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Chapter 15Chapter 15
Early Earth and the Origin of Life Early Earth and the Origin of Life
Life on Earth originated between 3.5 and 4.0 billion years ago.
The Earth formed about 4.5 billion years ago.
The first organisms were prokaryotes.
Life on Earth originated between 3.5 and 4.0 billion years ago.
The Earth formed about 4.5 billion years ago.
The first organisms were prokaryotes.
Evidence of ancient prokaryotic life has been found in rocks called stromatolites- banded domes of sedimentary rock
Evidence of ancient prokaryotic life has been found in rocks called stromatolites- banded domes of sedimentary rock
Pre-Cambrian stromatolites in the Siyeh Formation, Glacier National Park
About 3 billion years ago, the prokaryotes split into two distinct groups:Bacteria
Archea
About 3 billion years ago, the prokaryotes split into two distinct groups:Bacteria
Archea
2.5 billion years ago, the production of oxygen by photosynthetic prokaryotes created an aerobic atmosphere
Oldest fossils that are definitely eukaryotic are 1.7 billion years old
Eukaryotes probably evolved from a symbiotic relationship between prokaryotes.
2.5 billion years ago, the production of oxygen by photosynthetic prokaryotes created an aerobic atmosphere
Oldest fossils that are definitely eukaryotic are 1.7 billion years old
Eukaryotes probably evolved from a symbiotic relationship between prokaryotes.
EndosymbiosisEndosymbiosis
://highered.mcgraw-hill.com/sites/9834092339/student_view0/chapter4/animation_-_endosymbiosis.html
Those eukaryotic cells evolved into the ancestors of modern protists, fungi, plants and animals.
Oldest animal fossils date back to 700 million years ago.
Those eukaryotic cells evolved into the ancestors of modern protists, fungi, plants and animals.
Oldest animal fossils date back to 700 million years ago.
The first cellsThe first cells
The early Earth’s atmosphere consisted of very little oxygen.
There was a lot of lightning, volcanic activity, and ultraviolet radiation.
The early Earth’s atmosphere consisted of very little oxygen.
There was a lot of lightning, volcanic activity, and ultraviolet radiation.
Chemical Evolution Chemical Evolution
1. Abiotic synthesis of small organic molecules such as amino acids and nucleotides.a. 1920’s - Oparin and Haldane
independently hypothesized that the reactions that took place on the early Earth could create organic molecules.
1. Abiotic synthesis of small organic molecules such as amino acids and nucleotides.a. 1920’s - Oparin and Haldane
independently hypothesized that the reactions that took place on the early Earth could create organic molecules.
b. This cannot happen today due to the electronegative nature of oxygen.
c. Early atmosphere- much more reducing (electron adding)
d. 1953-Miller & Urey- simulated conditions of the early Earth
e. Experiment produced a variety of amino acids, sugars, lipids, nucleotides and ATP.
b. This cannot happen today due to the electronegative nature of oxygen.
c. Early atmosphere- much more reducing (electron adding)
d. 1953-Miller & Urey- simulated conditions of the early Earth
e. Experiment produced a variety of amino acids, sugars, lipids, nucleotides and ATP.
Stanley Miller
2. Joining of monomers into polymers such as protein and nucleic acids.a. How would this occur without
enzymes?b. In experiments, polymerization
does occur when solutions of monomers are dropped onto hot sand, clay or rock.
2. Joining of monomers into polymers such as protein and nucleic acids.a. How would this occur without
enzymes?b. In experiments, polymerization
does occur when solutions of monomers are dropped onto hot sand, clay or rock.
In 1957 Sidney Fox demonstrated that dry mixtures of amino acids could be encouraged to polymerize upon exposure to moderate heat. When the resulting polypeptides, or proteinoids, were dissolved in hot water and the solution allowed to cool, they formed small spherical shells about 2 μm in diameter—microspheres.
In 1957 Sidney Fox demonstrated that dry mixtures of amino acids could be encouraged to polymerize upon exposure to moderate heat. When the resulting polypeptides, or proteinoids, were dissolved in hot water and the solution allowed to cool, they formed small spherical shells about 2 μm in diameter—microspheres.
3. Aggregation of abiotically produced molecules in droplets called protobionts.a. Maintain an internal environment
different from their surroundings.b. Exhibit some properties associated
with life- metabolism and excitabilityc. Coacervates - self-assemble when a
suspension of macromolecules is shaken
3. Aggregation of abiotically produced molecules in droplets called protobionts.a. Maintain an internal environment
different from their surroundings.b. Exhibit some properties associated
with life- metabolism and excitabilityc. Coacervates - self-assemble when a
suspension of macromolecules is shaken
d. Microspheres- polypeptides with a semipermeable protein membrane1. Undergo shrinking and swelling
due to osmosis2. Store energy in the form of
membrane potential.
d. Microspheres- polypeptides with a semipermeable protein membrane1. Undergo shrinking and swelling
due to osmosis2. Store energy in the form of
membrane potential.
e. Liposomes- form spontaneously when the organic molecules include lipids1. Form lipid bilayer membrane2. Grow by engulfing other liposomes
and may split to form two
e. Liposomes- form spontaneously when the organic molecules include lipids1. Form lipid bilayer membrane2. Grow by engulfing other liposomes
and may split to form two
Protobionts
4. Origin of hereditya. RNA was probably the first genetic
materialb. RNA appears to have the ability to
self-replicate short sequences (5-10 bp)c. RNA may act as an enzyme =
ribozymes
4. Origin of hereditya. RNA was probably the first genetic
materialb. RNA appears to have the ability to
self-replicate short sequences (5-10 bp)c. RNA may act as an enzyme =
ribozymes
d. Once RNA became enclosed in membranes, these protobionts would have a form of heredity.
e. These protobionts may be selected for survival.
f. RNA may have directed the sequencing of amino acids to form primitive enzymes.
d. Once RNA became enclosed in membranes, these protobionts would have a form of heredity.
e. These protobionts may be selected for survival.
f. RNA may have directed the sequencing of amino acids to form primitive enzymes.
Debate about the origin of life
Debate about the origin of life
A. Scientific evidence for what could have happened.
B. Alternative scientific theories:1. Panspermia- meteorites brought
organic molecules formed in outer space.
2. Nucleic acid genes may have been preceded by simpler hereditary systems.
A. Scientific evidence for what could have happened.
B. Alternative scientific theories:1. Panspermia- meteorites brought
organic molecules formed in outer space.
2. Nucleic acid genes may have been preceded by simpler hereditary systems.