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手性化学品是传统制造工业的重要产品之一,现代生物技术的快速进步极大地推动了生物制造手性化学品的快速发展。目前,生物制造手性化学品受到世界各国的广泛关注,已经成为发达国家工业生物技术领域重要的科技与产业发展方向。本文主要介绍了国内外生物制造手性化学品的研究现状和发展趋势。今后应大力加强系统技术平台和理论体系的构建,为建设重要手性化学品的先进绿色生物制造产业提供全面的技术支撑。 相似文献
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“生物制造手性化学品的科学基础”项目围绕手性生物制造的关键科学问题,在手性识别规律解析、生物催化剂理性设计、反应调控、典型生物制造过程重构等方面取得了较大进展。 相似文献
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2012年11月8~10日,“长三角”先进生物制造博士生论坛在南京工业大学举行。本次大会为973计划“生物制造手性化学品的科学基础”项目举办了专场报告会,项目首席科学家杨立荣教授。 相似文献
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手性生物催化是利用生物催化剂对手性分子构型的识别能力进行选择性催化的新型物质加工过程,具有催化效率高、选择性强和反应条件温和等优势。近十年来,生物催化技术快速崛起,树立了多个大品种原料药过程替代的成功范例,成为手性医药化学品绿色制造不可或缺的重要工具。笔者分析了生物催化商业和学术发展的新动向,并结合笔者在手性药物生物催化合成的产业化开发实践,指出了今后的发展方向。 相似文献
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为了加强与促进“生物制造手性化学品的科学基础”973项目组成员之间的学术交流,973项目组于2012年4月18~19日在江南大学隆重召开“蛋白结构解析”讲座及学术研讨会。 相似文献
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工业生物技术是指以微生物或酶为催化剂进行物质转化,大规模地生产人类所需的化学品、医药、燃料、材料、食品等产品的生物技术。发展工业生物技术是人类由化石经济向生物经济过渡的关键路径,是解决人类目前面临的资源、能源及环境问题的重要手段。中国科学院天津工业生物技术研究所是我国工业生物技术和生物制造领域的主力代表。本文结合该研究所成立十年来的发展,简要回顾了我国工业生物技术发展战略规划布局、重要技术突破进展和行业影响,并对我国工业生物技术和生物制造的未来发展进行了展望分析。 相似文献
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以酶及微生物细胞催化剂结合工程学方法将廉价、废弃原料进行高效生物转化可实现化学品的可持续生产。近年来,合成生物学、系统生物学及酶工程等技术的快速发展大大推动了化学品的可持续生物制造,既实现了多种新型化学品的生物合成,又显著提高化学品的生物合成效率。为展示化学品生物合成的最新进展并促进绿色生物制造的发展,《生物工程学报》特组织出版化学品生物合成专刊,从酶催化与生物合成机制、微生物细胞合成、一碳生物炼制以及关键核心技术等方面,介绍化学品生物合成的最新前沿、挑战以及潜在解决方案。 相似文献
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In experiments on Black Sea skates (Raja clavata), the potential of the receptor epithelium of the ampullae of Lorenzini and spike activity of single nerve fibers connected to them were investigated during electrical and temperature stimulation. Usually the potential within the canal was between 0 and –2 mV, and the input resistance of the ampulla 250–400 k. Heating of the region of the receptor epithelium was accompanied by a negative wave of potential, an increase in input resistance, and inhibition of spike activity. With worsening of the animal's condition the transepithelial potential became positive (up to +10 mV) but the input resistance of the ampulla during stimulation with a positive current was nonlinear in some cases: a regenerative spike of positive polarity appeared in the channel. During heating, the spike response was sometimes reversed in sign. It is suggested that fluctuations of the transepithelial potential and spike responses to temperature stimulation reflect changes in the potential difference on the basal membrane of the receptor cells, which is described by a relationship of the Nernst's or Goldman's equation type.I. P. Pavlov Institute of Physiology, Academy of Sciences of the USSR, Leningrad. I. M. Sechenov, Institute of Evolutionary Physiology and Biochemistry, Academy of Sciences of the USSR, Leningrad. Pacific Institute of Oceanology, Far Eastern Scientific Center, Academy of Sciences of the USSR, Vladivostok. Translated from Neirofiziologiya, Vol. 12, No. 1, pp. 67–74, January–February, 1980. 相似文献
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N. P. Vesselkin Yu. V. Natochin 《Journal of Evolutionary Biochemistry and Physiology》2010,46(6):592-603
Evolution of living organisms is closely connected with evolution of structure of the system of regulations and its mechanisms.
The functional ground of regulations is chemical signalization. As early as in unicellular organisms there is a set of signal
mechanisms providing their life activity and orientation in space and time. Subsequent evolution of ways of chemical signalization
followed the way of development of delivery pathways of chemical signal and development of mechanisms of its regulation. The
mechanism of chemical regulation of the signal interaction is discussed by the example of the specialized system of transduction
of signal from neuron to neuron, of effect of hormone on the epithelial cell and modulation of this effect. These mechanisms
are considered as the most important ways of the fine and precise adaptation of chemical signalization underlying functioning
of physiological systems and organs of the living organism 相似文献
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