Cell: The Basic Unit of Life PDF

Summary

This document is an overview of cell biology, from the basic structure to the functions of organelles such as the nucleus, mitochondria, and lysosomes. The document also explores cell diversity and the cell theory.

Full Transcript

CELL: THE BASIC
UNIT OF LIFE
Ms. JULIA MHAE B. CELON, LPT.
Lecturer I
 INTRODUCTION
All living things are made up of cells - the
basic unit of a living organism. Cells are made up
of atom and they are the smallest biologically
functioning element of life. Based on the number
of cells, organisms can be either unicellular or
multi – cellular. Bacteria are unicellular, while
humans are multi-cellular.
CELL HISTORY
Cytology- study of cells
Robert Hooke, an English
Scientist, is referred as the
“Father of Cytology”
He used a microscope to
examine cork (plant)
Hooke called what he
saw "Cells"
CELL HISTORY
Robert Brown
discovered the nucleus in
1833.
Matthias Schleiden
German Botanist
ALL PLANTS "ARE COMPOSED
OF CELLS".
Theodor Schwann
Also in 1838,
discovered that animals were
made of cells
CELL HISTORY
Rudolf Virchow
1855, German Physician
" THAT CELLS ONLY
COME FROM OTHER
CELLS".
His statement debunked
"Theory of Spontaneous
Generation"
CELL THEORY

The COMBINED work of Schleiden,
Schwann, and Virchow make up the
modern CELL THEORY.
The Cell Theory states that:

1. All living things are composed of
a cell or cells.
2. Cells are the basic unit of life.
3. All cells come from preexisting
cells.
CELL DIVERSITY
Cells within the same organism show Enormous
Diversity in:
Size
Shape
Internal Organization

NERVE CELL SKIN CELL EGG CELL PLANT CELL BACTERIAL CELL
 CELL DIVERSITY
CELL SIZE
CELLS ARE SMALL FOR TWO
REASONS:
1. Limited in size by the RATIO
between their Outer Surface Area
and Their Volume.
A small cell has more SURFACE
AREA than a large cell for a GIVEN
VOLUME OF CYTOPLASM.
 CELL DIVERSITY
CELL SIZE

CELLS ARE SMALL FOR TWO REASONS:

2. The cell's nucleus (the brain) can only
control a certain amount of living, active
cytoplasm.
 CELL DIVERSITY
CELL SHAPE
Diversity of form
reflects a diversity
of function.
THE SHAPE OF A
CELL DEPENDS ON
ITS FUNCTION.
 CELL DIVERSITY
INTERNAL ORGANIZATION
 CELL DIVERSITY
INTERNAL ORGANIZATION
 CELLULAR ORGANELLES
NUCLEUS
They are spherical bodies
surrounded by the
nuclear membrane and
contain many organelles,
including nucleolus.
It is the location for the
synthesis of nucleic acids.
 CELLULAR ORGANELLES
NUCLEOLUS
The nucleolus is usually
visible as a dark spot in
the nucleus.
It is the location of
ribosome formation and
the synthesis of RNA and
proteins.
 CELLULAR ORGANELLES
MITOCHONDRIA
Singular: Mitochondrion
These are spherical to rod-shaped
organelles with a double membrane.
The inner membrane is in folded many
times, forming a series of projections
(called cristae)
They are the powerhouses of the cell
where oxidative reactions and
electron transport occur. They change
energy from food to energy for the
cell.
 CELLULAR ORGANELLES
LYSOSOMES
They are small and round
organelles surrounded by a
membrane
They contain digestive enzymes
that break down materials in
the cell. They break down large
food particles into smaller ones
as well as old cell parts.
Lysosomes are the cell's clean-
up crew.
 CELLULAR ORGANELLES
ENDOPLASMIC RETICULUM
It is attached to the outside of the
nucleus.
Smooth ER – no ribosomes
embedded on it. Site of lipid
synthesis.
Rough ER – there are ribosomes
embedded on it. Aid the ribosomes
in synthesizing proteins.
These organelles are very small,
made up of 50 proteins and several
long RNAs bound together.
 CELLULAR ORGANELLES
ENDOPLASMIC RETICULUM

It carries proteins and
other materials from
one part of the cell to
another.
 CELLULAR ORGANELLES
GOLGI BODY
a flattened, layered, sac-like
organelle that looks like a stack
of pancakes and is located
near the nucleus
It produces the membranes
that surround the lysosomes
and packages proteins and
carbohydrates into membrane-
bound vesicles for "export" from
the cell.
 CELLULAR ORGANELLES
CELL MEMBRANE
Also known as the plasma
membrane
Electron microscopic
examinations of cell
membranes have led to the
development of the lipid
bilayer model (also referred to
as the fluid-mosaic model).
 CELLULAR ORGANELLES
CELL MEMBRANE
The most common molecule in the
model is the phospholipid, which
has a polar (hydrophilic) head and
two nonpolar (hydrophobic) tails.
These phospholipids are aligned
tail to tail so the nonpolar areas
form a hydrophobic region
between the hydrophilic heads on
the inner and outer surfaces of the
membrane
 CELLULAR ORGANELLES
CELL MEMBRANE

It functions as a semi-permeable barrier,
allowing a very few molecules across it
while fencing the majority of organically
produced chemicals inside the cell.
 CELLULAR ORGANELLES
CYTOPLASM
This is the jellylike material
between the plasma
membrane (cell
membrane) and the
nuclear envelope
The cytoplasm is where
organelles are located.
CELL METABOLIC PROCESS
Cell metabolism is the collective set of chemical
reactions. They occur within living cells to sustain life
and maintain cellular functions. These processes
involve the conversion of nutrients into energy, the
synthesis of biomolecules, and the regulation of
metabolic pathways. Understanding cell metabolism
is crucial for comprehending how cells obtain
energy, generate building blocks for cellular
components, and adapt to changing environmental
conditions.
CELL METABOLIC PROCESS
Cellular metabolic pathways are can be
categorized into two – ANABOLIC and CATABOLIC.

Anabolic Catabolic
they require energy and means that they release
use it to build large energy and break apart
molecules from small large molecules to make
ones. Ex. Photosynthesis smaller ones. Ex. Cellular
respiration and Glycolysis.
 CELL METABOLIC PROCESS
for EUKARYOTES
CELLULAR RESPIRATION

It is a type of metabolic
pathway that breaks down
glucose to make adenosine
triphosphate, or ATP.
 CELL METABOLIC PROCESS
in EUKARYOTES
CELLULAR RESPIRATION

The main reactant are glucose and
oxygen, while the main products are
carbon dioxide, water and ATP.
C6H12O6 + O2 -→ CO2 + H2O + ATP
 CELL METABOLIC PROCESS
for EUKARYOTES
CELLULAR RESPIRATION
The different pathways of cellular respiration in
eukaryotes are:
Glycolysis
Pyruvate oxidation
Citric acid or Krebs Cycle
Oxidative phosphorylation
 CELL METABOLIC PROCESS
in EUKARYOTES
PHOTOSYNTHESIS
This metabolism happens in plant
cells, some algae and certain bacteria
called cyanobacteria. It occurs in
chloroplasts and it produces sugar along
with oxygen.
 CELL METABOLIC PROCESS
in PROKARYOTES

You can categorized prokaryotes into
different groups based on their metabolism.
The main types are the following:
Heterotrophic
Autotrophic
Phototrophic
Chemotrophic
THAT’S ALL.
THANK YOU!