Evolutionary History of Biodiversity. Three Domains of Life.

BACTERIA AND ARCHAEA

Evolutionary History of Biodiversity

Three Domains of Life

Fig. 26-21

Fungi

EUKARYA

Trypanosomes

Green algaeLand plants

Red algae

ForamsCiliates

Dinoflagellates

Diatoms

Animals

AmoebasCellular slime molds

Leishmania

Euglena

Green nonsulfur bacteria

Thermophiles

Halophiles

Methanobacterium

Sulfolobus

ARCHAEA

COMMONANCESTOR

OF ALLLIFE

BACTERIA

(Plastids, includingchloroplasts)

Greensulfur bacteria

(Mitochondrion)

Cyanobacteria

ChlamydiaSpirochetes

Prokaryote “Before nucleus”

Characteristics: Unicellular 1-5 μm diameter Cell walls -Maintains shape -Provides protection -Prevents lysis in a

hypotonic environment

Common Shapes of Prokaryotes

Coccus - round Bacillus - rod-shaped Spirillum - spiral-

shaped

Eubacteria Clustering

Diplo - a prefix used with the shape name to indicate pairing of cells.

Strepto - a prefix used with the shape name to indicate chains.

Staphylo - a prefix used with the shape name to indicate clusters

Gram Staining Gram-positive bacteria

purple crystal violet stain is trapped by the layer of peptidoglycan which forms the outer layer of the cell.

Gram-negative bacteria outer membrane of

lipopolysaccharides prevents the stain from reaching the peptidoglycan layer.

outer membrane is then permeabilized by acetone treatment, and the pink safranin counterstain is trapped by the peptidoglycan layer

.

Gram-positive and Gram-negative Bacteria

Prokaryotes and a Eukaryotic cell

Fimbriae and Pili

200 nm

Fimbriae

Figure 27.5

Allow bacteria to stick to their substrate or other individuals in a colony

Prokaryotic Flagella

About half of prokaryotes are motile

Prokaryotic FlagellaFlagellum

Filament

Hook

Cell wall

Plasmamembrane

Basal apparatus

50 nm

Generalized reproduction of a prokaryotebinary fission

conjugation

transformation

transduction

1

2

3

4

One cell passes DNA to another through a sex “pilus”

A bacteria takes up DNA from its liquid surroundings

Bacterial viruses carry portions of DNA from one bacteria to another

Like mitosis, DNA replicates and the bacteria divides

The major source of genetic variation in prokaryotes is mutation

Bacteria can share genetic material!!!!! Transformation

Bacteria can share genetic material!!!!! Conjugation

Bacteria can share genetic material!!!!! Transduction

Plasmids

Plasmids

Prokaryote Colonies in Culture

Endospores Bacillus anthracis Can remain viable in harsh

conditions for centuries

Oxygen Requirements Obligate aerobes

Must have oxygenCellular Respiration

Obligate anaerobesAre poisoned by oxygenFermentation or anaerobic respiration

Facultative anaerobesUse oxygen if it is availableNo oxygen – fermentation

Nitrogen FixationUse atmospheric nitrogen as a direct source of nitrogen.

N2 NH4+

One of the most independent organisms on earth: Cyanobacteria (Anabaena)

Cyanobacteria

Gloeothece Nostoc

Fischerella Calothrix

Basic Archaeal Shapes : At far left, Methanococcus janaschii, a coccus form with numerous flagella attached to one side. At left center, Methanosarcina barkeri, a lobed coccus form lacking flagella. At right center, Methanothermus fervidus, a short bacillus form without flagella. At far right, Methanobacterium thermoautotrophicum, an elongate bacillus form.

Archaea

Basic Archaeal Structure : The three primary regions of an archaeal cell are the cytoplasm, cell membrane, and cell wall. Above, these three regions are labeled, with an enlargement at right of the cell membrane structure. Archaeal cell membranes are chemically different from all other living things, including a "backwards" glycerol molecule and isoprene derivatives in place of fatty acids.

Archaea

The side chains in the phospholipids of bacteria and eukaryotes are fatty acids, chains of usually 16 to 18 carbon atoms. Archaea do not use fatty acids to build their membrane phospholipids. Instead, they have side chains of 20 carbon atoms built from isoprene.

Archaea

Archaebacteria Methanogens

Anaerobic bacteria (oxygen is a poison) Produce energy by converting H2 & CO2 into methane gas. Live in swamps & marshes

Extreme Halophiles

“Salt-loving" bacteria use salt to generate ATP for energy.

Thermoacidophiles: Live in extremely acidic environments (pH less than 2) extremely high temperatures (up to 110o C). e.g. geothermal springs at Yellowstone National Park.

Archaebacteria

Bacteria are the decomposers in ecosystems. Some bacteria are symbiotic and live in

association with other organisms. The bacteria that reside in the human intestinal

tract are mutualistic (both benefit); commensalistic (no harm, no benefit) bacteria reside on our skin; and parasitic (only they benefit, we suffer) bacteria cause a wide variety of diseases.

The cyanobacteria are photosynthetic in the same manner as plants.

Prokaryotes Crucial to the Environment

Importance to Humans Associated with good health – natural part of flora Nitrogen fixation Recycling nutrients

Sewage Treatment Decomposers, breaking down the remains of organic matter in dead

plant and animal waste. Used to help clean up environmental disasters caused by humans, such

as chemical and oil spills Foods and medicines

sour cream, yogurt, cottage cheese, sauerkraut and pickles, wine antibiotics

How bacteria cause disease Some bacteria produce toxins that can damage

cells. Endotoxin - made up of lipids and carbohydrates associated with the

outer membrane of gram-negative bacteria. These toxins are some of the strongest poisons known to man and cause violent reactions in host organisms.

Exotoxin - proteins produced inside gram-positive bacteria cells and secreted into the environment. These toxins usually produce fever, weakness, and capillary damage.

Some bacterial proteins cause hypersensitivity reactions which can result in serious illness.

Antibiotics

Penicillin was the first antibiotic. It is highly effective against Gram+ bacteria, but much less so against Gram- bacteria.

Attacks the sugars that hold the capsule together.

Many bacteria are resistant to antibiotics. High mutation rates and misuse of antibiotics has caused a serious health threat that continues to escalate.

Antibiotic Resistance When a population of bacteria is exposed to an Antibiotic,

the most susceptible DIE.

A Few Mutant bacteria that are resistant to the Antibiotic may continue to grow.

A Resistant Population then grows from these Mutant

Bacteria through reproduction and genetic recombination.

These new Population are Antibiotic-Resistant. This has resulted from the Over Use of Antibiotics. Many diseases that were once easy to treat are becoming more difficult to treat.

Antibiotics

Escherichia coli…bad or good?

E.Coli found in the intestines of most mammals, including humans

Synthesizes Vitamin B

Most strains harmless

E. Coli 0157:H7 - very toxic, found only in digestive tracts of corn-fed cattle

Believed to have gotten its toxicity by conjugation from Shigella

An estimated 73,000 cases of infection and 61 deaths occur each year in the United States alone

Toxin prevents mRNA production in eukaryotic cells- causes cell death

Adapted to an acidic environment- humans and corn-fed cattle, not grass-fed

Killed at 160 degrees F