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Protein microparticles visualize the contact network and rigidity onset in the gelation of model proteins

Joep Rouwhorst, Carlijn van Baalen, Krassimir P. Velikov, Mehdi Habibi, Erik van der Linden, Peter Schall

2021npj Science of Food15 citationsDOIOpen Access PDF

Abstract

Protein aggregation into gel networks is of immense importance in diverse areas from food science to medical research; however, it remains a grand challenge as the underlying molecular interactions are complex, difficult to access experimentally, and to model computationally. Early stages of gelation often involve protein aggregation into protein clusters that later on aggregate into a gel network. Recently synthesized protein microparticles allow direct control of these early stages of aggregation, decoupling them from the subsequent gelation stages. Here, by following the gelation of protein microparticles directly at the particle scale, we elucidate in detail the emergence of a percolating structure and the onset of rigidity as measured by microrheology. We find that the largest particle cluster, correlation length, and degree of polymerization all diverge with power laws, while the particles bind irreversibly indicating a nonequilibrium percolation process, in agreement with recent results on weakly attractive colloids. Concomitantly, the elastic modulus increases in a power-law fashion as determined by microrheology. These results give a consistent microscopic picture of the emergence of rigidity in a nonequilibrium percolation process that likely underlies the gelation in many more systems such as proteins, and other strongly interacting structures originating from (bio)molecules.

Topics & Concepts

MicrorheologyRigidity (electromagnetism)Chemical physicsPercolation (cognitive psychology)Power lawCluster (spacecraft)Percolation thresholdProtein aggregationNon-equilibrium thermodynamicsNanotechnologyHydrodynamic radiusRheologyMaterials scienceBiophysicsChemistryPhysicsNanoparticleComputer scienceBiologyThermodynamicsDynamic light scatteringMathematicsQuantum mechanicsElectrical resistivity and conductivityProgramming languageComposite materialBiochemistryStatisticsNeuroscienceProteins in Food SystemsPolysaccharides Composition and ApplicationsMicroencapsulation and Drying Processes
Protein microparticles visualize the contact network and rigidity onset in the gelation of model proteins | Litcius