Transcript Bacteria Powerpoint #3
Kingdom Monera - Bacteria
Reproduction and Ecological Roles
www.onacd.ca
Bacterial Reproduction
Asexual reproduction:
BINARY FISSION
BUDDING
Binary Fission
1 . A single bacterial cell begins to make copies of its genetic material 3. The cell membrane grows inward and separates the cells. The cells are genetically identical to one another .
2. The cell membrane begins to elongate and pulls the genetic material in two different directions
Most bacterial cells will grow to a fixed size and will then reproduce by binary fission Note: equal division of cytoplasm and genetic material
Bacterial cells undergoing different stages of binary fission
Budding
• Results in uneven division of cytoplasm and even division of nuclear material • More common with fungi, not bacteria
Benefits and disadvantages of sexual and asexual reproduction Asexual Sexual Pros
Only 1 organism is necessary -very efficient (20 min life cycle) Exchange of DNA, therefore high diversity
Cons
Get exact copy (clone) therefore, no species diversity and 1 thing will kill all the bacteria If there is only 1 individual, it will die with no offspring
Conjugation – Sexual Reproduction
A primitive form of
sexual reproduction
where there is
exchange of chromosome
(red) material (
genetic material
) between two bacterial cells through a structure called a
pili
.
Enlarged Examples of bacteria that are known to undergo conjugation include
: E. coli, Salmonella
Studying bacteria
• Labs use 2 different growth mediums. (substances that bacteria grow in)
Petri dish containing agar
• Bacteria are “streaked” across agar – gelatinous substance made from algae
Innoculating loop used to transfer bacteria to the agar plate
“ Slant Test tube” containing agar with bacteria growing on the surface
• Nutrient broth
Nutrient broth
• Test-tubes filled with: • Blood • Beef juice • Other stuff
Ecological Roles of Bacteria
• nitrogen fixation in the soil next the roots of some plants. -plants obtain an easily absorbable form of nitrogen needed for growth.
• degrade some organic compounds -aid in cleaning up oil spills
Beneficial Roles of Bacteria
• symbionts in humans and other organisms. • over 1000 types of bacteria in the average human stomach and intestines that contribute to: -immunity, vitamin absorption and synthesis, nutrient conversion and fermentation.
(probiotic supplements contain many of these bacteria..)
Beneficial Roles of Bacteria
• Used in preparation of fermented foods ex. Yogurt, cheese, soy sauce… • Used in the study of genetics, molecular biology and biochemistry because of their ability to reproduce so quickly
Some beneficial bacteria
• Escherichia coli – produces vitamin K in large intestine – necessary for blood clotting • Lactobacillus – yogourt • Streptococcus – to sour milk • Clostridium acetobutylicum – to make acetone and butanol at an industrial scale
Antibiotics made by bacteria
• Streptomyces – make antibiotics including: • Amphotericin • Kanamycin • Neomycin • Streptomycin • Tetracycline
Harmful bacteria - Pathogenic
• Tuberculosis • Meningitis • Botulism • Cholera • Syphilis • Gonorrhea • Diphtheria • Black plague • Gangrene
Treatments for Bacterial Infections
• 1. Antitoxin – to neutralize a chemical made by bacteria that produce toxins - ie. Botulism • 2. Antibiotics – chemicals produced by other organisms that kill the bacteria in a form of chemical warfare - ie. Penicillin (a fungus) makes antibiotics
• 3. disinfectant – to kill all bacteria on surfaces • 4. antiseptic – to kill most bacteria on the body surface
Other ways to slow down growth or kill bacteria in food
• 1. Keep cold/freeze – slow down metabolism • 2. Can – keep air out – slows growth – heat kills enzymes • 3. Dry – take away water – needed for metabolism • 4. Cure – the salt draws away moisture from the food – the smoking dries the food
• 5. Preservatives – chemicals that kill bacteria • 6. Salt – draw away moisture • 7. Sugar – draw away moisture
Effective use of antibiotics
• Take only when necessary – don’t work on viruses • Take for total length of time – endospores (protective coat) forms around bacteria for protection and when the conditions are good again, the bacteria becomes active again • Take complete dose or else you increase risk of antibiotic resistant bacteria
Antibacterial Agents and Resistance
www.onacd.ca
Antibiotics
Penicillium fungi : produces the antibiotic penicillin
Definition: a substance produced by a microorganism that restricts the growth of another microorganism
Where do antibiotics come from?
• many are produced from other living organisms example. Penicillin is collected from the fungi penicillium
(above)
Streptomycin comes from the bacteria streptomyces • some antibiotics are modified chemically and some are produced synthetically
How do antibiotics work?
Antibiotics that target a wide range of bacteria are termed broad spectrum. Those that target a narrow range are termed narrow spectrum.
Above: Wafers containing antibiotics are placed on an agar plate of bacteria. The cloudy areas show bacterial growth. Circles of poor bacterial growth show that bacteria will not grow in the presence of that antibiotic.
Some antibiotics actually destroy bacteria (inhibit cell processes) whereas others keep the bacterial cell from reproducing (inhibit binary fission)
Antibiotic Resistance
Failure to take entire prescribed dosages of antibiotics can lead to the growth of antibiotic resistant bacteria.
As close as possible to 100% of harmful bacteria must be killed off when taking a round of antibiotics. If not, the surviving bacteria will most likely carry genes that are resistant to the initial antibiotic and will then begin to multiply.
Improper usage and dosaging of antibiotics also contributes to the appearance of resistant bacteria.
When antibiotics are administered when they are not needed we are exposing more bacteria to selection for resistance.
NOTE: Remember as well that the genes for antibiotic resistance can also be transferred to other normal bacteria through the conjugation
.
Staphylococcus aureus
bacteria are one of the types of bacteria normally found existing on human skin surface. They are capable of causing skin infections in those with weakened immune systems.
(see picture to left)
Skin infections caused by these bacteria were treated successfully in the 1940’s and 50’s with penicillin. Presently, almost all strains are resistant to penicillin which leaves only a small section of drugs (vancomycin) to treat it. The picture to the left shows a new form of
S.aureous
to vancomycin.
that is beginning to show resistance
Antiseptics
Definition: Antimicrobial substances that are applied to living tissue (skin) to inhibit the growth of bacteria • Some destroy bacteria (germicides) and some inhibit the growth of bacteria • Overuse can lead to increased dangerous resistant strains of bacteria
Common Types of Antiseptics
Alcohol (surgical alcohol)
– Used to disinfect skin before injections are given
Boric Acid
– Used in yeast infection treatments, cold sore medications, burn cream and eye contact solution (although not very effective)
Chlorhexidine Gluconate
– Used in gingivitis treatment
Hydrogen peroxide
– Used for cleaning of wounds (although antibacterial soap and water is actually more effective)
Iodine
– Used in pre and post operative cleaning and has a very wide scope of antimicrobial activity
Phenol compounds
– Used in pre operative hand washing, mouth washes and throat lozenges
Natural antiseptics
– Includes saliva, tears, breast milk and gastric acids
Disinfectants
Definition: antimicrobial agents applied to non-living objects that destroy microorganisms
(including bacteria)
• Many disinfectants are harmful (toxic) to humans, animals and the environment • Overuse can lead to resistant strains of bacteria
Common Types of Disinfectants
Alcohol
• Wide spectrum, highly effective and non-corrosive but are a fire hazard
Oxidizing Agents
(ex. Chlorine, peroxide, iodine…) • Destroys the cell membrane of bacteria • Commonly used in • Bleach, swimming pool cleaners, drinking water treatment…)
UV light
• Can be used in dental tool disinfection or for cleaning any other non-porous surfaces