Abiogenese (Dutch Wikipedia)

Analysis of information sources in references of the Wikipedia article "Abiogenese" in Dutch language version.

refsWebsite

Global rank Dutch rank

36doi.org

2^nd place

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30nih.gov

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12^th place

17web.archive.org

1^st place

5archive.org

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25^th place

2santafe.edu

low place

2arxiv.org

69^th place

533^rd place

1worldcat.org

5^th place

28^th place

1ensie.nl

low place

346^th place

1microbios.org

low place

1biocommunication.at

low place

1dli.gov.in

low place

1nasa.gov

75^th place

115^th place

1berkeley.edu

580^th place

889^th place

1englandlab.com

low place

1scientificamerican.com

896^th place

722^nd place

1nytimes.com

7^th place

27^th place

1illinois.edu

1,349^th place

2,860^th place

1exploringorigins.org

low place

1discovermagazine.com

3,042^nd place

4,323^rd place

1wiley.com

222^nd place

224^th place

archive.org

(en) Warmflash D, Warmflash B. (2005). Did Life Come from Another World?. Scientific American 293 (5): 64–71. DOI: 10.1038/scientificamerican1105-64. “According to the conventional hypothesis, the earliest living cells emerged as a result of chemical evolution on our planet billions of years ago in a process called abiogenesis.”.
(en) Manhesa G, Allègre J, Dupréa B, Hamelin B. (1980). Lead isotope study of basic-ultrabasic layered complexes: Speculations about the age of the earth and primitive mantle characteristics. Earth and Planetary Science Letters 47 (3): 370–382. DOI: 10.1016/0012-821X(80)90024-2.
(en) Bernal, J. D. (1967). The origin of life. Cleveland, World Pub. Co, London.
(en) Chyba C, Sagan C. (1992). Endogenous production, exogenous delivery and impact-shock synthesis of organic molecules: an inventory for the origins of life. Nature 355 (6356): 125–132. PMID 11538392. DOI: 10.1038/355125a0.
(en) (2008). A Reassessment of Prebiotic Organic Synthesis in Neutral Planetary Atmospheres. Origins of Life and Evolution of Biospheres 38 (2): 105–115. PMID 18204914. DOI: 10.1007/s11084-007-9120-3.

arxiv.org

(en) Gavin E. Crooks (2008), Entropy production fluctuation theorem and the nonequilibrium work relation for free energy differences.
(en) Palasek, Stan (2013). "Primordial RNA Replication and Applications in PCR Technology". arXiv:1305.5581v1. Gearchiveerd op 12 november 2020.

berkeley.edu

astrobiology.berkeley.edu

(en) Bada JL, Lazcano A. (2003). Prebiotic Soup – Revisiting the Miller Experiment. Science 300 (5620): 745–746. PMID 12730584. DOI: 10.1126/science.1085145. Gearchiveerd van origineel op 7 oktober 2021.

biocommunication.at

(en) Witzany, Guenther (2016). Crucial steps to life: From chemical reactions to code using agents. Biosystems 140: 49–57. PMID 26723230. DOI: 10.1016/j.biosystems.2015.12.007. Gearchiveerd van origineel op 7 oktober 2021.

discovermagazine.com

(en) Zimmer C, (2004). What Came Before DNA?. Discover. Gearchiveerd van origineel op 19 maart 2014. Geraadpleegd op 2 september 2019.

dli.gov.in

(en) Bahadur, Krishna (1973). Photochemical Formation of Self–sustaining Coacervates. Proceedings of the Indian National Science Academy 39B (4): 455–467. PMID 1242552. DOI: 10.1016/S0044-4057(75)80076-1. Gearchiveerd van origineel op 19 oktober 2013. Geraadpleegd op 4 augustus 2019.

doi.org

(en) Scharf, Caleb (2015). A Strategy for Origins of Life Research. Astrobiology 15 (12): 1031–1042. ISSN: 1557-8070. PMID 26684503. PMC 4683543. DOI: 10.1089/ast.2015.1113. “Since the early 20th century the phrase Origin of Life has been used to refer to the events that occurred during the transition from non-living to living systems on Earth, i.e., the origin of terrestrial biology (Oparin, 1924; Haldane, 1929). The term has largely replaced earlier concepts such as abiogenesis (Kamminga, 1980; Fry, 2000).”.
(en) Warmflash D, Warmflash B. (2005). Did Life Come from Another World?. Scientific American 293 (5): 64–71. DOI: 10.1038/scientificamerican1105-64. “According to the conventional hypothesis, the earliest living cells emerged as a result of chemical evolution on our planet billions of years ago in a process called abiogenesis.”.
(en) Witzany, Guenther (2016). Crucial steps to life: From chemical reactions to code using agents. Biosystems 140: 49–57. PMID 26723230. DOI: 10.1016/j.biosystems.2015.12.007. Gearchiveerd van origineel op 7 oktober 2021.
(en) Copley S, Smith E, Morowitz H (2007). The origin of the RNA world: Co-evolution of genes and metabolism. Bioorganic Chemistry 35 (6): 430–443. PMID 17897696. DOI: 10.1016/j.bioorg.2007.08.001. Gearchiveerd van origineel op 5 september 2013. Geraadpleegd op 8 juni 2015. “The proposal that life on Earth arose from an RNA world is widely accepted.”.
(en) Miller, Stanley L. (1953). A Production of Amino Acids Under Possible Primitive Earth Conditions. Science 117 (3046): 528–529. PMID 13056598. DOI: 10.1126/science.117.3046.528.
(en) Manhesa G, Allègre J, Dupréa B, Hamelin B. (1980). Lead isotope study of basic-ultrabasic layered complexes: Speculations about the age of the earth and primitive mantle characteristics. Earth and Planetary Science Letters 47 (3): 370–382. DOI: 10.1016/0012-821X(80)90024-2.
(en) Schopf J, Kudryavtsev A, Czaja A. (2007). Evidence of Archean life: Stromatolites and microfossils. Precambrian Research 158 (3–4): 141–155. DOI: 10.1016/j.precamres.2007.04.009.
(en) Dodd M et al. (2017). Evidence for early life in Earth's oldest hydrothermal vent precipitates. Nature 543 (7643): 60–64. PMID 28252057. DOI: 10.1038/nature21377.
(en) Bahadur, Krishna (1973). Photochemical Formation of Self–sustaining Coacervates. Proceedings of the Indian National Science Academy 39B (4): 455–467. PMID 1242552. DOI: 10.1016/S0044-4057(75)80076-1. Gearchiveerd van origineel op 19 oktober 2013. Geraadpleegd op 4 augustus 2019.
(en) Martin, William F. (2003). On the origins of cells: a hypothesis for the evolutionary transitions from abiotic geochemistry to chemoautotrophic prokaryotes, and from prokaryotes to nucleated cells. Phil. Trans. R. Soc. Lond. A 358 (1429): 59–83. PMID 12594918. PMC 1693102. DOI: 10.1098/rstb.2002.1183.
(en) Follmann H, Brownson C. (2009). Darwin's warm little pond revisited: from molecules to the origin of life. Naturwissenschaften 96 (11): 1265–1292. PMID 19760276. DOI: 10.1007/s00114-009-0602-1.
(en) Oehlenschläger F, Eigen M. (1997). 30 Years Later – a New Approach to Sol Spiegelman's and Leslie Orgel's in vitro Evolutionary Studies Dedicated to Leslie Orgel on the occasion of his 70th birthday. Origins of Life and Evolution of Biospheres 27 (5–6): 437–457. PMID 9394469. DOI: 10.1023/A:1006501326129.
(en) Satoru Nakashima, Yoko Kebukawa, Norio Kitadai, et al. (2018). Geochemistry and the Origin of Life: From Extraterrestrial Processes, Chemical Evolution on Earth, Fossilized Life’s Records, to Natures of the Extant Life. Life 8 (4): 39. PMID 30241342. DOI: 10.3390/life8040039. Gearchiveerd van origineel op 30 juli 2021.
(en) Ciesla FJ, Sandford SA. (2012). Organic Synthesis via Irradiation and Warming of Ice Grains in the Solar Nebula. Science 336 (6080): 452–454. PMID 22461502. DOI: 10.1126/science.1217291.
(en) Chyba C, Sagan C. (1992). Endogenous production, exogenous delivery and impact-shock synthesis of organic molecules: an inventory for the origins of life. Nature 355 (6356): 125–132. PMID 11538392. DOI: 10.1038/355125a0.
(en) William Martin, John Baross, Deborah Kelley & Michael J. Russell (2008). Hydrothermal vents and the origin of life. Microbiology 6: 805-814. DOI: 10.1038/nrmicro1991.
(en) Saladino, Raffaele; Crestini, Claudia; Pino, Samanta; et al. (2012). Formamide and the origin of life.. Physics of Life Reviews 9 (1): 84–104. PMID 22196896. DOI: 10.1016/j.plrev.2011.12.002.
(en) Saladino, Raffaele; Botta, Giorgia; Pino, Samanta; et al. (2012). From the one-carbon amide formamide to RNA all the steps are prebiotically possible. Biochimie 94 (7): 1451–1456. PMID 22738728. DOI: 10.1016/j.biochi.2012.02.018.
(en) (2008). A Reassessment of Prebiotic Organic Synthesis in Neutral Planetary Atmospheres. Origins of Life and Evolution of Biospheres 38 (2): 105–115. PMID 18204914. DOI: 10.1007/s11084-007-9120-3.
(en) Bada JL, Lazcano A. (2003). Prebiotic Soup – Revisiting the Miller Experiment. Science 300 (5620): 745–746. PMID 12730584. DOI: 10.1126/science.1085145. Gearchiveerd van origineel op 7 oktober 2021.
(en) Ban N. Nissen P. Hansen J. Moore P. Steitz T. (2000). The complete atomic structure of the large ribosomal subunit at 2.4 Å resolution. Science 289 (5481): 905–20. PMID 10937989. DOI: 10.1126/science.289.5481.905.
(en) Copley, Shelley D.; Smith, Eric; Morowitz, Harold J. (2007). The origin of the RNA world: Co-evolution of genes and metabolism. Bioorganic Chemistry 35 (6): 430–443. PMID 17897696. DOI: 10.1016/j.bioorg.2007.08.001. Gearchiveerd van origineel op 5 september 2013. Geraadpleegd op 8 juni 2015. “The proposal that life on Earth arose from an RNA world is widely accepted.”.
(en) Orgel, Leslie E. (2003). Some consequences of the RNA world hypothesis. Origins of Life and Evolution of the Biosphere 33 (2): 211–218. PMID 12967268. DOI: 10.1023/A:1024616317965. “It now seems very likely that our familiar DNA/RNA/protein world was preceded by an RNA world...”.
(en) Cech, Thomas R. (2012). The RNA Worlds in Context. Cold Spring Harbor Perspectives in Biology 4 (7). PMID 21441585. PMC 3385955. DOI: 10.1101/cshperspect.a006742.
(en) Gilbert, Walter (1986). Origin of life: The RNA world. Nature 319 (6055). DOI: 10.1038/319618a0.
Noller, Harry F. (April 2012). Evolution of protein synthesis from an RNA world.. Cold Spring Harbor Perspectives in Biology 4 (4). PMID 20610545. PMC 3312679. DOI: 10.1101/cshperspect.a003681.
Koonin, Eugene V. (31 May 2007). The cosmological model of eternal inflation and the transition from chance to biological evolution in the history of life. Biology Direct 2. PMID 17540027. PMC 1892545. DOI: 10.1186/1745-6150-2-15.
(en) Janjic, Aleksandar (2018). The Need for Including Virus Detection Methods in Future Mars Missions. Astrobiology 18 (12): 1611–1614. DOI: 10.1089/ast.2018.1851.
(en) Katzourakis, A (2013). Paleovirology: Inferring viral evolution from host genome sequence data. Philosophical Transactions of the Royal Society B: Biological Sciences 368 (1626): 20120493. PMID 23938747. PMC 3758182. DOI: 10.1098/rstb.2012.0493.
(en) Johnston, Wendy K.; Unrau, Peter J.; Lawrence, Michael S. (2001). RNA-Catalyzed RNA Polymerization: Accurate and General RNA-Templated Primer Extension. Science 292 (5520): 1319–1325. PMID 11358999. DOI: 10.1126/science.1060786.
(en) Lincoln, Tracey A. & Joyce, Gerald F. (2009). Self-Sustained Replication of an RNA Enzyme. Science 323 (5918): 1229–1232. PMID 19131595. PMC 2652413. DOI: 10.1126/science.1167856.
(en) Robertson, Michael P. & Joyce, Gerald F. (2012). The origins of the RNA world. Cold Spring Harbor Perspectives in Biology 4 (5). PMID 20739415. PMC 3331698. DOI: 10.1101/cshperspect.a003608.
(en) Chen IA, Walde P. (2010). From Self-Assembled Vesicles to Protocells. Cold Spring Harbor Perspectives in Biology 2 (7). PMID 20519344. PMC 2890201. DOI: 10.1101/cshperspect.a002170.
(en) Chen IA (2006). The Emergence of Cells During the Origin of Life. Science 314 (5805): 1558–1559. PMID 17158315. DOI: 10.1126/science.1137541.
(en) Shapiro, Robert (2007). A Simpler Origin for Life. Scientific American 296 (6): 46–53. PMID 17663224. DOI: 10.1038/scientificamerican0607-46.

dx.doi.org

(en) Monnard, P & Deamer, DW (2002), Membrane self‐assembly processes: Steps toward the first cellular life. Anat. Rec., 268: 196-207. DOI:10.1002/ar.10154. Vrije toegang. Gearchiveerd op 15 augustus 2019.

englandlab.com

England, Jeremy (2013). Statistical physics of self-replication. The Journal of Chemical Physics 139, 121923

ensie.nl

(nl) Van Straalen, NM. Oorsprong van het leven – betekenis en definitie, Ensie.nl, 26-04-2020, geraadpleegd op 20 juli 2020. Gearchiveerd op 20 juli 2020.

exploringorigins.org

Exploring Life's Origins: Protocells. Exploring Life's Origins: A Virtual Exhibit. National Science Foundation. Gearchiveerd op 28 februari 2014. Geraadpleegd op 18 maart 2014.

illinois.edu

news.illinois.edu

(en) Yates, Diana, "Study adds to evidence that viruses are alive", University of Illinois at Urbana–Champaign, 25 september 2015. Gearchiveerd op 19 november 2015. Geraadpleegd op 20 oktober 2015.

microbios.org

im.microbios.org

(en) Peretó, Juli (2005). Controversies on the origin of life. International Microbiology 8 (1): 23–31. PMID 15906258. Gearchiveerd van origineel op 22 januari 2019.

nasa.gov

jpl.nasa.gov

(en) Landau, Elizabeth., Building Blocks of Life's Building Blocks Come From Starlight. NASA (12 October 2016). Gearchiveerd op 21 juli 2021.

nih.gov

ncbi.nlm.nih.gov

(en) Scharf, Caleb (2015). A Strategy for Origins of Life Research. Astrobiology 15 (12): 1031–1042. ISSN: 1557-8070. PMID 26684503. PMC 4683543. DOI: 10.1089/ast.2015.1113. “Since the early 20th century the phrase Origin of Life has been used to refer to the events that occurred during the transition from non-living to living systems on Earth, i.e., the origin of terrestrial biology (Oparin, 1924; Haldane, 1929). The term has largely replaced earlier concepts such as abiogenesis (Kamminga, 1980; Fry, 2000).”.
(en) Peretó, Juli (2005). Controversies on the origin of life. International Microbiology 8 (1): 23–31. PMID 15906258. Gearchiveerd van origineel op 22 januari 2019.
(en) Witzany, Guenther (2016). Crucial steps to life: From chemical reactions to code using agents. Biosystems 140: 49–57. PMID 26723230. DOI: 10.1016/j.biosystems.2015.12.007. Gearchiveerd van origineel op 7 oktober 2021.
(en) Copley S, Smith E, Morowitz H (2007). The origin of the RNA world: Co-evolution of genes and metabolism. Bioorganic Chemistry 35 (6): 430–443. PMID 17897696. DOI: 10.1016/j.bioorg.2007.08.001. Gearchiveerd van origineel op 5 september 2013. Geraadpleegd op 8 juni 2015. “The proposal that life on Earth arose from an RNA world is widely accepted.”.
(en) Miller, Stanley L. (1953). A Production of Amino Acids Under Possible Primitive Earth Conditions. Science 117 (3046): 528–529. PMID 13056598. DOI: 10.1126/science.117.3046.528.
(en) Dodd M et al. (2017). Evidence for early life in Earth's oldest hydrothermal vent precipitates. Nature 543 (7643): 60–64. PMID 28252057. DOI: 10.1038/nature21377.
(en) Bahadur, Krishna (1973). Photochemical Formation of Self–sustaining Coacervates. Proceedings of the Indian National Science Academy 39B (4): 455–467. PMID 1242552. DOI: 10.1016/S0044-4057(75)80076-1. Gearchiveerd van origineel op 19 oktober 2013. Geraadpleegd op 4 augustus 2019.
(en) Martin, William F. (2003). On the origins of cells: a hypothesis for the evolutionary transitions from abiotic geochemistry to chemoautotrophic prokaryotes, and from prokaryotes to nucleated cells. Phil. Trans. R. Soc. Lond. A 358 (1429): 59–83. PMID 12594918. PMC 1693102. DOI: 10.1098/rstb.2002.1183.
(en) Follmann H, Brownson C. (2009). Darwin's warm little pond revisited: from molecules to the origin of life. Naturwissenschaften 96 (11): 1265–1292. PMID 19760276. DOI: 10.1007/s00114-009-0602-1.
(en) Oehlenschläger F, Eigen M. (1997). 30 Years Later – a New Approach to Sol Spiegelman's and Leslie Orgel's in vitro Evolutionary Studies Dedicated to Leslie Orgel on the occasion of his 70th birthday. Origins of Life and Evolution of Biospheres 27 (5–6): 437–457. PMID 9394469. DOI: 10.1023/A:1006501326129.
(en) Satoru Nakashima, Yoko Kebukawa, Norio Kitadai, et al. (2018). Geochemistry and the Origin of Life: From Extraterrestrial Processes, Chemical Evolution on Earth, Fossilized Life’s Records, to Natures of the Extant Life. Life 8 (4): 39. PMID 30241342. DOI: 10.3390/life8040039. Gearchiveerd van origineel op 30 juli 2021.
(en) Ciesla FJ, Sandford SA. (2012). Organic Synthesis via Irradiation and Warming of Ice Grains in the Solar Nebula. Science 336 (6080): 452–454. PMID 22461502. DOI: 10.1126/science.1217291.
(en) Chyba C, Sagan C. (1992). Endogenous production, exogenous delivery and impact-shock synthesis of organic molecules: an inventory for the origins of life. Nature 355 (6356): 125–132. PMID 11538392. DOI: 10.1038/355125a0.
(en) Saladino, Raffaele; Crestini, Claudia; Pino, Samanta; et al. (2012). Formamide and the origin of life.. Physics of Life Reviews 9 (1): 84–104. PMID 22196896. DOI: 10.1016/j.plrev.2011.12.002.
(en) Saladino, Raffaele; Botta, Giorgia; Pino, Samanta; et al. (2012). From the one-carbon amide formamide to RNA all the steps are prebiotically possible. Biochimie 94 (7): 1451–1456. PMID 22738728. DOI: 10.1016/j.biochi.2012.02.018.
(en) (2008). A Reassessment of Prebiotic Organic Synthesis in Neutral Planetary Atmospheres. Origins of Life and Evolution of Biospheres 38 (2): 105–115. PMID 18204914. DOI: 10.1007/s11084-007-9120-3.
(en) Bada JL, Lazcano A. (2003). Prebiotic Soup – Revisiting the Miller Experiment. Science 300 (5620): 745–746. PMID 12730584. DOI: 10.1126/science.1085145. Gearchiveerd van origineel op 7 oktober 2021.
(en) Ban N. Nissen P. Hansen J. Moore P. Steitz T. (2000). The complete atomic structure of the large ribosomal subunit at 2.4 Å resolution. Science 289 (5481): 905–20. PMID 10937989. DOI: 10.1126/science.289.5481.905.
(en) Copley, Shelley D.; Smith, Eric; Morowitz, Harold J. (2007). The origin of the RNA world: Co-evolution of genes and metabolism. Bioorganic Chemistry 35 (6): 430–443. PMID 17897696. DOI: 10.1016/j.bioorg.2007.08.001. Gearchiveerd van origineel op 5 september 2013. Geraadpleegd op 8 juni 2015. “The proposal that life on Earth arose from an RNA world is widely accepted.”.
(en) Orgel, Leslie E. (2003). Some consequences of the RNA world hypothesis. Origins of Life and Evolution of the Biosphere 33 (2): 211–218. PMID 12967268. DOI: 10.1023/A:1024616317965. “It now seems very likely that our familiar DNA/RNA/protein world was preceded by an RNA world...”.
(en) Cech, Thomas R. (2012). The RNA Worlds in Context. Cold Spring Harbor Perspectives in Biology 4 (7). PMID 21441585. PMC 3385955. DOI: 10.1101/cshperspect.a006742.
Noller, Harry F. (April 2012). Evolution of protein synthesis from an RNA world.. Cold Spring Harbor Perspectives in Biology 4 (4). PMID 20610545. PMC 3312679. DOI: 10.1101/cshperspect.a003681.
Koonin, Eugene V. (31 May 2007). The cosmological model of eternal inflation and the transition from chance to biological evolution in the history of life. Biology Direct 2. PMID 17540027. PMC 1892545. DOI: 10.1186/1745-6150-2-15.
(en) Katzourakis, A (2013). Paleovirology: Inferring viral evolution from host genome sequence data. Philosophical Transactions of the Royal Society B: Biological Sciences 368 (1626): 20120493. PMID 23938747. PMC 3758182. DOI: 10.1098/rstb.2012.0493.
(en) Johnston, Wendy K.; Unrau, Peter J.; Lawrence, Michael S. (2001). RNA-Catalyzed RNA Polymerization: Accurate and General RNA-Templated Primer Extension. Science 292 (5520): 1319–1325. PMID 11358999. DOI: 10.1126/science.1060786.
(en) Lincoln, Tracey A. & Joyce, Gerald F. (2009). Self-Sustained Replication of an RNA Enzyme. Science 323 (5918): 1229–1232. PMID 19131595. PMC 2652413. DOI: 10.1126/science.1167856.
(en) Robertson, Michael P. & Joyce, Gerald F. (2012). The origins of the RNA world. Cold Spring Harbor Perspectives in Biology 4 (5). PMID 20739415. PMC 3331698. DOI: 10.1101/cshperspect.a003608.
(en) Chen IA, Walde P. (2010). From Self-Assembled Vesicles to Protocells. Cold Spring Harbor Perspectives in Biology 2 (7). PMID 20519344. PMC 2890201. DOI: 10.1101/cshperspect.a002170.
(en) Chen IA (2006). The Emergence of Cells During the Origin of Life. Science 314 (5805): 1558–1559. PMID 17158315. DOI: 10.1126/science.1137541.
(en) Shapiro, Robert (2007). A Simpler Origin for Life. Scientific American 296 (6): 46–53. PMID 17663224. DOI: 10.1038/scientificamerican0607-46.

nytimes.com

(en) Wade, Nicholas, "Making Sense of the Chemistry That Led to Life on Earth", The New York Times, 4 mei 2015. Gearchiveerd op 9 July 2017. Geraadpleegd op 10 mei 2015.

santafe.edu

tuvalu.santafe.edu

(en) Copley S, Smith E, Morowitz H (2007). The origin of the RNA world: Co-evolution of genes and metabolism. Bioorganic Chemistry 35 (6): 430–443. PMID 17897696. DOI: 10.1016/j.bioorg.2007.08.001. Gearchiveerd van origineel op 5 september 2013. Geraadpleegd op 8 juni 2015. “The proposal that life on Earth arose from an RNA world is widely accepted.”.
(en) Copley, Shelley D.; Smith, Eric; Morowitz, Harold J. (2007). The origin of the RNA world: Co-evolution of genes and metabolism. Bioorganic Chemistry 35 (6): 430–443. PMID 17897696. DOI: 10.1016/j.bioorg.2007.08.001. Gearchiveerd van origineel op 5 september 2013. Geraadpleegd op 8 juni 2015. “The proposal that life on Earth arose from an RNA world is widely accepted.”.

scientificamerican.com

Wolchover, Natalie (28 januari 2014). A New Physics Theory of Life. Scientific American (2014)

web.archive.org

(nl) Van Straalen, NM. Oorsprong van het leven – betekenis en definitie, Ensie.nl, 26-04-2020, geraadpleegd op 20 juli 2020. Gearchiveerd op 20 juli 2020.
(en) Peretó, Juli (2005). Controversies on the origin of life. International Microbiology 8 (1): 23–31. PMID 15906258. Gearchiveerd van origineel op 22 januari 2019.
(en) Witzany, Guenther (2016). Crucial steps to life: From chemical reactions to code using agents. Biosystems 140: 49–57. PMID 26723230. DOI: 10.1016/j.biosystems.2015.12.007. Gearchiveerd van origineel op 7 oktober 2021.
(en) Copley S, Smith E, Morowitz H (2007). The origin of the RNA world: Co-evolution of genes and metabolism. Bioorganic Chemistry 35 (6): 430–443. PMID 17897696. DOI: 10.1016/j.bioorg.2007.08.001. Gearchiveerd van origineel op 5 september 2013. Geraadpleegd op 8 juni 2015. “The proposal that life on Earth arose from an RNA world is widely accepted.”.
(en) Bahadur, Krishna (1973). Photochemical Formation of Self–sustaining Coacervates. Proceedings of the Indian National Science Academy 39B (4): 455–467. PMID 1242552. DOI: 10.1016/S0044-4057(75)80076-1. Gearchiveerd van origineel op 19 oktober 2013. Geraadpleegd op 4 augustus 2019.
(en) Lindsay Hays (ed.), NASA Astrobiology Strategy. NASA (2015). Gearchiveerd op 22-12-2016. Geraadpleegd op 12-8-2019.
(en) Satoru Nakashima, Yoko Kebukawa, Norio Kitadai, et al. (2018). Geochemistry and the Origin of Life: From Extraterrestrial Processes, Chemical Evolution on Earth, Fossilized Life’s Records, to Natures of the Extant Life. Life 8 (4): 39. PMID 30241342. DOI: 10.3390/life8040039. Gearchiveerd van origineel op 30 juli 2021.
(en) Landau, Elizabeth., Building Blocks of Life's Building Blocks Come From Starlight. NASA (12 October 2016). Gearchiveerd op 21 juli 2021.
(en) Bada JL, Lazcano A. (2003). Prebiotic Soup – Revisiting the Miller Experiment. Science 300 (5620): 745–746. PMID 12730584. DOI: 10.1126/science.1085145. Gearchiveerd van origineel op 7 oktober 2021.
C. Jarzynski (2019), Microscopic analysis of Clausius-Duhem processes. Gearchiveerd op 12 oktober 2023. Geraadpleegd op 13 oktober 2023.
(en) Palasek, Stan (2013). "Primordial RNA Replication and Applications in PCR Technology". arXiv:1305.5581v1. Gearchiveerd op 12 november 2020.
(en) Copley, Shelley D.; Smith, Eric; Morowitz, Harold J. (2007). The origin of the RNA world: Co-evolution of genes and metabolism. Bioorganic Chemistry 35 (6): 430–443. PMID 17897696. DOI: 10.1016/j.bioorg.2007.08.001. Gearchiveerd van origineel op 5 september 2013. Geraadpleegd op 8 juni 2015. “The proposal that life on Earth arose from an RNA world is widely accepted.”.
(en) Wade, Nicholas, "Making Sense of the Chemistry That Led to Life on Earth", The New York Times, 4 mei 2015. Gearchiveerd op 9 July 2017. Geraadpleegd op 10 mei 2015.
(en) Yates, Diana, "Study adds to evidence that viruses are alive", University of Illinois at Urbana–Champaign, 25 september 2015. Gearchiveerd op 19 november 2015. Geraadpleegd op 20 oktober 2015.
Exploring Life's Origins: Protocells. Exploring Life's Origins: A Virtual Exhibit. National Science Foundation. Gearchiveerd op 28 februari 2014. Geraadpleegd op 18 maart 2014.
(en) Zimmer C, (2004). What Came Before DNA?. Discover. Gearchiveerd van origineel op 19 maart 2014. Geraadpleegd op 2 september 2019.
(en) Monnard, P & Deamer, DW (2002), Membrane self‐assembly processes: Steps toward the first cellular life. Anat. Rec., 268: 196-207. DOI:10.1002/ar.10154. Vrije toegang. Gearchiveerd op 15 augustus 2019.

wiley.com

onlinelibrary.wiley.com

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(en) Scharf, Caleb (2015). A Strategy for Origins of Life Research. Astrobiology 15 (12): 1031–1042. ISSN: 1557-8070. PMID 26684503. PMC 4683543. DOI: 10.1089/ast.2015.1113. “Since the early 20th century the phrase Origin of Life has been used to refer to the events that occurred during the transition from non-living to living systems on Earth, i.e., the origin of terrestrial biology (Oparin, 1924; Haldane, 1929). The term has largely replaced earlier concepts such as abiogenesis (Kamminga, 1980; Fry, 2000).”.