5. CELL CYCLE
DIFFERENCE BETWEEN MITOSIS AND
MEIOSIS
LIST OF CHROMOSOMAL
ABNORMALITIES
CHROMOSOMAL ABERRATION
APOPTOSIS
CELL JUNCTON
VIRUS ENTRY TO CELL
6. TERM WAS COINED BY” ROBERT HOOK”
(1635-1703)
DEFINED AS STRUCTURAL AND
FUNCTIONAL UNIT OF LIFE
7. GENERAL CHARACTERISTICS OF CELL
• Needs nutrition & oxygen
• Eliminates carbon dioxide & other metabolic
wastes
• Shows immediate response to the entrance
of invaders
• Reproduces by division
9. Each cell is formed by a cell body and a
membrane covering the cell body known as cell
membrane or plasma membrane
The cell body has two parts namely the nucleus
and the cytoplasm surrounding the nucleus.
Thus the structure of a cell is studied under 3
headings…
I. Cell membrane
II. Cytoplasm
III. nucleus
10. CELL MEMBRANE
Protective sheath covering the cell body
Separates the fluid outside the cell called
extracellular fluid(ECF) and the fluid inside
the cell called intracellular fluid(ICF)
COMPOSITION OF CELL MEMBRANE
1. PROTEINS(55%)
2. LIPIDS(40%)
3. CARBOHYDRATES(5%)
11. STRUCTURE OF CELL MEMBRANE
THREE PROPSED MODELSW ARE
1.
Danielli-Davson model
2.
Unit membrane model
3.
The fluid mosaic model
THE CELL MEMBANE is a three layered membrane.
MICROSCOPIC STUDY REVEALS
Central electron-lucent layer called LIPID LAYER formed by lipid protein
•
MAJOR LIPIDS PRESENT ARE
1.
PHOSPHOLIPIDS
2.
CHOLESTROL
functional significance of this layer is that it forms a semi permeable membrane and allows only
fat soluble substances to pass through ie oxygen, carbon dioxide &alcohol
2 electron-dense layer one on either side of central layer called PROTEIN LAYER formed by protein
substances.
MAJOR PROTEIN PRESENT ARE
1.
Integral Protein
2.
Peripheral Protein
12. Functional significance of protein layer
1. Integral protein provide the structural
integrity of cell membrane
2. Channel protein- for diffusion of water
soluble substances like glucose and
electrolyte
3. Carrier protein
4. Receptor protein
5. Antigen
13. APPLIED PHYSIOLOGY ON CELL
MEMBRANE
LIPID soluble material in the ECE, when come in
contact with cell membrane get dissolved in the
oily cell membrane then enter the cytoplasm.
Thus lipid soluble drugs easily pass the bloodbrain barrier(BBB)
In the cell membrane of fungus ergosterol is
present instead of cholestrol, drugs are present
which get attached with ergosterol and damage
them and thus the fungal cell membrane is
damaged and last death
such drugs are AMPHOTERECIN B. AMB used
against fungal infection
14. 1. CYTOPLASM
ORGANELLES IN CYTOPLASM
1. ENDOPLASMIC RETICULUM
2 TYPES rough endoplasmic reticulum
smooth endoplasmic reticulum
function of rough endoplasmic reticulum
1.
synthesis of protein
2.
degradation of worn out organelles
function of smooth endoplasmic reticulum
1.
synthesis of lipids and steroids
2.
storage and metabolism of calcium
3.
degradation of toxic substances in liver
15.
16. GOLGI APPARATUS
present in all cells except red blood cells
2. has two faces or ends cis face and trans
face, cis face is close to endoplasmic
reticulum and trans face near the cell
membrane
function of golgi apparatus
• processing, labelling and delivery of
proteins and lipids in different parts of cell
1.
17.
18. LYSOSOMES
membrane bound vesicular organelles
found throughout the cytoplasm
2. Formed by golgi apparatus
3. Enzymes synthesized in RER are processed
and packed in the form of vesicles in the
golgi apparatus
4. Then these vesicles are pinched off from
golgi apparatus and become the lysosomes
1.
19. TYPES OF LYSOSOMES
1. PRIMARY LYSOSOMES -- one that is
pinched off from the golgi apparatus and is
inactive
2. SECONDARY LYSOSOMES – a active
lysosome formed by fusion of primary
lysosome with phagosome or endosome
20.
21. FUNCTION OF LYSOSOMES
1. Degradation on macromolecules like
bacteria
2. Degradation of worn out organelles
3. Secretory function
22. PEROXISOMES
FUNCTION OF PEROXISOMES
1. Degradation of toxic substances like hydrogen
2.
3.
4.
5.
6.
peroxide – present in liver cells which is a major
organ for detoxification
Oxygen utilization
Breakdown of excess fatty acids
Acceleration of gluconeogenesis from fats
Degradation of purin to uric acid
Role in the formation of myelin and bile acids
26. Rod like oval structure
Bilayered membranous organelle
Outer membrane smooth and encloses the
contents of mitocondria
Inner membrane folded in the form of shelf
called cristae
Cristae contains many enzymes and other
protein molecules which are involved in
respiration and synthesis of ATP
Move freely in cytoplasm and capable of self
reproduction
27. FUNCTION OF MITOCONDRIA
Production of energy– called POWER HOUSE
OF CELL – required for cellular function –
produced during oxidation of digested food
particles like proteins,crbohdrates and lipids
Synthesis of ATP
apoptosis
28. RIBOSOMES
Granular and small dot like structure
Made up of proteins(35%) and RNA(65%)
FUNCTION OF RIBOSOMES
SYNTHESIS OF PROTEIN
mRNA passes genetic code for protein synthesis
from nucleus to ribosome
Ribosomes arrange the amino acids into small units of
protein
Ribosomes attached with ER are involved in protein
synthesis like enzymatic protein,harmonal protein
and proteina of cell membrane
29.
30. There are two types of cells:
1) Prokaryotic Cells
2) Eukaryotic Cells
31. These are two distinct types of cells with
STRUCTURAL differences.
Prokaryotes
Bacteria
Eukaryotes
Animal
Plant
32.
33. Traits of Prokaryotes:
(pro-care-ee-ohts)
1.
They do not have a nucleus, and their genetic
material is not stored in the nucleus.
2.
They have some organelles, but not many.
3. They are less complicated that eukaryotes.
4.
All bacteria are prokaryotes.
35. Traits of Eukaryotes:
(you-care-ee-othts)
1. They all have a nucleus where the
genetic material of the cell is stored.
2. They have many organelles that work
together to help the cell function.
38. NUCLEUS
located near centre of cell
and is mostly spherical in
shape.
STRUCTURE OF NUCLEUS
Covered by nuclear
membrane and it encloses
the structures called nucleo
plasm and nucleolus
NUCLEAR MEMBRANE
Double layered and porous
in nature
Allows nucleoplasm to
communicate with
cytoplasm
39. NUCLEOPLASM
Gel like ground substance of the nucleus
Contains large quantities of the genetic
materials in the form of deoxyribonucleic
acid(DNA) which form the gene
DNA made of thread like material known as
chromatin
40. NUCLEOLI
o One or more nucleoli are present in each
nucleus
o Nucleolus contains ribonucleic acid(RNA) and
some proteins similar to those found in
ribosomes
41. FUNCTION OF NUCLEUS
1. Control of all the activities of the cell
2. Synthesis of RNA
3. Sending genetic instruction to the
cytoplasm for protein synthesis through
mRNA
4. Control of cell division through genes
5. Storage of hereditary information
42. DNA
Genetic information of an organism is stored in
genes of DNA
DNA forms the chemical basis of hereditary
characters
Carrier for genetic information to the offspring
Contains instruction for the synthesis of proteins
in the ribosome
DNA present in nucleus is responsible for
synthesis of RNA
43.
44. RNA
Formed from DNA
Regulates the synthesis of proteins in the
ribosome
TYPES
I.
MESSENGER RNA (mRNA)
carries genetic code of amino acid sequence for
synthesis of protein from the DNA to
cytoplasm
45. TRANSFER RNA(tRNA)
Responsible for decoding the genetic message
present in mRNA
RIBOSOMAL RNA(rRNA)
Present within ribosome and is responsible
for the assembly of proteins from amino acids
in the ribosomes
46.
47. TRANSCRIPTION
Copying of genetic material from DNA to RNA
Transcription of genetic codes in nucleus
formation of m RNA
copying of message from DNA to m RNA
m RNA enter the cytoplasm and activate the
ribosome for protein synthesis
48.
49. TRANSLATION
Process of protein synthesis in ribosomes
ribosomes get attached to mRNA
codons of mRNA recognized by
complimentary base of tRNA called anticodons
according to sequence of base of anticodon
different amino acids transported from
cytoplasm to ribosomes
rRNA assemble the proteins from amino acids
and attach to RER
58. LIST OF CHROSOMAL ABNORMALITIES
a)
b)
c)
a.
b.
c.
NUMERICAL ABNORMALITIES
Aneuploidy
Trisomic(2n+1)
Monosomic(2n-1)
STRUCTURAL ABNORMALITIES
DOWN’S SYNDROME
EDWARDS SYNDROME
PATAU’S SYNDROME
59. SEX CHROMOSOME DISORDER
1) KLINEFELTER’S SYNDROME
2) TURNER’S SYNDROME
3) FRAGILE X SYNDROME
60. CHROMOSOME ABERRATION
Useful marker for radiation injury
Observed in irradiated cells at the time of
mitosis when the DNA condenses to form
chromosome
If radiation exposure occurs after DNA
synthesis(ie in G2 or mid or late S) only one
arm of affected chromosome is broken
If radiation occurs before DNA replication(ie
in G1 or early S) then break in both the arms
61.
62. APOPTOSIS
Defined as programmed cell death under
genetic control
A normal phenomenon and in essential for
normal development of the body
FUNCTIONAL SIGNIFICANCE
Main function is to remove unwanted cells
without causing any stress or damage to the
neighboring cells
63. SIGNIFICANCE
1) Vital role in cellular homeostasis
2) Useful for removal of a cell that is damaged
by a virus of a toxin beyond repair
3) Essential event during the development and
in adult stage
64. ROLE OF MITOCONDRIA IN APOPTOSIS
external or internal stimuli initiate apoptosis by
activating the proteases CASPASES
Normally caspases suppressed by apoptosis
inhibiting factor(AIF)
WHEN CELL RECEIVE APOPTOSIS STIMULI…
mitochondria release two proteins
1. CYTOCHROME C
2. SECOND MITOCONDRIA-DERIVED
ACTIVATOR OF CASPASES(SMAC)
65. SMAC inactivates AIF
SMAC +AIF to form apoptosome activates
CASPASES
CYTOCHROME C also facilitate caspase
activation
67. CELL JUNCTION
It is the connection between the neighboring
cells
THREE TYPES
1. OCCLUDING JUNCTION- prevent intercellular exchange
of substances
2. COMMUNICATING JUNCTION-permits intercellular
exchange of substances
3. ANCHORING JUNCTION-provide strength to the cells
68. OCCLUDING JUNCTION
prevent movement of ions and molecule
from one cell to another cell
TIGHT JUNCTION/ZONA OCCLUDENS
belong to this category
Present in the apical margin of epithelial and
endothelial cells in intestinal mucosa,walls of
renal tubules,capillary wall
70. FUNCTION OF TIGHT JUNCTION
1. Holds the neighboring cell of tissues firmly for
strength and stability
2. In epithelial and endothelial cells function as
selective diffusion barrier between neighboring
cells
3. Prevents lateral movement of integral proteins
and lipids in cell membrane
4. In brain capillaries form blood-brain barrier
allowing only lipid soluble drugs and steroids to
pass through