14-3: The First
Life Forms
The Origin of Heredity
► DNA
RNA
Proteins
► Why is RNA so important in
the process?
Its’ STRUCTURE
►Takes
on a variety of shapes
►Questions + observations led
to the speculation that some
RNA molecules might actually
behave like proteins and
catalyze reactions
The Origin of Heredity
► The
Roles of RNA
Thomas Cech found that a type of RNA in some
unicellular eukaryotes is able to act like an
enzyme
►Ribozyme
- acts as an enzyme, catalyzes chemical
reactions, + can self-replicate
Hypothesis made that indicated life may have
started with self-replicating molecules of RNA
Model known as “RNA WORLD”
►RNA
has heredity, responds to natural selection, and
will evolve
The Origin of Heredity
Two other hypotheses about RNA or other
simple self-replicating systems could have
evolved into modern cellular life:
Minerals formed template so organic
molecules could form polymers
2. Self-replicating RNA molecules started to
evolve inside microspheres or coacervates
1.
The First Cells
► Description?
The first organisms were small,
anaerobic, prokaryotic heterotrophs
►Depended
on organic molecules as food
►Competed against one another
►Environmental pressure to evolve into
autotrophs
Did not depend on photosynthesis
► Archaea
Chemosynthesis
Unicellular organisms that can survive in harsh
environmental conditions
► Hydrothermal
+ sulfurous hot springs, rims of volcanos
Thought to have populated Earth 4 billion years ago
Were autotrophic but not by photosynthesis
►Chemosynthesis
CO2 serves as source to assembly organic molecules (carbs)
Energy obtained from inorganics – sulfur
Photosynthesis + Aerobic Respiration
Some life forms became
photosynthetic 3 billion years ago
►Discovered fossils in Australia
►Related to modern day
cyanobacteria
Group of photosynthetic
unicellular prokaryotes
Oxygen was damaging to many
unicellular organisms
It could destroy some coenzymes
essential to cell function
Certain organisms would bond to
oxygen, not allowing it to be harmful
► This
was a first step towards aerobic
respiration
Photosynthesis + Aerobic Respiration
► Oxygen
eventually reached the
upper layer of the atmosphere
more than one billion years later
► Sunlight can split O2 to form a
highly reactive single O atom
These combine to form ozone, O3
Ozone is poisonous to both plants
and animals
Absorbs UV radiation from sun to
prevent DNA mutations
►Without
the ozone layer, life
could not exist on land
The First Eukaryotes
►
►
We learned in Ch. 4 that Prokaryotes are different than
Eukaryotes...but how did these large cells evolve?
Eukaryotic differences:
Cells are larger
DNA is organized in chromosomes
Have membrane-bound organelles
►
First Invasion:
2 billion years ago, a small aerobic prokaryote invaded
and live inside a large anaerobic eukaryote
The relationship was beneficial to both
► Known
►
as endosymbiosis
small aerobic prokaryote = modern mitochondria
Second Invasion:
Photosynthetic cyanobacteria into large anaerobic
eukaryote
►Gave rise to chloroplasts
The First Eukaryotes
► Invasions
(cont.)
Evidence to support
eukaryotic evolution?
►Chloroplasts
+
mitochondria replicate
independently
►Chloroplasts +
mitochondria contain their
own DNA (circular)
►Both are doublemembrane bound
structures
A look @ Endosymbiosis…