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Development of an Elisa to Detect the Incipient Stages of Tribolium Castaneum in Food Commodities

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Title Development of an Elisa to Detect the Incipient Stages of Tribolium Castaneum in Food Commodities
 
Creator Srivastava, Roshni
 
Subject 21 Cereals
05 Insect/Pest Control
 
Description In India, every year nearly 10 per cent of the food grains are lost during post-harvest
processing and storage due to insect infestation. Increased production would hardly have any
significance unless protected from post harvest loss. A recent estimate by the Ministry of
Food and Civil supplies put the total preventable post-harvest losses of food grains due to
insect infestation at about 20 million tons per year, which was nearly 10 per cent of the total
production that could have fed upto 117 million people for a year.
Insect pest activity in agricultural produce may start at any stage from harvest to consumption. Insect infestation causes qualitative and quantitative losses of food
commodities and changes the chemical composition affecting the nutritive value of the produce. Insect infestation in food commodities has health implications as well. Insects also play a significant role in the dissemination and proliferation of microorganisms including
mycotoxigenic fungi in food commodities.
In national and international trade, cash value and marketability of different commodities are affected by insect infestation as are the processing and end-use qualities of food commodities. Quality maintenance by way of reduction in insect contaminants to meet
the requirements of International Standards Organisation (ISO) and Hazard Analysis Critical
Control Points (HACCP) is important for marketing the produce. Food and Drug Administration (FDA) has established Defect Action levels for live insects at two insects per
kilogram and insect damaged grains at 32 kernels/100g in food grains; in wheat flour, there
is a limit of 75 insect fragments/50g; and in macaroni and noodle products it is 225 fragments in a 225g sample. In India, according to the Prevention of Food Adulteration Act,
the uric acid level in food commodities should not exceed 100 mg/kg and the number of weevil-damaged grains should not exceed 10% by count. In countries like Canada and
Australia, there is zero tolerance for insects in food grains and a similar standard is followed
in international trade for grains.
Insect infestation detection methods, in samples and storage facilities, play a significant role as an indicator and also an effective infestation management tool in the food industry. The prominence of current methods used for detection of stored product insect pest
such as fragment count, X-ray method, uric acid determination, carbon dioxide analysis, etc.
are for the detection of adult or the visible life stages of the insect pest. Nevertheless, insect
pest eggs have a key role in spread of infestation. Due to the small size of the eggs, they
often go unnoticed and there are not many sufficiently sensitive methods to detect insect
pest eggs. Currently, only few methods are available for detection of insect pest eggs like the
egg staining techniques and breeding out method. These methods are not sufficiently sensitive; are exclusive in their application; or are time consuming. Sensitive insect pest egg detection technique would be advantageous especially for the milling industry, wherein the
milled products of cereals get infested by eggs of insect pests such as Tribolium castaneum,Oryzaephilus surinamensis and Corcyra cephalonica, which gets transferred to the final
product thereby reducing the quality of the product and also aiding in the spread of infestation. Therefore, development of sensitive, easy and quick infestation detection methods is imperative. Currently, immunoassays due to their enormous specificity, resolution, rapidity, cost effectiveness and efficiency have gained importance in the field of insect pest detection systems. In view of this, the present work was aimed at the development of a Enzyme Linked Immunosorbent Assay (ELISA) for the detection of incipient stages of the incipient stages of the red flour beetle -Tribolium castaneum, with special reference to eggs.
Objectives of the study:
1. Development of ELISA for the detection of incipient and other developmental stages of Tribolium castaneum.
a. Purification of the antigen i.e. the major egg protein of Tribolium castaneum Herbst.
b. Production of antibodies against the purified antigen in rabbit and chicken.
c. Development of the standard ELISA based on the rabbit and chicken egg yolk antibodies.
2. Application of the ELISA developed to food commodities like whole wheat flour and rice flour and testing of market samples.
3. Comparison of the ELISA developed with the current insect pest egg detection methods
i.e. AACC approved iodine method and bromocresol green staining method.
 
Contributor Amitha Rani, B.E.
 
Date 2006
 
Type Thesis
NonPeerReviewed
 
Format application/pdf
 
Language en
 
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Identifier http://ir.cftri.com/1744/1/T-2132.pdf
Srivastava, Roshni (2006) Development of an Elisa to Detect the Incipient Stages of Tribolium Castaneum in Food Commodities. PhD thesis, University of Mysore.