Thermal (in)stability of type I collagen fibrils

We measured the Young's modulus at temperatures ranging from 20 to 100 degrees C for a collagen fibril that is taken from a rat's tendon. The hydration change under heating and the damping decrement were measured as well. At physiological temperatures 25 to 45 degrees C, the Young's m...

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Published in:	Physical review letters Vol. 102; no. 4; p. 048101
Main Authors:	Gevorkian, S G, Allahverdyan, A E, Gevorgyan, D S, Simonian, A L
Format:	Journal Article
Language:	English
Published:	United States 30-01-2009
Subjects:	Achilles Tendon - chemistry Achilles Tendon - ultrastructure Animals Collagen Type I - chemistry Collagen Type I - isolation & purification Drug Stability Elasticity Protein Conformation Rats Temperature Viscosity
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Abstract	We measured the Young's modulus at temperatures ranging from 20 to 100 degrees C for a collagen fibril that is taken from a rat's tendon. The hydration change under heating and the damping decrement were measured as well. At physiological temperatures 25 to 45 degrees C, the Young's modulus decreases, which can be interpreted as an instability of the collagen. For temperatures between 45 and 80 degrees C, the Young's modulus first stabilizes and then increases when the temperature is increased. The hydrated water content and the damping decrement have strong maximums in the interval 70 to 80 degrees C indicating complex intermolecular structural changes in the fibril. All these effects disappear after heat-denaturation of the sample at 120 degrees C. Our main achievement is a five-stage mechanism by which the instability of a single collagen at physiological temperatures is compensated by the interaction between collagen molecules.
AbstractList	We measured the Young's modulus at temperatures ranging from 20 to 100 degrees C for a collagen fibril that is taken from a rat's tendon. The hydration change under heating and the damping decrement were measured as well. At physiological temperatures 25 to 45 degrees C, the Young's modulus decreases, which can be interpreted as an instability of the collagen. For temperatures between 45 and 80 degrees C, the Young's modulus first stabilizes and then increases when the temperature is increased. The hydrated water content and the damping decrement have strong maximums in the interval 70 to 80 degrees C indicating complex intermolecular structural changes in the fibril. All these effects disappear after heat-denaturation of the sample at 120 degrees C. Our main achievement is a five-stage mechanism by which the instability of a single collagen at physiological temperatures is compensated by the interaction between collagen molecules.
ArticleNumber	048101
Author	Gevorgyan, D S Simonian, A L Allahverdyan, A E Gevorkian, S G
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CitedBy_id	crossref_primary_10_1016_j_jaad_2015_06_025 crossref_primary_10_1021_acsami_8b05857 crossref_primary_10_1007_s00421_016_3444_5 crossref_primary_10_1002_bip_21618 crossref_primary_10_1209_0295_5075_95_23001 crossref_primary_10_1295_koron_2015_0033 crossref_primary_10_1088_1758_5090_ad2d2f
Cites_doi	10.1557/jmr.2006.0236 10.1002/bip.1977.360160202 10.1529/biophysj.106.103192 10.1074/jbc.273.48.31822 10.1016/0022-2836(79)90339-5 10.1016/j.jbiomech.2004.02.028 10.1016/0021-9290(95)00110-7 10.1016/S1359-0294(03)00011-6 10.1023/A:1024533801497 10.1002/bip.360240909 10.1073/pnas.032307099 10.1007/s10439-007-9296-8 10.1111/j.1432-1033.1994.00729.x 10.1016/S0370-1573(96)00047-6 10.1038/267285a0 10.1073/pnas.0603216103 10.1016/S0065-3233(08)60468-4 10.1103/PhysRevLett.57.2085 10.1002/bip.1978.360171205 10.1529/biophysj.106.085902 10.1073/pnas.042707899 10.1016/j.jbiomech.2004.07.011 10.1002/bip.1981.360200304
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References	PhysRevLett.102.048101Cc20R1 S. G. Gevorkian (PhysRevLett.102.048101Cc15R1) 2005; 34 PhysRevLett.102.048101Cc18R1 S. G. Gevorkian (PhysRevLett.102.048101Cc17R1) 1983; 28 PhysRevLett.102.048101Cc19R1 PhysRevLett.102.048101Cc5R1 PhysRevLett.102.048101Cc4R1 PhysRevLett.102.048101Cc10R1 PhysRevLett.102.048101Cc3R1 PhysRevLett.102.048101Cc2R1 PhysRevLett.102.048101Cc13R1 PhysRevLett.102.048101Cc13R2 PhysRevLett.102.048101Cc14R1 PhysRevLett.102.048101Cc11R1 PhysRevLett.102.048101Cc12R1 PhysRevLett.102.048101Cc8R5 PhysRevLett.102.048101Cc9R4 PhysRevLett.102.048101Cc8R4 PhysRevLett.102.048101Cc9R3 PhysRevLett.102.048101Cc8R3 PhysRevLett.102.048101Cc9R2 PhysRevLett.102.048101Cc8R2 PhysRevLett.102.048101Cc9R1 PhysRevLett.102.048101Cc8R1 PhysRevLett.102.048101Cc6R1 L. D. Landau (PhysRevLett.102.048101Cc16R1) 1965 G. N. Ramachandran (PhysRevLett.102.048101Cc1R1) 1967
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SubjectTerms	Achilles Tendon - chemistry Achilles Tendon - ultrastructure Animals Collagen Type I - chemistry Collagen Type I - isolation & purification Drug Stability Elasticity Protein Conformation Rats Temperature Viscosity
Title	Thermal (in)stability of type I collagen fibrils
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