Lab 5: Metabolic Activities of Bacteria PDF

Summary

This document covers a laboratory exercise on the metabolic activities of bacteria. It outlines objectives, key terms, and various biochemical tests, including carbohydrate fermentation, gelatin hydrolysis, starch hydrolysis, casein hydrolysis, urea hydrolysis, citrate utilization, catalase activity, and tryptophan hydrolysis. It also includes procedures, results, and interpretations for each test. This material is likely part of a university-level microbiology lab course.

Full Transcript

Lab 5
Metabolic activities of bacteria
 Laboratory Exercise 5: Metabolic Activities of Bacteria

Objectives
1. Learn how to use differential and selective media to identify bacterial species.
2. Be able to perform the following biochemical tests and understand how they work: carbohydrate
fermentation, gelatin hydrolysis, starch hydrolysis, casein hydrolysis, urea hydrolysis, citrate utilization,
catalase activity, tryptophan hydrolysis (indole test).
3. Be able to relate the results of the tests performed to the different types of metabolic activities carried out by
individual bacterial species.

Key Terms: fermentation, amylase, gelatinase, caseinase, urease, citrate permease, catalase, indole,
tryptophanase, Kovac’s reagent, BBL Dry Slide, agar slant (locate butt and slant), Durham tube,
Simmon’s citrate
 Many bacterial species appear identical under the microscope

Additional tests are needed to identify them to species

Metabolic tests can distinguish bacteria with similar appearance

Bacteria vary in their ability to produce enzymes

Determines what chemicals they can break down/use as energy sources

Knowing which enzymes a bacterial species can produce tells us something about its genetic
make-up

WHY?

What are two metabolic tests that we have looked at already? (Hint: lab 2)
 Carbohydrate Fermentation
Bacteria Glucose Lactose Sucrose
Some bacteria have the ability to ferment simple Proteus vulgaris
AG NEG A

sugars or carbohydrates, and produce acids AG AG NEG
and/or alcohol. Escherichia coli
A NEG A
Gas may be produced as well Bacillus subtilis
Media: 3 types of Fermentation tubes Streptococcus
A A A

Glucose broth faecalis
Sucrose broth
Lactose broth
All contain phenol red: a pH indicator that is red at
neutral pH
Inoculation: use loop to transfer bacteria into broth

Results:
Yellow color- positive for acid production (A)
May or may not have air bubble in Durham
tube (A or AG)
Red: negative (N)

Note: we will use lactose only for the
identification of unknowns
https://www.youtube.com/watch?v=vJcL9f52Zuk
Hydrolysis of Gelatin

The Gelatin (protein) is broken down into peptides and amino acids by the
enzyme Gelatinase.

Media: gelatin deep
Inoculation: use inoculation needle to stab into the media

Results:
( + ) for Gelatinase activity – Liquid
( - ) for Gelatinase activity – Solid

Note: tubes should be cooled before reading to ensure
Any liquid is not the result of melting

https://www.youtube.com/watch?v=xFUdG8NHmhs
 Hydrolysis of starch
Starch is broken down into dextrin, glucose, and maltose (monosaccharide and disaccharide).
Iodine is used to detect the presence of starch (changes to a blue/black color when starch is present).
The presence of starch means the bacteria do not produce the enzyme needed to break it down.

Media: starch agar plate
Procedure: spot inoculation of bacteria onto agar plates
After incubation, add iodine to surface of agar plate
If the bacteria is (+) for amylase activity, it will break down the starch – no black color, no change in the
color of the iodine.
If the bacteria is (-) for amylase activity, it doesn’t break down the starch – black color forms (starch still
present in media).
Bacillus subtilis is positive for
amylase activity; no starch is
found near the growth, so no
color change in iodine has
occurred.

This bacteria did not break down
starch (amylase negative); so
blue/black color change is seen
after iodine is added.

https://www.youtube.com/watch?v=zFhMbXSgve8&t=40s
Hydrolysis of Casein

Casein is a milk protein.
Caseinase (a proteinase) breaks down the casein into amino acids.

Media: skim milk plate
Inoculation: spot inoculation onto surface of plate

Results:
( + ) for casein activity – clear zone around bacterial growth neg
( - ) for casein activity – no clear zone
pos
Note: casein test is not used for identification of unknowns

https://www.youtube.com/watch?v=c3tx4oY1ncQ
Hydrolysis of Urea

Urease and breaks down urea into NH3 and CO2.
Alkaline pH is detected.

Media: urea slant
Inoculation: surface of slant. Leave cap loosened

Results:
( + ) for urease activity – pink color.
( - ) for urease activity – no color change (peach or
yellow color).
Note: yellow color is a sign of an acidic pH and is NOT
positive for urease

https://www.youtube.com/watch?v=KAFXB8TBARw&t=86s
Citrate Utilization https://www.youtube.com/watch?v=LZ_mVPRLayQ&list=RDCM
UCIzOHtZa0iOH49ez1O5mReQ&start_radio=1&t=7
Citrate permease allows citrate to enter bacterial cell
In Simmons Citrate media, Citrate is the only source of
carbon
Only bacteria that can take it in can grow on this
media
The products: alkaline (detect by pH change)

Media: Simmon’s Citrate
has bromothymol blue: green at neutral pH, turns blue
in alkaline pH
Inoculation: stab and streak- with inoculation needle

Results:
( + ) for citrate permease– blue color (alkaline pH)
( - ) for citrate permease– no change (green color).
 Catalase activity
Catalase is an enzyme that cells produce when they live in an oxygen environment.
H2O2 (hydrogen peroxide) is broken down into H2O and O2 by catalase.

Media: TSA slant (not pictured here)
Inoculation: surface of slant

Results:
After incubation, add hydrogen peroxide
( + ) for catalase activity –– bubbles as free O2 forms
( - ) for catalase activity – no change.

https://www.youtube.com/watch?v=C_p8iA2TlfM
Hydrolysis of Tryptophan (Indole test)

Tryptophan is an amino acid.
Tryptophanase breaks down tryptophan into indole, NH3 (ammonia) and
pyruvate.
In the media we detect the indole.
To detect Indole we use Kovac’s reagent (BBL Dryslide test)
Kovac’s embedded in the dryslide- safer than using liquid

Media: Tryptone broth
Inoculation: add bacteria to broth with loop
Results:
After incubation, use sterile cotton swab to add bacteria to dryslide
After adding bacteria to dryslide Positive result
Negative result
( + ) for Indole – pink-red color
( - ) for Indole – No pink-red color

https://www.youtube.com/watch?v=m27wzevB9bA
 Lactose
Bacteria Gram stain Morphology Arrangement Fermentation Gelatinase Amylase Urease Citrate permease Catalase Tryptophanase
(Simmon’s citrate) (Indole test)

Bacillus subtilis

Corynebacterium
xerosis

Enterobacter
aerogenes

Escherichia coli

Micrococcus
luteus

Pseudomonas
aeruginosa

Proteus vulgaris

Staphylococcus
aureus

Streptococcus
faecalis

Serratia
marcescens