Molecular characterization and tissue localization of sensory neuron membrane protein from Chinese honey bee, Apis cerana cerana (Hymenoptera: Apidae)

Sensory neuron membrane protein (SNMP) is an olfactory receptor with photoaffinity analogs, capable of binding the pheromone membrane protein receptor deduced from receptor membrane protein with the pheromone–pheromone binding protein complex. However, this hypothesis has not yet been experimentally verified. In this experiment, the cDNA sequence encoding an open reading frame (ORF) of the SNMP gene AccSNMP1 (GenBank, KC012595) was cloned from Chinese honey bee, Apis cerana cerana Fabricius. Results from sequence analysis showed that this gene is 1,563 bp long, and that the ORF encodes 520 amino acids with a predicted molecular weight of 58.02 kDa, and has a theoretical isoelectric point of 5.83. Furthermore, there are two putative transmembrane domains. Multiple sequence alignment indicated that the AccSNMP1 gene from A. cerana cerana had different degrees of identity with the corresponding genes in nineteen other insects at the amino acid level. Phylogenetic analysis of the aligned sequences showed that A. cerana cerana is closely related to Apis mellifera Linnaeus and Bombus impatiens Cresson. Its distribution in tissues, as quantified using real-time RT-PCR, indicated that AccSNMP1 is highly expressed in the antennae and legs of A. cerana cerana, and there was a significant difference (p < 0.05) in gene expression between those tissues and tissues in the thorax, abdomen, snout, and head (not including antennae). Western blotting also confirmed the existence in the antennae of AccSNMP1 with an M _W of 58.0 kDa, which is the same as the expected value of 58.02 kDa. An immunohistochemistry study showed that AccSNMP1 is expressed in the trichoid sensilla of A. cerana cerana antenna. Therefore, the results of this study provide the basis for further studies of the function of SNMP from A. cerana cerana.     

中华蜜蜂的欧洲幼虫腐臭病病原研究

采用中华蜜蜂Apis cerana cerana F.临床自然发病的欧洲幼虫腐臭病(European Foulbrood, EFB)幼虫,对其病原体进行了分离鉴定。结果表明：中华蜜蜂EFB的病原系蜂房蜜蜂球菌Melissococcus pluton。该菌为革兰氏阳性的兼性厌氧菌,形态学及染色特性、致病性试验、血清学试验和细菌DNA G+C mol%试验均证明中华蜜蜂和西方蜜蜂的EFB病原属于同属的蜂房蜜蜂球菌。生理生化特性结果与国外的早期研究结果相近似。该试验为不同地理位置、不同种寄主间蜂房蜜蜂球菌的遗传差异的研究,以及中华蜜蜂EFB病的防治学研究打下基础。     

Genetic reincarnation of workers as queens in the Eastern honeybee Apis cerana

Thelytokous parthenogenesis, or the asexual production of female offspring, is rare in the animal kingdom, but relatively common in social Hymenoptera. However, in honeybees, it is only known to be ubiquitous in one subspecies of Apis mellifera, the Cape honeybee, A. mellifera capensis. Here we report the appearance of queen cells in two colonies of the Eastern honeybee Apis cerana that no longer contained a queen or queen-produced brood to rear queens from. A combination of microsatellite genotyping and the timing of the appearance of these individuals excluded the possibility that they had been laid by the original queen. Based on the genotypes of these individuals, thelytokous production by natal workers is the most parsimonious explanation for their existence. Thus, we present the first example of thelytoky in a honeybee outside A. mellifera. We discuss the evolutionary and ecological consequences of thelytoky in A. cerana, in particular the role thelytoky may play in the recent invasions by populations of this species.     

中华蜜蜂和意大利蜜蜂蜂毒前溶血肽原蛋白cDNA的克隆与序列分析

分别从中华蜜蜂Apis cerana cerana和意大利蜜蜂Apis mellifera工蜂毒腺中抽提总RNA,通过RT-PCR方法扩增,各得到了蜂毒前溶血肽原蛋白的cDNA,再将扩增产物克隆到pGEM-Teasy载体上,进行测序和序列分析。结果表明,所扩增到的这两个片段长度均为213 bp,均为编码蜂毒前溶血肽原的cDNA,并分别推导出两者所编码的氨基酸序列。经序列比较,中华蜜蜂前溶血肽原与意大利蜜蜂、印度蜜蜂Apis cerana indica前溶血肽原的同源性都为97%。所报道的中华蜜蜂蜂毒前溶血肽原的核苷酸序列的GenBank登录号为AF487907。     

中华蜜蜂精子介导egfp基因转移

中华蜜蜂Apis cerana cerana是一种真社会性昆虫,也是我国重要的经济昆虫。本实验目的是为了检测精子是否可以作为载体将外源egfp基因介导转入中华蜜蜂。首先将雄蜂精子与线性化的质粒DNA共浴,然后通过人工授精技术将精子导入处女王,再对实验蜂群后代进行分析。结果显示EGFP蛋白在一群实验组蜂的1～2日龄小幼虫中表达较强,能检测到0.01%～0.02%荧光阳性小幼虫个体;通过PCR和RT-PCR技术分析,证实转入的外源egfp基因获得表达。实验结果表明精子载体法能够用于中华蜜蜂外源基因的转移和表达。     

中华蜜蜂DNA甲基化转移酶Dnmt3基因克隆及表达谱分析

为探究中华蜜蜂Apis cerana cerana的DNA甲基化模式, 本研究采用RT PCR技术克隆了中华蜜蜂DNA甲基化转移酶3（Dnmt3）基因(GenBank登录号为JQ740768); 采用荧光定量PCR检测不同发育时期工蜂（4日龄蛹, 1, 7和30日龄成年蜂及产卵工蜂）和蜂王（4日龄蛹, 1日龄蜂王和产卵蜂王）头部的Dnmt3基因mRNA的表达量。结果表明： 该基因cDNA序列全长2 277 bp, 编码758个氨基酸残基, 预测的蛋白分子量为88.24 kD, 等电点为7.85。将中华蜜蜂与其他物种的Dnmt3基因的结构域进行比对, 同时将该基因推导的氨基酸序列与其他物种的Dnmt3氨基酸序列进行同源性比对和系统发育分析, 发现与西方蜜蜂的Dnmt3序列一致性高达99%。该基因在工蜂和蜂王不同发育时期均有表达, 1日龄工蜂与7日龄工蜂中没有显著差异(P>0.05), 30日龄工蜂中的表达量显著高于前两者 (P<0.05); 蜂王蛹中的表达量显著高于工蜂蛹 (P<0.05); 1日龄的蜂王中的表达量显著高于1日龄的工蜂(P<0.05); 产卵工蜂与产卵蜂王中的表达量没有差异（P>0.05）。这种表达情况提示其可能与工蜂劳动分工及蜜蜂卵巢发育有关。     

Flower visitation patterns of the coexisting honey bees Apis cerana japonica and Apis mellifera (Hymenoptera: Apidae)

We compared flower visitation patterns of two coexisting honey bees, Apis mellifera Linnaeus and Apis cerana japonica Radoszkowski, on 20 plant species, including three exotics, under natural conditions in Nara, Japan, from April to August 2012. We also measured flower color based on bee color vision (15 flower species), nectar volume (nine species) and nectar concentration (eight species). Flowers colored white, pink, red, purple and cream were classified as bee‐blue‐green, and yellow was classified as bee‐green. Apis cerana visited 14 plant species and A. mellifera visited 11. Although the two Apis species are similar in morphology, they visited different plants: in particular, A. cerana visited native plant species more often than did A. mellifera. Both A. mellifera and A. cerana visited not only nectariferous flowers but also those with no nectar. We also found different visitation patterns between A. cerana and A. mellifera: Apis cerana more often visited flowers with smaller color angle (bee‐blue‐green), lower chroma and higher brightness, and flowers secreting nectars of higher concentration and smaller volume than did A. mellifera.     

澜沧江流域北部中华蜜蜂有毒蜂蜜孢粉学和营养生态位分析

为分析澜沧江流域北部人食用蜂蜜中毒的原因,于2013年6—9月份,对该区域蜜蜂和蜜源植物的分布情况进行了调查,观察蜜蜂采集有毒蜜源植物的行为,并进一步调查了蜜蜂巢内蜂蜜、蜂花粉的储存情况,采集了中华蜜蜂蜂蜜样品,进行蜂蜜孢粉学与营养生态位分析。该区域有大量采用传统方式进行人工饲养的中华蜜蜂(Apis cerana cerana),及少量野生中华蜜蜂、黑色小蜜蜂(Apis audreniformis)、黑色大蜜蜂(Apis laboriosa smith)群体分布;人工饲养的中华蜜蜂蜂巢内部结构与野生中华蜜蜂蜂巢相似,为自然蜂巢,内有充足的蜜粉储存,部分蜂群蜂巢内虫害严重。该区域内主要蜜源植物为荞麦(Fagopyrum esculentum Moench),其他零星辅助蜜源较多,部分地点南烛(Vaccinium bracteatum Thunb)、昆明山海棠(Tripterygium hypoglaucum(Levl.)Hutch)连片集中分布。对中华蜜蜂蜂蜜进行孢粉学和营养生态位分析,结果表明:中华蜜蜂蜂蜜标本中含有有毒蜜源植物南烛、昆明山海棠花粉,部分样品中南烛、昆明山海棠的花粉含所占比例较高;中华蜜蜂的营养生态位宽度为0.22,比其他地区中华蜜蜂生态位指数小,推测澜沧江水电枢纽的修建等人为原因已对蜜蜂种类、蜜源植物的物种组成、群落结构造成了较大影响。     

华东地区中华蜜蜂六地理种群的遗传多样性及遗传分化

目的】利用23对微卫星标记对来自于南昌、黄山、桐庐、费县、宜兴、武夷山6个华东地区的中华蜜蜂Apis cerana cerana种群进行遗传多样性及遗传分化分析。【方法】通过计算多态信息含量、平均杂合度、等位基因数、遗传距离、基因流、F 统计量等参数, 评估各中蜂种群遗传多样性和各种群间遗传分化。【结果】各座位的等位基因数为5（A014）至30（AP043）。所有种群均显示较高水平的期望杂合度, 其中, 武夷山中蜂最低, 为0.4280; 南昌中蜂最高, 为0.6329。各中蜂种群间存在极显著的遗传分化, 平均分化系数(Fst)为0.344。基于Nei氏遗传距离运用NJ聚类法将6个中蜂种群划分为3类。【结论】华东6个中蜂种群的遗传多样性较高, 遗传分化显著; 分析遗传分化与地理距离的关系发现, 华东6个中蜂种群间的遗传分化与地理距离不存在显著相关。     

婚飞行为影响中华蜜蜂性成熟处女蜂王的基因表达

婚飞是性成熟处女蜂王与雄蜂交配过程中的一个重要前奏, 在该过程中蜂王体内伴随着一系列重要的生理变化。为了探究中华蜜蜂Apis cerana cerana处女蜂王婚飞过程中基因表达变化, 本研究利用数字基因表达谱(digital gene expression, DGE) 技术分析了中华蜜蜂性成熟处女蜂王飞行与未飞行之间的基因表达差异。经DGE测序, 分别从两个样品中获得5.98和6.01 百万条Clean标签。通过分析检测到250个基因有差异表达, 其中133个基因在飞行蜂王中上调表达, 117个基因在飞行蜂王中下调表达。这些差异基因可以归类到348个功能性类别和142个生化途径。结果表明中华蜜蜂性成熟处女蜂王在婚飞过程中大量基因的表达发生了变化。这些结果为进一步研究中华蜜蜂蜂王婚飞过程中生理变化的分子机制提供了重要的基因表达信息。     

中华蜜蜂交配和产卵行为生态学研究

研究了中华蜜蜂(Apis cerana cerana Fab.)蜂王与雄蜂交配行为生态以及蜂王产卵行为生态。结果表明,温度对中华蜜蜂蜂王和雄蜂封盖子期影响,导致蜂王初生重、性成熟时间差异显著(P<0．05),蜂王和雄蜂认巢飞行次数分别为1．23～1．31和1．08～1．13,持续时间分别为0．12～0．13和0．16～0．20h;蜂王和雄蜂交配飞行次数分别为1．10～1．12和1．01～1．05,持续时间分别为0．22～0．23和0．18～0．23h;蜂王与雄蜂交配最适宜温度为20～28℃,蜂王交配飞行一次侧输卵管的精子数为3．37×10^6～4．15×10^6,自然交配产卵蜂王受精囊精子数为3．55×10^6～3．62×10^6蜂王初生重与产卵量之间呈正相关,周年蜂王产卵量受气候和蜜粉源影响明显。