Glucose – a monosaccharide Lactose – a disaccahride glucose + galactose Fermentation can produce acid and/or gas A heterofermenter produces large amounts.

Slides:

Advertisements

Similar presentations

Summary of Biochemical Tests in Microbiology

Advertisements

Physiological characteristics: Oxidative and fermentation tests

Bacterial fermentation

Identifying Bacteria based on Enzymes and multiple test media

Enterobacteriaceae - Microscopic appearance - Cultural characteristics

Lab Exercise 17: Biochemical Differentiation of some Medically Important Gram-negative Bacilli.

3 starch plates 5 urea broths (replaces urea slant)

Ex. 18: IMViC Reactions Objectives ?? Indole production test

PHT 381 Lab# 6 Biochemical reactions.

Exercise 39: Oxidation and Fermentation Tests

Biochemical tests.

Biochemical Tests.

Biochemical Test By: Mahmoud W El-Hindi 2013

MICROBIOLOGY LAB TESTS

Diagnostic of Medically important Gram Negative Bacteria.

General Microbiology Laboratory Biochemical Tests.

Lab. No. 7. II. Enterobacteriaceae It divided into two main groups: It divided into two main groups: According to their effect on lactose  Lactose.

Exercise 41: Multiple Test Media: Read and record results

Lab Exercise: 15 Enzymes: Catalase Proteinase MR-VP.

Biochemical Activities of Bacteria

Lab 10 BACTERIOLOGY OF THE GASTROINTESTINAL TRACT Lab Manual (p.67-82)

Biochemical tests.

Biochemical Characterization

H 2 S production hydrogen sulfide production. Amino acid cystine (substrate) Cystine desulfhydrase – enzyme Hydrogen sulfide (product) Medium has iron.

TSI and Carbohydrate Tests

Media & Biochemical Tests

PHT 381 Lab# 6 Biochemical reactions.

Metabolic Diversity Two fundamental nutritional needs:

Mic 224 Lab 10 IMViCs. IMViC Tests The IMViC tests are useful for differentiating the Enterobacteriaceae, especially when used alongside the urease test.

Lab. No. 5. Gram-negative, non-spore-forming bacilli. Gram-negative, non-spore-forming bacilli. Their natural habitat is the intestinal tract of humans.

Single Media & Multiple Tests

PHT 416 Lab 8. Steps Microscopic Morphology Growth Biochemical Tests Nutrient agar Blood agar Mannitol Salt Agar MacConkey’s agar.

Lab. No. 4 (A). StaphylococciStreptococciMicrococci NeisseriaCorynbacterium Clostridum Bacillus Enterobacteriaceae Pseudomonas. Bacteria Gram’s Stain.

Bacterial Fermentation  Microbial metabolic processes are complex, but they permit the microbiologist to distinguish among microorganisms grown in culture.

Enterobacteriaceae II

SINGLE MEDIA / MULTIPLE TESTS

Exercise 41: Multiple Test Media: Read and record results

BIOCHEMICAL TESTING.

Introduction to Lab Ex. 16 Diagnostic Media Urea broth Sulfide Indole Motility Citrate.

Lab #9. Review - pH Indicators pH Indicator Very acidic AcidicNeutralBasic Phenol red- pH 8.0 = magenta/ hot pink.

Lab #8. Review of Lab #7 - pH Indicators pH Indicator Very acidic AcidicNeutralBasic Phenol red- pH 8.0 = magenta/

Bacteria identification : Media

Bacterial Fermentation

Ex. 21: SIM Medium (Sulfur, Indole, Motility)

Biochemical Activities of Microorganisms Part (2).

Week 8 W New: Exp 24: IMViC Part A: Indole Test Part B: Citrate Test

IMViC Test IMViC is a series of tests that are useful in the identification of enteric bacteria Tests include: 1. I = Indole test 2. M = Methyl red test.

Exercise 39: Oxidation and Fermentation Tests

Exercise 38: Cultural Characteristics (Gelatin) put on ice!!!

Exercise 39: Oxidation and Fermentation Tests

Some Biochemical Tests Used In Bacterial Diagnosis (Identification)

IMViC Test م. زينة فؤاد صالح.

Bacterial Fermentation

Ex. 17: IMViC Reactions Objectives ?? Indole production test

د. زينة فؤاد صالح.

ENTEROBACTERIACEAE.

Lab Exercise 17: Biochemical Differentiation of some Medically Important Gram-negative Bacilli.

Identification of unknown bacteria

Bacterial Fermentation

IMViC Reactions Indole production test Methyl red test

Enterobacteriaceae.

ENTEROBACTERIACEAE 1.

Biochemical tests.

Biochemical tests.

Single Media & Multiple Tests

Biochemical Test biology and biotechnology department

Biochemical test 3.

Bacterial Fermentation

Triple sugar iron (TSI) slant

Single Media & Multiple Tests

Presentation transcript:

Glucose – a monosaccharide Lactose – a disaccahride glucose + galactose Fermentation can produce acid and/or gas A heterofermenter produces large amounts of several acids A homofermenter produces a small amount of a single acid Phenol red becomes yellow in acid

CITRATE UTILIZATION Catabolism of citrate produces sodium carbonate, which is basic, so pH increases The change in the pH is indicated by the dye bromphenol blue in the medium, which changes from green to blue Also see growth of the cells The citrate is brought into the cells by citrate permease

UREA CATABOLISM Urea is broken down by urease to CO 2 plus ammonia (NH 3 ) Ammonia is basic, so raises the pH, which changes the phenol red to deep pink

H 2 S PRODUCTION AND DETECTION Produced from the amino acid cysteine, which contains sulfur H 2 S reacts with iron (Fe) to form FeS (iron sulfide), which is a black precipitate Also detects mobility of the bacteria, by spread of the black precipitate from the stab line

Indole is produced by the catabolism of the amino acid tryptophan Addition of Kovac’s reagent produces a red color INDOLE PRODUCTION

MR-VP TESTS Methyl red – detects high level of acid production Changes color at pH5 (Phenol red changes color at pH 6.8) V-P – detects the production of a particular alcohol (butanediol) that is made by Enterobacter. Addition of Barritt’s reagent produces a red color Both the acid and the alcohol are products of glucose fermentation

The IMViC series of tests is used to detect sewage contamination (for example of ocean water)