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海洋生物活性物质与害虫防治 总被引:3,自引:0,他引:3
由于有机合成杀虫剂的生态毒性影响和害虫抗药性的发展,目前世界范围的注意力集中于可生物降解和对环境友好的天然害虫控制剂的研究应用上.海洋是生物活性物质的巨大宝库,也是开发害虫控制剂的新来源.本文综述了海洋生物资源、海洋杀虫活性物质的主要类型及海洋活性物质生物筛选技术的发展方向,并简述了海洋源杀虫剂的应用发展前景. 相似文献
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海洋微生物生物活性物质的研究进展 总被引:4,自引:0,他引:4
海洋微生物是海洋生物的重要组成部分.研究结果表明,海洋微生物产生的生物活性物质种类丰富, 主要包括抗肿瘤抗病毒物质、抗生素、生物毒素、酶类、酶抑制剂、多糖、不饱和脂肪酸等等.对海洋细菌、海洋真菌和海洋放线菌所产生的抗菌活性物质和抗肿瘤活性物质进行了综述. 相似文献
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许实波 《中国生物工程杂志》1996,16(6):25-33
本文概述海洋生理活性物质特有的特异结构和药理作用,对研究治疗心脑血管疾病、癌症和艾滋病等方面的意义及发展前景。阐述我国近年来从海洋生物活性物质中发现如三丙酮胺、喹啉酮、柳珊瑚酸及其衍生物等观种显著生理活性新化合物及16种海洋生理活性物质;8种已投入市场的海洋药物及保健品。提出对海洋生理活性物质研制成新药的可行途径及应采取的决策和有效措施;提出应用如基因工程、细胞工程、发酵工程和酶学工程等生物技术来研制、生产出纯度高、质量高、成本低的海洋药物资源物质。海洋生物技术领域的迅速发展,对海洋生物活性物质的研究及开发海洋药物具有广阔的应用前景。 相似文献
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地球的70%为蓝色海洋所覆盖,海洋亦是人类生命的起源。虽然人类对于海洋的科学认识,以及海洋生物活性物质的工业开发应用程度尚浅、水平也不高,但目前对几种海洋生物活性物质的开发应用,已经显露出了希望之光。 相似文献
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萜类是海洋天然产物中最多的化合物,相当多的海洋萜类中含有卤素,这些卤代萜类大多是结构新颖、生理功能独特的生物活性物质。本文从国内外关于海洋萜类文献上搜集了有关海洋含卤萜类物质75种,并从其来源、结构类型及生物活性几方面进行了综述。这些化合物主要来源于海藻、海兔、海绵以及软珊瑚等海洋生物体。结构类型主要是倍半萜、二萜、单萜,三萜很少。大多含卤萜类具有细胞毒性,抗病毒、抗肿瘤及抗癌活性。 相似文献
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海洋生理活性物质的研究及发展趋势 总被引:14,自引:0,他引:14
本文概括海洋生理活性物质特有的特异结构和药理作用,对研究治疗心脑血管疾病、癌症和艾滋病等方面的意义及发展前景。阐述我国近年来从海洋生物活性物质中发现如三丙酮胺、喹啉酮、柳珊瑚酸及其衍生物等28种显著生理活性新化合物及16种海洋生理活性物质;8种已投入市场的海洋药物及保健品。提出对海洋生理活性物质研制成新药的可行途径及应采取的决策和有效措施;提出应用如基因工程、细胞工程、发酵工程和酶学工程等生物技术 相似文献
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林逸君 《中国生物工程杂志》2014,34(12):129-136
海洋富含结构新颖的抗肿瘤活性物质,已成为全世界普遍关注的研究热点。国际已上市的海洋抗肿瘤药物有阿糖胞苷(Cytarabine)、曲贝替定(Ecteinascidin-743)、甲磺酸艾日布林(Eribulin mesylate)等,还有许多源自海洋生物的抗肿瘤候选药物正在进行临床前和临床研究。我国海洋抗肿瘤物质研究成果在国际上占有相当份额,但与产业化严重脱节。通过了解国内外海洋抗肿瘤药物的研究进展和产业方向,分析了我国海洋抗肿瘤药物产业化过程存在的药源开发不足、知识产权缺乏、资金投入不足、临床周期长等问题,提出了以市场需求,多学科相互交叉为基础,产学研合作模式为主体的自主知识产权药物研究体系,从关键技术、产品市场和产业政策等方面为加速我国海洋抗肿瘤药物的产业化提供有益思考。 相似文献
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生物固氮是指固氮微生物将大气中氮气还原为生物可利用氨的过程,是环境中新氮的主要来源,调控初级生产力并影响氮储库的收支平衡。由于环境中大部分固氮微生物不可纯培养,不依赖培养且具有高空间分辨率水平的单细胞技术,成为研究固氮微生物的有力手段。~(15)N_2稳定同位素标记技术,以微生物对~(15)N的同化量或速率为依据,是表征微生物固氮活性的最直接手段。本文对~(15)N_2稳定同位素标记结合两种单细胞技术,即纳米二次离子质谱(Nano SIMS)和单细胞拉曼光谱,用于固氮微生物研究的最新进展进行了综述,内容包括揭示环境中高活性固氮微生物、空间分布、与其他生物的共生关系、细胞生理状态等,并进一步对近期发展的基于单细胞拉曼光谱的固氮微生物研究进行了展望。 相似文献
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海洋微生物天然活性物质的开发应用进展 总被引:9,自引:0,他引:9
综合课题研究和国内外文献资料报道概括了海洋微生物及其天然活性物质的开发和应用现状、海洋微生物天然活性物质的研究开发方法及其开发和应用前景。 相似文献
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Stable isotope analysis (SIA) has emerged as a common tool in ecology and has proven especially useful in the study of animal diet, habitat use, movement, and physiology. SIA has been vigorously applied to the study of marine mammals, because most species live in habitats or undergo large migrations/movements that make them difficult to observe. Our review supplies a complete list of published SIA contributions to marine mammal science and highlights informative case examples in four general research areas: (1) physiology and fractionation, (2) foraging ecology and habitat use, (3) ecotoxicology, and (4) historic ecology and paleoecology. We also provide a condensed background of isotopic nomenclature, highlight several physiological considerations important for accurate interpretation of isotopic data, and identify research areas ripe for future growth. Because it is impossible to conduct controlled laboratory experiments on most marine mammal species, future studies in marine mammal ecology must draw on isotopic data collected from other organisms and be cognizant of key assumptions often made in the application of SIA to the study of animal ecology. The review is designed to be accessible to all audiences, from students unfamiliar with SIA to those who have utilized it in published studies. 相似文献
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L. M. Robinson J. Elith A. J. Hobday R. G. Pearson B. E. Kendall H. P. Possingham A. J. Richardson 《Global Ecology and Biogeography》2011,20(6):789-802
Aim Species distribution models (SDMs) have been used to address a wide range of theoretical and applied questions in the terrestrial realm, but marine‐based applications remain relatively scarce. In this review, we consider how conceptual and practical issues associated with terrestrial SDMs apply to a range of marine organisms and highlight the challenges relevant to improving marine SDMs. Location We include studies from both marine and terrestrial systems that encompass many geographic locations around the globe. Methods We first performed a literature search and analysis of marine and terrestrial SDMs in ISI Web of Science to assess trends and applications. Using knowledge from terrestrial applications, we critically evaluate the application of SDMs in marine systems in the context of ecological factors (dispersal, species interactions, aggregation and ontogenetic shifts) and practical considerations (data quality, alternative modelling approaches and model validation) that facilitate or create difficulties for model application. Results The relative importance of ecological factors to be considered when applying SDMs varies among terrestrial and marine organisms. Correctly incorporating dispersal is frequently considered an important issue for terrestrial models, but because there is greater potential for dispersal in the ocean, it is often less of a concern in marine SDMs. By contrast, ontogenetic shifts and feeding have received little attention in terrestrial SDM applications, but these factors are important to many marine SDMs. Opportunities also exist for applying more advanced SDM approaches in the marine realm, including mechanistic ecophysiological models, where water balance and heat transfer equations are simpler for some marine organisms relative to their terrestrial counterparts. Main conclusions SDMs have generally been under‐utilized in the marine realm relative to terrestrial applications. Correlative SDM methods should be tested on a range of marine organisms, and we suggest further development of methods that address ontogenetic shifts and feeding interactions. We anticipate developments in, and cross‐fertilization between, coupled correlative and process‐based SDMs, mechanistic eco‐physiological SDMs, and spatial population dynamic models for climate change and species invasion applications in particular. Comparisons of the outputs of different model types will provide insight that is useful for improved spatial management of marine species. 相似文献
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Giacomo Spinsanti Cristina Panti Elisa Lazzeri Letizia Marsili Silvia Casini Francesco Frati Cristina Maria Fossi 《BMC molecular biology》2006,7(1):32-11