Your search keyword '"Mishra, Sujeet Kumar"' showing total 6 results

1. The role of nucleotide opening dynamics in facilitated target search by DNA-repair proteins

Author

Mishra, Sujeet Kumar, Sangeeta, Heermann, Dieter W., and Bhattacherjee, Arnab

Published

2024

2. Green energy generation from road traffic using speed breakers

Author

Sinha, Aditya, Mittal, Shasank, Jakhmola, Abhishek, and Mishra, Sujeet Kumar

Published

2021

3. Inter-nucleosomal potentials from nucleosomal positioning data

Author

Li, Kunhe, Oiwa, Nestor Norio, Mishra, Sujeet Kumar, and Heermann, Dieter W.

Published

2022

4. Effect of dimension size on electromagnetic radiation energy characteristics of lead zirconate titanate under drop weight impact load.

Author

Kumar, Vishal, Kumar, Amit, Mishra, Sujeet Kumar, and Prasad, Kamal

Subjects

ELECTROMAGNETIC radiation, IMPACT loads, ELECTROMAGNETIC waves, MECHANICAL energy, ENERGY harvesting, STRUCTURAL health monitoring, LEAD zirconate titanate

Abstract

This article presents a study on Electromagnetic radiation (EMR) energy harvesting characteristics of lead zirconate titanate (PZT) of soft grade (SP 5 A) samples under drop weight impact load. In the present study, four samples having different diameter to thickness (d/t) ratio were used. A possible EMR energy harvesting mechanism from these samples under impact loading has been discussed. It is found that the EMR parameters viz. EMR voltage, generated EMR energy, and so on, depend on the dimension of the sample and applied mechanical energy. The sample having highest t/d2 (0.069) produces maximum EMR voltage, that is, 2.31 V. Also for the same sample, EMR parameters increase with the increase in applied mechanical energy. Also an increasing pattern of EMR energy was observed with the increase in the capacitance value of the capacitor. The results obtained suggest the possibility of using PZT as a better option for energy harvesting, sensing, and structural health monitoring applications. Also the results suggest EMR technique as an alternative option for harnessing energy from piezoelectric ceramics. [ABSTRACT FROM AUTHOR]

Published

2024

5. How Do Nucleosome Dynamics Regulate Protein Search on DNA?

Author

Mishra, Sujeet Kumar and Bhattacherjee, Arnab

Published

2023

6. Superstructure Detection in Nucleosome Distribution Shows Common Pattern within a Chromosome and within the Genome.

Author

Mishra, Sujeet Kumar, Li, Kunhe, Brauburger, Simon, Bhattacherjee, Arnab, Oiwa, Nestor Norio, and Heermann, Dieter W.

Subjects

*CHROMATIN, *CHROMOSOMES, *GENOMES, *GENETIC regulation, *GENE expression, *BINDING sites

Abstract

Nucleosome positioning plays an important role in crucial biological processes such as replication, transcription, and gene regulation. It has been widely used to predict the genome's function and chromatin organisation. So far, the studies of patterns in nucleosome positioning have been limited to transcription start sites, CTCFs binding sites, and some promoter and loci regions. The genome-wide organisational pattern remains unknown. We have developed a theoretical model to coarse-grain nucleosome positioning data in order to obtain patterns in their distribution. Using hierarchical clustering on the auto-correlation function of this coarse-grained nucleosome positioning data, a genome-wide clustering is obtained for Candida albicans. The clustering shows the existence beyond hetero- and eu-chromatin inside the chromosomes. These non-trivial clusterings correspond to different nucleosome distributions and gene densities governing differential gene expression patterns. Moreover, these distribution patterns inside the chromosome appeared to be conserved throughout the genome and within species. The pipeline of the coarse grain nucleosome positioning sequence to identify underlying genomic organisation used in our study is novel, and the classifications obtained are unique and consistent. [ABSTRACT FROM AUTHOR]

Published

2022