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171.
Akane Meguro Keiko Fujita Hitoshi Kunoh Timothy L. W. Carver Ralph L. Nicholson 《Mycoscience》2001,42(2):201-209
The release of extracellular matrix (ECM) and the emergence of germ tubes from conidia ofBlumeria graminis were studied by light microscopy and micromanipulation. More prompt and frequent ECM release was confirmed on an artificial
hydrophobic substratum than on an artificial hydrophilic substratum. Conidia initially incubated on the hydrophilic substratum
were transferred by micromanipulation to either the hydrophobic or the hydrophilic substrata. Immediately after transfer onto
the hydrophobic substratum, 75% of conidia released ECM, whereas only 16% did so upon transfer to the hydrophilic substratum.
Conidia transferred onto the hydrophobic substratum produced a primary germ tube (PGT) more promptly and frequently than those
transferred to the hydrophilic substratum. Thus, conidia recognize and respond to substratum hydrophobicity perhaps immediately
after contact. When inoculated onto either isolated barley cuticle or the hydrophobic artificial substratum, 2/3 of the conidia
produced a PGT from their polar regions. By contrast, on the hydrophilic substratum 2/3 of conidia did so from the side region.
These results show that substratum hydrophobicity affects the location of PGT emergence from conidia. Furthermore, the study
indicates that very rapid recognition of surface hydrophobicity by conidia promotes ECM release and this in turn may influence
the location of PGT emergence. 相似文献
172.
173.
Dresbach T Torres V Wittenmayer N Altrock WD Zamorano P Zuschratter W Nawrotzki R Ziv NE Garner CC Gundelfinger ED 《The Journal of biological chemistry》2006,281(9):6038-6047
Neurotransmitter release from presynaptic nerve terminals is restricted to specialized areas of the plasma membrane, so-called active zones. Active zones are characterized by a network of cytoplasmic scaffolding proteins involved in active zone generation and synaptic transmission. To analyze the modes of biogenesis of this cytomatrix, we asked how Bassoon and Piccolo, two prototypic active zone cytomatrix molecules, are delivered to nascent synapses. Although these proteins may be transported via vesicles, little is known about the importance of a vesicular pathway and about molecular determinants of cytomatrix molecule trafficking. We found that Bassoon and Piccolo co-localize with markers of the trans-Golgi network in cultured neurons. Impairing vesicle exit from the Golgi complex, either using brefeldin A, recombinant proteins, or a low temperature block, prevented transport of Bassoon out of the soma. Deleting a newly identified Golgi-binding region of Bassoon impaired subcellular targeting of recombinant Bassoon. Overexpressing this region to specifically block Golgi binding of the endogenous protein reduced the concentration of Bassoon at synapses. These results suggest that, during the period of bulk synaptogenesis, a primordial cytomatrix assembles in a trans-Golgi compartment. They further indicate that transport via Golgi-derived vesicles is essential for delivery of cytomatrix proteins to the synapse. Paradigmatically this establishes Golgi transit as an obligatory step for subcellular trafficking of distinct cytoplasmic scaffolding proteins. 相似文献
174.
Lisa C. Lindesmith Eric Donaldson Juan Leon Christine L. Moe Jeffrey A. Frelinger Robert E. Johnston David J. Weber Ralph S. Baric 《Journal of virology》2010,84(4):1800-1815
Norovirus immunity is poorly understood as the limited data available on protection after infection are often contradictory. In contrast to the more prominent GII noroviruses, GI norovirus infections are less frequent in outbreaks. The GI noroviruses display very complex patterns of heterotypic immune responses following infection, and many individuals are highly susceptible to reinfection. To study the immune responses and mechanisms of GI.1 persistence, we built structural models and recombinant virus-like particles (VLPs) of five GI strains: GI.1-1968, GI.1-2001, GI.2-1999, GI.3-1999, and GI.4-2000. Structural models of four GI genotype capsid P domain dimers suggested that intragenotype structural variation is limited, that the GI binding pocket is mostly preserved between genotypes, and that a conserved, surface-exposed epitope may allow for highly cross-reactive immune responses. GI VLPs bound to histo-blood group antigens (HBGAs) including fucose, Lewis, and A antigens. Volunteers infected with GI.1-1968 (n = 10) had significant increases between prechallenge and convalescent reactive IgG for all five GI VLPs measured by enzyme immunoassay. Potential cross-neutralization of GI VLPs was demonstrated by convalescent-phase serum cross-blockade of GI VLP-HBGA interaction. Although group responses were significant for all GI VLPs, each individual volunteer demonstrated a unique VLP blockade pattern. Further, peripheral blood mononuclear cells (PBMCs) were stimulated with each of the VLPs, and secretion of gamma interferon (IFN-γ) was measured. As seen with blockade responses, IFN-γ secretion responses differed by individual. Sixty percent responded to at least one GI VLP, with only two volunteers responding to GI.1 VLP. Importantly, four of five individuals with sufficient PBMCs for cross-reactivity studies responded more robustly to other GI VLPs. These data suggest that preexposure history and deceptive imprinting may complicate PBMC and B-cell immune responses in some GI.1-1968-challenged individuals and highlight a potential complication in the design of efficacious norovirus vaccines.Noroviruses are the second-most important cause of severe viral gastroenteritis in young children and cause approximately 20% of endemic familial diarrheal disease and traveler''s diarrhea in all ages (reviewed in references 45 and 70). Noroviruses are genetically grouped into five different genogroups (GI to GV). GI and GII genogroups are responsible for the majority of human infections and are subdivided into more than 25 different genotypes (for example, GI.1 is genogroup I genotype 1). Most norovirus outbreaks are caused by the GII.4 genotype (65). Although genogroup I strains are associated with fewer reported outbreaks, they are frequently identified in environmental samples and in children (7, 21, 33, 58, 74, 82). The severity of norovirus disease is usually moderate although infection can be especially virulent, even fatal, in the elderly (14, 24, 31, 38, 46, 67). An effective vaccine would be particularly advantageous to vulnerable older populations, food handlers, child and health care providers, and military personnel. One major obstacle to norovirus vaccine development is the lack of understanding of the extensive antigenic relationships between heterogenic norovirus family members and of how this antigenic heterogeneity affects host protective immunity. Norovirus heterogeneity can be examined through sequence, structural, ligand binding, and host immune studies.Structurally, noroviruses are ∼38-nm icosahedral viruses with an ∼7.5 kb single-stranded, positive-sense RNA genome that encodes three large open reading frames (ORFs). ORF1 encodes the replicase polyprotein, while ORFs 2 and 3 encode the major and minor capsid proteins, respectively. The ORF2 major capsid protein sequence can vary by up to 60% between genogroups and by ∼20 to 30% between the genotypes (91). Expression of the major capsid protein (ORF2) in baculovirus and Venezuelan equine encephalitis (VEE) results in formation of virus-like particles (VLPs) composed of 180 copies of the monomeric protein (72). The monomer is structurally divided into the shell domain (S) that forms the structural core of the particle and the protruding domain (P) that protrudes away from the core. The P domain is further subdivided into the P1 subdomain (residues 226 to 278 and 406 to 520) and the P2 subdomain (residues 279 to 405) (72). P2 represents the most exposed surface of the viral particle and determines interaction with both potential neutralizing antibody recognition sites and putative cellular receptors, the histo-blood group antigens (HBGAs) (13, 16, 54, 57).The P domain has been shown to independently form dimers and P particles comprised of 12 monomers (85). Dimers and P particles share structural and HBGA binding similarities with the VLP generated with the same monomers (9, 85, 87). Three norovirus-HBGA binding profiles have been identified: (i) those that bind A/B and/or H epitopes, (ii) those that bind Lewis and/or H epitopes, and (iii) those that do not bind any available HBGA (86). Elegant structural analyses of Norwalk virus VLPs in complex with synthetic HBGAs identified a highly conserved binding site within the G1 noroviruses and predicted that structural constraints within the GI strains would restrict HBGA binding patterns to either a terminal Gal-Fuc or GalNAc (18, 88).Norwalk virus (NV; GI.1-1968) is the prototypic GI strain and typically infects individuals who encode a functional FUT2 α-1,2-fucosyltransferase enzyme resulting in expression of HBGAs on mucosal surfaces (secretor-positive phenotype) (53). Individuals who do not encode a functional FUT2 enzyme have a secretor-negative phenotype, do not express ABH HBGAs on mucosal surfaces, and are resistant to NV infection. Outbreak investigations have confirmed the association between HBGA expression and norovirus infection for some GI and GII strains (37, 39, 43, 49, 89). It remains likely that enzymes other than FUT2 may function as norovirus susceptibility factors because secretor-negative individuals have low-level norovirus-reactive antibodies (49, 52, 53) and can become infected after challenge with a GII.2 strain (52); in addition, some norovirus strains bind to FUT2-independent HBGAs in vitro (35, 54, 79).Early challenge studies (reviewed in reference 50) suggested that short-term protective immunity may occur following NV challenge (96). Demonstration of long-term protective immunity has been more complex. One early rechallenge study found that 50% of NV-challenged volunteers experienced repeat infections after ∼3 years while the other 50% remained well initially and after repeated challenge (69). Whether these volunteers remained disease free because of acquired immunity or genetic resistance could not be ascertained (69). However, contemporary norovirus challenge studies suggest that an early mucosal IgA response is associated with protection from NV infection (53). Further, strong gamma interferon (IFN-γ) secretion from CD4+ T cells (52) was identified in some uninfected GII.2-1976-challenged volunteers.In the absence of additional rechallenge studies, the most compelling evidence for a long-term protective immune response comes from the growing number of reports from around the world indicating that periods of “high norovirus activity” correlated with the emergence of new GII.4 strains (1, 10, 42, 66, 75, 90). Subsequently, the years following the high activity were characterized by decreased numbers of outbreaks, indicating that herd immunity may be an important regulator of GII.4 noroviruses (54, 80, 81). Clearly, the molecular basis for differential protective immunity/susceptibility following repeat norovirus infection is complex and a major challenge for the field.In this report, we compare the VLP phenotypes of the prototypical norovirus strain NV to an extant GI.1 strain isolated 33 years after NV and to a panel of VLPs representing strains GI.2, GI.3, and GI.4. In the results, we evaluate sequence conservation, carbohydrate (CHO) binding patterns, and antigenic relatedness at the antibody and T-cell levels. In contrast to earlier predictions (19), these data suggest that the GI noroviruses can bind many different HBGAs and that individuals infected with norovirus usually mount robust B- and T-cell responses against homologous strains. Surprisingly, some individuals appear to preferentially mount immune responses against heterologous GI strains. 相似文献
175.
Nadine Tiller Ralph Bock 《植物生理与分子生物学学报》2014,(7):1105-1120
Chloroplasts (plastids) possess a genome and their own machinery to express it. Translation in plastids occurs on bacterial-type 70S ribosomes utilizing a set of tRNAs that is entirely encoded in the plastid genome. In recent years, the components of the chloroplast translational apparatus have been intensely studied by proteomic approaches and by reverse genetics in the model systems tobacco (plastid-encoded components) and Arabidopsis (nucleus-encoded components). This work has provided important new insights into the structure, function, and biogenesis of chloroplast ribosomes, and also has shed fresh light on the molecular mechanisms of the translation process in plastids. In addition, mutants affected in plastid translation have yielded strong genetic evidence for chloroplast genes and gene products influencing plant develop- ment at various levels, presumably via retrograde signaling pathway(s). In this review, we describe recent progress with the functional analysis of components of the chloroplast translational machinery and discuss the currently available evidence that supports a significant impact of plastid translational activity on plant anatomy and morphology. 相似文献
176.
Genome-Wide Association Studies in an Isolated Founder Population from the Pacific Island of Kosrae 总被引:1,自引:0,他引:1
Jennifer K. Lowe Julian B. Maller Itsik Pe'er Benjamin M. Neale Jacqueline Salit Eimear E. Kenny Jessica L. Shea Ralph Burkhardt J. Gustav Smith Weizhen Ji Martha Noel Jia Nee Foo Maude L. Blundell Vita Skilling Laura Garcia Marcia L. Sullivan Heather E. Lee Anna Labek Hope Ferdowsian Steven B. Auerbach Richard P. Lifton Christopher Newton-Cheh Jan L. Breslow Markus Stoffel Mark J. Daly David M. Altshuler Jeffrey M. Friedman 《PLoS genetics》2009,5(2)
It has been argued that the limited genetic diversity and reduced allelic heterogeneity observed in isolated founder populations facilitates discovery of loci contributing to both Mendelian and complex disease. A strong founder effect, severe isolation, and substantial inbreeding have dramatically reduced genetic diversity in natives from the island of Kosrae, Federated States of Micronesia, who exhibit a high prevalence of obesity and other metabolic disorders. We hypothesized that genetic drift and possibly natural selection on Kosrae might have increased the frequency of previously rare genetic variants with relatively large effects, making these alleles readily detectable in genome-wide association analysis. However, mapping in large, inbred cohorts introduces analytic challenges, as extensive relatedness between subjects violates the assumptions of independence upon which traditional association test statistics are based. We performed genome-wide association analysis for 15 quantitative traits in 2,906 members of the Kosrae population, using novel approaches to manage the extreme relatedness in the sample. As positive controls, we observe association to known loci for plasma cholesterol, triglycerides, and C-reactive protein and to a compelling candidate loci for thyroid stimulating hormone and fasting plasma glucose. We show that our study is well powered to detect common alleles explaining ≥5% phenotypic variance. However, no such large effects were observed with genome-wide significance, arguing that even in such a severely inbred population, common alleles typically have modest effects. Finally, we show that a majority of common variants discovered in Caucasians have indistinguishable effect sizes on Kosrae, despite the major differences in population genetics and environment. 相似文献
177.
Daniela Bellicoso Maureen Trudeau Margaret I. Fitch Martin R. Ralph 《Chronobiology international》2017,34(6):808-818
Primary caregivers for victims of chronic illness and or trauma experience both positive and negative emotional consequences. These are broadly classified as compassion satisfaction (CS) and compassion fatigue (CF). Because one of the components of CF, burnout, varies with chronotype and sleep quality, we assessed the influence of chronobiological features on the broader constructs of CS and CF. Responses from primary ambulatory care oncology staff working dayshifts were assessed for potential relationships of chronotype and sleep quality with CS and CF using the professional quality of life scale. These were analyzed further in a multivariate model that included personality and job satisfaction as cofactors. We found that sleep quality was a key contributor to CS development and CF reduction. Morningness was positively linked to CS, but the univariate association was masked in the multivariate model. Job satisfaction (contingent rewards, nature of work and operating procedures) heavily influenced CS and CF development. Agreeableness and openness showed positive correlations with CS and negative with burnout, while emotional stability was linked to reduced CF. While job satisfaction and personality predictably played roles in the development of CS and CF, sleep quality and chronotype contributed significantly to benefits and negative consequences of providing care. 相似文献
178.
Members of the kingdom fungi comprise numerous plant pathogens, including the causal agents of many agriculturally relevant plant diseases such as rust, powdery mildew, rice blast and cereal head blight. Data from recent sequencing projects provide deep insight into the genomes of a range of fungi that infect different organs of monocotyledonous or dicotyledonous hosts and that have diverse pathogenic lifestyles. These studies have revealed that, similar to sequenced phytopathogenic oomycetes, these plant parasites possess very plastic and dynamic genomes, which typically encode several hundred candidate secreted effector proteins that can be highly divergent even among related species. A new insight is the presence of lineage-specific genes on mobile and partly dispensable chromosomes that are transferred intraspecifically and possibly interspecifically, thereby constituting pathogenicity and host range determinants. Convergent lifestyle-specific adaptations have shaped the parasite genomes to maximize pathogenic success according to the different infection strategies employed. 相似文献
179.
Excess mortality in persons with severe mental disorders: a multilevel intervention framework and priorities for clinical practice,policy and research agendas 下载免费PDF全文
Nancy H. Liu Gail L. Daumit Tarun Dua Ralph Aquila Fiona Charlson Pim Cuijpers Benjamin Druss Kenn Dudek Melvyn Freeman Chiyo Fujii Wolfgang Gaebel Ulrich Hegerl Itzhak Levav Thomas Munk Laursen Hong Ma Mario Maj Maria Elena Medina‐Mora Merete Nordentoft Dorairaj Prabhakaran Karen Pratt Martin Prince Thara Rangaswamy David Shiers Ezra Susser Graham Thornicroft Kristian Wahlbeck Abe Fekadu Wassie Harvey Whiteford Shekhar Saxena 《World psychiatry》2017,16(1):30-40
Excess mortality in persons with severe mental disorders (SMD) is a major public health challenge that warrants action. The number and scope of truly tested interventions in this area remain limited, and strategies for implementation and scaling up of programmes with a strong evidence base are scarce. Furthermore, the majority of available interventions focus on a single or an otherwise limited number of risk factors. Here we present a multilevel model highlighting risk factors for excess mortality in persons with SMD at the individual, health system and socio‐environmental levels. Informed by that model, we describe a comprehensive framework that may be useful for designing, implementing and evaluating interventions and programmes to reduce excess mortality in persons with SMD. This framework includes individual‐focused, health system‐focused, and community level and policy‐focused interventions. Incorporating lessons learned from the multilevel model of risk and the comprehensive intervention framework, we identify priorities for clinical practice, policy and research agendas. 相似文献
180.
Mirabal S Herrera KJ Gayden T Regueiro M Underhill PA Garcia-Bertrand RL Herrera RJ 《Gene》2012,492(2):339-348
The Austronesian expansion has left its fingerprint throughout two thirds of the circumference of the globe reaching the island of Madagascar in East Africa to the west and Easter Island, off the coast of Chile, to the east. To date, several theories exist to explain the current genetic distribution of Austronesian populations, with the “slow boat” model being the most widely accepted, though other conjectures (i.e., the “express train” and “entangled bank” hypotheses) have also been widely discussed. In the current study, 158 Y chromosomes from the Polynesian archipelagos of Samoa and Tonga were typed using high resolution binary markers and compared to populations across Mainland East Asia, Taiwan, Island Southeast Asia, Melanesia and Polynesia in order to establish their patrilineal genetic relationships. Y-STR haplotypes on the C2 (M38), C2a (M208), O1a (M119), O3 (M122) and O3a2 (P201) backgrounds were utilized in an attempt to identify the differing sources of the current Y-chromosomal haplogroups present throughout Polynesia (of Melanesian and/or Asian descent). We find that, while haplogroups C2a, S and K3-P79 suggest a Melanesian component in 23%-42% of the Samoan and Tongan Y chromosomes, the majority of the paternal Polynesian gene pool exhibits ties to East Asia. In particular, the prominence of sub-haplogroup O3a2c* (P164), which has previously been observed at only minimal levels in Mainland East Asians (2.0-4.5%), in both Polynesians (ranging from 19% in Manua to 54% in Tonga) and Ami aborigines from Taiwan (37%) provides, for the first time, evidence for a genetic connection between the Polynesian populations and the Ami. 相似文献