S
Sonal Deshpande
Researcher at Indian Institute of Technology Delhi
Publications - 11
Citations - 249
Sonal Deshpande is an academic researcher from Indian Institute of Technology Delhi. The author has contributed to research in topics: DNA nanotechnology & RNA interference. The author has an hindex of 5, co-authored 9 publications receiving 190 citations. Previous affiliations of Sonal Deshpande include National Chemical Laboratory & Duke University.
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Journal ArticleDOI
Mitigating the Cytotoxicity of Graphene Quantum Dots and Enhancing Their Applications in Bioimaging and Drug Delivery
Anil Chandra,Anil Chandra,Sonal Deshpande,Sonal Deshpande,Dhanraj B. Shinde,Vijayamohanan K. Pillai,Neetu Singh,Neetu Singh +7 more
TL;DR: The enhanced biocompatibility of polymer modified, P-GQDs, is attributed to reduced reactive oxygen species generation, as measured by an intracellular ROS assay.
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Enhancing Cubosome Functionality by Coating with a Single Layer of Poly-ε-lysine
Sonal Deshpande,Edakkal Venugopal,Shobha V. Ramagiri,Jayesh R. Bellare,Guruswamy Kumaraswamy,Neetu Singh +5 more
TL;DR: Interestingly, cubosomes loaded with Naproxen sodium, recently shown to have anticancer properties, cause more apoptosis in HeLa cells when compared to free unencapsulated drug.
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Core–Shell Nanoparticles as an Efficient, Sustained, and Triggered Drug-Delivery System
TL;DR: Interestingly, it is observed that when HeLa cells were treated with doxorubicin-loaded gold core–polymeric shell NPs and exposed to rf for varying times, the mixture of the two polymeric shell nanoparticles induced more cell death as compared to the cells treated with single nanoparticles, suggesting that such multi-nanoparticle systems can be more efficacious delivery systems instead of a single multicomponent system.
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Influence of Cubosome Surface Architecture on Its Cellular Uptake Mechanism
TL;DR: The importance of surface architecture of cubosomes is reported by comparing their cellular uptake mechanism with poly-ε-lysine (PεL)-coated cubosome by showing that endosomal entrapment was evaded by uncoatedCubosomes, they can be preferably used for cytosolic delivery of therapeutic agents.
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Programmable site-specific functionalization of DNA origami with polynucleotide brushes
Yunqi Yang,Qinyi Lu,Chao-Min Huang,Hongji Qian,Yunlong Zhang,Sonal Deshpande,Gaurav Arya,Yonggang Ke,Stefan Zauscher +8 more
TL;DR: In this article, the authors demonstrate that SI-TcEP can site-specifically pattern DNA origami nanostructures with brushes containing both natural and non-natural nucleotides.