Surabhi Lata scite author profile

Pseudomonas aeruginosa , an ESKAPE pathogen causes many fatal clinical diseases in humans across the globe. Despite an increase in clinical instances of Pseudomonas infection, there is currently no effective vaccine or treatment available. The major membrane protein candidate of the P. aeruginosa bacterial cell is known to be a critical component for cellular bacterial susceptibility to antimicrobial peptides and survival inside the host organisms. Therefore, the current computational study aims to examine P. aeruginosa’s major membrane protein, OprF, and OprI, in order to design linear B-cell, cytotoxic T-cell, and helper T-cell peptide-based vaccine constructs. Utilizing various immune-informatics tools and databases, a total of two B-cells and twelve T-cells peptides were predicted. The final vaccine design was simulated to generate a high-quality three-dimensional structure, which included epitopes, adjuvant, and linkers. The vaccine was shown to be nonallergenic, antigenic, soluble, and had the best biophysical properties. The vaccine and Toll-like receptor 4 have a strong and stable interaction, according to protein-protein docking and molecular dynamics simulations. Additionally, in silico cloning was employed to see how the developed vaccine expressed in the pET28a (+) vector. Ultimately, an immune simulation was performed to see the vaccine efficacy. In conclusion, the newly developed vaccine appears to be a promising option for a vaccine against P. aeruginosa infection. Graphical Abstract Supplementary Information The online version contains supplementary material available at 10.1007/s10989-021-10356-z.

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ExploringKlebsiella pneumoniaecapsule polysaccharide proteins to design multiepitope subunit vaccine to fight against pneumonia

Dey

Mahapatra

Lata

et al. 2022

Expert Review of Vaccines

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Aurora Borealis in dentistry: The applications of cold plasma in biomedicine

Lata

Chakravorty

Mitra

et al. 2022

Materials Today Bio

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Plasma is regularly alluded to as the fourth form of matter. Its bounty presence in nature along with its potential antibacterial properties has made it a widely utilized disinfectant in clinical sciences. Thermal plasma and non-thermal (or cold atmospheric) plasma (NTP) are two types of plasma. Atoms and heavy particles are both available at the same temperature in thermal plasma. Cold atmospheric plasma (CAP) is intended to be non-thermal since its electrons are hotter than the heavier particles at ambient temperature. Direct barrier discharge (DBD), atmospheric plasma pressure jet (APPJ), etc. methods can be used to produce plasma, however, all follow a basic concept in their generation. This review focuses on the anticipated uses of cold atmospheric plasma in dentistry, such as its effectiveness in sterilizing dental instruments by eradicating bacteria, its advantage in dental cavity decontamination over conventional methods, root canal disinfection, its effects on tooth whitening, the benefits of plasma treatment on the success of dental implant placement, and so forth. Moreover, the limitations and probable solutions has also been anticipated. These conceivable outcomes thus have proclaimed the improvement of more up-to-date gadgets, for example, the plasma needle and plasma pen, which are efficient in treating the small areas like root canal bleaching, biofilm disruption, requiring treatment in dentistry.

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Immunoinformatic approach employing modeling and simulation to design a novel vaccine construct targeting MDR efflux pumps to confer wide protection against typhoidalSalmonellaserovars

Mahapatra

Dey

Kushwaha

et al. 2021

Journal of Biomolecular Structure and Dynamics

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Anti bacterial Effectiveness of Electro- Chemically Activated (ECA) Water as a Root Canal Irrigant- An In-vitro Comparative Study

Lata

Mohanty

Pradhan

et al. 2016

JCDR

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Surabhi Lata

Molecular Characterization and Designing of a Novel Multiepitope Vaccine Construct Against Pseudomonas aeruginosa

ExploringKlebsiella pneumoniaecapsule polysaccharide proteins to design multiepitope subunit vaccine to fight against pneumonia

Aurora Borealis in dentistry: The applications of cold plasma in biomedicine

Immunoinformatic approach employing modeling and simulation to design a novel vaccine construct targeting MDR efflux pumps to confer wide protection against typhoidalSalmonellaserovars

Anti bacterial Effectiveness of Electro- Chemically Activated (ECA) Water as a Root Canal Irrigant- An In-vitro Comparative Study

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