1株新抑锈病素产生菌FIM03-1149的分离鉴别

在寻找新型抗真菌抗生素的过程中,从海洋放线菌FIM03-1149发酵液中分离到抗真菌抗生素新抑锈病素(Neorustmicin)。菌株FIM03-1149在多数培养基上生长良好,淡黄-橙黄色,无气生菌丝,不产生可溶性色素。形态特征、化学分类特征和生理生化特性等研究表明菌株FIM03-1149属于小单孢菌属。16SrRNA基因序列分析也表明菌株FIM03-1149属于小单孢菌属,但与最接近已知种Micromonospora siamensisTT2-4T处于不同的进化分支,2个菌株在某些生理生化特性上也有不同。基于上述数据,菌株FIM03-1149可能是小单孢菌属的1个新种。     

野野村氏菌FIM02-765的分类鉴定及Simaomicin α的抗肿瘤活性

明确海洋沉积物来源的放线菌FIM02-765的分类地位,揭示其代谢产物Simaomicinα的抗肿瘤活性。通过形态学、生理生化特征、细胞糖分组成分析以及16S rRNA序列分析,对海洋放线菌FIM02-765进行菌种鉴定;通过大孔吸附树脂柱层析和Sephadex LH-20凝胶柱层析从该菌的发酵产物中分离得到稠环氧杂蒽酮类化合物Simaomicinα;通过MTT法对化合物Simaomicinα的体外抗肿瘤细胞活性进行了研究。结果表明,菌株FIM02-765属于野野村氏菌(Nonomuraea sp.),同时该菌产生的稠环氧杂蒽酮类化合物Simaomicinα具有较强体外抑制多种肿瘤细胞增殖的活性。研究表明1株经鉴定的海洋野野村氏菌FIM02-765产生稠环氧杂蒽酮类化合物Simaomicinα对肿瘤细胞具有较强体外抑制活性,为深入开展该菌的遗传育种以及Simaomicinα的生物合成研究提供参考。     

链霉菌质粒pSET152电转化稀有放线菌小单孢菌的研究

利用链霉菌(Streptomyces)噬菌体ΦC31所构建的整合型载体pSET152作为供体质粒,分别以小单孢菌(Micromonospora)40027菌株的萌发孢子和新鲜菌丝体作为受体菌,在不同的电场强度下进行电转化实验,结果表明:以小单孢菌40027菌株萌发孢子为受体菌,未获得电转化子;以小单孢菌40027菌株新鲜菌丝体为受体菌,获得了电转化子。电场强度为13kV/cm时可获得最高转化效率。Southern杂交结果表明:质粒pSET152可通过菌丝体电转化法导入小单孢菌40027菌株,并整合到小单孢菌40027菌株的染色体上,暗示链霉菌噬菌体ΦC31的整合酶基因和整合位点在异源宿主小单孢菌40027菌株中仍具有相同的功能。质粒稳定性检测实验表明:质粒pSET152可稳定地存在于小单孢菌40027菌株中。     

嗜热放线菌类群分类的研究V．小单孢菌属的分类鉴定

从我国各地的土壤、堆肥及粪肥中分离到一批嗜热小单孢菌,经52℃培养,其中’524菌株在固体培养基上有发育良好的基内菌丝体,在基内菌丝体上着生茄子形孢子,细胞壁组分II型,含内消旋二氨基庚二酸、甘氨酸。此菌株为罕见的嗜热菌株,区别于已报道的小单孢菌属中的种,故认为是个新种,命名为热茄孢小单孢菌(Micromonospora thermoauberginospora n.sp.)。     

小单孢菌属的一个新种

从云南省丽江地区的高寒山区采集的土样中分离到两株小单孢菌Y81—917和Y81一558。它们不产生气生菌丝体。基内菌丝体蓝色。产生蓝色可扩散色素。孢子单个着生,表面皱褶。细胞壁化学组分II型。它们与所有已知的小单孢菌都不同,认为是小单孢菌属中的一个新种,定名为玉龙小单孢菌(Micromonospora yulongensis n. sp.),菌株Y81-917为模式株。     

两株来源于海洋的神经氨酸酶抑制剂产生菌的鉴定

对分离自台湾海峡海底沉积物样品的两株神经氨酸酶抑制剂产生菌FIM09-1157及FIM09-0041进行分类鉴定。采用GA、YM212、HV琼脂培养基分离海洋放线菌,对FIM09-1157及FIM09-0041采用形态学、培养特征、生理生化、细胞化学组分及16S rRNA基因序列分析进行初步的分类鉴定。结果显示,菌株FIM09-1157归属于链孢囊菌属,定名为Streptosporangium vulgare FIM09-1157;菌株FIM09-0041归属于链霉菌属,定名为Streptomyces fradiae FIM09-0041。研究结果为开发新型神经氨酸酶抑制剂提供了新的种质资源。     

基于基因与抗菌活性筛选的菌株FIM060022多相鉴定

利用PKS-NRPS基因筛选与抗菌活性测定,选取筛选结果为阳性以及广谱抗菌的FIM060022菌株进行多相分类鉴定。结果显示,该菌株对大肠埃希菌(E. coli)、金黄色葡萄球菌(S. aureus)、枯草芽胞杆菌等细菌(B. subtilis),以及白色念珠菌(C. albicans)、红酵母(R. rula)与新型隐球菌(C. neoformans)等真菌具有抗菌活性。通过对菌株的培养特征、形态观察、生化特性、细胞壁组成分析、脂肪酸组成分析、G+C mol%含量组成,结合16S r DNA序列以及PKS/NRPS基因序列分析,将菌株FIM060022鉴定为小单胞菌科疣孢菌属。结果提示FIM060022是一株具有广谱抗菌活性的海洋稀有放线菌,具有产药用化合物的潜能。     

一株拮抗香蕉枯萎镰刀菌稀有放线菌的分离及鉴定

本研究采用苯酚、干热、SDS和超声波四种不同的预处理方法从五指山原始林区采集的土样中选择性分离得到的702株稀有放线菌,共筛选出4株具有拮抗香蕉枯萎镰刀菌活性的菌株,经过复筛,获得一株高活性的拮抗菌210-1-61.通过对其进行形态鉴定、生理生化特征鉴定和16S rDNA序列分析,结果表明该菌株与M.pattaloongensis JCM12833T进化关系最近,其16S rDNA序列同源性最高,达98.89%;其形态与生理生化特性也与小单孢菌属M.pattaloongensis JCM12833T很接近.此外,我们还构建了与该菌株同源性较高的模式菌株16S rDNA序列的聚类分析图,结果发现该菌株与M.pattaloongensis JCM12833T稳定单独构成一个分支,二者亲缘关系最近,初步鉴定该菌株为Micromonospora. pattaloongensis.本研究为今后探讨小单孢菌属稀有放线菌对香蕉尖孢镰刀菌具有拮抗活性提供研究实验材料.     

红树林放线菌分离鉴定及活性代谢产物研究

以采集自四个红树林地点的16份混合土壤为研究材料,选用7种选择性培养基,共分离获得330株放线菌。其中217株菌经16SrRNA基因序列分析,发现近75%菌株属于小单孢菌属(Micromonospora),其他还包括多形态孢菌属(Polymorphospora),疣孢菌属(Verrucosispora)等小单孢菌科的2个属和非小单孢菌科的9个属。采用美蓝酶标仪法对所分离到的放线菌进行抗菌活性检测,共50株菌表现出对金黄色葡萄球菌(Staphylococcus aureus ATCC 51650)、大肠杆菌(Escherichia coli ATCC 25922)和白色念珠菌(Candida albicans ATCC 10231)有不同程度抗性。然后利用高效液相色谱(HPLC)和液质联用技术(LC-MS)对有生物活性的菌株进行化学筛选,最后确定了5株可能产新颖化合物的小单孢菌。     

26株具有细胞毒活性的海洋放线菌的系统发育研究

从海南红树林的海泥和海藻样品中分离得到26株具有细胞毒活性的放线菌(Actinomycetes),根据其形态学特征、生理生化特性及16SrDNA序列分析结果,确定菌株0617230属于小单孢菌属(Micromonospora),与Micromonosporaechinospora的相似性为97%。其余25株菌株属于链霉菌属(Streptomyces),其中菌株050643与其亲缘关系最近的Streptomycesviolaceolatus的相似性仅为96%;菌株061342与其亲缘关系最近的Streptomyceskasug-aensis、Streptomyceskasugaensis、Streptomycesmorookaensis的相似性仅为95%;菌株061303等11株菌株与其亲缘关系最近的Streptomyceskasugaensis、Streptomyceskasugaensis、Streptomycesmorookaensis的相似性仅为95%;因此它们可能是新种。     

海洋真菌Penicilliun sp.W02A的生长特性及抑菌作用的研究

丝状真菌Penicilliunsp.W02A分离自双壳贝文蛤(MeretrixmeretrixL. )。对其生长特性及抑菌作用研究的结果表明,W02A菌是兼性海洋真菌,在海水及淡水中均能生长、繁殖,但W02A更适合海水的环境,其最适生长的pH为6. 0,盐质量分数为7%。采用固体发酵法培养W02A,培养物产生的生物活性物质对革兰氏阳性菌有明显的抑菌作用。     

Study ofH-2 mutations in mice VI. M523, a newK end mutant

A newH-2 mutation was found in a mouse belonging to CBA/CaLacSto (H-2 ^k ) strain and designated 523, the proposed haplotype symbol for which isH-2 ^ka . The line CBA.M523 carries this mutation and is fully congenic with the parental strain, except for the mutant site 523. The mutation 523 is located within theK- end of theH-2 gene complex. Phenotypically, it causes prompt skin graft rejection and pronounced graft-versus-host activity in strain combination CBA/Sto⇄C-BA.M523. Attempts to produce active alloantisera in the same strain combination have so far been unsuccessful.     

Degradation of Ferric Chelate of Ethylenediaminetetraacetic Acid by Bacterium Isolated from Deep-Sea Stalked Barnacle

Twenty strains of marine bacteria that degrade ferric chelate of ethylenediaminetetraacetic acid (Fe-EDTA) were isolated from among 117 strains collected from a marine environment. Among them strain 02-N-2, which was isolated from stalked barnacle collected from the deep sea in the Indian Ocean, had the highest Fe-EDTA degradation ability and was selected for further study. The strain showed high Fe-EDTA degradation ability at different seawater concentrations. In addition, the intact cells of this strain had the ability to degrade such metal-EDTAs as Ca, Cu, and Mg. The strain was an aerobic, gram-variable, rod-shaped organism. The results of various taxonomic studies revealed that the strain had significant similarity to Bacillus jeotgali JCM 10885^T, which was isolated from a Korean traditional fermented seafood, Jeotgal.     

Producing mechanism of an algicidal compound against red tide phytoplankton in a marine bacterium γ-proteobacterium

Strain MS-02-063, γ-proteobacterium, isolated from a coast area of Nagasaki, Japan, produced a red pigment which belongs to prodigiosin members. This pigment, PG-L-1, showed potent algicidal activity against various red tide phytoplanktons in a concentration-dependent manner. An understanding of a mechanism of PG-L-1 production by this marine bacterium may yield important new insights and strategies for preventing blooms of harmful flagellate algae in natural marine environments. Therefore, we analyzed the mechanisms of PG-L-1 production. In our previous study, the pigment production by this marine bacterium was completely inhibited at 1.56 μg/ml of erythromycin or 3.13 μg/ml of chloramphenicol, while minimal inhibitory concentrations for cell growth of erythromycin and chloramphenicol against this bacterium were >100 and 25 μg/ml, respectively. It is interesting to note that the ability of the pigment production in erythromycin-treated bacterium recovered by an addition of homoserine lactone. In fact, the pigment production was inhibited by β-cyclodextrin that inhibits autoinducer activities by a complex with N-acyl homoserine lactones. N-acyl homoserine lactones with autoinducer activities are ubiquitous bacterial signaling molecules that regulate gene expression in a cell density dependent process known as quorum sensing. Therefore, it was suggested that PG-L-1 produced by strain MS-02-063 is controlled by the homoserine lactone quorum sensing. It is speculated that this quorum sensing is involved in the production of algicidal agents of other marine bacteria. This bacterium and other algicidal bacteria might be concerned in regulating the blooms of harmful flagellate algae through the quorum sensing system.     

Characterization of interspecific plasmid transfer mediated by Bacillus subtilis temperate bacteriophage SP02.

Plasmid pPL1010 is a 7.0-kilobase derivative of plasmid pUB110 that harbors the cohesive end site of the bacteriophage SP02 genome. Plasmid pPL1017 is a 6.8-kilobase derivative of plasmid pC194 that contains the immunity region of bacteriophage phi 105 and the cohesive end site of bacteriophage SP02. These plasmids are transducible by bacteriophage SP02 at a frequency of 10(-2) transductants per PFU among mutant derivatives of Bacillus subtilis 168 and have been transferred to other strains of B. subtilis and B. amyloliquefaciens by means of bacteriophage SP02-mediated transduction, with frequencies ranging from 10(-5) to 10(-7) transductants per PFU. The introduced plasmids were stably maintained in nearly all new hosts in the absence of selective pressure. An exception was found in B. subtilis DSM704, which also harbored three cryptic plasmids. Plasmids pPL1010 and pPL1017 were incompatible with a 7.9-kilobase replicon native to strain DSM704. Furthermore, plasmid pPL1017 was processed by strain DSM704 into a approximately 5.3-kilobase replicon that was compatible with the resident plasmid content of strain DSM704. The use of bacteriophage SP02-mediated plasmid transduction has allowed the identification of Bacillus strains that are susceptible to bacteriophage SP02-mediated genetic transfer but cannot support bacteriophage SP02 lytic infection.     

链霉菌工业菌种HS007的基因组标记

通过小片段基因组文库的构建获得工业生产菌HS007的若干基因组片段,并以大肠杆菌-链霉菌穿梭质粒pHJL400为载体,构建了5个插入了特异性标记序列及抗性筛选标记的重组质粒pHJL02AFOH,pHJL07AFOH,pHJL08AFOH,pHJL10AFOH和pHJL12AFOH.利用这些质粒转化工业生产菌株HS007,获得具有特异性标记序列和相应抗性的标记菌株02-72,07-44,08-02,10-81和12-58,其中02-72和12-58的生产能力不受插入片段的影响.利用重组质粒pSP02AFOH上抗性标记两端两个FRT序列的分子内重组去除抗性标记,并以大肠杆菌一链霉菌穿梭质粒pGH112替换该质粒的载体部分,得到重组质粒pGH02FH.以pGH02FH转化标记菌株02-72,获得具有特异性标记序列而没有相应抗性的菌株02-72-36.发酵结果表明,标记片段的插入不影响菌株02-72-36的生产能力.本方法建立了链霉菌工业菌种基因组标记的技术平台.     

链霉菌FIM 95-F1产生的抗真菌抗生素S1

放线菌FIM 95-F1的形态特征、培养特性及生理生化特征和16S rDNA序列分析表明该菌属于Strepto-myces castelarensis的一个变种,暂定名为S.castelarensis FIM 95-F1。本研究利用高速逆流色谱分离和结晶法相结合的方法从放线菌FIM 95-F1胞内分离纯化抗真菌抗生素S1。化合物理化性质和UV、IR、MS以及NMR等波谱分析结果表明化合物S1与抗真菌抗生素Scopafungin同质,为36元环大环内酯类抗生素。S1对白色念珠菌(Candida albicans)、黑曲霉(Aspergillus niger)及红酵母(Rhodotorula sp.)均有抗菌活性,其MIC分别为0.234、0.469μg/mL和0.234μg/mL。     

Marine yeasts and bacteria as biological control agents against anthracnose on mango

The potential of four yeasts (Debaryomyces hansenii, Rhodotorula minuta, Cryptococcus laurentii and Cryptococcus diffluens) and three bacteria (Bacillus amyloliquefaciens, Bacillus subtilis and Stenotrophomonas rhizophila) with antagonistic capacity against anthracnose caused by Colletotrichum gloeosporioides in mango cv. Ataulfo fruit was investigated. Germination of C. gloeosporioides spores was significantly inhibited by all marine yeasts and bacteria strains of an in vitro test. When yeasts and bacteria were tested on mango fruit, the marine yeast D. hansenii 1R11CB strain and marine bacteria S. rhizophilaKM02 strain were the best antagonists to anthracnose (C. gloeosporioides), which significantly decreased disease incidence by 56% and 89%, respectively, and reduced lesion diameter by 91% and 92%, respectively. All the isolated strains of the phytopathogen, yeasts and bacteria were molecularly identified. Our results from in vitro and in vivo experiments suggest that marine yeasts and bacteria strains can be used as some effective biological control agents for anthracnose in mango.