Size distribution of protein polymers
Identifieur interne : 005195 ( Main/Exploration ); précédent : 005194; suivant : 005196Size distribution of protein polymers
Auteurs : Fumio Oosawa [Japon]Source :
- Journal of Theoretical Biology [ 0022-5193 ] ; 1970.
English descriptors
- Teeft :
- Actin, Actin polymers, Asakura, Average degree, Average length, Bacterial flagellin, Biol, Biological systems, Casper, Critical concentration, Crystallization, Depolymerization, Experimental data, Final equilibrium, Final stage, Flagellin, Free energy, Globular, Globular protein molecules, Helical, Kasai, Kawamura, Kinetic constants, Macroscopic polymers, Maruyama, Molec, Monomer, Monomer concentration, Neighbouring, Neighbouring monomers, Number concentration, Oosawa, Oosawa higashi, Oosawa kasai, Poisson distribution, Polymer, Polymer size, Polymerization, Polymerization equilibrium, Present case, Present theory, Previous case, Protein molecules, Protein polymers, Relative deviation, Relaxation time, Reversible polymerization, Second term, Short polymers, Size distribution, Small polymers, Sonic vibration, Spontaneous nucleation, Total concentration, Total number, Total number concentration, True equilibrium, Tubular polymers, Various conditions.
Abstract
Abstract: Theoretical analyses were made on the size distribution of tubular or helical polymers of globular protein molecules in the reversible polymerization. In the true final equilibrium, polymerization approximates to a kind of crystallization and the average degree of polymerization becomes very large; nevertheless, the size distribution is of a simple exponential type, the same as found in macromolecular chemistry (Flory, 1953). Even when spontaneous nucleation is inhibited and the number of polymers is given, the final distribution must tend towards the exponential type. Free energy due to deviation of the size distribution from the true equilibrium was calculated. It is very much smaller than the main free energy coming from the monomer-polymer equilibrium. Kinetics showed that polymerization having characteristics of crystallization usually consists of three stages—nucleation, growth and redistribution of polymer size. In the first and second stages where the rate of depolymerization is negligible, the concentration of monomers approaches closely to the equilibrium value. In the third stage, where both polymerization and depolymerization take place nearly at the same rate, the size distribution is slowly transformed into the exponential type. The relaxation time for such redistribution was estimated as a function of rate constants and the average degree of polymerization under various conditions. All of the theoretical results are quantitatively in good agreement with experimental data on polymerization of globular proteins such as actin and flagellin. Brief analyses were added on the size distribution of two-dimensional membraneous polymers and distorted polymers.
Url:
DOI: 10.1016/0022-5193(70)90129-3
Affiliations:
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In the true final equilibrium, polymerization approximates to a kind of crystallization and the average degree of polymerization becomes very large; nevertheless, the size distribution is of a simple exponential type, the same as found in macromolecular chemistry (Flory, 1953). Even when spontaneous nucleation is inhibited and the number of polymers is given, the final distribution must tend towards the exponential type. Free energy due to deviation of the size distribution from the true equilibrium was calculated. It is very much smaller than the main free energy coming from the monomer-polymer equilibrium. Kinetics showed that polymerization having characteristics of crystallization usually consists of three stages—nucleation, growth and redistribution of polymer size. In the first and second stages where the rate of depolymerization is negligible, the concentration of monomers approaches closely to the equilibrium value. In the third stage, where both polymerization and depolymerization take place nearly at the same rate, the size distribution is slowly transformed into the exponential type. The relaxation time for such redistribution was estimated as a function of rate constants and the average degree of polymerization under various conditions. All of the theoretical results are quantitatively in good agreement with experimental data on polymerization of globular proteins such as actin and flagellin. Brief analyses were added on the size distribution of two-dimensional membraneous polymers and distorted polymers.</div></front></TEI><affiliations><list><country><li>Japon</li></country></list><tree><country name="Japon"><noRegion><name sortKey="Oosawa, Fumio" sort="Oosawa, Fumio" uniqKey="Oosawa F" first="Fumio" last="Oosawa">Fumio Oosawa</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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