H. V. Raghu scite author profile

H. V. Raghu

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21Publications

69Citation Statements Received

182Citation Statements Given

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Affiliations

National Dairy Research Institute, Indian Council of Agricultural Research

Publications

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Spore germination based assay for monitoring antibiotic residues in milk at dairy farm

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et al. 2012

World J Microbiol Biotechnol

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Spore germination based assay involves the transformation of dormant spores of Bacillus stearothermophilus 953 into active vegetative cells. The inhibition of germination process specifically in presence of antibiotic residues was used as a novel approach for monitoring target contaminants in milk. The indicator organism i.e., B. stearothermophilus 953 was initially allowed to sporulate by seeding in sporulation medium and incubating at 55 °C for 18 ± 2 h. The spores exhibited a typical chain behavior as revealed through phase contrast microscopy. The minimal medium inoculated with activated spores was incubated at 64 °C for 2-3 h for germination and outgrowth in presence of specific germinant mixture containing dextrose, whey powder and skimmed milk powder added in specific ratio along with reconstituted milk as negative control and test milk samples. The change in color of the medium from purple to yellow was used as criteria for detection of antibiotic residues in milk. The efficiency of the developed assay was evaluated through a surveillance study on 228 samples of raw, pasteurized and dried milks and results were compared with AOAC approved microbial receptor assay. The presence of antibiotic level was 10.08 % at Codex maximum residual limit having false positive result only in 0.43 % of the samples. The results of the present investigation suggest that developed spore based assay can be a practical solution to dairy industry for its application at farm level, milk processing units, independent testing and R & D centres in order to comply with the legal requirements set by Codex.

Biomarkers of bacterial spore germination

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et al. 2018

Ann Microbiol

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Rapid Detection of Listeria monocytogenes in Milk by Surface Plasmon Resonance Using Wheat Germ Agglutinin

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2020

Food Anal. Methods

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Rapid detection of pesticide in milk, cereal and cereal based food and fruit juices using paper strip-based sensor

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et al. 2021

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The study was aimed to validate paper strip sensors for the detection of pesticide residues in milk, cereal-based food, and fruit juices in comparison with GC–MS/MS under field conditions. The detection limit of pesticide using rapid paper strip sensor for organophosphate, carbamate, organochlorine, fungicide, and herbicide group ranges from 1 to 10, 1–50, 250–500, 1–50, and 1 ppb, respectively in milk and milk product, cereal-based food and fruit juices. Among 125 samples of milk samples collected from the market 33 milk samples comprising 31 raw milk and 2 pasteurized milk found positive for pesticide using the strip-based sensor. In cereal based food and fruit juice samples, 6 cereal flours and 4 fruit juices were found positive for pesticide residues. The pesticide positive samples were further evaluated quantitatively using GC–MS/MS wherein 7 samples comprised of raw milk, pasteurized milk, rice flour, wheat flour, maize flour, apple juice, and pomegranate juice have shown the presence of chlorpyrifos, chlorpyrifos-methyl, α-endosulfan, β-endosulfan DDD and DDT at trace level as well as at above MRL level. It is envisaged that the developed paper strip sensor can be a potential tool in the rapid and cost-effective screening of a large number of food samples for pesticide residues.

Spore inhibition-based enzyme substrate assay for monitoring of aflatoxin M₁in milk

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et al. 2013

Toxicological & Environmental Chemistry

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Microbial Spores: Concepts and Industrial Applications

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et al. 2018

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Storage related changes in spray dried colostrum preparations

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et al. 2020

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Spore: Potential of Invaluable Bacterial Wrap

et al. 2016

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Bacterial Spores are robust and dormant life forms. The enthralling controlling system can maintain the spore dormancy for years yet allow the reappearance into active state within minutes thus provide resistance to the bacterium to heat, freezing, chemicals, radiations and other adverse environments. In spite of being considered as a spoilage and disease cause, Bacterial spores have been emerging as a miracle package. The survivability of bacterial spores under harsh conditions provides various solutions to human needs. Thus bacterial spores are drawing increased interest of the researchers as a solution to get work done under tough conditions. Bacterial spores have been exploited successfully to develop Biological Detection Systems as they can sense environmental changes and respond rapidly. Recently several spore based biosensors have been developed for the detection of different contaminants from different sources. More valued Probiotic Products based on bacterial spores have also been developed as spores can travel through GIT safely due to their resistant to digestive enzymes.Taking advantage of spore survivability, Pest Control Products based on spores are being used for making innovations in pest control. Different strains of Bacillus thuringiensis have been used to protect crops. More recent Bt genes have been expressed in transgenic plants to provide inherent resistance. Bacillus spores also have been exploited for vaccine delivery as a non-invasive and thermostable vaccine delivery system. Bioremediation and Electricity generation is also another applied corner of bacterial spores. This reevaluation highlights the potential of this simpler microbial structure and recent growth in the applied bacterial spore biology.

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