Unit 9 Bacteria and Viruses
What are the characteristics of Bacteria? Smallest and simplest living thing Have no organelles, including no nucleus (meaning it’s a prokaryote, remember?!?) Genetic material is in a simple circular chromosome They do have cell calls that protect them from outside pressure. They can be transmitted through air, water, human contact, contaminated food
Bacteria shapes Coccus: are round Bacillus: rod shaped Spirillum: spirals
Arrangements Diplo:Pairs Staphylo: clusters Strepto: Chains
Feeding Requirements Some are heterotrophs and live as parasites. Some feed on dead material, called saprobes. Some are photosynthetic and are autotrophs
Types of Metabolism Obligate anaerobes- killed in presence of oxygen. Obligate aerobes: require oxygen to live Facultative aerobes: can live with or without oxygen.
Reproduction Adaptations Bacteria
Endospores They are hard outer covering produced during harsh environmental conditions Resistant to drying out and boiling. Metabolism slows down inside the endospore while in the extreme environment. Bacteria resumes growing when conditions are more favorable.
Toxin Production As an endospore begins to grow, some bacteria produce poisons. Some of these toxins are deadly. These toxins can also kill off other bacteria that are helpful Examples: Botulism (food poisoning); tetanus (lock jaw)
Common Diseases Caused by Bacteria Section 19-2 Disease Pathogen Prevention Tooth decay Lyme disease Tetanus Tuberculosis Salmonella food poisoning Pneumonia Cholera Streptococcus mutans Borrelia burgdorferi Clostridium tetani Mycobacterium tuberculosis Salmonella enteritidis Streptococcus pneumoniae Vibrio cholerae Regular dental hygiene Protection from tick bites Current tetanus vaccination Vaccination Proper food-handling practices Maintaining good health Clean water supplies Go to Section:
Binary Fission Reproduce asexually by splitting in half after copying DNA This is a fast process. Why will these bacteria stop reproducing? Run out of food Dry up Poisoned by own waste
Conjugation Sexual reproduction that transfers all or part of the DNA between 2 bacteria. The sex pilli structure is used to transfer DNA. When threatened the bacteria will choose to reproduce in this method. **Conjugation is what makes bacteria resistant to changes, mainly because this is when mutations would occur in the DNA to cause these beneficial changes.
Helpful Uses Nitrogen Fixation-some bacteria convert nitrogen gas into nitrates in the soil which is necessary for plant growth. Saprobes: break down organic food/material
Helpful Uses Food: food flavors are produced by fermentation and bacterial wastes. b. vinegar, yogurt, butter, cheese, pickles, buttermilk Some bacteria even produce antibiotics that kill other bacteria ONLY ANTIBIOTICS CAN KILL BACTERIA!!!!
Harmful Bacteria- Pneumonia-inflammation of lungs(can be from a bacteria, virus, or fungus). Conjunctivitis “Pink Eye ” Infects outermost layer of eye(Conjunctiva) can be viral(cold) or bacterial(staph or strep), or allergies Contagious
Harmful Bacteria- Leprosy Skin lesions , nerve damage Mycobacterium Difficult to transmit; Leper colonies not neccessary 100 cases a year in U.S.(south, Ca, Hawaii) Have medicine now
Harmful Bacteria- Digestive Stomach Virus (24 hour)- most of time it is not a virus but a bacteria from food poisoning. Botulism- Food poisoning- Clostridium botulinum; endospore, a. infants- don’t give homemade honey ; canning (boil at high temp) b. Pasteurization- heating process to prevent contamination of milk. 3. Salmonella enterocolitis- infection in small intestine by Salmonella bacteria. Any food can have it.
Lyme Disease-Harmful Bacteria Borrelia burgdorferi- transferred by a deer tick Skin rash, inflammation, flu-like symptoms
Harmful Bacteria- Anthrax Bacillus anthracis Spore-forming Occurs in cattle, sheep, humans Inhale it or handle contaminated animal products Symptoms show within 7 days
Harmful Bacteria-Skin Diaper Rash- bacteria from feces Scarlet Fever- skin rash- group A streptococci 3. Acne- oil blocks & bacteria grow
Harmful Bacteria- Respiratory Strep Throat- infection of pharynx with Streptococcus. Spread-nasal or saliva Sinusitis- inflammation of sinuses(hollow spaces within the bones around your nose) Pertussis- Whooping Cough-like cold except coughing spells. Bordetella pertussis
Viruses
Characteristics of Viruses Tiny, non-living particles Do not respire, move or grow Cannot reproduce on their own Most reproduce inside of a host cell. They can cause people to have infections that can last 7-10 days. Viruses are not given Latin names; named for Disease caused Organ infected Region detected in
Viral Structure Consist of 2 basic parts: 1. nucleic acid 2. protein coat Capsid: protein coat containing inner core of DNA and RNA They may have tail fibers and projections as structures to aid in attachment Some have an extra outer layer called an envelope.
Viral recognition and attachment Virus must recognize specific receptor site on host cell Part of virus matches site on host Lands on host and “locks in” Attachment is specific: virus can enter and reproduce in only a few types of cells Ex. HIV- WBC Ex. Flu- Respiratory tract Ex: tobacco mosaic virus- tobacco plant Ex. T4 Bacteriophage- virus that infects bacteria
Examples of Viruses Influenza (bird flu; swine flu) HIV West Nile ebola
Compare and contrast Viruses vs. Living organisms
Viral Reproduction Viruses MUST reproduce inside a host cell. They are classified as intracellular parasites. Method of entry into host cell depends on the virus. 2 main types of viral reproduction: 1. lytic cycle 2. lysogenic cycle
Lytic Cycle Viral DNA takes over host nucleus, produces new viruses, the cell fills with new viruses, at the end the cell bursts and dies!
Lytic Cycle continued Attachment: virus attaches to cell surface. Entry: injects DNA, takes over host nucleus Replication: reproduces virus parts Assembly: puts virus parts together into mature viruses Lysis and release: cell splits open releasing viruses that can infect others.
Lysogenic Cycle Virus attacks cells, but does not kill immediately. Viral DNA is mixed with host DNA like lytic cycle. Does not immediately begin to reproduce, the host may function normally while viruses stay dormant. Provirus can pop out at any time and begin reproducing. Example: herpes-cold sores, fever blisters
Steps of Lysogenic cycle Attachment: attaches to cell surface Entry: DNA enters bacterial cell Integration: DNA integrates into bacterial DNA Replication: replicates when bacterial DNA replicates.