Co-localization analysis in fluorescence microscopy via maximum entropy copula.

IF 1.2 4区数学 Q4 MATHEMATICAL & COMPUTATIONAL BIOLOGY

International Journal of Biostatistics Pub Date : 2020-09-18 DOI:10.1515/ijb-2019-0019

Zahra Amini Farsani, Volker J Schmid

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引用次数: 2

Abstract

Co-localization analysis is a popular method for quantitative analysis in fluorescence microscopy imaging. The localization of marked proteins in the cell nucleus allows a deep insight into biological processes in the nucleus. Several metrics have been developed for measuring the co-localization of two markers, however, they depend on subjective thresholding of background and the assumption of linearity. We propose a robust method to estimate the bivariate distribution function of two color channels. From this, we can quantify their co- or anti-colocalization. The proposed method is a combination of the Maximum Entropy Method (MEM) and a Gaussian Copula, which we call the Maximum Entropy Copula (MEC). This new method can measure the spatial and nonlinear correlation of signals to determine the marker colocalization in fluorescence microscopy images. The proposed method is compared with MEM for bivariate probability distributions. The new colocalization metric is validated on simulated and real data. The results show that MEC can determine co- and anti-colocalization even in high background settings. MEC can, therefore, be used as a robust tool for colocalization analysis.

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利用最大熵联结法分析荧光显微镜的共定位。

共定位分析是荧光显微镜成像中常用的定量分析方法。细胞核中标记蛋白的定位使我们能够深入了解细胞核中的生物过程。目前已有几种指标用于测量两个标记的共定位，然而，它们依赖于主观背景阈值和线性假设。我们提出了一种鲁棒的方法来估计两个颜色通道的二元分布函数。由此，我们可以量化它们的共域或反共域。该方法是最大熵法(MEM)和高斯Copula的结合，我们称之为最大熵Copula (MEC)。该方法可以通过测量信号的空间相关性和非线性相关性来确定荧光显微镜图像中标记的共定位。将该方法与二元概率分布的MEM方法进行了比较。在仿真数据和实际数据上验证了新的共定位度量。结果表明，即使在高背景条件下，MEC也可以确定共定位和反共定位。因此，MEC可以用作共定位分析的强大工具。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Biostatistics MATHEMATICAL & COMPUTATIONAL BIOLOGY-STATISTICS & PROBABILITY

CiteScore

2.10

自引率

8.30%

发文量

审稿时长

>12 weeks

期刊介绍： The International Journal of Biostatistics (IJB) seeks to publish new biostatistical models and methods, new statistical theory, as well as original applications of statistical methods, for important practical problems arising from the biological, medical, public health, and agricultural sciences with an emphasis on semiparametric methods. Given many alternatives to publish exist within biostatistics, IJB offers a place to publish for research in biostatistics focusing on modern methods, often based on machine-learning and other data-adaptive methodologies, as well as providing a unique reading experience that compels the author to be explicit about the statistical inference problem addressed by the paper. IJB is intended that the journal cover the entire range of biostatistics, from theoretical advances to relevant and sensible translations of a practical problem into a statistical framework. Electronic publication also allows for data and software code to be appended, and opens the door for reproducible research allowing readers to easily replicate analyses described in a paper. Both original research and review articles will be warmly received, as will articles applying sound statistical methods to practical problems.