Add to ORKGSUMMARY The use of x ray fibre diffraction to study the molecular architecture of healthy and diseased human tendon is described. The three dimensional structure of human (finger) tendon is derived to high resolution and is shown to be very similar to that reported for rat tail tendon. In particular the presence of the 38 A row line in the diffraction pattern suggests that a high degree of lateral order within the collagen fibrils is a more widespread feature of tendon tissue than was formerly realised. Axially projected electron density maps of the 670 A unit repeat of the collagen fibrils of this tissue, and of tendon tissue from three cases of osteogenesis imperfecta (01), are calculated and compared. The results are in agreement with re...
The small-angle X-ray diffraction pattern of collagen has been calculated using the sequence of the ...
Alternations of collagen and mineral at the molecular level may have a significant impact on the str...
Collagen is the most abundant structural protein in vertebrates. The specific shape of its stress-st...
This thesis describes a study of the structure of the Type I collagen molecule and fibril as they oc...
The accumulation of microstructural collagen damage following repetitive loading is linked to painfu...
Background: The proteins belonging to the collagen family are ubiquitous throughout the animal kingd...
AbstractBackground: The proteins belonging to the collagen family are ubiquitous throughout the anim...
A knowledge of the structure of collagen fibrils is important for any rational discussion of the occ...
Alternations of collagen and mineral at the molecular level may have a significant impact on the str...
The molecular packing arrangement within collagen fibrils has a significant effect on the tensile pr...
Collagen structure and collagen-apatite structural relationship has been investigated in human anter...
The meridional X-ray diffraction pattern of wet rat tail tendon contains information about the one-d...
Introduction Individual X-Ray diffraction patterns of biological tissues are obtained via interferen...
Collagen fibrils resemble smectic, liquid crystals in being highly ordered axially but relatively di...
The main topic of this work covers the data analysis aspect of fibrestructure determination. Low res...
The small-angle X-ray diffraction pattern of collagen has been calculated using the sequence of the ...
Alternations of collagen and mineral at the molecular level may have a significant impact on the str...
Collagen is the most abundant structural protein in vertebrates. The specific shape of its stress-st...
This thesis describes a study of the structure of the Type I collagen molecule and fibril as they oc...
The accumulation of microstructural collagen damage following repetitive loading is linked to painfu...
Background: The proteins belonging to the collagen family are ubiquitous throughout the animal kingd...
AbstractBackground: The proteins belonging to the collagen family are ubiquitous throughout the anim...
A knowledge of the structure of collagen fibrils is important for any rational discussion of the occ...
Alternations of collagen and mineral at the molecular level may have a significant impact on the str...
The molecular packing arrangement within collagen fibrils has a significant effect on the tensile pr...
Collagen structure and collagen-apatite structural relationship has been investigated in human anter...
The meridional X-ray diffraction pattern of wet rat tail tendon contains information about the one-d...
Introduction Individual X-Ray diffraction patterns of biological tissues are obtained via interferen...
Collagen fibrils resemble smectic, liquid crystals in being highly ordered axially but relatively di...
The main topic of this work covers the data analysis aspect of fibrestructure determination. Low res...
The small-angle X-ray diffraction pattern of collagen has been calculated using the sequence of the ...
Alternations of collagen and mineral at the molecular level may have a significant impact on the str...
Collagen is the most abundant structural protein in vertebrates. The specific shape of its stress-st...