BRAKER3: Fully automated genome annotation using RNA-seq and protein evidence with GeneMark-ETP, AUGUSTUS, and TSEBRA
Universitätsmedizin Greifswald · Universität Greifswald · +4 more institutions
Abstract
Gene prediction has remained an active area of bioinformatics research for a long time. Still, gene prediction in large eukaryotic genomes presents a challenge that must be addressed by new algorithms. The amount and significance of the evidence available from transcriptomes and proteomes vary across genomes, between genes, and even along a single gene. User-friendly and accurate annotation pipelines that can cope with such data heterogeneity are needed. The previously developed annotation pipelines BRAKER1 and BRAKER2 use RNA-seq or protein data, respectively, but not both. A further significant performance improvement integrating all three data types was made by the recently released GeneMark-ETP. We here…
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- References
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Authors
7- LGLars GabrielCorresponding
Universitätsmedizin Greifswald, Universität Greifswald
- TBTomáš Brůna
Lawrence Berkeley National Laboratory, Joint Genome Institute
- KJKatharina J. Hoff
Universitätsmedizin Greifswald, Universität Greifswald
- MEMatthis Ebel
Universitätsmedizin Greifswald, Universität Greifswald
- ALAlexandre Lomsadze
Georgia Institute of Technology, The Wallace H. Coulter Department of Biomedical Engineering
Topics & keywords
- Genome
- Proteome
- Biology
- Annotation
- Gene prediction
- Computational biology
- Pipeline (software)
- Gene Annotation