Ashma Khan scite author profile

Ashma Khan

5Publications

6Citation Statements Received

343Citation Statements Given

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Aligarh Muslim University

Publications

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Effect of TMAO and Urea on Dimers and Tetramers of Amyloidogenic Heptapeptides (²³FGAILSS²⁹)

Khan

Nayeem

2020

ACS Omega

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Human islet amyloid polypeptide (hIAPP) (1–37) is an intrinsically disordered protein that is released with insulin by β-cells found in the pancreas. Under certain environmental conditions, hIAPP can aggregate, which leads to β-cell death. FGAILSS (23–29) residues of the hIAPP protein form β sheets, which may be toxic species in type 2 diabetes (T2D) patients. All-atom molecular dynamics (MD) simulations have been used to analyze the effect of two distinct types of osmolytes trimethylamine N-oxide (TMAO) and urea on two and four FGAILSS heptapeptides. TMAO leads the individual peptide toward an extended conformation with a higher radius of gyration and favors the formation of antiparallel β-sheets with an increase in its concentration. However, urea mostly shows compaction of individual peptides except at 4.0 M in the case of a tetramer but does not show aggregation behavior as a whole. TMAO leads both the dimer and tetramer toward the native state with an increase in its concentration. Moreover, both the dimer and tetramer show irregular behavior in urea. The tetramer in 4.0 M urea shows the maximum fraction of native contacts due to the formation of antiparallel β-sheets. This formation of antiparallel β-sheets favors the aggregation of peptides. TMAO forms a smaller number of hydrogen bonds with peptides as compared to urea as the exclusion of TMAO and accumulation of urea around the peptides have occurred in the first solvation shell (FSS). Principal component analysis (PCA) results suggest that the minima in the free energy landscape (FEL) plot are homogeneous for a particular conformation in TMAO with smaller basins, while in urea, the dimer shows minima mostly for extended conformations. For a 4.0 M urea concentration, the tetramer shows the minimum for antiparallel β-sheets, which indicates the aggregation behavior of the tetramer, and for a higher concentration, it shows minima with wider basins of extended conformations.

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Identification of new oxospiro chromane quinoline-carboxylate antimalarials that arrest parasite growth at ring stage

Jameel

Madhav

Agrawal

et al. 2023

Journal of Biomolecular Structure and Dynamics

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Stability of the Aβ42 Peptide in Mixed Solutions of Denaturants and Proline

Khan

Nayeem

2023

J. Phys. Chem. B

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Amyloid β-peptide (Aβ) is responsible for the neuronal damage and death of a patient with Alzheimer's disease (AD). Aβ42 oligomeric forms are dominant neurotoxins and are related to neurodegeneration. Their different forms are related to various pathological conditions in the brain. We investigated Aβ42 peptides in different environments of proline, urea, and GdmCl solutions (in pure and mixed binary forms) through atomistic molecular dynamics simulations. Preferential exclusion from the protein surface and facile formation of a large number of weak molecular interactions are the driving forces for the osmolyte's action. We have focused on these interactions between peptide monomers and pure/mixed osmolytes and denaturants. Urea, as usual, denatures the peptide strongly compared to the GdmCl by accumulation around the peptide. GdmCl shows lesser build-up around protein in contrast to urea but is involved in destabilizing the salt bridge formation of Asp23 and Lys28. Proline as an osmolyte protects the peptide from aggregation when mixed with urea and GdmCl solutions. In mixed solutions of two denaturants and osmolyte plus denaturant, the peptide shows enhanced stability as compared to pure denaturant urea solution. The enhanced stability of peptides in proline may be attributed to its exclusion from the peptide surface and favoring salt bridge formation.

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In Silico Studies of The Human IAPP In Presence of Osmolytes

Khan

Jahan

Nayeem

2021

Preprint

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The human islet amyloid polypeptide or amylin is secreted along with insulin by pancreatic islets. Under the drastic environmental conditions, amylin can aggregate to form amyloid fibrils. This amyloid plaque of hIAPP in the pancreatic cells is the cause of Type II diabetes. Early stages of amylin aggregates are more cytotoxic than the matured fibrils. Here, we have used the all-atom molecular dynamic simulation to see the effect of water, TMAO, urea and urea:TMAO having ratio 2:1 of different concentrations on the amylin protein. Our study suggest that the amylin protein forms β-sheets in its monomeric form and may cause the aggregation of protein through the residue 13-17 and the C-terminal region. α-helical content of protein increases with an increase in TMAO concentration by decreasing the SASA value of protein, increase in intramolecular hydrogen bonds and on making the short range hydrophobic interactions. Electrostatic potential surfaces shows that hydrophobic groups are buried and configurational entropy of backbone atoms is lesser in presence of TMAO, whereas opposite behaviour is obtained in case of urea. Counteraction effect of TMAO using Kast model towards urea is also observed in ternary solution of urea:TMAO.

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In silico studies of the human IAPP in the presence of osmolytes

2022

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Ashma Khan

Effect of TMAO and Urea on Dimers and Tetramers of Amyloidogenic Heptapeptides (²³FGAILSS²⁹)

Identification of new oxospiro chromane quinoline-carboxylate antimalarials that arrest parasite growth at ring stage

Stability of the Aβ42 Peptide in Mixed Solutions of Denaturants and Proline

In Silico Studies of The Human IAPP In Presence of Osmolytes

In silico studies of the human IAPP in the presence of osmolytes

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Ashma Khan

Effect of TMAO and Urea on Dimers and Tetramers of Amyloidogenic Heptapeptides (23FGAILSS29)

Identification of new oxospiro chromane quinoline-carboxylate antimalarials that arrest parasite growth at ring stage

Stability of the Aβ42 Peptide in Mixed Solutions of Denaturants and Proline

In Silico Studies of The Human IAPP In Presence of Osmolytes

In silico studies of the human IAPP in the presence of osmolytes

Contact Info

Product

Resources

About

Effect of TMAO and Urea on Dimers and Tetramers of Amyloidogenic Heptapeptides (²³FGAILSS²⁹)