lesson 2: microbial growth january 20, 2015. microbial growth microbial growth refers to the...
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Lesson 2:Microbial Growth
January 20, 2015
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Microbial Growth
• Microbial growth refers to the increase in the number of cells and not the cell size– As microbial cells increase, they form colonies.
• Colonies are groups of cells large enough to be seen without a microscope
– Population of microbial cells can grow incredibly large in a very short period of time
– Understanding the conditions necessary for growth we can determine how to control the growth of these organisms that eventually cause disease and food spoilage
• This lecture will examine the requirements for microbial growth and the methods of measuring this growth
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The Requirements for Growth
• Physical requirements– Temperature– pH– Osmotic pressure
• Chemical requirements– Carbon– Nitrogen, sulfur, and phosphorous– Trace elements– Oxygen– Organic growth factor
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Physical Requirements
• Temperature– Microorganisms can grow at a variety of different
temperatures • Most microbes grow at room temperature (20-25 C)
– Each bacterial species grows better or worse at particular temperatures• Minimum growth temperature• Optimum growth temperature• Maximum growth temperature
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• Microorganisms are classified into three “primary” groups based on their preferred range of temperature– Psychrophiles (cryophiles) prefer cold temperatures
(-15 to 10 C). Arthrobacter and psychrobacter– Mesophiles are moderate-temperature microbes
(20-45 C). Optimum growth at 37 C. Most bacterial species. Human pathogens are mesophiles.
– Thermophiles are heat-loving microbes (45-112 C). Thermus aquaticus
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Typical growth rates of different types of microorganisms in response to temperature.
PsychrophilesPsychrotrophs
Mesophiles
Thermophiles
Hyperthermophiles
What do you think is the cause for the immediate growth drop-off after the optimum growth temperature?
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Food Preservation Temperatures
• Refrigeration is the most common method of preserving food
• Psychrotrophs are microbes that are responsible for refrigerator food spoilage– Certain psychrophiles have an optimum temperature
slightly above a refrigerator’s temperature• Growth is not fully inhibited by the temps of the
refrigerator. • Growth is slow• Results in mold and slime on food surfaces, off-tastes, off-
colors, and odors (gases being produced by the microbe)
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Temperatures in this range destroy most microbes,although lower temperatures take more time.
Very slow bacterial growth.
Rapid growth of bacteria; some may produce toxins.
Many bacteria survive; some may grow.
Refrigerator temperatures; may allow slow growth of spoilage bacteria, very few pathogens.
No significant growth below freezing.
Danger zone
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The effect of the amount of food on its cooling rate in a refrigerator and its chance of spoilage.
Refrigerator air
5 cm (2 ) deep′′
15 cm (6 ) deep′′
Approximate temperature range at which Bacillus cereus multiplies in rice
*Safer to store smaller amounts of food*
*Fried Rice Syndrome*
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pH
• Most bacteria prefer neutral pH. Growth b/w pH 6.5 and 7.5– Acidic foods (sauerkraut and cheese) prohibits
growth of certain microbes• Most molds and yeasts are less susceptible to
growth inhibition than bacteria. Wider range of pH growth. Grow between pH 5 and 8– Acidophiles grow in acidic environments• Stomach (pH 1-5)is a conducive environment for
several pathogens (Helicobacter pylori)
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• Osmotic Pressure—pressure that is applied to a system to stop osmosis
• Hypertonic environments, or an increase in salt or sugar, causes plasmolysis in the cell– Plasmolysis—shrinkage
of cells cytoplasm
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• Plasmolysis inhibits the growth of the cell– Addition of salts (preservation) results in the
increase in osmotic pressure thus preventing growth of organisms• Removes all of the water from the cell
• Extreme or obligate halophiles REQUIRE high osmotic pressure– Found in salt water (Dead Sea or the Great Salt
Lake)• Facultative halophiles TOLERATE high osmotic
pressure
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Chemical Requirements
• Carbon– Serves as a structural backbone for organic
molecules that make up a living cell.• Chemoheterotrophs acquires their carbon from the
breakdown of organic compounds (proteins, carbohydrates, lipids). Incapable of carbon fixation• Chemoautotrophs acquire their carbon from CO2.
Capable of carbon fixation
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Chemical Requirements
• Nitrogen– Required to synthesize amino acids and DNA– Most bacteria decompose proteins (recycling) as
their source of nitrogen– A few bacteria, such as the photosynthetic
cyanobacteria, use atmospheric N2 in nitrogen fixation• Nitrogen fixation is the conversion of N2 to ammonia
(NH3). Ammonia is more chemically reactive than N2
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Chemical Requirements
• Sulfur– Used in the production of amino acids, thiamine,
and biotin– Most bacteria decompose proteins to generate
sulfur– Some bacteria use SO4
2– or H2S as sulfur sources
• Phosphorus – In DNA, RNA, ATP, and the phospholipids of
membranes– PO4
3– (phosphates) are a source of phosphorus
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Chemical Requirements• Oxygen– Final electron acceptor in Electron Transport Chain– Microbes that use molecular oxygen (aerobes)
extract more energy from nutrients than microbes that do not use oxygen (anaerobes)• Obligate aerobes require oxygen to live• Facultative aerobes can grow in the presence or
absence of oxygen• Obligate anaerobe unable to use oxygen for energy-
yielding reactions. Will not grow in presence of Oxygen
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Toxic Oxygen
• Molecular oxygen (O2) can be viewed as a poisonous gas due to its ability to cause damage in cells– Hydrogen atoms in cells are added to O2 to neutralize its
deleterious effects in the cell• Various types of oxygen radicals (unpaired electrons) are
collectively called reactive oxygen species (ROS)– Disrupt cell membranes; destroys lipids, proteins, and DNA
• Obligate aerobes, facultative anaerobes, aerotolerant aerobes, and microaerophiles contain enzymes to breakdown these ROS– Obligate anaerobes lack these enzymes
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• Superoxide free radicals: O2
• Peroxide anion: O22–
• Hydroxyl radical (OH•)
Toxic Oxygen
Superoxide dismutase (SOD)O2 + O2 + 2 H+ H2O2 + O2
Catalase2 H2O2 2 H2O + O2
PeroxidaseH2O2 + 2 H+ 2 H2O
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Table 6.1 The Effect of Oxygen on the Growth of Various Types of Bacteria
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Organic Growth Factors
• Organic compounds obtained from the environment– Cannot be synthesized by the organism
• Vitamins, amino acids, purines, and pyrimidines– Functions as coenzymes and building blocks for
other macromolecules
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Culture Media
• To identify and study bacterial growth patterns, bacteria must be isolated
• Isolated bacteria need an artificial growth environment to survive. Cultured Media.– Not all bacteria can be “cultured”– Some bacteria require special nutrients in order to
grow
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Culture Media
• Culture medium contains the nutrients needed for microbial growth– Different bacteria need their own set of nutrients
• Culture medium must be sterile: contains no living microbes
• Inoculum—microbes that are introduced into a medium for growth
• Culture—microbes growing in/on culture medium
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Culture Media
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Culture Media
• There are several different varieties of culture media– Chemically defined media—exact chemical
composition is known– Chemically undefined media—exact chemical
composition is not known• Complex media contain extracts and digests of yeasts,
meat, or plants
– Nutrient broth—liquid form of media– Nutrient agar—solid form of media
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Table 6.2 A Chemically Defined Medium for Growing a Typical Chemoheterotroph, Such as Escherichia coli
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Table 6.4 Composition of Nutrient Agar, a Complex Medium for the Growth of Heterotrophic Bacteria
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Anaerobic Culture Methods
• Cultivation of anaerobic bacteria poses a problem to scientists– Must absorb all the oxygen from
medium/environment in order to grow microbes• Reducing media– Contain chemicals (thioglycolate or oxyrase) that
combine O2 and removes all available oxygen– Usually contained in screw cap test tubes or jars– Media is heated before use to drive off O2
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Figure 6.6 A jar for cultivating anaerobic bacteria on Petri plates.
Lid with O-ring gasket
Envelope containing sodium bicarbonate and sodium borohydride
Anaerobic indicator (methylene blue)
Petri plates
Clamp with clamp screw
Palladium catalyst pellets
CO2H2
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Figure 6.7 An anaerobic chamber.
Arm ports
Air lock
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Capnophiles
• Microbes that require high CO2 conditions– Camplyobacter spp.
• CO2 packet– Chemical packets are used to generate carbon dioxide
within containers• Candle jar– Contains a lit candle that depletes the oxygen in an
environment and generates carbon dioxide
• Low-oxygen, high-CO2 conditions resemble the conditions of the intestinal and respiratory tract