TY - JOUR
T1 - Comprehensive evolutionary analysis and nomenclature of plant G3BPs
AU - Abulfaraj, Aala A.
AU - Ohyanagi, Hajime
AU - Goto, Kosuke
AU - Mineta, Katsuhiko
AU - Gojobori, Takashi
AU - Hirt, Heribert
AU - Rayapuram, Naganand
N1 - KAUST Repository Item: Exported on 2022-05-30
Acknowledged KAUST grant number(s): BAS/1/1062-01-01, BAS/1/1059-01-01
Acknowledgements: This work was supported by King Abdullah University of Science and Technology (BAS/1/1062-01-01 and BAS/1/1059-01-01). We would like to acknowledge Prof. Jean-Marc Deragon and Prof. Cecile Bousquet-Antonelli for their valuable discussions and suggestions.
PY - 2022/5/26
Y1 - 2022/5/26
N2 - Stress induces extensive reprogramming of mRNA metabolism, which includes the transcription and translation of stress-related genes and the formation of stress granules. RasGAP SH3 domain-binding proteins (G3BPs, also called Rasputins) form a highly conserved family of proteins found throughout eukaryotic evolution, which coordinate signal transduction and posttranscriptional gene regulation and play a key role in the formation of stress granules. G3BPs play a role in osmotic, oxidative, and biotic stress in mammals, and recent results revealed that they play similar functions in higher plants. Although simple eukaryotes such as yeast have only one G3BP gene, higher plants show a massive expansion of their G3BP genes into distinct subfamilies. However, because this family of genes has not been well-characterized in plants, functions that have evolved during this expansion remain unidentified. Therefore, we carried out a phylogenetic analysis of G3BPs in different eukaryotes, particularly focusing on the green lineage. On the basis of this evolutionary analysis of G3BPs in eukaryotes, we propose a uniform nomenclature for plant G3BPs that should help predict the evolutionary and functional diversification in this family.
AB - Stress induces extensive reprogramming of mRNA metabolism, which includes the transcription and translation of stress-related genes and the formation of stress granules. RasGAP SH3 domain-binding proteins (G3BPs, also called Rasputins) form a highly conserved family of proteins found throughout eukaryotic evolution, which coordinate signal transduction and posttranscriptional gene regulation and play a key role in the formation of stress granules. G3BPs play a role in osmotic, oxidative, and biotic stress in mammals, and recent results revealed that they play similar functions in higher plants. Although simple eukaryotes such as yeast have only one G3BP gene, higher plants show a massive expansion of their G3BP genes into distinct subfamilies. However, because this family of genes has not been well-characterized in plants, functions that have evolved during this expansion remain unidentified. Therefore, we carried out a phylogenetic analysis of G3BPs in different eukaryotes, particularly focusing on the green lineage. On the basis of this evolutionary analysis of G3BPs in eukaryotes, we propose a uniform nomenclature for plant G3BPs that should help predict the evolutionary and functional diversification in this family.
UR - http://hdl.handle.net/10754/678269
U2 - 10.26508/lsa.202101328
DO - 10.26508/lsa.202101328
M3 - Article
C2 - 35618429
SN - 2575-1077
JO - Life Science Alliance
JF - Life Science Alliance
ER -