Your search keyword '"Sharma, Pradakshina"' showing total 5 results

1. Electrochemical impedimetric aptasensor for the detection of Urea based on oxidized graphitic carbon nitride utilizing flexible electrode platform.

Author

Mishra, Annu, Sharma, Pradakshina, Hasan, Mohd. Rahil, Kumar, Arun, Roy, Souradeep, Khanuja, Manika, and Narang, Jagriti

Abstract

Urea is a significant potential biomarker of kidney and liver-related diseases. Numerous traditional approaches are available to detect Urea. All of them are sensitive and specific but have substantial setbacks, such as being expensive, requiring expertise and taking time to bring results. Therefore in the present study, an electrochemical biosensor was designed using printed carbon conductive ink (PCCI)-based flexible electrode and integrated with aptamer and oxidized graphitic carbon nitride (Ox-g-C3N4) to detect Urea in samples. Electrochemical validation of the designed aptasensor was done by CV, DPV, and EIS. The designed aptasensor exhibited wide linear variety (20–100 mM) with 20 mM LOD and showed anti-interference ability as results proved that it was highly selective towards Urea. Using flexible electrodes made the sensor more economical and required significantly less reagent/analysis volume. Furthermore, aptamers are more stable than enzymes, making the sensor more robust and specific towards urea detection. [ABSTRACT FROM AUTHOR]

Published

2024

2. Kirigami tripod-based electrode for the development of highly stretchable dengue aptasensor.

Author

Hasan, Mohd. Rahil, Singh, Saumitra, Sharma, Pradakshina, Azmi, Zaira, Dadial, Agampreet Singh, and Narang, Jagriti

Abstract

Kirigami is one of the interesting paper art forms and the modified sub-class of origami. Kirigami paper art is widely employed in a variety of applications, and it is currently being used in biosensors because of its outstanding advantages. This is the first study on the use of a Kirigami-based aptasensor for DENV (Dengue virus)-antigen detection. In this study, the kirigami approach has been utilized to develop a stretchable, movable, and flexible sensor. The constructed stretchable-kirigami electrode helps in adjusting the connection of electrodes without disturbing the electrochemical cell zone during the experiment. To increase the sensitivity of this biosensor we have synthesized Ag-NPs (Silver nanoparticles) via chemical methods and characterized their results with the help of TEM & UV-Vis Spectroscopy. Different electrochemical approaches were used to validate the sensor response i.e., CV (Cyclic voltammetry) and LSV (Linear sweep voltammetry), which exhibited great detection capability towards dengue virus with the range of 0.1 µg/ml to 1000 µg/ml along with a detection limit of 0.1 µg/ml and showing no reactivity to the chikungunya virus antigen, making it more specific to the DENV antigen. Serum (healthy-human) was also successfully applied to validate the results of the constructed aptasensor. Integration of the Kirigami approach form with the electrochemical aptasensor that utilizes a 3-E setup (three-electrode setup) which is referred to as a tripod and collectively called Kirigami-tripod-based aptasensor. Thus, the developed integrated platform improves the sensors capabilities in terms of cost efficiency, high stretchability, and sensitivity. [ABSTRACT FROM AUTHOR]

Published

2024

3. Extracellular Vesicles: A New Approach to Study the Brain's Neural System and Its Diseases.

Author

Afridi, Shahid, Sharma, Pradakshina, Choudhary, Furqan, Rizwan, Amber, Nizam, Anam, Parvez, Adil, and Farooqi, Humaira

Abstract

In normal and pathophysiological conditions our cells secrete vesicular bodies known as extracellular particles. Extracellular vesicles are lipid-bound extracellular particles. A majority of these extracellular vesicles are linked to cell-to-cell communication. Brain consists of tightly packed neural cells. Neural cell releases extracellular vesicles in cerebrospinal fluid. Extracellular vesicle mediated crosstalk maintains neural homeostasis in the central nervous system via transferring cargos between neural cells. In neurodegenerative diseases, small extracellular vesicle transfer misfolded proteins to healthy cells in the neural microenvironment. They can also cross blood-brain barrier (BBB) and stimulate peripheral immune response inside central nervous system. In today's world different approaches employ extracellular vesicle in various therapeutics. This review gives a brief knowledge about the biological relevance of extracellular vesicles in the central nervous system and relevant advances in the translational application of EV in brain disorders. [ABSTRACT FROM AUTHOR]

Published

2024

4. Mitigation of the Deleterious Effect of Heavy Metals on the Conformational Stability of Ubiquitin through Osmoprotectants.

Author

Alazoumi, Khadega Khamis Moh, Sharma, Pradakshina, Islam, Asimul, and Farooqi, Humaira

Abstract

The Ubiquitin-Proteasome System (UPS) is important in protein homeostasis and is involved in many cell processes. UPS's wide range of regulatory activities is based on the unique and diverse signals transmitted through all-encompassing processes. Cells need a fully functional UPP to cope with oxidative stress, so cellular redox status modulates ubiquitin activity. However, these protein quality control systems are compromised under adverse conditions such as heavy metal stress, resulting in pathological conditions. Heavy metals disrupt the physiological action of sensitive proteins by forming complexes with side-chain functional groups or by dislocating critical metal ions in metalloproteins. In addition, perturbation in the structure of Ubiquitin may affect the ubiquitin-proteasome pathway. In this study, it has been investigated the effects of heavy metals likewise chromium (Cr), cadmium (Cd), and mercury chloride (HgCl2) on the conformational stability of Ubiquitin as well as overcome their hazardous effect, the interaction of osmo-protectants such as Sesamol, gallic acid, Glycine, and ascorbic acid have also been explored in the study. The near and far UV-circular dichroism measurements deduced the secondary and tertiary structural changes. The size of the Ubiquitin before and after exposure to heavy metals was measured by DLS (dynamic light scattering). Docking research was also used to investigate the interaction of Ubiquitin with various heavy metals. Near and far UV-circular dichroism (CD) measurements revealed that mercury, chromium, and cadmium disrupt Ubiquitin's secondary and tertiary structure. The effect of chromium, even at low concentrations, was significantly deleterious compared to cadmium and mercury chloride. Ubiquitin's far-UV circular dichroism spectra subjected to heavy metals were recorded in several osmo-protectants, such as ascorbic acid, Glycine, gallic acid, and Sesamol, which offset the adverse effects of heavy metals. DLS studies revealed a noteworthy change in the hydrodynamic radius of Ubiquitin in the presence of heavy metals. Docking analysis revealed a significant binding affinity of mercury and cadmium ions with Ubiquitin. This study can infer the heavy metals' disruption of Ubiquitin's secondary and tertiary structure. Osmo-protectants produced by animal cells are more effective against heavy metals than plant antioxidants. [ABSTRACT FROM AUTHOR]

Published

2024

5. Borderline microscopic organism and lockdown impacted across the borders—global shakers.

Author

Suleman, Shariq, Farooqui, Asim, Sharma, Pradakshina, Malhotra, Nitesh, Yadav, Neelam, Narang, Jagriti, Hasnain, Md Saquib, and Nayak, Amit Kumar

Subjects

MICROORGANISMS, CHICKENPOX, STAY-at-home orders, INFECTIOUS disease transmission, SMALLPOX, PUBLIC transit

Abstract

Viruses are the potential cause of several diseases including novel corona virus-19, flu, small pox, chicken pox, acquired immunodeficiency syndrome, severe acute respiratory syndrome etc. The objectives of this review article are to summarize the reasons behind the epidemics caused by several emerging viruses and bacteria, how to control the infection and preventive strategies. We have explained the causes of epidemics along with their preventive measures, the impact of lockdown on the health of people and the economy of a country. Several reports have revealed the transmission of infection during epidemic from the contact of an infected person to the public that can be prevented by implementing the lockdown by the government of a country. Though lockdown has been considered as one of the significant parameters to control the diseases, however, it has some negative consequences on the health of people as they can be more prone to other ailments like obesity, diabetes, cardiac problems etc. and drastic decline in the economy of a country. Therefore, the transmission of diseases can be prevented by warning the people about the severity of diseases, avoiding their public transportation, keeping themselves isolated, strictly following the guidelines of lockdown and encouraging regular exercise. [ABSTRACT FROM AUTHOR]

Published

2022