Pramod Subedi scite author profile

Background: Public health concern is increasing with recent rise in the number of COVID-19 cases in Nepal. To curb this pandemic, Nepal is facing some forms of lockdown, encouraging people to implement social distancing so as to reduce interactions between people which could eventually reduce the possibilities of new infection; however, it has affected the overall physical, mental, social and spiritual health of the people. Methods: Published articles related to psychosocial effects due to COVID-19 and other outbreaks were searched and reviewed. Conclusion: While many countries are supporting their citizens with sophisticated health safety-nets and various relief funds, some developing countries have unique challenges with vulnerable populations and limited resources to respond to the pandemic. This review presents the consequences of pandemic and lockdown on socioeconomic, mental health and other aspects in Nepalese society.

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A Molecular Chameleon for Mapping Subcellular Polarity in an Unfolded Proteome Environment

Owyong

Subedi

Deng

et al. 2020

Angew Chem Int Ed

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Environmental polarity is an important factor that drives biomolecular interactions to regulate cell function. Herein, a general method of using the fluorogenic probe NTPAN‐MI is reported to quantify the subcellular polarity change in response to protein unfolding. NTPAN‐MI fluorescence is selectively activated upon labeling unfolded proteins with exposed thiols, thereby reporting on the extent of proteostasis. NTPAN‐MI also reveals the collapse of the host proteome caused by influenza A virus infection. The emission profile of NTPAN‐MI contains information of the local polarity of the unfolded proteome, which can be resolved through spectral phasor analysis. Under stress conditions that disrupt different checkpoints of protein quality control, distinct patterns of dielectric constant distribution in the cytoplasm can be observed. However, in the nucleus, the unfolded proteome was found to experience a more hydrophilic environment across all the stress conditions, indicating the central role of nucleus in the stress response process.

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Autotransporter Adhesins in Escherichia coli Pathogenesis

Ortiz

Subedi

et al. 2017

Proteomics

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Most bacteria produce adhesion molecules to facilitate the interaction with host cells and establish successful infections. An important group of bacterial adhesins belong to the autotransporter (AT) superfamily, the largest group of secreted and outer membrane proteins in Gram-negative bacteria. AT adhesins possess diverse functions that facilitate bacterial colonisation, survival and persistence, and as such are often associated with increased bacterial fitness and pathogenic potential. In this review, we will describe AIDA-I type AT adhesins, which comprise the biggest and most diverse group in the AT family. We will focus on Escherichia coli proteins and define general aspects of their biogenesis, distribution, structural properties and key roles in infection.

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The Scs disulfide reductase system cooperates with the metallochaperone CueP in Salmonella copper resistance

Subedi

Paxman

Wang

et al. 2019

Journal of Biological Chemistry

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Construction of a Highly Sensitive Thiol‐Reactive AIEgen‐Peptide Conjugate for Monitoring Protein Unfolding and Aggregation in Cells

Sabouri

Liu

Zhang

et al. 2021

Adv Healthcare Materials

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Impairment of the protein quality control network leads to the accumulation of unfolded and aggregated proteins. Direct detection of unfolded protein accumulation in the cells may provide the possibility for early diagnosis of neurodegenerative diseases. Here a new platform based on a peptide‐conjugated thiol‐reactive aggregation‐induced emission fluorogen (AIEgen), named MI‐BTD‐P (or D1), for labeling and tracking unfolded proteins in cells is reported. In vitro experiments with model proteins show that the non‐fluorescent D1 only becomes highly fluorescent when reacted with the thiol group of free cysteine (Cys) residues on unfolded proteins but not glutathione or folded proteins with buried or surface exposed Cys. When the labeled unfolded proteins form aggregates, D1 fluorescence intensity is further increased, and fluorescence lifetime is prolonged. D1 is then used to measure unfolded protein loads in cells by flow cytometry and track the aggregate formation of the D1 labeled unfolded proteins using confocal microscopy. In combination with fluorescence lifetime imaging technique, the proteome at different folding statuses can be better differentiated, demonstrating the versatility of this new platform. The rational design of D1 demonstrates the outlook of incorporation of diverse functional groups to achieve maximal sensitivity and selectivity in biological samples.

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Pramod Subedi

Impact of COVID-19 pandemic on socioeconomic and mental health aspects in Nepal

A Molecular Chameleon for Mapping Subcellular Polarity in an Unfolded Proteome Environment

Autotransporter Adhesins in Escherichia coli Pathogenesis

The Scs disulfide reductase system cooperates with the metallochaperone CueP in Salmonella copper resistance

Construction of a Highly Sensitive Thiol‐Reactive AIEgen‐Peptide Conjugate for Monitoring Protein Unfolding and Aggregation in Cells

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