Skip to main content

Microbiological Analysis and Testing of food products

 

Food microbiology is the study of the microorganisms that inhibit, create, or contaminate food. This includes the study of microorganisms causing food spoilage; pathogens which will cause illness (especially if food is wrongly cooked or stored); microbes utilized to manufacture fermented foods such as cheese, yogurt, bread, beer, and wine; and microbes with different helpful roles, like manufacturing probiotics.

Food safety is a major focus of food microbiology. Numerous agents of disease and pathogens are readily transmitted via food which incorporates bacteria and viruses. Microbial toxins are also possible contaminants of food; however, microorganisms and their products may also be used to combat these pathogenic microbes. Probiotic bacteria, together with those that produce bacteriocins can eliminate and inhibit pathogens. On other side, purified bacteriocins such as nisin can be added directly to food products. Finally, bacteriophages, viruses that only infect bacteria can be used to eliminate bacterial pathogens. Thorough preparation of food, including proper cooking, eliminates most bacteria and viruses. However, toxins manufactured by contaminants may not be liable to change to non-toxic forms by heating or cooking the contaminated food due to other safety conditions.

Fermentation is one among the methods to preserve food and alter its quality. Yeast, particularly Saccharomyces cerevisiae, is used to leaven bread, brew beer and create wine. Certain bacteria, as well as lactic acid bacteria, are utilized to produce yogurt, cheese, hot sauce, pickles, fermented sausages and dishes like kimchi. A general effect of these fermentations is that the food product is no that hospitable to other microorganisms, as well as pathogens and spoilage-causing microorganisms, thus extending the food’s shelf-life. Some cheese varieties also need molds to ripen and improve their characteristic flavors.

Several microbially manufactured biopolymers are utilized in the food industry:

Alginate

Alginates can be utilized as thickening agents. Although listed here under the category ‘Microbial polysaccharides‘, commercial alginates are currently only manufactured by extraction from brown seaweeds like Laminaria hyperborea or L. japonica.

Poly-γ-glutamic acid

Poly-γ-glutamic acid (γ-PGA) manufactured by various strains of Bacillus has potential applications as a thickener in the food industry.

To ensure safety of food products, microbiological tests like testing for pathogens and spoilage organisms are needed. This way the risk of contamination under general use conditions can be inspected and food poisoning outbreaks can be prevented. Testing of food products and ingredients is important along the whole supply chain as possible flaws of products can happen at every stage of manufacturing. Apart from finding spoilage, microbiological tests can also determine germ content; verify yeasts and molds, and salmonella. For salmonella, scientists are also making rapid and portable technologies capable of identifying unique variants of Salmonella.

Polymerase Chain Reaction (PCR) is a rapid and cheap method to generate numbers of copies of a DNA fragment at a particular band. For that reason, scientists are utilizing PCR to find various kinds of viruses or bacteria, such as HIV and anthrax based on their unique DNA patterns. Various kits are commercially available to help in food pathogen nucleic acids extraction, PCR detection, and differentiation. The verification of bacterial strands in food products is very important to everyone in the world, for it helps prevent the happening of food borne illness. Therefore, PCR is recognized as a DNA detector in order to amplify and trace the presence of pathogenic strands in different processed food.

The relationship between microbes, the human microbiome, diet, and food safety has played a critical role in the improvement of the new food industry with its plethora of choice and variety and the consequent developments in our overall quality of life.

Our knowledge of just how this complex balancing act contributes to the improvement of human society through the most basic of means, our food, has continued to improve over the last several thousand years. From the earliest fermentation of beer and production of bread to the probiotic foods which have been appearing on supermarket shelves over the last two decades, the application of microbiology to the food industry will certainly continue well into the future.

We at KERONE have a team of experts to help you with your need for Microbiology from our wide experience.

Comments

Post a Comment

Popular posts from this blog

Different Types of Sterilization Process

  Sterilization can be accomplished by an amalgamation of heat, chemicals, irradiation, high pressure and filtration such as steam under pressure, dry heat, ultraviolet radiation, gas vapour sterilants, chlorine dioxide gas etc. Successful sterilization strategies are necessary for working in a lab and negligence of this could lead to severe consequences, it could unexpectedly cost a life. So what are the more frequently utilized methods of sterilization in the laboratory, and how do they work? The Sterilization is conveyed out by the methods according to requirement. The methods are: 1. Moist Heat Sterilization 2. Dry Heat Sterilization 3. Gas Sterilization and Others. Moist Heat Sterilization:  Moderate pressure is utilized in steam sterilization. Steam is utilized under pressure as a means of accomplishing an elevated temperature. It is dominant to confirm the accurate quality of steam is utilized in order to keep away the problems which follow, superheating of the steam, f...
Post a Comment
Read more

Microwave Continuous Vulcanization (CV) Rubber Curing Oven

Vulcanization is process of converting natural rubber or rubber polymers into more durable and mechanically strengthens rubber by the process of mixing sulfur and processing. This process results in changing the cross-linking bonds within the natural rubber and making bonds more strong and non-sticky.  Vulcanization curing is achieved by heating the natural rubber or rubber polymer at very high temperature along with sulfur or any other agent, such high level of temperature rise results into changing of bond within the rubber and resulting in non-sticky, maker it lesser deformable when heated, and removes the brittleness this helps rubber to achieve the desired level of elasticity. Continuous Vulcanization curingprocess is most common process used for variety of application. In the process Continuous Vulcanization curing rubber and accelerator is put under high temperature and pressure, this mixture is passed through the continuous heating line during the process, some of C-...
3 comments
Read more

Organic Food and its increasing consumer demand

Organic Food Processing  is where organic raw materials are processed into food and drink. The organics standard of food processing is to protect the food constituents so that organic ingredients are used, and encourage the avoidance of unnecessary chemical or physical. Organic labeling offers consumers, the confidence that the eatables they consume are produced under controlled organic standards. Organic food should be of high nutritional and high natural quality. With the growing awareness even the governments of various countries have setup a separate body to monitor the whole Organic Processing System, in India that being National Program for Organic Production (NPOP). India is one of the upcoming leading processors in this sector. Some private standards demand that organic food should fulfill the criteria of wholesome nutrition, where processing methods must be seen as relevant tools. Most processing methods have more or less strong influences on product properties. Heat...
Post a Comment
Read more