Microbiology and Parasitology MCC-4 PDF

Summary

This document provides an introduction to microbiology and parasitology, covering prokaryotes and eukaryotes. It explains the physiology and pathogenic properties of microorganisms. It also discusses structures external to cell walls, including flagella, fimbriae, and pili, and compares prokaryotes to eukaryotes.

Full Transcript

MICROBIOLOGY AND PARASITOLOGY
MCC-4
bY: STEPHANIE E. MASIADO, SN

INTRODUCTION PROKARYOTES

MICROBIOLOGY AND PARASITOLOGY Structures external to cell wall
Cell Wall itself
Designed to assist students in the study of important Structures internal to cell wall
microorganisms and parasites. It explains the physiology DNA in a prokaryote is not membrane bound. In
and pathogenic properties of bacteria, fungi and viruses other words, there is no nucleus.
as an introduction to causation, their biology, the Unlike eukaryotes, which generally have multiple
infections they cause, host response to these infections linear chromosomes, prokaryotes have one
and their mode of transmission, prevention, treatment circular chromosome
and nursing responsibilities. The laboratory experiences Prokaryotes do not have membrane-bound
provide specimen collection, handling and processing of organelles
specimens for isolation and identification of The cell walls of prokaryotes almost always
microorganisms and parasites involved in the infectious contain a structure called peptidoglycan.
processes. Prokaryotes divide by binary fission.

MICROBIOLOGY STRUCTURES EXTERNAL TO CELL WALL

Micro-very small, minute Prokaryotes have three different types of appendages:
Biology- Study of life 1. Flagella for motility
2. Fimbriae for attachment
The study of the biology of microscopic organisms. 3. Pili for DNA transfer
(viruses, bacteria, algae. fungi, slime molds, and
protozoa.) Prokaryotes use only flagella for motility. However, keep in
mind that not all prokaryotes are motile.
PROKARYOTE VS. EUKARYOTE

The term prokaryote comes from the Greek (pro),
meaning "before" and (karyon) meaning "nut" or
“kernel" which means "pre-nucleus" or "before
nucleus".
The word eukaryote comes from the Greek eu,
well and karyon "nut or kernel," which is a
common scientific word forming element that's
used to talk about the nurse cells. This means
"true nucleus”
Flagella can be arranged 4 different ways in Prokaryotes:
PROKARYOTE EUKARYOTE
1. Peritrichous, meaning the flagella are distributed
Unicellular Multi-cellular over the entire cell, much like cilia would be on a
Binary Fission, Mitosis, Meiosis eukaryotic cell.
budding fragmentation 2. Monotrichous, meaning single polar flagellum.
DNA storage in DNA storage in 3. Lophotrichous, meaning two or more flagella at
Cytoplasm nucleus one pole (or end of the cell)
No nucleus With nucleus 4. Amphitrichous, meaning tuft of flagella at each
No organelles With organelles end of cell
Size of cell is small Size of cell is large
(0.2 um x 2-8 um) (10 to 100 pan in
diameter)
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Fimbriae
are hair-like appendages used for attachment.
There are generally many of them that surround
the cell.

Again, not all prokaryotes have fimbriae.

Neisseria gonorrhoeae uses fimbriae to colonize
mucous membranes. It is the organism
responsible for gonorrhoea.

Pili

sometimes fimbriae and pili used
Flagella is located outside of cell wall interchangeably in some textbooks
Filament made of chains of flagellin usually longer than fimbriae and number only 1
Attached to a protein hook or 2 per cell.
Anchored to the wall and membrane by the long hollow tubes that can attach one cell to
basal body. another for a brief period of time
Flagella proteins are H antigens. join bacterial cells in preparation to transfer DNA
from one cell to another (also referred to as sex
Flagella pili)
prokaryotes move in a circular motion like a the Pilus is the actual tube through which the
propeller instead of the whip- like motion used by DNA is transferred
eukaryotic flagella.
Like in eukaryotes, prokaryotes can have a glycocalyx.
Motility
Prokaryotes consists of “runs” and “tumbles”, Again the glycocalyx is a sticky substance that surrounds
swims, swarms, glides, twitch or floats. the cells and is used for attachment.
Motility enables the microbe to move towards The glycocalyx is a fuzzy, gel-like, sticky layer
favorable conditions or away from unfavorable made up mainly of proteins and sugars. It
conditions. surrounds the outermost cellular membrane of
Don’t be fooled though. Microbes are not cells.
“thinking” entities. They move as a result of
chemical messages that the cell receives from There are two forms the glycocalyx can take:
the environment.
Capsule- is a sugar coat that is thick and gummy
that surrounds the cell. A capsule is generally an
indicator of virulence in bacteria and aids in
attachment and colonization of the host
Slime layer- a loose shield around the bacteria
that helps prevent water and nutrient loss. Slime
layers also help form biofilms (layers of bacteria
that are impenetrable by antibiotics and other
chemicals)

Cell Wall

Almost all organisms have cell walls: -
(Mycobacteria is an exception)
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MCC-4
bY: STEPHANIE E. MASIADO, SN

The function of the cell wall in prokaryotes is to Next is a thin layer of peptidoglycan that is
prevent the cell from rupturing when the pressure loosely attached to the inside of the outer
inside cells is greater than pressure outside the membrane.
cell. Surrounding the peptidoglycan on the top and
bottom is the periplasmic space
The cell wall is composed of 2 main molecules: Forms the periplasm between the outer
1. N-acetylmuramic acid (NAM) membrane and the plasma membrane.
2. N-acetylglucosamine (NAG)- also known as Protection from Phagocytes, complement,
peptidoglycan antibiotics.
O polysaccharide antigen. (e.g. E. Coli O157:H7)
Many disease causing bacteria can be grouped into one Lipid A is endotoxin
of two categories based on their cell wall structure: Porins (proteins) form channels through the
1. Gram positive (G+) membrane.
2. Gram negative (G-). Gram-negative bacteria have cell walls with thin
layers of peptidoglycan (10% of the cell wall)
Gram Positive Cell Wall and high lipid (fatty acid) content. This causes
them to appear red to pink under a Gram stain
G + bacteria have a very thick and rigid cell
wall; it is composed of a very thick layer of Gram-negative organisms include:
peptidoglycan. Neisseria gonorrhoeae and Neisseria meningitidis
Peptidoglycan (90%) is made up of repeating Gonorrhea
units of NAG and NAM bound together and Moraxella species:
layered on top of each other. - Escherichia coli (E. coli)- UTIs and food
Teichoic acids poisoning
○ Lipoteichoic acid links to plasma - Pseudomonas species
membrane - Proteus species- UTIs
○ Wall teichoic acid links to peptidoglycan - Klebsiella species- pneumonia
bloodstream infections, wound or
May regulate movement of cations. surgical site infections and bacterial
Polysaccharides provide antigenic variation. meningitis

Gram-Positive Organisms Includes: GRAM STAINING
Streptococcus species- bacterial pneumonia
Corynebacterium species Gram stain (Gram staining or Gram's method), is a
Clostridium species- Food poisoning method of staining used to classify bacterial species into
Listeria species- Food poisoning two large groups: gram-positive bacteria and
Staphylococcus species- bacterial pneumonia gram-negative bacteria.

Methicillin-resistant Staphylococcus aureus (MRSA) and It may also be used to diagnose a fungal
toxic shock syndrome. infection. The name comes from the Danish
bacteriologist Hans Christian Gram, who
Gram Negative CELL WALL developed the technique in 1884.
It differentiates bacteria by the chemical and
G- bacteria have a more complex cell wall physical properties of their cell walls.
structure. It is composed of an outer membrane Gram-positive cells have a thick layer of
(lipid bilayer) that contains LPS peptidoglycan in the cell wall that retains the
(lipopolysaccharide) on the outside of the outer primary stain, crystal violet.
membrane and phospholipids on the inside of Gram-negative cells have a thinner
the outer membrane. peptidoglycan layer that allows the crystal violet
to wash out in addition to ethanol. They are
stained pink or red by the counterstain,
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commonly safranin or fuchsine. Lugol's iodine membrane fluidity, permeability, and membrane
solution is always added after addition of crystal protein functions.
violet to strengthen the bonds of the stain with
the cell membrane Archaea

GRAM STAINING MECHANISM Wall-less, or
Walls of pseudomurein (lack NAM and D amino
Crystal violet-iodine crystals form in a cell. acids).
N-acetyltalosaminuronic acid
Gram-positive Pseudopeptidoglycan (also known as
Alcohol dehydrates pseudomurein) is a major cell wall component of
peptidoglycan some archaea that differs from bacterial
CV-I crystals do not peptidoglycan in chemical structure, but
leave. resembles eubacterial peptidoglycan in
morphology, function, and physical structure.
Gram-negative
Alcohol dissolves N-acetyltalosaminuronic acid
outer membranes acid is a uronic acid
and leaves hales in component of pseudopeptidoglycan, a
peptidoglycan. structural polymer found in the cell walls in some
CV-I crystals washes types of Archaea
out
DAMAGE TO CELL WALLS

Lysozyme
is a protein that plays an important role in the
innate immunity, providing protection against
bacteria, viruses, and fung
It attacks the protective cell walls of bacteria. I
digests disaccharide in peptidoglycan.

Penicillin
inhibits peptide bridges in peptidoglycan.
Penicillin kills bacteria through binding of the
ATYPICAL BACTERIA beta- lactam ring to DD-transpeptidase,
inhibiting its cross-linking activity and preventing
Are bacteria that do not get colored by gram-staining new cell wall formation. Without a cell wall, a
but rather remain colorless: they are neither bacterial cell is vulnerable to outside water and
Gram-positive nor Gram-negative. molecular pressures, which causes the cell to
quickly die
Mycoplasmas
Lack cell walls Protoplasts
Sterols in plasma membrane is a wall-less gram-positive cell
bacterial cells lacking a cell wall without an outer
Sterols membrane.
are isoprenoid-derived lipids with essential roles in
cell structure, function, and physiology. As Spheroplasts
important components of biological membranes, is a wall-less gram-negative cell. Bacterial cells
sterols interact with phospholipids and proteins lacking a cell wall with an outer membrane and
within the membrane. thereby regulating a plasma membrane.
MICROBIOLOGY AND PARASITOLOGY
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L forms 3. Osmosis- movement of water across a selectively
bacterial variants that lack a cell wall and divide permeable membrane from an area of high
by a variety of processes involving membrane water concentration to an area of low water
blebbing, tubulation, vesiculation and fission. concentration.
are wall-less cells that swell into irregular shapes. 4. Osmotic Pressure- The pressure needed to stop
Protoplasts and Spheroplasts are susceptible to the movement of water across the membrane.\
osmotic lysis. 5. Active Transport – of substances requires a
transporter protein and ATP.
PLASMA MEMBRANE 6. Group Translocation – requires a transporter
protein and the structure of protein is altered.,
“Cell Membrane (cytoplasmic membrane)/ Plasma energy is supplied by phosphoenolpyruvic acid,
Membrane” addition of phosphate to internalize glucose to
Encloses the cytoplasm of the cell. Like form phosphorylated glucose.
eukaryotes, the cytoplasm contains a lot of
water, unlike eukaryotes it does not have
microtubules or microfilaments
It is a typical phospholipid bilayer

Phospholipid bilayer is a two-layered arrangement of
phosphate and lipid molecules that form a cell
membrane. The hydrophobic lipid ends facing inward
and the hydrophilic phosphate ends facing outward.
Also called: lipid bilayer.
STRUCTURES INTERNAL TO CELL WALL
The function of the cell membrane is to
selectively allow Cytoplasm: substance w/in cell membrane
(selective permeability) materials such as It is 80% water.
nutrients and wastes to enter and exit. It contains the nuclear area/nucleoids
This is also the cite of Cellular Respiration (ATP (remember there are no membrane bound
production). organelles inside a prokaryotic cell).
Alcohols, quaternary ammonium (detergents), It contains ribosomes.
and polymyxin antibiotics damage the It contains inclusions.
membrane and cause leakage of cell contents. contains proteins, CHO, lipids, inorganic ions.

FLUID MOSAIC MODEL Nuclear area (Nucleoids)
The nuclear area contains the single circular
Used to describe cell membranes chromosome found in prokaryotes.
It states that the membrane is viscous as an olive Single, long, continuous, circular
oil or fluid. It allows the proteins within the 20% volume of bacteria
membrane to move throughout the Carry antibiotic resistance genes
phospholipids freely. Can be transferred from one to another
Proteins move to function. bacterium.
Phospholipids rotate and move laterally. Sometimes plasmids are also found in the nuclear
area.
MOVEMENT ACROSS MEMBRANES
Plasmids
1. Simple diffusion- movement of a solute from an are small, circular pieces of DNA that contain
area of high concentration to an area of low extra genes that the cell can use.
concentration. Sometimes they carry genes for antibiotic
2. Facilitated diffusion- solute combines with a resistance or for toxins
transporter protein in the membrane.
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bY: STEPHANIE E. MASIADO, SN

They are also used very frequently for genetic
engineering because they are easily
manipulated and can be easily moved into a
cell.

Ribosomes
Ribosomes in prokaryotes are free.
Like ribosomes in eukaryotes, they are the site for
protein synthesis.
There is a difference in the structure and mass of
the ribosomes in eukaryotes and prokaryotes. This
is important to know because it helps to treat
bacterial infections.

Inclusions
Storage for reserve nutrients
Polysaccharide granules: store glycogen and
starch
SHAPE AND ARRANGEMENT OF BACTERIAL CELLS
Lipid inclusions - energy reserves
Sulfur granules – energy reserves
Carboxysomes: store enzymes for carbon fixation Bacterial cells come in all kinds of shapes and sizes and
from carbon dioxide arrangements.
Gas vacuoles: control buoyancy to receive
sufficient oxygen, light and nutrients Coccus, single ball shaped cell (cocci, many ball
Magnetosomes: store iron oxide, act like magnet shaped cells)
to reach attachment sites - Diplococci, two ball shaped cells connected
together.
ENDOSPORES - Streptococci, chains of ball shaped cells.
- Tetrads, four ball shaped cells bound together.
- Sarcinae, groups of eight ball shaped cells
Some bacteria, such as Bacillus and Clostridium,
connected together
form resting cells called endospores upon
- Staphylococci, balled shaped bacteria
depletion of nutrients in the environment.
connected together in what look like grape
Endospores are essentially highly durable
clusters
dehydrated cells, similar to a plant seed. It
contains all the genetic information of the
Bacillus (bacilli) is rod shaped bacteria
original cell and will form a living cell again once
- Diplobacilli, two rods connected together.
the environmental conditions are right.
- streptobacilli, chains of rods connected end to
Endospores are formed inside the cell and then
end.
released into the environment when the cell dies.
- Coccobacilli, short fat rods that look similar to
Upon release, endospores can survive extreme
cocci.
heat, lack of water, exposure to many toxic
- (Bacillus has to meanings. Bacillus, the genus
chemicals, and radiation
name of bacteria and bacillus, the cellular shape
Sporulation is the process of endospore
of a bacterium.)
formation.
Germination is the process where the endospores
Other shapes
returns to its vegetative state (living cell).
- Vibrio, comma shape.
Sporulation does not increase the number of cells
- Spirilla, spirochetes and others
but rather preserves the genetic information of
the parent cell until conditions are right for it to
EUKARYOTIC CELLS
grow again
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MCC-4
bY: STEPHANIE E. MASIADO, SN

Like a prokaryotic cell, a eukaryotic cell has a plasma FLAGELLA OVERVIEW
membrane, cytoplasm, and ribosomes. However, unlike
prokaryotic cells, eukaryotic cells have: Flagella are hair-like structures emerging through the cell
a membrane-bound nucleus surface. They help in locomotion in prokaryotic and
numerous membrane-bound organelles eukaryotic cells.
(including the endoplasmic reticulum, Golgi
apparatus, chloroplasts, and mitochondria) Flagella are of three types:
several rod-shaped chromosomes Bacterial flagella
Archaeal flagella
Eukaryotic flagella- they beat back and forth to
bring movement. E.g., sperm cells. The structure is
similar to motile cilia, but length and functions
differ. The core of eukaryotic flagella is called an
axoneme, which comprises microtubules with a
9+2 arrangement. The nine doublets surround the
2 central singlets.

EUKARYOTIC CELL WALL

A cell wall is a rigid structure present outside the
plant cell. It is, however, absent in animal cells.
It provides shape to the cell and helps in
cell-to-cell interaction.
It is a protective layer that protects the cell from
any injury or pathogen attacks
It is composed of cellulose, hemicellulose,
pectins, proteins, etc.
Plant and algae- cellulose
Fungi- chitin (NAG)
Yeast – glucan, mannan

Glycocalyx
The glycocalyx is a system of protein -linked (
glycoproteins) and lipid -linked carbohydrates
CILIA OVERVIEW that span the plasma membrane of a eukaryotic
cell forming a slimy layer.
Cilia are short hair-like structures present in large numbers
in eukaryotic cells. PLASMA MEMBRANE

Cilia are of two types: The plasma membrane separates the cell from
non-motile the outside environment.
motile It comprises specific embedded proteins, which
help in the exchange of substances in and out of
The motile cilia are found in the respiratory tract and the cell.
fallopian tubes of the human body. where they sweep ○ Selective permeability
mucus in the airways and facilitate the movement of ova ○ Simple diffusion
from the ovary to the uterus, respectively. ○ Facilitated diffusion
Non-motile cilia are also known as sensory cilia or primary ○ Osmosis
cilia. They act as sensory organelles. They receive signals ○ Active Transport
from nearby cells and act as antennae for the cells. E.g.
cilia present on olfactory neurons and hair cells.
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Endocytosis- a cellular process in which substances are Endoplasmic Reticulum - It is a transport network of small,
brought into the cell. The material to be internalized is tubular structures that divides the cell surface into two
surrounded by an area of cell membrane, which then parts: luminal and extraluminal.
buds off inside the cell to form a vesicle containing the
ingested material. Endoplasmic Reticulum is of two types:
Phagocytosis (from φαγεῖν 'to eat', and κύτος Rough Endoplasmic Reticulum – associated with
'cell') is the process by which a cell uses its ribosomes; makes secretory and membrane
plasma membrane to engulf a large particle (≥ proteins.
0.5 μm), giving rise to an internal compartment Smooth Endoplasmic Reticulum – makes lipids
called the phagosome. “to eat”
Pinocytosis is the method by which a cell absorbs Golgi Complex – Golgi apparatus or Golgi Body, is
small particles outside the cell and brings them the packaging of materials for secretion. The Golgi
inside. A process by which liquid droplets are apparatus is the major collection and dispatch station of
ingested by living cells. “To drink”. protein products received from the ER. The Golgi
apparatus is also involved in lipid transport and lysosome
Cytoplasmic membrane - is a biological membrane that formation.
separates and protects the interior of a cell from the
outside environment (the extracellular space). Lysosomes - is a membrane-bound cell organelle that
contains digestive enzymes. Lysosomes are involved with
Cytosol – is the liquid found inside the cells. It is the various cell processes. They break down excess or
water-based solution in which organelles, proteins, and worn-out cell parts. They may be used to destroy invading
other cell structures float. viruses and bacteria.

Cytoskeleton - is present inside the cytoplasm, which Vacuole - helps in storage of salts, minerals, pigments and
consists of microfilaments, microtubules, and fibers to proteins within the cell. It isolates metabolic waste that
provide perfect shape to the cell, anchor the organelles, might be harmful to the cell. It maintains turgor pressure. It
and stimulate the cell movement. facilitates endocytosis and exocytosis.
Mitochondria- Mitochondria are membrane-bound cell
Cytoplasmic streaming – also called protoplasmic organelles (mitochondrion, singular) that generate most
streaming and cyclosis. Is the flow of cytoplasm inside the of the chemical energy needed to power the cell's
cell, driven by forces from the cytoskeleton. biochemical reactions. Chemical energy produced by
the mitochondria is stored in a small molecule called
ORGANELLES adenosine triphosphate (ATP).

Nucleus - nucleus houses the cell's DNA and directs the Chloroplast - is a type of plastid (a saclike organelle with
synthesis of proteins and ribosomes, the cellular a double membrane) that serves as the site of
organelles responsible for protein synthesis. photosynthesis, the process by which energy from the Sun
is converted into chemical energy for growth.
The nucleus stores chromatin (DNA plus proteins) in a Chloroplasts contain the pigment chlorophyll to absorb
gel-like substance called the nucleoplasm. The nucleolus light energy.
is a condensed region of chromatin where ribosome
synthesis occurs.The boundary of the nucleus is called the
nuclear envelope. It consists of two phospholipid bilayers:
an outer membrane and an inner membrane. The
nuclear
membrane is continuous with the endoplasmic reticulum.
Nuclear pores allow substances to enter and exit the
nucleus.