RRC ID 89225
著者 Nishiyama A, Matsuta S, Chaya G, Itoh T, Miura K, Iwasaki Y.
タイトル Identification of Heterotrimeric G Protein γ3 Subunit in Rice Plasma Membrane.
ジャーナル Int J Mol Sci
Abstract Heterotrimeric G proteins are important molecules for regulating plant architecture and transmitting external signals to intracellular target proteins in higher plants and mammals. The rice genome contains one canonical α subunit gene (RGA1), four extra-large GTP-binding protein genes (XLGs), one canonical β subunit gene (RGB1), and five γ subunit genes (tentatively named RGG1, RGG2, RGG3/GS3/Mi/OsGGC1, RGG4/DEP1/DN1/OsGGC3, and RGG5/OsGGC2). RGG1 encodes the canonical γ subunit; RGG2 encodes the plant-specific type of γ subunit with additional amino acid residues at the N-terminus; and the remaining three γ subunit genes encode the atypical γ subunits with cysteine abundance at the C-terminus. We aimed to identify the RGG3/GS3/Mi/OsGGC1 gene product, Gγ3, in rice tissues using the anti-Gγ3 domain antibody. We also analyzed the truncated protein, Gγ3∆Cys, in the RGG3/GS3/Mi/OsGGC1 mutant, Mi, using the anti-Gγ3 domain antibody. Based on nano-liquid chromatography-tandem mass spectrometry (LC-MS/MS) analysis, the immunoprecipitated Gγ3 candidates were confirmed to be Gγ3. Similar to α (Gα) and β subunits (Gβ), Gγ3 was enriched in the plasma membrane fraction, and accumulated in the flower tissues. As RGG3/GS3/Mi/OsGGC1 mutants show the characteristic phenotype in flowers and consequently in seeds, the tissues that accumulated Gγ3 corresponded to the abnormal tissues observed in RGG3/GS3/Mi/OsGGC1 mutants.
巻・号 19(11)
公開日 2018-11-14
DOI 10.3390/ijms19113591
PII ijms19113591
PMID 30441767
PMC PMC6274724
MeSH Cell Membrane / metabolism Flowers / metabolism GTP-Binding Protein gamma Subunits / chemistry GTP-Binding Protein gamma Subunits / genetics GTP-Binding Protein gamma Subunits / metabolism* Oryza / genetics Oryza / metabolism* Plant Proteins / chemistry Plant Proteins / genetics Plant Proteins / metabolism* Seeds / metabolism
リソース情報
イネ Induced mutation line