Our Publications

For the most up-to-date publication list, please visit Dr. Sharad Gupta's Google Scholar Profile .

2025 +

  1. Biswas, A., Hivare, P., Solanki, R., Gupta, S., & Bhatia, D. D. (2025). Applications of Bionanomaterials in Neurodegenerative Diseases. Materials Advances.
  2. Vishwanath, R., Biswas, A., Modi, U., Gupta, S., Bhatia, D., & Solanki, R. (2025). Programmable short peptides for modulating stem cell fate in tissue engineering and regenerative medicine. Journal of Materials Chemistry B.
  3. Jain, S., Bhatt, J., Gupta, S., & Bhatia, D. D. (2025). Nanotechnology at the crossroads of stem cell medicine. Biomaterials Science, 13(1), 161–178.
  4. Swarup, G., Kanik, P., Shekhar, V., & Gupta, S. (2025). β-and γ-secretases as therapeutic targets for Alzheimer's disease. In Targeted Therapy for the Central Nervous System (pp. 239–263).

2024 +

  1. Joshi, U., Shah, S., Gupta, S., George, L. B., & Highland, H. (2024). Evaluation of Exosomal Proteins as Potential Biomarkers from RBC Stages of Plasmodium falciparum 3D7. ACS Infectious Diseases, 11(1), 164–180.
  2. Kumar, R., Varshney, R., & Gupta, S. (2024). The crosstalk between insulin resistance and tau pathology. Alzheimer's & Dementia, 20, e092703.
  3. Joshi, U., Shah, S., Nanavaty, V., Gupta, S., Highland, H., & George, L. (2024). High-Throughput Isolation and Sequencing of Cellular and Exosomal microRNAs from Erythrocytic Stages of Plasmodium Falciparum 3D7 Infection Using Novaseq 6000 Illumina. Blood, 144, 5208.
  4. Hema Naveena, A., Kansara, K., Singh, N., Gupta, S., Kumar, A., & Bhatia, D. (2024). Peptide modified, programmable DNA tetrahedra to modulate autophagy in biological systems. bioRxiv. https://doi.org/10.1101/2024.11.03.621781
  5. Panda, C., Kumar, S., Gupta, S., & Pandey, L. M. (2024). Insulin fibrillation under physicochemical parameters of bioprocessing and intervention by peptides and surface-active agents. Critical Reviews in Biotechnology, 1–22.
  6. Joshi, U., Pandya, M., Gupta, S., George, L. B., & Highland, H. (2024). Extracellular Proteomic Profiling from the Erythrocytes Infected with Plasmodium Falciparum 3D7 Holds Promise for the Detection of Biomarkers. The Protein Journal, 43(4), 819–833.
  7. Panda, C., Dumka, S., Kumar, S., Gupta, S., & Pandey, L. M. (2024). Natural lipopeptide surfactin inhibits insulin aggregation and prevents amyloid-induced cytotoxicity and inflammation. Journal of Molecular Liquids, 404, 124917.
  8. Yadav, P., Benner, D., Varshney, R., Kansara, K., Shah, K., Dahle, L., Kumar, A., ... & Gupta, S. (2024). Dopamine-Functionalized, Red Carbon Quantum Dots for In Vivo Bioimaging, Cancer Therapeutics, and Neuronal Differentiation. ACS Applied Bio Materials, 7(6), 3915–3931.
  9. Sree, H., Swarup, G., Gupta, S., & Pushpavanam, K. (2024). Gravity-Driven Separation for Enrichment of Rare Earth Elements Using Lanthanide Binding Peptide-Immobilized Resin. ACS Applied Bio Materials.
  10. Bineshian, H., Gupta, S., & Hegde, R. K. (2024). Tm's output in T01 of usbrlp; An efficient and safe hybrid tunnelling method. Water and Energy International, 67(1), 74–74.
  11. Panda, C., Gupta, S., Kumar, S., & Pandey, L. (2024). Surfactin Abrogates Insulin Aggregation and Reduces Aggregate-Mediated Cytotoxicity and Inflammation. SSRN. https://ssrn.com/abstract=4779679
  12. Gangrade, A., Hivare, P., Gupta, S., & Bhatia, D. (2024). DNA-based programmable hydrogels for tissue engineering and regenerative medicine. In Hydrogels for Tissue Engineering and Regenerative Medicine (pp. 367–385).
  13. Singh, R., Kansara, K., Yadav, P., Mandal, S., Varshney, R., Gupta, S., ... & Bhatia, D. (2024). DNA tetrahedral nanocages as a promising nanocarrier for dopamine delivery in neurological disorders. Nanoscale, 16(32), 15158–15169.

2023 +

  1. Hivare, P., Mujmer, K., Swarup, G., Gupta, S., & Bhatia, D. (2023). Endocytic pathways of pathogenic protein aggregates in neurodegenerative diseases. Traffic, 24(10), 434–452.
  2. Bhavsar, K., Shekhar, V., & Gupta, S. (2023). Protein Carbamylation in Neurodegeneration and other age-related disorders. Indian Journal of Biochemistry and Biophysics (IJBB), 60(9), 659–665.
  3. Patel, P., Mujmer, K., Aswal, V. K., Gupta, S., & Thareja, P. (2023). Structure, rheology, and 3D printing of salt-induced κ-carrageenan gels. Materials Today Communications, 35, 105807.
  4. Menon, D., Singh, R., Joshi, K. B., Gupta, S., & Bhatia, D. (2023). Designer, Programmable DNA‐peptide hybrid materials with emergent properties to probe and modulate biological systems. ChemBioChem, 24(5), e202200580.
  5. Panda, C., Kumar, S., Gupta, S., Pandey, L. M., Zhang, C., Uchikoshi, T., ... & Takeda, T. (2023). Structural, kinetic, and thermodynamic aspects of insulin aggregation. Physical Chemistry Chemical Physics, 25(36), 24195–24213.
  6. Hivare, P., Singh, U., Mujmer, K., Gupta, S., & Bhatia, D. (2023). Red emitting fluorescent carbon nanoparticles to track spatio-temporal dynamics of endocytic pathways in model neuroblastoma neurons. Nanoscale, 15(3), 1154–1171.

2022 +

  1. Hivare, P., Gadhavi, J., Bhatia, D., & Gupta, S. (2022). α‐Synuclein fibrils explore actin‐mediated macropinocytosis for cellular entry into model neuroblastoma neurons. Traffic, 23(7), 391–410.
  2. Gadhavi, J., Shah, S., Sinha, T., Jain, A., & Gupta, S. (2022). Charge neutralization of lysine via carbamylation reveals hidden aggregation hot‐spots in tau protein flanking regions. The FEBS Journal, 289(9), 2562–2577.
  3. Fletcher, R., Xie, L., Phipps, J., Sanman, L., Deshmukh, S., Shah, D., ... & Gupta, S. (2022). P074 SZN-1326 promotes colonic mucosal healing in an acute injury model of IBD by first accelerating epithelial regeneration and secondarily reducing inflammation. Journal of Crohn's and Colitis, 16(Suppl. 1), i178.
  4. Hivare, P., Gangrade, A., Swarup, G., Bhavsar, K., Singh, A., Gupta, R., ... & Gupta, S. (2022). Peptide functionalized DNA hydrogel enhances neuroblastoma cell growth and differentiation. Nanoscale, 14(24), 8611–8620.
  5. Gadhavi, J., Patel, M., Bhatia, D., & Gupta, S. (2022). Neurotoxic or neuroprotective: Post-translational modifications of α-synuclein at the cross-roads of functions. Biochimie, 192, 38–50.

2021 +

  1. Marapureddy, S. G., Hivare, P., Sharma, A., Chakraborty, J., Ghosh, S., Gupta, S., ... & Thareja, P. (2021). Rheology and direct write printing of chitosan-graphene oxide nanocomposite hydrogels for differentiation of neuroblastoma cells. Carbohydrate Polymers, 269, 118254.
  2. Jaydeepsinh Chavda, S. G. I. G., & Bhavsar, K. (2021). BODIPY-peptide conjugate: Synthesis, photo-physical and cell viability studies. Journal of Porphyrins and Phthalocyanines.
  3. Panda, C., Voelz, C., Habib, P., Mevissen, C., Pufe, T., Beyer, C., Gupta, S., ... & Jain, R. (2021). Aggregated Tau-PHF6 (VQIVYK) potentiates NLRP3 inflammasome expression and autophagy in human microglial cells. Cells, 10(7), 1652.
  4. Marapureddy, S. G., Hivare, P., Kumar, S., Gupta, S., & Thareja, P. (2021). Carbamoylated chitosan hydrogels with improved viscoelastic properties and stability for potential 3D cell culture applications. Biomedical Materials, 16(4), 045019.
  5. Hivare, P., Rajwar, A., Gupta, S., & Bhatia, D. (2021). Spatiotemporal dynamics of endocytic pathways adapted by small DNA nanocages in model neuroblastoma cell-derived differentiated neurons. ACS Applied Bio Materials, 4(4), 3350–3359.
  6. Hivare, P., Panda, C., Gupta, S., & Bhatia, D. (2021). Programmable DNA nanodevices for applications in neuroscience. ACS Chemical Neuroscience, 12(3), 363–377.
  7. Maqbool, M., Gadhavi, J., Singh, A., Hivare, P., Gupta, S., & Hoda, N. (2021). Unravelling the potency of triazole analogues for inhibiting α-synuclein fibrillogenesis and in vitro disaggregation. Organic & Biomolecular Chemistry, 19(7), 1589–1603.

2020 +

  1. Rajwar, A., Kharbanda, S., Chandrasekaran, A. R., Gupta, S., & Bhatia, D. (2020). Designer, programmable 3D DNA nanodevices to probe biological systems. ACS Applied Bio Materials, 3(11), 7265–7277.
  2. Taki, K., Choudhary, S., Gupta, S., & Kumar, M. (2020). Enhancement of geotechnical properties of municipal sewage sludge for sustainable utilization as engineering construction material. Journal of Cleaner Production, 251, 119723.
  3. Krishna Kumar, V. G., Taki, K., Gupta, S., & Sachan, A. (2020). Improving "Shrinkage-Swelling" Response of Expansive Soil Using Bio-calcite and Exopolysaccharide Produced by Bacillus sp. In Advances in Computer Methods and Geomechanics (pp. 1–10).
  4. Maqbool, M., Gadhavi, J., Hivare, P., Gupta, S., & Hoda, N. (2020). Diphenyl triazine hybrids inhibit α-synuclein fibrillogenesis: Design, synthesis and in vitro efficacy studies. European Journal of Medicinal Chemistry, 207, 112705.

2019 +

  1. Kumar, S., Krishnakumar, V. G., Morya, V., Gupta, S., & Datta, B. (2019). Nanobiocatalyst facilitated aglycosidic quercetin as a potent inhibitor of tau protein aggregation. International Journal of Biological Macromolecules, 138, 168–180.
  2. Patlolla, P. R., Desai, N., Gupta, S., & Datta, B. (2019). Interaction of a dimeric carbocyanine dye aggregate with bovine serum albumin in non-aggregated and aggregated forms. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 209, 256–263.
  3. KrishnaKumar, V. G., Baweja, L., Ralhan, K., & Gupta, S. (2018). Carbamylation promotes amyloidogenesis and induces structural changes in Tau-core hexapeptide fibrils. Biochimica et Biophysica Acta (BBA) - General Subjects, 1862(12), 2590–2604.

2017 +

  1. Mani, V., Krishnakumar, V. G., Gupta, S., Mori, S., & Gupta, I. (2017). Synthesis and characterization of styryl-BODIPY derivatives for monitoring in vitro Tau aggregation. Sensors and Actuators B: Chemical, 244, 673–683.
  2. KrishnaKumar, V. G., & Gupta, S. (2017). Simplified method to obtain enhanced expression of tau protein from E. coli and one-step purification by direct boiling. Preparative Biochemistry and Biotechnology, 47(5), 530–538.

2015 +

  1. Morozova, O. A., Gupta, S., & Colby, D. W. (2015). Prefibrillar huntingtin oligomers isolated from HD brain potently seed amyloid formation. FEBS Letters, 589(15), 1897–1903.
  2. Ralhan, K., KrishnaKumar, V. G., & Gupta, S. (2015). Piperazine and DBU: a safer alternative for rapid and efficient Fmoc deprotection in solid phase peptide synthesis. RSC Advances, 5(126), 104417–104425.

2008 +

  1. Rice, W. L., Firdous, S., Gupta, S., Hunter, M., Foo, C. W. P., Wang, Y., ... & Kaplan, D. L. (2008). Non-invasive characterization of structure and morphology of silk fibroin biomaterials using non-linear microscopy. Biomaterials, 29(13), 2015–2024.
  2. Schafmeister, C. E., Brown, Z. Z., & Gupta, S. (2008). Shape-programmable macromolecules. Accounts of Chemical Research, 41(10), 1387–1398.

2003 +

  1. Biswal, N. C., Gupta, S., Ghosh, N., & Pradhan, A. (2003). Recovery of turbidity free fluorescence from measured fluorescence: an experimental approach. Optics Express, 11(24), 3320–3331.
  2. Agarwal, N., Gupta, S., Pradhan, A., Vishwanathan, K., & Panigrahi, P. K. (2003). Wavelet transform of breast tissue fluorescence spectra: a technique for diagnosis of tumors. IEEE Journal of Selected Topics in Quantum Electronics, 9(2), 154–161.

1978 +

  1. Gupta, S., Goswami, B., Sarkar, S., & Saha, P. K. (1978). Congenital and acquired coarctation of aorta. Journal of the Indian Medical Association, 70(7), 148–151.

This completes the full list of publications in APA 7th edition format, organized chronologically with journal names highlighted and S. Gupta emphasized in bold.