北细辛内生真菌的分离鉴定及代谢产物的生物活性

采用表面消毒法分别从3种北细辛中分离获得10株形态特征不同的优势内生真菌,经形态学和18S rDNA ITS分子分类学分析鉴定为小丛壳属(Glomerella sp.)、叶点霉属(Phyllosticta sp.)、柄孢壳菌属(Po-dospora sp.)、刺盘孢属(Colletotrichum sp.)和镰孢属(Fusarium sp.)。对北细辛优势内生真菌的发酵产物进行体外抗肿瘤和抗菌活性检测,结果表明:除菌株E3、E4和E10外,其余菌株均有不同程度的抗肿瘤和抗菌活性;镰孢属(Fusarium sp.)菌株E9对A549、MDA-MB-231和PANC-1肿瘤细胞抑制率达75%以上;小丛壳属(Glomerella sp.)菌株E1和叶点霉属(Phyllosticta sp.)菌株E2靶向FabI的抗菌活性较强,抑制率达59%。     

胃病患者胃黏膜真菌感染的检测

通过检测胃炎和胃溃疡、胃癌患者胃黏膜寄居的真菌,了解胃黏膜真菌的菌种多样性及其与胃溃疡的关系。采集消化科就诊患者胃镜钳取的胃黏膜标本63例,采用念珠菌显色培养基(CHROMagar)进行真菌分离培养鉴定。用玉米吐温80培养基进行真菌孢子形态学检查,用ITS(internal transcribed spacer region)序列限制性片段长度多态性(Restriction fragment length polymorphism,RFLP)检测分析真菌菌种多样性。分离培养真菌32(32/63,50.8%)株,经ITS序列RFLP法鉴定为白假丝酵母菌31株,光滑假丝酵母菌1株。真菌阳性率与病理诊断成正相关(r=0.263,P=0.027),与性别、年龄、吸烟、饮酒、学历的相关性均无统计学意义(P0.05)。结果表明,胃黏膜寄居的真菌存在多样性,且真菌阳性率与病理损害程度存在相关性。     

内蒙古露天煤矿区回填土壤具生态适应能力丛枝菌根真菌的筛选

在盆栽试验条件下,应用灭菌的露天煤矿区回填土壤为培养基质,研究8个丛枝菌根真菌菌种(株)对沙打旺生长及根系侵染的影响.结果表明,分离自江西和新疆的Glomus mosseae的2个菌株在露天煤矿区回填土壤上能够显著提高沙打旺的生物量,并能有效改善植株的磷、氮营养;其侵染率均在50%以上,且根外繁殖体数显著高于其他接种处理.说明此两个菌株在该土壤上具有良好的生态适应能力,有助于露天煤矿区植被重建和生态恢复等研究工作的进一步开展.     

产木聚糖酶厌氧真菌菌株筛选及产酶培养条件研究*

从12株分离自反刍动物瘤胃及粪样的厌氧真菌中筛选到一株木聚糖酶高产菌,编号为A4,初步鉴定为Neocallimastix属菌。以稻草秸、玉米秸、花生秸、滤纸片段为发酵底物,经39℃厌氧培养,A4菌产生的木聚糖酶活分别为14.31U/mL、11.39U/mL、6.99U/mL和13.38U/mL。对A4菌产生木聚糖酶的条件进行优化,结果发现,培养基中无细胞瘤胃液浓度对A4菌产生的木聚糖酶活无显著影响;但酵母膏浓度从1.0g/L降至0.5g/L后,A4菌产生的木聚糖酶活显著下降(P<0.05)。     

Les sterols de l'Ascomycete Leptosphaeria typhae

A mixture of C₂₈ and C₂₉ sterols have been isolated from Leptosphaeria typhae grown in vitro on “oat water” and characterized by GLC and MS. Mono-, di- and tri-unsaturated sterols are present in the extracts of fungi cultivated both in the dark and in the light but the sterol composition is different. The influence of “oat water” on sterol structure has been determined by comparison with the sterols of the same fungus grown on synthetic medium in the dark.     

Linking above- and belowground responses to global change at community and ecosystem scales

Cryptic belowground organisms are difficult to observe and their responses to global changes are not well understood. Nevertheless, there is reason to believe that interactions among above- and belowground communities may mediate ecosystem responses to global change. We used grassland mesocosms to manipulate the abundance of one important group of soil organisms, arbuscular mycorrhizal (AM) fungi, and to study community and ecosystem responses to CO₂ and N enrichment. Responses of plants, AM fungi, phospholipid fatty acids and community-level physiological profiles were measured after two growing seasons. Ecosystem responses were examined by measuring net primary production (NPP), evapotranspiration, total soil organic matter (SOM), and extractable mineral N. Structural equation modeling was used to examine the causal relationships among treatments and response variables. We found that while CO₂ and N tended to directly impact ecosystem functions (evapotranspiration and NPP, respectively), AM fungi indirectly impacted ecosystem functions by influencing the community composition of plants and other root fungi, soil fungi and soil bacteria. We found that the mycotrophic status of the dominant plant species in the mesocosms determined whether the presence of AM fungi increased or decreased NPP. Mycotrophic grasses dominated the mesocosm communities during the first growing season, and the mycorrhizal treatments had the highest NPP. In contrast, nonmycotrophic forbs were dominant during the second growing season and the mycorrhizal treatments had the lowest NPP. The composition of the plant community strongly influenced soil N, and the community composition of soil organisms strongly influenced SOM accumulation in the mesocosms. These results show how linkages between above- and belowground communities can determine ecosystem responses to global change.     

自噬在病原真菌生殖中的作用（英文）

自噬是真核生物中重要且高度保守的蛋白降解过程。在此过程中,细胞中的细胞器、长寿蛋白及其他大分子物质被双层膜的自噬体包裹并运送至降解细胞器中进行降解并重新利用。自噬在病原真菌诸如细胞分化、营养动态平衡以及致病性等各种细胞过程中起重要作用。在本综述中,我们简要介绍了自噬过程,并以人体病原真菌新生隐球菌为例介绍了病原真菌的有性生殖过程;同时我们也总结了目前模式病原真菌中自噬相关基因的研究情况以及自噬调控病原真菌无性和有性生殖的可能机理;最后我们总结全文并讨论了未来自噬调控真菌有性生殖机理研究的工作方向。     

Application of species richness estimators for the assessment of fungal diversity

Species richness and distribution patterns of wood-inhabiting fungi and mycetozoans (slime moulds) were investigated in the canopy of a Central European temperate mixed deciduous forest. Species richness was described with diversity indices and species-accumulation curves. Nonmetrical multidimensional scaling was used to assess fungal species composition on different tree species. Different species richness estimators were used to extrapolate species richness beyond our own data. The reliability of the abundance-based coverage estimator, Chao, Jackknife and other estimators of species richness was evaluated for mycological surveys. While the species-accumulation curve of mycetozoans came close to saturation, that of wood-inhabiting fungi was continuously rising. The Chao 2 richness estimator was considered most appropriate to predict the number of species at the investigation site if sampling were continued. Gray's predictor of species richness should be used if statements of the number of species in larger areas are required. Multivariate analysis revealed the importance of different tree species for the conservation and maintenance of fungal diversity within forests, because each tree species possessed a characteristic fungal community. The described mathematical approaches of estimating species richness possess great potential to address fungal diversity on a regional, national, and global scale.     

The active microbial diversity drives ecosystem multifunctionality and is physiologically related to carbon availability in Mediterranean semi‐arid soils

Biogeochemical processes and ecosystemic functions are mostly driven by soil microbial communities. However, most methods focus on evaluating the total microbial community and fail to discriminate its active fraction which is linked to soil functionality. Precisely, the activity of the microbial community is strongly limited by the availability of organic carbon (C) in soils under arid and semi‐arid climate. Here, we provide a complementary genomic and metaproteomic approach to investigate the relationships between the diversity of the total community, the active diversity and ecosystem functionality across a dissolved organic carbon (DOC) gradient in southeast Spain. DOC correlated with the ecosystem multifunctionality index composed by soil respiration, enzyme activities (urease, alkaline phosphatase and β‐glucosidase) and microbial biomass (phospholipid fatty acids, PLFA). This study highlights that the active diversity (determined by metaprotoemics) but not the diversity of the whole microbial community (evaluated by amplicon gene sequencing) is related to the availability of organic C and it is also connected to the ecosystem multifunctionality index. We reveal that DOC shapes the activities of bacterial and fungal populations in Mediterranean semi‐arid soils and determines the compartmentalization of functional niches. For instance, Rhizobales thrived at high‐DOC sites probably fuelled by metabolism of one‐C compounds. Moreover, the analysis of proteins involved in the transport and metabolism of carbohydrates revealed that Ascomycota and Basidiomycota occupied different nutritional niches. The functional mechanisms for niche specialization were not constant across the DOC gradient.     

基于高通量测序的群体基因组学——植物病原真菌研究新方向

群体基因组学能够从全基因组水平揭示种群结构与进化、物种形成、适应性机制等。随着高通量技术的不断发展,基因组测序成本不断降低,大规模测序已成为可能。近几年被全基因组测序的真菌数量迅速增加,极大地促进了真菌群体基因组学的发展,加深了人们对植物病原真菌起源、遗传多样性、选择作用、致病性、毒力因子、杀菌剂抗药性、寄主专化型等生物学特性的认识。本文简要介绍了植物病原真菌的全基因测序以及比较基因组学的研究进展,重点综述了基于高通量测序的病原真菌群体基因组学的最新研究动态。群体基因组学将成为植物病原真菌一个新的研究方向。