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Summary for Exercise 1:
Microscopy Directions
Focus each slide of bacteria under the microscope using oil immersion.
Draw the arrangement of the bacterial cells in the larger portion of the circle and
draw the shape of a single bacterium in the smaller portion.
When finished, carefully clean each lens of the microscope using a Kimwipe.
Bacillus megaterium
Tot. Mag.
Streptococcus pyogenes
Tot. Mag.
Staphylococcus aureus
Tot. Mag.
Escherichia coli
Tot. Mag.
Exercise 1
Name: ______________________
Section: _______
Fomite Sampled Number of Colonies
Exercise 4
Name:______________________
Section:_______
Exercise 4: Microbes are Everywhere
Directions Swab an inanimate object at home and streak on TSA plate.
Summary for Exercise 4:
S. aureus Inoculation
Medium Used Observed Growth
(+/-)
nutrient broth
nutrient agar slant
nutrient agar deep
Sterile Medium Transfers
Medium Used Observed Growth
(+/-)
nutrient broth A
nutrient broth B
nutrient agar slant B
Exercise 5
Name:______________________
Section:_______
Aseptic Transfer Techniques
Directions Observe inoculated tubes for turbidity.
Compare results of sterile medium transfers to Staphylococcus aureus inoculation.
Summary for Exercise 5:
Smear Preparation and the Simple Stain
Directions Prepare two smears using organisms from your plate from home
Complete the simple stain and observe using the microscope
Draw the organisms below
Exercise 6
Name: ______________________
Section: _______
Summary for Exercise 11:
Simple Stain
Description of shape and
color:
Summary for Exercise 6:
Simple Stain
Description of shape and
color:
The Gram Stain
Directions Prepare a smear by mixing S. aureus and E.coli and perform the gram stain
Observe under microscope and record results below
Exercise 8
Name: ______________________
Section: _______
Description of shapes and
colors:
Summary for Exercise 8:
The Acid-Fast Stain
Directions Observe demonstration slide of Mycobacterium tuberculosis
Note the color of an acid-fast organism
Exercise 9
Name: ______________________
Section: _______
Description of shapes and
colors:
Summary for Exercise 9:
The Endospore Stain
Directions Observe demonstration slide.
Draw observations labeling the cell and endospore.
Exercise 10
Name: ______________________
Section: _______
Organism name
Summary for Exercise 10:
Bacterial Motility Studies
Directions Observe and draw the demo slide.
Draw other three types and label the flagella arrangements (monotrichous, amphitrichous, peritrichous,
lophotrichous).
Exercise 12
Name: _____________________________
Section: _______
Summary for Exercise 12:
Summary for Exercise 13:
Morphological Unknown Characterization
Directions
Prepare a gram stain of one of the five unknown bacteria. Determine which bacteria you stained.
Exercise 13
Name: _____________________________
Section: _______
G+ or G- ____________
Shape ______________
Arrangement______________________
Bacteria___________________________
_
Pure Culture Isolation Skills
Directions Streak plate using the quadrant method.
Observe demonstration and record growth as (+) or (-).
Determine each medium as non-selective, selective for Gram positive, or selective for Gram
negative.
Organism Nutrient
Agar
MacConkey
Agar
Phenylethanol
Agar
B. subtilis (gram +)
S. aureus (gram +)
E. coli (gram -)
Selectivity
Summary for Exercise 14:
Exercise 14
Name:______________________
Section:_______
Temperature and Bacterial Growth
Directions Observe the demonstration of bacteria exposed to different temperatures.
Mark the chart if there was growth (+/-) and star (*) if there was pigment production.
Categorize the organism as a pyschrophile, mesophile, or thermophile based on temperature growth.
Bacterial Culture 5°C 25° 37° 55° Temperature Categorization
Pseudomonas fluorescens
Escherichia coli
Staphylococcus aureus
Bacillus stereothermophilus
Serratia marcescens
Exercise 20
Name: _____________________________
Section: _______
Summary for Exercise 20:
Summary for Exercise 23:
Osmotic Pressure and Bacterial Growth
Directions Observe plates of E.coli and S. aureus. Determine Halobacterium based on the powerpoint slides.
Mark the chart if there was growth (+/-).
Categorize the bacteria as a non-halophile, halo/osmotolerant, or extreme halophile.
Exercise 23
Name: _____________________________
Section: _______
Organism 0.5% 5% 10% 25% Osmotic Category
Escherichia coli
Staphylococcus aureus
Halobacterium salinarium
pH and Microbial Growth
Directions Observe the demonstration of bacteria grown in various pH levels.
Mark if there was growth (+/-).
Classify each organism as a neutrophile, acidophile, or alkalophile.
Exercise 24
Name: _____________________________
Section: _______
Summary for Exercise 24:
Organism pH 3 pH 5 pH 7 pH 9 Classification
Staphylococcus aureus
Alcaligenes faecalis
Escherichia coli
Saccharomyces cerevisiae
Summary for Exercise 25:
BEFORE AFTER
# of Colonies
# of Types
Handwashing process:
The Importance of Handwashing
Directions Draw the colonies on your handwashing plate.
Describe your handwashing process and count the number and types of colonies on your plate.
Exercise 25
Name: _____________________________
Section: _______
Before After
Microbiology of Milk
Directions Count the number of colonies on a good plate and on a poor plate. Multiply by the dilution factor.
Determine if the number of colonies complies with the U.S. government milk standards.
Suggest what bacteria there might be in the milk.
Exercise 31
Name: _____________________________
Section: _______
Summary for Exercise 31:
GOOD MILK POOR MILK
# of Colonies (30-300)
Dilution
Bacteria per mL
Meets Standard? (Y/N)
Possible Bacteria
Fermentation of Carbohydrates
Directions Include the following in your summary:
o The definitions of glycolysis and fermentation
o The difference between homolactic and heterolactic fermentation
o What the Voges-Proskauer test and Phenol Red broth each measure
Exercise 34
Name: _____________________________
Section: _______
Summary for Exercise 34:
Chemical Control of Microorganisms
Directions
Streak plate with culture, divide into four quadrants, place chemical covered filter paper in each quadrant.
Measure zones of inhibition and record size for all four types.
Note in summary any relation between Gram reaction and susceptibility to chemicals.
Chemical Agent
Organism
Gram
Reaction
70%
Ethanol
Zephiran/
benzalkonium
chloride
Povidone
Iodine
Cepacol
cetylpyridium
chloride
S. aureus +
E. coli -
E. faecalis +
P. aeruginosa -
Exercise 40
Name: _____________________________
Section: _______
Summary for Exercise 40:
Antibiotic Sensitivity Testing
Directions
Measure and record zones of inhibition of antibiotic disks (diameter in mm). Classify and record bacterial
responses to each antibiotic as R (resistant), I (intermediate), or S (sensitive). Refer to chart on page 236.
Include in summary the most susceptible bacteria among Staphylococcus aureus, Escherichia coli, P.
aeruginosa, Enterococcus faecalis, and Klebsiella pneumoniae.
G+ Antibiotics Bacteria:
Ampicillin (AM10)
Penicillin (P10)
Oxacillin (OX1)
Cephalothin (CF30)
Clindamycin (CC2)
Carbenicillin (CB100)
Triple Sulfa (SSS1.0)
Gentamycin (GM10)
Tetracycline (TE30)
Erythromycin (E15)
Chloramphenicol (C30)
Streptomycin (S10)
G- Antibiotics Bacteria:
Ampicillin (AM10)
Gentamycin (GM10)
Chloramphenicol (C30)
Kanamycin (K30)
Nitrofurantoin(F/M300)
Cephalothin (CF30)
Streptomycin (S10)
Tetracycline (TE30)
Triple Sulfa (SSS1.0)
Carbenicillin (CB100)
Colistin (CL10)
Nalidixic (NA30)
Exercise 41
Name: _____________________________
Section: _______
Summary for Exercise 41:
UV Light Lethality and Photoreactivation
Directions Expose plates to treatments, wrap in tinfoil, and incubate until next class.
Count the number of colonies on each plate and record results.
Exercise 45
Name: _____________________________
Section: _______
Organism:
Treatment UV UV + PHR
0 min Plate # 1 Plate #5
1 min Plate # 2 Plate #6
2 min Plate #3 Plate #7
2 min + cover Plate #4
Summary for Exercise 45:
Staphylococci on Skin
Directions
Wet swab, sample the skin, and streak TSA and MSA.
Using a new swab, repeat for nares.
Record growth- number, size, and color. Yellow MSA medium indicates S. aureus.
Medium Skin Growth Observations Nares Growth Observations
TSA
MSA
Exercise 48
Name: _____________________________
Section: _______
Summary for Exercise 48:
Upper Respiratory Tract Culture
Directions
Record the demonstration hemolytic reaction (α, β, γ).
Compare to the results of your throat culture and determine the hemolytic reactions.
Bacteria Hemolytic Reaction
Streptococcus pneumoniae
Streptococcus pyogenes
Streptococcus mitis
Staphylococcus aureus
Throat Culture Growth
(# of colonies and color)
Hemolytic Reactions
Observed
Exercise 49
Name: _____________________________
Section: _______
Summary for Exercise 49:
Snyder Test for Dental Caries Susceptibility
Directions
Observe demonstration of Snyder Test tubes, note colors.
Indicate (X) in chart when the agar changes color at each level of susceptibility.
Susceptibility to Dental Caries
24 hours 48 hours 72 hours
Slight
Moderate
Marked
Exercise 52
Name: _____________________________
Section: _______
Summary for Exercise 41:
Board Process (Directions to write on the board.)
LAB 1
Exercise 1 Microscopy
1. Observe bacteria under the microscope using the oil immersion lens (100x).
2. Draw shape and arrangement of organism in your lab report and specify the total
magnification.
3. Repeat for other three organisms.
*Remember to wipe slide and lens clean with a KimWipe.
Staphylococcus aureus #4
Streptococcus pyogenes #3
Bacillus megaterium #9
Escherichia coli #5
[Numbers correspond with the colorful BACTERIA chart]
Exercise 4 Microbes are Everywhere
At Home:
1. Wet sterile swab with tap water
2. Rub swab on an inanimate object.
3. Streak swab on nutrient agar (TSA).
4. Incubate upside down (lid on bottom) at room temperature for one week.
Arrangement
Shape
S. aureus
LAB 2
Exercise 4 Microbes are Everywhere
1. Record the fomite you sampled and your observations.
2. Count and record the number and types of colonies on the plate from home.
Exercise 5 Aseptic Transfer
1. Flame loop and tube openings in between each transfer. Use needle to stab the deep.
2. Perform transfers as shown above.
Transfer Broth A to Broth B and Slant B.
Transfer S. aureus to Broth C, Slant C, and Deep.
Exercise 14 Pure Culture Isolation Skills
1. Observe demo and record growth.
2. Inoculate plate with mixed culture using the streak plate method. Remember to flame loop
between each quadrant.
Growth on Selective and Non-Selective Media
Organism Nutrient Agar MacConkey Agar Phenylethanol Agar
B. subtilis (gram +) + - +
S. aureus (gram +) + - +
E. coli (gram -) + + -
1 2
3 4
Broth A
Broth B
Slant B
Deep
Slant C
Broth C
Lab 3
Exercise 6 Smear Preparation and the Simple Stain
1. Sterilize inoculating loop and place small drop of water on slide.
2. Sterilize loop and mix a small loop of bacteria in water and spread
over 2/3 of slide. 3. Let air dry then heat fix slide.
4. Flood the slide with crystal violet for one minute. Then gently rinse with water until it runs clear. 5. Blot slide dry with a KimWipe and observe using oil immersion lens (100X) under microscope.
6. Repeat smear preparation and perform stain with safranin.
Exercise 11 The Capsule Stain
1. Observe demonstration slide or #8 on BACTERIA chart of Klebsiella pneumonia.
2. Label capsule, cell and background in lab report.
Lab 4
Exercise 8 The Gram Stain
1. Prepare a smear mixing both E. coli and S. aureus on slide. Remember to heat fix.
2. Flood slide with primary stain, crystal violet, for one minute. Gently rinse with water.
3. Flood slide with mordant, iodine, for one minute. Rinse with water.
4. Decolorize slide using acetone, rinsing continuously for no more than 15 seconds. Rinse with
water.
5. Flood slide with counterstain, safranin, for one minute. Rinse with water.
6. Blot dry with KimWipe and observe under microscope using oil immersion lens (100x).
-E. coli is a Gram negative rod.
-S. aureus is a Gram positive coccus.
Exercise 9 The Acid-Fast Stain
1. Observe demonstration slide or #25 on Microbiological Chart of Mycobacterium tuberculosis. 2. Specify colors of non-acid-fast versus an acid-fast organism.
Exercise 10 The Endospore Stain
1. Observe demonstration slide or #32 on Microbiological Chart of Clostridium tetani.
2. Label endospore and cell portions.
Lab 5
Exercise 12 Bacterial Motility Studies
1. With a partner, inoculate motility deeps with a single bacterium in each tube, using
Pseudomonas aeruginosa
Proteus vulgaris
Micrococcus luteus
2. Flame loop in between inoculations.
3. Incubate in cans at room temperature.
4. Observe demo slide of a flagella stain. Determine the flagellar arrangement.
Exercise 13 Morphological Unknown
1. Choose one of the five unknown cultures and prepare a smear.
2. Perform the Gram stain.
a) crystal violet (1 min)
b) iodine (1 min)
c) acetone (15 sec)
d) safranin (1 min)
3. Observe slide under microscope using the oil immersion lens. Determine bacteria type based
on Gram reaction, morphology, and cell arrangement.
Gram positive
Bacillus subtilis (rods in chains)
Staph. aureus (cocci in clusters)
Micrococcus luteus (cocci in tetrads and clusters)
Gram negative
E. coli (short rods)
Klebsiella pneumoniae (rods)
Lab 6
Exercise 12 Motility Studies
1. Observe motility deeps for growth.
2. Classify each bacteria as non-motile or motile (aerobic or facultative).
Exercise 20 Temperature and Bacterial Growth
1. Observe demonstration of bacteria incubated at 5°, 25°, 37°, and 55°C.
2. Record results in chart and classify each bacteria as psychrophile, mesophile, or thermophile.
Note temperature dependent pigment production.
Organism 5° C 25°C 37°C 55°C
S. aureus - + + -
B. stereotherm. - - - +
P. fluorescens + - - -
E. coli - + + -
S. marcescens - + (pigment) + (no pigment) -
Exercise 23 Osmotic Pressure and Bacterial Growth
1. Divide salt plate in half, labeling each side.
2. Streak one side with S. aureus and the other side with E. coli.
3. Put plate in incubator.
*Next week you will compare the growth on 0.5%, 5%, 10%, and
25% NaCl.
S. A. E. C.
Lab 7
Exercise 23 Osmotic Pressure and Bacterial Growth
1. Observe plates of 0.5, 5, 10, and 25% NaCl.
2. Record growth of E. coli and S. aureus.
3. Classify each organism, including Halobacterium salinarium, according to salt tolerance as
non-halophile, halo/osmotolerant, or halophile.
Organism 0.5% 5% 10% 25%
E. coli + + - -
S. aureus + + + -
Halobacterium
salinarium
- - - +
Exercise 24 pH and Bacterial Growth
1. Observe demonstration tubes of bacteria grown in pH 3, 5, 7, and 9.
2. Classify each organism as acidophile, neutrophile, or alkalophile.
Organism pH 3 pH 5 pH 7 pH 9
A. faecalis - - + +
E. coli - - + -
S. aureus - +/- + -
S. cerevisiae + + + -
Exercise 25 The Importance of Handwashing
1. Divide plate in half and label.
2. At home, press four fingers onto the BEFORE side.
3. Wash and dry hands as you normally do and then press the same four fingers onto the AFTER
side.
4. Incubate at room temperature and bring to lab next week.
Before After
POOR MILK
1:100,000 1:10,000
1 ml 0.1 ml
1:10,000,000 1:1,000,000
1 ml 0.1 ml
1 ml 1 ml 1 ml
1. Following diagram, make dilutions and plate proper amounts. Change pipettes according to
color.
2. Spread milk using glass beads. When finished, dump glass beads in orange cans.
3. Place plates in incubator and make sure they are labeled with name and dilution.
Lab 8
Exercise 25 Handwashing
1. Count the number and types of colonies before and after handwashing.
2. Describe how you washed/dried your hands and how you could improve.
Exercise 34 Fermentation of Carbohydrates
1. At home, review powerpoint slides.
2. Study the Summary Slide and use this to write your conclusion.
3. Complete the lab report questions and conclusion.
Exercise 31 Microbiology of Milk
GOOD MILK
1 ml 0.1 ml
1 ml
1:10 undiluted 1:1,000 1:100
1 ml 0.1 ml
Lab 9
Exercise 31 Microbiology of Milk
1. Choose a plate with 30 to 300 colonies.
2. Multiply the number of colonies by dilution factor. This gives you the bacteria per ml.
3. Does the milk pass the U.S. government standard for pasteurized milk?
55 colonies x 100 (dilution factor) = 5500 bacteria/ml
Exercise 40 Chemical Control of Microorganisms
1. Streak plate with one of the four bacteria.
2. Divide plate into four quadrants and label B, CP, 70, I.
3. Dip paper disk into each chemical agent and then place the
disk in the labeled quadrant.
4. Place in incubator with disks facing up.
Exercise 45 UV Light Lethality and PHR
1. Evenly streak plate with assigned bacteria. (S. aureus or E. coli)
2. Perform treatment according to plate number.
3. Wrap all plates in aluminum foil after finishing treatment and then place in incubator.
Plate # Treatment
1 UV, 0 min
2 UV, 1 min
3 UV, 2 min
4 UV, 2 min (cover on)
5 UV, 0 min + PHR, 1 min
6 UV, 1 min + PHR, 1 min
7 UV, 2 min + PHR, 1 min
CP
I B
70
*Remember to stab in quadrant 2
Lab 10
Exercise 40 Chemical Control of Microorganisms
1. Measure zones of inhibition for each chemical on each plate (diameter in mm).
2. Which disinfectant was most effective for G- bacteria?
3. Which was most effective for G+ bacteria?
S. aureus G+
E. faecalis G+
E. coli G-
P. aeruginosa G-
Exercise 45 UV Light Lethality and PHR
1. Count the number of colonies on each plate.
2. Determine the effects of UV light and photoreactivation.
Plate # Treatment Sample Results
1 UV, 0 min TMTC
2 UV, 1 min 98
3 UV, 2 min 13
4 UV, 2 min (cover on) TMTC
5 UV, 0 min + PHR, 1 min TMTC
6 UV, 1 min + PHR, 1 min 298
7 UV, 2 min + PHR, 1 min 44
Exercise 48 Skin/Nares
1. Divide TSA and MSA plates and label. 2. Wet swab in drinking fountain, sample nares and streak on half of each plate.
3. Repeat for skin using a new swab.
Exercise 49 Upper Respiratory Tract
1. Moisten sterile swab in water.
2. Sample tonsils with swab using tongue depressor. Avoid contact with teeth or tongue.
3. Streak sample onto sheep blood agar.
skin nares
Lab 11
Exercise 48 Skin/Nares
1. Observe TSA and MSA plates for growth.
2. Which plate grew the greatest variety of bacteria?
3. Do you have any S. aureus on your plate?
4. Observe demonstration plates and record observations.
Exercise 49 Upper Respiratory Tract
1. Observe sheep blood agar of the throat culture.
2. Compare to demonstration plates and determine any hemolytic reactions on your plate.
β clear halo (full hemolysis of red blood cells)
α green colonies (partial lysis)
γ creamy colonies (no lysis)
Exercise 41 Antibiotic Sensitivity Testing
1. Measure zones of inhibition (diameter in mm) on bacterial plate.
2. Using chart on page 236, determine the response of the bacteria as resistant (R), intermediate
(I), or sensitive (S).
3. Compare antibiotic resistance between G- and G+ bacteria.
Exercise 52 Snyder Test
Observe demonstration tube.
Susceptibility to Dental Caries
24
hours
48
hours
72
hours
Slight X
Moderate X
Marked X