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W2100309260 abstract "Abstract Insulin aggregation critically depends on pH. The underlying energetic and structural determinants are, however, unknown. Here, we measure the kinetics of the primary aggregation steps of the insulin monomer in vitro and relate it to its conformational flexibility. To assess these primary steps the monomer concentration was monitored by mass spectrometry at various pH values and aggregation products were imaged by atomic force microscopy. Lowering the pH from 3 to 1.6 markedly accelerated the observed aggregation kinetics. The influence of pH on the monomer structure and dynamics in solution was studied by molecular dynamics simulations, with the protonation states of the titrable groups obtained from electrostatic calculations. Reduced flexibility was observed for low pH values, mainly in the C terminus and in the helix of the B chain; these corresponded to an estimated entropy loss of 150 J mol −1 K −1 . The striking correlation between entropy loss and pH value is consistent with the observed kinetic traces. In analogy to the well‐known Φ value analysis, this result allows the extraction of structural information about the rate determining transition state of the primary aggregation steps. In particular, we suggest that the residues in the helix of the B chain are involved in this transition state." @default.
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W2100309260 date "2009-07-13" @default.
W2100309260 modified "2023-10-17" @default.
W2100309260 title "Primary Steps of pH-Dependent Insulin Aggregation Kinetics are Governed by Conformational Flexibility" @default.
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W2100309260 doi "https://doi.org/10.1002/cbic.200900266" @default.
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