Advancing research and innovation for a better future
Thermodynamics of mechanopeptide sidechains
Published in: AIP Advances
Summary:
This influential study examines the thermodynamic properties of mechanopeptide side chains, offering insights into their mechanical and chemical behavior. Recognized globally as a study material at universities such as Harvard and other renowned institutions, this research has paved the way for advancements in neuropeptide-based biomaterials.
Protein misfolding thermodynamics
Published in: The Journal of Physical Chemistry Letters
Summary:
The work explains how α-helix is transformed into β-sheet and how proteins aggregate through β-sheet. Neurodegenerative deseases are a result of neuropeptide aggregagtes.
Separating cancer cells using light.
Published in: RSC Advances
Summary:
This patented study demonstrates a novel method of separating cancer cells from healthy cells using light. Its practical application has had significant implications in biomedical diagnostics and treatment.
Stiffness of red blood cells
Published in: Biomedical Optics Express
Summary:
The rigidity of healthy red blood cells is higher than that of cancer cells.
Binding area determination
Published in: Journal of Biomolecular Structure and Dynamics
Summary:
Ligand binding to protein changes the protein’s conformation. The work determines the conformational area of the protein.
Molecular transport across the blood-brain barrier
Published in: Journal of Bioenergetics and Biomembranes
Summary:
The work explains the mechanism of the rate of molecular diffusion across the cell membranes.
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