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ASTROCHEMISTRY & ASTROBIOLOGY

ASTROCHEMISTRY & ASTROBIOLOGY. Outline. 1. Astrochemistry & Meteoritic Organics. 2. Extraterrestrial Delivery. 3. Early Earth. Ehrenfreund et al. (2002) Astrophysical and Astrochemical Insights into the Origin of Life , Rep. Prog. Phys., 65, 1427-1487. Reading.

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ASTROCHEMISTRY & ASTROBIOLOGY

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  1. ASTROCHEMISTRY & ASTROBIOLOGY

  2. Outline 1. Astrochemistry & Meteoritic Organics 2. Extraterrestrial Delivery 3. Early Earth

  3. Ehrenfreund et al. (2002) Astrophysical and Astrochemical Insights into the Origin of Life, Rep. Prog. Phys., 65, 1427-1487 Reading Cronin, J.R. & Chang, S. (1993) Organic Matter in Meteorites, in The Chemistry of Life’s Origins, J.M. Greenberg et al. (eds.), Kluwer, 209-258 Botta, O. & Bada, J.M. (2002) Extraterrestrial Organic Compounds in Meteorites, Surveys in Geophysics, 23, 411-467 Sephton, M.A. (2002) Organic Compounds in Carbonaceous Meteorites, Nat. Prod. Rep., 19, 292-311

  4. Extraterrestrial Delivery of Biogenic Molecules

  5. Evidence for chemical diversity Diversity among Oort cloud comets No systematic differences between Oort cloud and « Kuiper belt » comets Crovisier 2005

  6. TYPES OF METEORITES TYPE SUBTYPE FREQUENCY COMPOSITION FORMATION Stones Carbonaceous 5 % Water, carbon Primitive Chondrites silicates, metals Chondrites 81 % Silicates Heated under pressure Achondrites 8 % Silicates Heated Stony irons 1 % 50 % silicates, Differentiated 50 % free metal Irons 5 % 90 % iron Differentiated 10 % nickel

  7. Organics Found in Meteorites Total Carbon Content: > 3% (by weight); Soluble Fraction: < 30% of total C COMPONENTS: ACIDS: Amino acids Carboxylic acids Hydroxycarboxylic acids Dicarboxylic acids Hydroxydicarboxylic acids Sulfonic acids Phosphonic acids HYDROCARBONS: non-volatile: aliphatic aromatic (PAH) polar volatile OTHERS: N-Heterocycles Amides Amines Alcohols Carbonyl compounds FULLERENES: C60, C70 He@C60 Higher Fullerenes

  8. Chromatograms of Meteorite Extracts 1 D-Aspartic Acid 2 L-Aspartic Acid 3 L-Glutamic Acid 4 D-Glutamic Acid 5 D,L-Serine 6 Glycine 7 b-Alanine 8 g-Amino-n-butyric Acid (g-ABA) 9 D,L-b-Aminoisobutyric Acid (b-AIB) 10 D-Alanine 11 L-Alanine 12 D,L-b-Amino-n-butyric Acid (b-ABA) 13 a-Aminoisobutyric Acid (AIB) 14 D,L-a-Amino-n-butyric Acid (a-ABA) 15 D,L-Isovaline 16 L-Valine 17 D-Valine X: unknown Ehrenfreund et al., 2001

  9. Amino Acids in Carbonaceous Chondrites • Amino acids are readily synthesized under a variety of plausible prebiotic conditions (e.g. in the Miller-Urey Experiment). Amino acids are the building blocks of proteins and enzymes in life on Earth. Chirality (handedness) can be used to distinguish biotic vs. abiotic origins. Most of the amino acids found in meteorites are very rare on Earth (AIB, isovaline). • • •

  10. Strecker Amino Acid Synthesis in CM-type Chondrites Strecker Amino Acid Synthesis in CM-type Chondrites For a review: Botta and Bada, Surv. Geophys.23, 411-467 (2002)

  11. Amino Acid Synthesis in CI-type Chondrites Amino Acid Synthesis in CI-type Chondrites

  12. Chirality Left- and right-handed mirror molecules are called enantiomers. Enantiomers possess identical physical properties (melting point etc.). They rotate the plane of planar-polarized light in opposite directions. They cannot be chromatographically separated on a non-chiral column. • • • • Separation on chiral column or Derivatization to form diastereoisomers, separation on non-chiral column

  13. Enantiomeric Excesses in Meteoritic Amino Acids Mechanisms? Racemization? Amplification? Valine Alanine Isovaline Norvaline a-Methylvaline 2S,3S/2R,3R 2S,3R/2R,3S a-Methylnorvaline a-Methylnorleucine a-Methyl-n-butyric acid 2-Amino-2,3-dimethyl- pentanoic acid Pizzarello and Cronin,Geochim. Cosmochim. Acta64, 329-338 (2000)

  14. NATURE |VOL 416 | 28 MARCH 2002

  15. ISOTOPIC RATIOS FOR “C” AND “H” Irvine 1998 Terr.ocean= dD= O Cosmic D/H ratio ~ 0.8-2x10-5

  16. NITROGEN ISOTOPE RATIOS (TERRESTRIAL 14N/15N~270) PROTOSOLAR 14N/15N~400 ISM DEPLETION CORES 14NH3/15NH3~140 COMETS: HC14N/HC15N~400 C14N/C15N~140 IDPs 14N/15N~140 PROCESSING ISM TO ORGANIC POLYMERS ?

  17. A piece of interplanetary dust

  18. DNA/RNA Components

  19. Nucleobases in Carbonaceous Chondrites are very important in the replicating system of all known terrestrial organisms (in DNA and RNA) have been detected in Murchison, Murray and Orgueil meteorites at the 200-500 ppb level (Schwartz and coworkers, 1979-1982) various other (non-biogenic) N-heterocycles, including a variety of alkylated pyridines, were found in meteorites no isotopic measurements have been reported    

  20. Interstellar Dust: ice mantle evolution Bernstein, Sandford, Allamandola , Sci. Am. 7,1999, p26

  21. Mass Spectrum of the Room Temperature Residue of H2O:CH3OH:CO:NH3 (100:50:1:1) Ice Compared to the Mass Spectra of Two Interplanetary Dust Particles (IPDs) Fig. - Jason Dworkin IDP Spectra - Clement et al., 1993

  22. Interstellar/Precometary Ice Photolysis: Abiotic Synthesis of Important Prebiotic Organics Bernstein et al. (2002) Nature, 416, 401.

  23. Bernstein et al.Science 283, 1135 (1999)

  24. Juglone: Bernstein et al.Met. & Planet. Sci. 36, 351 (2001) Anthroquinone: Ashbourne et al. in prep

  25. Courtesy Jason Dworkin

  26. Organic Residue Remaining After the Low Temperature UV Irradiation of the Ice H2O : CH3OH : CO : NH3 (100:50:1:1) UV-Pumped Luminescence Natural Light

  27. Formation of Various Vesicular Structures from Meteorite and Ices Phase Contrast Microscopy Fluorescence Microscopy Murchison Meteorite Deamer et al. 2003 Proton Irradiated Ice Dworkin &Moore Work in progress UV photolyzed Ice Dworkin et al. 2001 30 µm

  28. adapted from Chyba & Sagan (1992)

  29. Habitable zone

  30. Life on Earth

  31. EARLY EARTH • Strong bombardment through comets over 700 mill. years • Strong geological activity • First evidence for Life: ~ 3.6 billion years ago

  32. Alternative abiotic synthesis routes • Black Smokers • Volcanic outflows

  33. ASTRObiology Could it be that our configuration of planets is extremely rare, perhaps even unique ? • The right distance from the star • The right mass of the central star • Stable planetary orbits • A Jupiter-like neighbour • The right planetary mass • Plate tectonics • An ocean ……

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