拉马克式的宇宙中生命的高效传播。

4区 生物学 Q2 Biochemistry, Genetics and Molecular Biology
Advances in Genetics Pub Date : 2020-01-01 Epub Date: 2020-07-07 DOI:10.1016/bs.adgen.2020.03.004
Edward J Steele, Reginald M Gorczynski, Robyn A Lindley, Yongsheng Liu, Robert Temple, Gensuke Tokoro, Dayal T Wickramasinghe, N Chandra Wickramasinghe
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引用次数: 1

摘要

在本章中,我们讨论了宇宙微生物生命系统从一个宇宙栖息地转移到另一个宇宙栖息地的各种可能机制。仅在我们的银河系中就有大约100颗可居住的行星,携带生命的彗星尘埃(包括冰冷的行星/小行星的碎片)的转移预计会经常发生。因此,很容易把银河系看作是一个单一的连接的“生物圈”,我们的地球是其中的一个小组成部分。Hoyle-Wickramasinghe生源论范式为拉马克遗传模式在陆地系统中的实际广泛存在提供了令人信服的生物学依据(我们在这里进行回顾)。因此,生源论范式为拉马克遗传论提供了存在的理由。在狭隘的新达尔文主义观点下,这种联系在过去可能被认为是虚假的。我们在这里的目的是概述陆地上基于拉马克的快速进化超突变过程依赖于逆转录偶联机制等的主要证据。这种快速适应机制将与生命系统的有效宇宙传播相一致。例如,一个可行的或冷冻保存的生命系统在一个保护性基质中穿越太空,必然需要在降落到一个新的宇宙生态位时迅速适应和繁殖。因此,拉马克的机制脱颖而出,取代了新达尔文地球中心理论所期望的缓慢(盲目和随机)的遗传过程。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

The efficient Lamarckian spread of life in the cosmos.

The efficient Lamarckian spread of life in the cosmos.

In this Chapter we discuss the various mechanisms that are available for the possible transfer of cosmic microbial living systems from one cosmic habitat to another. With the 100 or so habitable planets that are now known to exist in our galaxy alone transfers of cometary dust carrying life including fragments of icy planetoids/asteroids would be expected to occur on a routine basis. It is thus easy to view the galaxy as a single connected "biosphere" of which our planet Earth is a minor component. The Hoyle-Wickramasinghe Panspermia paradigm provides a cogent biological rationale for the actual widespread existence of Lamarckian modes of inheritance in terrestrial systems (which we review here). Thus the Panspermia paradigm provides the raison d'etre for Lamarckian Inheritance. Under a terrestrially confined neoDarwinian viewpoint such an association may have been thought spurious in the past. Our aim here is to outline the main evidence for rapid terrestrial-based Lamarckian-based evolutionary hypermutation processes dependent on reverse transcription-coupled mechanisms among others. Such rapid adaptation mechanisms would be consistent with the effective cosmic spread of living systems. For example, a viable, or cryo-preserved, living system traveling through space in a protective matrix will of necessity need to adapt rapidly and proliferate on landing in a new cosmic niche. Lamarckian mechanisms thus come to the fore and supersede the slow (blind and random) genetic processes expected under neoDarwinian Earth centred theories.

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来源期刊
Advances in Genetics
Advances in Genetics 生物-遗传学
CiteScore
5.70
自引率
0.00%
发文量
1
审稿时长
1 months
期刊介绍: Advances in Genetics presents an eclectic mix of articles of use to all human and molecular geneticists. They are written and edited by recognized leaders in the field and make this an essential series of books for anyone in the genetics field.
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