Daria Mudrak scite author profile

Daria Mudrak

3Publications

90Citation Statements Received

103Citation Statements Given

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101

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University of Zurich

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Simultaneous analysis of large-scale RNAi screens for pathogen entry

et al. 2014

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BackgroundLarge-scale RNAi screening has become an important technology for identifying genes involved in biological processes of interest. However, the quality of large-scale RNAi screening is often deteriorated by off-targets effects. In order to find statistically significant effector genes for pathogen entry, we systematically analyzed entry pathways in human host cells for eight pathogens using image-based kinome-wide siRNA screens with siRNAs from three vendors. We propose a Parallel Mixed Model (PMM) approach that simultaneously analyzes several non-identical screens performed with the same RNAi libraries.ResultsWe show that PMM gains statistical power for hit detection due to parallel screening. PMM allows incorporating siRNA weights that can be assigned according to available information on RNAi quality. Moreover, PMM is able to estimate a sharedness score that can be used to focus follow-up efforts on generic or specific gene regulators. By fitting a PMM model to our data, we found several novel hit genes for most of the pathogens studied.ConclusionsOur results show parallel RNAi screening can improve the results of individual screens. This is currently particularly interesting when large-scale parallel datasets are becoming more and more publicly available. Our comprehensive siRNA dataset provides a public, freely available resource for further statistical and biological analyses in the high-content, high-throughput siRNA screening field.Electronic supplementary materialThe online version of this article (doi:10.1186/1471-2164-15-1162) contains supplementary material, which is available to authorized users.

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NEMix: Single-cell Nested Effects Models for Probabilistic Pathway Stimulation

et al. 2015

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Nested effects models have been used successfully for learning subcellular networks from high-dimensional perturbation effects that result from RNA interference (RNAi) experiments. Here, we further develop the basic nested effects model using high-content single-cell imaging data from RNAi screens of cultured cells infected with human rhinovirus. RNAi screens with single-cell readouts are becoming increasingly common, and they often reveal high cell-to-cell variation. As a consequence of this cellular heterogeneity, knock-downs result in variable effects among cells and lead to weak average phenotypes on the cell population level. To address this confounding factor in network inference, we explicitly model the stimulation status of a signaling pathway in individual cells. We extend the framework of nested effects models to probabilistic combinatorial knock-downs and propose NEMix, a nested effects mixture model that accounts for unobserved pathway activation. We analyzed the identifiability of NEMix and developed a parameter inference scheme based on the Expectation Maximization algorithm. In an extensive simulation study, we show that NEMix improves learning of pathway structures over classical NEMs significantly in the presence of hidden pathway stimulation. We applied our model to single-cell imaging data from RNAi screens monitoring human rhinovirus infection, where limited infection efficiency of the assay results in uncertain pathway stimulation. Using a subset of genes with known interactions, we show that the inferred NEMix network has high accuracy and outperforms the classical nested effects model without hidden pathway activity. NEMix is implemented as part of the R/Bioconductor package ‘nem’ and available at www.cbg.ethz.ch/software/NEMix.

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Scientific achievements of the Laboratory of immunology

Vishchur¹,

Smolyaninov²,

Broda³

et al. 2020

Bìol. Tvarin

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The main directions of scientific work of the Laboratory of immunology during its 25-year history are highlighted. Some of its stages and achievements in the field of animal husbandry are considered. The historical outline of the foundation and formation of the laboratory of immunology is briefly presented, the purpose of research is described and the tasks set before the laboratory are listed, the main achievements of scientific researches in separate branches of animal husbandry are listed. Particular attention is paid to the main preventive and curative drugs that have been developed in the laboratory and adapted to the practice of animal husbandry. The activity of the laboratory staff in the scientific sphere as well as in the implementation of scientific achievements in the practice of animal husbandry is summarized.

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Daria Mudrak

Simultaneous analysis of large-scale RNAi screens for pathogen entry

NEMix: Single-cell Nested Effects Models for Probabilistic Pathway Stimulation

Scientific achievements of the Laboratory of immunology

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