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Items: 1 to 20 of 80

1.

Fibronectin forms the most extensible biological fibers displaying switchable force-exposed cryptic binding sites.

Klotzsch E, Smith ML, Kubow KE, Muntwyler S, Little WC, Beyeler F, Gourdon D, Nelson BJ, Vogel V.

Proc Natl Acad Sci U S A. 2009 Oct 27;106(43):18267-72. doi: 10.1073/pnas.0907518106.

2.

Assay to mechanically tune and optically probe fibrillar fibronectin conformations from fully relaxed to breakage.

Little WC, Smith ML, Ebneter U, Vogel V.

Matrix Biol. 2008 Jun;27(5):451-61. doi: 10.1016/j.matbio.2008.02.003.

PMID:
18417335
3.

Fibronectin extension and unfolding within cell matrix fibrils controlled by cytoskeletal tension.

Baneyx G, Baugh L, Vogel V.

Proc Natl Acad Sci U S A. 2002 Apr 16;99(8):5139-43.

4.

Contribution of unfolding and intermolecular architecture to fibronectin fiber extensibility.

Bradshaw MJ, Smith ML.

Biophys J. 2011 Oct 5;101(7):1740-8. doi: 10.1016/j.bpj.2011.08.029.

5.

Crosslinking of cell-derived 3D scaffolds up-regulates the stretching and unfolding of new extracellular matrix assembled by reseeded cells.

Kubow KE, Klotzsch E, Smith ML, Gourdon D, Little WC, Vogel V.

Integr Biol (Camb). 2009 Dec;1(11-12):635-48. doi: 10.1039/b914996a.

6.

Multiscale relationships between fibronectin structure and functional properties.

Bradshaw MJ, Smith ML.

Acta Biomater. 2014 Apr;10(4):1524-31. doi: 10.1016/j.actbio.2013.08.027. Review.

PMID:
23978411
7.

Force-induced unfolding of fibronectin in the extracellular matrix of living cells.

Smith ML, Gourdon D, Little WC, Kubow KE, Eguiluz RA, Luna-Morris S, Vogel V.

PLoS Biol. 2007 Oct 2;5(10):e268.

8.

Cryptic self-association sites in type III modules of fibronectin.

Ingham KC, Brew SA, Huff S, Litvinovich SV.

J Biol Chem. 1997 Jan 17;272(3):1718-24.

9.

Stretching fibronectin.

Erickson HP.

J Muscle Res Cell Motil. 2002;23(5-6):575-80. Review.

PMID:
12785106
10.

The molecular elasticity of the extracellular matrix protein tenascin.

Oberhauser AF, Marszalek PE, Erickson HP, Fernandez JM.

Nature. 1998 May 14;393(6681):181-5.

PMID:
9603523
11.

Size distribution and molecular associations of plasma fibronectin and fibronectin crosslinked by transglutaminase 2.

Nelea V, Nakano Y, Kaartinen MT.

Protein J. 2008 Jun;27(4):223-33. doi: 10.1007/s10930-008-9128-1.

PMID:
18330684
12.
13.

The mechanical hierarchies of fibronectin observed with single-molecule AFM.

Oberhauser AF, Badilla-Fernandez C, Carrion-Vazquez M, Fernandez JM.

J Mol Biol. 2002 May 31;319(2):433-47.

PMID:
12051919
14.

Fibronectin Fiber Extension Decreases Cell Spreading and Migration.

Hubbard B, Buczek-Thomas JA, Nugent MA, Smith ML.

J Cell Physiol. 2016 Aug;231(8):1728-36. doi: 10.1002/jcp.25271.

PMID:
26621030
15.
16.

Tensile properties of single stress fibers isolated from cultured vascular smooth muscle cells.

Deguchi S, Ohashi T, Sato M.

J Biomech. 2006;39(14):2603-10.

PMID:
16216252
17.

Fibronectin in aging extracellular matrix fibrils is progressively unfolded by cells and elicits an enhanced rigidity response.

Antia M, Baneyx G, Kubow KE, Vogel V.

Faraday Discuss. 2008;139:229-49; discussion 309-25, 419-20.

18.

Mechanical properties of the interaction between fibronectin and alpha5beta1-integrin on vascular smooth muscle cells studied using atomic force microscopy.

Sun Z, Martinez-Lemus LA, Trache A, Trzeciakowski JP, Davis GE, Pohl U, Meininger GA.

Am J Physiol Heart Circ Physiol. 2005 Dec;289(6):H2526-35.

19.

Understanding the elasticity of fibronectin fibrils: unfolding strengths of FN-III and GFP domains measured by single molecule force spectroscopy.

Abu-Lail NI, Ohashi T, Clark RL, Erickson HP, Zauscher S.

Matrix Biol. 2006 Apr;25(3):175-84.

PMID:
16343877
20.

Structure and functional significance of mechanically unfolded fibronectin type III1 intermediates.

Gao M, Craig D, Lequin O, Campbell ID, Vogel V, Schulten K.

Proc Natl Acad Sci U S A. 2003 Dec 9;100(25):14784-9.

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