黄鳝骨硫酸软骨素提取纯化的初步研究

在稀碱-酶解提取基础上,辅以超声波破碎从黄鳝（Monopterus albus）骨中提取硫酸软骨素（Chondroitin Sulfate,CHS）。比较了三氯乙酸（TCA）法、Sevag法和等电点法除蛋白的效果,并进行了多糖的乙醇分级沉淀实验;粗品经离子交换树脂（CM22）和透析膜（3500Da）透析进一步分离纯化。研究结果表明酶解后用TCA法除蛋白效果好,再加入除蛋白液2倍体积95％乙醇可使大部分CHS沉淀析出;精制品经鉴定含有硫酸基,CHS含量达92．31％;琼脂糖凝胶电泳和红外吸收光谱结果显示精制品与标准CHS相似,初步确定提取物为CHS类多糖。     

昆虫图像自动鉴别技术

昆虫是地球上物种多样性最为丰富的生物类群,其物种鉴定任务复杂而艰巨,可靠的物种鉴定是开展昆虫学工作的重要基础之一。当前,国内外的人工昆虫物种鉴定能力均不能满足实际需求,因而人们开始不断探索利用计算机自动鉴定昆虫的原理和方法。目前,模式识别技术的迅猛发展已为昆虫图像的自动鉴定提供可能。文章概述昆虫图像自动鉴定技术研究的历史与现状,总结主要原理和方法,介绍工作流程,并展望发展前景。     

长期施肥条件下黄土旱塬土壤N03^--N的淋溶分布规律

在黄土旱塬区,长期施肥对土壤剖面NO3^-1—N含量和分布有显著影响．施用化学氮肥,土壤剖面中出现NO3^-1—N的淋溶与深层累积,而施用磷肥和有机肥有减弱NO3^-1—N向更深层淋溶的作用．单施氮肥处理(N),NO3^-1—N的累积峰深度最大,为120～200cm;N、P有机肥配施处理(NPM),NO3^-1—N的累积峰值最高,但峰深度降低至60～120cm;N、P配施(NP)累积深度为80～140cm．不施氮肥,分布在土壤剖面中NO3^-1—N含量显著降低．氮肥用量愈大,NO3^-1—N的累积量愈大．N、P配施可以有效降低NO3^-1—N累积．在同一氮肥用量下,NO3^-1—N累积量随磷肥用量的增加而减少．     

长期施肥对NO3^——N深层积累和土壤剖面中水分分布的影响

研究了旱地农业系统中,长期不同施肥条件下,降水对NO3^--N积累、剖面水分分布以及N有收量、回收率影响及其相互之间的关系。结果表明,降水和氮肥施用量显著影响作物产量。施用氮肥在土壤剖面中造成NO3^--N深层积累,其中NPM处理累积层位于60－120cm,累积量相当于3.0年的年度施肥量（120kg·hm^-2）,NP处理累积层位于80－140cm,相当于1.4年施肥量。随着降水的年际间波动,进化论在丰水年、平水年还是干旱年,NPM处理耗水量＞NP处理＞M处理＞P,CK处理。12年不同施肥造成了土壤剖面水分差异。冬小麦播种前不同施肥处理0－100cm水分剖面分布差别不大,NPM处理、NP处理（除丰水年外）,土壤100－300cm含水量迅速降低,干旱年M处理缓慢降低,P和CK处理在任何年份变化都不大,氮肥回收率随着降水的波动也呈现相应的高低变化,NPM、NP处理的高低波动幅度最大。NPM、NP处理NO3^-－N累积与N素回收率的降低、土壤水分亏缺基本吻合。由此也反映了水分－作物－施肥三者之间存在的内在制约关系。     

Isolation,Diversity, and Antimicrobial Activity of Rare Actinobacteria from Medicinal Plants of Tropical Rain Forests in Xishuangbanna,China

Endophytic actinobacteria are relatively unexplored as potential sources of novel species and novel natural products for medical and commercial exploitation. Xishuangbanna is recognized throughout the world for its diverse flora, especially the rain forest plants, many of which have indigenous pharmaceutical histories. However, little is known about the endophytic actinobacteria of this tropical area. In this work, we studied the diversity of actinobacteria isolated from medicinal plants collected from tropical rain forests in Xishuangbanna. By the use of different selective isolation media and methods, a total of 2,174 actinobacteria were isolated. Forty-six isolates were selected on the basis of their morphologies on different media and were further characterized by 16S rRNA gene sequencing. The results showed an unexpected level of diversity, with 32 different genera. To our knowledge, this is the first report describing the isolation of Saccharopolyspora, Dietzia, Blastococcus, Dactylosporangium, Promicromonospora, Oerskovia, Actinocorallia, and Jiangella species from endophytic environments. At least 19 isolates are considered novel taxa by our current research. In addition, all 46 isolates were tested for antimicrobial activity and were screened for the presence of genes encoding polyketide synthetases and nonribosomal peptide synthetases. The results confirm that the medicinal plants of Xishuangbanna represent an extremely rich reservoir for the isolation of a significant diversity of actinobacteria, including novel species, that are potential sources for the discovery of biologically active compounds.The class Actinobacteria accounts for a high proportion of soil microbial biomass and contains the most economically significant prokaryotes, producing more than half of the bioactive compounds in a literature survey (46), including antibiotics (6), immunosuppressive agents (55), antitumor agents (18), and enzymes (64). Actinobacteria belonging to the genus Streptomyces, in particular, are excellent producers. The emergence of drug resistance in many bacterial pathogens and the current increase in the number of fungal infections has caused a resurgence of interest in finding new reserves of biologically active compounds (63). As the search for novel natural products continues, it becomes apparent that the rate of discovery of new compounds from soil streptomycetes has decreased, whereas the rate of reisolation of known compounds has increased (28). Recently, evidence has accumulated that rare actinomycete species, which are often very difficult to isolate and cultivate, might represent a unique source of novel biologically active compounds (4). On the other hand, new microbial habitats need to be examined in the search for novel bioactive compounds. One biologically important but relatively overlooked niche is the inner tissues of higher plants. Early studies have demonstrated that some actinobacteria can form intimate associations with plants and colonize their inner tissues. Frankia species and Streptomyces scabies can penetrate their hosts and establish either pathogenic or endophytic associations (5, 24). The actinomycetes that reside in the tissues of living plants and do not visibly harm the plants are known as endophytic actinobacteria (37). These actinobacteria are relatively unstudied and are potential sources of novel natural products for exploitation in medicine, agriculture, and industry (73).Endophytic actinobacteria have attracted attention in recent years, with increasing reports of isolates from a range of plant types, including crop plants (cereals, such as wheat and rice, as well as potatoes, carrots, tomatoes, and citrus) (2, 16, 62, 71, 74, 80) and medicinal plants (75, 88). The culturable endophytic actinobacteria from these plants were found to fall within a narrow species distribution: Streptomyces spp. were the predominant species, and Microbispora, Micromonospora, Nocardioides, Nocardia, and Streptosporangium were the common genera. Endophytic actinobacteria have been demonstrated to improve and promote the growth of host plants as well as to reduce disease symptoms caused by plant pathogens through various mechanisms, including the production of secondary metabolites, which are used in direct antagonism against pests and diseases (9, 10, 12), changes in host physiology (42), and the induction of systemic acquired resistance in plants (15). Another significant function found for these actinobacteria was antibiotic activity, suggesting that endophytic actinobacteria can be an interesting source for bioprospecting. New antibiotics from endophytic Streptomyces spp.—alnumycin, munumbicins A to D, and coronamycins—have been reported (7, 11). Recently, two novel antitumor anthraquinones, lupinacidins A and B, were isolated from a new endophytic Micromonospora sp. (43). Moreover, new species of endophytic actinobacteria have been increasingly reported (25, 35). Thus, endophytic actinobacteria are expected to be potential sources of new species and new bioactive agents.Of the myriad ecosystems on earth, those with the greatest general biodiversity seem also to have the greatest number and the greatest diversity of endophytes (73). Tropical and temperate rain forests are the most biologically diverse terrestrial ecosystems on earth and thus the greatest possible resource for the acquisition of novel microorganisms and their products (73). One area of enormous plant biodiversity is Xishuangbanna, located in the People''s Republic of China at the border with Myanmar. This area lies at the ecotone between the Asian tropics and subtropics and is dominated by tropical seasonal rain forests (87). Xishuangbanna contains more than 5,000 species of vascular plants, comprising 16% of China''s total plant diversity, and more than 3,000 are endemic species (53, 60), many of which have ethnobotanical histories. Until the present, little research was carried out to isolate endophytic actinobacteria and their secondary metabolites from Xishuangbanna (36, 86). In our long-term study of endophytic actinobacterial diversity and bioactive metabolites from tropical rain forest medicinal plants in Xishuangbanna, many bioactive endophytic Streptomyces spp. have been isolated (49). However, the work to date is insufficient to provide a general understanding of the diversity, distribution, and ecology of tropical rain forest endophytic actinobacteria and to facilitate further exploitation of the diverse functions of this novel microbial source.In the present study, the diversity of rare endophytic actinobacteria associated with medicinal plants from the tropical rain forest in Xishuangbanna was investigated by combining special culturing techniques. The selected isolates were also identified by 16S rRNA gene analysis. The overall aims of this study were (i) to analyze the actinobacterial community and reveal whether the rain forest investigated in Xishuangbanna represents a valuable source for abundant endophytic actinobacteria and new species, (ii) to evaluate the antimicrobial activities of these actinobacteria and the biosynthetic potential of related secondary metabolites, and (iii) to study the relationships between the taxa of these endophytic actinobacteria and the isolation methods applied.     

亚麻EST序列中SSR标记的筛选

利用亚麻NCBI数据库中的7 941条亚麻EST序列进行SSR的筛选,共发现222个SSR,占整个EST数据库的2.73%,其中三核苷酸重复单元的EST-SSR占总SSR的72.1%,二核苷酸和四核苷酸二者出现的频率基本相近,分别占总SSR的14.4%和13.5%.AGAA是四核苷酸中的优势重复类型,占四核苷酸重复类型的67.67%.设计的21对EST-SSR引物中有18对在10个亚麻材料中有扩增产物,占设计引物的85%,有14对产物条带比较清晰并具有多态性.基于SSR标记进行聚类分析,可将10个亚麻材料划分为3个组.本研究建立的亚麻SSR标记,为亚麻遗传多样性鉴定、分子作图等研究提供了一种有效的分子标记系统.     

<Emphasis Type="Italic">Virgibacillus xinjiangensis</Emphasis> sp. nov., isolated from a Salt Lake of Xin-jiang Province in China

A strictly aerobic Gram-positive, moderately halophilic spore forming bacterium, designated strain SL6-1^T, was isolated from a salt lake in Xin-jiang province, China. Growth of strain SL6-1^T was observed at NaCl concentrations of 0∼20% (w/v) (the optimum being 5∼7%, w/v). The peptidoglycan type of strain SL6-1^T was Alγ-meso-diaminopimelic acid and its major cellular fatty acids were iso-C_14:0 and iso-C_16:0 and ante-iso-C_15:0. The major respiratory isoprenoid quinone was MK-7 and the G+C content of the genomic DNA was 44.5 mol%. The major cellular phospholipids were phosphatidylglycerol and diphosphatidylglycerol. Phylogenetic analysis based on 16S rRNA gene sequences showed that strain SL6-1^T formed a phylogenetic lineage within the genus Virgibacillus. Based on 16S rRNA gene sequence similarity, the strain was most closely related to Virgibacillus olivae E₃₀8^T, Virgibacillus kekensis YIM kkny16^T, Virgibacillus marismortui DSM 12325^T with 97.1%, 97.1%, and 97.0% gene sequence similarities, respectively and the sequence similarities to other related taxa were less than 96.7%. The DNA relatedness values between strain SL6-1^T and V. olivae E₃₀8^T, V. kekensis YIM kkny16^T, V. marismortui DSM 12325^T were 16.7%, 51.0%, and 22.8%, respectively. On the basis of physiological, biochemical and phylogenetic properties, strain SL6-1^T represents a novel species, for which the name Virgibacillus xinjiangensis sp. nov. is proposed. The type strain is SL6-1^T (=KCTC 13128^T =DSM 19031^T).     

Lophodermium pini-mugonis sp. nov. on needles of Pinus mugo from the Alps based on morphological and molecular data

Lophodermium pini-mugonis, collected on needles of Pinus mugo from German Alps, is described as a species new to science. It is characterized by subcuticular ascomata with a wrinkled surface and a somewhat untidy outline, a complex structure of lip cells, and ellipsoidal conidia. An analysis of the internal transcribed spaces of rDNA showed that Lophodermium pini-mugonis is, sister to Lophodermium autumnale and distantly related to other Lophodermium species on pines. The hypothesis of cospeciation of Lophodermium species with members of the Pinaceae is discussed.     

27个群体7个Y-STR基因座多态性的聚类分析

目的:选择具有高度多态性与稳定性的7个Y-STR位点,分析27个群体遗传关系.方法:应用Y-STR复合扩增方法,获得150名宁夏回族个体DYS19、DYS389Ⅰ、DYS389Ⅱ、DYS390、DYS391、DYS392、DYS393 7个基因座等位基因频率.收集国内外26个群体这7个基因座基因频率的数据.结果:应用这7个Y染色体STR的多态性研究结果显示:国内群体与朝鲜、韩国、日本的遗传关系较近,与几内亚、莫桑比克的遗传关系较远.结论:27个不同群体这7个Y-STR基因座多态性有明显的种族与地域差异,与三大人种的分类基本一致.     

Mitochondrial pyruvate dehydrogenase E1 of Nosema bombycis： A marker in Microsporidian evolution

Microsporidia are a group of intracelluar eukaryotic parasites, which can infected almost all animals, including human beings. Till now, no mitochodria but mitosome, a remnant of mitochondria was discovered in this phylum. We present here the mitochondrial pyruvate dehydrogenase El （PDH, including PDHα and PDHβ） of the microsporidian Nosema bombycis, the pathogen of silkworm pebrine. Compared with PDH of microsporidian Encephalitozoon cuniculi and Antonospora locustae, both subunits are eonscrced. The phylogeny indicated that both subunits are mitochondrial. The syntenic maps revealed the subunits organization of NbPDH is distributed in different scaffolds, similar to that of EcPDH but different with AIPDH, and the relationship between phylogeny tree and organization of PDH suggest that the AlPDH subunits organization is the ancestral style of microsporidia, and through the genome evolution, the reshuffling of the chromosome of microsporidia occurred, the adjacent style of ALPDHE1 organization changed, and the two subunits separated and located to different chromosomes in E. cuniculi. For N. bombycis and N. ceranae, they locate to different scaffolds. In order to determine NbPDH subcellular localizations, we prepared the polyclonal antibodies against NbPDH prokaryotic fusion proteins, and adopted the colloidal gold immunological electron microscopy, the expression signals of NbPDH were observed in spores however, the subcellular localization were not definited. In general, through comparison of three mierosporidian PDH molecular phylogeny, subunits organization in chromosomes, localization indicated that PDH is an interesting marker in microsporidia evolution