S. Vajravijayan scite author profile

The world is facing health and economic havoc due to the Corona Virus Disease-2019 (COVID-19) pandemic. Given the number of affected people and the mortality rate, the virus is undoubtedly a serious threat to humanity. By analogy with earlier reports about Severe Acute Respiratory Syndrome (SARS-CoV) and Middle East Respiratory Syndrome (MERS-CoV) - viruses, the novel Coronavirus’ replication mechanism is likely well understood. The structure of an endoribonuclease (NSP15) of SARS-CoV-2 was reported recently. This enzyme is expected to play a crucial role in replication. In this work, attempts were made to identify inhibitors of this enzyme. To achieve the goal, high throughput in silico screening and molecular docking procedures were performed. From an Enamine database of a billion compounds, 3978 compounds with potential antiviral activity were selected for screening and induced fit docking that funneled down to eight compounds with good docking score and docking energy. Detailed analysis of non-covalent interactions at the active site and the apparent match of the molecule with the shape of the binding pocket were assessed. All the compounds show significant interactions for tight binding. Since all the compounds are synthetic with favorable drug-like properties, these may be considered for immediate optimization and downstream applications.

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In vitro studies on α-glucosidase inhibition, antioxidant and free radical scavenging activities of Hedyotis biflora L.

Christhudas¹,

Kumar²,

Sunil³

et al. 2013

Food Chemistry

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A novel guaiane sesquiterpene derivative, guai-2-en-10α-ol, from Ulva fasciata Delile inhibits EGFR/PI3K/Akt signaling and induces cytotoxicity in triple-negative breast cancer cells

et al. 2017

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A novel guaiane sesquiterpene derivative, guai-2-en-10α-ol, from Ulva fasciata Delile exhibits antimicrobial property. U. fasciata extract was reported to exhibit cytotoxicity against cancer. In the present study, we have studied the anticancer potential of the compound, guai-2-en-10α-ol, from U. fasciata. The compound showed selective cytotoxicity toward triple-negative breast cancer (TNBC) cell line (MDA MB-231) in a dose-dependent manner. In treated cells, the apoptotic hallmarks such as formation of apoptotic bodies, cell shrinkage, and nuclear condensation were observed. Many small molecules affect the function of cellular signaling pathways. As EGFR/PI3K/Akt pathway proteins are frequently altered in TNBC, we have studied the gene expression of key proteins of this pathway. The semiquantitative PCR results demonstrated the down-regulated expression of PDPK1 (positive regulator) and Akt (key activator) as well as up-regulated expression of PTEN (negative regulator), which suggested the interaction of guai-2-en-10α-ol with upstream protein. Further investigation showed the down-regulation of both PI3K and EGFR. As EGFR is the most upstream protein of the pathway, its protein level expression was investigated. Western blotting analysis confirmed the down-regulation of p-EGFR expression and activation of apoptosis upon compound treatment. Cell cycle analysis also evidenced the G1 phase arrest, which can be due to the inhibition of cell survival pathway. Computational studies showed the interaction of guai-2-en-10α-ol with Asp855 residue of EGFR kinase domain in active conformation. All these results demonstrate the anticancer potential of guai-2-en-10α-ol through EGFR/PI3K/Akt pathway.

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Structural insights on starch hydrolysis by plant β-amylase and its evolutionary relationship with bacterial enzymes

Vajravijayan

Pletnev

Mani

et al. 2018

International Journal of Biological Macromolecules

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The conversion of starch to maltose is catalysed in plants by β-amylase. The enzymatic mechanism has been well-characterized for the soybean and barley enzymes, which utilise a glutamic acid-glutamate pair. In the present study, we present a surprise observation of maltotetraose at the active site, the presence of which elucidates the clear role of Thr344 as a conformational "switch" between substrate binding and product release during hydrolysis. This observation is confirmed by the selection of maltotetraose by the crystallized enzyme although that carbohydrate was present in only trace amounts. The conformation of the residues in the substrate-binding site changed upon substrate binding, leading to the movement of threonine, glutamic acid, and the loop conformation, elucidating a missing link in the existing mechanism. By aligning our substrate-free and maltotetraose-bound structures with other existing structures, the sequence of events from substrate binding to hydrolysis can be visualized. Apart from this, the evolutionary relationship among β-amylases of bacterial and amyloplastic origin could be established. The presence of a sugar-binding domain in the bacterial enzyme and its absence in the plant counterpart could be attributed to a carbohydrate-rich environment. Interestingly, cladogram analysis indicates the presence of N-terminal additions in some plant β-amylases. Based on sequence similarity, we postulate that the role of such additions is important for the regulation of enzymatic activity, particularly under stress conditions.

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Self-Assembly of Hausmannite Mn₃O₄ Triangular Structures on Cocosin Protein Scaffolds for High Energy Density Symmetric Supercapacitor Application

Yesuraj

Vajravijayan²,

Yang

et al. 2022

Langmuir

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Recent advances in using biological scaffolds for nanoparticle synthesis have proven to be useful for preparing various nanostructures with uniform shape and size. Proteins are significant scaffolds for generating various nanostructures partly because of the presence of many functional groups to recognize different chemistries. In this endeavor, cocosin protein, an 11S allergen, is prepared from coconut fruit and employed as a potential scaffold for synthesizing Mn3O4 materials. The interaction between protein and manganese ions is studied in detail through isothermal calorimetric titration. At increased scaffold availability, the Mn3O4 material adopts the exact hexamer structure of the cocosin protein. The electrochemical supercapacitive properties of the cocosin–Mn3O4 material are found to have a high specific capacitance of 751.3 F g–1 at 1 A g–1 with cyclic stability (92% of capacitance retention after 5000 CV cycles) in a three-electrode configuration. The Mn3O4//Mn3O4 symmetric supercapacitor device delivers a specific capacitance of 203.8 F g–1 at 1 A g–1 and an outstanding energy and power density of 91.7 W h kg–1 and 899.5 W kg–1, respectively. These results show that cocosin–Mn3O4 could be considered a suitable electrode for energy storage applications. Moreover, the cocosin protein to be utilized as a novel scaffold in protein–nanomaterial chemistry could be useful for protein-assisted inorganic nanostructure synthesis in the future.

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S. Vajravijayan

Structure-based drug designing towards the identification of potential anti-viral for COVID-19 by targeting endoribonuclease NSP15

In vitro studies on α-glucosidase inhibition, antioxidant and free radical scavenging activities of Hedyotis biflora L.

A novel guaiane sesquiterpene derivative, guai-2-en-10α-ol, from Ulva fasciata Delile inhibits EGFR/PI3K/Akt signaling and induces cytotoxicity in triple-negative breast cancer cells

Structural insights on starch hydrolysis by plant β-amylase and its evolutionary relationship with bacterial enzymes

Self-Assembly of Hausmannite Mn₃O₄ Triangular Structures on Cocosin Protein Scaffolds for High Energy Density Symmetric Supercapacitor Application

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S. Vajravijayan

Structure-based drug designing towards the identification of potential anti-viral for COVID-19 by targeting endoribonuclease NSP15

In vitro studies on α-glucosidase inhibition, antioxidant and free radical scavenging activities of Hedyotis biflora L.

A novel guaiane sesquiterpene derivative, guai-2-en-10α-ol, from Ulva fasciata Delile inhibits EGFR/PI3K/Akt signaling and induces cytotoxicity in triple-negative breast cancer cells

Structural insights on starch hydrolysis by plant β-amylase and its evolutionary relationship with bacterial enzymes

Self-Assembly of Hausmannite Mn3O4 Triangular Structures on Cocosin Protein Scaffolds for High Energy Density Symmetric Supercapacitor Application

Contact Info

Product

Resources

About

Self-Assembly of Hausmannite Mn₃O₄ Triangular Structures on Cocosin Protein Scaffolds for High Energy Density Symmetric Supercapacitor Application