The GENOMES UNCOUPLED 1 (GUN1) gene has been reported to encode a chloroplast-localized pentatricopeptide-repeat protein, which integrates multiple indicators of plastid developmental stage and altered plastid function, as part of chloroplast-to-nucleus retrograde communication and chloroplast biogenesis. However, the molecular mechanisms underlying signal integration by GUN1 have remained elusive, up until the recent identification of a set of GUN1-interacting proteins, by co-immunoprecipitation and mass-spectrometric analyses, as well as protein–protein interaction assays. Here, we review the molecular functions of the different GUN1 partners and propose a major role for GUN1 as coordinator of chloroplast translation, protein import, and protein degradation. This regulatory role is implemented through proteins that, in most cases, are part of multimeric protein complexes and whose precise functions vary depending on their association states. Within this framework, GUN1 may act as a platform to promote specific functions by bringing the interacting enzymes into close proximity with their substrates, or may inhibit processes by sequestering particular pools of specific interactors. All these activities appear to be essential for proper chloroplast biogenesis, as also assessed by ultrastructural analysis.
GUN1, a jack-of-all-trades in chloroplast protein homeostasis and chloroplast biogenesis / L. Tadini, C. Peracchio, I. Mancini, S. Forlani, D. Maffi, F. Faoro, P. Pesaresi. ((Intervento presentato al convegno Riunione Annuale Gruppi di Lavoro di Biologia Cellulare e Molecolare e Biotecnologie e Differenziamento, Società Botanica Italiana tenutosi a Milano nel 2017.
GUN1, a jack-of-all-trades in chloroplast protein homeostasis and chloroplast biogenesis
L. Tadini;C. Peracchio;S. Forlani;D. Maffi;F. Faoro;P. Pesaresi
2017
Abstract
The GENOMES UNCOUPLED 1 (GUN1) gene has been reported to encode a chloroplast-localized pentatricopeptide-repeat protein, which integrates multiple indicators of plastid developmental stage and altered plastid function, as part of chloroplast-to-nucleus retrograde communication and chloroplast biogenesis. However, the molecular mechanisms underlying signal integration by GUN1 have remained elusive, up until the recent identification of a set of GUN1-interacting proteins, by co-immunoprecipitation and mass-spectrometric analyses, as well as protein–protein interaction assays. Here, we review the molecular functions of the different GUN1 partners and propose a major role for GUN1 as coordinator of chloroplast translation, protein import, and protein degradation. This regulatory role is implemented through proteins that, in most cases, are part of multimeric protein complexes and whose precise functions vary depending on their association states. Within this framework, GUN1 may act as a platform to promote specific functions by bringing the interacting enzymes into close proximity with their substrates, or may inhibit processes by sequestering particular pools of specific interactors. All these activities appear to be essential for proper chloroplast biogenesis, as also assessed by ultrastructural analysis.
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