Gino B. Kpogbezan scite author profile

Gino B. Kpogbezan

4Publications

40Citation Statements Received

102Citation Statements Given

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Leiden University

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Gene network reconstruction using global-local shrinkage priors

Leday¹,

Gunst²,

Kpogbezan³

et al. 2017

Ann. Appl. Stat.

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Reconstructing a gene network from high-throughput molecular data is an important but challenging task, as the number of parameters to estimate easily is much larger than the sample size. A conventional remedy is to regularize or penalize the model likelihood. In network models, this is often done in the neighbourhood of each node or gene. However, estimation of the many regularization parameters is often difficult and can result in large statistical uncertainties. In this paper we propose to combine local regularization with shrinkage of the regularization parameters to borrow strength between genes and improve inference. We employ a simple Bayesian model with non-sparse, conjugate priors to facilitate the use of fast variational approximations to posteriors. We discuss empirical Bayes estimation of hyper-parameters of the priors, and propose a novel approach to rank-based posterior thresholding. Using extensive model- and data-based simulations, we demonstrate that the proposed inference strategy outperforms popular (sparse) methods, yields more stable edges, and is more reproducible. The proposed method, termed ShrinkNet, is then applied to Glioblastoma to investigate the interactions between genes associated with patient survival.

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Gene network reconstruction using global-local shrinkage priors

Leday¹,

Gunst²,

Kpogbezan³

et al. 2015

Preprint

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An empirical Bayes approach to network recovery using external knowledge

et al. 2017

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Reconstruction of a high-dimensional network may benefit substantially from the inclusion of prior knowledge on the network topology. In the case of gene interaction networks such knowledge may come for instance from pathway repositories like KEGG, or be inferred from data of a pilot study. The Bayesian framework provides a natural means of including such prior knowledge. Based on a Bayesian Simultaneous Equation Model, we develop an appealing Empirical Bayes (EB) procedure that automatically assesses the agreement of the used prior knowledge with the data at hand. We use variational Bayes method for posterior densities approximation and compare its accuracy with that of Gibbs sampling strategy. Our method is computationally fast, and can outperform known competitors. In a simulation study, we show that accurate prior data can greatly improve the reconstruction of the network, but need not harm the reconstruction if wrong. We demonstrate the benefits of the method in an analysis of gene expression data from GEO. In particular, the edges of the recovered network have superior reproducibility (compared to that of competitors) over resampled versions of the data.

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An empirical Bayes approach to network recovery using external knowledge

Kpogbezan¹,

Vaart²,

Wieringen³

et al. 2016

Preprint

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Gino B. Kpogbezan

Gene network reconstruction using global-local shrinkage priors

Gene network reconstruction using global-local shrinkage priors

An empirical Bayes approach to network recovery using external knowledge

An empirical Bayes approach to network recovery using external knowledge

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