作为RNA世界遗迹的现代新陈代谢。
Modern metabolism as a palimpsest of the RNA world.
作者信息
Benner S A, Ellington A D, Tauer A
机构信息
Laboratory for Organic Chemistry, Eidgenössische Technische Hochschule, Zurich, Switzerland.
出版信息
Proc Natl Acad Sci U S A. 1989 Sep;86(18):7054-8. doi: 10.1073/pnas.86.18.7054.
Abstract
An approach is developed for constructing models of ancient organisms using data from metabolic pathways, genetic organization, chemical structure, and enzymatic reaction mechanisms found in contemporary organisms. This approach is illustrated by a partial reconstruction of a model for the "breakthrough organism," the last organism to use RNA as the sole genetically encoded biological catalyst. As reconstructed here, this organism had a complex metabolism that included dehydrogenations, transmethylations, carbon-carbon bond-forming reactions, and an energy metabolism based on phosphate esters. Furthermore, the breakthrough organism probably used DNA to store genetic information, biosynthesized porphyrins, and used terpenes as its major lipid component. This model differs significantly from prevailing models based primarily on genetic data.
摘要
一种利用当代生物体中发现的代谢途径、遗传组织、化学结构和酶促反应机制的数据来构建古代生物体模型的方法被开发出来。通过对“突破性生物体”模型的部分重建来说明这种方法,该生物体是最后一个将RNA作为唯一遗传编码生物催化剂的生物体。在此重建的模型中,这种生物体具有复杂的代谢,包括脱氢、转甲基、碳-碳键形成反应以及基于磷酸酯的能量代谢。此外,突破性生物体可能使用DNA来存储遗传信息,生物合成卟啉,并使用萜类作为其主要脂质成分。该模型与主要基于遗传数据的主流模型有显著差异。
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