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Author
Asche, Silke 1 Becker, Sidney 1 Betts, Holly C 1 Boniface, Adrien 1 Camprubi, Eloi 1 Chandru, Kuhan 1 Erastova, Valentina 1 Garg, Sriram G 1 Khawaja, Nozair 1 Kostyrka, Gladys 1 Machné, Rainer 1 Moggioli, Giacomo 1 Muchowska, Kamila B 1 Neukirchen, Sinje 1 Peter, Benedikt 1 Pichlhöfer, Edith 1 Preiner, Martina 1 Radványi, Ádám 1 Rossetto, Daniele 1 Salditt, Annalena 1
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Workplace
Archaea Biology and Ecogenomics Division Uni... 1 Cellular and Molecular Biophysics Max Planck... 1 Cluster of Excellence on Plant Sciences Univ... 1 Department of Cellular Computational and Int... 1 Department of Chemistry University of Cambri... 1 Department of Physical Chemistry University ... 1 Department of Plant Systematics Ecology and ... 1 Environmental Microbial Genomics Laboratoire... 1 Institut für Geologische Wissenschaften Frei... 1 Institute of Evolution MTA Centre for Ecolog... 1 Institute of Molecular Evolution University ... 1 Institute of Synthetic Microbiology Universi... 1 Lycée Colbert BP 50620 59208 Tourcoing Cedex... 1 Origins Center Department of Earth Sciences ... 1 Quantitative and Theoretical Biology Univers... 1 School of Biological and Chemical Sciences Q... 1 School of Chemistry University of Glasgow Gl... 1 School of Earth Sciences University of Brist... 1 Space Science Center Institute of Climate Ch... 1 Systems Biophysics Physics Department Ludwig... 1
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Most cited article - PubMed ID 29323115
Wet-dry cycles enable the parallel origin of canonical and non-canonical nucleosides by continuous synthesis
- Preiner, Martina
- Asche, Silke
- Becker, Sidney
- Betts, Holly C
- Boniface, Adrien
- Camprubi, Eloi
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Chandru, Kuhan
Author Chandru, Kuhan Space Science Center (ANGKASA), Institute of Climate Change, Level 3, Research Complex, National University of Malaysia, 43600, UKM Bangi, Selangor, Malaysia Department of Physical Chemistry, University of Chemistry and Technology, Prague, Technicka 5, 16628 Prague 6-Dejvice, Czech Republic
- Erastova, Valentina
- Garg, Sriram G
- Khawaja, Nozair
PubMed
32110893
PubMed Central
PMC7151616
DOI
10.3390/life10030020
PII: life10030020
Knihovny.cz E-resources
Research on the origin of life is highly heterogeneous. After a peculiar historical development, it still includes strongly opposed views which potentially hinder progress. In the 1st Interdisciplinary Origin of Life Meeting, early-career researchers gathered to explore the commonalities between theories and approaches, critical divergence points, and expectations for the future. We find that even though classical approaches and theories-e.g. bottom-up and top-down, RNA world vs. metabolism-first-have been prevalent in origin of life research, they are ceasing to be mutually exclusive and they can and should feed integrating approaches. Here we focus on pressing questions and recent developments that bridge the classical disciplines and approaches, and highlight expectations for future endeavours in origin of life research.
- Keywords
- LUCA, abiogenesis, bottom-up, early life, emergence, origins of life, prebiotic chemistry, top-down,
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- Journal Article MeSH
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