Your search keyword '"Jan Baumbach"' showing total 6 results

1. Lacking mechanistic disease definitions and corresponding association data hamper progress in network medicine and beyond

Author

Sepideh Sadegh, James Skelton, Elisa Anastasi, Andreas Maier, Klaudia Adamowicz, Anna Möller, Nils M. Kriege, Jaanika Kronberg, Toomas Haller, Tim Kacprowski, Anil Wipat, Jan Baumbach, and David B. Blumenthal

Subjects

Science

Abstract

Large-scale disease-association data are widely used for pathomechanism mining, even if disease definitions used for annotation are mostly phenotype-based. Here, the authors show that this bias can lead to a blurred view on disease mechanisms, highlighting the need for close-up studies based on molecular data for well-characterized patient cohorts.

Published

2023

2. Network medicine for disease module identification and drug repurposing with the NeDRex platform

Author

Sepideh Sadegh, James Skelton, Elisa Anastasi, Judith Bernett, David B. Blumenthal, Gihanna Galindez, Marisol Salgado-Albarrán, Olga Lazareva, Keith Flanagan, Simon Cockell, Cristian Nogales, Ana I. Casas, Harald H. H. W. Schmidt, Jan Baumbach, Anil Wipat, and Tim Kacprowski

Subjects

Science

Abstract

There is an unmet need for adaptable tools allowing biomedical researchers to employ network-based drug repurposing approaches for their individual use cases. Here, the authors close this gap with NeDRex, an integrative and interactive platform.

Published

2021

3. Exploring the SARS-CoV-2 virus-host-drug interactome for drug repurposing

Author

Sepideh Sadegh, Julian Matschinske, David B. Blumenthal, Gihanna Galindez, Tim Kacprowski, Markus List, Reza Nasirigerdeh, Mhaned Oubounyt, Andreas Pichlmair, Tim Daniel Rose, Marisol Salgado-Albarrán, Julian Späth, Alexey Stukalov, Nina K. Wenke, Kevin Yuan, Josch K. Pauling, and Jan Baumbach

Subjects

Science

Abstract

Information developed to understand the molecular mechanisms of SARS-CoV-2 infection for predicting drug repurposing candidates is time-consuming to integrate and explore. Here, the authors develop an interactive online platform for virus-host interactome exploration and drug (target) identification.

Published

2020

4. On the performance of pre-microRNA detection algorithms

Author

Müşerref Duygu Saçar Demirci, Jan Baumbach, and Jens Allmer

Subjects

Science

Abstract

As the experimental discovery of microRNAs (miRNAs) is cumbersome, computational tools have been developed for the prediction of pre-miRNAs. Here the authors develop a framework to assess the performance of existing and novel pre-miRNA prediction tools and provide guidelines for selecting an appropriate approach for a given data set.

Published

2017

5. Exploring the SARS-CoV-2 virus-host-drug interactome for drug repurposing

Author

Gihanna Galindez, Nina K. Wenke, Alexey Stukalov, Reza Nasirigerdeh, Kevin Yuan, Julian Matschinske, Julian Späth, Tim Kacprowski, Josch K. Pauling, Mhaned Oubounyt, Jan Baumbach, Sepideh Sadegh, Marisol Salgado-Albarrán, Andreas Pichlmair, Tim Daniel Rose, David Blumenthal, and Markus List

Subjects

0301 basic medicine, Network medicine, Computer science, viruses, Molecular Networks (q-bio.MN), General Physics and Astronomy, 02 engineering and technology, medicine.disease_cause, Interactome, Quantitative Biology - Molecular Networks, Protein Interaction Maps, lcsh:Science, Coronavirus, Antiviral Agents/therapeutic use, Betacoronavirus/drug effects, Network topology, Multidisciplinary, ddc, 3. Good health, Systems medicine, Drug repositioning, Coronavirus Infections, Algorithms, Virus Attachment/drug effects, Science, Systems biology, Pneumonia, Viral, 0206 medical engineering, Virus Attachment, Computational biology, Antiviral Agents, Article, General Biochemistry, Genetics and Molecular Biology, Host Microbial Interactions/physiology, Betacoronavirus, 03 medical and health sciences, Drug Repositioning/methods, Viral life cycle, Target identification, medicine, Humans, Computer Simulation, Pandemics, Internet, Host Microbial Interactions, SARS-CoV-2, Drug Repositioning, COVID-19, Coronavirus Infections/drug therapy, General Chemistry, Pneumonia, Viral/drug therapy, 030104 developmental biology, Viral infection, Infectious disease (medical specialty), FOS: Biological sciences, lcsh:Q, Software, 020602 bioinformatics

Abstract

Coronavirus Disease-2019 (COVID-19) is an infectious disease caused by the SARS-CoV-2 virus. It was first identified in Wuhan, China, and has since spread causing a global pandemic. Various studies have been performed to understand the molecular mechanisms of viral infection for predicting drug repurposing candidates. However, such information is spread across many publications and it is very time-consuming to access, integrate, explore, and exploit. We developed CoVex, the first interactive online platform for SARS-CoV-2 and SARS-CoV-1 host interactome exploration and drug (target) identification. CoVex integrates 1) experimentally validated virus-human protein interactions, 2) human protein-protein interactions and 3) drug-target interactions. The web interface allows user-friendly visual exploration of the virus-host interactome and implements systems medicine algorithms for network-based prediction of drugs. Thus, CoVex is an important resource, not only to understand the molecular mechanisms involved in SARS-CoV-2 and SARS-CoV-1 pathogenicity, but also in clinical research for the identification and prioritization of candidate therapeutics. We apply CoVex to investigate recent hypotheses on a systems biology level and to systematically explore the molecular mechanisms driving the virus life cycle. Furthermore, we extract and discuss drug repurposing candidates involved in these mechanisms. CoVex renders COVID-19 drug research systems-medicine-ready by giving the scientific community direct access to network medicine algorithms integrating virus-host-drug interactions. It is available at https://exbio.wzw.tum.de/covex/., Comment: 15 pages, 4 figures

Published

2020

6. On the performance of pre-micro{RNA} detection algorithms

Author

Jens Allmer, Müşerref Duygu Saçar Demirci, Jan Baumbach, TR107974, Saçar Demirci, Müşerref Duygu, Allmer, Jens, and Izmir Institute of Technology. Molecular Biology and Genetics

Subjects

0301 basic medicine, Computer science, Computation, Science, General Physics and Astronomy, Pre-MicroRNA, RNA precursor, Article, General Biochemistry, Genetics and Molecular Biology, Computational biology, Machine Learning, 03 medical and health sciences, Software, RNA Precursors, Humans, RNA Precursors/genetics, lcsh:Science, Multidisciplinary, business.industry, Computational Biology, Reproducibility of Results, General Chemistry, Computational Biology/methods, Ensemble learning, Data set, MicroRNAs, MicroRNAs/genetics, 030104 developmental biology, Gene Expression Regulation, lcsh:Q, business, Algorithm, Algorithms

Abstract

MicroRNAs are crucial for post-transcriptional gene regulation, and their dysregulation has been associated with diseases like cancer and, therefore, their analysis has become popular. The experimental discovery of miRNAs is cumbersome and, thus, many computational tools have been proposed. Here we assess 13 ab initio pre-miRNA detection approaches using all relevant, published, and novel data sets while judging algorithm performance based on ten intrinsic performance measures. We present an extensible framework, izMiR, which allows for the unbiased comparison of existing algorithms, adding new ones, and combining multiple approaches into ensemble methods. In an exhaustive attempt, we condense the results of millions of computations and show that no method is clearly superior; however, we provide a guideline for biomedical researchers to select a tool. Finally, we demonstrate that combining all of the methods into one ensemble approach, for the first time, allows reliable purely computational pre-miRNA detection in large eukaryotic genomes., As the experimental discovery of microRNAs (miRNAs) is cumbersome, computational tools have been developed for the prediction of pre-miRNAs. Here the authors develop a framework to assess the performance of existing and novel pre-miRNA prediction tools and provide guidelines for selecting an appropriate approach for a given data set.

Published

2017