Culture Media & Culture Methods PDF

Summary

This document discusses culture media and culture methods, including various types, uses, and characteristics. It explains how to grow and isolate bacteria, emphasizing the importance of culture media in microbiology experiments.

Full Transcript

CULTURE MEDIA &
CULTURE METHODS
§ Bacteria have to be grown (cultured) for them
to be identified.
§ By appropriate procedures they have to be
grown separately (isolated) on culture media
and obtained as pure for study.
History
§ The original media used by Louis Pasteur –
urine or meat broth
§ Liquid medium – diffuse growth
§ Solid medium – discrete colonies.
CULTURE MEDIA
— artificially prepared media which contains
all essential nutrients to provide for
growth and multiplication of particular
microorganism.
 CULTURE MEDIA
- are nutrient solutions or solid preparations
used to grow, support, and sustain
microorganisms such as bacteria, fungi, or
cells in laboratory settings
- provide essential nutrients like carbohydrates,
proteins, vitamins, minerals, and growth factors
necessary for microbial growth
- Culture media can be categorized based on their
composition, use, and properties into general-
purpose, selective, differential, or enriched media,
depending on the specific needs of the
microorganisms being cultured
Common Types of CULTURE MEDIA
General-purpose media: Support the growth of a
wide range of microorganisms (e.g., Nutrient Agar).
Selective media: Promote the growth of certain
microorganisms while inhibiting others (e.g.,
MacConkey Agar).
Differential media: Distinguish between organisms
based on metabolic activity (e.g., Blood Agar).
Enriched media: Contain additional nutrients to
support the growth of fastidious organisms (e.g.,
Chocolate Agar).
 Culture Medium Category Uses/Indications
Culture Medium Category Uses/Indications
Used for the growth
Buffered Charcoal Yeast Enriched
Used for the cultivation of non- of Legionella species and
Extract (BCYE)
fastidious bacteria. Supports the other fastidious organisms.
Nutrient Agar (NA) General-purpose
growth of a wide variety of Used to cultivate anaerobic
microorganisms. and microaerophilic
Thioglycollate Broth Enriched
Used for the growth of fastidious organisms; supports the
organisms and to detect hemolytic growth of obligate anaerobes.
Blood Agar (BA) Enriched, Differential
activity (alpha, beta, or gamma Used for the growth of a
hemolysis). wide variety of non-fastidious
Tryptic Soy Agar (TSA) General-purpose
Selective for Gram-negative bacteria organisms; commonly used
and differentiates between lactose for general bacterial culture.
MacConkey Agar (MAC) Selective, Differential fermenters (pink colonies) and non- Selective
lactose fermenters (colorless
for Mycobacterium species,
colonies). Lowenstein-Jensen (LJ)
Selective particularly M. tuberculosis;
Medium
Selective for Gram-negative bacteria contains inhibitors for other
Eosin Methylene Blue (EMB) and differentiates lactose fermenters bacteria.
Selective, Differential
Agar (dark colonies, often with metallic
sheen) from non-fermenters. Used to
enrich Salmonella species
Selenite F Broth Enrichment
Supports the growth of fastidious from stool samples before
Chocolate Agar (CA) Enriched organisms, such as Haemophilus plating on selective media.
influenzae and Neisseria species. Selective
for Campylobacter species;
Selective for Staphylococcus species CAMPY-BAP Agar Selective
contains antibiotics to inhibit
(high salt concentration) and
Mannitol Salt Agar (MSA) Selective, Differential differentiates S. aureus (mannitol
other intestinal flora.
fermenter, yellow colonies) from Selective for Enterococci and
other staphylococci (red colonies). Group D Streptococci;
Bile Esculin Agar (BEA) Selective, Differential
hydrolysis of esculin turns
Used for the selective isolation the medium black.
Thayer-Martin Agar Enriched, Selective of Neisseria gonorrhoeae and Neisseria
meningitidis.
Used for the isolation
of Corynebacterium
Selective for fungi (yeasts and diphtheriae; differentiates
Sabouraud Dextrose Agar molds); inhibits bacterial growth due Tinsdale Agar Selective, Differential
Selective based on the production of
(SDA) to low pH and high glucose
concentration.
black colonies due to tellurite
reduction.
Selective for Gram-negative enteric Differentiates bacteria based
Xylose Lysine Deoxycholate pathogens and
Selective, Differential on their ability to ferment
(XLD) Agar differentiates Salmonella (black Triple Sugar Iron (TSI)
colonies) and Shigella (red colonies). Differential glucose, lactose, or sucrose
Agar
and produce hydrogen sulfide
Selective for Pseudomonas aeruginosa; (H₂S).
Cetrimide Agar Selective enhances pigment production
in Pseudomonas species.
Used to isolate and
differentiate Salmonella (black
Hektoen Enteric Agar (HEA) Selective, Differential colonies) and Shigella (green
colonies) from other enteric
organisms.
General Characteristics of culture
Media
ØMust give satisfactory and rapid
growth from single culture
ØShould maintain pH during storage
ØReasonably cheap and easily available
ØMaintain sterility through expt.
 USES OF MEDIA
üCultivation and isolation
üIdentification
üSterility test
üPreservative efficacy test
üEvaluation of disinfectant
üTo check the antimicrobial
susceptibility
Colony – macroscopically visible collection of
millions of bacteria originating from a single
bacterial cell.

— Cooked cut potato by Robert Koch – earliest
solid medium
— Gelatin – not satisfactory
- liquefy at 24oC
Agar
— Fannie Hesse
— Used for preparing solid medium
— Obtained from seaweeds.
— No nutritive value
— Not affected by the growth of the bacteria.
— Melts at 98oC & sets at 42oC
— 2% agar is employed in solid medium
 Types of culture media
I. Based on their consistency
a) solid medium
b) liquid medium
c) semi solid medium
II. Based on the constituents/ ingredients
a) simple medium
b) complex medium
c) synthetic or defined medium
d) Special media
Special media
◦ Enriched media
◦ Enrichment media
◦ Selective media
◦ Indicator media
◦ Differential media
◦ Sugar media
◦ Transport media
◦ Media for biochemical reactions

III.Based
on Oxygen requirement
- Aerobic media
- Anaerobic media
Solid media – contains 2% agar
§ Colony morphology, pigmentation, hemolysis can be
appreciated.
§ Eg: Nutrient agar, Blood agar

Liquid media – no agar.
§ For inoculum preparation, Blood culture, for the
isolation of pathogens from a mixture.
§ Eg: Nutrient broth

Semi solid medium – 0.5% agar.
§ Eg: Motility medium
Microbiological Media
— Liquid (broth) vs. semisolid media
◦ Liquid medium
– Components are dissolved in water and
sterilized
◦ Semisolid medium
– A medium to which has been added a gelling
agent
– Agar (most commonly used)
– Gelatin
– Silica gel (used when a non-organic gelling
agent is required)
Solid medium Semi solid media

Liquid media
Simple media / basal media
- Eg: Nutrient broth, Nutrient agar
- NB consists of peptone, meat extract, NaCl,
- NB + 2% agar = Nutrient agar
 Simple media / basal media

— Substances such as blood, egg, serum are
added to the basal medium
— Used to grow bacteria which are more
exacting in their nutritional needs
— Example:
Blood agar – hemolytic properties
Chocolate agar – to supply blood factors
like X factor (Hemin) and V factor (NAD)
Complex media
— Media other than basal media.
— They have added ingredients.
— Exact chemical composition of ingredients of
culture medium is not known
— Widely used for the cultivation of bacteria for
diagnostic purposes
— Provide special nutrients
— highly nutritious substances.
Synthetic or defined media
— Media prepared from pure chemical substances
and its exact composition is known
— precise amounts of highly purified chemicals
— Eg: peptone water – 1% peptone + 0.5% NaCl in
water
 Synthetic or defined media

— Prepared from pure chemical substances and
the exact composition of the medium is
known
— Used for various special studies such as
metabolic requirements
— Example: Dubo’s medium
Enriched media
§ Substances like blood, serum, egg are added to
the basal medium.
§ Used to grow bacteria that are exacting in
their nutritional needs.
§ Eg: Blood agar, Chocolate agar
Blood agar Chocolate agar
Enrichment media
§ Liquid media used to isolate
pathogens from a mixed culture.
§ Is used to encourage the growth of a
particular microorganism in a mixed
culture
§ Media is incorporated with
inhibitory substances to suppress the
unwanted organism.
§ Eg:
◦ Selenite F Broth – for the isolation of
Salmonella, Shigella
◦ Alkaline Peptone Water – for Vibrio
cholerae
Selective media
— The inhibitory substance is added to a solid media.
— Contains one or more agents that inhibit the growth of
a certain microbe and thereby encourages, or selects, a
specific microbe
E.g.:
— Mannitol Salt Agar [MSA] encourages the growth of
Staphylococcus aureus. MSA contain 7.5% NaCl which
inhibit the growth of other Gram +ve bacteria
— MacConkey’s medium for gram negative bacteria
— TCBS – for Vibrio cholerae
— Lowenstein Jensen medium – Mycobacterium tuberculosis
— Wilson and Blair medium – Salmonella Typhi
— Potassium tellurite medium – Diphtheria bacilli
Potassium Tellurite media LJ media
Mac Conkey’s medium TCBS
Indicator media
— These media contain an indicator which
changes its color when a bacterium grows in
them.
— E.g.:
◦ Blood agar
◦ MacConkey’s medium
◦ Christensen’s urease medium
Differential media
§ A media which has substances incorporated in
it enabling it to distinguish between bacteria.
§ E.g.: MacConkey’s medium
◦ Peptone
◦ Lactose
◦ Agar
◦ Neutral red
◦ Taurocholate
§ Distinguish between lactose fermenters & non
lactose fermenters.
 § Lactose fermenters – Pink colonies
§ Non lactose fermenters – colourless colonies

Mac Conkey’s medium
Sugar media
§ Media containing any fermentable substance.
§ Eg: glucose, arabinose, lactose, starch etc.
§ Media consists of 1% of the sugar in peptone
water.
§ Contain a small tube (Durham’s tube) for the
detection of gas by the bacteria.
Transport media
§ Media used for transporting
the samples.
§ Delicate organisms may not
survive the time taken for
transporting the specimen
without a transport media.
§ Eg:
◦ Stuart’s medium – non nutrient
soft agar gel containing a
reducing agent
◦ Buffered glycerol saline – enteric
bacilli
 CULTURE METHODS
— Culture methods employed depend on the purpose for
which they are intended.
— The indications for culture are:
◦ To isolate bacteria in pure cultures.
◦ To demonstrate their properties.
◦ To obtain sufficient growth for the preparation of
antigens and for other tests.
◦ For bacteriophage & bacteriocin susceptibility.
◦ To determine sensitivity to antibiotics.
◦ To estimate viable counts.
◦ Maintain stock cultures.
Culture methods include:
§ Streak culture
§ Lawn culture
§ Stroke culture
§ Stab culture
§ Pour plate method
§ Liquid culture
§ Anaerobic culture methods
STREAK CULTURE
— Used for the isolation of bacteria in pure
culture from clinical specimens.
— Platinum wire or Nichrome wire is used.
— One loopful of the specimen is transferred
onto the surface of a well dried plate.
— Spread over a small area at the periphery.
— The inoculum is then distributed thinly over
the plate by streaking it with a loop in a series
of parallel lines in different segments of the
plate.
— On incubation, separated colonies are
obtained over the last series of streaks.
A petri plate with bacterial growth showing the distinction
between isolated colonies and non-isolated colonies.
A three sector T streak of Serratia marcescens
grown on trypticase soy agar. This illustrates a
streak plate which has many isolated colonies.
This plate illustrates a streak plate which did not achieve
isolation, and which would not be considered a good
streak plate example
LAWN CULTURE
— Provides a uniform surface growth of the
bacterium.
— Uses
◦ For bacteriophage typing.
◦ Antibiotic sensitivity testing.
◦ In the preparation of bacterial antigens and
vaccines.
— Lawn cultures are prepared by flooding the
surface of the plate with a liquid suspension of
the bacterium.
Lawn Culture - Antibiotic sensitivity testing
STROKE CULTURE
— Stroke culture is made in
tubes containing agar slope /
slant.

— Uses
◦ Provide a pure growth of
bacterium for slide
agglutination and other
diagnostic tests.
STAB CULTURE
— Prepared by puncturing a suitable medium –
gelatin or glucose agar with a long, straight,
charged wire.
— Uses
◦ Demonstration of gelatin liquefaction.
◦ Oxygen requirements of the bacterium
under study.
◦ Maintenance of stock cultures.
Gelatin liquefaction Oxidation – Fermentation
medium
POUR PLATE CULTURE
— Agar medium is melted (15 ml) and cooled to
45oC.
— 1 ml of the inoculum is added to the molten
agar.
— Mix well and pour to a sterile petri dish.
— Allow it to set.
— Incubate at 37oC, colonies will be distributed
throughout the depth of the medium.
— Uses
◦ Gives an estimate of the viable bacterial count in a
suspension.
◦ For the quantitative urine cultures.
LIQUID CULTURES
— Liquid cultures are inoculated by touching
with a charged loop or by adding the inoculum
with pipettes or syringes.
— Uses
◦ Blood culture
◦ Sterility tests
◦ Continuous culture methods
— Disadvantage
◦ It does not provide a pure culture from
mixed inocula.
Blood culture bottles