Characterization of Mammalian Selenoproteomes
University of Nebraska–Lincoln · Barcelona Biomedical Research Park
Abstract
In the genetic code, UGA serves as a stop signal and a selenocysteine codon, but no computational methods for identifying its coding function are available. Consequently, most selenoprotein genes are misannotated. We identified selenoprotein genes in sequenced mammalian genomes by methods that rely on identification of selenocysteine insertion RNA structures, the coding potential of UGA codons, and the presence of cysteine-containing homologs. The human selenoproteome consists of 25 selenoproteins.
Citation impact
- FWCI
- 49.58
- Percentile
- 100%
- References
- 27
Authors
7- GVGregory V. Kryukov
University of Nebraska–Lincoln, Barcelona Biomedical Research Park
- SCSergi Castellano
University of Nebraska–Lincoln, Barcelona Biomedical Research Park
- SVSergey V. Novoselov
University of Nebraska–Lincoln, Barcelona Biomedical Research Park
- AVAlexey V. Lobanov
University of Nebraska–Lincoln, Barcelona Biomedical Research Park
- OZOmid Zehtab
University of Nebraska–Lincoln, Barcelona Biomedical Research Park
Topics & keywords
- Selenocysteine
- Selenoprotein
- Gene
- Genetic code
- Genetics
- Stop codon
- Computational biology
- Biology