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Review
. 2021 Nov;24(4):531-543.
doi: 10.1007/s10123-021-00183-z. Epub 2021 May 15.

A walk-through MAPK structure and functionality with the 30-year-old yeast MAPK Slt2

Gema González-Rubio #  1 Ángela Sellers-Moya #  1 Humberto Martín  2 María Molina  3
Affiliations
Review

A walk-through MAPK structure and functionality with the 30-year-old yeast MAPK Slt2

Gema González-Rubio et al. Int Microbiol. 2021 Nov.

Abstract

Mitogen-activated protein kinases (MAPKs) are evolutionarily conserved signaling proteins involved in the regulation of most eukaryotic cellular processes. They are downstream components of essential signal transduction pathways activated by the external stimuli, in which the signal is conveyed through phosphorylation cascades. The excellent genetic and biochemical tractability of simple eukaryotes such as Saccharomyces cerevisiae has significantly contributed to gain fundamental information into the physiology of these key proteins. The budding yeast MAPK Slt2 was identified 30 years ago and was later revealed as a fundamental element of the cell wall integrity (CWI) pathway, one of the five MAPK routes of S. cerevisiae. As occurs with other MAPKs, whereas Slt2 displays the core typical structural traits of eukaryotic protein kinases, it also features conserved domains among MAPKs that allow an exquisite spatio-temporal regulation of their activity and binding to activating kinases, downregulatory phosphatases, or nuclear transcription factors. Additionally, Slt2 bears a regulatory extra C-terminal tail unique among S. cerevisiae MAPKs. Here, we review the structural and functional basis for the signaling role of Slt2 in the context of the molecular architecture of this important family of protein kinases.

Keywords: CWI pathway; MAPK; Phosphorylation; Slt2; Stress response; Yeast cell wall.

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