Origin of Life - PowerPoint PPT Presentation

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Origin of Life

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Origin of Life Origin of Universe Origin of Elements Origin of Sun & Solar System Origin of Living Systems Evolution of Living Systems – PowerPoint PPT presentation

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Title: Origin of Life

1
Origin of Life

Origin of Universe
Origin of Elements
Origin of Sun Solar System
Origin of Living Systems
Evolution of Living Systems

2
Arguments for Origin

Divine
Extraterrestrial
Chemical evolution

3
In the beginninga big bang

About 15 billion years ago
Evidence
Hubble Expansion
Big Bang Nucleosynthesis
Microwave background radiation

4
Big bang Hubble Expansion

Galaxies appear to be moving away from our galaxy
Initially observed by Edward Hubble in 1927
Galaxies have a red shift in light produced by
the Doppler effect similar to sound (also used in
radar)
The movement of galaxies away from us corresponds
to an equation called "Hubble's Law"
The time elements in Hubble's Law permit the
estimation of the age of the universe about
13.7 billion years

5
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6
Big Bang - Nucleosynthesis

Occurred during seconds 100 to 300 following big
bang temperature cools allowing hydrogen to form
Result of temperature of universe dropping below
that required for nuclear fusion (4 H to He)
forms Helium
Produced a large amount of Helium which is very
stable and cannot be converted easily into
heavier elements
Amount of background Helium measured in universe
is consistent with Big Bang Nucleosynthesis

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8
Big Bang Background Radiation

If big bang then there should exist remanentt
heat
The cosmic microwave background was predicted in
1948
1964-65Arno Penzias and Robert Woodrow Wilson
measured the temperature to be approximately
2.725 K which translates to specific background
radiation in the microwave range.
This radiation as a signature of the big bang.
Penzias and Wilson received the 1978 Nobel Prize
in Physics for their discovery.
Observation confirmed by later NASA observations.

9
Origin of Elements

Hydrogen fuses to form helium
Hydrogen Helium most abundant
Suns energy drives life processes
Stars become red giants as hydrogen runs low
(about 10 billion years)
Helium fuses into other elements
Star goes nova (blows up)
Heavier elements released into space

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11
Sun and Planets

Sun formed about 5 billion years ago
Gravitational attraction of gases
Gravitational field becomes great enough to
initiate fusion reactions
Accretion forms inner planets moons from dust
and debris of supernova
Process occurs quickly-earth moon about same age

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13
Early Earth

Earth 4.6 billion years old (U238 dating)
Moon rocks meteorites
Early Atmosphere mostly non-oxidizing
Nitrogen
Carbon dioxide
Water (as water vapor)
Lesser amounts
CO, H2, NH3, H2S and CH4

14
Venus, Earth Mars Comparison
Venus Earth Mars
Atmosphere CO2 (gt98) N2 (1) Ar (1) O2 (0) CO2 (0.03) N2 (79) Ar (1) O2 (20) CO2 (96) N2 (2.5) Ar (1.5) O2 (2.5)
Pressure 91 atm 1 atm 0.006 atm
Temperature 740 K 290 K 240 K
Gravity 8.87 m/s2 9.87 m/s2 3.72 m/s2
870º F 70º F -30º F
15
Characteristics of Life

Composed of Cells
Reproduce in kind
Metabolism / Energy Transformations
Respond to stimuli

16
Abiogenesis

The process of life from the inanimate
Formation of organic monomers from inorganic
molecules
Formation of organic polymers from organic
monomers
Evolution of membranes
Evolution of DNA based reproduction

17
Chemical Evolution

Requires a non-oxidizing atmosphere
No oxygen initially
Requires a sources of energy
Lightening, UV light, Volcanoes Meteorites
Requires hydrogen, nitrogen, carbon, oxygen
Components of organic and biological compounds
water, ammonia, carbon dioxide/methane
Requires time

18
Chemical Reactions Chemical Reactions

Need to speed up chemical processes
Reactions are sped up by
Increasing concentrations of reactants
Temperature
Common phases
Solvent effects
Catalyst

19
Molecular Clues to Origins

The following suggest common origin
Organisms use molecules based mostly on hydrogen,
nitrogen and carbon present on early earth
Only L-amino acids found in proteins
DNA RNA are universal in all organisms
ATP is energy intermediate in all organisms
All organisms initiate carbohydrate metabolism
with similar steps
Genetic code is universal
All cells bound by a plasma membrane composed of
a lipid bylayer

20
Organic Monomers

Oparin Haldane suggest organic molecules could
form from precursors (1930)
Miller Urey test using an apparatus which
simulates early earth (1950)

Stanley Miller
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22
Organic Polymers

Major Groups - Nucleic acid, proteins, lipids,
polysaccharides - have been formed synthetically
Information vs. Structural vs. Catalytic
Protenoids will form spontaneously on clay
D L amino acids can be selected on calcite - a
common crystalline mineral
RNA - has all three capabilities

23
RNA Life

Ribose, a component of RNA will form
spontaneously from formaldehyde and HCN
Some RNAs have been found to have catalytic
activity - ribozymes
RNA has structural capability in ribosomes
RNAs have an information carrying capacity in
viruses RNAs have been induced to take on new
traits

24
RNA Life

Book segment by B. Alberts http//www.ncbi.nlm.n
ih.gov/books/NBK26876/
http//exploringorigins.org/timeline.html
https//www.princeton.edu/achaney/tmve/wiki100k/d
ocs/RNA_world_hypothesis.html

25
DNA Life

Separation of functional roles of molecules
related to constant input of energy
Separation of information carrying capacity from
other roles of molecules in cells
RNA to DNA
RNA to Protein - catalytic capacity
Protein polysacharides take on structural roles
in cells

26
Membranes

Why cells?
Inside vs. outside
Concentration effect on reactions
Indications of process
Microspheres - hydrocarbons in water form
microsperes which can contain other molecules
Liposomes - artificial lipid bilayers very
similar to cell membranes but smaller - used for
drug transport

27
Prokaryotic Cells