期刊
BIOPHYSICAL JOURNAL
卷 84, 期 2, 页码 1272-1280出版社
BIOPHYSICAL SOCIETY
DOI: 10.1016/S0006-3495(03)74942-X
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We have studied the structural and viscoelastic properties of assembling networks of the extracellular matrix protein typed collagen by means of phase contrast microscopy and rotating disk rheometry. The initial stage of the assembly is a nucleation process of collagen monomers associating to randomly distributed branched clusters with extensions of several microns. Eventually a sol-gel transition takes place, which is due to the interconnection of these clusters. We analyzed this transition in terms of percolation theory. The viscoelastic parameters (storage modulus G' and loss modulus G) were measured as a function of time for five different frequencies ranging from omega = 0.2 rad/s to 6.9 rad/s. We found that at the gel point both G' and G obey a scaling law G' (omega) alpha G (omega) alpha omega(Delta), with the critical exponent Delta = 0.7 and a critical loss angle delta(tan delta = G / G') being independent of frequency as predicted by percolation theory. Gelation of collagen thus represents a second order phase transition.
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