Involvement of the hyperglycemic neurohormone family in the control of reproduction in decapod crustaceans

Summary

In the last few years, (bio)chemical and molecular biological studies have shown that several members of the hyperglycemic hormone family are present in different molecular forms. In vivo and in vitro bioassays revealed that some of these isoforms also play a role in the control of reproduction in decapod crustaceans. This communication gives a review of the cytological aspects of the eyestalk X-organ sinus gland complex, responsible for the synthesis, storage and release of these neuropeptides, and the molecular and functional aspects of those members involved in the control of reproduction. Finally, the role of the hyperglycemic hormone family in the regulation of reproduction in the female lobster is described as an example of the (possible) interactions of the members of the hyperglycemic hormone family with other (neuro)endocrine factors in the reproductive process of crustaceans.     

L'escargot ou les difficultés de l'hermaphrodisme

Summary

The article summarizes the research carried out in Besançon on the stylommatophoran snail Helix aspersa, a pulmonate gastropod mollusc.

The influence that external factors like photoperiod and temperature have on growth and reproduction was studied in this animal. The obtained results made possible a great development of snail breeding.

The potentialities of the hermaphroditism emerge from the observations made on the ovotestis: differentiation and development of the different cell types, presence of fibronectin, richness in neuropeptides, existence of male and female steroids, vitellogenesis processes.

In vivo experiments as well as in vitro cultures demonstrated the involvement of the cerebral complex in the control of reproduction. The dorsal bodies (DB)—(it consists of scattered cells)—stimulate the growth of the oocytes. The DB are under an inhibitory nervous control of the cerebral green cells (CGC); the FMRF-amide might be involved in this process.

A map of the neurons of the cerebral complex has been prepared. It shows the presence and the diversity of neuropeptides. Attention was focused on met-enkephalin and somatostatin. This later peptide seems to be involved in the shell growth. The active molecule, which was isolated from hemolymph and digestive gland is structurally quite similar to vertebrate somatostatin.

The results are compared with those obtained in other molluscs, especially in basommatophora. They reveal that the biological phenomena observed in the snail model are included in the fundamental processes, known in other invertebrates or vertebrates.     

Regulation of Sugar and Ethanol Metabolism in Saccharomyces cerevisiae

Abstract

This review briefly surveys the literature on the nature, regulation, genetics, and molecular biology of the major energy-yielding pathways in yeasts, with emphasis on Sacchuromyces cerevisiae. While sugar metabolism has received the lion's share of attention from workers in this field because of its bearing on the production of ethanol and other metabolites, more attention is now being paid to ethanol metabolism and the regulation of aerobic metabolism by fermentable and non-fermentable substrates. The utility of yeast as a highly manipulable organism and the discovery that yeast metabolic pathways are subject to the same types of control as those of higher cells open up many opportunities in such diverse areas as molecular evolution and cancer research.     

Modulation of Locomotion and Reproduction by FLP Neuropeptides in the Nematode Caenorhabditis elegans

Neuropeptides function in animals to modulate most, if not all, complex behaviors. In invertebrates, neuropeptides can function as the primary neurotransmitter of a neuron, but more generally they co-localize with a small molecule neurotransmitter, as is commonly seen in vertebrates. Because a single neuron can express multiple neuropeptides and because neuropeptides can bind to multiple G protein-coupled receptors, neuropeptide actions increase the complexity by which the neural connectome can be activated or inhibited. Humans are estimated to have 90 plus neuropeptide genes; by contrast, nematodes, a relatively simple organism, have a slightly larger complement of neuropeptide genes. For instance, the nematode Caenorhabditis elegans has over 100 neuropeptide-encoding genes, of which at least 31 genes encode peptides of the FMRFamide family. To understand the function of this large FMRFamide peptide family, we isolated knockouts of different FMRFamide-encoding genes and generated transgenic animals in which the peptides are overexpressed. We assayed these animals on two basic behaviors: locomotion and reproduction. Modulating levels of different neuropeptides have strong as well as subtle effects on these behaviors. These data suggest that neuropeptides play critical roles in C. elegans to fine tune neural circuits controlling locomotion and reproduction.     

Regulatory peptide involvement in the reproductive biology of flatworm parasites

Summary

Parasites are invariably characterized by a prodigious egg output and channel much of their metabolic activity towards reproduction. While certain aspects of reproduction, such as gametogenesis and egg formation, have received attention, surprisingly little is known about the mechanisms regulating reproductive physiology and behaviour. It is likely that these mechanisms will involve neuropeptides because, in the absence of endocrine glands and a circulatory system, it is the secretory (peptidergic) component of the nervous system that will serve as an endocrine system. The last few years have witnessed a growing awareness of the range of peptidergic molecules produced by parasites, a diversity that overshadows the number of transmitters produced by the conventional nervous system. Neuropeptides are distributed throughout the CNS; in addition, peptidergic elements occur in those components of the PNS that innervate the gonads and muscularised ducts of the male and female reproductive systems. Peptidergic cells are also associated with the eggforming chamber, or ootype, and the implications of this for the control of egg formation and as a possible target for chemotherapy are discussed.     

Growing up aspen: ontogeny and trade-offs shape growth,defence and reproduction in a foundation species

Background and AimsIntraspecific variation in foundation species of forest ecosystems can shape community and ecosystem properties, particularly when that variation has a genetic basis. Traits mediating interactions with other species are predicted by simple allocation models to follow ontogenetic patterns that are rarely studied in trees. The aim of this research was to identify the roles of genotype, ontogeny and genotypic trade-offs shaping growth, defence and reproduction in aspen.MethodsWe established a common garden replicating >500 aspen genets in Wisconsin, USA. Trees were measured through the juvenile period into the onset of reproduction, for growth, defence chemistry (phenolic glycosides and condensed tannins), nitrogen, extrafloral nectaries, leaf morphology (specific leaf area), flower production and foliar herbivory and disease. We also assayed the TOZ19 sex marker and heterozygosity at ten microsatellite loci.Key ResultsWe found high levels of genotypic variation for all traits, and high heritabilities for both the traits and their ontogenetic trajectories. Ontogeny strongly shaped intraspecific variation, and trade-offs among growth, defence and reproduction supported some predictions while contradicting others. Both direct resistance (chemical defence) and indirect defence (extrafloral nectaries) declined during the juvenile stage, prior to the onset of reproduction. Reproduction was higher in trees that were larger, male and had higher individual heterozygosity. Growth was diminished by genotypic allocation to both direct and indirect defence as well as to reproduction, but we found no evidence of trade-offs between defence and reproduction.ConclusionsKey traits affecting the ecological communities of aspen have high levels of genotypic variation and heritability, strong patterns of ontogeny and clear trade-offs among growth, defence and reproduction. The architecture of aspen’s community genetics – its ontogeny, trade-offs and especially its great variability – is shaped by both its broad range and the diverse community of associates, and in turn further fosters that diversity.     

鞘氨醇单胞菌的研究进展

鞘氨醇单胞菌(Sphingomonas)不仅细胞膜含有比脂多糖更疏水的鞘糖脂,而且具有高效的代谢调控机制和基因调控能力,使其在威兰胶合成、环境修复和促进植物生长等方面具有巨大的应用潜力。目前国内在鞘氨醇单胞菌代谢机制方面的研究尚无新突破。本文主要综述了鞘氨醇单胞菌的系统分类、基因组学、基因调控机制及其应用等方面的研究,从基因层面分析鞘氨醇单胞菌产威兰胶的合成机制,为后续鞘氨醇单胞菌高密度发酵、工业化生产等研究提供理论基础,以便进一步发掘其在生物技术上的应用潜力。     

对现行医院准入规制实施效果的评价

??????? 目的　通过对现行医院准入规制各项措施的重要性、失效程度等四方面进行综合评价,筛选优先干预措施,为建立有效的医院规制体系提供依据。方法 运用文献研究、现场调查及TOPSIS法对我国医院准入各项措施进行综合比较和评价,筛选优先干预措施。结果 我国医院准入规制改革的优先策略应以强化对公立医院规模、数量、布局管控为重要突破口,辅以对医院人员编制的准入以及对医保定点机构的强化管理手段为支撑。结论 TOPSIS法适宜应用于医院规制优先干预关键点的筛选,我国现行医院准入规制措施亟待改革调整。     

Genome-wide identification of neuropeptides and their receptor genes in Bemisia tabaci and their transcript accumulation change in response to temperature stresses

Insect neuropeptides play an important role in regulating physiological functions such as growth,development,behavior and reproduction.We identified temperaturesensitive neuropeptides and receptor genes of the cotton whitefly,Bemisia tabaci.We identified 38 neuropeptide precursor genes and 35 neuropeptide receptors and constructed a phylogenetic tree using additional data from other insects.As temperature adaptability enables B.tabaci to colonize a diversity of habitats,we performed quantitative polymerase chain reaction with two temperature stresses(low=4℃ and high=40℃)to screen for temperature-sensitive neuropeptides.We found many neuropeptides and receptors that may be involved in the temperature adaptability of B.tabaci.This study is the first to identify B.tabaci neuropeptides and their receptors,and it will help to reveal the roles of neuropeptides in temperature adaptation of B.tabaci.     

金针菇信息素信号通路基因在子实体发育过程中的差异表达

【背景】子实体是食用菌的主要商品部位,也是真菌生殖生长的重要结构,其发育受到多种信号途径的调控。【目的】以金针菇(Flammulina filiformis)为材料,对转录组和基因组数据的信息素信号通路基因进行分析获得差异表达的基因,并对其在菌丝生长和子实体发育过程中的表达情况进行分析,以期为研究食用菌子实体发育提供参考。【方法】基于已有的金针菇基因组数据,注释了金针菇信息素信号通路。进一步通过转录组测序鉴定了该通路中参与金针菇子实体发育的关键基因,并对关键基因进行荧光定量PCR验证。【结果】cdc24和ste12基因在子实体发育不同时期的5个样品(原基、伸长期菌柄、伸长期菌盖、成熟期菌柄和成熟期菌盖)中的表达具有显著差异,使用荧光定量PCR技术进行验证与上述结果一致。【结论】cdc24和ste12这2个关键基因可能参与了金针菇子实体发育过程中的组织分化调控机制。     

Effect of urbanization on daily behavior and seasonal functions in vertebrates

Abstract

Most of the organisms are seasonal and live in a periodic environment and rely on external cues to optimally time their annual life history stages. The most predictable environmental cue which organisms use to time reproduction is the photoperiod, but food, temperature, and humidity may play role as a crucial factors. Urbanization is greatly increasing phenomenon and leads to change in landscape and habitat destruction for wildlife and brings extra hours of light at night (LAN), altering the natural signal of light and darkness, hence the temperature and availability of food. This artificial LAN has been implemented to affect behavior, endocrinology, and reproductive physiology and to advance seasonal reproduction in birds. Here, we review the literature available on the effects of urbanization on diverse processes of organisms with particular emphasis on avian system. We consider further research with long-term data-sets on phenological and physiological parameters from diverse group of organisms and diverse habitat is essential for better understanding of impact of global climate change on the biodiversity.     

Identification of the Drosophila and Tribolium receptors for the recently discovered insect RYamide neuropeptides

One year ago, we discovered a new family of insect RYamide neuropeptides, which has the C-terminal consensus sequence FFXXXRYamide, and which is widely occurring in most insects, including the fruitfly Drosophila melanogaster and the red flour beetle Tribolium castaneum (F. Hauser et al., J. Proteome Res. 9 (2010) 5296–5310). Here, we identify a Drosophila G-protein-coupled receptor (GPCR) coded for by gene CG5811 and its Tribolium GPCR ortholog as insect RYamide receptors. The Drosophila RYamide receptor is equally well activated (EC₅₀, 1 × 10⁻⁹ M) by the two Drosophila RYamide neuropeptides: RYamide-1 (PVFFVASRYamide) and RYamide-2 (NEHFFLGSRYamide), both contained in a preprohormone coded for by gene CG40733. The Tribolium receptor shows a somewhat higher affinity to Tribolium RYamide-2 (ADAFFLGPRYamide; EC₅₀, 5 × 10⁻⁹ M) than to Tribolium RYamide-1 (VQNLATFKTMMRYamide; EC₅₀, 7 × 10⁻⁸ M), which might be due to the fact that the last peptide does not completely follow the RYamide consensus sequence rule. There are other neuropeptides in insects that have similar C-terminal sequences (RWamide or RFamide), such as the FMRFamides, sulfakinins, myosuppressins, neuropeptides F, and the various short neuropeptides F. Amazingly, these neuropeptides show no cross-reactivity to the Tribolium RYamide receptor, while the Drosophila RYamide receptor is only very slightly activated by high concentrations (>10⁻⁶ M) of neuropeptide F and short neuropeptide F-1, showing that the two RYamide receptors are quite specific for activation by insect RYamides, and that the sequence FFXXXRYamide is needed for effective insect RYamide receptor activation. Phylogenetic tree analyses and other amino acid sequence comparisons show that the insect RYamide receptors are not closely related to any other known insect or invertebrate/vertebrate receptors, including mammalian neuropeptide Y and insect neuropeptide F and short neuropeptide F receptors. Gene expression data published in Flybase (www.flybase.org) show that the Drosophila CG5811 gene is significantly expressed in the hindgut of adult flies, suggesting a role of insect RYamides in digestion or water reabsorption.     

Rhythmic control of activity and sleep by class B1 GPCRs

Abstract

Members of the class B1 family of G-protein coupled receptors (GPCRs) whose ligands are neuropeptides have been implicated in regulation of circadian rhythms and sleep in diverse metazoan clades. This review discusses the cellular and molecular mechanisms by which class B1 GPCRs, especially the mammalian VPAC2 receptor and its functional homologue PDFR in Drosophila and C. elegans, regulate arousal and daily rhythms of sleep and wake. There are remarkable parallels in the cellular and molecular roles played by class B1 intercellular signaling pathways in coordinating arousal and circadian timekeeping across multiple cells and tissues in these very different genetic model organisms.     

Mass Spectrometry–Driven Discovery of Neuropeptides Mediating Nictation Behavior of Nematodes

Neuropeptides regulate animal physiology and behavior, making them widely studied targets of functional genetics research. While the field often relies on differential -omics approaches to build hypotheses, no such method exists for neuropeptidomics. It would nonetheless be valuable for studying behaviors suspected to be regulated by neuropeptides, especially when little information is otherwise available. This includes nictation, a phoretic strategy of Caenorhabditis elegans dauers that parallels host-finding strategies of infective juveniles of many pathogenic nematodes. We here developed a targeted peptidomics method for the model organism C. elegans and show that 161 quantified neuropeptides are more abundant in its dauer stage compared with L3 juveniles. Many of these have orthologs in the commercially relevant pathogenic nematode Steinernema carpocapsae, in whose infective juveniles, we identified 126 neuropeptides in total. Through further behavioral genetics experiments, we identify flp-7 and flp-11 as novel regulators of nictation. Our work advances knowledge on the genetics of nictation behavior and adds comparative neuropeptidomics as a tool to functional genetics workflows.     

The importance of competition,food, habitat,weather and phenotype for the reproduction of Buzzard Buteo buteo

Capsule Variation in reproduction between territories was strongly influenced by intra- and interspecific competition, phenotype, levels of rainfall and human disturbance.

Aims To assess the relative importance of competition, food, habitat quality, weather and phenotype as predictors of variation in reproduction in Buzzard.

Methods Annual breeding data were collected from 1989 to 1996 in a 300-km² study area and related to 35 independent variables through multivariate regression models.

Results Significant predictors of variation in reproduction between territories (78% variance explained) were variables describing intra- and interspecific competition, plumage morph, laying date, precipitation levels and anthropogenic disturbances in the breeding territory. Competition and plumage morph seem to be particularly important, as these variables explained a high level of variation (81%) in the 1996 reproduction of this population.

Conclusion The potential importance of competition, plumage morph and precipitation for reproduction in this Buzzard population is emphasized.     

Genomics: shifts in metaphorical landscape between 2000 and 2003

Modern biotechnology has been characterized by being surrounded by scientific and public debate and by interest conflicts. An early Danish debate and regulation has been criticized for inhibiting or retarding development and thus growth. Though much regulation and debate have been transferred to the European arena, their role and extension are still an issue. In this paper, the often anticipated innovation-inhibiting effects of regulation are questioned by giving an account of regulations and debates in Denmark. An account which includes the shifting positions of industry, the research community, environmental groups, regulators and other interest groups. The paper indicates that the regulatory measures, introduced as a response to public and interest group critique, have generally reduced industrial uncertainty and promoted industrial Danish biotechnology development. It is further found that regulation and debate changed the rate and direction of new biotechnology development, contributing to technology acceptance, without however ensuring it. The paper thus questions the caricatured assumptions in economics and industrial policy that regulation restrict techno-economic growth. The paper further states regulation and controversies to have contributed actively to the specific technology development, but also states the difficulties in setting radically different technology development agendas.