昆虫性别决定级联的研究进展

性别决定是发育和进化生物学研究的一个重大问题。已知大多数昆虫的性别决定级联为：初级信号因子→性别决定关键基因→双性基因→性别分化基因。尽管遵循这样的模式,但不同昆虫的性别决定基因和调控机制各不相同,特别是性别决定初级信号因子存在较大分歧。自黑腹果蝇Drosophila melanogaster的初级信号被发现以来,人们陆续确定了蚊子、蜜蜂、丽蝇蛹集金小蜂Nasonia vitripennis、家蚕Bombyx mori等模式昆虫的初级信号。初级信号的种类复杂多样,包括性染色体的剂量、雄性化因子(male-determining factors, M factors)、等位基因的杂合度、母代印记等,这在一定程度上增加了非模式昆虫的研究难度。尽管如此,昆虫性别决定级联的下游调控机制仍相对保守,特别是transformer(tra)+transformer2(tra2)→doublesex(dsx)/fruitless(fru)的调控模式在大多数昆虫中存在共性。tra通过感知初级信号而发生选择性可变剪接,并在tra2的帮助下实现其对自身及下游dsx和fru的剪接调控,从而维持性别发育。dsx...     

Bmrbp1基因在家蚕染色体上的定位(简报)

果蝇是生物性别调控的重要参考模式生物之一,其性别决定是由X染色体与常染色体的比值（X：A）所决定。此性别决定初级信号通过下游基因sex-lethal（sxl）、transformer（tra）、doublesex（dsx）等选择性拼接的级联调控作用,最终使果蝇发育为雌性或雄性。rbp1是参与果蝇雌特异性拼接的一个重要拼接因子,属于丝氨酸精氨酸富集蛋白家族,是常染色体上的单拷贝基因,它通过调节dsx前体mRNA的选择性拼接来调控果蝇的性别。[第一段]     

昆虫性别决定机制研究进展

阐述昆虫的性别决定机制是理解昆虫性别分化调控的理论基础,也为人类有效控制害虫开辟了新方向。昆虫性别决定机制存在复杂性和多样性,但主要是内因即性别决定基因级联互作调控的结果。本文对近年来基于性别决定基因级联互作的昆虫性别决定机制研究进行了综述,主要包括性别决定基因概况和重要性别决定相关基因的分子级联互作关系。目前发现昆虫重要性别决定相关基因主要集中在常染色体上,且部分基因之间存在紧密的级联互作,如Sxl,tra,dsx,csd和fem等。在这些基因中,tra/fem→dsx的调控模式在已报道的昆虫中存在共性,即tra和dsx相对较保守且tra通过性特异剪切来调控下游dsx的转录形式。目前大多数昆虫的性别决定机制还不清楚,但近年来模式昆虫性别决定机制取得了一定进展,对非模式昆虫的研究还处于起步阶段但却越来越受到重视。     

昆虫体细胞遗传性别决定信号通路的研究进展

昆虫遗传性别决定可分为体细胞性别决定、生殖细胞分化和剂量补偿效应3个层次。昆虫体细胞性别决定信号通路基本上都遵循从初始信号到关键基因,再到双性基因的信息流传递基本模式。不同昆虫间,体细胞性别决定初始信号(如X染色体剂量、M强雄基因、母系印迹及与PIWI相作用的RNA等)很复杂,关键基因(如sxl和tra/fem)有所变化,但双性基因(如dsx)很保守,且重要基因的剪接方式(如选择性剪接)非常保守。结合作者昆虫性别决定的研究工作,本文总结了双翅目、膜翅目和鳞翅目代表性昆虫种类的性别决定初始信号、关键基因及双性基因的研究进展及一般规律,为昆虫性别决定分子机制的进一步揭示、昆虫不育技术(SIT)的开发以及昆虫性别的人为操控提供理论基础。     

冈比亚按蚊性别决定基因 doublesex 的克隆、序列分析及表达谱

【目的】doublesex 是控制昆虫性别分化的关键基因,决定了昆虫体细胞与生殖细胞的性别。本研究旨在克隆、鉴定重要疟疾媒介冈比亚按蚊 Anopheles gambiae 性别决定基因 doublesex（Angdsx）,分析其在雌雄个体内的剪切体及在不同发育时期的表达模式。【方法】基于冈比亚按蚊转录组数据库,比对到 Angdsx 相关片段,分别以雌雄成蚊cDNA为模板,采用RT-PCR与RACE方法克隆分别获得雌雄个体内 Angdsx 全长基因,利用生物信息软件对所得序列进行结构域预测、氨基酸序列比对和进化树分析。根据 Angdsx 特异性表达引物,利用RT-PCR方法研究其在冈比亚按蚊雌雄个体及不同发育时期的表达谱。【结果】分别从冈比亚按蚊雌雄成虫中克隆获得 Angdsx cDNA全长序列,分别命名为Angdsx^F（GenBank登录号：KM978937）和 Angdsx ^M（GenBank登录号：KM978938）。Angdsx 位于2号常染色体右臂,基因横跨接近80 kb基因组长度。Angdsx^F 长度为4 874 nt,编码长度为265 个氨基酸的雌性特异性蛋白DSX^F;Angdsx ^M 长度为3 183 nt,编码长度为633个氨基酸的雄性特异性蛋白DSX^M。结构域分析发现 Angdsx 包括 doublesex 保守的TRA/TRA-2结合位点、dsx 重复序列、富含精氨酸/丝氨酸双肽区、多聚嘌呤增强子序列和RNA结合蛋白结合序列,以及连续的双核苷酸GT为主的重复序列。与Angdsx^F 相比, Angdsx ^M具有一个雌性特异性的外显子。Angdsx ^M 在0-2 h卵中高表达,随后逐渐减少,在12-24 h卵中降至最低,之后再次升高;Angdsx^F 则在6-8 h卵中开始表达。【结论】本研究获得了冈比亚按蚊性别决定基因 Angdsx 在雌雄个体内的全长序列,Angdsx 具有保守的结构域与表达特征。本研究结果为蚊虫性别分化的分子机制及将其最终应用于显性致死昆虫施放技术进行蚊媒的防制提供了理论基础。     

脊椎动物性别决定和分化的分子机制研究进展

哺乳类性别决定是多种转录因子和生长因子相继表达和相互调控的结果。SRY的表达启动雄性通路并诱导下游雄性特异基因SOX9、AMH等的表达。FOXL2在雌性未分化性腺表达,WNT-4和DAX1也在雌性性别决定或分化时期表达,表明雌性通路也是受特定基因调控的,而并非“默认通路”。鸟类的性别也是由遗传基因决定的,EFT1(雌性)和DMRT1(雄性)可能是性别决定候选基因。爬行类为温度性别决定的典型,温度可能通过调节雌激素水平和控制性别特异遗传基因表达决定性别。大部分两栖类性别受环境因素影响,但发现DMRT1和DAX1可能与其精巢发育有关。鱼类性别决定和分化方式差异很大,多种因素(遗传基因、环境因素、类固醇激素等)参与了这一过程。从青Q鳉Y染色体定位克隆的DMY,被认为是第一个非哺乳类脊椎动物雄性性别决定基因。所有这些表明脊椎动物性别决定和分化机制是多样化的。     

膜翅目昆虫的性别决定机制

昆虫性别决定机制存在多样性和复杂性,其中膜翅目昆虫的性别决定由单双倍体决定,单倍体为雄性,二倍体为雌性。本文就膜翅目昆虫的性别决定模式和分子机制进行综述。膜翅目昆虫性别决定有6种模式,即互补性性别决定(complementary sex determination, CSD)、多位点互补性性别决定(multiple-locus CSD, ml-CSD)、基因组印记、母体效应、内共生体诱导产雌单性生殖、父本遗传基因组消除(paternal genome elimination, PGE)。其中,CSD机制是目前在膜翅目昆虫中普遍接受的性别决定模式。而蜜蜂的CSD性别决定机制是膜翅目昆虫性别决定模式中的典型代表,受csd→fem→dsx这一调控级联的控制。     

按蚊防御素基因家族转录模式和启动子的生物信息学分析

运用生物信息学方法分析冈比亚按（Anopheles gambiae）中防御素基因家族的表达模式和启动子保守区。在ENSEMBL数据库中搜索防御素基因家族序列,然后将基因编号输入angaGEDUCI数据库中进行分析。结果在冈比亚按蚊中存在有4个防御素基因的异构体分子,其中DEF1基因表达模式与其它3个基因存在明显差异。4个防御素基因启动子序列都存在AP-1、GATA-1、GCN4、GR、HNF-3B、TFIID6个转录因子的识别结合位点,表明这6个转录因子是冈比亚按蚊防御素基因家族表达调控所必需的。值得注意的是,DEF1基因启动子序列中存在与性别决定翦关的SOXproteins转录因子的结合位点,暗示DEF1基因的转录调控可能与性别分化有关;而在DEF2基因启动子序列中存在有热激因子（HSTF）的识别结合位点,表明热刺激会调控DEF2基因的表达。     

双翅目害虫性别分离技术的研究进展及展望

在过去的几十年中,昆虫不育技术(sterile insect technique, SIT)已被用于防治农业害虫和人类健康相关的病媒害虫。相较于传统的农药控制策略,昆虫不育技术具有物种特异性和环境友好型等特点。通过释放不育雄虫的昆虫不育技术的主要障碍是在大规模饲养阶段将雄性与雌性分离,从而提高这些防治方法的成本效率,并防止释放携带和传播疾病的雌性群体。目前大多数针对双翅目害虫的遗传防治策略没有进行性别分离,少数害虫性别分离方法是基于蛹的大小或者雌雄蛹羽化时间差异进行人工识别和机械识别分离。双翅目昆虫性别决定及分化分子机制多种多样,其性别决定主要信号差异巨大,其多种性别决定基因已用于性别分离系统的开发。性比失衡性别分离策略通过破坏性别决定途径关键基因的表达获得雄性偏向后代,雌性条件性致死分离策略利用性别决定关键基因的雌雄选择性剪接差异实现性别分离,这两种性别分离策略目前正在害虫不育防治中接受大规模饲养应用评估,而基于双翅目昆虫雌雄性二态和基因标记发展的可视化性别分离策略也已成功实现多种害虫的性别分离。我们对性比失衡分离策略、雌性条件性致死分离策略和可视化性别分离策略在双翅目害虫中的研究进...     

双翅目害虫性别分离技术的研究进展及展望

在过去的几十年中,昆虫不育技术(sterile insect technique, SIT)已被用于防治农业害虫和人类健康相关的病媒害虫。相较于传统的农药控制策略,昆虫不育技术具有物种特异性和环境友好型等特点。通过释放不育雄虫的昆虫不育技术的主要障碍是在大规模饲养阶段将雄性与雌性分离,从而提高这些防治方法的成本效率,并防止释放携带和传播疾病的雌性群体。目前大多数针对双翅目害虫的遗传防治策略没有进行性别分离,少数害虫性别分离方法是基于蛹的大小或者雌雄蛹羽化时间差异进行人工识别和机械识别分离。双翅目昆虫性别决定及分化分子机制多种多样,其性别决定主要信号差异巨大,其多种性别决定基因已用于性别分离系统的开发。性比失衡性别分离策略通过破坏性别决定途径关键基因的表达获得雄性偏向后代,雌性条件性致死分离策略利用性别决定关键基因的雌雄选择性剪接差异实现性别分离,这两种性别分离策略目前正在害虫不育防治中接受大规模饲养应用评估,而基于双翅目昆虫雌雄性二态和基因标记发展的可视化性别分离策略也已成功实现多种害虫的性别分离。我们对性比失衡分离策略、雌性条件性致死分离策略和可视化性别分离策略在双翅目害虫中的研究进展进行了综述,重点评估了这些方法在雄虫大规模饲养和释放的应用潜力,以期在更完善的性别分离技术支持下为害虫防治研究取得更多突破性进展。     

Impact of short-term temperature challenges on the larvicidal activities of the entomopathogenic watermold Leptolegnia chapmanii against Aedes aegypti, and development on infected dead larvae

The oomycete Leptolegnia chapmanii is among the most promising entomopathogens for biological control of Aedes aegypti. This mosquito vector breeds in small water collections, where this aquatic watermold pathogen can face short-term scenarios of challenging high or low temperatures during changing ambient conditions, but it is yet not well understood how extreme temperatures might affect the virulence and recycling capacities of this pathogen. We tested the effect of short-term exposure of encysted L. chapmanii zoospores (cysts) on A. aegypti larvae killed after infection by this pathogen to stressful low or high temperatures on virulence and production of cysts and oogonia, respectively. Cysts were exposed to temperature regimes between ?12 °C and 40 °C for 4, 6 or 8 h, and then their infectivity was tested against third instar larvae (L3) at 25 °C; in addition, production of cysts and oogonia on L3 killed by infection exposed to the same temperature regimes as well as their larvicidal activity were monitored. Virulence of cysts to larvae and the degree of zoosporogenesis on dead larvae under laboratory conditions were highest at 25 °C but were hampered or even blocked after 4 up to 8 h exposure of cysts or dead larvae at both the highest (35 °C and 40 °C) and the lowest (?12 °C) temperatures followed by subsequent incubation at 25 °C. The virulence of cysts was less affected by accelerated than by slow thawing from the frozen state. The production of oogonia on dead larvae was stimulated by short-term exposure to freezing temperatures (?12 °C and 0 °C) or cool temperatures (5 °C and 10 °C) but was not detected at higher temperatures (25 °C–40 °C). These findings emphasize the susceptibility of L. chapmanii to short-term temperature stresses and underscore its interest as an agent for biocontrol of mosquitoes in the tropics and subtropics, especially A. aegypti, that breed preferentially in small volumes of water that are generally protected from direct sunlight.     

Proteomic analysis of the mosquito Aedes aegypti midgut brush border membrane vesicles

We analyzed brush border membrane vesicle proteins from isolated midguts of the mosquito Aedes aegypti, by two proteomic methods: two-dimensional gel electrophoresis (isoelectric focusing and SDS-PAGE) and a shotgun two-dimensional liquid chromatographic (LS/LS) approach based on multidimensional protein identification technology (MudPIT). We were interested in the most abundant proteins of the apical brush border midgut membrane. About 400 spots were detected on 2D gels and 39 spots were cored and identified by mass spectrometry. 86 proteins were identified by MudPIT. Three proteins, arginine kinase, putative allergen and actin are shown to be the most predominant proteins in the sample. The total number of 36 proteins detected by both methods represents the most abundant proteins in the BBMV.     

Wetlands and mosquitoes: a review

This review brings together information on mosquitoes, the diseases they transmit and the wetlands that provide habitats for the immature stages (eggs and larvae). Wetland values are mentioned, though the main literature on this does not generally overlap the mosquito issue. Mosquito management is overviewed to include: the use of larvicides, source reduction in intertidal wetlands and management in freshwater systems. There is not a great deal of information on mosquitoes and freshwater systems, except for constructed wetlands and they are considered separately. We then consider restoration mainly in the context of wetlands that have been the subject of habitat modification for mosquito control. Land use and climate change, as they affect mosquitoes and the diseases they transmit, are also reviewed, as this will affect wetlands via management activities. Finally the review addresses the critical issue of balancing health, both human and environmental, in an adaptive framework. It concludes that there is a need to ensure that both mosquito and wetland management communicate and integrate to sustain wetland and human health.     

Bioassays for comparative infectivity of mermithid nematodes (Romanomermis iyengari,Romanomermis culicivorax and Strelkovimermis spiculatus) for culicine mosquito larvae

Two improved bioassays were developed to establish infectivity baselines for selection experiments using mermithid nematode variants. Comparative infectivity of Romanomermis iyengari, Romanomermis culicivorax and Strelkovimermis spiculatus using larvae of three mosquito spp. Aedes sierrensis, Aedes aegypti and Culex pipiens were evaluated with “plate” and “tray” bioassays at selected intensity of infections. Using the “plate” bioassay, single mosquito larvae were immersed in 2 ml of water within individual depressions of 12-well, polystyrene tissue culture plates. One, three, or five preparasitic juveniles (J2) were added to each well. In the “tray” bioassay, polyethylene trays containing 500 ml water and 100 mosquito larvae were exposed to 500 (5:1, nematode:insect host) or 1000 (10:1) J2s. Percentage infection (PINF, infectivity) and intensity of infection (IINF, #nematodes per infected larvae) number were determined only after emergence of post-parasitic J3 juveniles. Under the bioassay conditions, all three species of nematodes resulted in infections in all mosquito hosts, but R. iyengari exhibited better effectiveness in the parasitism of mosquito larvae. The three species of mosquitoes presented high levels of susceptibility to each of the three species of nematodes, but in general Cx. pipiens and Ae. sierrensis were slightly more susceptible than Ae. aegypti. The “plate” bioassay was more efficient in measurement of infectivity of the mermithid species and in establishing baseline characteristics for these mosquito-parasitic nematodes. The “tray” bioassay was an effective bioassay for large cohorts of both infective juveniles and host larvae and, potential for field interactions.     

Formulation of the entomopathogenic fungus Beauveria bassiana JN5R1W1 for the control of mosquito adults and evaluation of its novel applicability

In this study, an effective control agent and control technology for adult mosquitoes using entomopathogenic fungi is proposed as a solution to the adverse effects of chemical insecticides used for mosquito control. A formulation study was conducted using Beauveria bassiana JN5R1W1 with high virulence against both Aedes albopictus and Culex pipiens adult mosquitoes. For the inverted emulsion formulation, three kinds of vegetable oils were used to evaluate the germination promotion, UV blocking effects, and adhesion rate of conidia. As a result, soybean oil was selected as the most effective vegetable oil, and the corresponding formulation was made. Direct contact treatment of the inverted emulsion by spraying resulted in a mortality rate of approximately 100 % for both species of adult mosquitoes. However, in reality, since it is difficult to directly apply fungal agent treatment against adult mosquitoes, we evaluated a control method by indirect contact with mosquitoes after applying the inverted emulsion on a net. As an indirect treatment method, the prepared inverted emulsion showed a mortality rate of approximately 93 % or 89 % against Ae. albopictus and Cx. pipiens adult mosquitoes, respectively. Therefore, these results suggested that the inverted emulsion using B. bassiana JN5R1W1 is an effective control agent for controlling adult mosquitoes.     

四种杀虫剂对白纹伊蚊(Aedes albopictus)细胞株(C6/36)的细胞遗传学效应

本文研究了四种杀虫剂:敌敌畏乳剂,灭害灵,甲基对硫磷,叶蝉散对白纹伊蚊细胞株（C6/36）染色体畸变和姐妹染色单体互换（SCE）的影响。结果表明:0.1％和0.01％浓度的敌敌畏,可使（SCE）频率明显增加,而染色体畸变率只在0.1％浓度有显著增加;0.5％的灭害灵,可使SCE频率明显增加,而染色体畸变增加不明显;甲基对硫磷和叶蝉散的实验结果表明,无论是染色体畸变和SCE频率均没有明显增加。     

Consequences of the introduction of the planarian Girardia anceps (Tricladida: Dugesiidae) in artificial containers with larvae of the mosquitoes Aedes aegypti and Culex pipiens (Diptera: Culicidae) from Argentina

Aedes aegypti and Culex pipiens are container-dwelling mosquito species that are vectors of important diseases to man, such as dengue and lymphatic filariasis, respectively. Predators of these pests are an interesting alternative to be incorporated to biological control measures. We tested the consequences of introducing individuals of Girardia anceps, a native freshwater flatworm species, within artificial water containers where larvae of these mosquitoes thrive. Our goals were to ascertain if mosquito species, density of larvae (high or low), type of water container (tires or ovitraps), and presence or absence of planarians affected mosquito survivorship (measured as number of individuals reaching the pupa stage) in manipulated artificial containers. Furthermore, we monitored ovitraps in the field along several months in order to explore the long-term effect of the presence of planarian on the colonization of these containers by feral mosquitoes under natural conditions. We found that the presence of planarians reduced the number of mosquitoes reaching pupation and that such reduction depends on the initial density of larvae. Reduction of populations of A. aegypti was high along the breeding season of this mosquito, being the effect less evident in C. pipiens. G. anceps could be an agent of control against container-breeding mosquitoes if its release in small water containers is complemented with other suitable management strategies.     

The attraction of larvae of Culex pipiens quinquefasciatus Say to ribonucleic acid and nucleotides

The positive chemotaxis of larvae of Culex pipiens quinquefasciatus in response to RNA or its degradation products has been demonstrated. It has further been shown that larvae are specifically attracted to certain nucleoside monophosphates. The observations are related to the known dietary requirements of mosquito larvae.     

The peritrophic matrix limits the rate of digestion in adult Anopheles stephensi and Aedes aegypti mosquitoes

The peritrophic matrix (PM) is a chitin-containing acellular sheath that surrounds the blood meal and separates the food bolus from the midgut epithelium. Intense molecular traffic through the PM occurs during digestion. Digestive enzymes secreted by the midgut epithelium must traverse the PM to reach their substrates in the food bolus, and digestion products must cross the PM in the opposite direction to be absorbed by the epithelial cells. Here we report that the PM limits the rate of digestion. PM disruption by two independent means (chitinase and anti-PM antibodies) consistently increases the rate of blood digestion. The significance of these results in relation to PM function is discussed.     

Evaluation of nontarget effects of methoprene applied to catch basins for mosquito control

The mosquito larvicide methoprene is a juvenile growth hormone mimic that is widely used to control mosquito larvae in stormwater catch basins. This study addresses two concerns pertaining to methoprene's use for mosquito control. First, measurements of methoprene concentrations were made from water in catch basins that had been treated with methoprene and from an adjoining salt pond near where the treated catch basins emptied. The concentrations of methoprene in catch basins and at drainage outlets after application at the rates currently used for mosquito control in southern Rhode Island were 0.5 ppb and lower, orders of magnitude below what has been determined as detrimental to organisms other than mosquitoes. Second, the effects of methoprene on the communities that live in catch basins were evaluated both in simulated catch basins in the laboratory and in actual catch basins in the field. We found no evidence of declines in abundances of any taxa attributable to the application. Furthermore, we found no consistent changes in community‐level parameters (e.g., taxonomic richness, and dominance‐diversity relationships) related to methoprene application in either field or laboratory trials.