昆虫基因组及其大小

昆虫基因组大小是由于基因组各种重复序列在扩增、缺失和分化过程中所致的数量差异造成的。这些差异使得昆虫不同类群间、种间和同种的不同种群间表现出基因组大小的不同。目前有59种昆虫已经列入基因组测序计划, 其中6种昆虫（黑腹果蝇Drosophila melanogaster、冈比亚按蚊Anopheles gambiae、家蚕Bombyx mori、意大利蜜蜂Apis mellifera、埃及伊蚊Aedes aegypti和赤拟谷盗Tribolium castaneum）的全基因组序列已经报道。有725种昆虫的基因组大小得到了估计, 大小在0.09~16.93 pg （88~16 558 Mb）之间。本文还介绍了昆虫基因组大小的估计方法, 讨论了昆虫基因组大小的变化及其意义。     

蛋白质组学技术的发展及其在昆虫中的应用

蛋白质组学在模式昆虫中的应用随着这些模式昆虫全基因序列先后完成而相继展开。蛋白组学作为一门有效而直观的研究整体蛋白质的方法,在非模式昆虫中应用也非常广泛。蛋白质组学在模式昆虫中主要应用于黑腹果蝇Drosophila melanogaster、家蚕Bombyx mori、冈比亚按蚊Anopheles gambiae、意大利蜜蜂Apis mellifera中;在非模式昆虫中主要应用在各种昆虫的生理、药剂毒理和化学生态学研究中。     

基于质谱和生物信息学分析的小菜蛾蛋白质鉴定

本研究以非模式昆虫小菜蛾Plutella xylostella为材料, 对比2, 3, 4龄幼虫的蛋白质组双向电泳图谱, 得到24个蛋白质差异点, 从中选取了编号为1111的差异表达蛋白质点进行质谱鉴定和生物信息学分析. 采用胶内酶解的多肽进行MALDI-TOF/TOF分析, 获得该点的肽质量指纹图谱（PMF）及串联质谱（MS/MS）图谱。将获得的PMF分别用MASCOT和ProFound等常用软件在NCBInr的Metazoa蛋白质数据库进行搜索, 匹配结果不理想. 进一步用PMF+MS/MS谱图搜索NCBInr的Metazoa蛋白质数据库, 以及小菜蛾EST数据库。 在NCBInr库中匹配结果为拟暗果蝇Drosophila pseudoobscura中的一种假定蛋白GA18218-PA, 而用EST库搜索的结果为家蚕Bombyx mori的ATP合酶的亚基。为验证搜索结果, 将该蛋白质点进行磺基异硫氰酸苯酯（SPITC）化学衍生后de novo测序, 最后确认该点可能为ATP合酶的一个亚基。最后着重讨论了蛋白质的质谱鉴定与生物信息学分析的联合使用, 希望据此选择出最适合于非模式昆虫蛋白质组学鉴定的方法。     

昆虫杆状病毒几丁质酶及其应用研究进展

杆状病毒几丁质酶基因（chitinase,,ChiA）是晚期表达的非必需基因,高度保守。表达产物几丁质酶分为3个区：N-端信号肽区,中部酶活性区和C-末端酶内质网结合区。该酶同时具有内切和外切几丁质酶活性,主要功能是水解昆虫体内的几丁质,促进虫体液化;作为组织蛋白酶原（pro-V-Cath）的分子伴侣,参与其加工和运输过程; 影响多角体的形成,并与细胞的裂解有关;还与病毒侵染机制相关联。杆状病毒ChiA与细菌ChiA源于共同的祖先,而昆虫ChiA则可能直接来自杆状病毒。在害虫生物防治中,杆状病毒ChiA可直接作为杀虫剂,或作为苏云金杆菌和杆状病毒等微生物杀虫剂的增效剂使用;杆状病毒ChiA可转入植物,获得具有持续杀虫及抗病活性的转基因植物;将杆状病毒ChiA的内质网定位序列删除、突变,或在病毒基因组中插入外源ChiA,重组病毒的杀虫活性增强。通过基因工程手段,删除病毒基因组ChiA或V-Cath,可改善杆状病毒表达系统对分泌蛋白和膜结合蛋白的表达。     

微生物蛋白质组学的定量分析

越来越多的微生物基因组序列数据为系统地研究基因的调节和功能创造了有利条件.由于蛋白质是具有生物功能的分子,蛋白质组学在微生物基因组的功能研究中异军突起、蓬勃发展.微生物蛋白质组学的基本原则是,用比较研究来阐明和理解不同微生物之间或不同生长条件下基因的表达水平.显而易见,定量分析技术是比较蛋白质组学中急需发展的核心技术.对蛋白质组学定量分析技术在微生物蛋白质组研究中的进展进行了综述.     

松毛虫质型多角体病毒的宿主域与交叉感染

自1956年从赤松毛虫Dendrolimus spectabilis上首次发现赤松毛虫质型多角体病毒1型（D. spectabilis cytovirus 1,DsCPV-1）以来,先后从马尾松毛虫D. punctatus、油松毛虫D. tabulaeformis、赤松毛虫、德昌松毛虫D. p. tehchangensis、文山松毛虫D. p. Wenshangensis和落叶松毛虫D. superans上发现了质型多角体病毒(cytoplasmic polyhedrosis virus,CPV)。病毒基因组dsRNA电泳图谱分析表明,这些松毛虫CPV的不同分离株均属于质型多角体病毒1型（cytovirus 1）。这些松毛虫CPV病毒可以感染鳞翅目10科35种昆虫,其中对多种昆虫具有很高的感染力和良好的杀虫效果,可以从中筛选替代宿主生产松毛虫CPV杀虫剂,用于害虫生物防治。松毛虫CPV接种某些昆虫后病毒的基因组dsRNA电泳图谱发生了改变,可能是异源病毒诱发了宿主自身潜伏型病毒的感染复制。     

RNAi技术在昆虫功能基因研究中的应用进展

RNA干扰（RNA interference,RNAi）是指外源或内源的双链RNA（dsRNA）特异性地引起基因表达沉默的现象,它作为一种有效的工具用来产生转录后沉默,从而抑制特定基因的表达,成为基因功能研究的一种新方法,除了在模式昆虫如果蝇Drosophila中广泛应用之外,也在非模式昆虫中得到成功应用。近年来,RNAi技术在导入方法和基因功能分析方面都取得了飞速发展,且与转基因技术相结合成功应用于害虫防治领域。本文综述了RNAi技术在导入方法、昆虫功能基因组功能分析及害虫防治等领域新近的研究成果,并展望了该技术的应用前景。     

家蚕核型多角体病毒egt基因的分子进化分析

过PCR方法获得家蚕核型多角体病毒（Bombyx mori nuclearpolyhedrosis virus,BmNPV）的蜕皮甾体尿苷二磷酸葡萄糖基转移酶基因（egt）片段,序列分析表明该片段带有EGT的完整ORF,推测的多肽可形成EGT结构域的高级结构。为了研究egt的起源,利用家蚕基因组数据库,电子克隆了多个家蚕尿苷二磷酸葡萄糖醛酸转移酶（UGT）基因,在此基础上进行了进化分析,表明BmNPV的EGT为antennal-enriched型UGT;推测核型多角体病毒（nucleopolyhedrivirus,NPV）和颗粒体病毒（granulovirus,GV）的egt基因在进化上来源于昆虫的UGT基因,但GV的egt基因在进化上的起源可能要早于NPV的egt基因;可能在昆虫祖先种进化形成不同昆虫目的某一时期,杆状病毒的祖先种从昆虫中获得了antennal-enriched型UGT基因,并进化为egt基因。家蚕的部分UGT基因与转座子元件连锁的基因组结构特点反映了杆状病毒的egt基因可能通过转座子的传递而获得。     

果蝇蛋白质组学研究进展

蛋白质组学旨在阐明基因组所表达的真正执行生命活动的全部蛋白质的表达规律和生物功能。随着人类基因组学计划的逐渐成熟,分子水平的实验技术不断发展,蛋白质组学的研究被提高到了前所未有的高度。果蝇是生命科学领域最为常用的一种模式生物,长期的系统研究也使果蝇的基因组成为至今注释最好的基因组之一,为功能基因组研究奠定了基础。但由于技术的限制,迄今有关果蝇蛋白质组学研究的报道尚不多见。近年来果蝇蛋白质组学的研究主要包括表达谱、修饰谱、比较蛋白质组学和疾病模型蛋白质组等四个方向,为进一步开展人类疾病临床蛋白质组学研究奠定了基础。     

棉铃虫成虫感觉神经元膜蛋白(SNMP)表达及其与Gqα的关系(英文)

昆虫嗅觉对昆虫的取食、求偶、寻找产卵场所、搜寻寄主或猎物至关重要。 有研究认为感觉神经元膜蛋白（SNMP）和Gq蛋白α亚基（Gqα）参与信号转导。为了阐明snmp的空间表达情况并确定Gqα是否与SNMP直接结合, 我们采用半定量RT-PCR技术对snmp在棉铃虫Helicoverpa armigera (Hübner)成虫的触角、头、胸、腹、足、翅、喙、下颚须和下唇须的分布情况进行了研究, 并利用酵母双杂交技术对SNMP与Gqα的关系进行了研究。半定量RT-PCR研究发现, snmp不仅在棉铃虫成虫的触角中表达, 而且在喙、下颚须、下唇须及足上都有表达。利用酵母双杂交技术研究发现, Gqα 与SNMP不直接相互作用, Gqα不是SNMP的直接下游结合蛋白。这些研究结果说明,SNMP不仅参与气味识别而且也参与味觉识别; SNMP可能与气味受体（OR）形成复合物, 然后与Gqα结合, 这需要我们进一步深入的研究进行证明。     

Differential protein expression in the honey bee head after a bacterial challenge

Insect immune proteins and peptides induced during bacterial infection are predominantly synthesized by the fat body or by haemocytes and released into the hemolymph. However, tissues other than the "immune-related" ones are thought to play a role in bacteria-induced responses. Here we report a proteomic study of honey bee heads designed to identify the proteins that are differentially expressed after bacterial challenge in a major body segment not directly involved in insect immunity. The list of identified proteins includes structural proteins, an olfactory protein, proteins involved in signal transduction, energy housekeeping, and stress responses, and also two major royal jelly proteins. This study revealed a number of bacteria-induced responses in insect head tissue directly related to typical functions of the head, such as exocrine secretion, memory, and senses in general.     

Assimilatory potential of Helicoverpa armigera reared on host (Chickpea) and nonhost (Cassia tora) diets

Adaptation to plant allelochemicals is a crucial aspect of herbivore chemical ecology. To understand an insect ecology, we studied an effect of nonhost Cassia tora seed-based diet (Ct) on growth, development, and molecular responses in Helicoverpa armigera. We employed a comparative approach to investigate the proteomic differences in gut, hemolymph, and frass of H. armigera reared on a normal (chickpea seed-based, Cp) and Ct diet. In this study, a total of 46 proteins were identified by nano-LC-MS(E). Among them, 17 proteins were up-regulated and 29 proteins were down-regulated when larvae were exposed to the Ct diet. Database searches combined with GO analysis revealed that gut proteases engrossed in digestion, proteins crucial for immunity, adaptive responses to stress, and detoxification were down-regulated in the Ct fed larvae. Proteins identified in H. armigera hemolymph were found to be involved in defense mechanisms. Moreover, proteins found in frass of the Ct fed larvae were observed to participate in energy metabolism. Biochemical and quantitative real-time PCR analysis of selected candidate proteins showed differential gene expression patterns and corroborated with the proteomic data. Our results suggest that the Ct diet could alter expression of proteins related to digestion, absorption of nutrients, adaptation, defense mechanisms, and energy metabolism in H. armigera.     

Proteomic analysis of the systemic immune response of Drosophila

Improvements in two-dimensional gel electrophoresis, mass spectrometry, and bioinformatics provide new tools to characterize proteins involved in a physiological process, such as the immune response of the insect model Drosophila melanogaster. Profiling of the proteins present in the hemolymph (insect blood) of noninfected flies versus flies infected with bacteria or fungi was performed by two-dimensional gel electrophoresis, silver or Coomassie staining, and image analysis. Through this differential analysis, more than 70 out of 160 spots were up- or down-regulated by at least 5-fold after microbial infection. Coomassie staining, in-gel digestion, and database searches yielded the identity of a series of proteins that are directly involved in the Drosophila immune system. This included proteases, protease inhibitors, and recognition molecules such as prophenoloxydase-activating enzymes, serpins, and Gram-negative binding protein-like. Proteins with a potential function in the immune response were also identified, such as an odorant binding protein, peptidylglycine alpha-hydroxylating monooxygenase, and transferrin, affording new candidates for further investigation of innate immune mechanisms. Moreover, several molecules resulting from the cleavage of proteins were detected after the fungal infection. Altogether, this first differential proteomic analysis of the immune response of Drosophila paves the way for the study of proteins affected during innate immunity.     

Bt Cry1Ac毒素筛选的粉纹夜蛾离体抗性细胞与敏感细胞蛋白质组的差异分析

采用双向电泳技术和肽质量指纹图谱技术分析了Bt Cry1Ac毒素筛选的粉纹夜蛾Trichoplusia ni抗性BTI-Tn-5B1-4细胞与同源敏感细胞的蛋白质组的差。用Melanie ViewerⅡ软件在抗性细胞的双向电泳图谱上检测到的平均蛋白质点数为707±25个（n=3）,在敏感细胞的双向电泳图谱上检测到的平均蛋白质点数为637±19个（n=3）,其中分辨率高、重复性良好的显著差异点有10余个。对其中的一个敏感细胞特有的显著差异斑点进行了肽质量指纹图谱分析,经数据库 查询表明该蛋白质与胞质外周蛋白具有同源性。     

Proteomic analysis of the Drosophila larval hemolymph clot

Components of the insect clot, an extremely rapid forming and critical part of insect immunity, are just beginning to be identified (1). Here we present a proteomic comparison of larval hemolymph before and after clotting to learn more about this process. This approach was supplemented by the identification of substrates for the enzyme transglutaminase, which plays a role in both vertebrate blood clotting (as factor XIIIa) and hemolymph coagulation in arthropods. Hemolymph proteins present in lower amounts after clotting include CG8502 (a protein with a mucin-type domain and a domain with similarity to cuticular components), CG11313 (a protein with similarity to prophenoloxidase-activating proteases), and two phenoloxidases, lipophorin, a secreted gelsolin, and CG15825, which had previously been isolated from clots (2). Proteins whose levels increase after clotting include a ferritin-subunit and two members of the immunoglobulin family with a high similarity to the small immunoglobulin-like molecules involved in mammalian innate immunity. Our results correlate with findings from another study of coagulation (2) that involved a different experimental approach. Proteomics allows the isolation of novel candidate clotting factors, leading to a more complete picture of clotting. In addition, our two-dimensional protein map of cell-free Drosophila hemolymph includes many additional proteins that were not found in studies performed on whole hemolymph.     

Comparative proteomics analysis of silkworm hemolymph during the stages of metamorphosis via liquid chromatography and mass spectrometry

The silkworm is a lepidopteran insect that has an open circulatory system with hemolymph consisting of blood and lymph fluid. Hemolymph is not only considered as a depository of nutrients and energy, but it also plays a key role in substance transportation, immunity response, and proteolysis. In this study, we used LC‐MS/MS to analyze the hemolymph proteins of four developmental stages during metamorphosis. A total of 728 proteins were identified from the hemolymph of the second day of wandering stage, first day of pupation, ninth day of pupation, and first day as an adult moth. GO annotations and categories showed that silkworm hemolymph proteins were enriched in carbohydrate metabolism, proteolysis, protein binding, and antibacterial humoral response. The levels of nutrient, immunity‐related, and structural proteins changed significantly during development and metamorphosis. Some, such as cuticle, odorant‐binding, and chemosensory proteins, showed stage‐specific expression in the hemolymph. In addition, the expression of several antimicrobial peptides exhibited their highest level of abundance in the hemolymph of the early pupal stage. These findings provide a comprehensive proteomic insight of the silkworm hemolymph and suggest additional molecular targets for studying insect metamorphosis.     

应用差示扫描量热法检测昆虫总蛋白的热滞活性

产生抗冻蛋白是寒带昆虫抵御低温的重要机制之一, 但检测其活性仍存在一些困难, 尤其对于个体较小的昆虫样品。为了探索差示扫描量热法是否适于检测昆虫总蛋白的热滞活性, 本研究利用差示扫描量热法对黄粉虫Tenebrio molitor幼虫的总蛋白和血淋巴分别进行了热滞活性检测。结果表明： 黄粉虫总蛋白的热滞活性（0.49~0.98℃）要低于血淋巴（2.54~4.34℃）。通过这种方法, 进一步检测了3种在内蒙古大兴安岭林区采集到的越冬昆虫： 稠李巢蛾Yponomeuta evonymallus幼虫、 舞毒蛾Lymantria dispar卵和落叶松八齿小蠹Ips subelongatus成虫。结果发现, 它们都存在热滞活性, 其中稠李巢蛾的热滞活性为0.34~0.43℃, 舞毒蛾的热滞活性为0.35~0.42℃, 落叶松八齿小蠹的热滞活性为0.37~0.40℃, 说明这3种昆虫能以产生抗冻蛋白的方式作为越冬策略之一。本研究表明通过差示扫描量热法检测昆虫总蛋白是否存在热滞活性来判断抗冻蛋白的存在是可行的。     

The stabilizing effect of insect hemolymph on a granulosis virus held in darkness as dry films of the intact capsules

The stabilizing effects of either insect hemolymph, gelatin, or glucose on a granulosis virus of Pieris brassicae held in darkness, as dry films of the intact capsules, have been investigated. The hemolymph solids exert a significant stabilizing action; gelatin is significantly less effective; and glucose almost ineffective. The protective action of hemolymph, which occurs in films deposited on glass and leaf surfaces, is probably due to the proteins present since viruses are known to be stabilized by certain types of foreign proteins. This explanation would also account for the high level of stability of insect viruses in dried films of crude preparations held in darkness. (In daylight there is also a screening action which excludes some UV radiation.)     

Proteomic and metabolomic profiles of larval hemolymph associated with diapause in the cotton bollworm,Helicoverpa armigera

Background

Diapause is programmed developmental arrest coupled with the depression of metabolic activity and the enhancement of stress resistance. Pupal diapause is induced by environmental signals and is prepared during the prediapause phase. In the cotton bollworm, Helicoverpa armigera, the prediapause phase, which contains two sub-phases, diapause induction and preparation, occurs in the larval stage. Here, we performed parallel proteomic and metabolomic analyses on H. armigera larval hemolymph during the prediapause phase.

Results

By two-dimensional electrophoresis, 37 proteins were shown to be differentially expressed in diapause-destined larvae. Of these proteins, 28 were successfully identified by MALDI-TOF/TOF mass spectrometry. Moreover, a total of 22 altered metabolites were found in diapause-destined larval hemolymph by GC-MS analysis, and the levels of 17 metabolites were elevated and 5 were decreased.

Conclusions

The proteins and metabolites with significantly altered levels play different roles in diapause-destined larvae, including diapause induction, metabolic storage, immune response, stress tolerance, and others. Because hemolymph circulates through the whole body of an insect, these differences found in diapause-destined larvae most likely correspond to upstream endocrine signals and would further influence other organ/tissue activities to determine the insect’s fact: diapause or development.

Electronic supplementary material

The online version of this article (doi:10.1186/1471-2164-14-751) contains supplementary material, which is available to authorized users.     

Clathrin‐dependent endocytosis predominantly mediates protein absorption by fat body from the hemolymph in Bombyx mori

During insect larval–pupal metamorphosis, proteins in the hemolymph are absorbed by the fat body for the maintenance of intracellular homeostasis; however, the type of proteins and how these proteins are internalized into the fat body are unclear. In Bombyx mori, the developmental profiles of total proteins in the hemolymph and fat body showed that hemolymph‐decreased protein bands (55–100 kDa) were in accordance with those protein bands that increased in the fat body. Inhibition of clathrin‐dependent endocytosis predominantly blocked the transportation of 55–100 kDa proteins from the hemolymph into the fat body, which was further verified by RNA interference treatment of Bmclathrin. Six hexamerins were shown to comprise ～90% of the total identified proteins in both the hemolymph and fat body by mass spectrum (MS) analysis. In addition, hemolymph‐specific proteins were mainly involved in material transportation, while fat body‐specific proteins particularly participated in metabolism. In this paper, four hexamerins were found for the first time, and potential proteins absorbed by the fat body from the hemolymph through clathrin‐dependent endocytosis were identified. This study sheds light on the protein absorption mechanism during insect metamorphosis.