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细菌的语言交流与社会智能。

Bacterial linguistic communication and social intelligence.

作者信息

Ben Jacob Eshel, Becker Israela, Shapira Yoash, Levine Herbert

机构信息

School of Physics and Astronomy, The Raymond and Beverly Sackler Faculty of Exact Sciences, Tel-Aviv University, Tel-Aviv 69978, Israel.

出版信息

Trends Microbiol. 2004 Aug;12(8):366-72. doi: 10.1016/j.tim.2004.06.006.

Abstract

Bacteria have developed intricate communication capabilities (e.g. quorum-sensing, chemotactic signaling and plasmid exchange) to cooperatively self-organize into highly structured colonies with elevated environmental adaptability. We propose that bacteria use their intracellular flexibility, involving signal transduction networks and genomic plasticity, to collectively maintain linguistic communication: self and shared interpretations of chemical cues, exchange of chemical messages (semantic) and dialogues (pragmatic). Meaning-based communication permits colonial identity, intentional behavior (e.g. pheromone-based courtship for mating), purposeful alteration of colony structure (e.g. formation of fruiting bodies), decision-making (e.g. to sporulate) and the recognition and identification of other colonies - features we might begin to associate with a bacterial social intelligence. Such a social intelligence, should it exist, would require going beyond communication to encompass unknown additional intracellular processes to generate inheritable colonial memory and commonly shared genomic context.

摘要

细菌已经发展出复杂的通讯能力(如群体感应、趋化信号传导和质粒交换),以便协同自组织成具有更高环境适应性的高度结构化菌落。我们提出,细菌利用其细胞内的灵活性,包括信号转导网络和基因组可塑性,来集体维持语言交流:对化学信号的自我和共享解读、化学信息(语义)的交换以及对话(语用)。基于意义的交流允许菌落识别、意向行为(如基于信息素的求偶交配)、菌落结构的有目的改变(如子实体的形成)、决策(如形成芽孢)以及对其他菌落的识别和鉴定——这些特征我们可能开始将其与细菌的社会智能联系起来。这样一种社会智能,如果确实存在的话,将需要超越通讯范畴,涵盖未知的额外细胞内过程,以产生可遗传的菌落记忆和共同共享的基因组背景。

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