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Prokaryotes
Life Science
What are Prokaryotes?

Single-celled organisms

Very tiny

Cannot be seen without a microscope

Our microscopes are not powerful enough

Lack a nucleus and most other organelles

Most numerous organisms on Earth

Extremely important organisms.
Classification and Evolution


Prokaryotes are split into 2 Domains (Recall Taxonomic Levels?)

Domain Bacteria

Domain Archaea

Everything else on Earth is in Domain Eukarya
Prokaryotes were the first living things to evolve, around 3.8 billion years ago


Only living things on earth until 2 billion years ago
Until 1970s, Archaea were considered to be bacteria (called Archaebacteria)

As more was learned about them, they were given their own domain because they are VERY different
from bacteria

Your textbook still has them listed as bacteria…
Domain Bacteria

Made up of bacteria (surprised?)

Only 1 kingdom-Can you guess what it’s called?

Most abundant living things on Earth.

Live in almost every environment

Air

Ocean

Soil

Intestines

Estimated number of bacteria on earth: 5,000,000,000,000,000,000,000,000,000,000

You have 10 times more bacterial cells than human cells!
Classification of Bacteria

Thousands of bacterial species exist.

Many are classified by shape.

Others are classified based on the color that they stain (Gram staining)
Bacterial shapes
 Baccili:
 Rod
shaped
 Cocci:
 Sphere-shaped
 Spirilli
 Spiral-shaped
Structure of Bacterial Cells

Bacterial cells are surrounded by a plasma membrane

Most also have cell walls

Surrounding the membranes and cell wall (if present) is a capsule, which
further protects the cells

Inside of the bacterial cell is cytoplasm, similar to eukaryotic cells

Floating in the cytoplasm are ribosomes and plasmids (small sections of DNA)

There is no nucleus


Instead, there is a Nucleoid (circular DNA)
Bacterial cells also may contain whip-like structures called flagella
Structure of Bacterial Cells
How do bacteria get energy?

Some are photosynthetic

Others decompose organic matter

Some can use chemicals from the environment to do a process
similar to photosynthesis (called chemosynthesis)


Mutualism


Example: Nitrogen fixation
Getting resources from other species, while providing some service to that
species (+/+)
Parasitism

Stealing resources from host organisms (+/-)
Bacteria and People


You may think that bacteria’s purpose is to make us sick

For some bacteria, this is true

For many others, it is not
Benefits of Bacteria

Create medicine, such as vaccines

Help us digest foods and produce vitamins

Decompose wastes

Fix Nitrogen into usable forms for plants

Make foods such as cottage cheese, yogurt, cheese, and many more.
Dark side of Bacteria

Some bacteria can lead to disease

Clostridium tetani


Tetanus aka Lockjaw

Affects muscles (including the heart). Leads to muscle spasms, and can be fatal.
Escherichia coli

E. Coli

Many strains exist in human intestines in a commensalism relationship. However, some can cause food
poisoning.

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Transmitted by fecal-oral route. WASH YOUR HANDS AFTER USING THE BATHROOM!!!
Salmonella bongori & Salmonella enterica

Salmonella

Cause Typhoid fever (very fatal) and Food Poisoning

Transmitted by fecal-oral route. WASH YOUR HANDS AFTER USING THE BATHROOM!!!
Dark side of Bacteria Continued

Staphylococcus (many species)
 Sinus

Streptococcus (Many species)



infections, ear infections, skin infections, food poisoning
Pneumonia, necrotizing fasciitis (flesh-eating bacteria), pink eye
Mycobacterium tuberculosis

Tuberculosis

Second deadliest infectious disease (After HIV/AIDS).
Yersinia pestis

“The Bubonic Plague” or “The Black Death

Killed over 1/3 of the European Population between 1347 and 1353
Controlling Bacteria

Bacteria in food and water can be killed by cooking at a
high temperature

Bacteria on surfaces can be killed with cleaning products
such as bleach or Lysol

Antibiotics can be used to kill bacteria that are harming
humans


Effective against bacterial infections such as strep throat, sinus
infections, ear infections, pneumonia, etc.
However, there is a problem
Antibiotic Resistance in Bacteria
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Some bacterial species are evolving resistance
to antibiotics.

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The antibiotic kills those that are not resistant,
but leaves the one that are resistant
Example: Clostridium difficile is a common
bacteria that causes diarrheal disease in
hospitals. Hospitals, due to their obsessive
cleaning procedures, have selected for
resistant strains. Patients are being infected at
a high rate, while staying in hospitals.
Even more alarming…

Remember how we just learned that Tuberculosis is the 2nd most
deadly infectious disease… Well…

Tuberculosis is spreading due to becoming resistant to the antibiotics
typically used to treat it.

One strain is totally resistant to ALL drugs currently used

Another is resistant to 3 of the 6 drugs used to treat it.
Domain Archaea

Only 1 Kingdom

Called Archaea (Surprised?)

Prokaryotes

First discovered in extreme environments

Originally classified as bacteria

As more was learned about them, they were found to be VERY different
from bacteria


They were given their own Domain and Kingdom
Very little is known about these organisms
Archaea: Tiny but Tough

Many archaea are extremophiles
 Organisms
that have evolved to live in extreme
conditions.
 Example:
Hydrothermal vents in the ocean (picture) are very
acidic and hot.


Would kill most organisms, yet archaea thrive.
4 types of extremophiles

Halophiles-Survive in very salty water (Dead sea)

Hyperthermophiles- Survive at high heats
 Some
archaea can survive up to 122° C (252° F)

Acidophiles-Live in highly acidic environments (like near
volcanoes)

Alkaliphiles-Live in very basic environments
Where else do they live?

Archaea do not only live in extreme environments
 They
are found nearly everywhere on Earth.
 Including

in humans (many are found in the human belly button!)
Around 4 % of human microbiome

They are also important decomposers, and part of Nitrogen cycle

Many archaea also form symbiotic relationships
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None are known parasites

Most form mutualistic relationships

Archaea in cattle gut help break down grass and straw, and get nutrients in return