株特殊生境荒漠植物雾冰藜内生真菌Stagonospora sp.的次级代谢产物

本文通过对1株特殊生境荒漠植物雾冰藜内生真菌Stagonospora sp.的次级代谢产物进行研究,首次分离得到4个松萝酸结构类似物,包括1个新化合物stagonone（1）和3个已知化合物：松萝酸（2）,cercosporamide（3）和usnic acid amide（4）。通过高分辨质谱和NMR实验解析了新化合物1的平面结构,采用圆二色谱（CD）方法确定了其绝对构型;本文还报道了松萝酸（2）的单晶结构以及松萝酸（2）的CD谱,为确定该同类化合物的绝对构型提供了支持;活性试验结果证实化合物1-4具有选择性抗肿瘤细胞活性。基于化合物1-4的结构特征,推测了其可能的生物合成途径。     

草原与荒漠植物内生真菌次生代谢产物研究进展

草原与荒漠植物内生真菌是一类特殊生境真菌类群,由于其独特的生存与生态环境,该类真菌在进化的过程中产生出具有不同生态与生物功能的次生代谢产物。相对于其他植物内生真菌而言,该类真菌化学研究相对薄弱与零散,但是目前仍然从这类特殊生境真菌类群中发现了大量结构新颖、活性独特并具有不同化学生态与生物功能的次生代谢产物。本文主要从化学结构角度综述近年来从草原与荒漠植物内生真菌中分离的次生代谢产物(生物碱、聚酮、酚酸、萜类、环肽等5类结构)、药理活性(抗病毒,免疫调节,促进骨髓增殖,细胞毒及Hsp90抑制剂活性等)与化学生态功能活性(杀虫、拒食与动物神经毒活性等),拟为该类特殊生境真菌类群次生代谢产物进一步开发提供研究基础与理论依据,同时对该领域研究存在的问题进行分析与探讨并提出展望。     

不同生境重楼内生真菌及土壤真菌多样性比较

【背景】植物内生菌的群落组成随物种基因型及不同部位、生长地和环境条件不同而发生变化,而植物相关微生物会影响植物的生长、代谢、化学成分的积累与合成,并且可能对药用植物有效成分的合成造成影响。【目的】通过对不同生长环境重楼内生及土壤真菌群落多样性的研究,寻找园区环境与野生环境的差异真菌,为野生药用植物的人工栽培提供理论基础。【方法】测定两种环境中土壤的理化指标,并采用Illumina HiSeq高通量测序技术分别对野生环境及园区环境中重楼内生及土壤真菌群落转录间隔区ITS进行扩增子序列测定,对不同土壤环境真菌群落组成与多样性差异进行生物信息学分析。【结果】对重楼相关土壤及内生真菌的多样性分析结果显示,野生环境中的真菌丰度及多样性均高于园区环境。其中野生环境与园区环境中根际土壤真菌的丰度有显著性差异(P0.05)。真菌群落注释结果表明,两种环境中分别注释到8个门;在属水平上,野生环境注释到82个属,园区环境注释到78个属;不同土壤环境对微生物群落丰度有着较为显著的差异。野生环境中有4.04%特有的OTU,园区环境中有4.84%特有的OTU。通过LEfSe分析找到了园区环境与野生环境具有显著性差异的生物标记物,Ttracladium marohalianum、Thelephorales和Thelephoraceae为区别两种环境的生物标记物。【结论】野生环境较园区环境在土壤条件上更为疏松,并具有较高的含水量,矿质元素含量也更高,其真菌群落多样性及丰度较园区环境更为丰富。该研究结果将对重楼引种栽培后的质效变迁研究提供理论基础。     

一株濒危药用植物新疆阿魏内生真菌生长特性研究

选择新疆阿魏植物内生真菌中一株药理活性较强的菌,研究其生长特性,分别考察不同培养基、温度、光照及起始pH值4个单因素对菌种生长的影响,通过响应面试验优化,确定菌种最佳生长条件。结果表明,在黑暗条件下,采用土豆培养基(PDA),pH值为7,温度25℃环境中,该菌种可正常生长和繁衍,菌株平均生长速率为10.25mm·d~(-1)。     

荒漠北沙柳根系丛枝菌根真菌和黑隔内生真菌定殖状况

为利用土壤共生真菌资源促进荒漠植被恢复和生态重建, 分别于2013年6月、8月和10月, 从内蒙古元上都地区采集北沙柳(Salix psammophila)根围0-10、10-20、20-30、30-40和40-50 cm共5个土层的土壤样品, 系统研究了丛枝菌根真菌(AMF)和黑隔内生真菌(DSE)的时空分布及其与土壤因子的相关性。结果表明: AMF和DSE的平均定殖率分别为77%和84%, 说明北沙柳根系能与这两类真菌形成良好的共生关系。AMF和DSE的分布和定殖具有明显的时空异质性, 并与土壤因子密切相关。AMF和DSE的平均定殖率均表现为10月> 8月> 6月。土壤深度对AMF和DSE的定殖率有显著影响, AMF和DSE定殖率的最大值分别在0-20 cm和0-10 cm土层。双因子方差分析表明, 月份和土层对AMF和DSE的定殖率以及土壤因子具有显著的交互效应。主成分分析表明, 土壤湿度、pH值、碱性磷酸酶、易提取球囊霉素是内蒙古荒漠环境中AMF和DSE定殖的主要影响因子。     

红树植物内生真菌Penicillium sp.中两个甾体化合物的研究

从红树植物内生真菌Penicillium sp.的发酵液中分离纯化了两个甾体类化合物,通过各种波谱实验(1D-NMR,2D-NMR,ESI-MS)确定为:麦角甾-4,6,8(14),22-四烯-3-酮(1)和麦角甾-5,7,22-三烯-3-醇(2),1对于3α-HSD脱氢酶在250μm浓度下有较弱的活性。     

两株高DNA拓扑异构酶Ⅰ抑制活性的药用植物内生真菌筛选

从7种中国南方药用植物中分离了278株内生真菌,分析了其发酵液甲醇提取物对人DNA拓扑异构酶Ⅰ(hTo-poI)松驰活性的抑制能力。对2株具有高hTopoI抑制力的内生真菌(LF4-7L和LF6-1)进行了深入研究。通过发酵物对hTo-poI抑制能力的时间变化曲线,表明2株内生真菌的hTopoI抑制物质在其生长停滞阶段才大量产生和积累。经分子鉴定,LF4-7L可能是阴炭团菌(Hypoxylon stygium),而与LF6-1L最相近的是毛竹基腐病菌(Arthrinium phaeospermum)。     

一株内生真菌黑曲霉的活性检测及鉴定

从飞龙斩血内分离到一株产广谱、高活性抑菌物质的内生真菌F-001,经测定对细菌、植物病原真菌和皮肤致病真菌共26种病原微生物有不同程度的抑制作用。对其进行了系统鉴定和生物学研究,形态特征表明,该菌株与曲霉属Paecilomyces Bainier中的黑曲霉Paecilomyceslilacinus的特征基本一致,ITS序列分析显示本菌株与多个黑曲霉菌株同源性都在99%,因此将菌株F-001命名为黑曲霉Paecilomyces lilacinusF-001。该研究首次从核桃树皮内分离得到黑曲霉并进行了该菌株的抑菌活性检测。     

一株具有抗疟活性的金鸡纳树内生真菌的研究

为筛选具抗疟疾活性的的内生真菌,采用平板分离法对海南金鸡那树内生真菌进行分离纯化。利用"4日抑制疟疾"测试内生真菌发酵液的抗疟活性,采用TLC、HPLC等分析技术对内生菌发酵液等成分进行分析。从金鸡那树叶片分离到31种内生真菌,通过筛选找到了1株具有抗疟疾活性的产奎宁或奎宁类似物的内生真菌。从金鸡那树叶片中分离得到1株产奎宁的结实串孢霉属内生真菌,为奎宁的资源开发开辟了新途径。     

一株产凝集素的三叶半夏内生真菌的研究

研究三叶半夏内生真菌及其凝集素,旨在为半夏内生真菌及其凝集素的开发利用提供依据。对三叶半夏块茎内生真菌分离、纯化,液体发酵培养代谢产物,无水乙醇提取总蛋白,兔血红细胞检测其凝集活性,筛选出菌株gs1,其总蛋白对兔血红细胞凝集活性显著。使用甘露聚糖-Sepharose 4B亲和层析柱纯化菌株gs1总蛋白,得到凝集素。Brandford法定量检测分析表明,1000 ml gs1发酵培养液中含有9.58 mg 凝集素。SDS-PAGE 电泳分析显示该凝集素为单一条带,分子量约为12 kDa。凝集活性实验表明,该凝集素对兔、大鼠和小鼠的血红细胞具有凝集作用,对兔血红细胞效果最显著;而对人（A＼B＼O＼AB型）和鸡的血红细胞无凝集作用。糖结合活性实验表明,甘露糖对该凝集素的凝集活性具有抑制作用。通过初步分类鉴定,菌株gs1为半知菌亚门,丝孢纲,丛梗孢目,丛梗孢科,曲霉属。     

源于植物内生无花果拟盘多毛孢真菌的新色原酮类次生代谢产物研究

从植物内生真菌无花果拟盘多毛孢菌株(Pestalotiopsis fici;AS3.9138=W106-1)的放大发酵粗提物中分离得到4个异戊二烯基取代的色原酮类新结构次生代谢产物pestaloficiolsM-P(1-4),并应用质谱和核磁共振技术确定了上述化合物的结构。生物活性测试结果表明化合物2能够抑制HIV-1病毒在C8166细胞中的复制;化合物3和4对宫颈癌细胞(HeLa)具有细胞毒活性;另外,化合物3对烟曲霉Aspergillus fumigatus也具有较强的抑制活性。     

沙漠药用植物沙蒿内生真菌Embellisia chlamydospora中酚酸类化合物研究（英文）

从荒漠药用植物沙蒿的内生真菌Embellisia chlamydospora中首次分离得到3种酚酸类化合物,分别为barceloneic acid A(1),barceloneic lactone(2),2′-O-methyl-barceloneate(3)。根据其NMR与HR-ESI数据以及相关文献比对,确定了3个化合物的结构。活性试验结果证实化合物2和3显著抑制拟南芥根生长。目前,从E.chlamydospora真菌中仅分离出2种化合物terpestacin和embellistatin。本实验结果丰富了该真菌的化学成分多样性,进一步暗示特殊生境的植物内生真菌是产生结构新颖与活性显著的次级代谢产物的重要宝库。     

Resorcylic acid lactones from the ginseng pathogen Ilyonectria mors-panacis

Ilyonectria mors-panacis, previously Cylindrocarpon destructans, is the main plant pathogen responsible for the fungal disease ginseng root rot. This economically important disease, also called disappearing root rot, reduces crop yields by an average of 30% at harvest. While the disease is well studied from ecological and genomic perspectives, the role of I. mors-panacis secondary metabolites in the disease process is not well understood. Our previous metabolomics study showed Ilyonectria strains that cause ginseng root rot produce mixtures of putative resorcylic acid lactones, whereas avirulent strains did not, and collectively synthesize fewer metabolites. To confirm these metabolomics findings, we isolated and characterized the secondary metabolites from I. mors-panacis DAOMC 251601, a strain that causes ginseng root rot. From its EtOAc soluble culture filtrate extract, eight resorcylic acid lactones (1-8), including chlorinated and non-chlorinated congeners, were characterized by HRMS and spectroscopic approaches (NMR, OR, UV). The structure of one new metabolite, named radicicol E (1), was elucidated and additional spectroscopic data for the known compound nordinonediol (2) are reported. Further, radicicol (9) production was confirmed by comparison to a standard. The roles that resorcylic acid lactones and the siderophore N,N′,N” triacetylfusarine C have in promoting Ilyonectria ginseng root rot are also discussed.     

Introducing Alternaria tenuissima SBUp1, as an endophytic fungus of Ferula assa-foetida from Iran,which is a rich source of rosmarinic acid

Endophytic fungi are the endogenous micro-organisms to interacting with the plant cells, which do not exhibit any symptoms on the host plant and may produce some of the main secondary metabolites of the host plant cells. Ferula assa-foetida is a perennial and endemic medicinal plant of Iran, which is a rich source of sesquiterpene, coumarins, polysulfides and phenolic acids. In this study, 28 endophytic fungi isolates including Fusarium (60·7%), Aspergillus (7·1%), Alternaria (17·9%) and Plectosphaerella (7·1%) were isolated from F. assa-foetida root (57·1%), stem (32·1%) and leaf (10·8%) collected from Parvand protected area. Subsequently, their ability to produce phenolic acids was evaluated. The high amounts of total phenol (326·09 mg g⁻¹ of dry weight, DW), total flavonoid (901·11 mg g⁻¹ DW) and antioxidant activity (247·96 mg l⁻¹) were found in the supernatant fluid of SBUp1 isolate. The high-performance liquid chromatography analysis of 14 phenolic acids showed that rosmarinic acid (RA) is the main phenolic acid in the supernatant fluid of SBUp1 by 64·11 mg g⁻¹ DW confirmed by the liquid chromatography coupled with mass spectrometric analysis. According to morphological identification followed by phylogenetic study based on internal transcribed spacer (ITS) sequencing (ITS1-5.8S-ITS2) analysis, the SBUp1 isolate was identified as Alternaria tenuissima. Eventually, to our knowledge, it is the first document confirming A. tenuissima as an endophytic fungus of F. assa-foetida, which is a rich source of RA.     

抗肿瘤银杏内生真菌Aspergillus oryzae YX-5发酵 培养基的优化

【目的】对一株具有抗肿瘤活性的银杏内生真菌Aspergillus oryzae YX-5的发酵培养基进行优化。【方法】以发酵后的菌体干重、粗提物质量和粗提物抗肿瘤活性为指标,通过单因素实验选出合适的碳源和氮源,再以选出的碳源、氮源以及K2HPO4、MgSO4·7H2O、KCl共5个因素进行正交实验,确定出最适宜的发酵培养基配方。【结果】YX-5的最佳发酵培养基配方为葡萄糖45 g/L,蛋白胨8 g/L,K2HPO4 0.5 g/L,MgSO4·7H2O 0.2 g/L,KCl 1 g/L,FeSO40.01 g/L。优化后菌体干重、代谢物的产量和抗肿瘤活性分别提高了41.88%、226.52%和19.31%。【结论】通过对米曲霉菌(Aspergillus oryzae)YX-5的发酵培养基进行优化,明显提高了粗提物产量和抗肿瘤活性,这对后期规模化发酵中减小发酵规模和降低工作量十分有利。     

Furoic acid derivatives from the endophytic fungus Coniothyrium sp.

The endophytic fungus Coniothyrium sp. was isolated from leaves of Quercus robur. Fermentation of this fungus on solid rice medium yielded two new furoic acid derivatives ( 1 and 2 ) and two additional known compounds. The structures of the new compounds were determined by extensive analysis of 1D and 2D nuclear magnetic resonance spectra as well as high-resolution mass spectrometry data. Compound 1 , containing three aromatic chromophores attached by rotatable sigma bonds and a chirality center in benzylic position, was found to be a scalemic mixture with an excess of the (S) enantiomer, the absolute configuration of which was elucidated as by the solution time-dependent density functional theory-electronic circular dichroism approach. The ωB97X/TZVP PCM/MeCN and SOGGA11-X/TZVP SMD/MeCN methods were used for geometry reoptimization to reproduce the solution conformational ensemble. All isolated compounds were tested for their cytotoxicity but proved to be inactive.     

Bioactive metabolites from the endophytic fungus Ampelomyces sp. isolated from the medicinal plant Urospermum picroides

Extracts of cultures grown in liquid or on solid rice media of the fungal endophyte Ampelomyces sp. isolated from the medicinal plant Urospermum picroides exhibited considerable cytotoxic activity when tested in vitro against L5178Y cells. Chromatographic separation yielded 14 natural products that were unequivocally identified based on their ¹H and ¹³C NMR as well as mass spectra and comparison with previously published data. Six compounds (2, 4, 5, 7, 9 and 11) were natural products. Both fungal extracts differed considerably in their secondary metabolites. The extract obtained from liquid cultures afforded a pyrone (2) and sulfated anthraquinones (7 and 9) along with the known compounds 1, 3, 6 and 8. When grown on solid rice medium the fungus yielded three compounds 4, 5 and 11 in addition to several known metabolites including 6, 8, 10, 12, 13 and 14. Compounds 4, 8 and 10 showed the strongest cytotoxic activity against L5178Y cells with EC₅₀ values ranging from 0.2–7.3 μg/ml. Furthermore, 8 and 10 displayed antimicrobial activity against the Gram-positive pathogens, Staphylococcus aureus, S. epidermidis and Enterococcus faecalis at minimal inhibitory concentrations (MIC) of 12.5 μg/ml and 12.5–25 μg/ml, respectively. Interestingly, 6 and 8 were also identified as constituents of an extract derived from a healthy plant sample of the host plant U. picroides thereby indicating that the production of bioactive natural products by the endophyte proceeds also under in situ conditions within the host plant.