Guest Editorial: Special Issue on the Foundations of Systems Biology in Engineering (FOSBE)

Robert S. Parker
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Abstract

The complete sequencing of the human genome has undoubtedly advanced the study of biology and the practice of medicine, including some dramatic and rapid advances in human health. This progress has been slowed, however, by the challenge of understanding how the genetic players, and their regulation, interact to yield systemic responses to disease and treatment. Taking a puzzle as an analogy for life, the landmark achievement of identifying the human genome provided a list of the possible puzzle pieces, but it did not provide the completed picture on the cover. The search since has focused on the relationships between this genomic information and the (individual or patient) systemic response or function—the “omics” efforts in mapping proteins (proteomics) and metabolites (metabolomics). The primary avenues in this search are: 1) defining the causal connections between the plethora of transcriptional, protein, and metabolite players; 2) linking these microscale networks to system-level response; and 3) capturing the dynamics of the system in response to changes at lower scales. The fields of systems biology, and its translational science counterpart systems medicine, have emerged as the bridge between reductionist molecular and cellular biology approaches and the systems-level understanding required to use this knowledge to advance the human condition.
客座社论:工程系统生物学基础特刊(FOSBE)
人类基因组的完整测序无疑推动了生物学研究和医学实践,包括在人类健康方面取得了一些戏剧性和迅速的进展。然而,这一进展已被减缓,因为我们尚不清楚基因参与者及其调控机制如何相互作用,从而产生对疾病和治疗的系统性反应。把拼图比作生命,人类基因组鉴定这一里程碑式的成就提供了一个可能拼图的列表,但它没有提供封面上完整的图片。此后的研究主要集中在基因组信息与(个体或患者)系统反应或功能之间的关系上——“组学”在绘制蛋白质(蛋白质组学)和代谢物(代谢组学)方面的努力。这项研究的主要途径是:1)定义过多的转录、蛋白质和代谢物参与者之间的因果关系;2)将这些微尺度网络与系统级响应连接起来;3)捕捉系统对低尺度变化的动态响应。系统生物学领域及其对应的转化科学系统医学,已经成为还原论分子和细胞生物学方法与使用这些知识来改善人类状况所需的系统级理解之间的桥梁。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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