Title
Neo-functionalization in Saccharomyces cerevisiae: a novel Nrg1-Rtg3 chimeric transcriptional modulator is essential to maintain mitochondrial DNA integrity
11627/658411627/6584
Author
Campero Basaldúa, José Carlos
González Flores, James
García, Janeth Alejandra
Ramírez González, Edgar Adrián
Hernández, Hugo
Aguirre, Beatriz
Torres Ramírez, Nayeli
Márquez, Dariel
Sánchez, Norma Silvia
Gómez Hernández, Nicolás
Torres Machorro, Ana Lilia
Riego Ruíz, Lina Raquel
Scazzocchio, Claudio
González Manjarrez, Alicia
Abstract
In Saccharomyces cerevisiae, the transcriptional repressor Nrg1 (Negative Regulator of Glucose-repressed genes) and the ?-Zip transcription factor Rtg3 (ReTroGrade regulation) mediate glucose repression and signalling from the mitochondria to the nucleus, respectively. Here, we show a novel function of these two proteins, in which alanine promotes the formation of a chimeric Nrg1/Rtg3 regulator that represses the ALT2 gene (encoding an alanine transaminase paralog of unknown function). An NRG1/NRG2 paralogous pair, resulting from a post-wide genome small-scale duplication event, is present in the Saccharomyces genus. Neo-functionalization of only one paralog resulted in the ability of Nrg1 to interact with Rtg3. Both nrg1? and rtg3? single mutant strains were unable to use ethanol and showed a typical petite (small) phenotype on glucose. Neither of the wild-type genes complemented the petite phenotype, suggesting irreversible mitochondrial DNA damage in these mutants. Neither nrg1? nor rtg3? mutant strains expressed genes encoded by any of the five polycistronic units transcribed from mitochondrial DNA in S. cerevisiae. This, and the direct measurement of the mitochondrial DNA gene complement, confirmed that irreversible damage of the mitochondrial DNA occurred in both mutant strains, which is consistent with the essential role of the chimeric Nrg1/Rtg3 regulator in mitochondrial DNA maintenance.
Publication date
2023Publication type
articleDOI
https://doi.org/10.1098/rsos.231209Knowledge area
CIENCIAS TECNOLÓGICASCollections
Publisher
The Royal SocietyKeywords
Transcriptional coregulatorsRespiratory metabolism
Mitochondrial genes
Neo-functionalization