CELL-STRUCTURE-AND-FUNCTION with you Lou

General Biology 1

Senior High School - STEM

General Biology 1: Subject Description

"This subject is designed to enhance the
understanding of the principles and
concepts in the study of biology,
particularly life processes at the cellular
and molecular levels. It also covers the
transformation of energy in organisms.

CONTENT

CELL
. Cell Theory

. Cell Structure and Functions
Prokaryotic vs, Eukaryotic Cells
. Cell Types

. Cell Modifications

f. Cell Cycle: Mitosis/Meiosis
g. Transport Mechanism
1, Simple Diffusion
2. Facilitated Diffusion
3. Active Transport
4, Bulk/Vesicular

TS sis

CONTENT

ii Biological molecules
* Structure and Functions of Biological Molecules
a. Carbohydrates
b. Lipids

c. Proteins

d. Enzymes

e. Nucleic Acid

CONTENT

PHOTOSYNTHESIS
ii, ENERGY TRANSFORMATION

A. ATP-ADP Cycle
B. Photosynthesis

C. Cellular Respiration

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LESSON 1: THE CELL

(Theory, Structure and Functions)

OOTD: Objectives of the day!

"At the end of the lesson, | should be able to:

" Recite the postulates of cell theory and explain the roles of a cell in an
organism, particularly in the levels of organization of an organism;

"Describe the structure and functions of major and subcellular
organelles;

"Determine the role of each cellular organelle and explain how it relates
to the functions of other organelles.

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HUMAN CHEEK CELL

PRE

D VIBRIO TASMANIENSISBACTERIAL CELL

History of cell

"In 1665, British scientist Robert.
Hooke examined a piece of cork an
found little structures in it which h
compared to cellulae.

"He named these structures “cells”,
Later it was discovered that the cell
he had found in the cork were
actually outer walls of former plant
cell.

HISTORY OF CELL

"In the late 1600's, Dutch scientist
Anton van Leeuwenhoek examined
different subjects , using a refined In
microscope than that of Hooke. »

i ss ME
"Leuwenhoek found moving protist *
and sperm, which he collectively
termed “animalcules”

Cell Theory: Definition

"The Cell Theory, developed in the mid-1800's as a result of
various discoveries about cells, it is one of the basic principles of
biology.

1. The cell is the basic unit of life;
2. All living organisms are composed of cell; and

3. New cells are created from pre-existing cell

First Postulate: Cell is the basic unit of life

"In order that an organism may be
considered living, it must have a cell.

"One proof that an organism is alive
just by looking at its cell is the
movement of the organelles inside it.

First Postulate: Cell is the basic unit of life

“in the cork that Hooke examined, the
protoplasm of the cell had already dissipated,
indicating the cell’s death.

"When Leeuwenhooek observed his teeth
scrapings, he found animalcules shooting and
spinning inside the cell.

Second Postulate:
ALL LIVING ORGANISMS ARE COMPOSED OF CELL

"In 1838, German botanist Mattthias Jacob

Schleiden established that the small
compartments in his plant specimens are
cells,

"In 1839, a German zoologist named
Theodore Schwann after doing microscopic BE
studies of animal cells, instituted that all M!
animals are also composed of cells.

Third Postulate:

new cells are created from pre-existing cells

"German scientist Rudolf
Virchow introduced the third
tenet of the cell theory: Omnis
cellula e cellula which means
“Cells come from pre-existing
cell”,

Development of Cell Theory

"1590 - Zacharias Janssen "1663-1665 - Robert Hooke

Development of Cell Theory

"1665-1676 Marcello Malpighi
and Nehemiah Grew conducted
separated investigations on plant
cell. They determined the
presence of organelles within its
cells.

Development of Cell Theory

"1670-1683 Anton van Leeuwenhoek upgraded
Janssen's microscope and produced his lens, With
this invention, he discovered mobile organelles in
many subjects, which he called animalcules.

Development of Cell Theory

"1831- Robert Brown made a series of discoveries
about cell organelles and ultimately discovered
the nucleus. This became a major breakthrough in
the history of biology.

Development of Cell Theory

"1838 Matthias Schleiden microscopically examine
plants and recognized that plant parts come from
cells. In his writings in Contribution in
Phytogenesis, he proposed that the different
structures of a plant are all composed of cells.

Development of Cell Theory

"1839 Theodore Schwann declared that animals
are likewise composed of cells. This put an end to
the debates - whether or not plants and animals
are different in structural origin and composition.

Development of Cell Theory

"1840 Albrecht von Roelliker stated that sperm and
egg are composed of cells and that all humans are
configured from cells.

"1849 Louis Pasteur was developing fermentation, a
process to kill bacteria, he proved that bacteria are
able to multiply and that bacterial cells come from

Development of Cell Theory

"1858 Rudolf Virchow declared, “Omnis cellula e
cellula” which he meant that cells come from pre-
existing cells. With this conclusion, the cell theory
was completed.

"lf life were to be found in other planets,
would you expect it to form cells? Why or
why not?

ASTROBIOLOGY

"Our space exploration has been ll

continually searching for life in outer
space. On the space probes sent to
other planets (especially Mars), these
are equipped to look after life.
However, very high resolution are still
not possible on-site.

Cell Structure and
Functions

MAJOR PARTS OF THE CELL

Plasma
Membrane

Outer covering that separates
the cell's interior from its
surrounding environment.

|
Serves as the brain of the cell

aed en) | hr CERN o

Nucleus

Plasma Membrane

"It encloses and safeguards its organelles from
possible harm that foreign materials can inflict on
them.

Glycoprotein: protein with Glycolipid: tipi with
ar carbohydrate attached cabo

Phosphotipict

Palio

Plasma Membrane

"it also controls the
exchange of essential
components and obtains
chemical messages from
other cells.

Plasma Membrane: FLUID MOSAIC MODEL

"The plasma membrane is a mosaic of components—
primarily, phospholipids, cholesterol, and proteins—that
move freely and fluidly in the plane of the membrane.

Glycoprotein: protein with Glycollpid: lipia with
Ma — carbohydrate attached 7 carbohydrate
3 anached

TE REN

Components of Plasma Membrane

1. Phospholipids

"It is a lipid made of glycerol, two fatty acid
tails, and a phosphate-linked head group.
Biological membranes usually involve two
layers of phospholipids with their tails
pointing inward, an arrangement called \ "4,
a phospholipid bilayer. da

Prospteliit
War

Components of Plasma Membrane

2. Cholesterol

"It is another lipid composed of four fused carbon rings, is found
alongside phospholipids in the core of the membrane.

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Fe carbohyerat a aro

Phospholipid

Components of Plasma Membrane

3. Proteins

"Proteins help move large molecules or aid in cell recognition
"Peripheral proteins are attached on the surface (inner or outer)
"Integral proteins are embedded completely through the

"men

CYTOPLASM

"It is the entire region of a cell between plasma
membrane and nuclear envelope.

"ltis pi A primarily of water, proteins and salts.

Le ey)

CYTOPLASM

“in the cytoplasm, the organelles are
suspended in a gel-like solution called cytosol,
which is composed of both organic and
inorganic compounds.

*Cytosol accounts for about 70% of cellular

content. It contains a rich supply of
macromolecules and smaller organic
molecules.

CYTOPLASM

"The Cytoplasm also contains enzymes that
break down waste and enable metabolic
reactions.

* It allows for cellular expansion and growth.

"Together with cytoskeleton, cytoplasm
determines cell shape and accommodates
movement for some cell types.

Nucleus

Discovered by Robert Brown in 1833.

"lt is the most vital part of the cell and e
dubbed as the “control center” Tele ices

"It directs all of the cell's activities and
determines how a cell should appear
and function.

Nucleus

"A double layer of nuclear membrane ve
encloses the nucleus to keep it distinct from cs
[tersa

other cellular components,

" Nucleolus serves as the site of ribosomes *”
synthesis,

"Nucleus holds chromosomes which carry
tightly wrapped and coined DNA,

The cell organelles: endomembrane system

copian: mi
"The endomembrane system is a
group of membranes and
organelles in eukaryotic cells that
works together to modify, package,
and transport lipids and proteins.

The cell organelles: endomembrane system

"This system is made up of organelles that are communally linked
by structure specific to each of them.

"These organelles are:
1. Endoplasmic Reticulum 5. Lysosomes
2. Ribosomes 6. Peroxisomes

3, Vacuoles 7. Centrosomes

Endoplasmic reticulum

Endoplasmic reticulum

"The Endoplasmic Reticulum (ER) is a series of
interconnected membranous sacs and tubules that
collectively modifies proteins and synthesized lipids.

"These two functions are performs in separate areas of
ER; the rough endoplasmic reticulum and smooth
endoplasmic reticulum.

Endoplasmic reticulum

"The hollow portion of ER tubules is
called lumen or cisternal space.

"The membrane of the ER, which is a
phospholipid bilayer embedded
with proteins , is continuous with
nuclear envelope.

Endoplasmic Reticulum

Rough endoplasmic reticulum

“It has ribosomes on its surface,

“It makes membrane proteins and proteins for
export out of cell.

"Proteins are made by ribosomes on ER surface

"They are then threaded into the interior of the Figues
Rough ER to be modified and transported

smooth endoplasmic reticulum

Leta at meen — >

Smooth Endoplasmic
Reticulum

Membranes

"lt incorporates proteins into cisternae
and transports synthesized proteins
across the cytoplasm, thereby allowing
the synthesis of fatty acids and
phospholipids.

"lt is abundant in liver cell, where it

detoxifies hydrophobic chemicals. This
makes them water-soluble for excretion.

RIBOSOMES

Ribosome

Large
subunit

RIBOSOMES

"Ribosomes are involved in providing a frame for
proteins synthesis; hence they are site of protein
production.

"They are present in both prokaryotic and eukaryotic
cells.

"Developing muscle cells, skin and hair cells contain
large numbers of free ribosomes.

Vacuoles

Vacuole

Vacuoles

"A vacuole is a fluid filled vesicles enclosed by a membrane.

"It has a selectively membrane freely allowing water passage but
retaining smaller molecules within it and stores chemicals within
the cell.

"Vacuoles ability to break down large molecules makes it
comparable with lysosomes in animal cells. Likewise, both organelles
thrive in acidic environment.

lysosomes

T a Membrane

Lipid layer

Hydrolytic
enzyme
Membrane mixture
transport
proteins

lysosomes

"The lysosomes serve as digestion slots for cellular materials
that are due for expiration or are no longer useful.

"It is the cells reprocessing area, where it hacks chemical
bonds of any foreign substance it comes contact with, in
order to recycle with the raw material

lysosomes

"It is dubbed as the cell's “suicide bags”

"These organelles are capable for self-destruction In order to
save the rest of the other organelles from being poisoned.

"This happens through autophagy, or the natural process of
organelle destruction.

LYSOSOMES

*Cells take in food by

wr
phagocytosis A
e Lysosomes digest the food 0.
& get rid of wastes { :

«Example: macrophages

peroxisome

Anatomy of the Peroxisome

Lipid
Bilayer

peroxisomes

elt is a small, round organelles enclosed by single
membrane, somehow resembles that of a lysosomes.

elt is responsible for self-damage and mostly
disintegrate proteins, accommodate the breakdown of
fatty acids and detoxify many poisons that enter the
body.

elt also shields the cell from serious damage caused
reactive oxygen species (ROS) molecules

Golgi APPARATUS

secretory
ae vesicle

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cisternae = ——
— — fd o

—— pa . A
o CF ua
ar = +. Y ) cis face
lumen O / } | D

trans face y

Golgi APPARATUS

"Stacks of flattened sacs 0 (IS 9
"Have a shipping side (cis face) & a fl QU

receiving side (trans face) NY N;
TA

"Receive proteins made by ER

"Transport vesicles with modified a Y A
proteins pinch off the ends

sa stack of pancakes

"Modify, sort, & package molecules from ER
"for storage OR

tranenart out of rall Y

CENTROSOME

Microtubules
ff "i. Distal
Me appendages

/

Mother

centriole

Daughter
centriole

CENTROSOME

"It comprised of two centrioles or cylindrical structures with
a central cavity surrounded by microtubules arranged side
by side.

"These structure take part in the assembly of spindle fibers
at cell division and contribute to the successful outcome of
mitosis.

CENTROSOME

"lt is found in all eukaryotic cells, assist in arranging
microtubules (hollow tubes of proteins) to be utilized for
cell division.

"They also enable the said microtubules to form part of the
cell's microtubules to form part of the cell's cytoskeleton.

"In this way, cellular shape is maintain and the cell structure
is stabilized.

mitochondriA

intermembrane

matrix space ribosome

mitochondria

"Mitochondria are the sites of
cellular respiration, the
metabolic process that uses
oxygen to drive the
generation of ATP by
extracting energy from
sugars, fats, and other fuels.

ADENOSINE TRIPHOSPHATE

"lt is the major energy currency of the
cell that provides the energy for most of
the energy-consuming activities of the
cell,

"Mechanism: When the third phosphate
group of ATP is removed by hydrolysis, a
substantial amount of free energy is
released.

Phospate added Phospate removed

L, Adenosine ww

triphosphate

al >

Energy

Energy from

breakdown of Adenosine Energy
molecules diphosphate released for

cell functions

MITOCHONDRIA

"The mitochondria are oval-shaped
organelles found in most eukaryotic cells.
They are considered to be the
‘powerhouses’ of the cell.

"Mitochondria are most plentiful in cells
that require significant amounts of
energy to function, such as liver and

MITOCHONDRIA

"The mitochondria has two membranes that are similar in composition to
the cell membrane:

* Outer membrane—is a selectively permeable membrane that surrounds
the mitochondria,

"It is the site of attachment for the respiratory assembly of the electron
transport chain and ATP Synthase.

"It has integral proteins and pores for transporting molecules just like the

Peo PPS es

MITOCHONDRIA

"Inner membrane—folds inward (called cristae) to increase surfaces for
cellular metabolism.

"It contains ribosomes and the DNA of the mitochondria. The inner
membrane creates two enclosed spaces within the mitochondria:

"intermembrane space between the outer membrane and the inner
membrane; and

" matrix that is enclosed within the inner membrane.

CHLOROPL/

Rough Smooth
Endoplasmic Endoplasmic
Relicuum, Reticulum

Golgi Apporatus
/

CHLOROPLAST

"Chloroplasts, which are found in plants and algae, are the
sites of photosynthesis.

"This process converts solar energy to chemical energy by
absorbing sunlight and using it to drive the synthesis of
organic compounds such as sugars from carbon dioxide
and water.

CHLOROPLAST

"Chloroplasts are double © membrane-bound
organelles and are the sites of photosynthesis.

"The chloroplast has a system of three membranes:
the outer membrane, the inner membrane, and the
thylakoid system.

Structure of chloroplast

"Outer membrane—This is a semi-porous
membrane and is permeable to small
molecules and ions which diffuse easily.

"The outer membrane is not permeable to
larger proteins.

Structure of chloroplast

" Intermembrane Space—This is usually a thin
intermembrane space about 10-20
nanometers and is present between the
outer and the inner membrane of the
chloroplast.

Structure of chloroplast

"Inner membrane—The inner membrane of
the chloroplast forms a border to the
stroma.

"It regulates passage of materials in and out
of the chloroplast. In addition to the “7
regulation activity, fatty acids, and are
synthesized in the inner chloroplast

Structure of chloroplast

"Stroma—This is an alkaline, aqueous fluid
that is protein-rich and is present within the
inner membrane of the chloroplast.

"It is the space outside the thylakoid space.

"The chloroplast DNA, chloroplast ribosomes, si
thylakoid system, starch granules, and other
proteins are found floating around the

Structure of chloroplast

"Thylakoid System

"The thylakoid system is suspended in the
stroma. It is a collection of membranous
sacks called thylakoids.

"Thylakoids are small sacks that are
interconnected.

Structure of chloroplast

"The membranes of these thylakoids are the
sites for the light reactions of the
photosynthesis to take place. The
chlorophyll is found in the thylakoids.

" The thylakoids are arranged in stacks known *" E
as grana. Each granum contains around 10-
20 thylakoids.

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