Emergence of Life

Life : Open Access Journal Pub Date : 2011-09-29 DOI:10.3390/life1010007

M. Bassez

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引用次数: 100

Abstract

Indeed, even if we know that many individual components are necessary for life to exist, we do not yet know what makes life emerge. One goal of this journal Life is to juxtapose articles with multidisciplinary approaches and perhaps to answer in the near future this question of the emergence of life. Different subjects and themes will be developed, starting of course with the multiple definitions of life and continuing with others such as: life diversity and universality; characteristics of living systems; thermodynamics with energy and entropy; kinetics and catalysis; water in its different physical states; circulation of sap and blood and its origin; the first blood pump and first heart; the first exchange of nutrients between cells, sap and blood; essential molecules of living systems; chirality; molecular asymmetry and its origin; formation of enantiomer excess and amplification; microscopic observations on a micrometer and sub-micrometer scales, at molecular and atomic levels; the first molecules at the origin of genetic information, viroids, circular RNA; regions of space or the area inside membranes and cells capable of initiating and maintaining life; phenomena at the origin of the emergence of life; molecules studied in the traditional field of chemistry and in the recent field of nanoscience governed by new laws; interaction between the individual molecules and components of living systems; interaction between living systems and the environment; transfer of information through generations; continuation of life from one generation to the next; prebiotic chemistry and prebiotic signatures on Earth, on Mars, on other planets; biosignatures of the first forms of life; fossils and pseudofossils dating 3.5 Ga ago and more recent ones; experimental fossilization; pluricellular eukaryotes dating 2.1 Ga ago; sudden increase in oxygen in the atmosphere around 2.0 to 2.5 Ga ago and its relation to geology; shell symmetry; aging with transformation of molecules, of their symmetry, their interactions, their exchanges. [...].

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生命的出现

事实上，即使我们知道生命的存在需要许多单独的组成部分，我们仍然不知道是什么使生命出现。《生命》杂志的一个目标是将文章与多学科方法并列，也许在不久的将来回答生命出现的问题。不同的主题和主题将被发展，当然从生命的多重定义开始，并继续与其他例如:生命的多样性和普遍性;生命系统的特征;具有能量和熵的热力学;动力学与催化;不同物理状态下的水;SAP与血液的循环及其起源;第一个血泵，第一个心脏;细胞、SAP和血液之间的第一次营养交换;生命系统的基本分子;手性;分子不对称及其成因;对映体过量和扩增的形成;在微米和亚微米尺度上，在分子和原子水平上的微观观察;遗传信息起源的第一批分子，类病毒，环状RNA;细胞区:能够启动和维持生命的空间区域或膜和细胞内部的区域;生命出现之初的现象;传统化学领域和纳米科学领域研究的分子受新规律支配;个体分子与生命系统组成部分之间的相互作用;生命系统与环境的相互作用;信息世代相传;生命从一代延续到下一代;地球、火星和其他星球上的生命前化学和生命前特征;最初生命形式的生物特征;3.5亿年前和更近的化石和假化石;实验石化;2.1亿年前的多细胞真核生物;2.0 ~ 2.5 Ga前大气中氧的突然增加及其与地质的关系;壳对称;衰老伴随着分子的转变，它们的对称性，它们的相互作用，它们的交换。[…]。

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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Life : Open Access Journal

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