The Cell & Cell Organisation Biomedical Science PDF

Summary

This document discusses the structure and function of cells, including cell components, cell division, and abnormalities of cell growth. It's part of a biomedical science course.

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The Cell & Cell Organisation

Biomedical Science

Coralie Frances
GDC Learning Outcomes

1.1.5 Describe relevant and appropriate dental, oral,
craniofacial and general anatomy and explain their application
to patient management

1.1.6 Describe relevant and appropriate physiology and explain
its application to patient management
Learning Outcomes

At the end of the session the student should have a broad
understanding of the structure and components of the cell
Be able to:
Label and state the function of the cell & its components
Explain the processes of cell division - mitosis and meiosis
Understand the abnormalities of cell growth and function
Assess your knowledge pre lecture

What is cytology?

Look at the next slide

What is this?
Can you identify the structures?
What are their functions?

4
How did you do?

Rate your knowledge on a score of 1-5
(1 least knowledge; 5 greatest knowledge)

Continue with the PPT to refresh
your knowledge then answer
the same questions again

What are your scores now? 6
Features of the cell

Smallest functional unit of the
body

All organisms are made of cells

They carry out all vital chemical
processes

Humans are multi-cellular

Cells are differentiated and
adapted for different tasks
he order of development

Groups of cells
TISSUES

Groups of tissues
ORGANS

Groups of organs
SYSTEMS
Cell Structure

Plasma membrane Microtubules

Cytoplasm Centrioles
Nucleus
Peroxisomes
Mitochondria
Ribosomes
Golgi Apparatus
Rough Endoplasmic
Reticulum
Smooth Endoplasmic
Reticulum
Lysosomes
The Human Cell
Nucleus

The nucleus is a highly
specialised organelle that
serves as the information
processor & administrative
centre of the cell
Features:
1. One nucleus per cell usually
2. Skeletal muscle & some other
cells have several
3. Missing from erythrocytes (red
blood cells)
4. Largest feature in a cell
Nuclear Envelope

Bound by a double membrane, the
nuclear envelope – outer layer
being continuous with Endoplasmic
Reticulum (ER)

Pores in the membrane allow
the passage of substances
The Nucleus continued…….
Functions:

Stores the genetic
material (DNA)

Directs all metabolic activities
of the cell include growth,
metabolism, protein synthesis,
and reproduction (cell
division)
Involved in cell
division

Instructs the synthesis
of proteins/ribosomes
& RNA
Plasma (cell)
Membrane

Partially permeable 02 Phospholipids (fatty
substances)
Embedded
01 03

Made up of 2 With proteins &
layers.
04 carbohydrate
molecules
Double layer (bilayer) of lipids mostly phospholipids

Phospholipids are hydrophilic ("water-loving") at their
phosphate ends – facing outwards, and hydrophobic ("water-
fearing") along their lipid tail regions – orientated inwards

15
Plasma Membrane Structural
Components

Some proteins are
embedded in the bilayer,
while others attach to
the surface

Many proteins play a part in
selective transport of
substances across the
membrane

Others act as surface
receptors for
substances such as
hormones, or act as
enzymes
Functions of Membrane & its
Proteins

Carbohydrate
Regulate Act as Allows directed
molecules
Contains cell transport in receptors cell or
contents provide
and out of cell (recognition organelle
immunological
sites) e.g. for motility
identity
hormones
Cytoplasm

Gelatinous, semi-
transparent fluid that fills
most cells & is where
metabolic reactions occur

Mainly water, with many
solutes including glucose,
proteins & ions

Contains many vital
cellular chemicals e.g. Na,
phosphates, chlorides,
amino acids, ATP &
storage material – oil
droplets
Mitochondrion (mitochondria)

The ‘powerhouse
of the cell’

Outer & inner
membranes

Cristae: Folded inner
membrane allowing
maximum surface area for
chemical reactions to occur
Mitochondrion (mitochondria)
Involved with cellular aerobic (O2)
respiration- the process by which
chemical energy is made available
in the cell

Energy = ATP (Adenosine
triphosphate) is formed from
the catabolism of
carbohydrates, fats and
proteins in the cell

Occur in varying numbers,
depending on the cell & its function,
greatest number in cells which are
physically & metabolically active
e.g., skeletal muscles
Rough Endoplasmic
Reticulum
Features:
(RER)

Series of
0 interconnecting Covered in ribosomes
membranous canals which make proteins 04
1 which enclose flattened
sacs called cisternae

Extension of outer
02 nuclear membrane
Large surface area for
chemical reactions 03
Function of Rough Endoplasmic Reticulum

Produces proteins
A especially enzymes

Pathway for transport
B of materials through
the cell

Collecting & storing
C synthesized material

Providing a structural
D skeleton to maintain
cellular shape
Smooth Endoplasmic
Reticulum (SER)

Found in large amounts in
Similar features to cells which secrete
RER, but no steroids e.g. adrenal
ribosomes cortex in the kidney

Concerned with Also contains enzymes for
synthesis of lipids & detoxifying chemicals
steroid hormones including drugs and
pesticides
Golgi Apparatus Feature
s:

Composed of stacks of flattened
membranous sacs called
cisternae

Sacs are fluid filled & pinch off
smaller membranous sacs, called
vesicles

Normally only 1 Golgi
apparatus in each animal cell
Function of Golgi Apparatus

It packages & processes
proteins received from
the ER into vesicles prior
to secretion

Vesicles then deliver
them to their
destinations e.g.,
lysosomes or cell
membrane

Thus it plays a key
role in the
secretory pathway
 Golgi Apparatus
continued…….
Functions:
Producing
secretory
enzymes e.g.
digestive Transporting &
enzymes storing lipids

Receives glyco- Secreting Forming
proteins such as carbohydrates lysosomes
mucin required in e.g. in cell wall
secretions, by production
adding the
carbohydrate part
to the protein
 Lysosomes

A secretory vesicle formed by
1
the Golgi apparatus

Contain enzymes responsible for
2
degrading proteins & membranes
in the cell
Aids degradation of materials ingested
3
by the cell – due to hydrolytic (digestive)
enzymes
These are kept apart from the cell
4
otherwise they would destroy the
contents of the cell
Kept inactive by an alkaline
5 Abundant in cells with a phagocytic
activity e.g. leucocytes
environment within lysosome
Lysosomes continued….
Functions:

Digest materials which
the cell consumed from
A Autophagy: A process
involving the degradation of
the environment e.g. a cell's own components
bacteria through the lysosomal. machinery

B
D

They release enzymes Autolysis: The destruction

C
outside the cell of a cell through the
(exocytosis) in order to action of its own enzymes
break down other cells
Recap

Can you state what a lysosome is?

What are a lysosome’s functions?

What does apoptosis mean?

29
Lysosome & its function
If cell damaged beyond repair
Lysosomes can help it to self-
destruct by apoptosis
(programmed cell death)

They destroy invading
viruses & bacteria

They break down excess
or worn-out cell parts

A lysosome is a
membrane bound cell
organelle that contains
digestive enzymes
Centrosome

Directs organisation of
microtubules within the
cell

Comprises a pair of
centrioles (small clusters
of microtubules)

Plays an important part
during cell division
31
Centrosome

2 centrioles, cylindrical
structures, orientated
at right angles to each
other

Cylindrical structures,
held at right angles to
one another

Act as organisers of the
nuclear spindle during
cell division
 Microfilaments
Composed predominantly of a
contractile protein called actin,
which is the most abundant
cellular protein

Fine, thread-like Can also carry out
protein fibres, 3-6 nm cellular movements
in diameter including gliding,
contraction &
cytokinesis (the division
of cytoplasm following
division of a nucleus)

Association with the
protein myosin is
responsible for muscle
contraction
Microtubules

Involved in intracellular
Cylindrical tubes, 20- transport, e.g. movement of
25 nm in diameter mitochondria

Composed of subunits of Form the spindle fibres for
the protein – tubulin separating chromosomes
during mitosis

When arranged in geometric
Act as a scaffold to patterns inside flagellae e.g.
determine cell shape and cilia, they are used for
locomotion
Peroxisome

A membrane – Contains
bound organelle oxidative
enzymes such
as catalase

A major Important in
function is the delaying cell
breakdown of ageing
fatty acid
Label the diagram & state their
functions

36
Cell Division
Mitosis

Process by which a cell duplicates the
chromosomes in its cell nucleus - in order
to generate two genetically identical
daughter nuclei (each containing 46
chromosomes)

The process of mitosis is complex and
highly regulated
Mitosis ---
Stages:

A
1. Interphase

B
2. Prophase

C
3. Metaphase

D
4. Anaphase

E
5. Telophase
Interphase

Cell growth DNA
synthesis

Chromosome
2 pairs of
replicates into –
pairs of centrioles appear
chromatids
Early Prophase

Each chromosome has
two chromatids joined
at a centromere

The mitotic spindle,
composed of microtubules
and proteins, forms in the
cytoplasm

The two pair of
centrioles move away
from one another toward
opposite ends of the cell
Late Prophase

Nuclear envelope
breaks up

Microtubules that make up
the spindle fibres, reach
from each cell pole to the
cell's equator

Chromosomes
/chromatids
begin to migrate toward
the cell centre
Metaphase

Nuclear membrane
disappears
completely

Two pair of centrioles
align at opposite
poles of the cell

Chromosomes
/chromatids align at the
metaphase plate at right
angles to the spindle
poles
Anaphase

The paired chromatids in
each distinct
chromosome begin to
move apart

Once the paired sister
chromatids separate from one
another, each is considered a
"full" chromosome, referred to
as daughter chromosomes

The daughter
chromosomes move to
the poles at opposite
ends of the cell
Telophase

Chromatin
Nuclei begin to
fibres of
form at
chromosomes
opposite poles
uncoil

Cytokinesis, the
division of the At the end of
original cell's cytokinesis,
cytoplasm, begins
there are two
before the end of
mitosis and distinct
completes shortly daughter cells
after telophase
 Videos of mitosis

www.youtube.com/watch?v=RNwJbMovnVQ

https://www.youtube.com/watch?v=DwAFZb8juMQ

47
Meiosis

01

This type of cell division The ova grow to
occurs in the formation maturity in the ovaries
of reproductive cells of the female and the
known as the gametes - spermatozoa in the
the ova and testes of the male
spermatozoa

02
 After division each of the daughter cells has only 23
chromosomes
When the ovum is fertilized the resultant zygote has
the full complement of 46 chromosomes, half from the
father and half from the mother
Stages of Meiosis - Meiosis I

Chromosomes Homologous The stages The Homologous pairs
of the diploid (similar) are as for homologous divide and 2 daughter
cells replicate chromosomes mitosis pairs swap cells are produced,
pair up some DNA each with 23
chromosomes only –
haploid
Stages of Meiosis-
Meiosis II

Meiosis II is similar to
mitosis & 4 daughter
haploid cells are
produced
Video comparing & contrasting
mitosis & meiosis
https://www.youtube.com/watch?v=zrKdz93WlVk&vl=en

53
Cellular
Transport
Transport of substances across cell
membranes

Active
Passive Transport Transport
Diffusion or uses ATP
osmosis

Bulk
Transport
pinocytosi
s or
phagocyto
sis
Cell Transport

B D
A C E
1. Diffusion 2. Osmosis 3. Active 4. 5.
Transport Phagocytosis Pinocytosis
Diffusion

Diffusion is the process by
which a substance moves from
a region of high concentration
to a region of low
concentration

Rate is variable: Concentration
gradient, distance, the size of
area, structure in path, & size
of molecule
Osmosis

The passage of water down its
concentration gradient towards
equilibrium across a semi
permanent membrane

Occurs when solute molecules
are too large to pass through
the pores in the membrane by
diffusion
YouTube - Osmosis
Active Transport

1
The transport of substances up
their concentration gradient i.e.
from a lower to a higher
concentration

2
Chemical energy (ATP) drives protein
molecules in the membrane that
transport substances across the
membrane in either direction

3
E.g. the sodium-potassium pump
maintains homeostasis of
electrolytes sodium and
potassium
Phagocytosis

The process by which the
cell can obtain particles
which are too large to be
absorbed by diffusion or
active transport
White blood cell engulfing bacterium
Pinocytosis ‘Cell drinking’ is very similar
to phagocytosis except
vesicles are produced called
‘pinocytotic vesicles’

Used for intake of liquids
rather than solids

Both pinocytosis &
phagocytosis are methods by
which materials are taken into
the cell in bulk -
ENDOCYTOSIS
The reverse process
materials are removed
from the cell e.g. waste
products – EXOCYTOSIS
YouTube - Cell Membrane,
Exocytosis & Endocytosis
Abnormal Cell
Growth
Hyperplasia

A term referring to the
proliferation of cells within an
organ or tissue beyond that
which is ordinarily seen i.e.
constant cell division

What may cause this?
Hypoplasia
Underdevelopment or
incomplete
development of a
tissue or organ

Refers to an
inadequate or below-
normal number of cells

Hypoplasia is a
congenital condition,
while hyperplasia
generally refers to
excessive cell growth
later in life
Atrophy

The partial or complete
wasting away of a part of the
body

Possible causes?
Hypertrophy

The increase in the
volume of an organ or
tissue due to the
enlargement of its Although hypertrophy &
component cells hyperplasia are two
(SIZE MATTERS) distinct process, they
frequently occur together
Metaplasia

The If the stimulus
transformatio is removed or
n of one type 0 ceases, tissues
03 return to their
of cell into 1 normal pattern
another
state

Generally Can you give
caused by an example
some sort of
0 0 inside the
abnormal 2 4 mouth? Or
stimulus generally?
Dysplasia

Generally,
consists of an
A term used in
expansion of
pathology to
immature
refer to an
cells, with a
abnormality in
corresponding
maturation of
decrease in
cells within a
the number
tissue
and location
of mature cells
Neoplasia

The abnormal It usually
proliferation of causes a lump
cells or tumour

The growth of this
Neoplasms may
clone of cells
exceeds & is be benign, pre-
uncoordinated malignant or
with the normal malignant
tissues around it