Gene-gene interactions between mutants that accumulate abnormally high amounts of proglutelin in rice seed

Ueda, Yuka; Satoh-Cruz, Mio; Matsusaka, Hiroaki; Takemoto-Kuno, Yoko; Fukuda, M; Okita, Thomas W.; Ogawa, Masahiro; Satoh, Hiroyuki; Kumamaru, Toshihiro

doi:10.1270/jsbbs.60.568

Cited by 23 publications

(37 citation statements)

References 32 publications

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“…Previous studies have identified eight 57H mutants in rice, including esp2 and glup1 to glup7 (Ueda et al, 2010). Compared with these previously reported rice 57H mutants, the gpa3 mutant displayed several distinct features.…”

Section: Discussion Gpa3 Is Defective In Post-golgi Trafficking Of Stmentioning

confidence: 86%

“…Compared with these previously reported rice 57H mutants, the gpa3 mutant displayed several distinct features. First, gpa3 accumulated normal levels of PDI1-1 and BiP1, whereas those mutants that have defects in ER export of storage proteins usually exhibited elevated levels of these chaperones, such as esp2/pdi1-1 (Takemoto et al, 2002), glup1, glup2, and glup7 (Ueda et al, 2010). Second, despite the fact that these mutants all accumulate increased levels of proglutelins, there are distinct differences in their subcellular characteristics due to lesions in different trafficking processes.…”

Section: Discussion Gpa3 Is Defective In Post-golgi Trafficking Of Stmentioning

confidence: 99%

“…To test whether gpa3 is defective in storage protein sorting at the ER level or in post-Golgi trafficking, we compared the levels of ER lumen BINDING PROTEIN1 (BiP1) and PDI1-1, two molecular chaperones known to be induced in 57H rice mutants defective in maturation and export of proglutelins from the ER (Ueda et al, 2010). Immunoblot analysis showed that the levels of BiP1 and PDI1-1 were comparable in the gpa3 mutant and the wild type ( Figure 1F).…”

Section: Phenotypic Characterization Of the Gpa3 Mutantmentioning

confidence: 99%

“…These mutants were named endosperm storage protein (esp2) and glutelin precursor (glup1 to glup7; Ueda et al, 2010). Among them, ESP2 encodes PDI1-1 (for PROTEIN DISULFIDE ISOMERASE-LIKE1-1), involved in proglutelin maturation in the ER (Takemoto et al, 2002).…”

Section: Introductionmentioning

confidence: 99%

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GLUTELIN PRECURSOR ACCUMULATION3Encodes a Regulator of Post-Golgi Vesicular Traffic Essential for Vacuolar Protein Sorting in Rice Endosperm

et al. 2014

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In seed plants, a major pathway for sorting of storage proteins to the protein storage vacuole (PSV) depends on the Golgi-derived dense vesicles (DVs). However, the molecular mechanisms regulating the directional trafficking of DVs to PSVs remain largely elusive. Here, we report the functional characterization of the rice (Oryza sativa) glutelin precursor accumulation3 (gpa3) mutant, which exhibits a floury endosperm phenotype and accumulates excess proglutelins in dry seeds. Cytological and immunocytochemistry studies revealed that in the gpa3 mutant, numerous proglutelin-containing DVs are misrouted to the plasma membrane and, via membrane fusion, release their contents into the apoplast to form a new structure named the paramural body. Positional cloning of GPA3 revealed that it encodes a plant-specific kelch-repeat protein that is localized to the trans-Golgi networks, DVs, and PSVs in the developing endosperm. In vitro and in vivo experiments verified that GPA3 directly interacts with the rice Rab5a-guanine exchange factor VPS9a and forms a regulatory complex with Rab5a via VPS9a. Furthermore, our genetic data support the notion that GPA3 acts synergistically with Rab5a and VPS9a to regulate DV-mediated post-Golgi traffic in rice. Our findings provide insights into the molecular mechanisms regulating the plant-specific PSV pathway and expand our knowledge of vesicular trafficking in eukaryotes.

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Section: Discussion Gpa3 Is Defective In Post-golgi Trafficking Of Stmentioning

confidence: 86%

Section: Discussion Gpa3 Is Defective In Post-golgi Trafficking Of Stmentioning

confidence: 99%

Section: Phenotypic Characterization Of the Gpa3 Mutantmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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GLUTELIN PRECURSOR ACCUMULATION3Encodes a Regulator of Post-Golgi Vesicular Traffic Essential for Vacuolar Protein Sorting in Rice Endosperm

et al. 2014

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“…The mutants were named endosperm storage protein mutant2 (esp2; Kumamaru et al, 1987Kumamaru et al, , 1988 and glutelin precursor mutant1 (glup1) to glup7 (Kumamaru et al, 2007;Satoh-Cruz et al, 2010a;Ueda et al, 2010). Gene-gene interaction analyses of the eight mutant lines indicate that esp2 is the most epistatic while glup3 is the most hypostatic among the eight mutant genes (Ueda et al, 2010). This relationship suggests that the factors encoded by ESP2 and GLUP3 function upstream and downstream, respectively, of the other GLUP genes in the pathway of the synthesis, trafficking, and accumulation of proglutelin.…”

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confidence: 99%

The Small GTPase Rab5a Is Essential for Intracellular Transport of Proglutelin from the Golgi Apparatus to the Protein Storage Vacuole and Endosomal Membrane Organization in Developing Rice Endosperm

et al. 2011

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Rice (Oryza sativa) glutelins are synthesized on the endoplasmic reticulum as larger precursors, which are then transported via the Golgi to the protein storage vacuole (PSV), where they are processed into acidic and basic subunits. Three independent glutelin precursor mutant4 (glup4) rice lines, which accumulated elevated levels of proglutelin over the wild type, were identified as loss-of-function mutants of Rab5a, the small GTPase involved in vesicular membrane transport. In addition to the plasma membrane, Rab5a colocalizes with glutelins on the Golgi apparatus, Golgi-derived dense vesicles, and the PSV, suggesting that Rab5a participates in the transport of the proglutelin from the Golgi to the PSV. This spatial distribution pattern was dramatically altered in the glup4 mutants. Numerous smaller protein bodies containing glutelin and a-globulin were evident, and the proteins were secreted extracellularly. Moreover, all three independent glup4 allelic lines displayed the novel appearance of a large dilated, structurally complex paramural body containing proglutelins, a-globulins, membrane biomarkers for the Golgi apparatus, prevacuolar compartment, PSV, and the endoplasmic reticulum luminal chaperones BiP and protein disulfide isomerase as well as b-glucan. These results indicate that the formation of the paramural bodies in glup4 endosperm was due to a significant disruption of endocytosis and membrane vesicular transport by Rab5a loss of function. Overall, Rab5a is required not only for the intracellular transport of proglutelins from the Golgi to the PSV in rice endosperm but also in the maintenance of the general structural organization of the endomembrane system in developing rice seeds.Developing plant seeds accumulate large quantities of storage proteins that are coded by two superfamilies of genes, globulins and prolamins (Shewry et al., 1995). Rice (Oryza sativa) is unique in that it accumulates major quantities of both storage protein types in the form of glutelins and prolamins as well as a third minor species, a-globulins (Tanaka et al., 1980;Krishnan and White, 1995). Glutelin, the dominant storage protein in rice, is homologous to leguminous 11S globulins and is packaged in a protein storage vacuole (PSV;Zhao et al., 1983). Unlike the saline-soluble 11S globulins, however, rice glutelins are only soluble in dilute acid and alkali solutions. During seed development, rice glutelin polypeptides are initially synthesized on the endoplasmic reticulum (ER) membrane as 57-kD proglutelin (Yamagata et al., 1982), which is then transported to the PSVs (Krishnan et al., 1986;Yamagata and Tanaka, 1986), where the precursors are cleaved to acidic and basic subunits (Yamagata et al., 1982). The rice a-globulin, a member of the prolamin superfamily, is also packaged in the PSV, where to-

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Endomembrane‐mediated storage protein trafficking in plants: Golgi‐dependent or Golgi‐independent?

et al. 2022

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Seed storage proteins (SSPs) accumulated within plant seeds constitute the major protein nutrition sources for human and livestock. SSPs are synthesized on the endoplasmic reticulum and are then deposited in plant-specific protein bodies, including endoplasmic reticulum-derived protein bodies and protein storage vacuoles. Plant seeds have evolved a distinct endomembrane system to accomplish SSP transport. There are two distinct types of trafficking pathways contributing to SSP delivery to protein storage vacuoles: one is Golgi-dependent and the other is Golgi-independent. In recent years, molecular, genetic, and biochemical studies have shed light on the complex network controlling SSP trafficking, to which both evolutionarily conserved molecular machineries and plant-unique regulators contribute. In this review, we discuss current knowledge of protein body biogenesis and endomembrane-mediated SSP transport, focusing on endoplasmic reticulum export and post-Golgi traffic. This knowledge supports a dominant role for the Golgi-dependent pathways in SSP transport in Arabidopsis and rice. In addition, we describe cutting-edge strategies for dissecting the endomembrane trafficking system in plant seeds to advance the field.

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Gene-gene interactions between mutants that accumulate abnormally high amounts of proglutelin in rice seed

Cited by 23 publications

References 32 publications

GLUTELIN PRECURSOR ACCUMULATION3Encodes a Regulator of Post-Golgi Vesicular Traffic Essential for Vacuolar Protein Sorting in Rice Endosperm

GLUTELIN PRECURSOR ACCUMULATION3Encodes a Regulator of Post-Golgi Vesicular Traffic Essential for Vacuolar Protein Sorting in Rice Endosperm

The Small GTPase Rab5a Is Essential for Intracellular Transport of Proglutelin from the Golgi Apparatus to the Protein Storage Vacuole and Endosomal Membrane Organization in Developing Rice Endosperm

Endomembrane‐mediated storage protein trafficking in plants: Golgi‐dependent or Golgi‐independent?

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