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1. Spatio-temporal dynamics of shift current quantum pumping by femtosecond light pulse

Author

Bajpai, U., Popescu, B. S., Plechac, P., Nikolic, B. K., Torres, L. E. F. Foa, Ishizuka, H., and Nagaosa, N.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Shift current---a photocurrent induced by light irradiating noncentrosymmetric materials in the absence of any bias voltage or built-in electric field---is one of the mechanisms of the so-called bulk photovoltaic effect. It has been traditionally described as a nonlinear optical response of periodic solids to continuous wave light using a perturbative formula, which is linear in the intensity of light and which involves Berry connection describing the shift in the center of mass position of the Wannier wave function associated with the transition between the valence and conduction bands. We analyze realistic two-terminal devices, where paradigmatic Rice-Mele model is sandwiched between two metallic electrodes, using recently developed time-dependent nonequilibrium Green function algorithms scaling linearly in the number of time steps and capable of treating nonperturbative effects in the amplitude of external time-dependent fields. This unveils novel features: superballistic transport, signified by time dependence of the displacement, $\sim t^\nu$ with $\nu > 1$, of the photoexcited charge carriers from the region where the femtosecond light pulse is applied toward the electrodes; and photocurrent quadratic in light intensity at subgap frequencies of light due to two-photon absorption processes that were missed in previous perturbative analyses. Furthermore, frequency dependence of the DC component of the photocurrent reveals shift currents as a realization of nonadiabatic quantum charge pumping enabled by breaking of left-right symmetry of the device structure. This demonstrates that a much wider class of systems, than the usually considered polar noncentrosymmetric bulk materials, can be exploited to generate nonzero DC component of photocurrent in response to unpolarized light and optimize shift-current-based solar cells and optoelectronic devices., Comment: 8 pages, 6 figures, PDFLaTeX; two additional movies, depicting spatial profiles of local shift current in clean and disordered systems during application of fs light pulse, are available from https://wiki.physics.udel.edu/qttg/Publications

Published
2018
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4. Are we missing ‘previously treated’ smear-positive pulmonary tuberculosis under programme settings in India? A cross-sectional study

Author

Shewade, Hemant Deepak, primary, Gupta, Vivek, additional, Satyanarayana, Srinath, additional, Kharate, Atul, additional, Murali, Lakshmi, additional, Deshpande, Madhav, additional, Kumar, Naresh, additional, Pandey, Prabhat, additional, Bajpai, U N, additional, Tripathy, Jaya Prasad, additional, Kathirvel, Soundappan, additional, Pandurangan, Sripriya, additional, Mohanty, Subrat, additional, Ghule, Vaibhav Haribhau, additional, Sagili, Karuna D, additional, Prasad, Banuru Muralidhara, additional, Nath, Sudhi, additional, Singh, Priyanka, additional, Singh, Kamlesh, additional, Jayaraman, Gurukartick, additional, Rajeswaran, P, additional, Srivastava, Binod Kumar, additional, Biswas, Moumita, additional, Mallick, Gayadhar, additional, Bera, Om Prakash, additional, Jaisingh, A James Jeyakumar, additional, Naqvi, Ali Jafar, additional, Verma, Prafulla, additional, Ansari, Mohammed Salauddin, additional, Mishra, Prafulla C, additional, Sumesh, G, additional, Barik, Sanjeeb, additional, Mathew, Vijesh, additional, Lohar, Manas Ranjan Singh, additional, Gaurkhede, Chandrashekhar S, additional, Parate, Ganesh, additional, Bale, Sharifa Yasin, additional, Koli, Ishwar, additional, Bharadwaj, Ashwin Kumar, additional, Venkatraman, G, additional, Sathiyanarayanan, K, additional, Lal, Jinesh, additional, Sharma, Ashwini Kumar, additional, Kumar, Ajay MV, additional, and Chadha, Sarabjit S, additional

Published
2019
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6. Patient characteristics, health seeking and delays among new sputum smear positive TB patients identified through active case finding when compared to passive case finding in India

Author

Shewade, Hemant Deepak, primary, Gupta, Vivek, additional, Satyanarayana, Srinath, additional, Pandey, Prabhat, additional, Bajpai, U. N., additional, Tripathy, Jaya Prasad, additional, Kathirvel, Soundappan, additional, Pandurangan, Sripriya, additional, Mohanty, Subrat, additional, Ghule, Vaibhav Haribhau, additional, Sagili, Karuna D., additional, Prasad, Banuru Muralidhara, additional, Nath, Sudhi, additional, Singh, Priyanka, additional, Singh, Kamlesh, additional, Singh, Ramesh, additional, Jayaraman, Gurukartick, additional, Rajeswaran, P., additional, Srivastava, Binod Kumar, additional, Biswas, Moumita, additional, Mallick, Gayadhar, additional, Bera, Om Prakash, additional, Sahai, K. N., additional, Murali, Lakshmi, additional, Kamble, Sanjeev, additional, Deshpande, Madhav, additional, Kumar, Naresh, additional, Kumar, Sunil, additional, Jaisingh, A. James Jeyakumar, additional, Naqvi, Ali Jafar, additional, Verma, Prafulla, additional, Ansari, Mohammed Salauddin, additional, Mishra, Prafulla C., additional, Sumesh, G, additional, Barik, Sanjeeb, additional, Mathew, Vijesh, additional, Lohar, Manas Ranjan Singh, additional, Gaurkhede, Chandrashekhar S., additional, Parate, Ganesh, additional, Bale, Sharifa Yasin, additional, Koli, Ishwar, additional, Bharadwaj, Ashwin Kumar, additional, Venkatraman, G., additional, Sathiyanarayanan, K., additional, Lal, Jinesh, additional, Sharma, Ashwini Kumar, additional, Rao, Raghuram, additional, Kumar, Ajay M. V., additional, and Chadha, Sarabjit Singh, additional

Published
2019
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7. Active versus passive case finding for tuberculosis in marginalised and vulnerable populations in India: comparison of treatment outcomes

Author

Shewade, Hemant Deepak, primary, Gupta, Vivek, additional, Satyanarayana, Srinath, additional, Kumar, Sunil, additional, Pandey, Prabhat, additional, Bajpai, U. N., additional, Tripathy, Jaya Prasad, additional, Kathirvel, Soundappan, additional, Pandurangan, Sripriya, additional, Mohanty, Subrat, additional, Ghule, Vaibhav Haribhau, additional, Sagili, Karuna D., additional, Prasad, Banuru Muralidhara, additional, Singh, Priyanka, additional, Singh, Kamlesh, additional, Jayaraman, Gurukartick, additional, Rajeswaran, P., additional, Biswas, Moumita, additional, Mallick, Gayadhar, additional, Naqvi, Ali Jafar, additional, Bharadwaj, Ashwin Kumar, additional, Sathiyanarayanan, K., additional, Pathak, Aniruddha, additional, Mohan, Nisha, additional, Rao, Raghuram, additional, Kumar, Ajay M. V., additional, and Chadha, Sarabjit Singh, additional

Published
2019
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38. Isolation and characterization of a field isolate of infectious bursal disease virus in BGM-70 cells.

Author

BAJPAI, U. K., JOSHI, R. K., and JOSHI, NAMITA

Abstract

The article discusses a research study on cytophathetic effect, infectivity titers and enzyme linked immunosorbant assay (ELISA) titer to assess the growth and adaptation of infectious bursal disease virus (IBDV). Field IBVD was isolated and characterized in Baby gravid monkey kidney (BGM-70) cells and maintained by regular subculturing in Dulbaccos Modified Eagle's medium. An IBDV antigen was detected in the cell culture supernatants at each passage by agar gel precipitation test, countercurrent immunoelectrophoresis and ELISA.

Published
2010

48. Integrated analysis of cell cycle and p53 signaling pathways related genes in breast, colorectal, lung, and pancreatic cancers: implications for prognosis and drug sensitivity for therapeutic potential.

Author

Khan J, Ghosh P, Bajpai U, Dwivedi K, and Saluja D

Abstract

Cancer, a leading cause of death worldwide, is projected to increase by 76.6% in new cases and 89.7% in mortality by 2050 (WHO 2022). Among various types, lung cancer is the most prevalent with high morbidity, while breast, colorectal, and pancreatic cancers also show high mortality rates. Cancer progression often involves disruption in cell cycle regulation and signaling pathways, with mutations in genes like TP53, EGFR, and K-RAS playing significant roles. In this study, we analyzed gene expression datasets to identify common molecular signatures across breast, colorectal, lung and pancreatic cancers. Our focus was on genes related to cell cycle regulation and p53 signaling pathway, intending to discover potential biomarkers for improved diagnosis and treatment strategies. The study analyzed GEO datasets; GSE45827, GSE9348, GSE30219, and GSE62165 for breast, colorectal, lung, and pancreatic cancers respectively. Differentially expressed genes (DEGs) were identified using GEO2R, and functional annotation and pathway analysis were performed using WebGestalt. Common cell cycle and p53 signaling genes were acquired from MSigDB using GSEA. A protein-protein interaction network was constructed using STRING and Cytoscape, identifying top hub genes. Validation of hub genes at mRNA and protein levels was done via GEPIA2 and Human Protein Atlas. Survival analysis was conducted using TCGA data by GEPIA2 and LASSO, and drug sensitivity was analyzed with the GSCA drug bank database, highlighting potential therapeutic targets. The study identified 411 common DEGs among these four cancers. Pathway and functional enrichment revealed key biological processes and pathways like p53 signaling, and cell cycle. The intersection of these DEGs with genes involved in cell cycle and p53 signaling, identified 23 common genes that were used for constructing a PPI network. The top 10 hub genes were validated both for mRNA and protein expression, revealing they are significantly overexpressed in all studied cancers. Prognostic relevance showed that MCM4, MCM6, CCNA2, CDC20, and CHEK1 are associated with survival. Additionally, drug sensitivity analysis highlighted key gene-drug interactions, suggesting potential targets for therapeutic intervention., Competing Interests: Declarations. Ethics approval and consent to participate: In this study, we utilized publicly available datasets. So ethical approval is not applicable. Consent for publication: Not applicable. Competing interests: The authors declare no competing interests., (© 2024. The Author(s).)

Published
2024
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49. Discovery and characterization of a novel LysinB from F2 sub-cluster mycobacteriophage RitSun.

Author

Arora R, Nadar K, and Bajpai U

Subjects
Viral Proteins metabolism, Viral Proteins chemistry, Viral Proteins genetics, Cell Wall metabolism, Biofilms drug effects, Biofilms growth & development, Anti-Bacterial Agents pharmacology, Peptidoglycan metabolism, Peptidoglycan chemistry, Galactans, Mycobacteriophages, Mycobacterium smegmatis virology, Mycobacterium smegmatis drug effects, Endopeptidases metabolism, Endopeptidases chemistry, Endopeptidases pharmacology
Abstract

The escalating antibiotic resistance in mycobacterial species poses a significant threat globally, necessitating an urgent need to find alternative solutions. Bacteriophage-derived endolysins, which facilitate phage progeny release by attacking bacterial cell walls, present promising antibacterial candidates due to their rapid lytic action, high specificity and low risk of resistance development. In mycobacteria, owing to the complex, hydrophobic cell wall, mycobacteriophages usually synthesize two endolysins: LysinA, which hydrolyzes peptidoglycan; LysinB, which delinks mycolic acid-containing outer membrane and arabinogalactan, releasing free mycolic acid. In this study, we conducted domain analysis and functional characterization of a novel LysinB from RitSun, an F2 sub-cluster mycobacteriophage from our phage collection. Several key properties of RitSun LysinB make it an important antimycobacterial agent: its ability to lyse Mycobacterium smegmatis from without, a higher than previously reported specific activity of 1.36 U/mg and its inhibitory effect on biofilm formation. Given the impermeable nature of the mycobacterial cell envelope, dissecting RitSun LysinB at the molecular level to identify its cell wall-destabilizing sequence could be utilized to engineer other native lysins as fusion proteins, broadening their activity spectrum., (© 2024. The Author(s).)

Published
2024
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50. Mycobacteriophages: therapeutic approach for mycobacterial infections.

Author

Raman SK, Siva Reddy DV, Jain V, Bajpai U, Misra A, and Singh AK

Subjects
Humans, Animals, Tuberculosis drug therapy, Mycobacterium tuberculosis, Phage Therapy methods, Mycobacterium Infections, Nontuberculous drug therapy, Mycobacterium Infections, Nontuberculous therapy, Mycobacterium Infections therapy, Mycobacterium Infections drug therapy, Mycobacteriophages
Abstract

Tuberculosis (TB) is a significant global health threat, and cases of infection with non-tuberculous mycobacteria (NTM) causing lung disease (NTM-LD) are rising. Bacteriophages and their gene products have garnered interest as potential therapeutic options for bacterial infections. Here, we have compiled information on bacteriophages and their products that can kill Mycobacterium tuberculosis or NTM. We summarize the mechanisms whereby viable phages can access macrophage-resident bacteria and not elicit immune responses, review methodologies of pharmaceutical product development containing mycobacteriophages and their gene products, mainly lysins, in the context of drug regulatory requirements and we discuss industrially relevant methods for producing pharmaceutical products comprising mycobacteriophages, emphasizing delivery of mycobacteriophages to the lungs. We conclude with an outline of some recent case studies on mycobacteriophage therapy., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published
2024
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