BRAKER3: Fully automated genome annotation using RNA-seq and protein evidence with GeneMark-ETP, AUGUSTUS and TSEBRA

Gabriel, Lars; Brůna, Tomáš; Hoff, Katharina J.; Ebel, Matthis; Lomsadze, Alexandre; Borodovsky, Mark; Stanke, Mario

doi:10.1101/2023.06.10.544449

preprintbioRxiv (Cold Spring Harbor Laboratory)Jun 12, 2023GREEN OA

BRAKER3: Fully automated genome annotation using RNA-seq and protein evidence with GeneMark-ETP, AUGUSTUS and TSEBRA

LGLars Gabriel TBTomáš Brůna KJKatharina J. Hoff MEMatthis Ebel ALAlexandre Lomsadze

Universität Greifswald · Lawrence Berkeley National Laboratory · +3 more institutions

PubMed

Indexed incrossrefpubmed

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 was made by the recently released GeneMark-ETP integrating all three data types. We here…

Citation impact

234

total citations

FWCI: —
Percentile: —
References: 25

Citations per year

Authors

7

Topics & keywords

Topics

Keywords

Annotation
Computational biology
Genome
RNA-Seq
Biology
Genome project
Computer science
Genetics

UN Sustainable Development Goals

Life in Land

No related works found for this paper.

Funding

NI
National Institutes of Health
Award: GM128145