origin of life part 1: organization of the biosphere
TRANSCRIPT
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Origin of Life Part 1:Organization of the biosphere
Eric SmithSanta Fe Institute
IMSC, Chennai 2010
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Outline of 3 lectures
• Levels of organization of the biosphere, biochemistry, and bioenergetics
• Core carbon synthesis as the first step in the emergence of life?
• The emergence of hierarchy, cross-level constraints, and the directions of information flow
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Outline for this lecture
• Genetic versus typological views of the organization of life
• Universal features of biochemistry and physiological organization
• Bioenergetics and the relation of biochemistry to geochemistry
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Historical thinking in relation to typological thinking about life
• Darawinian thinking: history and process
• Ecology versus individuality
• Chance and necessity in species and metabolism
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Accidents help reconstruct past from presentReconstructions can tell about causation
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Deep branches suggest old forms and conditions
Widely preserved features in groups having deep common ancestors may be ancient
Thermophily and chemotrophy are good candidates for ancient traits
Cyanobacteria per se do not look like an old group
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Two typological distinctions categorize metabolisms at the ecological and individual level
• Energy source: oxidation or reduction
• Biosynthesis: complete in individuals or shared across the ecology?
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Whole-ecosystem metabolism is simpler and more universal than species metabolism
(Ecosystems are more fundamental than organisms)
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Technologies of life have emerged jointly with geosphere modifications
-3.8Origin(?)
-3.5Photosynthesis (?)
-2.0Endosymbiosis
-0.5Cambrian explosion
(The major transitions in evolution were chemical)
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Species punctuated equilibrium: constancy in metabolism
• Genus-level extinction has happened constantly
• Yet core biochemistry has persisted with little loss and only occasional innovation
http://www.amnh.org/science/biodiversity/extinction/Intro/OngoingProcess.html
http://www.palaeos.com/Ecology/Extinctions/Extinction.html
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Chance and necessity: life spans a continuum from thermodynamics to individuality
Ecological order is the natural bridge between geochemistry and life
O
O
OH
O
HO
O
OH
O O
HO
O
OH
NH
UniversalSteadyPredictable
VariableFluctuatingContingent
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General comments about ecology versus individuality in relation to origins thinking
• The deepest metabolic properties are most universal and constant at the ecosystem level
• It is not clear that individuality or Darwinian species dynamics are important to explaining this
• There does seem to be a level of “phenotypic necessity” that has constrained evolution so far
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Organization and universal features of life that any theory of its origin should explain
• Basic organization of biochemistry and physiology
• Kinetic control: catalysis and physical structures
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The small-molecule metabolic substrate is organized into four major molecule classes
• Fatty acids (compartments, polar environments)
• Sugars (structure, signaling, energy storage)
• Amino acids (catalysis, structure)
• Nucleic acids (heredity, catalysis)
Fatty acids
Sugars
Amino acids
Nucleic acids
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The necessary basic metabolism is not large
V. Srinivasan and H. J. Morowitz, Biol. Bulletin (to appear)
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Function is tied to chemical form and synthesis
lipids
Compartments, proton semiconductors
sugars
Major Energy Carrier
Structure in cell walls
glutamate
glutamine
Amino acids
Catalysis/structure/motors
Nucleic acids
Structure, catalysis, heredity
420
10s 10s
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Biosynthesis has a simple core
• Krebs (TCA) cycle makes precursors to all five classes of biomolecules
• Eleven simple acids (<6 Carbon)
• Exists in oxidative and reductive organisms
• Extremely ancient and absolutely conserved
(citrate)
malonatelipids
alanine,sugars
aspartateamino
acids,
pyrimidines
acetate
pyruvate
oxaloacetate
malate
fumarate
cis-aconitate
succinate
-ketoglutarate
oxalosuccinate
isocitrate
glutamate
amino
acids
pyrroles
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Polymerization assembles organic monomers into structures giving kinetic control
• Organic chemistry mostly ends, and phosphate-driven polymerization takes over, at ~C20
• Polymers are divided between small hetero-polymers (mostly cofactors) and large oligomers (three classes)
• RNA/DNA mostly serve memory and regulation
• Most proteins and cofactors control reaction rates through catalysis or transport
• Other proteins and most sugars provide physical structure
http://metallo.scripps.edu/PROMISE/1OCC.html
1OCC
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Physical structures control chemistry and energetics
• Include membranes, ribosomes, pores, pumps, motors, walls, cytoskeleton
• Topology, geometry, and physical chemistry of membranes are all used
• Topology concentrates reactants, excludes toxins, and creates pH and voltage differences
• Geometry creates continuous energy currency
• Oily membranes in a water medium are proton semiconductors
http://www.chemistry.wustl.edu/~edudev/LabTutorials/Cytochromes/cytochromes.html
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The architecture of metabolism is significantly a hierarchy of “clouds” and “gateways”
• Combination of network topology catalytic diversity, and energetics creates modular architecture
• “Gateway” molecules or pathways are unique points of connection between molecule classes
• Within classes, synthesis often resembles thermodynamic ensembles
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Bioenergetics in relation to biochemistry and geochemistry
• Biological energy systems and their roles
• Relations to metabolic and physiological organization
• Environmental sources of
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Biochemical processes are mediated by three coupled energy systems
• Electron transfer (oxidation-reduction)
• Phosphate group transfer (polymerization)
• Proton transport (motors, conversion)
• Each system supports unique functions
• Modern cells couple these, largely at membranes
• Ox-phos supplements / supersedes substrate-level phosphorylation
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Membrane energetics couples, recycles, and buffers phosphates, protons, and electrons
• Lipid-soluble cofactors couple electron transfer to proton pumping
• Proton return recycles ATP from ADP and Pi
http://www.gwu.edu/~mpb/oxidativephos.htm
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Biochemical and bioenergetic organization of oxidative and reductive organisms
CO2
CO2 + reductant!biomass + H2O
External world
Anabolism
CatabolismRespiration
Photosynthesis
Reductant (?)
Reductant
Oxidant (?)
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The energy source for oxidative life is nuclear fusion
• Stellar radiation can directly excite chemical bonds
• Very high-potential energy source
• Hard to capture without photo-dissociation
• Secondary reactions in comets and asteroids create organics
• Atmospheric electro- chemistry of gas-phase free radicals creates rich species
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The very complex function of photosynthesis is to convert light energy to reductant
• Electrons are progressively raised in redox potential, then donated to NADP+, to make NADPH, a powerful reductant used in anabolism
• Protons pumped directly can also be used to recycle phosphates
http://users.rcn.com/jkimball.ma.ultranet/BiologyPages/L/LightReactions.html
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Geological processes originating in fission can produce reductant directly
• Mantle convection (powered by heat transfer) trades gravitational for chemical energy
• Reduced metals in contact with seawater generate reductant (H), carbon sources and reduced metals
• Mechanisms and chemicals produced often resemble those of biochemistry
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The heat-gravity-chemistry transducer
• Serpentinization
• Basalt fracture and phosphates
http://bprc.osu.edu/education/rr/plate_tectonics/mantle_convection_cell.gif
Martin et al. Nature Reviews Microbiology
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Metals and light molecules in vents drive redox chem.
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Hydrothermal systems are ubiquitous, and were moreso on the hot early earth
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Interpretations of the relation of bioenergetics to biochemistry and geochemistry
• Historical inference suggests no oxygen and possibly high temperature environments
• Biochemical and ecosystem organization suggest that reductive metabolism were first
• Reductive metabolic chemistry has many resemblances to geochemistry
• Sites where geochemistry most resembles biochemistry are anoxic and hot
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Next two lectures
• Chemistry of core carbon biosynthesis, and suggestions that this arose through geochemical self-organization
• The emergence of hierarchies of structure and control, and the relation of organization to stabilization of the biosphere
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Further reading
• Stryer, Lubert Biochemistry New York : W.H. Freeman, 1995 4th ed
• Voet, Donald and Judith G. Biochemistry New York : J. Wiley & Sons, 1995 2nd ed
• Metzler, David E Biochemistry : the chemical reactions of living cells New York : Academic Press, 1977
• Morowitz, Harold J Beginnings of cellular life : metabolism recapitulates biogenesis New Haven : Yale University Press, 1992
• Lowry, Thomas H and Richardson, Kathleen Schueller Mechanism and theory in organic chemistry New York, N.Y. : Harper & Row, 1981 2nd ed
• William Martin, John Baross, Deborah Kelley, and Michael J. Russell Hydrothermal vents and the origin of life, Nature Reviews Microbiology 6:805, 2008