产紫杉醇内生真菌Z58的分离和鉴定

本研究从曼地亚红豆杉（Taxus x media）树皮内表皮分离得到一株产紫杉醇的内生真菌Z58,通过高效液相色谱法、质谱法和核磁共振波谱法对其紫杉醇提取物进行了分析. 结果表明,内生真菌Z58的紫杉醇提取物具有和紫杉醇标准品相近的色谱特征峰,其保留时间为10.2 min;也与紫杉醇标准品具有相同的质谱特征峰（（M+Na）+=876）和1H-NMR谱带.并通过形态学特征分析和18S rDNA序列分析,将内生真菌Z58初步鉴定为肉座菌属（Hypocrea sp.）真菌.肉座菌Z58的紫杉醇产量约为2.5～3.0 μg/g（紫杉醇/菌丝干重）,是一株具有潜在应用价值的产紫杉醇内生真菌.     

产紫杉醇内生真菌MHZ-32的鉴定

从曼地亚红豆杉树皮内表皮分离获得一株内生真菌MHZ-32,通过高效液相色谱法检测发现,内生真菌MHZ-32的紫杉醇提取物中含有与紫杉醇标品 (15.02 min）、巴卡亭Ⅲ标品 (7.07 min)保留时间相近的色谱特征峰. 进一步通过质谱法检测发现,MHZ-32的紫杉醇提取物中具有与紫杉醇标品((M+Na)+=876)、巴卡亭Ⅲ标品((M+Na)+=609)相同的质谱特征峰,表明内生真菌MHZ-32可以产紫杉醇和巴卡亭Ⅲ. 其紫杉醇和巴卡亭III的产量分别约为0.6 μg/g和0.2 μg/g（紫杉醇或巴卡亭Ⅲ/菌丝干重）.并通过18S rRNA序列分析和形态学鉴定,将内生真菌MHZ-32初步鉴定为拟茎点霉属（Phomopsis sp.）真菌.     

产紫杉醇内生真菌N-15的分离及鉴定

产紫杉醇内生真菌的研究是解决紫杉醇药源紧缺问题的重要途径之一。本研究主要报道了从南方红豆杉树皮的内表皮中筛选得到一株产紫杉醇的内生真菌N-15,高效液相色谱法(high performance liquid chromatography,HPLC)检测结果表明其提取物具有与紫杉醇及其前体巴卡亭Ⅲ、10-去乙酰巴卡亭Ⅲ标准品一致的色谱特征峰和保留时间,表明真菌N-15可以产紫杉醇及其两个前体物。质谱法(mass spectrometry,MS)检测结果表明,N-15的发酵液提取物具有和紫杉醇标准品相同质谱特征峰,进一步说明N-15可以产紫杉醇。通过结合形态特征观察和18S rRNA序列分析,将N-15初步确定为黑孢霉属(Nigrospora sp.)真菌。     

蛇足石杉产石杉碱甲内生真菌SNZ-12的分离及鉴定北大核心CSCD

为了获取具有应用价值的产石杉碱甲内生菌,本文从蛇足石杉分离得到60株内生真菌,采用高效液相色谱法和质谱法分别检测各个真菌的提取物,发现内生真菌SNZ-12的提取物具有与石杉碱甲标品相近的色谱特征峰和保留时间(8. 994 min)以及相同的质谱特征峰((M+H)+=243. 1),说明内生真菌SNZ-12可以产石杉碱甲,其石杉碱甲产量约为1. 01 mg/L;并通过结合内生真菌SNZ-12的形态特征和18S r DNA序列分析,将其鉴定为尖孢镰刀菌(Fusarium oxysporum)。本文结果为利用微生物发酵生产石杉碱甲研究提供了潜在的菌种资源。     

蛇足石杉产石杉碱甲内生真菌SNZ-12的分离及鉴定

为了获取具有应用价值的产石杉碱甲内生菌,本文从蛇足石杉分离得到60株内生真菌,采用高效液相色谱法和质谱法分别检测各个真菌的提取物,发现内生真菌SNZ-12的提取物具有与石杉碱甲标品相近的色谱特征峰和保留时间(8. 994 min)以及相同的质谱特征峰((M+H)+=243. 1),说明内生真菌SNZ-12可以产石杉碱甲,其石杉碱甲产量约为1. 01 mg/L;并通过结合内生真菌SNZ-12的形态特征和18S r DNA序列分析,将其鉴定为尖孢镰刀菌(Fusarium oxysporum)。本文结果为利用微生物发酵生产石杉碱甲研究提供了潜在的菌种资源。     

黄山地区红豆杉中产紫杉醇内生真菌的分离和筛选

从黄山地区红豆杉中分离得到107株内生真菌,利用薄层层析(TLC)方法对107株内生真菌的发酵代谢物进行了初筛,首次筛出8株可产紫杉醇或其类似物的菌株。再通过高效液相色谱(HPLC)对其作了进一步分析,发现有1株内生真菌菌株发酵代谢物的吸收峰与紫杉醇标准品吸收峰保留时间一致。同时结合以中国仓鼠卵巢CHO细胞株作为肿瘤细胞模型,用Resazurin法检测生长抑制率,对经筛选出的1株内生真菌次生代谢产物进行体外抗肿瘤活性试验,该菌株的代谢物对CHO细胞的抑制率高达71.28%。通过对该菌株的显微形态观察,从菌丝、孢子的形态和产孢子的特征等初步判定HQ-24是曲霉(Aspergillus sp.)。     

前体及诱导子和发酵条件对烟曲霉TMS-26产紫杉醇发酵体系优化

紫杉醇是一种广谱的抗癌药物,因其具有独特的抗癌机制、良好的抗癌效果和供不应求的市场等特征而备受关注。紫杉醇具有重大经济效益,但产量受到制约,价格极为昂贵,通过内生真菌发酵法生产紫杉醇能在一定程度上缓解其来源困难的问题。在产紫杉醇内生真菌TMS-26发酵液中添加前体物质和诱导子,并通过对接种量、装液量、初始pH和发酵时间等条件进行优化研究。单因素及正交试验表明在PDB培养基中加入苯丙氨酸20mg/L、苯甲酸钠30mg/L、乙酸钠8g/L、甘氨酸15mg/L、CuSO₄ 0.05mg/L、H₂O₂ 6mmol/L、3,5-二硝基水杨酸15mg/L时能有效提高紫杉醇产量,比优化前增产46.64%,达到446.28µg/L,并且发现最适菌株TMS-26的发酵条件为pH7.5、接种量5%、装液量120mL/250mL、发酵时间为10d。     

一株产紫杉醇罗汉松内生真菌的分离和鉴定

[目的]紫杉醇是重要的抗癌药物,主要从罗汉松等植物中提取,为了保护罗汉松等种质资源,本文从罗汉松植株中分离产紫杉醇内生真菌,并对内生真菌所产紫杉醇的抗肿瘤活性进行了分析.[方法]采用组织块法自罗汉松的根、茎、叶等组织中分离内生真菌;通过四唑蓝(Methyl ThiazolylTetrazolium,MTT)比色法筛选有抗肿瘤活性的内生真菌菌株,通过薄层层析(Thin Layer Chro-matography,TLC)和高效液相色谱(High Performance Liquid Chromatography,HPLC)对内生真菌所产活性物质进行鉴定;采用抽提法抽提内生真菌所产紫杉醇,应用Vero细胞对抽提的紫杉醇的活性进行了分析.[结果]从罗汉松属(Podocrapus)植物中分离到155株内生真菌,其中28株内生真菌具有较高的抑癌活性.将其中一株菌株A2命名为EPTP-1,经形态学和分子分类学分析鉴定为烟曲霉(Aspergillus fumigatus).菌株EPTP-1中抽提的紫杉醇5.553μg/L～555.3 μg/L作用24h表现出明显的致细胞凋亡作用.菌株EPTP-1发酵5天时紫杉醇的产率为0.5578±0.0294 mg/L.[结论]从罗汉松中分离到了一株产紫杉醇内生真菌EPTP-1,可作为紫杉醇类药物工业化生产的候选菌株.     

高产紫杉醇内生真菌J11的鉴定

从南方红豆杉(Taxus chinensis var.mairei)的幼茎中分离出一株产紫杉醇内生真菌J11.菌株J11的发酵提取物经高分辨质谱分析,证实J11菌株可产紫杉醇.提取该菌株的基因组DNA,扩增核糖体internal transcribed spacer(ITS)和28S核糖体large subunit rRNA gene(LSU)序列,经测序获得该菌的ITS序列和LSU序列.序列比对和检索结果表明,J11菌株为葡萄座腔菌(Botryosphaeria ssp.)属中的一个新菌株.形态学鉴定符合葡萄座腔菌属特征,高效液相色谱分析表明,J11菌株的紫杉醇含量约为615.1μg/L.本研究首次证实葡萄座腔菌J11是一株高产紫杉醇野生型菌株,具有潜在的应用前景.     

1株产紫杉醇内生真菌LNUF014的鉴定及产物检测

从红豆杉的韧皮部组织中分离得到的360株内生真菌中,通过对发酵粗提的检测,共筛选到11株产紫杉醇的真菌。其中1株内生真菌LNUF014的发酵液采用有机试剂抽提紫杉醇,经薄层层析和高效液相色谱分析,初步表明该菌株的紫杉醇类物质含量为53.68μg/L。根据形态学研究和真核生物18S rDNA基因序列分析,将其鉴定为镰刀菌属(Fusarium)。产紫杉醇内生真菌的研究将对紫杉醇类抗肿瘤药物的研制具有重要意义。     

一株产紫杉醇内生真菌YN6的分离及鉴定

从云南红豆杉（Taxus yunnanensis）树皮内表皮中分离得到75株内生真菌,采用基于紫杉醇合成关键酶10-去乙酰巴卡亭Ⅲ-10-O-乙酰基转移酶（10-deacetylbaccatin Ⅲ-10-O-acetyl transferase,DBAT）和C-13苯丙氨基侧链CoA乙酰基转移酶（C-13-phenylpropanoid side chain-CoA acyltransferase,BAPT）基因为标志分子的快速筛选方法获得一株可产紫杉醇的内生真菌YN6,并通过高效液相色谱法和质谱法对其紫杉醇进行分析.同时,通过对内生真菌YN6的形态特征分析以及18S rDNA序列分析将其初步鉴定为拟盘多毛孢属（Pestalotiopsis sp.）真菌. 拟盘多毛孢YN6的紫杉醇产量约为120~140 μg/L,是目前已报道的紫杉醇产量较高的野生菌株之一. 拟盘多毛孢YN6的发现为微生物发酵生产紫杉醇提供了潜在的优良种质资源.     

红豆杉内生真菌产紫杉醇相关基因BAPT的鉴定及初步研究

从几种红豆杉中先后分离了30余种内生真菌,深入研究了三种能够产紫杉醇的内生真菌。形态学观察及18srDNA鉴定它们分属于Fusarium(属)和Pestalotiopsis(属),三个菌株均可以在离体培养的条件下产生紫杉醇,经两周培养产量可分别达到8.5,31.5,31.1μg/L。(其中Pestalotiopsis1分离于南方红豆杉,Fusarium1分离于东北红豆杉,Pestalotiopsis2分离于中国红豆杉)。对这些内生真菌产紫杉醇的初步机理作了研究。BAPT(C-13phenylpropanoidsidechain-CoAacyltransferase)是红豆杉中紫杉醇合成途径里支链合成的关键酶之一,我们根据其保守区序列设计了引物,首次在能产生紫杉醇的上述三种红豆杉内生真菌中克隆得到了BAPT基因片段,而分离的其它真菌并没有得到扩增。序列分析表明,来自内生真菌的BAPT基因片段序列与红豆杉BAPT基因片段序列具有非常高的相似性(98.9%)。推测红豆杉内生真菌之所以能够合成紫杉醇,相关基因可能直接源于其宿主植物,即其遗传学起源是基因转移而不是共进化。这同时也建立了一种快速经济的鉴定产紫杉醇真菌的辅助方法。内生真菌的遗传稳定性及改良在进一步研究中。     

Screening of taxol-producing endophytic fungi from Taxus chinensis var. mairei

A total of 38 endophytic fungus strains were isolated from Taxus chinensis var. mairei by aseptic technique. Genomic DNA was extracted from isolated endophytic fungi and subjected to polymerase chain reaction (PCR) analysis for the presence of Taxus taxadiene synthase (TS) gene, a rate-limiting enzyme gene in the taxol biosynthetic pathway. Twelve out of 38 isolated endophytic fungus strains showed PCR positive for the ts gene. Subsequently, taxol and its related compounds were extracted from culture filtrates and mycelia of the PCR positive strains, separated by column chromatography and analyzed by High Performance Liquid Chromatography and Mass Spectrum. The analysis result showed that 3 strains could produce taxol and its related compounds at the detectible level. This study indicates that molecular detection of the ts gene is an efficient method for primary screening of taxol or its related compounds-producing endophytic fungi which can improve prominently screening efficiency.     

Taxol from Tubercularia sp. strain TF5, an endophytic fungus of Taxus mairei

The diterpenoid taxol is an important anticancer agent used widely in the clinic. The purpose of this work was to identify a taxol-producing endophytic fungus (strain TF5) isolated from Taxus mairei and study its anticancer activities. Strain TF5 was identified as a Tubercularia sp. according to the morphology of the fungal culture, the mechanism of spore production and the characteristics of the spores. Strain TF5 produced taxol, when grown in potato dextrose liquid medium and analyzed by thin layer chromatography, high performance liquid chromatography, ultraviolet and mass spectrometry. The fungal taxol, which was isolated from the organic extract of the TF5 culture, had strong cytotoxic activity towards KB and P388 cancer cells in vitro, tested by the MTT assay. Observed with immunofluorescence and electron microscopy, the fungal taxol enhanced microtubule stability and bundling in culture cells and induced tubulin polymerization in vitro similar to the authentic taxol.     

Cladosporium cladosporioides XJ-AC03, an aconitine-producing endophytic fungus isolated from Aconitum leucostomum

The endophytic fungus XJ-AC03, which was isolated from the healthy roots of Aconitum leucostomum, produced aconitine when grown in potato dextrose agar (PDA) medium. The presence of aconitine was confirmed by the chromatographic and spectroscopic analyses. The yield of aconitine was recorded as 236.4 μg/g by high performance liquid chromatography (HPLC). The mass spectrometry was shown to be identical to authentic aconitine. Further analysis with nuclear magnetic resonance (NMR) spectroscopy to show the chemical structure of the fungal aconitine indicated that the fungal aconitine produced an NMR spectrum identical to that of authentic aconitine. Strain XJ-AC03 was identified as Cladosporium cladosporioides by its characteristic culture morphology and ITS rDNA sequence analysis.     

Screening of taxol-producing endophytic fungi from <Emphasis Type="Italic">Taxus chinensis</Emphasis> var. <Emphasis Type="Italic">mairei</Emphasis>

A total of 38 endophytic fungus strains were isolated from Taxus chinensis var. mairei by the aseptic technique. Genomic DNA was extracted from isolated endophytic fungi and subjected to polymerase chain reaction (PCR) analysis for the presence of the Taxus taxadiene synthase (TS) gene, a rate-limiting enzyme gene in the taxol biosynthetic pathway. Twelve out of 38 isolated endophytic fungus strains showed PCR positive for the ts gene. Subsequently, taxol and its related compounds were extracted from culture filtrates and mycelia of the PCR positive strains, separated by column chromatography, and analyzed by High Performance Liquid Chromatography and Mass Spectrum. The analysis result showed that 3 strains could produce taxol and its related compounds at the detectible level. This study indicates that molecular detection of the ts gene is an efficient method for primary screening of taxol or its related compound-producing endophytic fungi, which can improve prominently screening efficiency. Published in Russian in Prikladnaya Biokhimiya i Mikrobiologiya, 2007, Vol. 43, No. 4, pp. 490–494. The text was submitted by the authors in English.     

An endophytic taxol-producing fungus from Taxus x media, Aspergillus candidus MD3

An endophytic taxol-producing fungus (strain MD3) isolated from the inner bark of Taxus x media was identified as Aspergillus candidus according to its morphological characteristics, physiological and biochemical characteristics, and 18S rRNA gene sequence analysis. Taxol produced by A. candidus MD3 was shown to be identical to authentic taxol analyzed by UV, HPLC, MS and nuclear magnetic resonance spectroscopy. The gene encoding the 10-deacetylbaccatin III-10- O -acetyl transferase, which catalyzes formation of the last diterpene intermediate in the taxol biosynthetic pathway, has been cloned from A. candidus MD3 for the first time and possesses high homology to the same gene found in Taxus spp.