B1305-Life on Earth and Endosymbiotic Theory PDF
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Allison E. McDonald
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Summary
This document discusses the origin of life on Earth, exploring various hypotheses such as exogenesis (panspermia), abiogenesis, the RNA world, and metabolism-first models. It also includes information about the Urey-Miller experiment and the challenges in studying the origin of life, ultimately aiming to address whether life exists beyond Earth.
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BI305-Life on Earth and Endosymbiotic Theory DR. ALLISON E. MCDONALD Microfossils? Apex Chert, North Pole, Australia Testing the Biogenicity of Microfossils mm-scale morphology Carbon isotopic composition of the fossils or associated materials Chemical composition of the obj...
BI305-Life on Earth and Endosymbiotic Theory DR. ALLISON E. MCDONALD Microfossils? Apex Chert, North Pole, Australia Testing the Biogenicity of Microfossils mm-scale morphology Carbon isotopic composition of the fossils or associated materials Chemical composition of the objects All 3 must be satisfied to suggest that microfossils are of biological origin Very difficult to do Carbon Isotope Signatures 2 stable isotopes of carbon: Carbon 12 and Carbon 13 Abiotic ratio in mineral compounds is 89 Biotic ratio due to a preference of enzymes for Carbon 12 is 92 Very Early Earth (4500-3800 Mya) No atmosphere Volcanic activity Bombardment by objects from space Outgassing of water vapour, carbon monoxide, carbon dioxide, nitrogen, hydrogen from the various layers of the planet Very hot Early Earth (~3800 Mya) Planet starts to cool Water condenses to form oceans Volcanic activity Atmosphere starts to form-comprised of nitrogen, carbon dioxide, carbon monoxide, water vapour, hydrogen, and methane High levels of ultraviolet radiation Torrential rain and lightning Hypotheses for the Origin of Life on Earth Exogenesis/Panspermia Abiogenesis RNA World Metabolism First Models Exogenesis Life originated elsewhere in the universe and the Earth was “seeded” with this life by meteoroids, asteroids, and planetoids Exogenesis Requirements Life must be able to survive travel through space Life must be able to survive impacts into Earth Life must have existed elsewhere in the universe prior to the “seeding” of Earth Can Life Travel Through Space? Horneck et al. 2001 put spores of the bacterium Bacillus subtilus into space for 2 weeks Spores exposed to UV radiation did not survive Spores protected from UV radiation by powder of clay, rock, or meteorites Can Life Survive Impact with Earth? Tested by Burchell et al. in 2000 Fired projectiles coated with bacteria at 3.8/4.9 km/s at rock, glass, metal, and aerogel Took samples from impact craters and materials ejected during the impact and cultured them Bacteria were cultured from the ejecta from a rock surface Authors stress that the results need to be replicated Is there life elsewhere in the universe? Difficult to test Currently scientists are looking in 2 ways: Sending robot probes to Mars SETI (Search for Extra Terrestrial Intelligence) Universal Pictures Hypotheses for the Origin of Life on Earth Exogenesis Abiogenesis RNA World Metabolism First Models Abiogenesis Abiogenesis Life arose from inanimate inorganic and organic molecules through natural processes Abiogenesis 1871-Charles Darwin- life may have begun…"warm little pond, with all sorts of ammonia and phosphoric salts, lights, heat, electricity, etc. present, so that a protein compound was chemically formed ready to undergo still more complex changes". English Heritage Photo Library Abiogenesis 1924-Alexander Oparin and J. Haldane- "primeval soup" of organic molecules could be created in an oxygen-less atmosphere through the action of sunlight; “living matter evolving from self-replicating but nonliving molecules” Abiogenesis Origin of biological monomers Origin of biological polymers Transition from molecules to cells Abiogenesis Requirements Formation of monomers must be possible under the conditions of early Earth Some explanation of transition from molecules to cells must be provided Urey-Miller Experiment Urey-Miller Experiment YassiYassine Mrabet Yaseen Mirabet Urey-Miller Experiment Results 22 amino acids formed Several other organic compounds formed Problems o Relies upon a reducing atmosphere on early Earth and certain types of gases being present