BIOCHEMICAL TEST | Bacterial Identification Technique | Microbiology | Vivek Srinivas |#Bacteriology

Microbiology & Biotechnology

8 Nov 202125:00

Summary

TLDRThis video presentation delves into various biochemical tests for bacterial identification, essential for definitive diagnosis beyond clinical signs. It covers direct microscopic examination, culturing on different media, and a range of biochemical tests including catalase, oxidase, indole, methyl red, Vogus Proskauer, citrate utilization, urease, sugar fermentation, hydrogen sulfide production, and the Triple Sugar Iron (TSI) test. The script also mentions advanced techniques like PCR, DNA sequencing, and phage typing, concluding with the gelatin liquefaction test, providing a comprehensive guide to bacterial identification in laboratories.

Takeaways

🔬 The definitive identification of bacteria requires laboratory examination beyond clinical signs and symptoms.
📝 Direct microscopic examination and bacterial staining techniques like Gram, acid-fast, negative, spore staining, and motility tests are initial steps in bacterial identification.
🌱 Culturing bacteria on different types of media such as differential, selective, enriched, and enrichment broth is essential for further analysis.
🧪 Biochemical tests are crucial for identifying the genus and species of bacteria by assessing their enzymatic properties and substrate utilization.
🌡 The catalase test differentiates bacteria based on their ability to decompose hydrogen peroxide, producing oxygen bubbles for positive reactions.
🟣 The oxidase test detects the presence of the oxidase enzyme, which turns a specific reagent purple in the presence of bacteria.
🔴 The indole test identifies bacteria that produce indole as a by-product when metabolizing tryptophan, indicated by a red color change with Kovax reagent.
🍬 The methyl red test measures the acidic by-product of glucose fermentation, which changes the indicator to red in a positive test.
🍇 The Voges-Proskauer (VP) test detects the production of acetoin from glucose fermentation, resulting in a red color complex with specific reagents.
🍋 The citrate utilization test identifies alkaline pH changes due to citrate metabolism, indicated by a color change to Prussian blue.
🔄 The IMViC tests (Indole, Methyl Red, Voges-Proskauer, and Citrate) are a set of biochemical tests used to differentiate members of the Enterobacteriaceae family.
🧫 The urease test detects bacteria that hydrolyze urea into ammonia and carbon dioxide, causing an alkaline pH shift indicated by a color change to pink.
🍯 The sugar fermentation test determines a bacteria's ability to ferment various sugars, producing acid and possibly gas, which can be observed through color change and bubble formation.
⚫ The hydrogen sulfide production test detects the formation of black precipitate due to the reaction between hydrogen sulfide and iron salts.
🌊 The triple sugar iron (TSI) test evaluates sugar fermentation and hydrogen sulfide production using a medium with three different sugars and an iron salt indicator.
🧊 The gelatin liquefaction test detects bacteria that produce gelatinase, an enzyme that breaks down gelatin even at low temperatures, maintaining a liquefied state.