The Basic Structures of Bacteria Anatomy and Physiology PDF

Summary

This document provides information about the basic structures of bacteria, including their anatomy and physiology. It covers objectives, introduction, cell walls, flagellum, fimbriae, pili, glycocalyx, and other aspects of bacterial physiology.

Full Transcript

10/7/2023

‫وزارة التعليم العالي و البحث العلمي‬
‫ كلية الصيدلة‬/ ‫جامعة العميد‬
‫فرع العلوم المختبرية‬

The Basic Structures of Bacteria
Anatomy and Physiology
Abdul sattar AL-Saeedi
M.Sc. Medical Microbiology
Ph.D. in medical microbiology (Molecular virology)

Objectives

The students will be able to
 Define the bacteria
 Describe the bacterial cell wall.
 Compare between Gram-positive and Gram-negative bacteria.
 Distinguish types of flagellums.
 Describe the function of fimbriae and pili.
 Classify bacterial according to shape.

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Introduction

Bacteria are single-celled prokaryotes, their DNA forming a
long circular molecule, but not contained within a defined
nucleus. Many are motile, using a unique pattern of flagella.

They reproduce by binary fission, often at very high rates, and
show a wide range of metabolic patterns, both aerobic and
anaerobic.

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1- Cell Wall
The cell wall is the outermost component common to all
bacteria (except Mycoplasma species, which are bounded by a
cell membrane, not a cell wall).
Some bacteria have surface features external to the cell wall,
such as capsule, flagella, and pili, which are less common
components and are discussed next.
The cell wall is located external to the cytoplasmic membrane
and is composed of peptidoglycan.

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Peptidoglycan
1.Unique macromolecule composed of a repeating
framework of long glycan chains cross-linked by short
peptide fragments.

2.Provides strong, flexible support to keep bacteria from
bursting or collapsing because of changes in osmotic
pressure

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Cell Wall
Bacteria are classified according to their cell wall to

Gram-positive Gram Bacteria
Cell Wall negative without
cells cell walls

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Gram-positive Cell Wall

The gram-positive cell wall contains two major
components, peptidoglycan and teichoic acids, plus
additional carbohydrates and proteins, depending on
the species.

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2. Gram negative cells
The second kind of cell wall found in bacteria, the gram-negative
cell wall. In gram-negative cells, the amount of peptidoglycan has
been greatly reduced, with some of it forming a single-layered
sheet around the cell and the rest in a gel-like substance, the
periplasmic gel, with little cross-linking.

3. Bacteria without cell walls
For example Mycoplasma species

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2- Flagellum
Specialized appendage attached to the cell by a basal body that holds a
long rotating filament. The movement pushes the cell forward and
provides motility.
Consist of three Parts :
1. Filament: long, thin, helical structure composed of proteins
2. Hook: curved sheath
3. Basal body: stack of rings firmly anchored in cell wall

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Flagellar arrangements

1. Monotrichous: single flagellum at one end
2. Lophotrichous: small bunches arising from one end of cell
3. Amphitrichous: flagella at both ends of cell
4. Peritrichous: flagella dispersed over surface of cell, slowest

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Axial filaments (Endoflagella)

Periplasmic, internal flagella, enclosed between cell wall and cell
membrane of spirochetes
Motility
Example Treponema pallidium causes syphilis

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3- Fimbriae

 Fine hair like bristles from the cell surface
 Found on many Gram-negative and some Gram-positive bacteria
 Thinner and shorter than a flagellum
 Function in adhesion to other cells and surfaces
 Fimbriae are one of the primary mechanisms of virulence for E. coli,
Bordetella pertussis, Staphylococcus and Streptococcus bacteria.

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Pili
Rigid tubular structure found on the surface of
bacteria
 Found only in Gram negative cells
 Functions
1. Joins bacterial cells for DNA transfer
(conjugation)
2. Adhesion

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Glycocalyx
 Many bacterial species secrete an adhering layer of
polysaccharides, or polysaccharides and small
proteins, called the glycocalyx.
 The layer can be thick and covalently bound to the cell,
in which case it is known as a capsule.
 A thinner, loosely attached layer is referred to as a slime
layer.

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Functions

Attachment
Inhibits killing by white blood ells

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FIGURE Haemophilus influenzae disease,
cellular view. Organisms attach to epithelial cells
using pili and outer membrane proteins (OMPs).
Invasion takes place between cells by disruption of
cell–cell adhesion molecules. In the submucosa, the
capsule allows the bacteria to evade phagocytosis
and enter the bloodstream. PMNs,
polymorphonuclear neutrophils.

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Pathogen-
association
capsule molecular patterns

Host cell Endocytic pattern
recognition receptors
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Cytoplasm
Dense gelatinous solution of sugars, amino acids, & salts.
70-80% water.
Serves as solvent for materials used in all cell functions.

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Chromosome
single, circular, double-stranded DNA molecule that contains all
the genetic information required by a cell.
DNA is tightly coiled around a protein, aggregated in a dense area
called the nucleoid

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Plasmids
Small circular, double-stranded DNA
Free or integrated into the chromosome Bacterial DNA Plasmids

Duplicated and passed on to offspring
Not essential to bacterial growth &
metabolism
May encode antibiotic resistance, tolerance
to toxic metals, enzymes & toxins.

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Ribosomes
The ribosomes are built from RNA
and protein and are composed of a
small subunit (30S) and a large
subunit (50S).
For proteins to be synthesized, the two
subunits come together to form a 70S
functional ribosome.
Some antibiotics, such as
streptomycin and tetracycline,
prevent bacterial and archaeal
ribosomes from carrying out protein
synthesis.
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Inclusions, granules:

 Intracellular storage bodies.
 Bacterial cell can use them when
environmental sources are
depleted.
 Examples: glycogen, gas vesicles
for floating, sulfur and
polyphosphate granules.

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Endospores
Endospores are dormant
structures that can endure times
of nutrient stress..A few gram-
positive bacterial species,
especially soil bacteria belonging
to the genera Bacillus and
Clostridium, produce highly
resistant structures called
endospores or, simply, spores.
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Shapes of bacteria
Bacteria can be classify according to shape to three groups

Shapes of bacteria

Cocci, are round

Bacilli, are rods

Spirochetes are spiral shaped
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Thank
Any question?

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