Biraj Sarkar scite author profile

Nocardia are known to be a facultative human pathogen and can cause infection in immune compromised patients. Though the details research on the virulence factors of Nocardia are scanty but numerous genes that code such factors were reported from different species of Nocardia. Despite of the presence of several virulence factors, species of this genus have been shown to have role in remediation of many toxic and hazardous materials from the environment. In this study, genome sequences of rubber degrading Nocardia sp. BSTN01 and N. nova SH22a have been analyzed to locate the potential virulence genes. Also, the genomes of facultative pathogenic Nocardia like, N. africana, N. brasiliensis, N. kruczakiae, N. transvalensis and N. veterana have been analyzed to find the gene encoding latex clearing protein (Lcp), a rubber oxygenase enzyme of Gram-positive action bacteria. The study provides an insight about the potentiality of rubber-degrading Nocardia species to emerge as future human pathogens and also the probability of a serious concern if the studied facultative pathogens of Nocardia like N. africana, N. brasiliensis, N. kruczakiae, N. transvalensis and N. veteranaare capable of degrading rubber, a regularly used material in clinics. Moreover, use of such possible pathogenic strains for their known role in bioremediation of rubber waste from the environment might be deleterious.

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Cobalt-conjugated carbon quantum dots for in vivo monitoring of the pyruvate dehydrogenase kinase inhibitor drug dichloroacetic acid

Raut

Islam

Sherpa

et al. 2022

Sci Rep

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Dichloroacetic acid (DCA), an organohalide that present in environmental sample and biological systems, got high attention for its therapeutic potential as the inhibitor of pyruvate dehydrogenase kinase (PDK), elevated in obesity, diabetes, heart disease and cancer. Herein, we developed a Cobalt conjugated carbon quantum dots (N-CQDs/Co) that selectively detect DCA by fluorescence “turn-on” mechanism. Utilizing TEM, DLS, UV–vis and fluorescence spectroscopy, the mechanism has been thoroughly elucidated and is attributed to disaggregation induced enhancement (DIE). The limit of detection of the N-CQDs/Co complex is 8.7 µM. The structural characteristics and size of the N-CQDs and N-CQDS/Co complex have been verified using FT-IR, XPS, HRTEM, DLS, EDX have been performed. Additionally, the complex is used to specifically find DCA in the human cell line and in zebrafish.Journal instruction requires a city for affiliations; however, these are missing in affiliation [4]. Please verify if the provided city is correct and amend if necessary.Kharagpur is the city. The address is okay.

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Microbial Degradation of Natural and Synthetic Rubbers

Sarkar

Mandal

2020

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Biraj Sarkar

Bio-molecule functionalized rapid one-pot green synthesis of silver nanoparticles and their efficacy toward the multidrug resistant (MDR) gut bacteria of silkworms (Bombyx mori)

Insights from the comparative genome analysis of natural rubber degrading Nocardia species

Cobalt-conjugated carbon quantum dots for in vivo monitoring of the pyruvate dehydrogenase kinase inhibitor drug dichloroacetic acid

Microbial Degradation of Natural and Synthetic Rubbers

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