Oxidative fermentative (OF) test:  Principle, Procedure, Results

Hugh and Leifson developed the oxidative-fermentative (OF) test in 1953. They developed OF media to differentiate between oxidative bacteria (that produces acid from carbohydrates under aerobic condition only) and fermentative bacteria (that produces acid both under aerobic and anaerobic conditions).

Saccharolytic microorganisms degrade glucose either fermentatively or oxidatively. The end products of fermentation are relatively strong mixed acids detected in a conventional fermentation test medium. However, the acids formed in oxidative degradation of glucose are extremely weak and less, and the more sensitive oxidation fermentation medium of Hugh and Leifson’s is required for the detection.  The medium was made by increasing the amount of glucose above that found in the medium used to detect fermentation and decreasing the amount of peptone.

The OF medium of Hugh and Leifson differs carbohydrate fermentation media as follows:

  • The agar concentration is decreased to 2% from 3%, making it semisolid (This assists in determining the motility of organisms).
  • The concentration of peptone is decreased from 11% to 2%. (decreasing the amount of alkaline product produced by the metabolism of peptone, thus reducing the neutralizing effect of these products).
  • Carbohydrate concentration is increased by 0.5% to 1.0% (The increased concentration of glucose in the medium enhances the production of these weak acids to a level that can be detected by bromothymol blue indicator.)

Principle

The oxidative-fermentative test determines if certain gram-negative rods metabolize glucose by fermentation or aerobic respiration (oxidatively). During the anaerobic process of fermentation, pyruvate is converted to a variety of mixed acids depending on the type of fermentation. The high acid concentration produced during fermentation will turn the bromthymol blue indicator in OF media from green to yellow in the presence or absence of oxygen.

Certain nonfermenting gram-negative bacteria metabolize glucose using aerobic respiration and only produce a small amount of weak acids during glycolysis and the Krebs cycle. The decreased amount of peptone and increased amount of glucose facilitates the detection of weak acids thus produced. Dipotassium phosphate buffer is added to further promote acid detection.

Uses

OF test is used to determine if gram-negative bacteria metabolize carbohydrates oxidatively, by fermentation, or are nonsaccharolytic (cannot use the carbohydrate in the media).

Media

Hugh and Leifson’s OF basal medium; constituents are as follows:

  • Sodium chloride: 5.0 g
  • Di-potassium phosphate: 0.3 g
  • Peptone: 2.0 g
  • Bromthymol blue: 0.03 g
  • Agar: 3.0 g
  • Glucose: 10 g
  • Water: 1000 ml

The pH should be adjusted to 7.1 before autoclaving. After the medium is autoclaved at 121°C for 15 minutes, a filter-sterilized solution of 10% solution of carbohydrate is aseptically added to the medium to a final concentration of 1%.

Procedure

  1. Inoculate two tubes of OF test medium with the test organism using a straight wire by stabbing “halfway to the bottom” of the tube.
  2. Cover one tube of each pair with a 1 cm layer of sterile mineral oil or liquid paraffin (it creates an anaerobic condition in the tube by preventing diffusion of oxygen), leaving the other tube open to the air.
  3. Incubate both tubes at 35°C for 48 hours (slow-growing bacteria may take 3 to 4 days before results can be observed)

Interpretation

Acid production is detected in the medium by the appearance of a yellow color. In the case of oxidative organisms, color production may be first noted near the surface of the medium.

Oxidative Fermentative Test
Oxidative Fermentative Test

The following are the reaction patterns:

Open (Aerobic) TubeCovered (Anaerobic) TubeMetabolism
Acid (yellow)Alkaline (green)Oxidative
Acid (yellow)Acid (yellow)Fermentative
Alkaline (green)Alkaline (green)Non-saccharolytic (glucose not metabolized)
  1. Fermentative result:  Acid production on both (open and covered) tubes. The acid produced changes the pH indicator, bromthymol blue, from green to yellow. e.g. Escherichia coli 
  2. Oxidative result: Acid production in the open tube (aerobic) and not the oil-covered tube (anaerobic) indicates an oxidative result. Nonfermenting bacteria that metabolize glucose via oxidative metabolism give an oxidative result. e.g. Pseudomonas aeruginosa 
  3. Non-saccharolytic (negative OF result): Nonsacchrolytic bacteria give a negative OF result. The negative result is indicated by no color change in the oil-covered tube and in some cases an increase in pH (pH 7.6) changing the bromthymol blue from green to blue on the top of the open tube. The increase in pH is due to amine production by bacteria that break down the peptone (protein) in the medium.
    e.g. Alcaligenes faecalis.

Quality Control

  • Glucose Fermenter: Escherichia coli
  • Glucose oxidizer: Pseudomonas aeruginosa
  • Nonsaccharolytic: Moraxella species

Further resources:

ASM Library Oxidative-Fermentative Test Protocol

Acharya Tankeshwar

Hello, thank you for visiting my blog. I am Tankeshwar Acharya. Blogging is my passion. As an asst. professor, I am teaching microbiology and immunology to medical and nursing students at PAHS, Nepal. I have been working as a microbiologist at Patan hospital for more than 10 years.

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