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191.
Cupidin (Homer 2/vesl-2) is a post-synaptic adaptor protein that associates with glutamate receptor complexes and the actin cytoskeleton. We analyzed the developmental and activity-dependent localization of Cupidin in mouse cerebellar granule cells. Cupidin is predominantly localized to granule cell post-synapses connecting with mossy fiber terminals in developing post-natal cerebellum, but is diminished in adult cerebellum. In cultured granule cells 7 days in vitro, Cupidin was present as synaptic and extra-synaptic punctate clusters that largely co-localized with the actin-cytoskeletal binding partners F-actin and drebrin, as well as a post-synaptic scaffold protein PSD-95. Upon stimulation with glutamate, Cupidin clusters were rapidly dissociated without protein degradation, and by short-term but not sustained stimulation they were recovered after post-incubation without glutamate. The glutamate-induced declustering of Cupidin preceded that of F-actin and drebrin, was elicited by NMDA receptor-mediated Ca2+ influx, and was followed by a downstream pathway including MAPK/ERK and protein tyrosine kinase. Specific isoforms with post-translational modification were reduced depending on Ca2+-dependent protein phosphatase activity. In cultured hippocampal neurons, Homer family members Homer 1, Cupidin/Homer 2 and Homer 3 showed similar glutamate-induced declustering. We suggest that Cupidin acts as a mobile adaptor protein that changes the distribution states, clustered versus declustered, in response to synaptic activity. 相似文献
192.
Taste receptors play a crucial role in detecting the presence of bitter compounds such as alkaloids, and help to prevent the ingestion of toxic food. In Drosophila, we show for the first time that several taste sensilla on the prothoracic legs detect bitter compounds both through the activation of specific taste neurons but also through inhibition of taste neurons activated by sugars and water. Each sensillum usually houses a cluster of four taste neurons classified according to their best stimulus (S for sugar, W for Water, L1 and L2 for salts). Using a new statistical approach based on the analysis of interspike intervals, we show that bitter compounds activate the L2 cell. Bitter-activated L2 cells were excited with a latency of at least 50 ms. Their sensitivity to bitter compounds was different between sensilla, suggesting that specific receptors to bitter compounds are differentially expressed among L2 cells. When presented in mixtures, bitter compounds inhibited the responses of S and W, but not the L1 cell. The inhibition was effective even in sensilla where bitter compounds did not activate the L2 cell, indicating that bitter compounds directly interact with the S and W cells. Interestingly, this inhibition occurred with latencies similar to the excitation of bitter-activated L2 cells. It suggests that the inhibition in the W and S cells shares similar transduction pathways with the excitation in the L2 cells. Combined with molecular approaches, the results presented here should provide a physiological basis to understand how bitter compounds are detected and discriminated. 相似文献
193.
FOXO forkhead transcription factors induce G(2)-M checkpoint in response to oxidative stress 总被引:2,自引:0,他引:2
Furukawa-Hibi Y Yoshida-Araki K Ohta T Ikeda K Motoyama N 《The Journal of biological chemistry》2002,277(30):26729-26732
194.
Molecular characterization of the starfish inositol 1,4,5-trisphosphate receptor and its role during oocyte maturation and fertilization. 总被引:5,自引:0,他引:5
Hirohide Iwasaki Kazuyoshi Chiba Tsuyoshi Uchiyama Fumio Yoshikawa Fumiko Suzuki Masako Ikeda Teiichi Furuichi Katsuhiko Mikoshiba 《The Journal of biological chemistry》2002,277(4):2763-2772
The release of calcium ions (Ca(2+)) from their intracellular stores is essential for the fertilization of oocytes of various species. The calcium pools can be induced to release Ca(2+) via two main types of calcium channel receptor: the inositol 1,4,5-trisphosphate receptor (IP(3)R) and the ryanodine receptor. Starfish oocytes have often been used to study intracellular calcium mobilization during oocyte maturation and fertilization, but how the intracellular calcium channels contribute to intracellular calcium mobilization has never been understood fully, because these molecules have not been identified and no specific inhibitors of these channels have ever been found. In this study, we utilized a novel IP(3)R antagonist, the "IP(3) sponge," to investigate the role of IP(3) during fertilization of the starfish oocyte. The IP(3) sponge strongly and specifically competed with endogenous IP(3)R for binding to IP(3). By injecting IP(3) sponge into starfish oocyte, the increase in intracellular calcium and formation of the fertilization envelope were both dramatically blocked, although oocyte maturation was not blocked. To investigate the role of IP(3)R in the starfish oocyte more precisely, we cloned IP(3)R from the ovary of starfish, and the predicted amino acid sequence indicated that the starfish IP(3)R has 58-68% identity to mammalian IP(3)R types 1, 2, and 3. We then raised antibodies that recognize starfish IP(3)R, and use of the antibodies to perform immunoblot analysis revealed that the level of expression of IP(3)R remained unchanged throughout oocyte maturation. An immunocytochemical study, however, revealed that the distribution of starfish IP(3)R changes during oocyte maturation. 相似文献
195.
Ochiai N Fujimura M Oshima M Motoyama T Ichiishi A Yamada-Okabe H Yamaguchi I 《Bioscience, biotechnology, and biochemistry》2002,66(10):2209-2215
We investigated the effects of iprodione and fludioxonil on the pathogenic yeast Candida albicans. Growth of the wild-type IFO1385 strain of C. albicans was inhibited by both fungicides, while Saccharomyces cerevisiae was basically unaffected by them even at a concentration of 25 microg/ml. Both fungicides stimulated glycerol synthesis in C. albicans but not in S. cerevisiae. The antioxidant alpha-tocopherol acetate and the cytochrome P-450 inhibitor piperonyl butoxide antagonized the fungitoxicity of iprodione and fludioxonil in C. albicans. It is known that mutations within the histidine kinase NIK1/OS-1 gene confer resistance to iprodione and fludioxonil in Neurospora crassa, while the fungicide-insensitive S. cerevisiae has only one histidine kinase SLN1 gene in its genome. In contrast, C. albicans has three histidine kinase genes, namely CaSLN1, CaNIK1/COS1, and CaHK1, the null mutants of which were found to impair the hyphal formation. Iprodione and fludioxonil were found to suppress filamentation when the IFO1385 strain was incubated on a solid medium containing fetal bovine serum. These observations suggest that iprodione and fludioxonil interfere with the CaNIK1/COS1 signal transduction pathway, resulting in glycerol synthesis stimulation and the inhibition of hyphal formation. 相似文献
196.
Miyatake T Matsumoto A Matsuyama T Ueda HR Toyosato T Tanimura T 《Proceedings. Biological sciences / The Royal Society》2002,269(1508):2467-2472
Clock genes that pleiotropically control circadian rhythm and the time of mating may cause allochronic reproductive isolation in the melon fly Bactrocera cucurbitae (Coquillett) (Diptera: Tephritidae). Flies with a shorter circadian period (ca. 22 h of locomotor activity rhythm) mated 5 h earlier in the day than those with a longer circadian period (ca. 30 h). Mate-choice tests demonstrated significant pre-mating isolation between populations with short and long circadian periods. Pre-mating isolation did not occur when the mating time was synchronized between the two populations by photoperiodic controls, indicating that reproductive isolation is due to variations in the time of mating and not any unidentified ethological difference between the two populations. We cloned the period (per) gene of B. cucurbitae that is homologous to the per gene in Drosophila. The relative level of per mRNA in the melon fly exhibited a robust daily fluctuation under light : dark conditions. The fluctuation of per expression under dark : dark conditions is closely correlated to the locomotor rhythm in B. cucurbitae. These results suggest that clock genes can cause reproductive isolation via the pleiotropic effect as a change of mating time. 相似文献
197.
198.
Immediate effects of maternal separation on the development of interneurons derived from medial ganglionic eminence in the neonatal mouse hippocampus
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Tatsuya Katahira Naoko Miyazaki Jun Motoyama 《Development, growth & differentiation》2018,60(5):278-290
Aversive experiences, including maternal separation (MS), have been known as a risk for abnormal hippocampus development. Given that impairment of GABA inhibitory system is known as one of the common features of the abnormal hippocampal development induced by MS, we examined whether the MS on 4‐day‐old (P4) mice for 24 hr abolishes the interneuron development. We observed that the MS reduced the volume of dorsal hippocampus on P14 as long‐term effects. In addition, the MS decreased the number of parvalbumin (PV)‐positive interneuron on P14 and P28 in the dorsal hippocampus. We further examined the immediate effects of MS by measuring the percentage of glutamic acid decarboxylase (GAD) 67‐positive interneurons among the immature interneurons derived from medial ganglionic eminence (MGE) progenitors marked in nkx2.1cre;β‐geo EGFP mice. During normal development from P4 to P5, the percentage of GAD67‐positive interneurons among the MGE‐derived interneurons in the dorsal hippocampus was significantly increased from 42.29% to 70.73% in the stratum pyramidale of the CA1 and increased from 46.4% to 56.99% in the stratum pyramidale of the CA2/3 region. However, the increase was not observed on P5 among the mice treated with the MS. These results suggest that the maturation of interneurons was suppressed by the MS. The suppressed maturation of interneurons may be one of the causes of the reduced volume of the hippocampus and PV+ interneurons observed in the hippocampus on P14 and P28 as a consequence of the MS during neonatal stage. 相似文献
199.
Purification and properties of inositol-1,4-bisphosphate 4-phosphohydrolase from rat brain 总被引:3,自引:0,他引:3
Inositol-1,4-bisphosphate 4-phosphohydrolase (inositol-1,4-bisphosphatase) was highly purified from a soluble fraction of rat brain. On SDS-polyacrylamide gel electrophoresis, the purified enzyme gave a single protein band and its molecular weight was estimated to be 42000. The isoelectric point of the enzyme was 4.3. The enzyme specifically hydrolyzed the 4-phosphomonoester linkage of inositol 1,4-bisphosphate. The Km value for inositol 1,4-bisphosphate was 30 microM, and it required Mg2+ for activity. Ca2+ was a competitive inhibitor with a Ki value of 60 microM as regards the Mg2+ binding. Li+, which is known to be a strong inhibitor of inositol 1-phosphatase (EC 3.1.3.25), inhibited the enzyme activity and caused 50% inhibition at a concentration of 1 mM (IC50 = 1 mM). Li+ was an uncompetitive inhibitor of substrate binding with a Ki value of 0.6 mM. These inhibitory parameters of Li+ were quite similar to those for inositol 1-phosphatase (IC50 = 1 mM, Ki = 0.3 mM). Thus, the effect of Li+ on decreasing the free inositol level with a subsequent decrease in agonist-sensitive phosphoinositides, is caused by its inhibition of multiple enzymes involved in conversion of inositol 1,4-bisphosphate to inositol. 相似文献
200.
Studies on the Recombination Genes of Bacteriophage T4: Suppression of uvsX and uvsY Mutations by uvsW Mutations 总被引:3,自引:2,他引:1
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Genes uvsW, uvsX and uvsY are dispensable for T4 growth but are implicated in recombination and in the repair of damaged DNA. We found that large-plaque mutants arose efficiently from small-plaque uvsX and uvsY mutants at 42 degrees and were pseudorevertants containing a new mutation in uvsW. Using reconstructed double mutants, we confirmed that a mutation in uvsW partially increases the burst size and UV resistance of uvsX and uvsY mutants. At 41 degrees the uvsW mutation completely restores the arrest in DNA synthesis caused by mutations in genes uvsX, uvsY and 46, but at 30 degrees it only partially restores DNA synthesis in a gene 46 mutant and does not restore DNA synthesis in uvsX and uvsY mutants. Restored DNA synthesis at 41 degrees was paralleled by the overproduction of single-stranded DNA and gene 32 protein. Based on these findings, we propose that the uvsW gene regulates the production of single-stranded DNA and we discuss the phenotype of uvsW mutants and their suppression of some uvsX and uvsY phenotypes. Infection of restrictive cells with am uvsW mutants revealed a defect in the synthesis of a protein of molecular weight 53,000 daltons, suggesting that this protein is the uvsW gene product. 相似文献