0000000000626927
AUTHOR
Zoé Chaudron
Identification and functional characterization of S-nitrosated proteins from Klebsormidium nitens
The small gaseous molecule nitric oxide (NO) is well established as a major ubiquitous component of cell signalling. A key signalling mechanism mediating NO effects is S-nitrosation, a post-translational modification by which NO can impact the target protein activities, subcellular localizations and capacities to form protein complexes. The identification of proteins targeted by NO is of major interest in order to elucidate NO functions. Interestingly, land plants lack NO synthase (NOS), which is the main enzyme for NO synthesis in metazoans, while a few algal species possess it, thus raising many interrogations. Therefore, we focused on the identification of S-nitrosated proteins during sa…
Identification and functional characterization of S-nitrosated proteins from Klebsormidium nitens, a model alga to study plant adaptation to land
The small gaseous molecule nitric oxide (NO) is well established as a major ubiquitous component of cell signalling. A key signalling mechanism mediating NO effects is S-nitrosation, a post-translational modification by which NO can impact the target protein activities, subcellular localizations, and capacities to form protein complexes. The identification of proteins targeted by NO is of major interest in order to elucidate NO functions. Interestingly, land plants lack NO synthase (NOS), which is the main enzyme for NO synthesis in metazoans, while a few algal species possess it, thus raising many interrogations. Therefore, we focused on the identification of S-nitrosated proteins during s…
Identification and functional characterization of S-nitrosated proteins from Klebsormidium nitens in response to salt stress
The small gaseous molecule nitric oxide (NO) is well established as a major ubiquitouscomponent of cell signalling. A key signalling mechanism mediating NO effects is Snitrosation, a post-translational modification by which NO can impact the target proteinactivities, subcellular localizations, and capacities to form protein complexes. The identificationof proteins targeted by NO is of major interest in order to elucidate NO functions. Interestingly,land plants lack NO synthase (NOS), which is the main enzyme for NO synthesis in metazoans,while a few algal species possess it, thus raising many interrogations. Therefore, we focused onthe identification of S-nitrosated proteins during salt str…