从科研论文量看世界生命科学的发展

应用美国ESI基本科学指标数据库,对1993年至2003年世界科研产出成果进行统计分析,反映国内外生命科学重点研究领域和学科分布特点,揭示我国与国外相比存在的差距。从文献计量学角度,对我国生命科学的发展提出了建设性意见。     

Gravitational biology and space life sciences: Current status and implications for the Indian space programme

This paper is an introduction to gravitational and space life sciences and a summary of key achievements in the field. Current global research is focused on understanding the effects of gravity/microgravity on microbes, cells, plants, animals and humans. It is now established that many plants and animals can progress through several generations in microgravity. Astrobiology is emerging as an exciting field promoting research in biospherics and fabrication of controlled environmental life support systems. India is one of the 14-nation International Space Exploration Coordination Group (2007) that hopes that someday humans may live and work on other planets within the Solar System. The vision statement of the Indian Space Research Organization (ISRO) includes planetary exploration and human spaceflight. While a leader in several fields of space science, India is yet to initiate serious research in gravitational and life sciences. Suggestions are made here for establishing a full-fledged Indian space life sciences programme.     

同步辐射方法在生命科学中的应用

同步辐射方法在生命科学研究中有着十分重要的应用。上海光源是我国建造的第一个第三代同步辐射装置,本文结合上海光源首批建造的光束线站,介绍了几类同步辐射实验方法在生命科学中的应用。     

多组学技术及其在生命科学研究中应用概述

随着新一代测序技术、高分辨质谱技术、多组学整合分析方法及数据库的发展,组学技术正从传统的单一组学向多组学技术发展。以多组学驱动的系统生物学研究将带来生命科学研究的新范式。本文简要概述了基因组学、表观基因组学、转录组学,蛋白质组学及代谢组学的进展,重点介绍多组学技术平台的组成和功能,多组学技术的应用现状及在合成生物学及生物医学等领域的应用前景。     

1980s-2010s华北夏谷区主栽谷子品种SSR遗传多样性分析

通过对20世纪80年代以来具有代表性的华北夏谷区审(鉴)定的20个主栽谷子品种进行SSR标记多态性分析,研究了华北地区育成谷子品种的遗传多样性。49对引物在20个谷子品种中扩增出具有多态性的条带,共检测出142个等位变异,平均每个位点检测出的等位变异数为2.96个。标记位点多态性信息含量(PIC)变幅为0.0904～0.6896,平均为0.4168。20份材料间的遗传距离变幅为0.0173～0.9000,聚类分析将其分成3个类群,其中谷丰1号自成一类,表明谷丰1号的遗传距离较其他品种大。不同年代谷子品种间遗传距离分析结果显示,各年代品种之间的平均遗传距离由大到小依次是1980s>1990s>2000s>2010s,表明随着年代的递进育成品种的遗传差异减小,亲缘关系增近。     

同步光源之应用于病毒学研究

即将在2009年投入使用的上海同步光源（Shanghai synchrotron research facility,SSRF）属第三代设施。它的成功建设和即将投入使用给国内不同领域包括来自于物理学、材料科学和生命科学的研究人员带来前所未有的机遇。病毒学是生命科学的一个重要分支,其研究在SARS冠状病毒和禽流感爆发后越来越受到重视。本文给出了同步光源在病毒学研究中应用的一些想法。目的在于抛砖引玉,促进讨论和交流,为更好地利用光源做出努力。     

Opportunities and challenges for the life sciences community

Twenty-first century life sciences have transformed into data-enabled (also called data-intensive, data-driven, or big data) sciences. They principally depend on data-, computation-, and instrumentation-intensive approaches to seek comprehensive understanding of complex biological processes and systems (e.g., ecosystems, complex diseases, environmental, and health challenges). Federal agencies including the National Science Foundation (NSF) have played and continue to play an exceptional leadership role by innovatively addressing the challenges of data-enabled life sciences. Yet even more is required not only to keep up with the current developments, but also to pro-actively enable future research needs. Straightforward access to data, computing, and analysis resources will enable true democratization of research competitions; thus investigators will compete based on the merits and broader impact of their ideas and approaches rather than on the scale of their institutional resources. This is the Final Report for Data-Intensive Science Workshops DISW1 and DISW2. The first NSF-funded Data Intensive Science Workshop (DISW1, Seattle, WA, September 19-20, 2010) overviewed the status of the data-enabled life sciences and identified their challenges and opportunities. This served as a baseline for the second NSF-funded DIS workshop (DISW2, Washington, DC, May 16-17, 2011). Based on the findings of DISW2 the following overarching recommendation to the NSF was proposed: establish a community alliance to be the voice and framework of the data-enabled life sciences. After this Final Report was finished, Data-Enabled Life Sciences Alliance (DELSA, www.delsall.org ) was formed to become a Digital Commons for the life sciences community.     

美国生命科学两用性研究监管政策分析

目的:近年来高致病性禽流感H5N1病毒基因改造研究及美国国家生物安全科学咨询委员会的监管建议引起广泛争议,美国发布了生命科学两用性研究监管政策。本研究旨在通过对美国生命科学两用性研究监管政策进行分析,探讨两用性研究发展和监管趋势。方法:通过文献检索,获取生命科学两用性研究监管政策相关的情报源,对美国政府生命科学两用性研究监管的政策背景、主要内容、政策评论、政策动因进行系统梳理与分析。结果:美国政府出台的生命科学两用性研究监管政策,有助于美国对整个生命科学研究周期(从最初提交资助申请到研究结论和研究成果交流)潜在的误用风险进行管理。结论:美国生命科学两用性研究引发极大争议,两用性研究监管主要依靠生命科学团体的自我管理,政策具有指导性而非强制性。     

作物组学数据库的比较和应用

组学研究是生命科学研究的重要组成部分,是从整体角度研究全部组分及其相互关系的学科。组学数据库收集整理了与组学研究相关的所有信息,为组学研究提供了全面的数据基础。其中,作物组学数据库主要是以作物为对象建立的组学数据库,尤其是几大主要粮食作物的组学测序及信息挖掘,提升了作物科学的基础研发和生产水平,使我国粮食储备迈上一个新的台阶。本文以水稻、玉米和小麦为代表,通过搜集它们在组学研究中常用的数据库,概述了作物基因组学、转录组学、蛋白质组学、代谢组学及表型组学的主要研究内容,阐述了作物组学数据库在作物科学研究中的发展现状,揭示了在高通量信息时代下多种组学数据库的交叉及综合利用已经成为作物科学研究发展的重要方向和手段。     

The ESF's EuroBioFund: Sustainable research financing?: Start with networking!

EuroBioFund was set up by the European Science Foundation in 2006, with financial support from the European Commission to catalyse the development of large scale pan-European life sciences research programmes by engaging those involved in planning and funding research.     

离子束生物效应及应用中值得研究的几个问题

重离子束生物效应及重离子束在生命科学中的应用研究,在国内外物理学与生命科学领域中得到了广泛的开展,但对出现的一些现象还没有深刻地揭露其本质,作出机理性解释。为了深入研究,本文提出一些值得研究的问题供参考,如:重离子径迹结构及能量沉积分布模型,DNA辐射敏感位点,质量沉积-分子改造,直接作用与间接作用,放射性核束的应用等。     

生命科学数据库BIOSIS Previews信息资源的查询

生命科学数据库BIOSIS Previews是科技人员有效地利用Internet网络查找国外生命科学信息的世界著名数据库。本文对如何利用BIOSIS Previews查询生命科学相关学术文献作了介绍。     

Do human ‘life history strategies’ exist?

Interest in incorporating life history research from evolutionary biology into the human sciences has grown rapidly in recent years. Two core features of this research have the potential to prove valuable in strengthening theoretical frameworks in the health and social sciences: the idea that there is a fundamental trade-off between reproduction and health; and that environmental influences are important in determining how life histories develop. However, the literature on human life histories has increasingly travelled away from its origins in biology, and become conceptually diverse. For example, there are differences of opinion between evolutionary researchers about the extent to which behavioural traits associate with life history traits to form ‘life history strategies’. Here, I review the different approaches to human life histories from evolutionary anthropologists, developmental psychologists and personality psychologists, in order to assess the evidence for human ‘life history strategies’. While there is precedent in biology for the argument that some behavioural traits, notably risk-taking behaviour, may be linked in predictable ways with life history traits, there is little theoretical or empirical justification for including a very wide range of behavioural traits in a ‘life history strategy’. Given the potential of life history approaches to provide a powerful theoretical framework for understanding human health and behaviour, I then recommend productive ways forward for the field: 1) greater focus on the life history trade-offs which underlie proposed strategies; 2) greater precision when using the language of life history theory and life history strategies; 3) collecting more empirical data, from a diverse range of populations, on linkages between life history traits, behavioural traits and the environment, including the underlying mechanisms which generate these linkages; and 4) greater integration with the social and health sciences.     

Biodefense research: an emerging conundrum

Biodefense research creates a conundrum for the scientific community--what are the permissible limits of biodefense research and how can knowledge in the life sciences be protected against misuse? As biodefense research expands to counter the threat of bioterrorism, so does suspicion and the need for guidance to respond to these concerns.     

From Galen to Golgi: birth of the life sciences in Italy

Between the sixteenth and twentieth centuries, the study of biology was intimately intertwined with progress in medicine. So how, when and where did research into the life sciences begin?     

Enhanced Air Microcavity of Channel SPP Waveguide HALby Graphene Material

Plasmonics - The two-dimensional material, represented by graphene, is an immediate research focus of interdisciplinary fields, such as nanophotonics and life sciences. The unique advantages of...     

From maturity to value-added innovation: lessons from the pharmaceutical and agro-biotechnology industries

The pharmaceutical and agro-biotechnology industries have been confronted by dwindling product pipelines and rapid developments in life sciences, thus demanding a strategic rethink of conventional research and development. Despite offering both industries a solution to the pipeline problem, the life sciences have also brought complex regulatory challenges for firms. In this paper, we comment on the response of these industries to the life science trajectory, in the context of maturing conventional small-molecule product pipelines and routes to market. The challenges of managing transition from maturity to new high-value-added innovation models are addressed. Furthermore, we argue that regulation plays a crucial role in shaping the innovation systems of both industries, and as such, we suggest potentially useful changes to the current regulatory system.     

小动物活体成像技术的应用

小动物活体成像技术在国内外得到越来越多的普及应用,极大地促进了生命科学特别是肿瘤研究的发展。本文就小动物活体成像技术的原理、标记方法和实际应用做简单介绍。     

Next issue (November 2007): Singapore Biotech Crossroads

Edited by Dr. Michael Entzeroth, Singapore Highlight articles: – Singapore's biomedical sciences landscape – Re-starting malaria research at NITD – CombinatoRx moves its molecular speed-dating to Singapore – UK-Singapore relationships in life sciences – AMRI and Singapore: Driving discovery in Asia – Function of SIRT1 Deacetylase in Oncology – The chakragati mouse: rapid in vivo antipsychotic drug screening – Neuroscience drug discovery in Singapore ... and much more: Read the next issue of BTJ!     

人工核酸酶介导的基因组编辑技术

传统的基因组编辑技术是基于胚胎干细胞和同源重组实现生物基因组定向改造,但是该技术打靶效率低,严重制约了生命科学以及医学的研究.因此,研究新的基因组编辑技术十分重要.人工核酸酶介导的基因组编辑技术是通过特异性识别靶位点造成DNA双链断裂,引起细胞内源性的修复机制实现靶基因的修饰.与传统的基因组编辑技术相比,人工核酸酶技术打靶效率高,这对于基因功能的研究、构建人类疾病动物模型以及探索新型疾病治疗方案有着重要的意义.人工核酸酶技术有3种类型：锌指核酸酶(ZFN)、类转录激活因子核酸酶(TALEN)及规律成簇的间隔短回文重复序列(CRISPR).本文将对以上3种人工核酸酶技术的原理以及在生命科学和医学研究的应用进行综述.