1990
DOI: 10.1016/1047-8477(90)90110-x
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Dermal collagen fibrils are hybrids of type I and type III collagen molecules

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Cited by 136 publications
(88 citation statements)
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“…Type-III collagen is frequently found on the periphery of type-I fibers in the skin and elsewhere (47). To determine whether a negative MRE signal is specifically diagnostic of interactions in type-I collagen fibrils, we monitored the MRE of type-III collagen in acidic and physiological buffers upon heating from 4 C to 60 C. Type-III, like type-I, was triple-helical at 4 C (Fig.…”
Section: Signal Unique To Type-i Collagenmentioning
confidence: 99%
“…Type-III collagen is frequently found on the periphery of type-I fibers in the skin and elsewhere (47). To determine whether a negative MRE signal is specifically diagnostic of interactions in type-I collagen fibrils, we monitored the MRE of type-III collagen in acidic and physiological buffers upon heating from 4 C to 60 C. Type-III, like type-I, was triple-helical at 4 C (Fig.…”
Section: Signal Unique To Type-i Collagenmentioning
confidence: 99%
“…Type I collagen is the most abundant in the human body: it forms more than 90% of bone organic mass and it is the major collagen of tendons, ligaments, cornea and many interstitial connective tissues. It is also the main component of human skin (80%) with collagen type III making up the remainder of skin collagen (15%) [5,9].…”
Section: Collagenmentioning
confidence: 99%
“…Immunoelectron microscopic analysis with a monoclonal antibody against the triple helical domain suggested that type III collagen can be present on banded collagen fibrils regardless of fibril diameter (12). The type III collagen molecules interact with the cartilage collagen fibril surface (9), and also with type I collagen fibrils in many tissues (13). Type III collagen has a slightly longer major triple helical domain (1,029 residues) compared with type I collagen (1,014 residues).…”
mentioning
confidence: 99%