Add to ORKGABSTRACT The standard model for the structure of collagen in tendon is an ascending hierarchy of bundling. Collagen triple helices bundle into microfibrils, microfibrils bundle into subfibrils, and subfibrils bundle into fibrils, the basic structural unit of tendon. This model, developed primarily on the basis of x-ray diffraction results, is necessarily vague about the cross-sectional organization of fibrils and has led to the widespread assumption of laterally homogeneous closepacking. This assumption is inconsistent with data presented here. Using atomic force microscopy and micromanipulation, we observe how collagen fibrils from tendons behave mechanically as tubes. We conclude that the collagen fibril is an inhomogeneous structure comp...
The collagen fibrils of cornea, blood vessel walls, skin, gut, interstitial tissues, the sheath of t...
A precise analysis of the mechanical response of collagen fibrils in tendon tissue is critical to un...
Atomic force microscopy was used to study the geometric structure of collagen fibrils and molecules ...
ABSTRACT The standard model for the structure of collagen in tendon is an ascending hierarchy of bun...
AbstractThe standard model for the structure of collagen in tendon is an ascending hierarchy of bund...
Collagen fibril ultrastructure and course were examined in different connective tissues by PLM, SEM,...
Collagen fibril ultrastructure and course were examined in different connective tissues by PLM, SEM,...
For many decades the fibrillar collagens have been the subject of a remarkable body of ultrastructur...
In this review, recent results from X-ray diffraction studies of tendon are used to develop an under...
Type I collagen is the predominant collagen in mature tendons and ligaments, where it gives them the...
Collagen is most commonly found in animals as long, slender generally cylindrical fibrillar structur...
AbstractBackground: The proteins belonging to the collagen family are ubiquitous throughout the anim...
Background: The proteins belonging to the collagen family are ubiquitous throughout the animal kingd...
The collagen fibrils of cornea, blood vessel walls, skin, gut, interstitial tissues, the sheath of t...
A precise analysis of the mechanical response of collagen fibrils in tendon tissue is critical to un...
Atomic force microscopy was used to study the geometric structure of collagen fibrils and molecules ...
ABSTRACT The standard model for the structure of collagen in tendon is an ascending hierarchy of bun...
AbstractThe standard model for the structure of collagen in tendon is an ascending hierarchy of bund...
Collagen fibril ultrastructure and course were examined in different connective tissues by PLM, SEM,...
Collagen fibril ultrastructure and course were examined in different connective tissues by PLM, SEM,...
For many decades the fibrillar collagens have been the subject of a remarkable body of ultrastructur...
In this review, recent results from X-ray diffraction studies of tendon are used to develop an under...
Type I collagen is the predominant collagen in mature tendons and ligaments, where it gives them the...
Collagen is most commonly found in animals as long, slender generally cylindrical fibrillar structur...
AbstractBackground: The proteins belonging to the collagen family are ubiquitous throughout the anim...
Background: The proteins belonging to the collagen family are ubiquitous throughout the animal kingd...
The collagen fibrils of cornea, blood vessel walls, skin, gut, interstitial tissues, the sheath of t...
A precise analysis of the mechanical response of collagen fibrils in tendon tissue is critical to un...
Atomic force microscopy was used to study the geometric structure of collagen fibrils and molecules ...