Evolution at the Origins of Life?

The role of evolutionary theory at the origin of life is an extensively debated topic. The origin and early development of life is usually separated into a prebiotic phase and a protocellular phase, ultimately leading to the Last Universal Common Ancestor. Most likely, the Last Universal Common Ance...

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Published inLife (Basel, Switzerland) Vol. 14; no. 2; p. 175
Main Authors Schoenmakers, Ludo L. J., Reydon, Thomas A. C., Kirschning, Andreas
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 01.01.2024
Subjects
20th century
Amino acids
Biological evolution
Biology
chemical evolution
Chemistry
Developmental biology
Evolution
Evolutionary biology
evolutionary theory
generalization
Life
metabolic networks
Organismal biology
Origin
Origins
origins of life
Prebiotics
reduction
Germany
metabolic networks
generalization
protocells
origins of life
reduction
evolutionary theory
chemical evolution
Online AccessGet full text
ISSN2075-1729
2075-1729
DOI10.3390/life14020175

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Abstract The role of evolutionary theory at the origin of life is an extensively debated topic. The origin and early development of life is usually separated into a prebiotic phase and a protocellular phase, ultimately leading to the Last Universal Common Ancestor. Most likely, the Last Universal Common Ancestor was subject to Darwinian evolution, but the question remains to what extent Darwinian evolution applies to the prebiotic and protocellular phases. In this review, we reflect on the current status of evolutionary theory in origins of life research by bringing together philosophy of science, evolutionary biology, and empirical research in the origins field. We explore the various ways in which evolutionary theory has been extended beyond biology; we look at how these extensions apply to the prebiotic development of (proto)metabolism; and we investigate how the terminology from evolutionary theory is currently being employed in state-of-the-art origins of life research. In doing so, we identify some of the current obstacles to an evolutionary account of the origins of life, as well as open up new avenues of research.
AbstractList The role of evolutionary theory at the origin of life is an extensively debated topic. The origin and early development of life is usually separated into a prebiotic phase and a protocellular phase, ultimately leading to the Last Universal Common Ancestor. Most likely, the Last Universal Common Ancestor was subject to Darwinian evolution, but the question remains to what extent Darwinian evolution applies to the prebiotic and protocellular phases. In this review, we reflect on the current status of evolutionary theory in origins of life research by bringing together philosophy of science, evolutionary biology, and empirical research in the origins field. We explore the various ways in which evolutionary theory has been extended beyond biology; we look at how these extensions apply to the prebiotic development of (proto)metabolism; and we investigate how the terminology from evolutionary theory is currently being employed in state-of-the-art origins of life research. In doing so, we identify some of the current obstacles to an evolutionary account of the origins of life, as well as open up new avenues of research.
The role of evolutionary theory at the origin of life is an extensively debated topic. The origin and early development of life is usually separated into a prebiotic phase and a protocellular phase, ultimately leading to the Last Universal Common Ancestor. Most likely, the Last Universal Common Ancestor was subject to Darwinian evolution, but the question remains to what extent Darwinian evolution applies to the prebiotic and protocellular phases. In this review, we reflect on the current status of evolutionary theory in origins of life research by bringing together philosophy of science, evolutionary biology, and empirical research in the origins field. We explore the various ways in which evolutionary theory has been extended beyond biology; we look at how these extensions apply to the prebiotic development of (proto)metabolism; and we investigate how the terminology from evolutionary theory is currently being employed in state-of-the-art origins of life research. In doing so, we identify some of the current obstacles to an evolutionary account of the origins of life, as well as open up new avenues of research.The role of evolutionary theory at the origin of life is an extensively debated topic. The origin and early development of life is usually separated into a prebiotic phase and a protocellular phase, ultimately leading to the Last Universal Common Ancestor. Most likely, the Last Universal Common Ancestor was subject to Darwinian evolution, but the question remains to what extent Darwinian evolution applies to the prebiotic and protocellular phases. In this review, we reflect on the current status of evolutionary theory in origins of life research by bringing together philosophy of science, evolutionary biology, and empirical research in the origins field. We explore the various ways in which evolutionary theory has been extended beyond biology; we look at how these extensions apply to the prebiotic development of (proto)metabolism; and we investigate how the terminology from evolutionary theory is currently being employed in state-of-the-art origins of life research. In doing so, we identify some of the current obstacles to an evolutionary account of the origins of life, as well as open up new avenues of research.
Audience Academic
Author Kirschning, Andreas
Reydon, Thomas A. C.
Schoenmakers, Ludo L. J.
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CitedBy_id crossref_primary_10_1096_fba_2024_00140
crossref_primary_10_3390_life14101324
crossref_primary_10_1016_j_jcis_2024_07_045
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Keywords metabolic networks
generalization
protocells
origins of life
reduction
evolutionary theory
chemical evolution
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SubjectTerms 20th century
Amino acids
Biological evolution
Biology
chemical evolution
Chemistry
Developmental biology
Evolution
Evolutionary biology
evolutionary theory
generalization
Life
metabolic networks
Organismal biology
Origin
Origins
origins of life
Prebiotics
reduction
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Title Evolution at the Origins of Life?
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