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1.
嗅觉在疟蚊寄主发现行为过程中起主要作用. 基于生物信息学技术, 对按蚊嗅觉结合蛋白基因进行了全基因组分析, 结果总共鉴定了32条嗅觉结合蛋白(OBP)候选基因序列. 进一步采用半定量反转录聚合酶链反应(semi-quantitative RT-PCR), 以疟蚊激动蛋白基因为内部表达参照标准, 研究了冈比亚按蚊所有嗅觉结合蛋白候选基因的组织特异性表达谱. 结果显示: 其中20个OBP候选基因在嗅觉组织(雌蚊触角)中有强的表达, 这说明OBP在疟蚊嗅觉行为中起重要作用. 还研究了冈比亚按蚊复合体(A. gambiae complex)中两种最重要的疟蚊, 即冈比亚按蚊(A. gambiae)和阿拉伯按蚊(A. arabiensis)的蚊种嗅觉特异性表达型, 结果发现其中12个OBP候选基因显示种间差异表达, 同时发现阿拉伯按蚊触角中OBP的累积相对表达强度高于冈比亚按蚊, 其比例为1441.45︰1314.12. 这可能是由二者的不同寄主偏好行为所致, 因为冈比亚按蚊高度嗜吸人血, 而阿拉伯按蚊则介于嗜吸人血和嗜畜血之间, 因此后者需要表达更多的OBPs以支持其寄主选择行为模式. 疟蚊OBP基因的鉴定及其组织和蚊种特异性表达型的确定, 是分析疟蚊嗅觉探测的分子机制的第一步, 如嗅觉结合蛋白重组表达及其配体鉴定.  相似文献   

2.
家蝇泛素编码区 cDNA 序列的克隆及在原核细胞中的表达   总被引:2,自引:0,他引:2  
泛素-蛋白酶体途径(ubiquitin-proteasome pathway)是具有高度选择性的蛋白质降解途径,该途径对细胞内蛋白的选择性降解起着重要作用。本研究根据 GenBank 已登录的真核生物泛素(ubiquitin)编码框的氨基酸序列,设计一对简并引物,RT-PCR 克隆了家蝇 Musca domestica 泛素基因的编码区 cDNA 序列,并进行了测序。序列分析表明,该编码区的长度为 228 bp,编码 76 个氨基酸,命名为 Mdubi ,GenBank 登录号为 DQ115796。同源性比较发现,Mdubi 氨基酸序列与其他真核生物泛素编码框同源性可达 94% 以上。RT-PCR 检测表明,Mdubi 在家蝇不同组织中均高效表达,且不受大肠杆菌 Escherichia coli 刺激的影响,是遍在性表达。为进一步研究 Mdubi 的结构和功能,将 Mdubi 克隆到原核表达载体 pQE30 上,构建重组质粒 pQE30-UBI,转化大肠杆菌 M15 感受态细胞,在 IPTG 诱导下进行了高效表达,SDS-PAGE 检测表明 Mdubi 在大肠杆菌中可表达相对分子质量为 9.6 kD 的可溶性融合蛋白;Western blot 分析表明表达产物能与 Ni-NTA 鏊合物特异性的结合,表明表达的 Mdubi 为 N 端带有 6His 标签的融合蛋白。利用 Ni2+-NTA 亲和柱一步纯化了 Mdubi,以该融合蛋白免疫新西兰大白兔制备了抗 Mdubi 血清。本研究成功克隆了家蝇泛素的编码序列,并在原核细胞中得到了表达,为进一步研究泛素在家蝇体内的作用机制奠定了基础。  相似文献   

3.
棉铃虫嗅觉受体基因的克隆及组织特异性表达   总被引:2,自引:2,他引:0  
昆虫嗅觉受体是一个高度变异的蛋白家族,但是其中一类嗅觉受体很特殊,它们在不同昆虫体内高度保守。该文作者从棉铃虫Helicoverpa armigera体内克隆得到了这类受体基因,命名为ORHarmORHarm编码473个氨基酸残基,序列中有7个跨膜区,是典型的G蛋白偶联的受体。ORHarm与已经报道的昆虫同类嗅觉受体的同源性在60%以上,与近缘种烟芽夜蛾Heliothis virescens嗅觉受体的同源性高达99.4%。半定量RT-PCR研究表明,ORHarm主要在棉铃虫成虫触角中表达,在喙中也有表达,但表达量较低,在成虫其他的部位不表达;在棉铃虫发育的各个时期,如卵、幼虫、蛹和成虫体内,也都有表达。ORHarm不仅在感受挥发性气味物质的过程中起着重要的作用,而且也参与液态化学刺激的识别过程。  相似文献   

4.
【目的】蚊虫的行为在很大程度上依赖于嗅觉系统, 例如寻找宿主和产卵场所等。中华按蚊Anopheles sinensis是我国最重要的传疟媒介之一, 但有关中华按蚊嗅觉信号传递过程的研究甚少。本研究旨在克隆和表达分析中华按蚊的气味结合蛋白(odorant binding proteins, OBPs)基因, 为进一步研究中华按蚊嗅觉传递的分子机制奠定基础。【方法】通过分析中华按蚊的转录组数据克隆气味结合蛋白基因, 采用RT-PCR和实时定量PCR技术分析该基因在成虫不同组织和在吸血前后的表达模式。【结果】克隆到一个气味结合蛋白基因, 命名为AsinOBP1 (GenBank登录号为KJ958382)。AsinOBP1基因开放阅读框长435 bp, 编码144个氨基酸, 具有典型的6个半胱氨酸位点。RT-PCR组织表达谱分析发现, AsinOBP1在检测的所有成虫触角、下颚须、喙和头部组织中都有表达, 而在足和去掉头部以外的躯体组织中不表达。定量分析发现AsinOBP1在雌蚊触角中的表达水平最高, 吸食血液后, AsinOBP1的表达水平显著下降; 仅用小鼠气味处理后, AsinOBP1的表达水平也显著下降。【结论】研究结果说明AsinOBP1可能是嗅觉组织特异性表达的基因, 与雌蚊寻找宿主等行为有关, 其功能还需深入研究。  相似文献   

5.
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。  相似文献   

6.
【目的】为了克隆棉铃虫Helicoverpa armigera编码肌肉蛋白Kettin基因的全长cDNA序列以及鉴定该基因在棉铃虫发育周期内的表达模式。【方法】利用兼并引物,通过分段RT-PCR和5′-和3′-RACE的方法克隆全长cDNA序列。利用半定量RT-PCR进行表达谱分析。【结果】编码棉铃虫Kettin蛋白的基因HaKettin1全长cDNA序列为13 805 bp,包含一个13 365 bp的开放阅读框,编码4 454个氨基酸,蛋白分子量约为504.3 kD。组织表达结果显示HaKettin1基因在棉铃虫的整个生育周期都有表达,幼虫期的表达尤为显著。【结论】HaKettin1与家蚕的Kettin蛋白具有90%的同源性,表明鳞翅目昆虫的Kettin蛋白之间具有很高的保守性。表达谱结果显示HaKettin1基因在棉铃虫的整个发育过程中都发挥重要作用。  相似文献   

7.
马纪  王芸  刘忠渊  张富春 《昆虫学报》2008,51(5):480-485
为了研究抗冻蛋白基因是否在新疆荒漠昆虫洛氏脊漠甲 Pterocoma loczyi 中存在,利用 RT-PCR 技术克隆获得了洛氏脊漠甲抗冻蛋白的 cDNA 片段,命名为 Plafp743。测序结果表明洛氏脊漠甲 Plafp743 所编码的蛋白质由 94 个氨基酸组成,蛋白序列呈现规则结构 CTX1X2X3X4CX5X6X7X8X 9。利用原核表达载体构建重组质粒 pGEX-4T-1-Plafp743,转化 Escherichia coli BL21 进行融合蛋白表达,SDS-PAGE 结果表明抗冻蛋白PLAFP基因以可溶性融合蛋白形式表达,相对分子质量 36 kD。用 Glutathione Sepharose 4B 亲和柱对表达蛋白进行纯化后,通过赤翅甲 Dendroides canadensis 抗冻蛋白的小鼠抗血清进行 Western blot 分析,结果表明纯化的 GST-PLAFP 融合蛋白与赤翅甲抗血清能够发生特异性的免疫反应。大肠杆菌的低温抗冻保护实验结果证明,30 μg/mL 的 GST-PLAFP 在-6℃ 对细菌具有显著的保护作用,且随着抗冻蛋白浓度的增加,抗冻保护作用的效 果也随之增加。本研究首次报道了从荒漠昆虫洛氏脊漠甲扩增得到抗冻蛋白基因,提示抗冻蛋白可能是荒漠昆虫普遍采取的过冬生存策略,为进一步开发利用昆虫抗冻蛋白奠定了基础。  相似文献   

8.
Rab7是一个GTP结合蛋白,隶属于Rab家族,该家族在调控膜泡的运输、结合以及细胞内膜结构的组织中行使重要作用。本实验通过RT-PCR技术从盐敏感水稻品种‘日本晴’(‘Nipponbare’)获得了OsRab7基因全长序列,成功构建了原核表达载体pET-32a-OsRab7。在IPTG诱导下,该蛋白高效表达,并明显缓解了高盐环境(4.5% ~8.5% NaCl)对大肠杆菌的生长胁迫。为进一步研究该基因的功能,将OsRab7在大肠杆菌中的表达蛋白纯化,并利用p1301B(pCAMBIA1301改造载体)构建了植物表达载体,成功转化来源于水稻株系‘中花11’(盐敏感)的愈伤组织,为探讨其在水稻中的表达模式和功能分析及应用于水稻耐盐品种的改良奠定了一定的基础。  相似文献   

9.
谢氏宽漠王HSP70基因cDNA片段的克隆及热激条件下的表达   总被引:1,自引:1,他引:0  
唐婷  柳峰松  任国栋 《昆虫学报》2008,51(4):365-371
谢氏宽漠王Mantichorula semenowi Reitter是一种沙漠指示性甲虫。本研究由该种甲虫体内克隆到两种不同的HSP70基因片段,分别为MsHSP70MsHSC70。同源性发现表明这两个基因片段与已报道的其他昆虫的热休克蛋白核苷酸序列高度同源。半定量RT-PCR分析显示:经42℃热激1 h 后立即诱导MsHSP70表达至最高峰;在恢复到室温的1~4 h 内MsHSP70表达量逐渐降低,但仍然高于未热激对照组。而MsHSC70在42℃热激1 h后表达受到抑制,但在恢复2 h和4 h时有少量的表达,分别仅为未热激对照组的0.25和0.28倍。结果提示MsHSP70MsHSC70在保护细胞方面具有不同的作用。本实验结果为谢氏宽漠王在极端的沙漠环境胁迫下的抗逆适应性研究提供了理论基础。  相似文献   

10.
余泉友  房守敏  左伟东  张泽  鲁成 《昆虫学报》2010,53(10):1061-1068
谷胱甘肽-S-转移酶(GSTs)是一个功能广泛的超基因家族, 其中Zeta家族在动物、植物和细菌中均有分布。在哺乳动物中, Zeta GSTs具有马来酰乙酰乙酸异构酶(MAAI)活性, 参与苯丙氨酸/酪氨酸的代谢过程。本研究对家蚕Bombyx mori基因组中预测的GST基因(BmGSTz1)进行了表达序列标签的搜索, 经拼接后获得一条含有3′和5′非翻译区在内的长度为1 239 bp 的cDNA序列, 其3′端含有AATAAA加尾信号。BmGSTz1基因含有4个内含子, 外显子/内含子边界均符合GT-AG 规则。经TA克隆证实, BmGSTz1基因编码区序列全长648 bp, 共编码215个氨基酸。BmGSTz1推定的分子量为24.8 kD, 等电点pI为8.06。BmGSTz1与其他昆虫和哺乳动物GSTz1的氨基酸序列高度保守, 进化分析表明家蚕BmGSTz1与黑腹果蝇Drosophila melanogaster、冈比亚按蚊Anopheles gambiae、意大利蜜蜂Apis mellifera和赤拟谷盗Tribolium castaneum的GSTz1形成1∶1∶1∶1∶1的直系同源关系。RT-PCR和基因芯片数据表明BmGSTz1在家蚕5龄第3天幼虫各组织中都有表达。序列和组织表达特征分析结果提示家蚕BmGSTz1可能具有MAAI活性, 这将为进一步深入研究BmGSTz1基因的功能提供参考。  相似文献   

11.
~~Identification and expression profiling of putative odorant-binding proteins in the malaria mosquitoes, Anopheles gambiae and A. arabiensis1. Curtis, C. F., Introduction 1: An overview of mosquito biology, behaviour and importance, in Olfaction in Mosquito-Host Interactions (eds. Bock, G. R.. Cardew, G.), New York: Wiley, 1996, 3-7. 2. Nighom, A., Hildebrand. J. G.. Dissecting the molecular mechanisms of olfaction in a malaria-vector mosquito, PNAS, 2002, 99(3): 1113-…  相似文献   

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Host preference and blood feeding are restricted to female mosquitoes. Olfaction plays a major role in host-seeking behaviour, which is likely to be associated with a subset of mosquito olfactory genes. Proteins involved in olfaction include the odorant receptors (ORs) and the odorant-binding proteins (OBPs). OBPs are thought to function as a carrier within insect antennae for transporting odours to the olfactory receptors. Here we report the annotation of 32 genes encoding putative OBPs in the malaria mosquito Anopheles gambiae and their tissue-specific expression in two mosquito species of the Anopheles complex; a highly anthropophilic species An. gambiae sensu stricto and an opportunistic, but more zoophilic species, An. arabiensis. RT-PCR shows that some of the genes are expressed mainly in head tissue and a subset of these show highest expression in female heads. One of the genes (agCP1588) which has not been identified as an OBP, has a high similarity (40%) to the Drosophila pheromone-binding protein 4 (PBPRP4) and is only expressed in heads of both An. gambiae and An. arabiensis, and at higher levels in female heads. Two genes (agCP3071 and agCP15554) are expressed only in female heads and agC15554 also shows higher expression levels in An. gambiae. The expression profiles of the genes in the two members of the Anopheles complex provides the first step towards further molecular analysis of the mosquito olfactory apparatus.  相似文献   

16.
Odorant-binding proteins (OBPs) and chemosensory proteins (CSPs) mediate both perception and release of chemical stimuli in insects. The genome of the honey bee contains 21 genes encoding OBPs and 6 encoding CSPs. Using a proteomic approach, we have investigated the expression of OBPs and CSPs in the mandibular glands of adult honey bees in relation to caste and age. OBP13 is mostly expressed in young individuals and in virgin queens, while OBP21 is abundant in older bees and is prevalent in mated queens. OBP14, which had been found in larvae, is produced in hive workers' glands. Quite unexpectedly, the mandibular glands of drones also contain OBPs, mainly OBP18 and OBP21. We have expressed three of the most represented OBPs and studied their binding properties. OBP13 binds with good specificity oleic acid and some structurally related compounds, OBP14 is better tuned to monoterpenoid structures, while OBP21 binds the main components of queen mandibular pheromone as well as farnesol, a compound used as a trail pheromone in the honey bee and other hymenopterans. The high expression of different OBPs in the mandibular glands suggests that such proteins could be involved in solubilization and release of semiochemicals.  相似文献   

17.

Background

The yellow fever mosquito, Aedes aegypti, is the primary vector for the viruses that cause yellow fever, mostly in tropical regions of Africa and in parts of South America, and human dengue, which infects 100 million people yearly in the tropics and subtropics. A better understanding of the structural biology of olfactory proteins may pave the way for the development of environmentally-friendly mosquito attractants and repellents, which may ultimately contribute to reduction of mosquito biting and disease transmission.

Methodology

Previously, we isolated and cloned a major, female-enriched odorant-binding protein (OBP) from the yellow fever mosquito, AaegOBP1, which was later inadvertently renamed AaegOBP39. We prepared recombinant samples of AaegOBP1 by using an expression system that allows proper formation of disulfide bridges and generates functional OBPs, which are indistinguishable from native OBPs. We crystallized AaegOBP1 and determined its three-dimensional structure at 1.85 Å resolution by molecular replacement based on the structure of the malaria mosquito OBP, AgamOBP1, the only mosquito OBP structure known to date.

Conclusion

The structure of AaegOBP1 ( = AaegOBP39) shares the common fold of insect OBPs with six α-helices knitted by three disulfide bonds. A long molecule of polyethylene glycol (PEG) was built into the electron-density maps identified in a long tunnel formed by a crystallographic dimer of AaegOBP1. Circular dichroism analysis indicated that delipidated AaegOBP1 undergoes a pH-dependent conformational change, which may lead to release of odorant at low pH (as in the environment in the vicinity of odorant receptors). A C-terminal loop covers the binding cavity and this “lid” may be opened by disruption of an array of acid-labile hydrogen bonds thus explaining reduced or no binding affinity at low pH.  相似文献   

18.
Anopheles gambiae mosquitoes that transmit Plasmodium falciparum malaria use a series of olfactory cues present in human sweat to locate their hosts for a blood meal. Recognition of these odor cues occurs through the interplay of odorant receptors and odorant-binding proteins (OBPs) that bind to odorant molecules and transport and present them to the receptors. Recent studies have implicated potential heterodimeric interactions between two OBPs, OBP1 and OBP4, as important for perception of indole by the mosquito (Biessmann, H., Andronopoulou, E., Biessmann, M. R., Douris, V., Dimitratos, S. D., Eliopoulos, E., Guerin, P. M., Iatrou, K., Justice, R. W., Kröber, T., Marinotti, O., Tsitoura, P., Woods, D. F., and Walter, M. F. (2010) PLoS ONE 5, e9471; Qiao, H., He, X., Schymura, D., Ban, L., Field, L., Dani, F. R., Michelucci, E., Caputo, B., della Torre, A., Iatrou, K., Zhou, J. J., Krieger, J., and Pelosi, P. (2011) Cell. Mol. Life Sci. 68, 1799–1813). Here we present the 2.0 Å crystal structure of the OBP4-indole complex, which adopts a classical odorant-binding protein fold, with indole bound at one end of a central hydrophobic cavity. Solution-based NMR studies reveal that OBP4 exists in a molten globule state and binding of indole induces a dramatic conformational shift to a well ordered structure, and this leads to the formation of the binding site for OBP1. Analysis of the OBP4-OBP1 interaction reveals a network of contacts between residues in the OBP1 binding site and the core of the protein and suggests how the interaction of the two proteins can alter the binding affinity for ligands. These studies provide evidence that conformational ordering plays a key role in regulating heteromeric interactions between OBPs.  相似文献   

19.
Xu W  Cornel AJ  Leal WS 《PloS one》2010,5(10):e15403
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20.
Agam (Anopheles gambiae) relies on its olfactory system to target human prey, leading eventually to the injection of Plasmodium falciparum, the malaria vector. OBPs (odorant-binding proteins) are the first line of proteins involved in odorant recognition. They interact with olfactory receptors and thus constitute an interesting target for insect control. In the present study, we undertook a large-scale analysis of proteins belonging to the olfactory system of Agam with the aim of preventing insect bites by designing strong olfactory repellents. We determined the three-dimensional structures of several Agam OBPs, either alone or in complex with model compounds. In the present paper, we report the first three-dimensional structure of a member of the C-plus class of OBPs, AgamOBP47, which has a longer sequence than classical OBPs and contains six disulfide bridges. AgamOBP47 possesses a core of six α-helices and three disulfide bridges, similar to the classical OBP fold. Two extra loops and the N- and C-terminal extra segments contain two additional α-helices and are held in conformation by three disulfide bridges. They are located either side of the classical OBP core domain. The binding site of OBP47 is located between the core and the additional domains. Two crevices are observed on opposite sides of OBP47, which are joined together by a shallow channel of sufficient size to accommodate a model of the best-tested ligand. The binding sites of C-plus class OBPs therefore exhibit different characteristics, as compared with classical OBPs, which should lead to markedly diverse functional implications.  相似文献   

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