Your search keyword '"Padhmanand Sudhakar"' showing total 2 results

1. MicrobioLink: An Integrated Computational Pipeline to Infer Functional Effects of Microbiome–Host Interactions

Author

Tahila Andrighetti, Balazs Bohar, Ney Lemke, Padhmanand Sudhakar, and Tamas Korcsmaros

Subjects

microbiota–host interactions, protein–protein interactions, systems biology, networks, network diffusion, computational pipeline, Cytology, QH573-671

Abstract

Microbiome–host interactions play significant roles in health and in various diseases including autoimmune disorders. Uncovering these inter-kingdom cross-talks propels our understanding of disease pathogenesis and provides useful leads on potential therapeutic targets. Despite the biological significance of microbe–host interactions, there is a big gap in understanding the downstream effects of these interactions on host processes. Computational methods are expected to fill this gap by generating, integrating, and prioritizing predictions—as experimental detection remains challenging due to feasibility issues. Here, we present MicrobioLink, a computational pipeline to integrate predicted interactions between microbial and host proteins together with host molecular networks. Using the concept of network diffusion, MicrobioLink can analyse how microbial proteins in a certain context are influencing cellular processes by modulating gene or protein expression. We demonstrated the applicability of the pipeline using a case study. We used gut metaproteomic data from Crohn’s disease patients and healthy controls to uncover the mechanisms by which the microbial proteins can modulate host genes which belong to biological processes implicated in disease pathogenesis. MicrobioLink, which is agnostic of the microbial protein sources (bacterial, viral, etc.), is freely available on GitHub.

Published

2020

2. MicrobioLink: An Integrated Computational Pipeline to Infer Functional Effects of Microbiome–Host Interactions

Author

Tamas Korcsmaros, Ney Lemke, Tahila Andrighetti, Balazs Bohar, Padhmanand Sudhakar, Earlham Institute, Universidade Estadual Paulista (Unesp), Eötvös Loránd University, Quadram Institute Bioscience, and Metabolism and Ageing

Subjects

protein-protein interactions, Disease, DISEASE, microbiota–host interactions, 0302 clinical medicine, lcsh:QH301-705.5, 0303 health sciences, BIOINFORMATICS, systems biology, General Medicine, CANCER, 3. Good health, NETWORKS, Molecular network, 030220 oncology & carcinogenesis, Host-Pathogen Interactions, BACTERIA, AUTOPHAGY, Host (network), Life Sciences & Biomedicine, microbiota-host interactions, Signal Transduction, DATABASE, Systems biology, BIOLOGY, Context (language use), Computational biology, protein–protein interactions, Biology, Article, Protein–protein interaction, computational pipeline, 03 medical and health sciences, DYSBIOSIS, RESOURCE, Humans, Microbiome, Host protein, 030304 developmental biology, network diffusion, Science & Technology, Computational Biology, Cell Biology, Pipeline (software), Gastrointestinal Microbiome, Gene Ontology, lcsh:Biology (General), Biological significance, networks

Abstract

Microbiome&ndash, host interactions play significant roles in health and in various diseases including autoimmune disorders. Uncovering these inter-kingdom cross-talks propels our understanding of disease pathogenesis and provides useful leads on potential therapeutic targets. Despite the biological significance of microbe&ndash, host interactions, there is a big gap in understanding the downstream effects of these interactions on host processes. Computational methods are expected to fill this gap by generating, integrating, and prioritizing predictions&mdash, as experimental detection remains challenging due to feasibility issues. Here, we present MicrobioLink, a computational pipeline to integrate predicted interactions between microbial and host proteins together with host molecular networks. Using the concept of network diffusion, MicrobioLink can analyse how microbial proteins in a certain context are influencing cellular processes by modulating gene or protein expression. We demonstrated the applicability of the pipeline using a case study. We used gut metaproteomic data from Crohn&rsquo, s disease patients and healthy controls to uncover the mechanisms by which the microbial proteins can modulate host genes which belong to biological processes implicated in disease pathogenesis. MicrobioLink, which is agnostic of the microbial protein sources (bacterial, viral, etc.), is freely available on GitHub.

Published

2020