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BACTERIAL IDENTIFICATION METHODS. CHAPTER 3. Content. Purification of cultures Morphological and pure culture studies Biochemical tests. Purification of cultures. Reason to purify cultures. To characterize an individual species.
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BACTERIAL IDENTIFICATION METHODS CHAPTER 3
Content • Purification of cultures • Morphological and pure culture studies • Biochemical tests
Purification of cultures Reason to purify cultures. • To characterize an individual species. • To study the morphology and physiology of individual bacterial species • To study their biochemical behavior and response. To purify, pure cultures techniques can be used.Method: • Streak plate method • Pour plate method • Spread plate method
Important procedure!! Need to have a control procedure to avoid contamination. • Specimen collection • Preparation of media • Microbiological tecniques • Staining and reagents • Equipment used.
Specimen Collection • Applied the sterile techniques • Use correct media for transportation and stock. • The transport media used to preserve and ensure the viability of bacteria during the transportation period • Important! Label your specimen. • Crucial for cerebrospinal fluid, blood culture and fecal specimens, etc.
Using sterile techniques • Bacteria are everywhere • Media used for bacteria growth welcoming for many bacteria • We only want specific ones to grow Sterile techniques • Sterile remain sterile as long as doesn’t touch anything that isn’t sterile • Also avoid prolonged exposure to air
Aseptic Technique: These are various techniques that are used to minimize the introduction of microorganisms into media especially during transfer processes, such as : • pouring of media into Petri dishes • inoculation of cultures These techniques include: • cleaning the bench top work areas with disinfectant solution • washing hands before starting work • other specific techniques that will be demonstrated in the lab.
Sterile techniques: what can you do in the lab? • Wash your hands • Keep your bench clean • Wear gloves • Flame loop, neck of tube • Keep cap facing down • Work quickly and efficiently • Limit talking when opening cultures
Preparation of media • The media should be packed well to prevent from leakage and breaks, protected from moisture and sunlight and excessive heat • The expiry date should be noted and the instruction of storage should be followed • The mix bacterial colonies should be sub cultured until the culture are purified • the bacterial colony characteristic should only derive from a single colony
Culture media Plate Broth Deep Slant
Morphological studies: - Sizes, shapes, cell arrangement, cell wall, surface adherents or appendages,flagella,pili,endospores,ribosomes. - Macroscopic examintation • Techniques used in the study: - Microscopic examintion - Staining techniques
Isolation of Pure Bacterial cultures Divide into 3 groups: Selective media Differental media Enrichment media
Selective media • Prepared by the addition of specific subtances to a culture medium that will permit growth of one bacteria while inhibiting the growth of others. • Contain antimicrobial agents such as crytal violet,bile salts,sodium azide,antibiotic and e.t.c. Salmonella-Shigella Agar- media contain bile salts (inhibits many coliform bacteria).Produce colorless colonies (unable to ferment lactose) Mannitol Salt Agar -Isolation of Staphylococci. Bismuth Sulfite Agar-Isolation for Salmonella typhi.Reduces the sulfite to sulfide results in black colonies and with metallic sheen.
Differential media • The incorporation of certain chemicals into a medium may result in diagnostically useful growth or visible change in the medium after incubation. Eosin Methylene Blue(EMB)- Differentiate between lactse and non-lactose fermenters. Mac Conkey Agar-contain crystal violet and bile salts.Use for selection of Enterobacteriaceae and related gram negative rods. Hektoen Enteric Agar-High concenration of bile salts.Inhibit Gram positive bacteria and retards the growth of many coliform strains.
Enrichment media • These are routinely employed in a laboratory e.g. nutrient broth, nutrient agar, infusion broth,blood agar. • They support the growth of fastidious bacteria.
Hemolysis • Destruction of erythrocytes nd hemoglobin in medium. • Can be divided into 3 categories:alpha hemolysis, beta hemolysis and gamma hemolysis Alpha hemolysis-greenish to brownish discolouration around the colonies. (Streptococous gordonii,Streptococcus pneumoniae) Beta hemolysis-complete lysis of blood cell resulting in clearing effect around the growth of colony.(S.aureus) Gammahemolysis-no change in the medium.(Enterococcus faecalis)
Biochemical tests • Catalase test • Oxidase test • Coagulase test • Sugar fermentation test • MRVP test • Indole test • Citrate test • Motility test • H2S test • Litmus milk test
Catalase test • Produce bubble just after attaching the bacteria to the reagent • To differentiate staphylococci and streptococci
Oxidase test • Have 2 methods:Filter paper/Sterile swab • To help identify Vibrio, Neisseria, Pasteurella and Pseudomonas sp. • Oxidase enzymes oxydize phenylenediamine. • Deep purple colour on reagent paper
Coagulase test • To identify S.aureus • The enzyme coagulase clots plasma • Tube : fibrin clot • Slide: clumping of bacterial cells
Sugar fermentation test • Glucose test • Maltose test • Sucrose test • Lactose test • Some will appear with gas production
Voges-Proskauer test • To differentiate enterobacteria • Organism ferments glucose with acetoin production. Acetoin is oxidised to diacetyl which reacts with creatine. • Brick red colour develop slowly • Eg: E.coli (-) • Klebsiella sp. (+)
Methyl Red test • To differentiate Enterobacteria. • Detect the production of sufficient acid during fermentation of glucose in buffered medium to give a colour change of indicator • Brick red medium
Indole test • Using Kovac reagent. • To differentiate Gram negative rods, especially E.coli . • Demonstrates the ability of certain bacteria to decompose amino acid tryptophan to indole which accumulates in the medium. • Reddening of strip or medium
Citrate test • Test the ability of organism to utilise citrate as a sole carbon source and ammonium salt for nitrogen.Result in alkalinization in the medium with colour change indicator. • Use Koser’s liquid citrate medium. • Differentiate Enterobacteria from other bacteria. • Positive result : Blue and turbid medium
LITMUS TEST • Medium consisting of LACTOSE,CASEIN and the pH indicator azolitmin. • It is used to differentiate members within the genus Clostridium. It differentiates Enterobacteriaceae from other Gram-negative bacilli based on enterics' ability to reduce litmus. • The skim milk provides nutients for growth. The protein is casein and the lactose is for fermentation. • Azolitmin is purple between pH of 4.6 and 8.2. It turns pink when pH reaches 4.5 and blue at a pH of 8.3. • Because of this, litmus milk can give quite unreliable results . Thus, you would be advised to use litmus milk as a confirmatory test but not a definitive test (except as a last resort).
Triple sugar ion • Triple Sugar Iron medium is a differential medium that can distinguish between a number of Gram-negative enteric bacteria based on their physiological ability (or lack thereof) to: • a. metabolize lactose and/or sucroseb. conduct fermentation to produce acidc. produce gas during fermentationd. generate H2S.
Terms for today • Culture collection centre. ATCC American type culture Collection Centre NCTCCNational Collection of Type Culture NCIM Natonal Collection of Industrial and Marine Bacterial NCDO National Collection of Dairy Organism
