羊毛硫肽SapB类多肽促进链霉菌形态分化作用的研究

【目的】链霉菌属于革兰氏阳性菌,以复杂的形态分化过程和强大的次级代谢产物合成能力为主要特征。链霉菌的形态分化与次级代谢产物的产生密切相关。Ⅲ型羊毛硫肽SapB能够促进天蓝色链霉菌气生菌丝体形成,暗示这类多肽可以作为靶标用于形态分化改造工程开发。本研究表征了SapB类多肽对多种链霉菌形态分化的影响,为该类多肽的工程化应用提供理论基础。【方法】生物信息学分析多个链霉菌基因组中SapB类多肽的生物合成基因簇,构建SapB类多肽的异源表达载体,利用接合转移方法导入不同链霉菌中进行异源表达,探究SapB类多肽对链霉菌形态分化的影响。【结果】SapB类多肽在不同程度上促进了多个链霉菌由营养菌丝向气生菌丝分化,表现为气生菌丝体数量的增多和分化速度的加快,缩短了链霉菌形态分化周期。【结论】SapB类多肽的过表达有助于缩短链霉菌形态分化周期,可用于针对链霉菌形态分化的工程改造。     

海绵来源链霉菌S52-B中氨酰胺天然产物的分离与鉴定

【背景】海洋微生物是复杂海洋生态环境中重要的生物资源之一。海洋微生物所产生的活性天然产物极为丰富,是药物或药物先导化合物的重要来源。【目的】探索海洋中海绵来源链霉菌Streptomycessp.S52-B的优势生长条件,挖掘其次级代谢产物,以期分离具有良好生物活性的天然产物。【方法】根据"One Strain Many Compounds"(OSMAC)策略,寻找利于Streptomyces sp. S52-B生长和次级代谢产物产生的优势培养基,结合质谱及特征性的紫外吸收谱图,选择培养基进行大量发酵。利用正相硅胶柱色谱、葡聚糖凝胶柱色谱和制备型高效液相色谱等进行分离纯化,并应用高分辨质谱和核磁共振光谱进行化合物结构解析。【结果】确定培养基A–D为海洋链霉菌S52-B的优势培养基,基于紫外吸收光谱与质谱分析,从培养基A的大量发酵物中分离鉴定3个具有吡咯并[4,3,2-de]喹啉核心结构的含氯化合物,属于氨酰胺类天然产物,其中Ammosalic acid为新结构化合物。【结论】已知含有吡咯并喹啉母核的氨酰胺类家族化合物具有优良的抗癌活性。本研究从海绵来源链霉菌S52-B中分离鉴定了3个氨酰胺类化合物,其中一个是新结构化合物,不仅丰富了此类化合物家族的结构类型,也为研究其生物合成途径中的未知机理奠定了基础,还有利于结合培养条件和基因组信息从这株海绵来源链霉菌中挖掘新结构的活性天然产物。     

Discovery of novel glycerolated quinazolinones from Streptomyces sp. MBT27

Actinobacteria are a major source of novel bioactive natural products. A challenge in the screening of these microorganisms lies in finding the favorable growth conditions for secondary metabolite production and dereplication of known molecules. Here, we report that Streptomyces sp. MBT27 produces 4-quinazolinone alkaloids in response to elevated levels of glycerol, whereby quinazolinones A (1) and B (2) form a new sub-class of this interesting family of natural products. Global Natural Product Social molecular networking (GNPS) resulted in a quinazolinone-related network that included anthranilic acid (3), anthranilamide (4), 4(3H)-quinazolinone (5), and 2,2-dimethyl-1,2-dihydroquinazolin-4(3H)-one (6). Actinomycins D (7) and X2 (8) were also identified in the extracts of Streptomyces sp. MBT27. The induction of quinazolinone production by glycerol combined with biosynthetic insights provide evidence that glycerol is integrated into the chemical scaffold. The unprecedented 1,4-dioxepane ring, that is spiro-fused into the quinazolinone backbone, is most likely formed by intermolecular etherification of two units of glycerol. Our work underlines the importance of varying the growth conditions for the discovery of novel natural products and for understanding their biosynthesis.

     

珠江口沉积物来源链霉菌SCSIO 40020中bafilomycins的鉴定及其生物合成基因簇的异源表达

【目的】从珠江口沉积物来源的菌株SCSIO40020中分离bafilomycins,并对其生物合成基因簇进行克隆和异源表达研究。【方法】通过分析菌株SCSIO 40020的16S rRNA基因序列并构建系统发育树以鉴定菌种,以柱层析法和制备色谱法对次级代谢产物进行分离纯化,借助波谱学手段完成单体化合物的结构鉴定,采用生物信息学分析定位bafilomycins的生物合成基因簇,通过筛选菌株SCSIO 40020基因组的细菌人工染色体文库和接合转移将bafilomycins生物合成基因簇导入3种链霉菌进行异源表达,利用高效液相色谱检测异源表达菌株的发酵产物。【结果】菌株SCSIO 40020被鉴定为链霉菌属菌株,从其发酵产物中分离鉴定了2个单体化合物bafilomycinsA1和D。克隆了链霉菌SCSIO40020中bafilomycins的生物合成基因簇并推导了其生物合成途径,在3种链霉菌中表达产生了bafilomycins。【结论】从珠江口环境中获得了一株产生bafilomycins的链霉菌SCSIO 40020,成功建立了该菌株次级代谢产物生物合成基因簇的异源表达体系,并首次在链霉菌...     

贵州兴义喀斯特洞穴可培养放线菌多样性及抗菌活性初筛

【目的】进一步了解兴义喀斯特洞穴可培养放线菌资源及产活性代谢产物的能力。【方法】选取多种分离培养基,利用稀释直接涂布平板法对贵州黔西南兴义市多个喀斯特洞穴的土壤和岩石进行可培养放线菌资源分离;利用三种发酵培养基对相关放线菌进行生物产物初筛。【结果】根据16S rRNA基因序列的比对分析,将分离得到的251株放线菌分别归类到44个属,其中链霉菌属(Streptomyces)占分离菌株的比例为24.30%,小单孢菌属(Micromonospora)占比11.95%,红球菌属(Rhodococcus)占比9.16%,微杆菌属(Microbacterium)占比7.17%,诺卡氏菌属(Nocardia)占比6.37%,该五类放线菌为该地区可培养放线菌的优势菌群。对70株细菌进行活性次级代谢产物筛选,其中35株放线菌对指示菌具有抑制活性,且主要类群为链霉菌属和小单孢菌属。【结论】贵州兴义喀斯特洞穴中存在丰富多样的放线菌类群,且蕴藏大量具有产生活性次级代谢产物能力的菌株,为医药产业提供潜力菌株资源,极具进一步发掘和研究的价值。     

麦积山石窟赋存环境中空气细菌的时空分布特征

【目的】空气微生物沉降及污染与文化遗产的微生物退化密切相关,本文对世界文化遗产地麦积山石窟赋存环境空气中细菌浓度和群落结构的季节性变化特征进行了系统研究,为石窟环境监测预警和文物预防性保护提供依据。【方法】利用生物气溶胶采样器,在2016年春、夏、秋和冬季分别采集空气样品;基于传统培养方法获得空气中细菌浓度及纯培养菌株;通过提取基因组DNA、扩增细菌16S rRNA、测序和系统发生树等分子技术研究细菌群落时空动态变化规律;结合环境监测数据,分析影响遗产地空气细菌变化的主要因素。【结果】监测期内,空气细菌浓度在(281.20–1409.20)CFU/m3之间,最高浓度出现在MJ4处的夏季,最低浓度出现在MJO处的春季;具有明显季节性变化特征,在空间层位分布上有所差异,但不显著(P0.05)。培养的细菌菌株经鉴定属于4个门11个属;芽孢杆菌属(Bacillus)、Paenarthrobacter、节杆菌属(Arthrobacter)、薄层菌属(Hymenobacter)和考克氏菌属(Kocuria)等为优势属。【结论】麦积山石窟空气细菌群落结构具有明显的季节性和空间分布动态变化特征;在石窟不同层位,空气中细菌群落分布与相对湿度、温度与降雨量相关;部分细菌种属如芽孢杆菌属、微球菌属(Micrococcus),为壁画及彩塑生物腐蚀的潜在病害菌;麦积山石窟及周边环境空气细菌的监测可为石窟保护和旅游开放管理提供重要参考。     

高产杀粉蝶菌素的链霉菌鉴定及其拮抗水稻白叶枯菌活性研究

【目的】为保证农业生产可持续性发展,研发和使用环境友好的生物农药受到全社会的高度重视。微生物代谢产物农药是我国目前应用最广的生物农药,也是未来发展绿色农药的一个重要方向。【方法】利用包含水稻白叶枯菌(Xanthomonas oryzae pv. oryzae, Xoo) PXO99A的NA培养基琼脂平板,从水稻根际土壤中筛选能抑制Xoo生长的链霉菌。通过高效液相色谱和质谱分析活性代谢产物的化学结构;采用剪叶法接种Xoo到水稻叶片后,再喷施杀粉蝶菌素溶液(0.1 g/L),2周后测定叶枯症状;采用响应面分析法优化高产杀粉蝶菌素的发酵培养基;采用PacBio SMRT测序平台+Illumina HiSeq X Ten平台开展全基因组测序。平均核苷酸一致性(average nucleotide identity,ANI)用于比较HSW2009与其他链霉菌在全基因组水平的亲缘关系。【结果】分离到一株对Xoo生长有强抑制活性的链霉菌HSW2009,其活性代谢产物为杀粉蝶菌素A1(piericidin A1,简称PIE);喷施PIE可以减轻Xoo在水稻叶片内的侵染;优化HSW2009高产PIE的发...     

Salinomycin biosynthesis reversely regulates the β-oxidation pathway in Streptomyces albus by carrying a 3-hydroxyacyl-CoA dehydrogenase gene in its biosynthetic gene cluster

Streptomyces is well known for synthesis of many biologically active secondary metabolites, such as polyketides and non-ribosomal peptides. Understanding the coupling mechanisms of primary and secondary metabolism can help develop strategies to improve secondary metabolite production in Streptomyces. In this work, Streptomyces albus ZD11, an oil-preferring industrial Streptomyces strain, was proved to have a remarkable capability to generate abundant acyl-CoA precursors for salinomycin biosynthesis with the aid of its enhanced β-oxidation pathway. It was found that the salinomycin biosynthetic gene cluster contains a predicted 3-hydroxyacyl-CoA dehydrogenase (FadB3), which is the third enzyme of β-oxidation cycle. Deletion of fadB3 significantly reduced the production of salinomycin. A variety of experimental evidences showed that FadB3 was mainly involved in the β-oxidation pathway rather than ethylmalonyl-CoA biosynthesis and played a very important role in regulating the rate of β-oxidation in S. albus ZD11. Our findings elucidate an interesting coupling mechanism by which a PKS biosynthetic gene cluster could regulate the β-oxidation pathway by carrying β-oxidation genes, enabling Streptomyces to efficiently synthesize target polyketides and economically utilize environmental nutrients.     

Parengyodontium album,a frequently reported fungal species in the cultural heritage environment

Fungi are one of the main agents responsible for the biodeterioration of cultural heritage through physical and chemical processes. The frequent isolation of certain fungal species from deteriorated materials indicates that these species appear to have a particular affinity for environmental conditions occurring in cultural heritage. It is important to identify the conditions that favour the development of such species in order to understand how to preserve monuments and collections. Among these fungal species, the involvement of Parengyodontium album (Limber) Tsang et al. seems to have been underestimated until now. This species is abundant in many environments and its taxonomic position has changed quite frequently, which may have concealed the effect of this fungus on cultural heritage sites. This review seeks to compile the involvement of P. album in cultural heritage biodeterioration phenomena under all the names that it has been attributed in order to effectively determine its occurrence. This paper also aims to determine whether P. album is marginal or dominant when detected on materials. Finally, the conditions that favour the development of P. album on cultural heritage objects and sites are discussed.     

Taxonomy,purification and chemical characterization of four bioactive compounds from new <Emphasis Type="Italic">Streptomyces</Emphasis> sp. TN256 strain

A new actinomycete strain designated TN256, producing antimicrobial activity against pathogenic bacteria and fungi, was isolated from a Tunisian Saharan soil. Morphological and chemical studies indicated that strain TN256 belonged to the genus Streptomyces. Analysis of the 16S rDNA sequence of strain TN256 showed a similarity level ranging between 99.79 and 97.8% within Streptomyces microflavus DSM 40331^T and Streptomyces griseorubiginosus DSM 40469^T respectively. The comparison of its physiological characteristics showed significant differences with the nearest species. Combined analysis of the 16 S rRNA gene sequences (FN687758), fatty acids profile, and results of physiological and biochemical tests indicated that there were genotypic and phenotypic differentiations of that isolate from other Streptomyces species neighbours. These date strongly suggest that strain TN256 represents a novel species with the type strain Streptomyces TN256 (=CTM50228^T). Experimental validation by DNA–DNA hybridization would be required for conclusive confirmation. Four active products (1–4) were isolated from the culture broth of Streptomyces TN256 using various separation and purification steps and procedures. 1: N-[2-(1H-indol-3-yl)-2 oxo-ethyl] acetamide ‘alkaloid’ derivative; 2: di-(2-ethylhexyl) phthalate, a phthalate derivative; 3: 1-Nonadecene and 4: Cyclo (l-Pro-l-Tyr) a diketopiperazine ‘DKP’ derivative. The chemical structure of these four active compounds was established on the basis of spectroscopic studies NMR and by comparing with data from the literature. According to our biological studies, we showed in this work that the pure compounds (1–4) possess antibacterial and antifungal activities.     

贵州兴义喀斯特洞穴土可培养细菌多样性及其产蛋白酶、淀粉酶活性筛选

【目的】进一步了解贵州喀斯特洞穴土可培养细菌的物种多样性组成及其产蛋白酶、淀粉酶生物活性能力。【方法】选取11种分离培养基,利用稀释直接涂布平板法对贵州黔西南兴义市喀斯特地区白碗窑镇魔家大溶洞洞内土壤进行可培养细菌分离;利用两种鉴定培养基对相关细菌进行生物活性判定。【结果】根据16S rRNA基因序列的系统进化分析,将分离得到的217株细菌分别归类到24个属的63个不同种类,其中红球菌属(Rhodococcus)和链霉菌属(Streptomyces)为该洞内土壤可培养细菌的优势菌群,分别占24.42%和21.66%。大多数菌株与已知典型菌株的16S rRNA基因序列相似性为97.90%-99.99%,其中至少有4株菌株(D3T01、D911、D961和D502)为潜在的新分类单元。对217株细菌进行蛋白酶和淀粉酶活性筛选,其中具有蛋白酶或淀粉酶活性的99株,占分离菌株的45.62%,分别属于18个属的38个不同种;同时具有蛋白酶和淀粉酶活性的36株,占具有酶活性菌株的36.36%,占分离菌株的16.59%。【结论】贵州兴义喀斯特洞穴土中存在丰富多样的细菌类群,且蕴藏着一定数量的潜在新物种资源;此外功能酶菌株在喀斯特洞穴土壤中大量存在,为工业应用奠定了资源基础,极具进一步发掘和研究的价值。     

Degradation of Nucleic Acids and their Related Compounds by Microbial Enzymes

Seven strains of microorganisms selected by the previous screening tests were further compared on their ability to produce extracellular enzyme systems capable of degrading RNA into 5′-ribonucleotides. As a result, two strains of Streptomyces were finally concluded to be most preferable. When these two were applied, the rate of 5′-nucleotide production reached up to 70%.

Bacillus subtilis was outstanding in its activity to degrade RNA, but its PDase activity producing 5′-nucleotides from RNA was found to be lower than those of Streptomyces strains. A pathway involving 3′- and 5′-nucleotides as intermediates was proposed for the degradation of RNA by the Bacillus enzyme system. The activity of RNA-degrading enzyme system of Bacillus subtilis contained in the supernatant of culture fluid was found to be lost at 700°C but remained to certain extent at 100°C, a possible mechanism for the phenomenon being discussed. Usability of the Bacillus enzyme system in the practical production of 5′-nucleotides under the condition of high RNA concentration was discussed.     

Isolation of Three Xylanase-Producing Strains of Actinomycetes and Their Identification Using Molecular Methods

Eighty-eight actinomycetes were isolated from 20 samples collected from different locations in and around Delhi, India. Among these, 69 isolates were found positive for xylanase production. Of 69 isolates, 3 (SN32, SN77, and SN83) produced >125 IU/ml xylanase. Modern genetic tools were used for revealing the identities of these potent xylanase producers. The selected isolates were categorized under the genus Streptomyces based on their cultural and morphologic characteristics. Genetic diversity among these species of Streptomyces was established based on restriction length fragment polymorphism and random amplified polymorphic DNA analysis. The closest phylogenetic neighbours according to the 16S rRNA gene-sequence data for the three isolates SN32, SN77, and SN83 were Streptomyces cyaneus, S. tendae, and S. caelestis, respectively.     

链霉菌CB02959中四霉素及四烯菌素的鉴定及培养基优化

【背景】四霉素(Tetramycin)和四烯菌素(Tetrin)是具有广谱抗真菌活性的四烯大环内酯类抗生素。链霉菌CB02959是一株雷纳霉素(Leinamycin)类化合物的潜在产生菌株,利用antiSMASH分析其基因组发现该菌株含有一个纳他霉素(Natamycin)类四烯大环内酯化合物的生物合成基因簇。【目的】对Streptomyces sp. CB02959中次级代谢产物进行研究,确定其是否可以产生四烯大环内酯化合物,对其发酵产物进行分离和结构鉴定,并进行初步的发酵优化以提高产量。【方法】基于生物信息学预测和高分辨质谱数据,推测CB02959中多烯化合物的结构;在不同发酵培养基中培养CB02959,确定适合大规模发酵的培养基;敲除tetrA基因以确定目标基因簇和四烯大环内酯化合物产生的相关性;分离和鉴定CB02959产生的主要代谢物的结构;通过改变培养基中葡萄糖、麦芽提取物和胰蛋白胨的含量,提高四烯大环内酯化合物的产量。【结果】通过对CB02959中纳他霉素类化合物生物合成基因簇的分析及16S rRNA基因序列的进化树分析,推测CB02959可能是一株新的四霉素和四烯菌素产生菌;在YEME发酵培养基中对CB02959进行大规模发酵,分离得到4个化合物,鉴定为四霉素A (1)、四霉素B (2)、四烯菌素A (3)、四烯菌素B (4);最后通过培养基的初步优化,将化合物1–4的产量分别提高至208.1、100.0、1 315.6、109.9 mg/L。【结论】通过基因组挖掘策略发现了一株新的四霉素和四烯菌素产生菌链霉菌CB02959,并通过培养基优化提升了其四烯大环内酯化合物的产量,此发现为这类抗真菌天然产物的后续开发奠定了基础。     

S-Adenosylmethionine (SAM) and antibiotic biosynthesis: effect of external addition of SAM and of overexpression of SAM biosynthesis genes on novobiocin production in Streptomyces

The production of antibiotics in different Streptomyces strains has been reported to be stimulated by the external addition of S-adenosylmethionine (SAM) and by overexpression of the SAM synthetase gene metK. We investigated the influence of SAM addition, and of the expression of SAM biosynthetic genes, on the production of the aminocoumarin antibiotic novobiocin in the heterologous producer strain Streptomyces coelicolor M512 (nov-BG1). External addition of SAM did not influence novobiocin accumulation. However, overexpression of a SAM synthase gene stimulated novobiocin formation, concomitant with an increase of the intracellular SAM concentration. Streptomyces genomes contain orthologs of all genes required for the SAM cycle known from mammals. In contrast, most other bacteria use a different cycle for SAM regeneration. Three secondary metabolic gene clusters, coding for the biosynthesis of structurally very different antibiotics in different Streptomyces strains, were found to contain an operon comprising all five putative genes of the SAM cycle. We cloned one of these operons into an expression plasmid, under control of a strong constitutive promoter. However, transformation of the heterologous novobiocin producer strain with this plasmid did not stimulate novobiocin production, but rather showed a detrimental effect on cell viability in the stationary phase and strongly reduced novobiocin accumulation.     

Rapid Quantification of Phototrophic Microorganisms and their Physiological State through their Colour

Quantification of phototrophic organisms on solid substrata together with their metabolic activity can be assessed easily, reliably and quickly through measurement of the organisms' colour. For that purpose only a chroma meter for solid substrata able to quantify the three components of colour is needed. A correlation between these three components and the number of organisms and their physiological state was demonstrated. The methodology developed here makes it possible to save time and materials in comparison with traditional microbiological methods. Moreover, it is a non-destructive method which can be used directly on site and in site. This characteristic is important when microbial environmental monitoring of cultural heritage is involved.     

植物内生链霉菌Streptomyces sp. SAT1的基因组测序和比较基因组分析

【背景】一直以来,链霉菌都是活性物质的主要生产者,近年来随着抗生素滥用引起的环境和微生物抗药性问题越发严重,挖掘高效生物防治因子和新型抗生素成为了解决以上问题的重要手段。【目的】通过获得植物内生链霉菌SAT1全基因组序列和次级代谢基因簇信息,利用比较基因组学和泛基因组学分析SAT1菌株的特殊性以及与其他链霉菌的共性,为阐明SAT1抑菌和内生机制提供理论基础,为揭示链霉菌的生态功能提供可靠数据。【方法】通过三代测序平台PacBio Sequel完成SAT1基因组测序,利用生物信息学技术进行注释和功能基因分类;分别利用RAxML和PGAP软件进行系统发育树的构建和泛基因组分析;次级代谢基因簇的预测和分析通过antiSMASH网站完成。【结果】获得SAT1菌株的全基因组完成图,该菌线性染色体长度约7.47 Mb,包含有4个质粒,GC含量近73%,共预测到7 550个蛋白编码基因,含有37个次级代谢基因簇,分属29个类型,其中默诺霉素基因簇与加纳链霉菌具有较高相似性。42株代表链霉菌中,单个菌株次级代谢基因簇数量为20-55个,主要类型为PKS类、Terpene类和Nrps类,而且含有大量杂合基因簇,各个菌株中特有基因数目较为庞大。【结论】链霉菌SAT1菌株在基因组特点以及次级代谢基因簇的数量和类型上与其余41株链霉菌具有一定的共性,其中潮霉素B基因簇和默诺霉素基因簇合成的相关物质可能与SAT1抑菌活性密切相关。42株链霉菌中次级代谢基因簇数量的多少与基因组大小成正相关,同时大量杂合基因簇以及庞大的特有基因数目的存在说明链霉菌在长期进化过程中存在了很高程度的水平基因转移现象,可能具有重要的生态功能。     

卡伍尔氏链霉菌NA4的Ⅱ型聚酮基因簇的靶向激活及其产物鉴定

【目的】以基因组信息为导向,定向激活海洋来源卡伍尔氏链霉菌（Streptomyces cavourensis） NA4中沉默的Ⅱ型聚酮类次级代谢产物生物合成基因簇,鉴定新产生的次级代谢产物的结构和抑菌活性。【方法】通过添加启动子和敲除负调控基因的方法激活实验室培养条件下沉默或低表达的生物合成基因簇,并完成目标化合物的分离与纯化,通过电喷雾质谱（electrospray ionization-mass spectrometry,ESI-MS）和核磁共振（nuclear magnetic resonance,NMR）数据分析鉴定目标化合物结构,对目标化合物进行抑菌活性鉴定,基于生物信息学信息推导化合物的生物合成途径。【结果】根据基因组生物信息学分析,从海洋来源链霉菌Streptomyces cavourensis NA4中选取一个编码PKSⅡ型次级代谢产物的生物合成基因簇开展研究,成功激活目标基因簇,从中分离到1个PKSⅡ型化合物,推导了其生物合成途径并进行了抑菌活性鉴定。【结论】基因组导向下的天然产物挖掘,可以目标明确地分离产物,充分挖掘链霉菌编码次级代谢产物的潜力。