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981.
First evidence of Wolbachia infection in populations of grasshopper Podisma sapporensis (Orthoptera: Acrididae) 下载免费PDF全文
Alexander G. Bugrov Yury Yu. Ilinsky Anton Strunov Mariya Zhukova Elena Kiseleva Shin‐ichi Akimoto Haruki Tatsuta 《Entomological Science》2016,19(3):296-300
The brachypterous grasshopper Podisma sapporensis (Orthoptera: Acrididae) is distributed throughout the Sakhalin, Kunashir and Hokkaido Islands. Karyotypes of this species consist of two major chromosomal races with different sex chromosome systems, XO/XX and XY/XX. Molecular phylogeographic analysis of the chromosome races and subraces confirms the genetic divergence of the races and subraces in P. sapporensis. Here we first report that P. sapporensis is infected with Wolbachia consisting of three variants on wsp locus, while gatB locus was monomorphic. Furthermore, observation of cell tissue of P. sapporensis using electron microscopy confirmed the infection of Wolbachia that was inferred from polymerase chain reaction and revealed the distribution of the bacteria in the head, thorax and abdomen of P. sapporensis embryos. Our finding may shed new light on Wolbachia as a possible agent causing hybrid dysfunction resulting from experimental crosses between chromosome races or subraces of P. sapporensis. 相似文献
982.
Yoshiko Toyosawa Yasushi Kawagoe Ryo Matsushima Naoko Crofts Masahiro Ogawa Masako Fukuda Toshihiro Kumamaru Yozo Okazaki Miyako Kusano Kazuki Saito Kiminori Toyooka Mayuko Sato Yongfeng Ai Jay-Lin Jane Yasunori Nakamura Naoko Fujita 《Plant physiology》2016,170(3):1255-1270
Starch granule morphology differs markedly among plant species. However, the mechanisms controlling starch granule morphology have not been elucidated. Rice (Oryza sativa) endosperm produces characteristic compound-type granules containing dozens of polyhedral starch granules within an amyloplast. Some other cereal species produce simple-type granules, in which only one starch granule is present per amyloplast. A double mutant rice deficient in the starch synthase (SS) genes SSIIIa and SSIVb (ss3a ss4b) produced spherical starch granules, whereas the parental single mutants produced polyhedral starch granules similar to the wild type. The ss3a ss4b amyloplasts contained compound-type starch granules during early developmental stages, and spherical granules were separated from each other during subsequent amyloplast development and seed dehydration. Analysis of glucan chain length distribution identified overlapping roles for SSIIIa and SSIVb in amylopectin chain synthesis, with a degree of polymerization of 42 or greater. Confocal fluorescence microscopy and immunoelectron microscopy of wild-type developing rice seeds revealed that the majority of SSIVb was localized between starch granules. Therefore, we propose that SSIIIa and SSIVb have crucial roles in determining starch granule morphology and in maintaining the amyloplast envelope structure. We present a model of spherical starch granule production.Starch is the most important carbohydrate storage material and contains the Glc polymers amylose and amylopectin. At least four classes of enzymes, ADP-Glc pyrophosphorylase (AGPase), starch synthase (SS), starch branching enzyme (BE), and starch debranching enzyme (DBE), are necessary for efficient starch biosynthesis in storage tissues.SSs (EC 2.4.1.21) play a central role in starch synthesis during α-glucan elongation by adding Glc residues from ADP-Glc to the nonreducing ends via α-1,4-glucosidic linkages. Rice (Oryza sativa) contains 11 SS genes that are grouped into six classes, SSI to SSV and granule-bound starch synthase (GBSS; Supplemental Fig. S1; Hirose and Terao, 2004; Ohdan et al., 2005). Every class contains multiple isozymes, except for SSI and SSV; SSI, SSIIa, SSIIIa, and GBSSI are highly expressed in developing rice endosperm (Hirose and Terao, 2004; Ohdan et al., 2005). SSI elongates short amylopectin chains with degree of polymerization (DP) from 6 or 7 to DP 8 to 12 (Fujita et al., 2006). SSIIa elongates amylopectin from DP 6 to 12 to DP 13 to 24 (Umemoto et al., 2002; Nakamura et al., 2005), and SSIIIa elongates long amylopectin chains with DP 33 or greater (Fujita et al., 2007). GBSSI synthesizes amylose and extra-long amylopectin chains (Sano, 1984; Takeda et al., 1987; Hizukuri, 1995). The functions of other SS isozymes, such as SSIIb, SSIIc, SSIIIb, SSIVa, SSIVb, SSV, and GBSSII, remain largely unknown due to the lack of respective mutant lines. It is not clear how SS isozymes contribute to starch granule formation.Rice endosperm amyloplasts produce characteristic compound-type starch granules, which consist of dozens of polyhedral, sharp-edged granules (Matsushima et al., 2010). Compound-type starch granules are the most common type in endosperm of Poaceae species (Tateoka, 1962; Grass Phylogeny Working Group, 2001; Prasad et al., 2011; Matsushima et al., 2013). Simple-type starch granules (one starch granule per amyloplast) are produced in some species of the Bambusoideae, Pooideae, Micrairoideae, Chloridoideae, and Panicoideae subfamilies. The taxonomic relationships in the Poaceae do not enable an accurate prediction of granule morphology (Tateoka 1962; Shapter et al., 2008; Matsushima et al., 2013).Two studies that changed starch granule shape from simple type to compound type have been reported (Suh et al., 2004; Myers et al., 2011). A hull-less cultivar of cv Betzes barley (Hordeum vulgare), cv Nubet, contains simple-type and bimodal starch granules, which are typical of wild-type barley. Chemical mutagenesis of cv Nubet produced a mutant called franubet, which contains compound-type starch granules (Suh et al., 2004). In the maize monogalactosyldiacylglycerol synthase-deficient mutant opaque5, simple-type granules are replaced by compound-type granules separated by a membranous structure (Myers et al., 2011). The molecular mechanisms that control starch granule morphology in cereal endosperm are largely unknown, although an alteration in membrane lipid synthesis may be involved (Myers et al., 2011).A structural model for the compound-type amyloplast is shown Figure 1. The amyloplast envelope contains an outer envelope membrane (OEM), inner envelope membrane (IEM), and intermembrane space (IMS). Each starch granule is enclosed by an IEM, and granules are separated by a septum-like structure (SLS; Yun and Kawagoe, 2010). In this model, the IMS and SLS are directly connected, and fluorescent proteins such as GFP and Cherry can move freely between the two (Fig. 1; Kawagoe, 2013). The chloroplast envelope membrane contains little protein compared with the thylakoid membrane (Heber and Heldt, 1981). The endosperm amyloplast envelope membrane contains even less protein. Low protein content could be a major reason why the amyloplast envelope in rice endosperm is difficult to observe using high-resolution electron microscopy. In transgenic rice, a fluorescent protein fused to an IEM protein, the ADP-Glc transporter BRITTLE1, visualized the amyloplast IEM (Yun and Kawagoe, 2010). Fluorescent proteins fused to the chloroplast OEM protein OEP7 visualized the amyloplast OEM in endosperm (Kawagoe, 2013). These studies revealed that the outermost membranes of rice amyloplasts are OEM and contain intraamyloplast compartments. Starch is synthesized within the amyloplast compartments and is ultimately formed as compound-type granules that are individually wrapped in IEM (Yun and Kawagoe, 2010; Kawagoe, 2013).Open in a separate windowFigure 1.Structural model of the wild-type amyloplast in developing rice endosperm. The OEM is in black, the IEM is in magenta, the IMS is in green, and the SLS is in blue. G, Starch granules.Confocal microscopy analyses of the rice IEM protein, BRITTLE1, revealed that an SLS, or cross wall, divides starch granules in the amyloplast (Yun and Kawagoe, 2010). A model for the synthesis of compound-type starch granules consisting of polyhedral, sharp-edged granules proposed that the SLS functions as a mold that casts growing granules into a characteristic shape (Yun and Kawagoe, 2010; Kawagoe, 2013). The model postulates a central role for the SLS in producing characteristic compound-type granules, although neither the SLS components nor the enzymes affecting its properties have been characterized.Arabidopsis (Arabidopsis thaliana) SS genes are grouped into six classes. Leaf transitory starch biosynthesis has been investigated in single mutants of SSI, SSII, SSIII, and SSIV and in various double and triple SS mutants (Ral et al., 2004; Delvallé et al., 2005; Zhang et al., 2005, 2008; Szydlowski et al., 2009, 2011). Starch granules in leaf chloroplasts are reduced in number but enlarged in the ssIV mutant (Roldán et al., 2007; Crumpton-Taylor et al., 2013) and in the ssIV double and triple mutants (Szydlowski et al., 2009). Immature ssIV leaves have no starch granules but accumulate the starch synthase substrate ADP-Glc at high concentrations. Starch granules are flattened and discoid in wild-type leaves but are rounded in mature leaves of ssIV, suggesting that SSIV is essential for coordinating granule formation with chloroplast division during leaf expansion (Crumpton-Taylor et al., 2013). The ssIII ssIV double mutant does not accumulate measurable amounts of starch in the leaves, despite the presence of SSI and SSII activity (Szydlowski et al., 2009), implying that Arabidopsis SSIII and SSIV are involved in the initiation of starch granule formation and that either SSIII or SSIV is sufficient. Overexpression of AtSSIV increases the starch level in Arabidopsis leaves and potato (Solanum tuberosum) tubers (Gámez-Arjona et al., 2011). In transgenic plants, the AtSSIV-GFP fusion protein is enriched in specific regions at the edge of granules in Arabidopsis chloroplasts and potato tuber amyloplasts. In rice, SSIVa and SSIVb are expressed in the endosperm and other organs at an early developmental stage (Hirose and Terao, 2004; Ohdan et al., 2005).In this study, two rice allelic SSIVb-deficient mutant lines (ss4b) were generated by insertion of the retrotransposon Tos17 and crossed with the SSIIIa null mutant (ss3a). Surprisingly, the ss3a ss4b endosperm produced spherical starch granules that were separated from each other within amyloplasts, whereas the single mutants produced compound-type polyhedral starch granules. The SSIVb and GBSSI enzymes were localized to distinct compartments in developing amyloplasts. We discuss the changes in rice starch structure due to the deficiency of both SSIIIa and SSIVb, the alteration in starch granule morphology, and possible unconventional functions of SSIIIa and SSIVb. We also present a model of how spherical granules are produced in ss3a ss4b rice endosperm. 相似文献
983.
Young giant water bug nymphs prefer larger prey: changes in foraging behaviour with nymphal growth in Kirkaldyia deyrolli 下载免费PDF全文
Shin‐Ya Ohba Haruki Tatsuta 《Biological journal of the Linnean Society. Linnean Society of London》2016,117(3):601-606
Raptorial characteristics may evolve in predators because of their importance in obtaining food. The giant water bug, Kirkaldyia deyrolli, possesses a claw on the terminal segment of the raptorial foreleg that is crucial for capturing prey. Claw curvature has been previously shown to change during growth in this species, but the adaptive significance of this change has not yet been explored. Predation experiments have demonstrated that young nymphs with highly curved claws caught proportionally larger prey than older nymphs with less‐curved claws. Catching behaviours for a certain prey size differed significantly between young and older nymphs. The observation that nymphal growth affects prey‐catching behaviour in the giant water bug supports the hypothesis that predators can change catching behaviours based on changes in raptorial characteristics in order to maximize prey resources acquired at each developmental stage. 相似文献
984.
Yasuko Hirata Hilde Brems Mayu Suzuki Mitsuhiro Kanamori Masahiro Okada Rimpei Morita Isabel Llano-Rivas Toyoyuki Ose Ludwine Messiaen Eric Legius Akihiko Yoshimura 《The Journal of biological chemistry》2016,291(7):3124-3134
Constitutional heterozygous loss-of-function mutations in the SPRED1 gene cause a phenotype known as Legius syndrome, which consists of symptoms of multiple café-au-lait macules, axillary freckling, learning disabilities, and macrocephaly. Legius syndrome resembles a mild neurofibromatosis type 1 (NF1) phenotype. It has been demonstrated that SPRED1 functions as a negative regulator of the Ras-ERK pathway and interacts with neurofibromin, the NF1 gene product. However, the molecular details of this interaction and the effects of the mutations identified in Legius syndrome and NF1 on this interaction have not yet been investigated. In this study, using a yeast two-hybrid system and an immunoprecipitation assay in HEK293 cells, we found that the SPRED1 EVH1 domain interacts with the N-terminal 16 amino acids and the C-terminal 20 amino acids of the GTPase-activating protein (GAP)-related domain (GRD) of neurofibromin, which form two crossing α-helix coils outside the GAP domain. These regions have been shown to be dispensable for GAP activity and are not present in p120GAP. Several mutations in these N- and C-terminal regions of the GRD in NF1 patients and pathogenic missense mutations in the EVH1 domain of SPRED1 in Legius syndrome reduced the binding affinity between the EVH1 domain and the GRD. EVH1 domain mutations with reduced binding to the GRD also disrupted the ERK suppression activity of SPRED1. These data clearly demonstrate that SPRED1 inhibits the Ras-ERK pathway by recruiting neurofibromin to Ras through the EVH1-GRD interaction, and this study also provides molecular basis for the pathogenic mutations of NF1 and Legius syndrome. 相似文献
985.
Aya Yamada Masaharu Futagi Emiko Fukumoto Kan Saito Keigo Yoshizaki Masaki Ishikawa Makiko Arakaki Ryoko Hino Yu Sugawara Momoko Ishikawa Masahiro Naruse Kanako Miyazaki Takashi Nakamura Satoshi Fukumoto 《The Journal of biological chemistry》2016,291(2):904-912
Cell-cell interaction via the gap junction regulates cell growth and differentiation, leading to formation of organs of appropriate size and quality. To determine the role of connexin43 in salivary gland development, we analyzed its expression in developing submandibular glands (SMGs). Connexin43 (Cx43) was found to be expressed in salivary gland epithelium. In ex vivo organ cultures of SMGs, addition of the gap junctional inhibitors 18α-glycyrrhetinic acid (18α-GA) and oleamide inhibited SMG branching morphogenesis, suggesting that gap junctional communication contributes to salivary gland development. In Cx43−/− salivary glands, submandibular and sublingual gland size was reduced as compared with those from heterozygotes. The expression of Pdgfa, Pdgfb, Fgf7, and Fgf10, which induced branching of SMGs in Cx43−/− samples, were not changed as compared with those from heterozygotes. Furthermore, the blocking peptide for the hemichannel and gap junction channel showed inhibition of terminal bud branching. FGF10 induced branching morphogenesis, while it did not rescue the Cx43−/− phenotype, thus Cx43 may regulate FGF10 signaling during salivary gland development. FGF10 is expressed in salivary gland mesenchyme and regulates epithelial proliferation, and was shown to induce ERK1/2 phosphorylation in salivary epithelial cells, while ERK1/2 phosphorylation in HSY cells was dramatically inhibited by 18α-GA, a Cx43 peptide or siRNA. On the other hand, PDGF-AA and PDGF-BB separately induced ERK1/2 phosphorylation in primary cultured salivary mesenchymal cells regardless of the presence of 18α-GA. Together, our results suggest that Cx43 regulates FGF10-induced ERK1/2 phosphorylation in salivary epithelium but not in mesenchyme during the process of SMG branching morphogenesis. 相似文献
986.
987.
Tomomi Hattori Kohei Nakanishi Takaaki Mori Masahiro Tomita 《Bioscience, biotechnology, and biochemistry》2016,80(3):445-451
Budded virus (BV) particles of baculovirus (Autographa californica nucleopolyhedrovirus, AcNPV) are harvested from the supernatant of liquid culture of Sf9 host cells by ultracentrifugation. Using polyacrylamide gel electrophoresis, Western blot and transmission electron microscopy (TEM) of BV samples fractionated closely by sucrose density gradient centrifugation, we observed that BVs exhibited different qualities depending on whether they had been harvested from the supernatant from a standing (static), shaking (suspension), or standing/shaking (pre-/post-infection) culture of Sf9 cells. The amount of BV protein apparently increased in the order of standing, standing/shaking, and shaking procedure, and the yield of intact particles showed an opposite trend. TEM observation clearly showed that appropriate fractions of the standing and standing/shaking cultures contained more intact BV particles than those from the shaking culture. These results suggest that the qualities of recombinant BV particles may be related to the culture conditions of the host cells. 相似文献
988.
989.
Satoshi?Nakaba Kenichi?Yamane Mie?Fukahori Widyanto?Dwi?Nugroho Masahiro?Yamaguchi Katsushi?Kuroda Yuzou?Sano I.?Wuled Lenggoro Takeshi?Izuta Ryo?FunadaEmail author 《Journal of plant research》2016,129(5):873-881
Elucidation of the mechanism of adsorption of particles suspended in the gas-phase (aerosol) to the outer surfaces of leaves provides useful information for understanding the mechanisms of the effect of aerosol particles on the growth and physiological functions of trees. In the present study, we examined the localization of artificially deposited sub-micron-sized carbon-based particles on the surfaces of needles of Cryptomeria japonica, a typical Japanese coniferous tree species, by field-emission scanning electron microscopy. The clusters (aggregates) of carbon-based particles were deposited on the needle surface regions where epicuticular wax crystals were sparsely distributed. By contrast, no clusters of the particles were found on the needle surface regions with dense distribution of epicuticular wax crystals. Number of clusters of carbon-based particles per unit area showed statistically significant differences between regions with sparse epicuticular wax crystals and those with dense epicuticular wax crystals. These results suggest that epicuticular wax crystals affect distribution of carbon-based particles on needles. Therefore, densely distributed epicuticular wax crystals might prevent the deposition of sub-micron-sized carbon-based particles on the surfaces of needles of Cryptomeria japonica to retain the function of stomata. 相似文献
990.