Your search keyword '"Paul, Debarati"' showing total 8 results

1. Recent Advances in the Detection of Food Toxins Using Mass Spectrometry

Author

Ahuja, Vishal, Singh, Amanpreet, Paul, Debarati, Dasgupta, Diptarka, Urajová, Petra, Ghosh, Sounak, Singh, Roshani, Sahoo, Gobardhan, Ewe, Daniela, and Saurav, Kumar

Abstract

Edibles are the only source of nutrients and energy for humans. However, ingredients of edibles have undergone many physicochemical changes during preparation and storage. Aging, hydrolysis, oxidation, and rancidity are some of the major changes that not only change the native flavor, texture, and taste of food but also destroy the nutritive value and jeopardize public health. The major reasons for the production of harmful metabolites, chemicals, and toxins are poor processing, inappropriate storage, and microbial spoilage, which are lethal to consumers. In addition, the emergence of new pollutants has intensified the need for advanced and rapid food analysis techniques to detect such toxins. The issue with the detection of toxins in food samples is the nonvolatile nature and absence of detectable chromophores; hence, normal conventional techniques need additional derivatization. Mass spectrometry (MS) offers high sensitivity, selectivity, and capability to handle complex mixtures, making it an ideal analytical technique for the identification and quantification of food toxins. Recent technological advancements, such as high-resolution MS and tandem mass spectrometry (MS/MS), have significantly improved sensitivity, enabling the detection of food toxins at ultralow levels. Moreover, the emergence of ambient ionization techniques has facilitated rapid in situ analysis of samples with lower time and resources. Despite numerous advantages, the widespread adoption of MS in routine food safety monitoring faces certain challenges such as instrument cost, complexity, data analysis, and standardization of methods. Nevertheless, the continuous advancements in MS-technology and its integration with complementary techniques hold promising prospects for revolutionizing food safety monitoring. This review discusses the application of MS in detecting various food toxins including mycotoxins, marine biotoxins, and plant-derived toxins. It also explores the implementation of untargeted approaches, such as metabolomics and proteomics, for the discovery of novel and emerging food toxins, enhancing our understanding of potential hazards in the food supply chain.

Published

2023

2. Isolation and identification of carotenoid-producing yeast and evaluation of antimalarial activity of the extracted carotenoid(s) against P. falciparum

Author

Sinha, Sweta, Chakrabarti, Amrita, Singh, Gunjan, Kumar, Kukkala Kiran, Gaur, Naseem A., Arora, Anju, Singh, Kamalesh Narain, Singh, Shailja, and Paul, Debarati

Abstract

Plasmodial resistance to a variety of plant-based antimalarial drugs has led toward the discovery of more effective antimalarial compounds having chemical or biological origin. Since natural compounds are considered as safer drugs, in this study, yeast strains were identified and compared for the production of carotenoids that are well-known antioxidants and this metabolite was tested for its antiparasitic activity. Plasmodium falciparum3D7 strain was selected as the target parasite for evaluation of antimalarial activity of yeast carotenoids using in vitro studies. Data were analyzed by FACS (fluorescence-activated cell sorter) and counted via gold standard Giemsa-stained smears. The extracted yeast carotenoids showed a profound inhibitory effect at a concentration of 10–3µg/µl and 10−4µg/µl when compared to β- carotene as control. SYBR Green1 fluorescent dye was used to confirm the decrease in parasitaemia at given range of concentration. Egress assay results suggested that treated parasite remained stalled at schizont stage with constricted morphology and were darkly stained. Non-toxicity of carotenoids on erythrocytes and on human liver hepatocellular carcinoma cells (HepG2 cells) was shown at a given concentration. This report provides strong evidence for antimalarial effects of extracted yeast carotenoids, which can be produced via a sustainable and cost-effective strategy and may be scaled up for industrial application.

Published

2021

3. Biologia Futura: use of biocides during COVID-19-global reshuffling of the microbiota

Author

Paul, Debarati, Mondal, Suresh K., and Mandal, Santi M.

Abstract

AimThe article reviews the current usage of biocides during this lockdown period for sanitizing our living areas due to the pandemic and discusses the pros and cons. SubjectCOVID-19 spread like wildfire to over 200 countries of the world across all continents. The causative agent, novel coronavirus (SARS-CoV-2) is being counter attacked by a thorough application of disinfectants and sterilants. However, the virus mutated over 30 times during this global pandemic, creating panic and leading to enhanced pathogenicity and consequently to more stringent sanitation measures for controlling it. However, excessive use of different types of biocides for disinfecting surfaces is highly alarming in several cases. Extensive application of biocides affects the microbial flora, leading to an abrupt decrease in the number and diversity of beneficial microbes that may directly affect the functioning of nutrient cycles. ResultsThe increased concentration of biocides in agricultural land via surface water or pond water indirectly affect the soil and water ecosystem, soil aggregation and fertility. This will also lead to the flourishing of resistant strains due to loss of competition from the other species, which fail to persist after prolonged use of biocides. ConclusionIt is necessary to realize the environmental impacts of biocides and sterilants. It is the right time to stop their entry into the agricultural ecosystem by following adequate management strategies and complete neutralization.

Published

2021

4. Comparative analysis of biodiesel produced by acidic transesterification of lipid extracted from oleaginous yeast Rhodosporidium toruloides

Author

Singh, Gunjan, Jeyaseelan, Christine, Bandyopadhyay, K., and Paul, Debarati

Abstract

This study investigated the potential of oleaginous yeast Rhodosporidium toruloidesstrain (ATCC20409) for the sustainable production of microbial lipids as biodiesel feedstock and other economically important fatty acids in comparison to algal or plant-based biodiesel. The strain exhibited high lipid content (76% of dry cell weight biomass) through consolidated bioprocessing which was transesterified to produce biodiesel. Physico-chemical properties of the biodiesel produced showed that they were in accordance with ASTM standards, although few parameters such as acid value, calorific value and free fatty acid value differed to some extent, as also reported in plant-based/microalgal biodiesel. Fatty acid methyl esters analysis of biodiesel showed 50.18% unsaturated fatty acid and 49.81% saturated fatty acid. Total content of (monounsaturated fatty acid) MUFA was higher than (polyunsaturated fatty acid) PUFA, being 44.36% and 2.69%, respectively. Considering the yield and cost, lipid extracted from R. toruloidesmay become a promising alternative feed in biodiesel production.

Published

2018

5. Extraction of Nattokinase Enzyme from Bacillus cereusIsolated from Rust

Author

Vaithilingam, Mohanasrinivasan, Chandrasekaran, Subathra Devi, Gupta, Sayanti, Paul, Debarati, Sahu, Priyanka, Selvaraj, Jemimah Naine, and Babu, Vaishnavi

Abstract

Nattokinase (NK) is widely used as the thrombolytic agent due to its low cost as compared to several other thrombolytic agents. In the present study rust samples from iron rod was collected and subjected to isolation process in order to screen the NK production. Based on the morphological, biochemical and molecular characterization, the isolate VITSDVM3 was identified as Bacillus cereuswhich showed highest similarity to B. cereusstrain GY-58. The specific activity was determined by casein hydrolysis assay and found to be 954, 1008, 1168, 1201 U/mg for crude, precipitated, dialysed and purified. The NK bearing clot buster activity was determined further by radial caseinolytic activity followed by fibrin degradation assay which showed 10 and 15 mm respectively. The maximum clot lysis activity was found to be 97.43 %. The stability of the purified enzyme was analysed by various parameters including pH, temperature, surfactants, metal ions and organic solvents. High Performance Liquid Chromatography analysis was performed in order to indentify the retention time. Our preliminary data thus indicated the fibrinolytic effects of NK, and suggesting its potential value as a therapeutic agent and the need for additional studies and clinical trials.

Published

2016

6. Genome comparison of Listeria monocytogenesserotype 4a strain HCC23 with selected lineage I and lineage II L. monocytogenesstrains and other Listeriastrains

Author

Paul, Debarati, Steele, Chelsea, Donaldson, Janet R., Banes, Michelle M., Kumar, Ranjit, Bridges, Susan M., Arick, Mark, and Lawrence, Mark L.

Abstract

More than 98% of reported human listeriosis cases are caused by specific serotypes within genetic lineages I and II. The genome sequence of Listeria monocytogeneslineage III strain HCC23 (serotype 4a) enables whole genomic comparisons across all three L. monocytogeneslineages. Protein cluster analysis indicated that strain HCC23 has the most unique protein pairs with nonpathogenic species Listeria innocua. Orthology analysis of the genome sequences of representative strains from the three L. monocytogenesgenetic lineages and L. innocua(CLIP11262) identified 319 proteins unique to nonpathogenic strains HCC23 and CLIP11262 and 58 proteins unique to pathogenic strains F2365 and EGD-e. BLAST comparison of these proteins with all the sequenced L. monocytogenesand L. innocuarevealed 126 proteins unique to serotype 4a and/or L. innocua; 14 proteins were only found in pathogenic serotypes. Some of the 58 proteins unique to pathogenic strains F2365 and EGD-e were previously published and are already known to contribute to listerial virulence.

Published

2014

7. Diversity of ‘benzenetriol dioxygenase’ involved in p -nitrophenol degradation in soil bacteria

Author

Paul, Debarati, Rastogi, Neha, Krauss, Ulrich, Schlomann, Michael, Pandey, Gunjan, Pandey, Janmejay, Ghosh, Anuradha, and Jain, Rakesh

Abstract

Abstract: Ring hydroxylating dioxygenases (RHDOs) are one of the most important classes of enzymes featuring in the microbial metabolism of several xenobiotic aromatic compounds. One such RHDO is benzenetriol dioxygenase (BtD) which constitutes the metabolic machinery of microbial degradation of several mono- phenolic and biphenolic compounds including nitrophenols. Assessment of the natural diversity of benzenetriol dioxygenase (btd) gene sequence is of great significance from basic as well as applied study point of view. In the present study we have evaluated the gene sequence variations amongst the partial btd genes that were retrieved from microorganisms enriched for PNP degradation from pesticide contaminated agriculture soils. The gene sequence analysis was also supplemented with an in silico restriction digestion analysis. Furthermore, a phylogenetic analysis based on the deduced amino acid sequence(s) was performed wherein the evolutionary relatedness of BtD enzyme with similar aromatic dioxygenases was determined. The results obtained in this study indicated that this enzyme has probably undergone evolutionary divergence which largely corroborated with the taxonomic ranks of the host microorganisms.

Published

2008

8. Correction to: Isolation and identification of carotenoid-producing yeast and evaluation of antimalarial activity of the extracted carotenoid(s) against P. falciparum

Author

Sinha, Sweta, Chakrabarti, Amrita, Singh, Gunjan, Kumar, Kukkala Kiran, Gaur, Naseem A., Arora, Anju, Singh, Kamalesh Narain, Singh, Shailja, and Paul, Debarati

Abstract

A correction to this paper has been published: https://doi.org/10.1007/s42977-021-00082-4

Published

2021