Molecular dynamics of hemoglobin reveals structural alterations and explains the interactions driving sickle cell fibrillation
In sickle cell anemia, deoxyhemoglobin deforms RBCs by forming fibrils inside that
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
Molecular Dynamics of Hemoglobin Reveals Structural Alterations and Explains the Interactions Driving Sickle Cell Fibrillation
D Maity, D Pal - Journal of Physical Chemistry B, 2021 - eprints.iisc.ac.in
In sickle cell anemia, deoxyhemoglobin deforms RBCs by forming fibrils inside that
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
Molecular Dynamics of Hemoglobin Reveals Structural Alterations and Explains the Interactions Driving Sickle Cell Fibrillation
D Maity, D Pal - The journal of physical chemistry. B, 2021 - pubmed.ncbi.nlm.nih.gov
In sickle cell anemia, deoxyhemoglobin deforms RBCs by forming fibrils inside that
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
Molecular Dynamics of Hemoglobin Reveals Structural Alterations and Explains the Interactions Driving Sickle Cell Fibrillation.
D Maity, D Pal - The Journal of Physical chemistry. B, 2021 - europepmc.org
In sickle cell anemia, deoxyhemoglobin deforms RBCs by forming fibrils inside that
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
Molecular Dynamics of Hemoglobin Reveals Structural Alterations and Explains the Interactions Driving Sickle Cell Fibrillation
D Maity, D Pal - Journal of Physical Chemistry B, 2021 - eprints.iisc.ac.in
In sickle cell anemia, deoxyhemoglobin deforms RBCs by forming fibrils inside that
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …
disintegrate on oxygenation. We studied 100 ns long all-atom molecular dynamics (MD) for …