Unmesh D. Chowdhury scite author profile

Knowledge of the interaction of the tau fibrils with the cell membrane is critical for the understanding of the underlying tauopathy pathogenesis. Lipid composition is found to affect the conformational ensemble of the tau fibrils. Using coarse‐grained and all‐atom molecular dynamics simulations we have shown the effect of the lipid composition in modulating the tau structure and dynamics. Molecular dynamics simulations show that tau proteins interact differentially with the zwitterionic compared to the charged lipid membranes. The negatively charged POPG lipid membranes increase the binding propensity of the tau fibrils. The addition of cholesterol is also found to modify the tau binding to the membrane. The binding of tau fibril leads to the concomitant loss of the β‐sheet structures across the tau residues alongside the change in the membrane properties (like area per lipid, bilayer thickness, and order parameter of the lipid tails) over the pure bilayers.

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Anatomy of Classical Boron–Boron Bonding: Overlap and sp Dissonance

Pancharatna

Dar

Chowdhury

et al. 2022

J. Phys. Chem. A

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Classical bonding is predominantly understood using the insipid spn hybridization for σ-bonds as well as π bonds and their delocalized variants. Because hybridization ignores intricate differences in the energy and size of valence atomic orbitals, its naïve application to classically bonded boron atoms leads to numerous surprises in bond strengths, frontier MOs/bands, and even geometry. Here we show that the sp dissonance caused by size mismatch between the valence s and p orbitals of boron plays a crucial role in its bonding, subtly distinct from that of carbon and silicon. Unlike the heavier p block elements, boron prefers to actively engage its compact 2s orbitals in bonding. This leads to the overreach of p–p σ-type overlap that reduces its magnitude in the entire BB bonding range. Consequently, the π-type overlap remains substantial, making its electronic structure visibly distinct in saturated and unsaturated regimes. The deltahedral frameworks offer a compromise by breaking this symmetry-enforced dichotomy of classical σ- and π-type bonding and following alternate electron counts that suit the electron deficiency of the boron. The pathological anatomy of classical BB σ-bonding also explains the origins of puzzling metallic character and disorder in their classical boride networks even with ideal electron count, unlike deltahedral borides. The implications of sp dissonance are illustrated in classical boron networks of various hybridizations, explaining the unusual preference for unique sp3 lattice with strained four-membered rings in CrB4, origins of observed σ holes in MgB2 that lead to its superconducting nature, and the absence of Peierls distortion in LiB.

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Understanding the screening effect of aqueous DES on the IDPs: A molecular dynamics simulation study using amyloidβ42monomer

Chowdhury

Malayil

Bhargava

2023

Journal of Molecular Graphics and Modelling

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