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--[[用户:CecileLi|CecileLi]]([[用户讨论:CecileLi|讨论]]) 【审校】“生物网络中因果关系的多元性最好通过多个组分同时进行定量测量,以及与数学模型进行严格的数据整合来解决。”一句中的“通过多个组分同时进行定量测量”改为“通过观察多个分组同时进行的定量实验”
--[[用户:CecileLi|CecileLi]]([[用户讨论:CecileLi|讨论]]) 【审校】“生物网络中因果关系的多元性最好通过多个组分同时进行定量测量,以及与数学模型进行严格的数据整合来解决。”一句中的“通过多个组分同时进行定量测量”改为“通过观察多个分组同时进行的定量实验”
--[[用户:CecileLi|CecileLi]]([[用户讨论:CecileLi|讨论]]) 【审校】“它要求我们发展出与我们的还原论方法一样严谨但不同的整合思维方式...”一句中的“发展出”改为“建立起”
--[[用户:CecileLi|CecileLi]]([[用户讨论:CecileLi|讨论]]) 【审校】“它要求我们发展出与我们的还原论方法一样严谨但不同的整合思维方式...”一句中的“发展出”改为“建立起”
20世纪60年代和70年代发展了几种研究复杂分子系统的方法,如代谢控制分析和生化系统理论。整个20世纪80年代分子生物学的成功,以及人们对理论生物学的怀疑,并且收获小于预期,从而使得生物过程的定量模拟成为一个有点次要的领域。
20世纪60年代和70年代发展了几种研究复杂分子系统的方法,如代谢控制分析和生化系统理论。整个20世纪80年代分子生物学的成功,以及人们对理论生物学的怀疑,并且收获小于预期,从而使得生物过程的定量模拟成为一个有点次要的领域。
--[[用户:CecileLi|CecileLi]]([[用户讨论:CecileLi|讨论]]) 【审校】“20世纪60年代和70年代发展了几种研究复杂分子系统的方法”一句改为“20世纪60年代和70年代见证了几种研究复杂分子系统的方法的发展,”
--[[用户:CecileLi|CecileLi]]([[用户讨论:CecileLi|讨论]]) 【审校】“并且收获小于预期,从而使得生物过程的定量模拟成为一个有点次要的领域。”一句中的“并且、从而使得、有点次要”改为“加之、使得、进退两难/略显尴尬/略被轻视/日渐被轻视”
[[File:SystemsBiologyTrendsInMostCitedResearch.PNG|alt=Shows trends in systems biology research. From 1992 to 2013 Database development articles increased. Articles about algorithms have fluctuated but remained fairly steady. Network properties articles and software development articles have remained low but experienced an increased about halfway through the time period 1992-2013. The articles on Metabolic flux analysis decreased from 1992 to 2013. In 1992 algorithms, equations, modeling and simulation articles were most cited. In 2012 the most cited were database development articles.|thumb|Shows trends in systems biology research by presenting the number of articles out of the top 30 cited systems biology papers during that time which include a specific topic<ref>{{Cite journal|last=Zou|first=Yawen|last2=Laubichler|first2=Manfred D.|date=2018-07-25|title=From systems to biology: A computational analysis of the research articles on systems biology from 1992 to 2013|journal=PLOS One|language=en|volume=13|issue=7|pages=e0200929|doi=10.1371/journal.pone.0200929|issn=1932-6203|pmc=6059489|pmid=30044828|bibcode=2018PLoSO..1300929Z}}</ref>]]
[[File:SystemsBiologyTrendsInMostCitedResearch.PNG|alt=Shows trends in systems biology research. From 1992 to 2013 Database development articles increased. Articles about algorithms have fluctuated but remained fairly steady. Network properties articles and software development articles have remained low but experienced an increased about halfway through the time period 1992-2013. The articles on Metabolic flux analysis decreased from 1992 to 2013. In 1992 algorithms, equations, modeling and simulation articles were most cited. In 2012 the most cited were database development articles.|thumb|Shows trends in systems biology research by presenting the number of articles out of the top 30 cited systems biology papers during that time which include a specific topic<ref>{{Cite journal|last=Zou|first=Yawen|last2=Laubichler|first2=Manfred D.|date=2018-07-25|title=From systems to biology: A computational analysis of the research articles on systems biology from 1992 to 2013|journal=PLOS One|language=en|volume=13|issue=7|pages=e0200929|doi=10.1371/journal.pone.0200929|issn=1932-6203|pmc=6059489|pmid=30044828|bibcode=2018PLoSO..1300929Z}}</ref>]]