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MOSGA 2: Comparative genomics and validation tools

Roman Martin, Hagen Dreßler, Georges Hattab, Thomas Hackl, Matthias Fischer, Dominik Heider

2021Computational and Structural Biotechnology Journal11 citationsDOIOpen Access PDF

Abstract

Due to the highly growing number of available genomic information, the need for accessible and easy-to-use analysis tools is increasing. To facilitate eukaryotic genome annotations, we created MOSGA. In this work, we show how MOSGA 2 is developed by including several advanced analyses for genomic data. Since the genomic data quality greatly impacts the annotation quality, we included multiple tools to validate and ensure high-quality user-submitted genome assemblies. Moreover, thanks to the integration of comparative genomics methods, users can benefit from a broader genomic view by analyzing multiple genomic data sets simultaneously. Further, we demonstrate the new functionalities of MOSGA 2 by different use-cases and practical examples. MOSGA 2 extends the already established application to the quality control of the genomic data and integrates and analyzes multiple genomes in a larger context, e.g., by phylogenetics.

Topics & Concepts

GenomicsContext (archaeology)AnnotationGenomeComputer scienceComputational biologyComparative genomicsQuality (philosophy)Data scienceGenomic informationData qualityData miningBiologyGeneticsGeneArtificial intelligenceEngineeringPhilosophyOperations managementMetric (unit)EpistemologyPaleontologyGenomics and Phylogenetic StudiesChromosomal and Genetic VariationsGenetic diversity and population structure
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