使用详细平衡反应网络的对数仿射模型的最大似然估计。

IF 2.3 4区数学 Q2 BIOLOGY

Journal of Mathematical Biology Pub Date : 2025-09-10 DOI:10.1007/s00285-025-02262-5

Oskar Henriksson, Carlos Améndola, Jose Israel Rodriguez, Polly Y Yu

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引用次数: 0

摘要

分子计算领域的一个基本问题是生化系统可以执行哪些计算任务。在这项工作中，我们专注于寻找对数仿射模型的最大似然估计（MLE）问题。我们重新考虑了基于Gopalkrishnan的质量作用系统的构造，该系统以MLE作为其唯一的正稳态，其基础是为模型的设计矩阵的核选择一个基。我们将这种构造扩展到允许核的任何有限生成集，并探索生成集的选择如何影响所得到的网络的动力学，包括边界稳态的存在，网络的缺陷和收敛速度。特别地，我们证明了使用马尔可夫基作为生成集可以保证MLE稳态的全局稳定性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Maximum likelihood estimation of log-affine models using detailed-balanced reaction networks.

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Maximum likelihood estimation of log-affine models using detailed-balanced reaction networks.

A fundamental question in the field of molecular computation is what computational tasks a biochemical system can carry out. In this work, we focus on the problem of finding the maximum likelihood estimate (MLE) for log-affine models. We revisit a construction due to Gopalkrishnan of a mass-action system with the MLE as its unique positive steady state, which is based on choosing a basis for the kernel of the design matrix of the model. We extend this construction to allow for any finite spanning set of the kernel, and explore how the choice of spanning set influences the dynamics of the resulting network, including the existence of boundary steady states, the deficiency of the network, and the rate of convergence. In particular, we prove that using a Markov basis as the spanning set guarantees global stability of the MLE steady state.

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来源期刊

Journal of Mathematical Biology 生物-生物学

CiteScore

3.30

自引率

5.30%

发文量

120

审稿时长

6 months

期刊介绍： The Journal of Mathematical Biology focuses on mathematical biology - work that uses mathematical approaches to gain biological understanding or explain biological phenomena. Areas of biology covered include, but are not restricted to, cell biology, physiology, development, neurobiology, genetics and population genetics, population biology, ecology, behavioural biology, evolution, epidemiology, immunology, molecular biology, biofluids, DNA and protein structure and function. All mathematical approaches including computational and visualization approaches are appropriate.