EALS 2ndQ Module 4: Looking at Life - Life Science PDF

Summary

This document is a presentation about the module looking at life and an introduction to life science. It details an introduction to life science, including learning objectives, the evolving concept of life, and notable experiments. The presentation discusses different theories of the origins of life and the hierarchy of organisms and various characteristics of organisms.

Full Transcript

SAINT FRANCIS OF ASSISI COLLEGE
SAINT ANTHONY SCHOOL

Module 4 -
Looking at Life:
An Introduction
to Life Science

Lesson 11: The
Evolving Concept
of Life

Academics. And beyond.
LEARNING OBJECTIVES:
At the end of this chapter, the students must be able to…

Explain the evolving concept of life based on
emerging pieces of evidence.
Describe classic experiments that model conditions
which may have enabled the forms to evolve.
Describe how unifying themes in the study of life
show the connections among living things and how
they interact with each other and with their
environment.
 CELL
▪ The basic unit of all organisms: thus, the
presence of cells sets living things apart
from nonliving things.
▪ Our understanding of cells started when
the microscope was invented and has
evolved as the field of Biology, and other
cross fields emerged, such as
Biochemistry and Molecular Biology.
 CELL
▪ 1658, ATHANASIUS KIRCHER - Jesuit
priest observed the maggots and other
organisms emerged from decaying
bodies of animals

ATHANASIUS KIRCHER

▪ 1658, JAN SWAMMERDAM - described
the oval-shaped red blood cells. He also
noticed that a frog embryo consist of
globular particles.
 ROBERT HOOKE
▪ 1665, English Physicist, described the
“cells” as microscopic compartments in a
sliced piece of cork.
▪ Cells - from Latin word cella which
means small room.
▪ Cell walls - boundaries of plant cells.
▪ Micrographia - summarizes his findings
on microscopy.
▪ One of the first creators of the
microscope, he invented a compound
microscope with light illuminator.
 Antonie Philips van Leewenhoek
▪ 1668, Dutch Scientist, learned to grind
and studied microscopic particles and
organisms that are invisible to the
naked eye called animalcules
(protozoans, sperm cells,
microrganisms in pond water and teeth,
and many others).
▪ He did not invent the microscope.
▪ He was recognized for creating
microscope with high magnification
power (up to 300x)
1740, How microorganisms or animalcules emerge?

✔ NEEDHAM’S TEST
✔ John Turberville
Needham (1713-1781) an
English Biologist
✔ microorganisms do not
come from pre-existing
ones.
✔ He conducted an
experiment where in he
heated infusions (nutrient
broth).
NEEDHAM’S TEST
 SPALLANZANI’S EXPERIMENT

▪ Lazzaro Spallanzani
(1729-1799) – Italian scholar
who sought to verify
Needham’s test in 1767.
▪ Through this, it has been
established that all forms of
life come from pre-existing
ones.
SPALLANZANI’S EXPERIMENT
 1831, Robert Brown
▪ Some parts of the cell
particularly nucleus
was recognized.
▪ It is not only present in
epidermal cells of
leaves of an orchid but
also in parenchymal
and internal cells.
 1838, Cell Theory
▪ Matthias Jacob ▪ Cytoblast - Schleiden’s
Schleiden - botanist, he proposal. This suggest
proposed that all that the cell starts not
structural features of from non - cellular
plants have cells. material but a substance
▪ Theodore Schwann - inside it.
zoologist, stated that all
tissues are also made
up of cells.
 1850, Cytoplasm
▪ Robert Remak, Rudolf Virchow and Albert
Kolliker - They refuted the idea of Schleiden
and conducted an experiments.
▪ Kolliker introduced the term “cytoplasm”
DISCOVERIES OF OTHER CELL ORGANELLES

▪ 1897 - discovered
the endoplasmic
reticulum
(ergoplasm).
▪ 1898 - discovered
the mitochondrion Carl Benda
by Carl Benda
▪ 1898 - discovered
the Golgi Apparatus
by Camilo Golgi.

Camilo Golgi
 WALTHER FLEMMING

▪ Chromatin - importance of subnuclear
structures.
▪ 1882 - he coined the term “mitosis” and
observed the splitting of chromosomes.

Carl Benda
 WILHELM WALDEYER

▪ 1888 - Metaphase and other phases of
the cell cycle were also studied and
reported in plants, animals and
microorganisms.

Carl Benda
 SAINT FRANCIS OF ASSISI COLLEGE
SAINT ANTHONY SCHOOL

Lesson 12: The
Origin of the First
Life forms

Academics. And beyond.
The Origin of the first life forms
✔ Cell Theory - All cells come from
pre-existing cells.
✔ Theory of Special Creation - theological
doctrine.
✔ states that man and everything on Earth
was a result of unconditional divine decree.
✔ Duane Tolbert Gish - former Vice Pres. of
the Institute of Creation Research.
“Evolution: The Fossils say No”
The Origin of the first life forms
✔ Cosmozoic or the Panspermia Theory -
suggests that life forms are widespread in the
universe in the form of spores.
✔ Theory of Spontaneous Generation or
Abiogenesis - organisms arise from nonliving
components.
The Origin of the first life forms
✔ Biogenesis Theory
✔ Francesco Redi
(1626-1697) an Italian
Scientist
✔ He designed a scientific
experiment to demonstrate
that maggots do not just
appear spontaneously but
are produced from the eggs
of flies.
✔ Experiments on the
Generation of Insects - 1668
The Origin of the first life forms
✔ Oparin - Haldane Theory John Burdon
✔ John Burdon Sanderson Sanderson
Haldane
Haldane and Aleksandr
Oparin
✔ individually proposed that
the early life on Earth
emerged from oceans.

Aleksandr Oparin
The Origin of the first life forms

✔ Urey - Miller Hypothesis
✔ 1952, supported Oparin - Haldane Theory.
✔ the highly reducing atmosphere of the early
Earth contains methane, water vapor, and
gases other than oxygen.
 SAINT FRANCIS OF ASSISI COLLEGE
SAINT ANTHONY SCHOOL

Lesson 13: The
Unifying Themes
in the Study of
Life.

Academics. And beyond.
Hierarchy of Organisms
Ecosystems
Hierarchy of Organisms

✔ Cell - The basic unit of
life. All cells are
comprised of
biomolecules that make
up the different parts of
cells or organelles.
✔ Tissue - a group of cell
that perform similar
functions
 Hierarchy of Organisms
✔ Organ - different tissues that contribute to a
specific function.
✔ Organ system -group of organs that work
together to perform a specific function. Each
system is crucial for the life of an individual.
Hierarchy of Organisms
✔ Species - group of
individuals that could
breed and produce a
viable offspring.
✔ Community - different
species exist.
✔ Ecosystem - formed
when biotic and abiotic
components are taken
into account.
 Hierarchy of Organisms
✔ Ecosystem within similar geographic location
lead to formation of biomes.
✔ Biospehere - totality of all biomes in our plant
represents the livable space.
Characteristics of Organisms

✔ All organisms adapt to their ever-changing
environment.
✔ Adaptive features: shape of beaks of birds,
body coverings (hair and fur of mammals),
overall shapes of trees.
✔ Long term adaptation to environmental
conditions lead to evolutions.
Characteristics of Organisms
✔ Homeostasis - organisms maintain a
regulated internal environment.
✔ All organisms require a constant amount of
energy for them to survive.
✔ Adenosine Triphosphate (ATP) - molecules
that serves as energy currency within cells.
✔ All organisms grow and undergo phases of
development.
✔ Nutrient - helps build and rebuild the parts
of organisms.
Characteristics of Organisms
✔ Organisms respond to their
environment.
✔ Plants respond to their environment in
form of tropisms, namely phototropism,
geotrophism, and thigmotrophism.
✔ Quorom sensing - bacteria and cells
respond to changes in their
environment.
Characteristics of Organisms
✔ Perpetuation of organism is important.
✔ All organisms must be able to reproduce
sexually, asexually or both.
✔ hydra - budding
✔ bacteria - binary fission
✔ ferns - spore formation
✔ plants - sexually or asexually
✔ animals and humans - produced offspring
through sexual
✔ Parthenogenesis - fertilization of ovum
without sperm
Symbiosis
✔ “living together”
✔ No single organism could live alone,
interdependence among living things.
✔ Symbiotic Relationship:
✔ mutualism
✔ commensalism
✔ parasitism
✔ competition
Symbiosis
✔ Predation is not a symbiotic relationships, but
when predator eats its prey, energy is
transferred to the next organism in the food
chain.
✔ Ten Percent Law - states that approximately
10% of the energy is passed to the succeeding
trophic levels in an ecosystem.
 SAINT FRANCIS OF ASSISI COLLEGE
SAINT ANTHONY SCHOOL

Lesson 14: The
Cell as the Basic
Unit of Life

Academics. And beyond.
Cell Organelles:
▪ Phospholipids bilayer of the cell
membrane - serves as protective barrier
and controls the entry and exit of
substances into and from the cell.
▪ Protein transporter can be classified as:
✔ UNIPORT - allows unidirectional
movement of substances.
✔ SYMPORT - facilitates contransport of
substances in one direction.
✔ ANTIPORT - allows entry of a substance
together with an exit of the other.
Cell Organelles:
▪ Cell wall - a rigid structure that provides the cell
its shape and prevents the plant cells from
bursting due to high tugor pressure.
▪ Mitochondrion - responsible for the generation of
ATP. It is also the organelle that initiates series or
reactions for programmed cell death, also known
as apoptosis.
Cell Organelles:
▪ Golgi Apparatus - discovered by Camilo Golgi,
an Italian scientist, in 1897. It is usually located
near the nucleus and are linked to other
organelles through microtubules.
▪ Vacuole - part of the cell where water and waste
materials are stored. Plant cells have
significantly larger vacuole than animals.
Cell Organelles:
▪ Peroxisome - is a membrane-bound vesicle which
contains a dense crystalline core of oxidative enzymes.
are called microbodies , involved in oxidation of very
long chain fatty acids (VLCFAs).
It also synthesize plasmalogens, phospholipids that
are found in myelin sheath of the brain.
Cell Organelles:
▪ Lysosomes - contains hydrolytic enzymes that are
used for digestion.
“suicide bag of the cell” due to its role in
autophagy, a process wherein an organelle must
be degraded is surrounded by a double
membrane structure called phagopore.
Cell Organelles:
▪ Nucleus - membrane-bound organelle which contains
the nucleolus.
❖ Nuclear envelope:
✔ Outer membrane - contains ribosomes and continuous
with the rough endoplasmic reticulum
✔ Inner Membrane - attached to the nuclear lamina.
Lamina - provides support proteins that comprise the
nuclear membrane.
Cell Organelles:
▪ Nucleolus - houses the genetic material of eukaryotes.
It is the site where replication and transcription of the
genome of the organisms occurs.
▪ Rough Endoplasmic Reticulum (RER) - is comprised of
a network of membranes that interface the cytoplasm.
Folding of the nascent protein is one of the important
task of the RER because the proteins are only functional
when they are folded properly.
Cell Organelles:
▪ Smooth Endoplasmic Reticulum (SER) - is extensively
developed in some organs of the body. It is abundant in
the liver where biotransformation occurs.
✔ Hydrophilic (lipophilic) - is processed to become more
water soluble for easier elimination through the urine.
▪ Ribosome - composed of small and large subunits.
✔ small subunit - interacted with the mRNA.
✔ large subunit - binds to the mRNA - small subunit
complex.
Cell Organelles:
▪ Cytoplasm - composed of
other important
substances that support
the metabolic function of
the cell.
▪ Flagellum - composed of
filamentous protein that is
powered by a molecular
motor. This motor uses
energy from ATP for
movement.
used for locomotion.
Cell Organelles:
▪ Chloroplast - found among photosynthetic
organisms. It contains pigment chorophyll
which absorbes all wavelength of light except
green.
Assessment
Seatworks:
Checkpoint (Pages 75 - 76, 1-10 only)
Checkpoint (Pages 79 - 80, 1-10 only)
Checkpoint (Pages 83 - 84, 1-10 only)
Assignment:
21st Century Literacy Skills (Pages 76, 80,
84)