Atomic force microscopic investigation on the potential early intermediate stages of fibrillogenesis of fibronectin within fibrils.

Chen Y; Wu Y; Cai J

doi:10.1016/j.bbrc.2007.07.014

Atomic force microscopic investigation on the potential early intermediate stages of fibrillogenesis of fibronectin within fibrils.

Chen Y ¹,

Wu Y ,

Cai J

Affiliations

1. Department of Chemistry, Jinan University, Guangzhou, Guangdong 510632, China.
Authors
Chen Y¹
(1 author)

ORCIDs linked to this article

Cai J | 0000-0002-4791-3320

Biochemical and Biophysical Research Communications, 16 Jul 2007, 361(2):391-397
https://doi.org/10.1016/j.bbrc.2007.07.014 PMID: 17645869

Abstract

To date, a large number of literature have focused on the mechanisms of fibronectin (FN) fibril initiation and elongation, discovering many binding sites on FN molecules that are required for FN fibril growth. However, it is still poorly understood how FN fibrils widen while elongating. Here, single molecules and polymers, FN fibrillogenesis, and FN fibril bundles around cells have all been investigated visually using atomic force microscopy. We found that the formation of ring-shaped and beaded-filament-like FN aggregates may be two early intermediate stages of FN fibrillogenesis within the fibrils away from cells, perhaps involving in the FN fibril widening/bundling.

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Atomic force microscopic investigation on the potential early intermediate stages of fibrillogenesis of fibronectin within fibrils.

Affiliations

Authors

ORCIDs linked to this article

Abstract

Full text links

References

Fibronectin and its receptors.

Fibronectin structure and assembly.

Fibronectin fibrillogenesis, a cell-mediated matrix assembly process.

Fibronectin at a glance.

Integrins: versatility, modulation, and signaling in cell adhesion.

Fibronectin, integrins, and growth control.

Fibronectin fibrillogenesis: a paradigm for extracellular matrix assembly.

The ins and outs of fibronectin matrix assembly.

Coexisting conformations of fibronectin in cell culture imaged using fluorescence resonance energy transfer.

A novel fibronectin binding site required for fibronectin fibril growth during matrix assembly.

Citations & impact

Impact metrics

Citations of article over time

Article citations

Effect of electrochemical oxidation and reduction on cell de-adhesion at the conducting polymer-live cell interface as revealed by single cell force spectroscopy.

Studying early stages of fibronectin fibrillogenesis in living cells by atomic force microscopy.

Plasma and cellular fibronectin: distinct and independent functions during tissue repair.

Identification of novel and distinct binding sites within tenascin-C for soluble and fibrillar fibronectin.

Characterization of ultra-thin temperature-responsive polymer layer and its polymer thickness dependency on cell attachment/detachment properties.

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Atomic force microscopic investigation on the potential early intermediate stages of fibrillogenesis of fibronectin within fibrils.

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