Structured Correlation Detection with Application to Colocalization Analysis in Dual-Channel Fluorescence Microscopic Imaging | Zendy

Shulei Wang | Zendy; Jianqing Fan | Zendy; Ginger M. Pocock | Zendy; Ellen T. Arena | Zendy; Kevin W. Eliceiri | Zendy; Ming Yuan | Zendy

Open Access

Structured Correlation Detection with Application to Colocalization Analysis in Dual-Channel Fluorescence Microscopic Imaging

Author(s) -

Shulei Wang,

Jianqing Fan,

Ginger M. Pocock,

Ellen T. Arena,

Kevin W. Eliceiri,

Ming Yuan

Publication year - 2019

Publication title -

statistica sinica

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.24

H-Index - 77

eISSN - 1996-8507

pISSN - 1017-0405

DOI - 10.5705/ss.202018.0230

Subject(s) - colocalization , normalization (sociology) , computer science , statistic , region of interest , workflow , pattern recognition (psychology) , correlation , artificial intelligence , algorithm , statistics , mathematics , geometry , database , sociology , anthropology , biology , microbiology and biotechnology

Motivated by the problem of colocalization analysis in fluorescence microscopic imaging, we study in this paper structured detection of correlated regions between two random processes observed on a common domain. We argue that although intuitive, direct use of the maximum log-likelihood statistic suffers from potential bias and substantially reduced power, and introduce a simple size-based normalization to overcome this problem. We show that scanning with the proposed size-corrected likelihood ratio statistics leads to optimal correlation detection over a large collection of structured correlation detection problems.

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