Introduction to Cell Lecture

Summary

This lecture introduces cells as the fundamental units of life. It discusses cells' basic structures and functions, along with types of cells and their roles.

Full Transcript

Lecture: 1
Introduction to Cell
 Features of the cell
A cell is the smallest unit that can carry out the processes of life;
examples:
Obtaining energy

DNA Replication

Basic unit of all living things.

All organisms are made up of one or more cells.

A cell has the same basic structure.
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 The word cell was
first used by
Robert Hooke, a
British biologist
and early
microscopist.

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 The Cell Theory
Biologists in the early part of the 19th century
Schwann and Schleiden suggested
that cells were the basic unit of all living things
Virchow
observed that cells divide to produce more cells, so
all cells arise from pre-existing cells.
All organisms are composed of one or more cells.

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Simple light binuclear electron microscopes
Developments of microscopes

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Cell size

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Cell functions
Able to pass nutrients into and out
of the cell s gasses into and
Respiratory to get energy
Growth
Reproduction
Responding and adapting to
external effects

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 Cell shapes
Different cells have different shapes.
The shape of the cell depends on its function; red cells

Humans have cells of various shapes;
✓ circular and biconcave (red blood)
✓long and stretched and branched cells (nerve nerve cell

cells).
✓long and narrow cells (columnar epithelium
muscle cell
in muscle cells), etc. 8
cell types

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 Prokaryotic Cella Eukaryotic cell
Size is 0.1- 5.0 um Size is 5-100 um
Nucleus is absent Nucleus is present
Membrane-bound nucleus absent. Membrane-bound Nucleus is present.
One chromosome is present, but not true chromosome plastids More than one number of chromosomes is present.
Unicellular Multicellular
Lysosomes and Peroxisomes absent Lysosomes and Peroxisomes present
Microtubules absent Microtubules present
Endoplasmic reticulum absent Endoplasmic reticulum present
Mitochondria absent Mitochondria present
Cytoskeleton absent Cytoskeleton present
Ribosomes smaller Ribosomes larger
Vesicles present Vesicles present
Golgi apparatus absent Golgi apparatus present
Chloroplasts absent; chlorophyll scattered in the cytoplasm Chloroplasts present in plants
Submicroscopic in size Flagella is present and made up of only one fiber Microscopic in size, membrane-bound
Cell wall chemically complexed Cell wall is present in plants and fungi and chemically simpler
Vacuoles absent Vacuoles present
Transcription occurs in the cytoplasm Transcription occurs inside the nucleus.
Examples: Bacteria and Archaea Examples: Protists, Fungi, Plants, and Animals

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 Cell organelles
A single cell is able to keep itself
functional; a small factory, by
owning a series of compartments
called organelles.
An organelle is a biological
structure that does a specific
function inside a cell.
Examples:
▪ Plasma membrane
▪ Cytoplasm
▪ Nucleus
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 Cell organelles
1. Cell membrane
is the physical boundary between the
inside of the cell (intracellular) and its
outside (extracellular).

components
a) lipids
b) Proteins
c) Carbohydrates

Function:
1. Membrane is semi-permeable Q1. Do bacteria have a cell membrane?
2. Protection
3. Cell communications Q2. Do viruses have a cell membrane? 13
https://www.sciencefacts.net/cell-membrane.html
 Cell organelles
2. Cytoplasm
Jellylike fluid that fills the space between the
plasma membrane and the nuclear membrane.
Components:
I. Cytosol made up of water, salts, organic
molecules, and proteins.
II. cellular organelles except for the cell
nucleus, why?
Functions:
1. Helping in cell growth.
Q1.What is the division of cytoplasm called?
2. Distributing nutrients
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 Cell organelles
3-Nucleus
Separates the genetic material (DNA) from the
rest of the cell.
The nucleus is the largest organelle in the cell.
Components:
1. Nuclear envelope is made of two lipid bilayers
that separates nucleus from cytoplasm.
2. nuclear pores
3. Chromatin a complex of genetic material
(DNA or RNA) and proteins
4. Nucleolus contains genes for ribosomal RNA.
Q1. Do prokaryotes have a nucleus?

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 Cell organelles
4.Ribosomes
A ribosome is an intercellular structure
made of both rRNA and protein.
Can be in the cytosol or attached to
the endoplasmic reticulum.
Component:
two subunits: large and small.

Function:
Production of protein

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 Cell organelles
5-Endoplasmic Reticulum (ER)
System of membranous channels and network.
Internal production & delivery system of the
cell.

Type and Function
1. Rough ER is containing ribosomes, Site of
protein synthesis.
2. Smooth ER without ribosomes. Site of
phospholipids synthesis.

Q.1. Do prokaryotes have endoplasmic reticulum?

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 Cell organelles
6-Golgi apparatus
Consists of a stack of curved saccules.
Receives molecules, changes them, and
then sort them for transport to different
cell parts; cell post office.

Function:
Receives protein and lipid-filled vesicles
from the ER, packages, modification, and
distributes them within the cell or for
export out of the cell (secretion of
proteins).
Post-translational modification
(glycosylation). Q.1. What substance do Golgi bodies prepare for
secretion? 18
 Cell organelles
7-Mitochondria
Double membrane-bound cell organelle

They produce a huge amount of energy in the form
of ATP and thus called the ‘powerhouse of the
cell’.

Function

1) promoting the growth of new cells.

2) serving as the ‘energy currency’ of the cell by Q1. What simple sugar is broken down in the
synthesizing ATP mitochondria?
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 Cell organelles
8-Vesicles
Small compartments separated from the
cytosol by at least one lipid bilayer.

Function
Store, transport, or digest cellular products
and waste.

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 Cell organelles
9-Lysosomes
Lysosomes are membrane-bound cell vesicles.
Contain hydrolytic enzymes

Function:
Digestion: break down food into small
particles,
Destroy old cellular components.
Phagocytosis to protect cells from pathogens.

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 Cell organelles

10-Chloroplast
The chloroplast is a type of cell organelle
called plastids found in plants and blue-green algae.
The organelle of photosynthesis.
chlorophyll: (a green pigment) that absorbs solar
energy.
Plastids contain their own DNA and some
ribosomes.

Function:
A. synthesizing food using solar energy by the
process of photosynthesis.

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 Difference between chloroplasts and mitochondria

❖ Chloroplasts absorb energy from
sunlight and store it in sugars
(photosynthesis).

❖ Mitochondria use chemical energy
stored in sugars as fuels to generate
ATP (cellular respiration).

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 Types of eukaryotic cells
Plant cell Animal cell

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Comparison between plant and animal
cells

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 Starch and Glycogen

Glycogen is a polysaccharide Starch is a polysaccharide
that is the principal storage form that is the principal
of glucose (Glc) in animal and storage form of glucose
human cells. (Glc) in plant.

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Reproduction and cell division

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Reproduction and cell division

Cell division is a biological process by which a parent
cell duplicates its cell contents and divides to give rise
to two or more daughter cells. It is an irreplaceable
biological process in all living organisms; being the
“means of growth, repair, and reproduction in
multicellular organisms” and “the sole source of
reproduction in unicellular organisms”.

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Reproduction and cell division

Cell division is a biological process by which a parent
cell duplicates its cell contents and divides to give rise
to two or more daughter cells. It is an irreplaceable
biological process in all living organisms; being the
“means of growth, repair, and reproduction in
multicellular organisms” and “the sole source of
reproduction in unicellular organisms”.

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Reproduction of
prokaryotic cells:

“Binary Fission“
Populations of bacteria can grow very
rapidly. Why ?

Binary Fission is asexual way of
reproduction.

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 Reproduction of eukaryotic cells

diploid (2n) diploid (2n)

Haploid (1n)

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 The cell cycle
Cell cycle refers to the sequence of events that occur as a cell grows
and divides. It is divided into 2 main stages:
1- Interphase: subdivided into 3 stages:
i. GAP1(G1): the primary growth phase; cell grows
larger in size.
ii. Synthesis phase (S): cell synthesizes a copy of its
chromosomes; DNA duplication.
iii. GAP2 (G2) is the secondary growth phase,
finishes growing, quick check of the replicated
DNA, and preparations for cell division.
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 The cell cycle
2– Mitosis (M phase): is a cellular division that occurs in somatic cells
in five continuous steps.

Results of mitosis:
I. Division of the
duplicated chromosomes
and cytoplasm
(cytokinesis).
II. Two genetically identical
cells (2n).

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Quiz
Choose the best answer.

1. What is binary fission?
A. An asexual mode of reproduction where a parent cell divides into two progeny cells
B. A sexual mode of reproduction involving gametes
C. An asexual mode of reproduction wherein the progeny buds off from the parent

2. How is binary fission different from mitosis?
A. Binary fission occurs in prokaryotic cells. Mitosis occurs in eukaryotic cells.
B. Binary fission involves the formation of a spindle apparatus; mitosis does not.
C. Binary fission produces genetically identical daughter cells, similar to mitosis.

3. Cell divides for reproduction
A. Binary fission
B. Mitosis 5. Which process is similar to binary fission?
C. Both binary fission and mitosis A. Mitosis
B. Meiosis
4. Produces two cells with an identical genome C. Crossing over
A. Binary fission
B. Mitosis
C. Both binary fission and mitosis

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Fun to watch videos
https://www.youtube.com/watch?v=0xe1s65IH0w

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