Title
Diversification of transcriptional regulation determines subfunctionalization of paralogous branched chain aminotransferases in the yeast Saccharomyces cerevisiae
11627/511311627/5113
Author
González Flores, James
López, Geovani
Argueta, Stefany
Escalera-Fanjul, Ximena
Hafidi, Mohammed El
Campero Basaldúa, José Carlos
Strauss, Joseph
Riego Ruíz, Lina Raquel
González Manjarrez, María Alicia
Abstract
"Saccharomyces cerevisiae harbors BAT1 and BAT2 paralogous genes that encode branched chain aminotransferases and have opposed expression profiles and physiological roles . Accordingly, in primary nitrogen sources such as glutamine, BAT1 expression is induced, supporting Bat1-dependent valine–isoleucine–leucine (VIL) biosynthesis, while BAT2 expression is repressed. Conversely, in the presence of VIL as the sole nitrogen source, BAT1 expression is hindered while that of BAT2 is activated, resulting in Bat2-dependent VIL catabolism. The presented results confirm that BAT1 expression is determined by transcriptional activation through the action of the Leu3–?-isopropylmalate (?-IPM) active isoform, and uncovers the existence of a novel ?-IPM biosynthetic pathway operating in a put3? mutant grown on VIL, through Bat2-Leu2-Leu1 consecutive action. The classic ?-IPM biosynthetic route operates in glutamine through the action of the leucine-sensitive ?-IPM synthases. The presented results also show that BAT2 repression in glutamine can be alleviated in a ure2? mutant or through Gcn4-dependent transcriptional activation. Thus, when S. cerevisiae is grown on glutamine, VIL biosynthesis is predominant and is preferentially achieved through BAT1; while on VIL as the sole nitrogen source, catabolism prevails and is mainly afforded by BAT2."
Publication date
2017Publication type
articleDOI
https://doi.org/10.1534/genetics.117.300290Knowledge area
GENÉTICACollections
Publisher
Genetics Society of AmericaKeywords
Functional diversificationExpression regulation
Aminotransferases
Amino acid metabolism
Paralogous genes