内共生
生物
背景(考古学)
线粒体
进化生物学
捕食
自然选择
共生
生态学
细菌
细胞生物学
选择(遗传算法)
基因
遗传学
古生物学
计算机科学
质体
叶绿体
人工智能
作者
István Zachar,András Szilágyi,Szabolcs Számadó,Eörs Szathmáry
标识
DOI:10.1073/pnas.1718707115
摘要
The origin of mitochondria was a major evolutionary transition leading to eukaryotes, and is a hotly debated issue. It is unknown whether mitochondria were acquired early or late, and whether it was captured via phagocytosis or syntrophic integration. We present dynamical models to directly simulate the emergence of mitochondria in an ecoevolutionary context. Our results show that regulated farming of prey bacteria and delayed digestion can facilitate the establishment of stable endosymbiosis if prey-rich and prey-poor periods alternate. Stable endosymbiosis emerges without assuming any initial metabolic benefit provided by the engulfed partner, in a wide range of parameters, despite that during good periods farming is costly. Our approach lends support to the appearance of mitochondria before any metabolic coupling has emerged, but after the evolution of primitive phagocytosis by the urkaryote.
科研通智能强力驱动
Strongly Powered by AbleSci AI