active development of antibodies and nucleic acid-based drugs, impurities with various modifications are produced. These can lead to a decrease in drug stability, pharmacokinetics, and efficacy, making it crucial to differentiate these impurities. Previously, attempts have been made to estimate the monoisotopic mass and ion amounts in the spectrum generated by electrospray ionization (ESI). However, conventional methods could not explicitly estimate the number of constituents, and discrete state evaluations, such as the probability that the number of constituents is k or k+1, were not possible. We propose a method where, for each possible number of constituents in the sample, mass spectrometry is modeled using parameters like monoisotopic mass and ion counts. Using Simulated Annealing, NUTS, and stochastic variational inference, we determine the parameters for each constituent number model and the maximum posterior probability. Finally, by comparing the maximum posterior probabilities between models, we select the optimal number of constituents and estimate the monoisotopic mass and ion counts under that scenario.
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