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971.
972.
Hyun Kyung Lee Mi Kwon Ji Hyun Jeon Shozo Fujioka Ho Bang Kim So Young Park Suguru Takatsuto Shigeo Yoshida Ilha Lee Chung Sun An Sunghwa Choe 《Journal of Plant Biology》2006,49(1):61-69
Arabidopsis leaf morphology is determined by the coordinated action of cell division and elongation. Of all the hormones that control leaf shape, the brassinosteroids (BRs) are active components in this process. BRs are a group of plant-originated steroidal compounds that induce growth along the long axes of organs. Here, we report the isolation and characterization of a novel mutant,short root and dwarfism (srd). Its dwarf phenotype includes round and curled leaves, reduced fertility, and short hypocotyls in the light and dark. Dwarfism in the aerial portions and a short-root morphology are not rescued by exogenous application of BRs, suggesting thatsrd is not impaired in BR metabolic pathways. Anatomical analysis revealed thatsrd roots are much shorter and thicker than the wild type due to additional layers of cortical cells. A lack of cell elongation but an increase in division results in these short but horizontally swollen roots. A double mutantsrd/bri1-5 also displays the short-root phenotype, implying thatsrd is epistatic tobri1. Cloning and further characterization ofSRD should provide additional information about its role in the determination of leaf shape and root elongation. 相似文献
973.
974.
Phee BK Shin DH Cho JH Kim SH Kim JI Lee YH Jeon JS Bhoo SH Hahn TR 《Proteomics》2006,6(12):3671-3680
Phytochrome-interacting proteins have been extensively studied to elucidate light-signaling pathway in plants. However, most of these proteins have been identified by yeast two-hybrid screening using the C-terminal domain of phytochromes. We used co-immunoprecipitation followed by proteomic analysis in plant cell extracts in an attempt to screen for proteins interacting either directly or indirectly with native holophytochromes including the N-terminal domain as well as C-terminal domain. A total of 16 protein candidates were identified, and were selected from 2-DE experiments. Using MALDI-TOF MS analysis, 7 of these candidates were predicted to be putative phytochrome A-interacting proteins and the remaining ones to be phytochrome B-interacting proteins. Among these putative interacting proteins, protein phosphatase type 2C (PP2C) and a 66-kDa protein were strong candidates as novel phytochrome-interacting proteins, as knockout mutants for the genes encoding these two proteins had impaired light-signaling functions. A transgenic knockout Arabidopsis study showed that a 66-kDa protein candidate regulates hypocotyl elongation in a light-specific manner, and altered cotyledon development under white light during early developmental stages. The PP2C knockout plants also displayed light-specific changes in hypocotyl elongation. These results suggest that co-immunoprecipitation, followed by proteomic analysis, is a useful method for identifying novel interacting proteins and determining real protein-protein interactions in the cell. 相似文献
975.
Jung Dae Lim Jung-Il Cho Youn-Il Park Tae-Ryong Hahn Sang-Bong Choi Jong-Seong Jeon 《Physiologia plantarum》2006,126(4):572-584
In many higher plants, sucrose is loaded as a major carbon photoassimiliate into the phloem apoplastically by sucrose transporters (SUTs) and unloaded in sink tissues, where it serves as a storage material, carbohydrate backbone, and energy source. In sink tissues, a proportion of sucrose molecules are converted by cell wall invertases (CINs) into hexose that is imported into cells by monosaccharide transporters (MSTs). Thus, in developing seeds, co-ordinated regulation of SUTs, CINs, and MSTs is crucial in carbon distribution. Here, we summarize current efforts on the identification of SUTs, CINs, and MSTs in rice. 相似文献
976.
Rice Pi5-Mediated Resistance to Magnaporthe oryzae Requires the Presence of Two Coiled-Coil–Nucleotide-Binding–Leucine-Rich Repeat Genes 下载免费PDF全文
977.
Yun Hwa Hong Ji Young Kim Jeong Ho Lee† Hong Gu Chae Sung Soo Jang Ju Hong Jeon Chul Hoon Kim† Jun Kim Sang Jeong Kim‡ 《Journal of neurochemistry》2009,111(1):61-71
Agonist-induced internalization of metabotropic glutamate receptors (mGluRs) plays an important role in neuronal signaling. Although internalization of mGluRs has been reported to be mediated by clathrin-dependent pathway, studies describing clathrin-independent pathways are emerging. Here, we report that agonist-induced internalization of mGluR1α is mediated by caveolin. We show that two caveolin-binding motifs of mGluR1α interact with caveolin1/2. Using cell surface-immunoprecipitation and total internal reflection fluorescence imaging, we found that agonist-induced internalization of mGluR1α is regulated by caveolin-binding motifs of the receptor in heterologous cells. Moreover, in the cerebellum, group I mGluR agonist dihydroxyphenylglycol increased the interaction of phosphorylated caveolin with mGluR1α. This interaction was blocked by methyl-β-cyclodextrin, known to disrupt caveolin/caveolae-dependent signaling by cholesterol depletion. Methyl-β-cyclodextrin also blocked the agonist-induced internalization of mGluR1α. Thus, these findings represent the evidence for agonist-induced internalization of mGluR1α via caveolin and suggest that caveolin might play a role in synaptic metaplasticity by regulating internalization of mGluR1α in the cerebellum. 相似文献
978.
Shin DM Jeon BY Lee HM Jin HS Yuk JM Song CH Lee SH Lee ZW Cho SN Kim JM Friedman RL Jo EK 《PLoS pathogens》2010,6(12):e1001230
The "enhanced intracellular survival" (eis) gene of Mycobacterium tuberculosis (Mtb) is involved in the intracellular survival of M. smegmatis. However, its exact effects on host cell function remain elusive. We herein report that Mtb Eis plays essential roles in modulating macrophage autophagy, inflammatory responses, and cell death via a reactive oxygen species (ROS)-dependent pathway. Macrophages infected with an Mtb eis-deletion mutant H37Rv (Mtb-Δeis) displayed markedly increased accumulation of massive autophagic vacuoles and formation of autophagosomes in vitro and in vivo. Infection of macrophages with Mtb-Δeis increased the production of tumor necrosis factor-α and interleukin-6 over the levels produced by infection with wild-type or complemented strains. Elevated ROS generation in macrophages infected with Mtb-Δeis (for which NADPH oxidase and mitochondria were largely responsible) rendered the cells highly sensitive to autophagy activation and cytokine production. Despite considerable activation of autophagy and proinflammatory responses, macrophages infected with Mtb-Δeis underwent caspase-independent cell death. This cell death was significantly inhibited by blockade of autophagy and c-Jun N-terminal kinase-ROS signaling, suggesting that excessive autophagy and oxidative stress are detrimental to cell survival. Finally, artificial over-expression of Eis or pretreatment with recombinant Eis abrogated production of both ROS and proinflammatory cytokines, which depends on the N-acetyltransferase domain of the Eis protein. Collectively, these data indicate that Mtb Eis suppresses host innate immune defenses by modulating autophagy, inflammation, and cell death in a redox-dependent manner. 相似文献
979.
Jeon KI Jono H Miller CL Cai Y Lim S Liu X Gao P Abe J Li JD Yan C 《The FEBS journal》2010,277(24):5026-5039
The phenotypic change of vascular smooth muscle cells (VSMCs), from a 'contractile' phenotype to a 'synthetic' phenotype, is crucial for pathogenic vascular remodeling in vascular diseases such as atherosclerosis and restenosis. Ca(2+)/calmodulin-stimulated phosphodiesterase 1 (PDE1) isozymes, including PDE1A and PDE1C, play integral roles in regulating the proliferation of synthetic VSMCs. However, the underlying molecular mechanism(s) remain unknown. In this study, we explore the role and mechanism of PDE1 isoforms in regulating β-catenin/T-cell factor (TCF) signaling in VSMCs, a pathway important for vascular remodeling through promoting VSMC growth and survival. We found that inhibition of PDE1 activity markedly attenuated β-catenin/TCF signaling by downregulating β-catenin protein. The effect of PDE1 inhibition on β-catenin protein reduction is exerted via promoting glycogen synthase kinase 3 (GSK3)β activation, β-catenin phosphorylation and subsequent β-catenin protein degradation. Moreover, PDE1 inhibition specifically upregulated phosphatase protein phosphatase 2A (PP2A) B56γ subunit gene expression, which is responsible for the effects of PDE1 inhibition on GSK3β and β-catenin/TCF signaling. Furthermore, the effect of PDE1 inhibition on β-catenin was specifically mediated by PDE1A but not PDE1C isozyme. Interestingly, in synthetic VSMCs, PP2A B56γ, phospho-GSK3β and phospho-β-catenin were all found in the nucleus, suggesting that PDE1A regulates nuclear β-catenin protein stability through the nuclear PP2A-GSK3β-β-catenin signaling axis. Taken together, these findings provide direct evidence for the first time that PP2A B56γ is a critical mediator for PDE1A in the regulation of β-catenin signaling in proliferating VSMCs. 相似文献
980.
Chang-Hyo Goh Kouji Satoh Shoshi Kikuchi Seong-Cheol Kim Suk-Min Ko Hong-Gyu Kang Jong-Seong Jeon Cheol Soo Kim Youn-Il Park 《Plant biotechnology reports》2010,4(4):281-291
The rice CHLH gene encodes the Mg2+-chelatase H subunit, which is involved in chlorophyll biosynthesis. Growth of the chlorophyll-deficient oschlh mutant is supported by mitochondrial activity. In this study, we investigated the activity of mitochondrial respiration in
the illuminated leaves during oschlh seedling development. Growth of mutant plants was enhanced in the presence of 3% sucrose, which may be used by mitochondria
to meet cellular energy requirements. ATP content in these mutants was, however, significantly lowered in light conditions.
Low cytosolic levels of NADH in illuminated oschlh mutant leaves further indicated the inhibition of mitochondrial metabolism. This down-regulation was particularly evident
for oxidative stress-responsive genes in the mutant under light conditions. Hydrogen peroxide levels were higher in oschlh mutant leaves than in wild-type leaves; this increase was largely caused by the impairment of the expression of the antioxidant
genes, such as OsAPX1, OsRAC1, and OsAOXc in knockout plants. Moreover, treatment of mesophyll protoplasts with ascorbic acid or catalase recovered ATP content in
the mutants. Taken together, these results suggest that the light-mediated inhibition of mitochondrial activity leads to stunted
growth of CHLH rice seedlings. 相似文献