Introduction to Life Science PDF

Summary

This document provides an introduction to life science, focusing on the origin of life. It discusses the Oparin-Haldane hypothesis and the role of early photosynthetic organisms in shaping the Earth's atmosphere. The document also explores the evolution of multicellular organisms from simple life forms (prokaryotes).

Full Transcript

Introduction
to Life
Science
 The Origin of Life
Some believed that living organisms
were put to Earth by some divine
forces. Others say that life did not
originate from Earth but from other
planets. But among scientists, the
most accepted theory is that life came
from inanimate matter
The Origin of Life
Alexander Ivanovich Oparin
a Soviet biochemist was
notable for his theories
about the origin of life and
also for his book The
Origin of Life. He also
studied the biochemistry of
material processing by
plants and enzyme
reactions in plant cell.
The Origin of Life

John Scott Haldane
a physiologist is famous for
intrepid self-
experimentation which led
to many important
discoveries about human
body and the nature of
gases.
The Origin of Life Oparin-Haldane hypothesis

suggested that if the
primitive atmosphere was
reducing (as opposed to
oxygen-rich), and if there
was an appropriate supply
of energy, such as
lightning or ultraviolet light,
then a wide range of
organic compounds might
be synthesized.
The Origin of Life Oparin-Haldane hypothesis
The Origin of Life Oparin-Haldane hypothesis
The Origin of Life Oparin-Haldane hypothesis

Haldane coined the term
‘prebiotic soup’ or
‘prebiotic atmosphere’ that
consisted of an abundance
of methane, ammonia and
water. This term became a
powerful symbol of the
Oparin-Haldane view of
the origin of life.
The Origin of Life Oparin-Haldane hypothesis

According to the primordial
soup theory proposed by
Alexander Oparin and John
Haldane, life started in a
primordial soup of organic
molecules. Some form of
energy from lightning
combined with the chemicals
in the atmosphere to make the
building blocks of protein
known as the amino acids.
The Origin of Life Oparin-Haldane hypothesis

According to the primordial
soup theory proposed by
Alexander Oparin and John
Haldane, life started in a
primordial soup of organic
molecules. Some form of
energy from lightning
combined with the chemicals
in the atmosphere to make the
building blocks of protein
known as the amino acids.
 Early Forms of life
The first form of life
is believed to have
appeared some 3.5
billion years ago.
The evidence of life
is found in
microfossils.
 Early Forms of life
Microfossils are fossils
that contain the
remains of tiny plants
and animals. They are
very small and can be
measured in
millimeters, and some
could only be identified
under a microscope.
 Early Forms of life
Some of the remains of
organisms do not have a nucleus
so they were called
prokaryotes. They are known
to be the earliest forms of life.
They have survived the extreme
conditions of the early
environment. They started to
make their own food by utilizing
the energy from the sun and the
carbon dioxide in the
atmosphere.
 Early Forms of life
These are the photosynthetic
organisms. The process of
photosynthesis produced more
oxygen that changed the Earth’s
early atmosphere. This change in
the atmosphere allowed oxygen-
breathing organisms to exist.
 Early Forms of life
The cyanobacteria are the first
photosynthetic organisms to form.
The first microfossil that showed
remains of organisms with
differences in structure from the
simple form of life was seen in
rocks about 1.5 billion years old.
They are larger than bacteria and
have internal membranes and
thicker wall. These findings
marked the beginning of
eukaryotic organisms on Earth.
 How did multicellular
organisms evolve?
Multicellular organisms are believed to
have evolved from unicellular
eukaryotes. From colonial aggregates,
the organisms evolved to form
multicellular organisms through cell
specialization. Protozoans, sponges and
fungi came to being. The first fossilized
animals which were discovered 580
million years ago were soft-bodied. The
continuous process of cell specialization
brought the emergence of complex and
diverse plants and animals, including
human beings.
Activity No. 1: Picture Analysis
Direction:
Study and
analyze the
diagram shown
below and
answer the
process
questions.
Activity No. 1: Picture Analysis
Process
Questions:
1. What was the
first form of
life?
2. When in
Earth’s history
did life
develop?
3. How long did it
take for
complex life to
develop?
Activity No. 2: Test your
understanding