昆虫弦音器及其声音感受分子机制

弦音器是昆虫类特有的一种机械感受器,亦称弦音感受器或剑梢感受器。它主要具有感知外界声压和体内肌肉运动的听觉功能,研究弦音器的机能结构对揭秘昆虫听觉的神经机制有重要的科学意义。本文从弦音器多样性和进化入手,重点综述了弦音器的微细结构、基因功能定位、声音感受分子机制及其声压增幅分子生物物理学原理,为昆虫听觉仿生学的研究提供了理论依据。     

昆虫听觉相关基因的研究进展

听觉对于昆虫的求偶、同种竞争、躲避天敌以及寄生昆虫寻找寄主等方面具有非常重要的作用。早年人们对昆虫听觉系统的形态学、生理学及行为学等方面进行了广泛研究。而近年来,研究人员对昆虫听觉分子机理开展了大量研究,对昆虫听觉相关基因包括Atonal(Ato)基因、Spalt(Sal)基因等十几种基因进行了结构分析和功能研究。本文综述了国内外昆虫听觉相关基因的研究进展。     

昆虫抗药性分子机制研究的新进展

昆虫抗性机制的研究对于抗性监测、治理及新农药的研制具有重要意义。在过去几十年中,人们对与昆虫杀虫剂抗性有关的昆虫行为、生理代谢活动以及作用靶标等进行了广泛的研究。已经证实,昆虫的抗药性与行为改变、生理功能改变、解毒功能增强以及靶标不敏感性有关。近年来,随着分子生物学以及昆虫基因组学的发展,昆虫抗药性的分子机理有了突破性进展,已发现并克隆了一些靶标基因,与抗药性相关的基因突变也得到广泛验证。本文综述了昆虫的抗药性机理在分子生物学上的研究最新进展,重点阐述了与昆虫抗性相关基因的扩增、表达及基因结构的改变等相关内容。     

昆虫的听觉器官

昆虫的听器是一类对声波具有特异感受作用的器官,对其生存具有非常重要的意义。昆虫的听器主要有听觉毛、江氏器和鼓膜听器3种类型。本文主要介绍了昆虫3种听器的结构和功能特点,并从系统发生和个体发育角度介绍了鼓膜听器的演化过程。     

昆虫天然免疫反应分子机制研究进展

昆虫体内缺乏高等脊椎动物所具有的获得性免疫系统, 只能依赖发达的天然免疫系统抵抗细菌、 真菌、 病毒等外源病原物的侵染。本文概括了昆虫天然免疫反应发生和作用的分子机制相关进展, 重点阐述了重要免疫相关因子在昆虫天然免疫反应中的功能和作用机制。昆虫天然免疫反应分为体液免疫和细胞免疫两种, 二者共同作用完成对病原物的吞噬 (phagocytosis)、 集结 (nodulation)、 包囊 (encapsulation)、 凝结 (coagulation)和黑化（melanization）等。当昆虫受到外界病原物的侵染时, 首先通过体内的模式识别蛋白（pattern recognition proteins/receptor, PRPs）识别并结合病原物表面特有的模式分子（pathogen-associated molecular pattern, PAMPs）, 继而一系列包括丝氨酸蛋白酶和丝氨酸蛋白酶抑制剂在内的级联激活反应被激活和调控, 产生抗菌肽、 黑色素等免疫效应分子, 清除或杀灭外源物。抗菌肽是一类小分子量的阳离子肽, 具有广谱抗菌活性, 针对不同类型的病原物, 抗菌肽的产生机制也不尽相同。昆虫体内存在着两种信号转导途径调节抗菌肽的产生： 一是由真菌和大部分革兰氏阳性菌激活的Toll途径; 二是由革兰氏阴性菌激活的Imd途径（immune deficiency pathway）。这两个途径通过激活不同转录因子调控不同抗菌肽基因的表达参与昆虫体内的天然免疫反应。     

昆虫对气味分子的感受机制

昆虫对外界气味的感受作用是一个庞大而复杂的体系,多种蛋白参与了这一过程。其中包括气味结合蛋白,气味结合蛋白受体,气味降解酶等多种蛋白。昆虫不仅可以通过外界气味分子携带的信息来识别配偶,天敌,还可以通过对外界环境特征的识别来寻找食物来源,产卵等。明确昆虫的化学感受机制不仅可以帮助我们理解昆虫的行为,还有助于深入了解动物的行为机制。文章综述昆虫对气味分子的识别、气味分子在昆虫体内的运输以及电化学信号传导机制等方面的进展。     

昆虫抗菌肽结构与功能关系及其在分子设计中的应用

昆虫抗菌肽在自然分布广泛,结构多样,其作用机制尚未确切阐明,但其结构上的某些共同特征与其功能密切相关,同时,对其结构与功能间关系的研究有利于设计合成新的抗菌肽,为以后发现活性更强,毒性更低且作用广谱的抗菌素奠定基础。     

昆虫信息素结合蛋白及其分子运输机制和生理功能研究进展

昆虫信息素结合蛋白是气味结合蛋白多基因家族的一个分支,在昆虫识别性信息素过程中起重要作用。该文从信息素结合蛋白的分子特征、与信息素分子的结合及释放机制、生理功能和进化基因组学等方面进行了综述,针对鳞翅目昆虫进行了重点阐述。     

环境因素诱导昆虫滞育发生的分子机制研究进展

滞育是生物体为了渡过恶劣环境而进行的一种停滞生长发育的生理状态,主要受遗传和环境因素的影响。研究发现光周期、温度、食物营养和体内激素水平等都能诱导昆虫滞育发生,然而滞育诱导是一个复杂的调控过程,对其分子机制的研究仍不清楚。本文对近年来在滞育诱导相关分子和分子信号通路方面取得的研究进展进行梳理,重点介绍了光周期和温度诱导昆虫滞育发生的分子级联系统,包括生物钟Per/Tim和Clk反馈回路、温度敏感型瞬时受体电位通道、γ-氨基丁酸GABA信号通路、珊瑚青素Corazonin信号通路和胰岛素信号途径等,该综述内容将为昆虫滞育研究提供帮助,同时为利用昆虫滞育进行农林害虫的防治及天敌保护提供理论参考。     

植物与植食性昆虫相互作用的分子机制

在长期的协同进化中,植物建立起应对昆虫取食为害的精密而又复杂的防御机制,植物转录组调控中防御应答基因的表达及防御物质的合成因不同的昆虫取食方式而异。一般来说,咀嚼式口器昆虫取食时造成大面积组织伤害,可诱导植物产生伤害反应;而刺吸式口器昆虫因其特殊的口针取食,诱导植物激活病原体相关的防御途径。不同的防御途径激活不同的识别机制和信号途径。本文从信号识别和转导上综述了不同食性的昆虫取食植物时所引发的防御反应,分析了昆虫-植物相互作用关系的分子机制。     

Regeneration and molting effects on a proprioceptor organ in the dungeness crab,Cancer magister

Decapoda Crustacea molt in order to grow; some species, such as the Dungeness crab Cancer magister, achieve a very large size. Does sendory neuron hyperplasia in internal proprioceptors accompany this growth? To determine this, neurons in propodite-dactylopodite (PD) chordotonal organs were counted in first walking legs of juvenile (5th through 9th instar) and adult (10th through 13th instar) C. magister. We found that the PD organs of J5 crabs have about 56 neurons; the number increases to about 61 neurons in J6 crabs. Significant hyperplasia now occurs because an average of 79 neurons are found in the PD organs of J7 crabs. Little to no hyperplasia accompanies the several succeeding juvenile and adult molts (ca. 82–86 neurons are present). Because autotomized limbs are regenerated upon molting, we also examined how the number of PD organ neurons in regenerated legs compare with those of pristine legs. Newly regenerated legs (termed 1st stage regenerates) have fewer sensory neurons than do their contralateral pristine partners (65 vs 81); larger regenerated legs which have attained nearly normal size as a result of additional molts (2nd stage regenerates) still have fewer neurons than their pristine partners (69 vs 81). Additionally, in contrast to those of pristine walking legs, the elastic strand of PD organs from 1st stage regenerates is a misshapen sheet containing a cluster of small neurons with no obvious functional organization. Nonetheless, neurophysiological recordings indicate that all the receptor types typical for pristine legs (movement and position cells) are represented. The PD organs of 2nd stage regenerates differentiate to the shape and neuronal organization of pristine legs. © 1994 John Wiley & Sons, Inc.     

非社会性植食昆虫的同种相残行为及其机理

同种相残是指动物杀死并取食同种其他个体的行为,一般被认为是种群密度自我调节的一种方式,常常是影响种群动态和群落结构的重要因素,具有重要的生态学和进化生物学意义。本文从以下几个方面综述了非社会性植食昆虫的同种相残行为及其机理的研究进展：影响同种相残行为发生的因素,同种相残的获利与代价,同种相残与亲子识别及护幼行为的关系,同种相残的进化驱动力等。对植食性昆虫同种相残行为的研究不但具有重要的理论意义,同时,如果我们对同种相残行为发生的生态学、生理学和遗传学机理进行深入研究,或许有助于我们利用相关机理实现植食性昆虫田间种群数量的自我调控,这将对害虫的综合治理产生重要的影响。     

Influence of femoral chordotonal organ afferences on ecdysis and on the development of motor programmes in locust larvae

ABSTRACT. The receptor apodemes of the femoral chordotonal organs of hind legs of locust larvae were crossed. This reverses the sign of the chordotonal organ afferences. Animals were operated during the second, third and fourth instars and some could be reared to adults with the receptor apodeme remaining crossed. During walking, the animals did not habituate to the incorrect afference, but those operated at the beginning of the third instar altered their walking programme to some extent. The results from animals operated during the second instar and the first 2 days of the third instar were ambiguous. The jumping generator is not affected by the incorrect afference.     

A sensory map based on velocity threshold of sensory neurones from a chordotonal organ in the tailfan of the crayfish

The central projections of sensory neurones innervating a strand chordotonal organ (CO) in the tailfan of the crayfish, Procambarus clarkii (Girard) have been investigated. The CO monitors movement of the exopodite of the tailfan relative to the endopodite. Intracellular recording and staining were used to characterise the response of the sensory neurones to applied stretches of the chordotonal organ and to reveal their morphology. Two gross morphological types of afferents were found: those that terminated in the terminal (6th) abdominal ganglion on the side ipsilateral to the sensory receptor, and those that had branches in the terminal ganglion and an intersegmental axon that ascended rostrally. Afferents responded to position, velocity and direction of imposed CO displacement. Afferents with particular physiological properties had similar morphologies in different crayfish. Irrespective of their directional responses, afferents had central projection areas dependent upon their velocity thresholds. Many afferents responded only during movement of the CO, and those with the lowest velocity thresholds (2°/s) had branches that projected most anteriorly, while those with progressively higher velocity thresholds (up to 200°/s) projected progressively more posteriorly. Afferents that responded to low velocity ramp movements and spiked tonically projected to more posterior areas of the ganglion than those that responded only to movements.Abbreviations A6SCI sixth abdominal sensory commissure I - CO chordotonal organ - DMT dorsal medial tract - G6 sixth abdominal ganglion - LDT lateral dorsal tract - MDT medial dorsal tract - MVT medial ventral tract - R1–4 nerve roots 1–4 - VLT ventral lateral tract - VMT ventral medial tract     

Behaviorally significant immobile state of so-called thanatosis in the cricket Gryllus bimaculatus DeGeer: its characterization, sensory mechanism and function

We have found that the cricket Gryllus bimaculatus shows an immobile posture, so-called thanatosis. Thanatosis was reflexly elicited by gently holding the forelegs and pronotum of the cricket. During thanatosis, the respiration rate decreased markedly while the heart rate doubled compared with the resting state. Animals in the state of extreme rigidity were unresponsive to the external disturbances but easily aroused by mechanical stimulation such as prodding. The immobile posture usually persisted for 2–4 min, but occasionally for more than 20 min, and then suddenly ended. Catalepsy was induced during thanatosis when a leg was passively forced to the extended position. For elicitation of the flexion reflex, either campaniform sensilla and femoral chordotonal organs (FCOs) in the forelegs, and spine-like sensilla on the pronotum were necessary. Among these receptors, however, only the FCOs were involved in inducing the immobile state. Centrally, the brain was indispensable for thanatosis to be maintained. In semi-natural conditions the thanatotic state did occur spontaneously while the cricket struggled to get into a small crevice according to the nature of this species. This sudden immobilization could help the cricket get out of danger of predators like reptiles and amphibians in the natural habitat.Abbreviations FCO femoral chordotonal organ - F-T femorotibial - N nerve     

Range fractionation in the locust metathoracic femoral chordotonal organ

Summary Insect femoral chordotonal organs are internal proprioceptors which monitor the position and movements of the femur-tibia joint of the leg. The locust (Locusta migratoria) metathoracic femoral chordotonal organ is composed of approximately 100 neurones with a variety of response properties. In this study intracellular recordings were used to examine the range fractionation of phasic and tonic responses to tibial movements. Some neurones responded across the full range of leg angles, while others had restricted response ranges, and could therefore act as labeled lines. Neurones with maximal firing at mid-angles are described for the first time in a locust femoral chordotonal organ. Responses are discussed in terms of underlying structural constraints on signal transduction.Abbreviation (mt) FCO (metathoracic) femoral chordotonal organ     

六类常见泌蜡昆虫的蜡腺和蜡泌物研究进展

泌蜡昆虫体表除了具有和其他昆虫一样的薄蜡层之外,还具有特殊的蜡腺,在生长发育过程中能够分泌蜡质覆盖于体表,从而有利于昆虫防止体内水分过度蒸发、抵御外界多种不利条件、阻碍病原物入侵和躲避天敌寄生或捕食,对昆虫的生存和繁衍具有重要的保护作用。本文概述了蚧虫、蚜虫、蜡蝉、木虱、粉虱和粉蛉等6类常见泌蜡昆虫的蜡腺和蜡泌物的超微形态结构、蜡泌物的主要化学组成及泌蜡的分子机制等方面的研究进展,以期为今后其在昆虫分类学和系统发育学的研究以及在害虫防治中的应用提供参考。     

Variability of femoral chordotonal organ reflexes in the locust, Locusts miaratoria

Abstract. The femoral chordotonal organ of a locust front, middle or hind leg was stimulated mechanically under open-loop conditions and the forces produced by the muscles moving the tibia were measured. In nearly all cases resistance reflexes were elicited in the inactive animal. However, in rare, but reproducible cases, a positive feedback occurred. In an animal performing active movements the responses were very labile: often no response occurred, sometimes a reaction comparable to the active reaction in stick insects was found, and sometimes resistance reflexes were present.