Nishant Kumar scite author profile

Virulence is described as an ability of an organism to infect the host and cause a disease. Virulence factors are the molecules that assist the bacterium colonize the host at the cellular level. These factors are either secretory, membrane associated or cytosolic in nature. The cytosolic factors facilitate the bacterium to undergo quick adaptive-metabolic, physiological and morphological shifts. The membrane associated virulence factors aid the bacterium in adhesion and evasion of the host cell. The secretory factors are important components of bacterial armoury which help the bacterium wade through the innate and adaptive immune response mounted within the host. In extracellular pathogens, the secretory virulence factors act synergistically to kill the host cells. In this review, we revisit the role of some of the secreted virulence factors of two human pathogens: Mycobacterium tuberculosis-an intracellular pathogen and Bacillus anthracis-an extracellular pathogen. The advances in research on the role of secretory factors of these pathogens during infection are discussed.

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Biogenic synthesis and photocatalytic activity of CdS nanoparticles

Bhadwal

et al. 2014

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Electrochemical sensing and remediation of 4-nitrophenol using bio-synthesized copper oxide nanoparticles

Singh

Kumar

et al. 2017

Chemical Engineering Journal

157

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Catalytic activity of biogenic silver nanoparticles synthesized by Ficus panda leaf extract

Tripathi

Kumar

Shrivastav³

et al. 2013

Journal of Molecular Catalysis B: Enzymatic

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Emerging biosensor platforms for the assessment of water-borne pathogens

Kumar

Singh

et al. 2018

Analyst

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Pathogens are key contaminants in water that are responsible for the generation of various water-borne diseases, and include viruses, fungi, bacteria, and protozoan parasites. The pathogenic effects of these species in water depend on their shape, size, composition, and structure. The resulting water-borne diseases are a serious threat to the environment, including to humans and animals, and are directly responsible for environmental deterioration and pollution. The potential presence of these pathogens requires sensitive, powerful, efficient, and ideally real-time monitoring methods for their reproducible quantification. Conventional methods for pathogen detection mainly rely on time-consuming enrichment steps followed by biochemical identification strategies, which require assay times ranging from 24 h to up to a week. However, in recent years, significant efforts have been made towards the development of biosensing technologies enabling rapid and close-to-real-time detection of water-borne pathogens. This review summarizes recent developments in biosensors and sensing systems based on a variety of transducer technologies for water-quality monitoring, with specific focus on rapid pathogen detection.

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Ultra-sensitive detection of mercury(II) ions in water sample using gold nanoparticles synthesized by Trichoderma harzianum and their mechanistic approach

Tripathi

Gupta

Singh

et al. 2014

Sensors and Actuators B: Chemical

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Molybdenum disulfide quantum dot based highly sensitive impedimetric immunoassay for prostate specific antigen

et al. 2017

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Catalytic degradation of methylene blue by biosynthesised copper nanoflowers using F. benghalensis leaf extract

Agarwal

Bhadwal

Kumar

et al. 2016

IET nanobiotechnol.

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This study reports the unprecedented, novel and eco-friendly method for the synthesis of three-dimensional (3D) copper nanostructure having flower like morphology using leaf extract of . The catalytic activity of copper nanoflowers (CuNFs) was investigated against methylene blue (MB) used as a modal dye pollutant. Scanning electron micrograph evidently designated 3D appearance of nanoflowers within a size range from 250 nm to 2.5 μm. Energy-dispersive X-ray spectra showed the presence of copper elements in the nanoflowers. Fourier-transform infrared spectra clearly demonstrated the presence of biomolecules which is responsible for the synthesis of CuNFs. The catalytic activity of the synthesised CuNFs was monitored by ultraviolet-visible spectroscopy. The MB was degraded by 72% in 85 min on addition of CuNFs and the rate constant () was found to be 0.77 × 10 s. This method adapted for synthesis of CuNFs offers a valuable contribution in the area of nanomaterial synthesis and in water research by suggesting a sustainable and an alternative route for removal of toxic solvents and waste materials.

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Nishant Kumar

Bacterial Virulence Factors: Secreted for Survival

Biogenic synthesis and photocatalytic activity of CdS nanoparticles

Electrochemical sensing and remediation of 4-nitrophenol using bio-synthesized copper oxide nanoparticles

Catalytic activity of biogenic silver nanoparticles synthesized by Ficus panda leaf extract

Emerging biosensor platforms for the assessment of water-borne pathogens

Ultra-sensitive detection of mercury(II) ions in water sample using gold nanoparticles synthesized by Trichoderma harzianum and their mechanistic approach

Molybdenum disulfide quantum dot based highly sensitive impedimetric immunoassay for prostate specific antigen

Catalytic degradation of methylene blue by biosynthesised copper nanoflowers using F. benghalensis leaf extract

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