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Genome annotation: From human genetics to biodiversity genomics

Roderic Guigó

2023Cell Genomics44 citationsDOIOpen Access PDF

Abstract

Within the next decade, the genomes of 1.8 million eukaryotic species will be sequenced. Identifying genes in these sequences is essential to understand the biology of the species. This is challenging due to the transcriptional complexity of eukaryotic genomes, which encode hundreds of thousands of transcripts of multiple types. Among these, a small set of protein-coding mRNAs play a disproportionately large role in defining phenotypes. Due to their sequence conservation, orthology can be established, making it possible to define the universal catalog of eukaryotic protein-coding genes. This catalog should substantially contribute to uncovering the genomic events underlying the emergence of eukaryotic phenotypes. This piece briefly reviews the basics of protein-coding gene prediction, discusses challenges in finalizing annotation of the human genome, and proposes strategies for producing annotations across the eukaryotic Tree of Life. This lays the groundwork for obtaining the catalog of all genes-the Earth's code of life.

Topics & Concepts

GenomeBiologyENCODEAnnotationGeneComputational biologyGenomicsGeneticsGene predictionHuman genomeComparative genomicsPhylogenomicsGenome projectGene AnnotationEvolutionary biologyPhylogeneticsCladeGenomics and Phylogenetic StudiesRNA and protein synthesis mechanismsMachine Learning in Bioinformatics
Genome annotation: From human genetics to biodiversity genomics | Litcius