Division of Basic Sciences, Fred Hutchinson Cancer Research Center, 1100 Fairview Avenue North, Seattle, WA 98109, USA.
Cell Mol Life Sci. 2011 Apr;68(8):1353-68. doi: 10.1007/s00018-011-0649-y. Epub 2011 Mar 23.
The web of life is weaved from diverse symbiotic interactions between species. Symbioses vary from antagonistic interactions such as competition and predation to beneficial interactions such as mutualism. What are the bases for the origin and persistence of symbiosis? What affects the ecology and evolution of symbioses? How do symbiotic interactions generate ecological patterns? How do symbiotic partners evolve and coevolve? Many of these questions are difficult to address in natural systems. Artificial systems, from abstract to living, have been constructed to capture essential features of natural symbioses and to address these key questions. With reduced complexity and increased controllability, artificial systems can serve as useful models for natural systems. We review how artificial systems have contributed to our understanding of symbioses.
生命之网是由物种之间多样的共生相互作用编织而成的。共生关系有多种形式,从竞争和捕食等敌对相互作用,到互利共生等有益相互作用。共生关系的起源和持续的基础是什么?什么影响共生关系的生态和进化?共生相互作用如何产生生态模式?共生伙伴如何进化和共同进化?这些问题中的许多在自然系统中难以解决。从抽象到生命的人工系统已经被构建出来,以捕捉自然共生关系的基本特征,并解决这些关键问题。通过降低复杂性和增加可控性,人工系统可以作为自然系统的有用模型。我们回顾了人工系统如何帮助我们理解共生关系。