Cooperative Ordering of Collagen Triple Helices in the Dense State

Cooperative Ordering of Collagen Triple Helices in the Dense State

Extracellular matrixes such as bone, skin, cornea, and tendon have ordered structures comprised for the most part of collagen, an elongated protein of well-defined dimensions and composition. Here we show how the cooperative ordering of collagen triple helices in the dense fluid state is exploited t...

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Published in:Langmuir Vol. 23; no. 11; pp. 6411 - 6417
Main Authors: Gobeaux, F, Belamie, E, Mosser, G, Davidson, P, Panine, P, Giraud-Guille, M.-M
Format: Journal Article
Language:English
Published: Washington, DC American Chemical Society 22-05-2007
Subjects:
Animals
Anisotropy
Birefringence
Chemistry
Collagen Type I - chemistry
Collagen Type I - ultrastructure
Condensed Matter
Crystallization
Exact sciences and technology
General and physical chemistry
In Vitro Techniques
Microscopy, Electron
Multiprotein Complexes - chemistry
Multiprotein Complexes - ultrastructure
Physics
Protein Conformation
Rats
Scattering, Radiation
Soft Condensed Matter
Thermodynamics
X-Rays
Fluid state
Composition
Organization
Electrostatic interaction
Prediction
Strong interaction
Reflection
Dimension
Small angle X ray scattering
Equilibrium
Phase transitions
Protein
Carboxylic acid
Macromolecule
Order parameter
Collagen
Ordering
Bone
Acetic acid
Structure
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Abstract Extracellular matrixes such as bone, skin, cornea, and tendon have ordered structures comprised for the most part of collagen, an elongated protein of well-defined dimensions and composition. Here we show how the cooperative ordering of collagen triple helices in the dense fluid state is exploited to produce dense ordered collagen matrixes. The spontaneous formation of a birefringent phase occurs at critical concentrations that increase from 50−60 to 80−85 mg/mL as the acetic acid concentration of the solvent increases from 5 to 500 mM. We studied by small-angle X-ray scattering (SAXS) the local liquidlike positional order across the isotropic/anisotropic phase transition by unwinding the cholesteric phase with moderate shearing stress. Interparticle scattering gives rise to a broad interference peak. The average distance between triple helices, d av, is thus estimated and decreases linearly as a function of φ-1/2 from 12.7 ± 0.9 nm (22.5 mg/mL) to 5.0 ± 0.6 nm (166.4 mg/mL). Equilibrium concentrations and the order parameter of the nematic phase agree reasonably well with theoretical predictions for semiflexible macromolecules. Striated fibrils with a high degree of alignment were obtained by fine-tuning the delicately balanced electrostatic interactions, which yielded strong elastic gels with a hierarchical organization very similar to that of major biological tissues. Typical Bragg reflections corresponding to the 67 nm period characteristic of collagen fibrils in biological tissues were recorded by SAXS with ordered collagen matrixes reconstituted in vitro.
AbstractList Extracellular matrixes such as bone, skin, cornea, and tendon have ordered structures comprised for the most part of collagen, an elongated protein of well-defined dimensions and composition. Here we show how the cooperative ordering of collagen triple helices in the dense fluid state is exploited to produce dense ordered collagen matrixes. The spontaneous formation of a birefringent phase occurs at critical concentrations that increase from 50-60 to 80-85 mg/mL as the acetic acid concentration of the solvent increases from 5 to 500 mM. We studied by small-angle X-ray scattering (SAXS) the local liquidlike positional order across the isotropic/anisotropic phase transition by unwinding the cholesteric phase with moderate shearing stress. Interparticle scattering gives rise to a broad interference peak. The average distance between triple helices, dav, is thus estimated and decreases linearly as a function of phi-1/2 from 12.7 +/- 0.9 nm (22.5 mg/mL) to 5.0 +/- 0.6 nm (166.4 mg/mL). Equilibrium concentrations and the order parameter of the nematic phase agree reasonably well with theoretical predictions for semiflexible macromolecules. Striated fibrils with a high degree of alignment were obtained by fine-tuning the delicately balanced electrostatic interactions, which yielded strong elastic gels with a hierarchical organization very similar to that of major biological tissues. Typical Bragg reflections corresponding to the 67 nm period characteristic of collagen fibrils in biological tissues were recorded by SAXS with ordered collagen matrixes reconstituted in vitro.
Extracellular matrixes such as bone, skin, cornea, and tendon have ordered structures comprised for the most part of collagen, an elongated protein of well-defined dimensions and composition. Here we show how the cooperative ordering of collagen triple helices in the dense fluid state is exploited to produce dense ordered collagen matrixes. The spontaneous formation of a birefringent phase occurs at critical concentrations that increase from 50-60 to 80-85 mg/mL as the acetic acid concentration of the solvent increases from 5 to 500 mM. We studied by small-angle X-ray scattering (SAXS) the local liquidlike positional order across the isotropic/anisotropic phase transition by unwinding the cholesteric phase with moderate shearing stress. Interparticle scattering gives rise to a broad interference peak. The average distance between triple helices, dav, is thus estimated and decreases linearly as a function of *q-1/2 from 12.7 c 0.9 nm (22.5 mg/mL) to 5.0 c 0.6 nm (166.4 mg/mL). Equilibrium concentrations and the order parameter of the nematic phase agree reasonably well with theoretical predictions for semiflexible macromolecules. Striated fibrils with a high degree of alignment were obtained by fine-tuning the delicately balanced electrostatic interactions, which yielded strong elastic gels with a hierarchical organization very similar to that of major biological tissues. Typical Bragg reflections corresponding to the 67 nm period characteristic of collagen fibrils in biological tissues were recorded by SAXS with ordered collagen matrixes reconstituted in vitro.
Extracellular matrixes such as bone, skin, cornea, and tendon have ordered structures comprised for the most part of collagen, an elongated protein of well-defined dimensions and composition. Here we show how the cooperative ordering of collagen triple helices in the dense fluid state is exploited to produce dense ordered collagen matrixes. The spontaneous formation of a birefringent phase occurs at critical concentrations that increase from 50−60 to 80−85 mg/mL as the acetic acid concentration of the solvent increases from 5 to 500 mM. We studied by small-angle X-ray scattering (SAXS) the local liquidlike positional order across the isotropic/anisotropic phase transition by unwinding the cholesteric phase with moderate shearing stress. Interparticle scattering gives rise to a broad interference peak. The average distance between triple helices, d av, is thus estimated and decreases linearly as a function of φ-1/2 from 12.7 ± 0.9 nm (22.5 mg/mL) to 5.0 ± 0.6 nm (166.4 mg/mL). Equilibrium concentrations and the order parameter of the nematic phase agree reasonably well with theoretical predictions for semiflexible macromolecules. Striated fibrils with a high degree of alignment were obtained by fine-tuning the delicately balanced electrostatic interactions, which yielded strong elastic gels with a hierarchical organization very similar to that of major biological tissues. Typical Bragg reflections corresponding to the 67 nm period characteristic of collagen fibrils in biological tissues were recorded by SAXS with ordered collagen matrixes reconstituted in vitro.
Author Belamie, E
Giraud-Guille, M.-M
Gobeaux, F
Mosser, G
Panine, P
Davidson, P
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  surname: Panine
  fullname: Panine, P
– sequence: 6
  givenname: M.-M
  surname: Giraud-Guille
  fullname: Giraud-Guille, M.-M
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Issue 11
Keywords Fluid state
Composition
Organization
Electrostatic interaction
Prediction
Strong interaction
Reflection
Dimension
Small angle X ray scattering
Equilibrium
Phase transitions
Protein
Carboxylic acid
Macromolecule
Order parameter
Collagen
Ordering
Bone
Acetic acid
Structure
Language English
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SSID ssj0009349
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Snippet Extracellular matrixes such as bone, skin, cornea, and tendon have ordered structures comprised for the most part of collagen, an elongated protein of...
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StartPage 6411
SubjectTerms Animals
Anisotropy
Birefringence
Chemistry
Collagen Type I - chemistry
Collagen Type I - ultrastructure
Condensed Matter
Crystallization
Exact sciences and technology
General and physical chemistry
In Vitro Techniques
Microscopy, Electron
Multiprotein Complexes - chemistry
Multiprotein Complexes - ultrastructure
Physics
Protein Conformation
Rats
Scattering, Radiation
Soft Condensed Matter
Thermodynamics
X-Rays
Title Cooperative Ordering of Collagen Triple Helices in the Dense State
URI http://dx.doi.org/10.1021/la070093z
https://api.istex.fr/ark:/67375/TPS-BWP68X0W-2/fulltext.pdf
https://www.ncbi.nlm.nih.gov/pubmed/17441743
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https://hal.science/hal-00184115
Volume 23
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