Taibah University Medical Microbiology Lecture 1 PDF

Summary

This lecture introduces medical microbiology concepts, covering prokaryotes and intracellular structures. It also discusses the role of microorganisms in life processes and the importance of bacterial cells.

Full Transcript

Taibah University
Faculty of applied medical sciences
AlUla
Medical Microbiology

The Science of Microbiology

Dr. Saloua Sahbani
Lecture 1 1
Outline

 I. Prokaryotes

 II. Intracellular structure

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What Is Microbiology and Why Does It Matter?

 Microbiology is the study of
microorganisms, a large and
diverse group of microscopic
organisms that exist as single cells
or cell clusters.

 it also includes viruses, which are
microscopic but not cellular.

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Bacteria

They are responsible for
1- Cycling the chemical elements essential for life
including:
carbon, nitrogen, sulfur, hydrogen, and oxygen.

2- More photosynthesis is carried out by
microorganisms than by green plants.

3- Furthermore, there are 100 million times as
many bacteria in the oceans (13 × 1028 ) as
there are stars in the known universe.
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Bacteria cont.

 Humans have an intimate relationship with
microorganisms; more than 90% of the cells in our
bodies are microbes.

 The bacteria present in the average human gut weigh
about 1 kg, and a human adult will excrete his or her
own weight in fecal bacteria each year.

 The number of genes contained within this gut flora
outnumber that contained within our genome 150-fold,
and even in our own genome, 8% of the DNA is derived
from remnants of viral genomes. 5
I- Prokaryotes
The primary distinguishing characteristics of
the prokaryotes are their relatively small
size, usually on the order of 1 μm in
diameter, and the absence of a nuclear
membrane.

The DNA of almost all bacteria is a circle
with a length of about 1 mm; this is the
prokaryotic chromosome.

Most prokaryotes have only a single
chromosome.
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 I.1. Prokaryotic Diversity

Some prokaryotes such as the purple bacteria convert light
energy to metabolic energy in the absence of oxygen
production.

Other prokaryotes, exemplified by the blue-green bacteria
(Cyanobacteria), produce oxygen that can provide energy
through respiration in the absence of light.

Aerobic organisms depend on respiration with oxygen for their
energy.

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 I.2. Prokaryotic Communities
If the organisms within a physically
interconnected community are directly derived
from a single cell, the community is a clone that
may contain up to 108 cells.
Bacteria and Archaebacteria: The Major
Subdivisions Within the Prokaryotes

Major success in molecular phylogeny has been the
demonstration that prokaryotes fall into two major
groups
1- Bacteria
2- Archaebacteria, has received relatively little
attention until recently, partly because many of its
representatives are difficult to study in the 8

laboratory.
I.2. Prokaryotic Communities cont.

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I.3. Structures of the bacterial Cell

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I.4. Structures of the bacterial Cell cont.

They were first seen under a
microscope by Anton Van
Leeuwenhoek in 1676

As microscopes have improved,
scientists have come to understand
bacterial cell structure better
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1.4. Structures of the bacterial Cell cont.

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1.4. Structures of the bacterial Cell cont.

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1.4. Structures of the bacterial Cell cont.

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II. Intracellular structure

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II.1. Cytoplasm

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II.2. Constituents of cytoplasm

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II.3. Nucleoid

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II.4. Plasmid

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II.4. Plasmid cont.

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II. 5. Plasmid function

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II.6. Ribosomes-protein synthesis machinery

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II.7. Bacterial chromosome

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