昆虫的化学感觉机理

昆虫是通过化学感觉器与其周围环境中的大量化学信息发生联系的。通过特定的化学感觉机制 ,昆虫可感知来自种内和种间 ,以及无机环境中的各种化学信息 ,并由此而作出相应的行为反应 ,从而为其自身寻找适宜的食物、配偶以及生存与繁殖场所 (如躲避天敌、避免或减少竞争等等 ) ,达到最大的繁殖成功。阐明昆虫的化学感觉机理 ,不仅可在理论上进一步加深对昆虫与植物、昆虫与昆虫相互关系的了解 ,而且可在实践上为开发害虫治理的新途径提供理论指导。本文将根据目前的最新研究成果 ,主要就昆虫的化学感觉机理 ,包括嗅觉和味觉机理作一综述 ,以期…     

Pre-copulatory isolation in sympatric Melolontha species (Coleoptera: Scarabaeidae)

1 The two most abundant cockchafer species in Europe, the forest cockchafer Melolontha hippocastani Fabr. and the European cockchafer Melolontha melolontha L., tend to form calamitous mass breedings with casual reports on sympatric and simultaneous occurrence. 2 Both species are known to use feeding‐induced green leaf volatiles (GLV) as primary attractants (sexual kairomones) for mate finding. The attractiveness of GLV is enhanced by the sex pheromones 1,4‐benzoquinone in M. hippocastani and toluquinone in M. melolontha. Phenol attracts males from both species. All three compounds are present in females of both species. 3 In the present study, it is confirmed that only male M. melolontha perform the typical swarming flight at dusk, as has already been shown for M. hippocastani. Furthermore, whether swarming Melolontha males were cross‐attracted to heterospecific females, and whether males could discriminate olfactorily between conspecific and heterospecific females, was tested in the field. 4 Males of both species preferred females when given the choice between females and males of the other species. However, they preferred conspecific females when females from both species were offered simultaneously. 5 The results suggest that species‐specific pheromone blends contribute to precopulatory reproductive isolation in sympatric populations of M. melolontha and M. hippocastani, but are not mutually exclusive or indispensable prerequisites for mate finding as in other insects.     

Multiple inhibitory pathways shape odor-evoked responses in lobster olfactory projection neurons

This study characterizes odor-evoked responses of the glomerular output neurons of the spiny lobster olfactory lobe, and implicates previously identified γ-aminobutyric acid (GABA)- and histamine-mediated inhibitory pathways in shaping these responses. Odor-evoked responses were more complex than electrically evoked responses, with up to three distinct components: a brief, short-latency (fast) depolarization, a longer-duration, longer-latency (slow) depolarization, and a slow hyperpolarization. Seventy-seven percent of all responses contained the hyperpolarization, while only 31% and 23% contained the fast and slow depolarizations, respectively. The broader tuning of the hyperpolarization relative to the other two components suggests that the hyperpolarization mediates lateral inhibitory interactions across olfactory glomeruli. Perfusing the brain with the GABA-receptor antagonist picrotoxin increased the amplitude of the hyperpolarization, while the histamine-receptor antagonist cimetidine decreased the hyperpolarization in some instances but increased it in others. Pharmacological enhancement or suppression of the hyperpolarization could mask or unmask, respectively, the slow depolarization. Both antagonists could also cause the appearance of the fast depolarization when it was not apparent prior to treatment. We conclude that GABA- and histamine-mediated inhibition contributes to the overall pattern of the response of projection neurons to odors by regulating the relative strength of these three distinct types of input. Accepted: 17 September 1997     

Imaging mass spectroscopy delineates the thinned and thickened walls of intracranial aneurysms

Object

The wall thickness of intracranial aneurysms (IAs) is heterogeneous. Although thinning of the IA wall is thought to contribute to IA rupture, the underlying mechanism remains poorly understood. Recently, imaging mass spectroscopy (IMS) has been used to reveal the distribution of phospholipids in vascular diseases. To investigate the feature of phospholipid composition of IA walls, we conducted IMS in a rat model of experimentally induced IA.

中华蜜蜂嗅觉受体AcerOrco的表达及定位分析

【目的】通过对中华蜜蜂Apis cerana cerana嗅觉受体AcerOrco的表达及蛋白定位分析,阐明AcerOrco的表达特性,以期为进一步探索其功能提供理论依据。【方法】分别通过qRT-PCR技术和Western blot技术对中华蜜蜂气味受体AcerOrco mRNA及蛋白在内勤蜂和采集蜂5个组织部位(触角、头、胸、腹和足)中的相对表达量进行分析,采用免疫组化技术对AcerOrco蛋白的表达进行定位分析。【结果】定量结果显示,AcerOrco转录本在内勤蜂和采集蜂各组织中均有表达,其中触角中的表达量最高;该基因在采集蜂各组织中的表达量普遍高于内勤蜂。AcerOrco受体蛋白在内勤蜂和采集蜂各组织中也均有表达,在触角和头部的表达量明显高于其他组织。定位结果显示,在内勤蜂触角中,AcerOrco主要在毛形感器中表达,板形感器中表达不明显;在采集蜂触角的板形感器和毛形感器中均有表达,但毛形感器中的表达更多一些。【结论】获得了AcerOrco mRNA及其蛋白在内勤蜂和采集蜂各组织中的表达特性,并将这一蛋白表达定位于工蜂触角的毛形感器和板形感器中。     

Plants with spider-mite prey attract more predatory mites than clean plants under greenhouse conditions

Although many predators and parasitoids are known to respond to odours produced by plants infested with their prey under laboratory conditions, there are actually few studies that show that this response leads to higher numbers of predators or parasitoids on the plants under natural conditions. Here we study the response of predatory mites (Phytoseiulus persimilis Athias-Henriot, Acari, Phytoseiidae) to odours from cucumber plants infested with two-spotted spider mites (Tetranychus urticae Koch, Acari, Tetranychidae) in greenhouse release experiments, where predators were released in the centre of a hexagon of cucumber plants. Forty to 57% of all predators released were recaptured on plants within 7 h. Of these, an average of 79.5% were found on infested plants, indicating that these attract about 4 times as many predators as do clean plants. Hence, the blind predatory mites were guided to the plants with prey by herbivore-induced odours produced by the plant, as was indicated by olfactometer experiments, where it was found that P. persimilis preferred odours from infested cucumber plants to odours from clean cucumber plants. The long-range searching behaviour of P. persimilis is discussed.     

Protein kinase C and receptor kinase gene expression in olfactory receptor neurons

Recent biochemical evidence indicates that protein kinase C (PKC) and G-protein-coupled receptor kinases (GRKs) are involved in olfactory signal termination and desensitization. The polymerase chain reaction (PCR) was used to investigate the expression of PKC and GRK genes in olfactory tissue and in isolated olfactory receptor neurons from channel catfish (Ictalurus punctatus). Sequence analysis of cloned PKC PCR products showed that the α, β, δ, ϵ, and τ isotypes were expressed in olfactory tissue. Sequence analysis of PCR products obtained from isolated olfactory receptor neurons showed that PKCβ and PKCδ were expressed in the receptor cells. A 600-bp GRK PCR product was obtained from isolated olfactory neurons that shared 86% and 92% amino acid sequence identity to the mammalian β-adrenergic receptor kinase gene products βARK1 and βARK2, respectively. Go6976, a specific inhibitor of calcium-regulated PKC activity, completely inhibited odorant-stimulated PKC activity in isolated olfactory cilia. This result suggested that odorant-stimulated PKC activity is mediated by the calcium-sensitive PKCβ isotype. Taken together, these results are consistent with the conclusion that PKCβ and βARK mediate odorant receptor phosphorylation and olfactory signal termination. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 387–394, 1997     

Mitral/tufted cell activity is attenuated and becomes uncoupled from respiration following naris closure

Patterned neural activity helps to establish neuronal connectivity, produce coding of sensory information, and shape synaptic strengths. Here we demonstrate that normal olfactory bulb development might rely on spatial and temporal patterns of afferent neural activity. Neonatal naris occlusion profoundly impacts the development of the ipsilateral olfactory bulb, including reduced bulb volume, decreased protein synthesis, and increased cell death. Relatively few morphologic changes occur if closure is performed postweaning. We examined the immediate electrophysiological consequences of occlusion across this developmentally sensitive period by recording spontaneous and odor-driven mitral/tufted cell responses while the naris was open, closed, and then reopened. In 1-week-old animals, occlusion severely attenuated spontaneous activity, and presentation of the broad-spectrum odorant amyl acetate failed to evoke responses. In 2- and 4-week old rats, spontaneous activity was also reduced by naris closure. However, some cells remained responsive to concentrated odors, even in animals with transected anterior commissures, suggesting passage of odors across the septal window or retronasal pathways. In all age groups, cellular activity became uncoupled from the respiratory cycle. Approximately 47% (18 of 38) of the mitral/tufted cells exhibited activity that was correlated with respiration in the open-naris state, while only 5% (2 of 38) were coupled during naris closure. These data (a) indicate that naris closure reduces both spontaneous and odor-evoked responses, and (b) provide an electrophysiological correlate to a sensitive period in bulb development. The loss of respiration-related synchrony and the reduced activity of mitral/tufted cells may synergistically contribute to the divers consequences of naris closure on bulb development. © 1997 John Wiley & Sons, Inc. J Neurobiol 33: 374–386, 1997     

Metamorphic remodeling of the primary olfactory projection in Xenopus: Developmental independence of projections from olfactory neuron subclasses

In adult Xenopus, the nasal cavity is divided into separate middle (MC) and principal (PC) cavities; the former is used to smell water-borne odorants, the latter air-borne odorants. Recent work has shown that olfactory neurons of each cavity express a distinct subclass of odorant receptors. Moreover, MC and PC axons project to distinct regions of the olfactory bulb. To examine the developmental basis for this specificity in the olfactory projection, we extirpated the developing MC from early metamorphic (stage 54–57) tadpoles and raised the animals through metamorphosis. In most lesioned animals, the MC partly regenerated. Compared with the unlesioned side, reduction of the region of the glomerular layer of the olfactory bulb receiving MC afferents ranged from 70% to 95%. PC afferents did not occupy regions of the olfactory bulb deprived of MC afferents. These results support a model in which intrinsic cues in the olfactory bulb control the projection pattern attained by ingrowing olfactory axons. © 1997 John Wiley & Sons, Inc. J Neurobiol 32: 213–222, 1997.