Cell Structure & Function - Week 3 PPT PDF

Summary

This presentation discusses cell structure and function, covering topics like DNA organization, chromosomes, and the structure of the cell membrane. It details the components and functions of various cellular organelles and explains the principles behind the fluid mosaic model. Diagrams and diagrams are included in the document.

Full Transcript

DNA,
Chromosomes,
and Cell Division
Vienna Jamaica Cari-cari, RMT
Lesson Objectives:

1. Differentiate cell organelles according to their functions

2. Describe the structures of human chromosomes

3. Organize human chromosomes according to its characteristics
The Cell
Cells are the basic, living, structural, and
functional units of the organs.

Cytology – the scientific study of cells
Property: Eukaryotic cell Prokaryotic cell
Found in… Multicellular organisms like Unicellular organisms like
Animals, Plants, Fungi Bacteria
Nucleus True Nucleus No True Nucleus

Cell Wall Present in Fungi and Plants Present

Organelles Present Absent
Cell Structure
Cell Structure
- Two main parts:
- Nucleus
- Cytoplasm
- Organelles
- Cytosol

- Protective outer covering:
- Plasma membrane
Cell Structure

The Plasma Membrane
Cell Structure: Plasma membrane
Functions and Properties:

- Thin, pliable, elastic

- Outermost layer that protects and separates the cell’s
internal from the external environment

- Selective barrier that facilitates passage of materials into
and out of the cell
Cell Structure: Plasma membrane
Fluid Mosaic Model
- Resembles a continually moving sea of fluid lipids that
contains a mosaic of many different proteins
- Some proteins float freely while others seem anchored at
specific locations
Cell Structure: Plasma membrane
Cell Structure: Plasma membrane
Composition: Approximately:

- Phospholipid bilayer - 55% proteins
- Cholesterol - 42% lipids
- Carbohydrates - 3% carbohydrates
- Proteins Of the membrane lipids…
- Integral proteins
- Peripheral proteins - 75% are phospholipids
- 20% are cholesterol
- 5% are glycolipids
Cell Structure: Plasma membrane
Composition:

- Phospholipid bilayer – basic structural framework; amphiphatic
- Cholesterol
- Carbohydrates
- Proteins
- Integral proteins
- Peripheral proteins

Non-polar,
Fat-soluble
Fatty acids
Polar, Water-soluble
phosphate- containing
Cell Structure: Plasma membrane
Composition:

- Phospholipid bilayer
- Cholesterol Inserted among closely packed
- Carbohydrates phospholipids, restricting their
movements
- Proteins
- Integral proteins
modulates fluidity and
- Peripheral proteins
movement of membrane
components
Cell Structure: Plasma membrane
Composition:

- Phospholipid bilayer Form the Glycocalyx
○ “molecular signature’’ that enables
- Cholesterol
cells to recognize one another
- Carbohydrates ○ Cell attachment to one another
- Proteins ○ Hydrophilic
- Integral proteins makes RBCs “slippery” as
- Peripheral proteins they flow through narrow
blood vessels
Protects cells lining the
airways and digestive canal
from drying out
Cell Structure: Plasma membrane
Composition:

- Phospholipid bilayer Function as:
- Cholesterol Ion channel
- Carbohydrates Carrier
Receptor
- Proteins

Enzyme
- Integral proteins Linker
- Peripheral proteins Cell identity marker
Cell Structure: Plasma membrane
Composition:

- Phospholipid bilayer
- Cholesterol
- Carbohydrates
- Proteins Integral
protein
- Integral proteins
- Peripheral proteins
Transmembrane proteins
Directly embedded in the lipid bilayer
Many are Glycoproteins
Can only be extracted upon
destruction of lipid bilayer
Cell Structure: Plasma membrane
Composition:

- Phospholipid bilayer
- Cholesterol
- Carbohydrates
- Proteins Peripheral
- Integral proteins protein
- Peripheral proteins
Attached to either of the polar
sides or to integral proteins
SPOT CHECK!
What makes the cell membrane selectively
permeable?
Cell Structure

The Cytoplasm
Cell Structure: Cytoplasm
- Houses all the cellular contents between the plasma
membrane and the nucleus

- Two components:
- Cytosol – fluid portion (aka intracellular fluid)
– 55% of total cell volume
– 70-90% water
- Site of many chemical reactions
- Organelles – “little organs”
– specialized structures with characteristic shapes
and have specific functions
Cell Structure: Cytoplasm

Cytoskeleton
A. Microfilaments
B. Intermediate filaments
C. Microtubules
Cell Structure: Cytoplasm

Cytoskeleton
A. Microfilaments Thinnest
Actin and myosin
B. Intermediate filaments Generate movement,
C. Microtubules mechanical support,
cell’s shape and strength
Microvilli
Cell Structure: Cytoplasm

Cytoskeleton
A. Microfilaments Thicker
Stabilize position of
B. Intermediate filaments organelles
C. Microtubules
Cell Structure: Cytoplasm

Cytoskeleton
A. Microfilaments Thickest among the three
Long, unbranched, hollow
B. Intermediate filaments tubes
C. Microtubules Tubulin
Assembly begins from the
centrosome toward the
periphery of the cell
Cilia and flagella
Cell Structure: Cytoplasm
centrosome
Centrosome
- Microtubule organizing center
- Two components:
- Centrioles (2) – cylindrical; nine clusters of
microtubular triplets arranged
in a circular pattern
- Pericentriolar matrix – surrounds centrioles
– forms mitotic spindle centrioles
during cell division
Cell Structure: Cytoplasm

Centrosome
(with 2 centrioles)
Cell Structure: Cytoplasm

Mitochondrion
- Powerhouse of the cell
- Active cells that use ATP at higher rate
have larger number of mitochondria
- Liver, Kidneys, Muscles
- Inner and Outer membrane
- Cristae - infoldings of inner membrane
- Matrix - has quantities of enzymes
used to extract energy from nutrients
Cell Structure: Cytoplasm

Mitochondrion
- Self-replicating
- Contain DNA similar to that of found
in the Nucleus
- Plays a role in Apoptosis
(normal/programmed cell death)
Cell Structure: Cytoplasm

Endoplasmic Reticulum
- A network of flat tubular structures
(cisternae) and flat vesicular structures
- Extends from nuclear envelope, projects
throughout the cytoplasm.
- Process molecules made by nucleus
and transport them
- Lipid bilayer with proteins
Cell Structure: Cytoplasm

Endoplasmic Reticulum
Rough Endoplasmic Reticulum Smooth Endoplasmic Reticulum
- With Ribosomes attached - With Enzymes
– Mixture of RNA and Proteins - Functionally diverse
– Protein synthesis – Fatty acids and Steroid synthesis
- glycoprotein and phospholipid – in liver cells: releases glucose,
synthesis detoxify lipid-soluble drugs
– in muscle fibers: release Calcium
(Sarcoplasmic Reticulum)
Cell Structure: Cytoplasm

Endoplasmic Reticulum

Ribosomes are the
sites of Protein Synthesis
Cell Structure: Cytoplasm

Golgi Complex
- 3-20 flattened saccules
- Prominent in secretory cells
- Functions in association with
the endoplasmic reticulum
- ER vesicles continually pinch off
from the ER and shortly fuse with
the Golgi apparatus
- Modifies, sorts, packages, and
transports proteins from ER
Cell Structure: Cytoplasm

Golgi Complex
- Cis face = entry
- Faces the Rough ER
- Trans face = exit
- Faces the Plasma Membrane
- Intermediate saccules
Cell Structure: Cytoplasm

Golgi Complex

All proteins exported from the cell
are processed in the Golgi Complex
Cell Structure: Cytoplasm

Lysosome
- Forms by breaking off from the Golgi apparatus
- Dispersed throughout the cytoplasm
- Intracellular digestion (endocytosis)
- damaged cellular structures
- food particles ingested by the cell
- unwanted matter (ex. bacteria)
- Extracellular digestion
- Example: sperm cells during fertilization
Cell Structure: Cytoplasm

Lysosome
- Hydrolytic enzymes
- Enclosed by a lipid bilayer membrane
- Autophagy – digestion of worn-out organelles
– Autophagosome
- Autolysis – digestion of entire cell

Good to know:
Tay Sachs disease – hereditary
– absence of lysosomal enzyme
Hex A
Cell Structure: Cytoplasm

Peroxisome
- Structurally similar to lysosomes, but smaller
- Formed from self-replication (while lysosomes are from golgi bodies)
- Contain oxidases (while lysosomes have hydrolases)
- Oxygen + hydrogen → Hydrogen peroxide (H2O2)
- Ex: Alcohol is detoxified into acetaldehyde by Liver peroxisomes
- Catabolizes long-chain fatty acids
SPOT CHECK!
Which cytoskeleton structure gives rise
to Cilia and Flagella?
SPOT CHECK!
The site of Protein Synthesis
Cell Structure

The Nucleus
Cell Structure: Nucleus
Cell Structure: Nucleus

Nucleus

Functions:

- Control Center of the cell
- Houses most of the cells’ DNA
- Most prominent feature seen in light microscope
Cell Structure: Nucleus

Nucleolus
- Highly-staining structure
- 1 or more in a nucleus
- Not enclosed in a membrane
- Site of rRNA synthesis
Cell Structure: Nucleus

Nuclear Envelope
- Separates nucleus from the cytoplasm
- 2 separate bilayer (one inside the other)
- Outer membrane is continuous with ER

- Nuclear pores – control movement of substances
between nucleus and cytoplasm
Genes
Genes
Functions:

- Functional units of Genetic information
- segments of DNA which determine unique characteristics
- Hair color, eye color, height, and more
- Control and promote cell reproduction

- Genome – total genetic information
carried in a cell or in an organism
DNA
DNA
- Deoxyribonucleic Acid
- Raw material of inheritance
- Double stranded
- Located within the nucleus
DNA: DNA Structure

The Double Helix Model (1953)
- James Watson and Francis Crick
- Twisted spiral ladder
- Two long chains wound around each
other, held together by H bonds
- Repeating units: the Nucleotides
- The two strands are antiparallel
DNA: DNA Structure

Nucleotides
- 1 deoxyribose sugar
- 1 phosphate group } “backbone”

- 1 nitrogen-containing base
DNA: DNA Structure

Nitrogen-containing Bases
Purines:
- Guanine
- Adenine Mnemonics : “@ GC” (AT GC)

Pyrimidines: A T → Adenine pairs with Thymine
- Cytosine G C → Guanine pairs with Cytosine
- Thymine
DNA: DNA Structure

Nitrogen-containing Bases
Purines:
- Guanine
- Adenine Mnemonics : “@ GC” (AT GC)

Pyrimidines: A T → Adenine pairs with Thymine
- Cytosine G C → Guanine pairs with Cytosine
- Thymine
Pure As Gold → Purines: Adenine & Guanine
DNA: DNA Structure

Nitrogen-containing Bases
Purines:
- Guanine
- Adenine Mnemonics : “@ GC” (AT GC)

Pyrimidines: A T → Adenine pairs with Thymine
- Cytosine G C → Guanine pairs with Cytosine
- Thymine
Pure As Gold → Purines: Adenine & Guanine
CUT a Py (Pie) → Pyrimidines: Cytosine, Thymine,
Uracil (RNA)
DNA: DNA Structure

Erwin Chargaff’s rule
- Nitrogenous bases are unequal in concentration; but

→ concentrations of Adenine = Thymine
→ concentrations of Guanine = Cytosine
DNA: DNA Structure

Watson and Crick
- Postulated that to fulfill Chargaff’s rule,
and to maintain a uniform shape of the
DNA molecule
- Adenine must pair with Thymine
- Guanine must pair with Cytosine
DNA: DNA Structure
recap
SPOT CHECK!
Give a function of the Nucleus
SPOT CHECK!
What are the components
of a nucleotide?
DNA

The DNA Organization
DNA: DNA Organization

1.First level of condensation: DNA Double Helix
2.Octamer (protein core)
- 2 molecules of each of the histones H2A, H2B, H3, and H4
3.Double Helix winds twice around octamer: Nucleosome (10-nm)
4.Repeats of nucleosomes give “Beads on a string” appearance
5.Further coiling: Solenoid (30-nm) (have 6 nucleosomes each)
6.DNA looped domains
7.Chromatin
8.Chromosomes
 First level of
condensation
 Octamer

H2A, H2B,
H3, and H4
 Double helix winds
twice around octamer
“Beads” = nucleosome
“String” = Linker DNA

“beads on a string”
Solenoid
(60-nm)
DNA looped
domains
Chromatin
Chromosome
Chromosome
Chromosome
- A highly-coiled and folded single molecule of DNA
associated with several proteins
- Consists of 2 sister chromatids
- Only seen in light microscope during the metaphase

- 46 (23 pairs) of chromosomes
- 22 pairs of Autosomes
- 1 pair of Sex Chromosomes
Chromosome: Nomenclature

Autosomes:
Numbered 1 to 22 (based
on decreasing size; except
chromosome 22 which is
slightly larger than
chromosome 21)

Sex Chromosomes:
Noted by letters X and Y
Chromosome: Nomenclature
Chromosome: Structure

p arm
”petite”

q arm
Chromosome: Structure

Chromatin Euchromatin Heterochromatin
- Gene-rich - Gene-poor
- A single continuous - Active - Inactive
- Early-replicating - Late-replicating
molecule of DNA - Light-staining - Dark-staining
complexed with histone - Loose, extended, uncoiled - Compacted, heavily coiled

and nonhistone proteins
Constitutive Facultative
Heterochromatin Heterochromatin
- Around centromeres of all - one X chromosome of
chromosomes and at distal female cell that is randomly
end of Y chromosome inactivated and condensed
- no transcribed gene - regulates gene function
- no effect on phenotype
Chromosome: Structure

Telomere
- Physical ends of chromosomes
- Protective caps
- Synapsis during meiosis
- Tandem repeats of TTAGGG
- Telomerase
- Synthesizes new copies of the TTAGGG using RNA template
- Counteracts progressive shortening (from cycles of normal replication)
- Length gradually decreases
- Due to normal aging and increased cell divisions in culture
- Tumor-Suppressing Mechanism
Chromosome: Structure

Centromere
- Constriction where two sister chromatids join together
- Interacts with mitotic spindle fibers

Types of chromosomes according to centromere:
- Metacentric – near the middle
- Acrocentric – near one end
- Submetacentric – between the middle and end
- Telocentric – at the terminal end
Chromosome: Structure

Types of Chromosomes according to Centromere

At terminal end Near one end Between the In the middle
middle and end
Chromosome: Structure

Nucleolar organizer regions
- Satellite stalks of acrocentric chromosomes
- Where nucleoli form in interphase cells
SPOT CHECK!
How many chromosomes does a
child normally inherit from each parent?
Any
Questions?
Thank you
for learning!
Thank you for listening

References:
Gersen, S. and Keagle, M. (2013) The Principles of Clinical
Cytogenetics. 3rd Edition.

Hall, J. E. (2021). Guyton and Hall Textbook of Medical
Physiology. 14th edition.

Tortora, G. J. and Derrickson, B. (2020). Principles of
Anatomy & Physiology. 15th edition.