Literature-Based Enrichment Insights into Redox Control of Vascular Biology

Author:

Essack Magbubah1ORCID,Salhi Adil1,Stanimirovic Julijana2,Tifratene Faroug1ORCID,Bin Raies Arwa1ORCID,Hungler Arnaud1,Uludag Mahmut1ORCID,Van Neste Christophe1ORCID,Trpkovic Andreja2,Bajic Vladan P.2,Bajic Vladimir B.1ORCID,Isenovic Esma R.2ORCID

Affiliation:

1. King Abdullah University of Science and Technology, Computational Bioscience Research Center, Thuwal, Saudi Arabia

2. Vinca Institute, University of Belgrade, Laboratory for Molecular Endocrinology and Radiobiology, Belgrade, Serbia

Abstract

In cellular physiology and signaling, reactive oxygen species (ROS) play one of the most critical roles. ROS overproduction leads to cellular oxidative stress. This may lead to an irrecoverable imbalance of redox (oxidation-reduction reaction) function that deregulates redox homeostasis, which itself could lead to several diseases including neurodegenerative disease, cardiovascular disease, and cancers. In this study, we focus on the redox effects related to vascular systems in mammals. To support research in this domain, we developed an online knowledge base, DES-RedoxVasc, which enables exploration of information contained in the biomedical scientific literature. The DES-RedoxVasc system analyzed 233399 documents consisting of PubMed abstracts and PubMed Central full-text articles related to different aspects of redox biology in vascular systems. It allows researchers to explore enriched concepts from 28 curated thematic dictionaries, as well as literature-derived potential associations of pairs of such enriched concepts, where associations themselves are statistically enriched. For example, the system allows exploration of associations of pathways, diseases, mutations, genes/proteins, miRNAs, long ncRNAs, toxins, drugs, biological processes, molecular functions, etc. that allow for insights about different aspects of redox effects and control of processes related to the vascular system. Moreover, we deliver case studies about some existing or possibly novel knowledge regarding redox of vascular biology demonstrating the usefulness of DES-RedoxVasc. DES-RedoxVasc is the first compiled knowledge base using text mining for the exploration of this topic.

Funder

King Abdullah University of Science and Technology

Publisher

Hindawi Limited

Subject

Cell Biology,Ageing,General Medicine,Biochemistry

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