皖南与皖西南蚕区球抱白僵菌种群遗传结构的ISSR分析

由球袍白僵菌引起的家蚕白僵病是影响蚕业生产的重要因素之一本研究在皖南泾县和皖西南潜山县蚕区的病蚕、蚕室环境、蚕室周边桑园、松林及农田调查取样,共分离出124株球袍白僵菌;通过ISSR分子标记对它们及用于防治松毛虫的菌株进行种群遗传结构分析,追踪家蚕白僵病的来源及传播途径.结果表明:两个地区的球袍白僵菌种群均为异质性明显的种群.潜山的蚕病亚种群是多源的,而泾县的蚕病亚种群是单源的;泾县蚕病亚种群和潜山的蚕病优势亚种群具有典型的地方性,只在蚕室内循环侵染家蚕,引起低频常在性的地方性白僵病;而潜山的非优势亚种群可以在蚕室外的少数转主寄主中传播.在两地松林的松毛虫种群中流行的类群、真菌杀虫剂生产菌株以及在潜山蚕室附近引起螳螂种群流行病的类群均与蚕病类群无关,表明其对蚕业是安全的.     

球孢白僵菌种群在松林中的寄主转移及遗传多样性对松毛虫持续控制的影响

通过林间接种式放菌及其后一周年的野外调查,从林间采集到30种寄主昆虫及从土壤、落叶和气流中分离到119株球孢白僵菌.酯酶同工酶分析表明,它们属于32个不同酯酶型,呈现出丰富的遗传多样性.释放菌株所属的酯酶型02包括从11种昆虫上分离出的18个菌株,表明林间释放的菌株已成功地在不同寄主昆虫种群中宿存下来,并以常发的地方病状态存在于松毛虫及松灰象甲等12种昆虫种群之中;当林间目标寄主缺乏时,其它寄主可将食物链维系下去.其它酯酶型分别包括1～23个菌株.一周年内的寄主转移动态结果表明,球孢白僵菌在松林生态系统中不同寄主间可转移寄生.每个酯酶型中的菌株对松毛虫的毒力相差很大.表明球孢白僵菌在松林中的延续和扩散流行不是1条路线,每个酯酶型至少代表食物网上的1条支链.有些环节的寄主连接了不同的酯酶型,使松林中食物网变得十分复杂.另外,从土壤、枯枝落叶层、林冠层和空气中分离到的球孢白僵菌分属于不同的酯酶型,表明松林中还存在着复杂的腐生食物链,有利于松毛虫及其它害虫的持续控制.     

球孢白僵菌释放后在森林系统中定殖及持续控虫作用的证据

在皖南马尾松林中使用球孢白僵菌无纺布菌条接种式放菌防治松褐天牛。在放菌前进行球孢白僵菌本底调查,在放菌后半年内采集该菌感染的各种僵虫,得到87株分离物。利用28SrDNA-PCRⅠ型内含子标记技术,测定放菌后释放菌株的回收率。结果表明,在87株球孢白僵菌中有66株与释放菌株的核型相同,占75.86%。半年中平均回收率为81.7%(75%-90.9%之间),这表明释放菌株已在该生态系中定殖,对松褐天牛种群发挥持续控制作用。在放菌前后球孢白僵菌种群结构有所变化,释放菌株有取代土著菌株优势地位的趋向。     

球孢白僵菌释放后在森林系统中定殖及持续控虫作用的证据

在皖南马尾松林中使用球孢白僵菌无纺布菌条接种式放菌防治松褐天牛。在放菌前进行球孢白僵菌本底调查,在放菌后半年内采集该菌感染的各种僵虫,得到87株分离物。利用28SrDNA-PCRⅠ型内含子标记技术,测定放菌后释放菌株的回收率。结果表明,在87株球孢白僵菌中有66株与释放菌株的核型相同,占75.86%。半年中平均回收率为81.7%(75%-90.9%之间),这表明释放菌株已在该生态系中定殖,对松褐天牛种群发挥持续控制作用。在放菌前后球孢白僵菌种群结构有所变化,释放菌株有取代土著菌株优势地位的趋向。     

球孢白僵菌种群在松林中的寄主转移及遗传多样性对松毛虫持续控制的影响

通过林间接种式放菌及其后一周年的野外调查,从林间采集到30种寄主昆虫及从土壤、落叶和气流中分离到119株球孢白僵菌．酯酶同工酶分析表明,它们属于32个不同酯酶型,呈现出丰富的遗传多样性．释放菌株所属的酯酶型02包括从11种昆虫上分离出的18个菌株,表明林间释放的菌株已成功地在不同寄主昆虫种群中宿存下来,并以常发的地方病状态存在于松毛虫及松灰象甲等12种昆虫种群之中;当林间目标寄主缺乏时,其它寄主可将食物链维系下去．其它酯酶型分别包括1～23个菌株．一周年内的寄主转移动态结果表明,球孢白僵菌在松林生态系统中不同寄主间可转移寄生．每个酯酶型中的菌株对松毛虫的毒力相差很大,表明球孢白僵菌在松林中的延续和扩散流行不是1条路线,每个酯酶型至少代表食物网上的1条支链．有些环节的寄主连接了不同的酯酶型,使松林中食物网变得十分复杂,另外。从土壤、枯枝落叶层、林冠层和空气中分离到的球孢白僵菌分属于不同的酯酶型,表明松林中还存在着复杂的腐生食物链,有利于松毛虫及其它害虫的持续控制。     

两广地区家蚕白僵菌的SSRs遗传多样性

为查明广东和广西地区家蚕Bombyx mori病原白僵菌的来源及其菌株间的相互关系, 本研究利用了微卫星标记（simple sequence repeats, SSRs）技术, 分别对采自广东、 广西蚕区的白僵菌菌株居群之间和居群之内的遗传多态性进行了研究。结果发现, 两广白僵菌居群之间的基因分化系数（Gst）是0.0590, 多态位点百分率（PPL）为97.73%, Nei氏基因多样性指数（H）为0.1896, Shannon氏信息多样性指数（I）为0.3165, 表明两广家蚕来源的白僵菌居群间的遗传分化较小; 两个居群内部的遗传多态性研究结果分别是广东白僵菌居群的PPL=68.18%, H=0.1910, I=0.3044, 而广西白僵菌居群的PPL=65.91%, H=0.1713, I=0.1791, 表明广东白僵菌居群的遗传多样性水平较高, 广西白僵菌居群遗传多样性水平相对较低。最后, 利用Nei氏遗传距离进行了两广地区白僵菌菌株间地理来源关系的聚类分析, 结果表明实验室保存菌株单独聚为类群Ⅰ, 而不同采集地的菌株聚为类群Ⅱ。结果反映了生产来源的白僵菌菌株存在遗传多态性和基因分化现象, 暗示了家蚕白僵病病原来源的复杂性, 还说明应用SSRs技术进行家蚕白僵病病原的溯源是一条可行的途径。     

中国北方球孢白僵菌的遗传多样性和种群遗传结构

将在中国北方13省采集分离的622株球孢白僵菌按省份划分成13个亚种群,其中寄主可以鉴定到目的8目昆虫和蜘蛛目的568株按目划分成9个亚种群,用ISSR(简单重复序列区间)分子标记技术进行遗传多样性和种群遗传结构分析.结果表明:各多样性指数皆显示我国北方地区球孢白僵菌的遗传多样性水平较高,种群的异质性较强.其中内蒙古亚种群的遗传多样性和种群异质性最高,河南亚种群最低;鳞翅目亚种群的遗传多样性和种群异质性最高,蜘蛛目亚种群最低.河南与辽宁亚种群间以及蜘蛛目与螳螂目亚种群间的遗传分化系数以及遗传距离最大,宁夏与陕西亚种群间以及鞘翅目与膜翅目亚种群间最小.按寄主目划分的亚种群间的平均遗传分化系数和平均遗传距离均低于按省份划分的亚种群.这些结果以及基于遗传距离的亚种群聚类分析都证明我国北方球孢白僵菌的遗传谱系与寄主来源和地理来源均无关系.我国北方球孢白僵菌的变异主要是由各不同寄主目内科间及属间的变异造成的,也是由各省不同采集地以及采集地内部不同微生境间的差异造成的.     

马尾松纯林中球孢白僵菌种群的遗传异质性

应用ISSR分子标记对安徽省麻姑山马尾松人工纯林的111株球孢白僵菌进行遗传异质性分析,7个引物共得到58个位点,其中多态位点比率为93.10%.不同调查时间亚种群的Nei基因多样性(He)为0.2552,Shannon信息指数(I)为0.3825,亚种群间的基因分化系数(Gst)为0.2269,基因流(Nm)为0.8518,其中5月和7月间的遗传距离最小,为0.0408;不同寄主亚种群的He为0.2623、I为0.3884,亚种群间的Gst为0.1964、Nm为1.0223,其中鞘翅目和鳞翅目间亚种群的遗传距离最小,为0.0163.表明麻姑山球孢白僵菌存在较高的遗传异质性,亚种群间的遗传变异较小,亚种群内表现出相对较大的遗传变异,未见ISSR图谱相同或高度相似的菌株.     

白僵菌生物防治林中虫生真菌群落结构分析

对白僵菌生物防治林中虫生真菌群落的结构研究表明,长期接种式释放白僵菌的马尾松林中虫生真菌共有属7种.球孢白僵菌的数量占绝对优势,为总数的63.22%;拟青霉次之,占25.86%;绿僵菌占9.20%;轮枝孢仅占1.72%.从寄主昆虫的多样性来看,球孢白僵菌和环链拟青霉的Brillouin多样性指数分别为3.56和2.315,均匀度分别为0.81和0.865;粉拟青霉和蜡蚧轮枝孢的多样性指数分别为1.71和0.862,均匀度为0.963和1.000而黄绿绿僵菌、金龟子绿僵菌和玫烟色拟青霉多样性和均匀度指标均较低.不同季节中被白僵菌侵染的寄主昆虫多样性指数呈现出春秋高、夏季低的趋势,反映了白僵菌种群的季节性变化.     

解淀粉芽孢杆菌SWB16菌株脂肽类代谢产物对球孢白僵菌的拮抗作用

【目的】筛选对球孢白僵菌(Beauveria bassiana)具有较强拮抗作用的细菌菌株及检测菌株脂肽类代谢产物的拮抗活性。【方法】通过形态学观察、生理生化实验、16S rRNA和gyrA基因序列分析鉴定目标菌株;用滤纸片扩撒法(K-B法)测定抑菌圈的直径;采用甲醇萃取菌株发酵液以提取脂肽类代谢产物,并显微观察提取物对白僵菌分生孢子及菌丝的拮抗作用;高效液相色谱-质谱联用方法及靶基因克隆技术检测菌株脂肽类代谢产物的主要成分和基因。【结果】从植物盾叶薯蓣(Dioscorea zingiberensis C.H.Wright)组织内分离得到了一株对球孢白僵菌具有较强拮抗活性的菌株SWB16,该菌株属于解淀粉芽孢杆菌(Bacillus amyloliquefaciens),其脂肽类提取物对球孢白僵菌分生孢子的发芽和菌丝生长均具有明显的抑制作用,质谱检测表明提取物的主要成分是芬枯草菌素和伊枯草菌素,从菌株基因组中克隆到编码芬枯草菌素和伊枯草菌素的fenB基因和ituA基因。【结论】解淀粉芽孢杆菌(B.amyloliquefaciens)SWB16菌株能产生脂肽类抗生素并对球孢白僵菌具有拮抗作用,拮抗活性显示该菌株对防治家蚕等经济昆虫的白僵病具有潜在的应用价值。     

马尾松林中球孢白僵菌寄主转移和专化性的SSR标记分析

球孢白僵菌是一种最常见的虫生真菌,已被广泛应用于害虫生物防治。利用SSR简单序列重复(simple sequence repeat,SSR)分子标记对来自安徽省麻姑山马尾松林的102株球孢白僵菌进行基因分型、寄主转移和寄主专化性研究。9对微卫星引物将102株白僵菌分成31个微卫星基因型。在这31个微卫星基因型中,有5种基因型株系为相对优势菌株,这5种基因型株系通过侵染不同寄主昆虫即寄主转移延续自身在马尾松林生态系统中的传播和流行,从而证实寄主转移是白僵菌群体中的普遍现象。同时,这些相对优势基因型并不是在各个月份均匀分布,在大部分月份中,存在1–2种优势度高的基因型。相同基因型株系可侵染不同寄主的结果揭示出白僵菌不仅在种的水平,而且在菌株水平上寄主专化性也较弱。正是白僵菌较弱的寄主专化性特征促使部分基因型株系通过寄主转移,在马尾松林生态系统中得以宿存和延续。     

中国养蚕科技新进展

<正> 中国是世界蚕业发祥地。蚕丝是中国传统的出口商品,1990年创汇25亿美元,产茧47.5万吨,占世界总产量65％,生丝出口占国际市场90％以上,丝绸出口占45％左右,都占世界第一位。本文简述我国养蚕科技最新进展及其对蚕业生产发展所起的作用。     

白僵菌在松毛虫体上宿存侵染的电镜扫描观察

通过扫描电子显微镜,观察了几种人工的或自然的环境下白僵菌在马尾松毛虫体上的宿存与侵染过程,描述了分生孢子的萌发和菌丝形成中的形态变化,讨论了致病效果与环境的关系,对林间应用提出了建议。结果表明：在２５℃和９５％的温湿度条件下,分生孢子萌发较快,萌发率和侵入率较高;白僵病的发生需要８５％以上的相对湿度,这是自然环境中防治效果的制约因子;在松毛虫每年发生２～３代的我国林区,冬季放菌做法不宜提倡,６月份放菌更为适宜。     

A novel protease inhibitor in Bombyx mori is involved in defense against Beauveria bassiana

Entomopathogenic fungi, such as Beauveria bassiana, penetrate the insect cuticle using a plethora of hydrolytic enzymes including cuticle-degrading proteases and chitinases, which are important virulence factors. The insect integument and hemolymph contains a relatively high concentration of protease inhibitors, which are closely involved with defense against pathogenic microorganisms. To elucidate the molecular mechanism underlying resistance against entomopathogenic fungi and to identify a new molecular target for improving fungal resistance in the silkworm, Bombyx mori, we cloned and expressed a novel silkworm TIL-type protease inhibitor BmSPI38, which was very stable over a wide range of temperatures and pH values. An activity assay suggested that BmSPI38 potently inactivated the insecticidal cuticle-degrading enzyme (CDEP-1) produced by B. bassiana and subtilisin A produced by Bacillus licheniformis. The melanization of silkworm induced by CDEP-1 protease could also be blocked by BmSPI38. These results provided new insights into the molecular mechanisms whereby insect protease inhibitors provide resistance against entomopathogenic fungi, suggesting the possibility of using fungal biopesticides in sericulture.     

Protein Profile of <Emphasis Type="Italic">Nomuraea rileyi</Emphasis> Spore Isolated from Infected Silkworm

Nomuraea rileyi (N. rileyi) is the causative agent of the silkworm, Bombyx mori, green muscardine which can cause severe worldwide economical loss in sericulture. Little is known about N. rileyi at the protein level for this entomopathogenic parasite which belongs to the Ascomycota. Here, we employed proteomic-based approach to identify proteins of N. rileyi spores collected from the dead silkworm. In all, 252 proteins were separated by two-dimensional gel electrophoresis (2-DE), and were subjected to mass spectrometry (MS) analysis, 121 proteins have good MS signal, and 24 of them were identified due to unavailability of genomic information from N. rileyi. This data will be helpful in understanding the biochemistry of N. rileyi.     

BP网络模型和LOGIT模型在森林害虫测报上的应用初报——以安徽省潜山县马尾松毛虫为例

以安徽省潜山县马尾松毛虫测报为例,在潜山县全县设置102个诱捕点,诱集越冬代成虫,并同时记录环境因子数据,例如树高、树龄、坡向、植被等。以这些环境因子为测报因子,以性外激素诱集到的雄蛾数代表田间实际发生情况,构建了森林重要害虫-马尾松毛虫的分类测报模型-BP人工神经网络和概率测报模型。BP网络模型的拟合率为100%,预留样检验报准率为100%。LOGIT模型的一致对率为74%。两类模型的拟合结果和预测结果基本吻合。BP网络的测报能力优于LOGIT模型。     

后记（英文）

正Half a century ago,the first discovery of the Paleocene vertebrates at Dinghuawu,Xiaoshi,Huaining County opened a door for understanding the Paleocene vertebrate fauna in the Qianshan Basin,Anhui Province,China.Since 1970,colleagues from the Institute of Vertebrate Paleontology and Paleoanthropology(IVPP),Chinese Academy of Sciences have carried out a long term and continuous investigations to the Qianshan Paleocene,with     

Molecular tracing of white muscardine of the silkworm,Bombyx mori I: genetic structure analysis of Beauveria bassiana populations as the causal agents in China

Beauveria bassiana is a ubiquitous entomopathogenic fungus, which causes white muscardine in the silkworm, Bombyx mori, and is an important limiting factor in global silk production. Knowledge of the genetic structure of B. bassiana populations as the causal agents in China will aid in tracing the origins of muscardine and in developing effective control strategies. In the present study, a total of 489 B. bassiana isolates were obtained from silkworm cadavers in 12 different provinces of China. An analysis of the genetic structure of the causal agent populations using the internal simple sequence repeat technique to trace their origins revealed a high level (100%) of DNA polymorphism. An unweighted pair group method with arithmetic mean dendrogram revealed that the 489 B. bassiana isolates were heterogenic and polyphyletic and displayed typical regional distribution, although the genetic differentiations were not associated with geographic distance. The genetic differentiation (G_st) among populations reached 0.406, with the maximum G_st between populations reaching 0.647. The general gene flow (N_m) was low at 0.366, with the lowest at only 0.137, suggesting that the low gene flow maintained a high degree of differentiation. These data indicated that the white muscardine in each local silkworm population was predominantly caused by a native group of B. bassiana, rather than by any exotic strain as in the case of biological control based on B. bassiana insecticides.     

桑蚕畜禽生态系统的物质和能量流动

栽桑养蚕是我国农村的一项传统副业,至少已有5000年的悠久历史。传统的栽桑养蚕体制对自然资源和设备的利用不尽合理。例如,在江浙蚕区,每年桑树无叶期长达5个月之久,其间每1ha桑园大约接受1.26×10~(13)J的太     

Mulberry improvements via plastid transformation and tissue culture engineering

The in vitro tissue culture and micropropagation studies for Morus spp., a pivotal sericulture plant, are well established. The rapid and reproducible in vitro response to plant growth regulator treatments has emerged as an essential complement of transformation studies for this plant species. A major area of study is the use of protoplast culture and fusion techniques where advantages to mulberry improvement can be applied. The advancements in genetic transformation of mulberry are reviewed, and a section on strategy for transforming plastids (chloroplasts) of mulberry is included. A role for mulberry in “molecular farming” is envisioned. The conclusions and future prospects for improvement of this economically important tree species are proposed.Key words: molecular farming, Morus spp., plastid transformation, protoplast electrofusion, sericultureThe importance of silk production is well recognized in sericulture industry that involves cultivation of host plants for silkworm rearing. India is one of the countries where sericulture is an important agro-based cottage industry involved in production of five different silk types—mori, muga, eri, tasar and oak types. This classification comes from type of host plant that act as feed for silkworm, and thus sericulture industry largely depends on the availability of host plant species. Bombyx mori (mulberry silkworm) feeds on mulberry leaves, Philosomia ricini (eri silkworm) on castor leaves, Anthraea assama (muga silkworm) on som and soalu leaves, Anthraea proylei (temperate/oak tasar silkworm) on oak leaves, and Anthraea mylitta (tropical tasar silkworm) on Terminalia leaves. A systematic and proper cultivation of novel primary and/or secondary host plants showing high yield, suitability to silkworm rearing, and resistance to different abiotic stress conditions i.e., tolerance to water stress, alkalinity and salinity are recommended for sericulture improvement.The genus Morus (commonly known as mulberry) belongs to the family Moraceae, is a group of dioecious woody trees/shrubs. Many varieties of these species are cultivated on a commercial scale in India, China, Japan and Korea for the sericulture industry.¹ In India, six species are found, namely, M. alba L., M. indica L., M. nigra L., M. atropurpurea Roxb., M. serrata Roxb. and M. laevigata Wall.² Due to higher economic return and greater employment potential, attempts are been made to increase productivity by developing high yielding mulberry varieties. At present, Mysore local, Bomaypiasbari, Kanva-2 (K2), Bilidevalaya, Kajli, Sujanpur-1 (S1), BC (2) 59, C776, RFS-175, S36 and Victory-1 are being cultivated extensively in different parts of India.