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11.
Nazia Khatoon Rajan Kumar Pandey Rupal Ojha Veeranarayanan Surya Aathmanathan Muthukalingan Krishnan 《Journal of biomolecular structure & dynamics》2019,37(9):2381-2393
Visceral leishmaniasis (VL) is a deadly parasitic infection which affects poorest to poor population living in the endemic countries. Increasing resistant to existing drugs, disease burden and a significant number of deaths, necessitates the need for an effective vaccine to prevent the VL infection. This study employed a combinatorial approach to develop a multi-epitope subunit vaccine by exploiting Leishmania donovani membrane proteins. Cytotoxic T- and helper T-lymphocyte binding epitopes along with suitable adjuvant and linkers were joined together in a sequential manner to design the subunit vaccine. The occurrence of B-cell and IFN-γ inducing epitopes approves the ability of subunit vaccine to develop humoral and cell-mediated immune response. Physiochemical parameters of vaccine protein were also assessed followed by homology modeling, model refinement and validation. Moreover, disulfide engineering was performed for the increasing stability of the designed vaccine and molecular dynamics simulation was performed for the comparative stability purposes and to conform the geometric conformations. Further, molecular docking and molecular dynamics simulation study of a mutated and non-mutated subunit vaccine against TLR-4 immune receptor were performed and respective complex stability was determined. In silico cloning ensures the expression of designed vaccine in pET28a(+) expression vector. This study offers a cost-effective and time-saving way to design a novel immunogenic vaccine that could be used to prevent VL infection.
Communicated by Ramaswamy H. Sarma 相似文献
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Designing B‐ and T‐cell multi‐epitope based subunit vaccine using immunoinformatics approach to control Zika virus infection 下载免费PDF全文
Rajan Kumar Pandey Rupal Ojha Amit Mishra Vijay Kumar Prajapati 《Journal of cellular biochemistry》2018,119(9):7631-7642
The Zika virus is a rapidly spreading Aedes mosquito‐borne sickness, which creates an unanticipated linkage birth deformity and neurological turmoil. This study represents the use of the combinatorial immunoinformatics approach to develop a multiepitope subunit vaccine using the structural and nonstructural proteins of the Zika virus. The designed subunit vaccine consists of cytotoxic T‐lymphocyte and helper T‐lymphocyte epitopes accompanied by suitable adjuvant and linkers. The presence of humoral immune response specific B‐cell epitopes was also confirmed by B‐cell epitope mapping among vaccine protein. Further, the vaccine protein was characterized for its allergenicity, antigenicity, and physiochemical parameters and found to be safe and immunogenic. Molecular docking and molecular dynamics studies of the vaccine protein with the toll‐like receptor‐3 were performed to ensure the binding affinity and stability of their complex. Finally, in silico cloning was performed for the effective expression of vaccine construct in the microbial system (Escherichia coli K12 strain). Aforementioned approaches result in the multiepitope subunit vaccine which may have the ability to induce cellular as well as humoral immune response. Moreover, this study needs the experimental validation to prove the immunogenic and protective behavior of the developed subunit vaccine. 相似文献
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Cardioprotective effect of lycopene in the experimental model of myocardial ischemia-reperfusion injury 总被引:1,自引:0,他引:1
Shervington A Cruickshanks N Wright H Atkinson-Dell R Lea R Roberts G Shervington L 《Molecular and cellular biochemistry》2006,283(1-2):1-9
The continuous advancements in cancer research have contributed to the overwhelming evidence of the presence of telomerase
in primary and secondary tumours together with hsp90 and c-Myc. This review will discuss the important role of telomerase together with hsp90 and c-Myc within the initiation and progression of gliomas. Also it will review the differential expression of these genes in the different
grades of gliomas and the possibility of new treatments targeting these specific genes. 相似文献
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Tianling Ou Huihui Mou Lizhou Zhang Amrita Ojha Hyeryun Choe Michael Farzan 《PLoS pathogens》2021,17(1)
Hydroxychloroquine, used to treat malaria and some autoimmune disorders, potently inhibits viral infection of SARS coronavirus (SARS-CoV-1) and SARS-CoV-2 in cell-culture studies. However, human clinical trials of hydroxychloroquine failed to establish its usefulness as treatment for COVID-19. This compound is known to interfere with endosomal acidification necessary to the proteolytic activity of cathepsins. Following receptor binding and endocytosis, cathepsin L can cleave the SARS-CoV-1 and SARS-CoV-2 spike (S) proteins, thereby activating membrane fusion for cell entry. The plasma membrane-associated protease TMPRSS2 can similarly cleave these S proteins and activate viral entry at the cell surface. Here we show that the SARS-CoV-2 entry process is more dependent than that of SARS-CoV-1 on TMPRSS2 expression. This difference can be reversed when the furin-cleavage site of the SARS-CoV-2 S protein is ablated or when it is introduced into the SARS-CoV-1 S protein. We also show that hydroxychloroquine efficiently blocks viral entry mediated by cathepsin L, but not by TMPRSS2, and that a combination of hydroxychloroquine and a clinically-tested TMPRSS2 inhibitor prevents SARS-CoV-2 infection more potently than either drug alone. These studies identify functional differences between SARS-CoV-1 and -2 entry processes, and provide a mechanistic explanation for the limited in vivo utility of hydroxychloroquine as a treatment for COVID-19. 相似文献
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Arbuscular Mycorrhizal fungi (AMF) protects photosynthetic apparatus of wheat under drought stress 总被引:3,自引:0,他引:3
Photosynthesis Research - Drought stress (DS) is amongst one of the abiotic factors affecting plant growth by limiting productivity of crops by inhibiting photosynthesis. Damage due to DS and its... 相似文献
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The entry of dengue viruses is mediated by pH triggering in the host cells. Here we have studied the DENV E protein stability and binding of its units at low and normal pH using MD and MM-PB/SA method for the first time. To investigate the role of pH in dissociation of dimeric protein, we have performed a concise study of hydrogen bonding and other interactions between units of dimer at low and normal pH. The Generalized Born calculation connotes that dimeric unit was relatively less stable and less proned for dimerisation at low pH. Our results provide a theoretical verification for previous assumptions of pH triggering mechanism of dengue envelope protein. During the pH alteration, we found a large decrement in salt bridges which were observed at normal pH. We also compared the flexibility of each unit and found that they exhibit different fluctuations during molecular dynamics simulations. 相似文献