四株海洋放线菌次级代谢产物的研究

本课题组自1999年以来，将培养条件优化、生物活性跟踪及化学跟踪技术应用到胶州湾海洋放线菌的次级代谢产物研究中，发现了一批具有生物活性的化合物，包括新型骨架等新颖结构的化合物。 本研究从海州湾分离出海洋放线菌172株，对其中70株菌的次级代谢产物进行了生物活性筛选和化学筛选，获得了它们对八种病原微生物的抑制活性数据。发现海州湾海洋放线菌对至少一种受试微生物具有拮抗能力的比例约为30%。从海洲湾分离到的海洋放线菌中筛选得到三株L083、L078和L158用于次级代谢产物的研究，同时本人又从合作实验室获得另一株海洋放线菌B7651，从这四株海洋细菌的发酵粗提物中共分离纯化得到26 个化合物， 其中10 个为新颖结构化合物。具体是，3-Hydroxy-6-[(Z)-3´-hydroxy-2´,4´-dimethyl-hept-4´-enoylamino]-2,4-dimethyl-5-oxo-hexanoic acid (4)，2-[5-(2-oxopropyl)tetrahydrofuran-2-yl]propanoic acid (5)，2-oxatricyclo-octane (10)，Huaiomycin (15)， 5-(6-hydroxy-6-methylheptyl)dihydrofuran-2(3H)-one (17), 6-Hydroxy-6-hydroxymethyl-6H-pyran-3-one (18), 1,6-dihydroxy-hex-3-ene-2,5—dione (19) (1’R, 2R, 4R)-2-(1-hydroxy-8-methylnonyl)-4-hydroxymethyl-butanolide (20) ， Bremeromycin A (22) ，Bremeromycin B (26)。生物活性实验结果表明Bremeromycin A (22)具有选择性的抗枯草杆菌(Bacillus subtilis ATCC 6051)活性和抗微藻Chlorella vulgaris活性。

Marine bacteria associated with marine macroorganisms: the potential antimicrobial resources

In order to explore marine microorganisms with medical potential, marine bacteria were isolated from seawater, sediment, marine invertebrates and seaweeds collected from different coastal areas of the China Sea. The antimicrobial activities of these bacteria were investigated. Ethyl acetate extracts of marine bacterial fermentation were screened for antimicrobial activities using the method of agar diffusion. The results showed that 42 strains of the isolates have antimicrobial activity. The proportion of active bacteria associated with marine invertebrates (20%) and seaweeds (11%) is higher than that isolated from seawater (7%) and sediment (5%). The active marine bacteria were assigned to the genera Alteromonas, Pseudomonas, Bacillus and Flavobacterium. The TLC autobiographic overlay assay implied that the antimicrobial metabolites produced by four strains with wide antimicrobial spectrum were different. Due to a competitive role for space and nutrient, the marine bacteria associated with marine macroorganisms (invertebrates and seaweeds) could produce more antibiotic substances. These marine bacteria were expected to be potential resources of natural antibiotic products.

Microbial modulation in the biomass and toxin production of a red-tide causing alga

The effect of S-10, a strain of marine bacteria isolated from sediment in the Western Xiamen Sea, on the growth and paralytic shellfish poison (PSP) production in the alga Alexandrium tamarense (A. tamarense) was studied under controlled experimental conditions. The results of these experiments have shown that the growth of A. tamarense is obviously inhibited by S-10 at high concentrations, however no evident effect on its growth was observed at low concentrations. Its PSP production was also inhibited by S 10 at different concentrations, especially at low concentrations. The toxicity of this strain of A. tamarense is about (0.9512.14) x 10(-6) MU/cell, a peak toxicity value of 12.14 x 10(-6) MU/cell appeared on the 14th day, after which levels decreased gradually. The alga grew well in conditions of pH 6-8 and salinities of 20-34 parts per thousand. The toxicity of the alga varied markedly at different pH and salinity levels. Toxicity decreased as pH increased, while it increased with salinity and reached a peak value at a salinity of 30 parts per thousand, after which it declined gradually. S-10 at a concentration of 1.02 x 10(9) cells/ml inhibited growth and the PSP production of A. tamarense at different pH and salinity levels. S-10 had the strongest inhibitory function on the growth of A. tamarense under conditions of pH 7 and a salinity of 34 parts per thousand. The best inhibitory effect on PSP production by A. tamarense was at pH 7, this inhibitory effect on PSP production did not relate to salinity. Interactions between marine bacteria and A. tamarense were also investigated using the flow cytometer technique (FCM) as well as direct microscope counting. S-10 was identitied as being a member of the genus Bacillus, the difference in 16S rDNA between S-10 and Bacillus halmapalus was only 2%. The mechanism involved in the inhibition of growth and PSP production of A. tamarense by this strain of marine bacteria, and the prospect of using it and other marine bacteria in the biocontrol of red-tides was discussed. (c) 2005 Elsevier Ltd. All rights reserved.

Synthesis and Bioactivity of Novel Benzisothiazolone Derivatives as Potential Microbiocides

Novel microbiocides 2-(hydroxymethyl)benzo[d)isothiazol-3(2H)-one (7) and (3-oxobenzo[d]isothiazol-2(3H)-yl)methyl benzencarboxylates (11a-c) were synthesized in good yields, and their structures were characterized by means of H-1 NMR, MS, and elemental analysis. The new compounds were tested preliminarily in laboratory assays against the aquicolous bacteria including Escherichia coli, Staphyloccus aurueus, Vibrio alginolyticus, Aeromonas hydrophila, and Bacillus subtilis. The results show all the synthesized compounds have good antimicrobial activity. The antimicrobial activity of all the tested compounds against all test bacteria is >96.6% at the concentration of 10(-2) mg mL(-1). These compounds can be further developed for effective microbiocides in the future.

矿物的微生物风化地球化学研究－－以磷矿石和方解石为例

微生物与矿物间的相互作用是自然界中广泛发生的一种地质作用，微生物直接参与了自然界的物质循环，微生物对矿物风化作用的过程和机理与矿物种类、菌种及环境条件密切相关。目前还缺乏对矿物风化微观过程及风化过程中微生物生理生化特征的研究资料，随着分子生物学理论与技术的快速发展，用地球化学结合微生物学与分子生物学的理论和方法来综合研究微生物的矿物风化过程已成为可能。从分子水平和微观作用过程研究其风化过程与机理，理解微生物与矿物界面之间的相互作用及其反馈机制，是表生作用过程中生物地球化学的重要研究内容。 选用胶质芽孢杆菌（Bacillus mucilaginosus）、黑曲霉（Aspergillus niger）和青霉（Penicillium sp.），以磷矿石和方解石为例，探讨实验条件下微生物对矿物的风化作用过程与机理。微生物对矿物风化作用具有能耗低、污染小和流程短等特点，充分利用这些特点是解决土壤中无效磷的有效利用、磷矿资源的开发以及减少环境污染等问题的有效途径，对矿产资源的可持续利用和建立健康的生态环境具有十分重要的意义。采用离子色谱、ICP-OES、XRD、TEM、EDS、2-DE、电子探针和MC-ICP-MS等分析测试手段，研究微生物对矿物的风化过程与机理，得到如下结果： (1) 在黑曲霉对磷矿石风化过程中，由黑曲霉生长引发的生物机械破坏作用和生物化学降解作用是对磷矿石风化的主要趋动力，包括菌丝生长对矿物的穿插作用以及机械剥蚀作用；此外，菌体及生物大分子形成生物膜覆盖在矿物表面形成易于发生生化降解的微环境，有机酸络合Ca生成次生矿物草酸钙促进了磷矿石的风化。磷矿石直接与菌体接触所发生的风化作用强于磷矿石装入透析袋中的间接风化作用。 (2) 在胶质芽孢杆菌对磷矿石的风化过程中，菌体及其胞外多糖类物质在矿粉表面形成生物膜、菌体生长、代谢产物及有机物的机械剥蚀破碎作用等是造成矿物风化的重要原因；磷矿石直接与菌体接触进行的风化作用强于磷矿石装入透析袋中的间接风化作用。 (3) 黑曲霉对磷矿石的风化作用强于胶质芽孢杆菌，两者对磷矿石进行风化时，生物物理风化作用是导致矿物风化的主要因素；胶质芽孢杆菌风化磷矿石的过程中没有草酸钙的产生。 (4) 胶质芽孢杆菌对磷矿石的风化过程中，菌体蛋白质的表达发生变化，蛋白质的量与质的变化与磷矿石的风化密切有关。磷矿石的加入导致菌体生理代谢途径改变以适应环境的变化，并分泌相关的蛋白质导致矿物的风化。 (5) 采用Sr同位素示踪研究黑曲霉与青霉对磷灰石和方解石混合物的风化差异。黑曲霉作用混合矿物的初期，培养液pH值相对较低，对其中方解石有风化作用；中后期由于pH值升高，对磷灰石有较强的风化作用,对磷灰石的风化是由黑曲霉产生的大分子有机物对磷灰石中Ca络合的结果。青霉与混合矿物发生相互作用时，在最初的很短时间内青霉对磷灰石有风化作用，但对方解石的风化作用却表现在整个风化作用时间段，相比而言，青霉对磷灰石的风化作用不明显。这种风化差异与真菌的生物学特性有关，并表现为微生物对矿物风化的选择性。 本项研究对进一步认识土壤植被生态系统中的磷循环规律和循环过程中微生物所起的作用，以及用微生物风化作用的方式促进磷矿资源开发利用具有重要理论和实际意义。