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Advanced Materials Technologies, EarlyView.This study presents a novel platform for assessing the active mechanical behavior of living cardiac microbundles through localized nanoindentation, integrated with temperature regulation and dual‐camera imaging systems. The developed system enables quantitative evaluation of dynamic micromechanics in engineered cardiac tissues in vitro, offering ...
Lihua Lou +4 more
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Type III collagen and probably not type I collagen aggregates platelets
Thrombosis Research, 1976Abstract Type I collagen and type III collagen were extracted from foetal calf skin and used for inducing platelets aggregation in vitro . When added under its soluble form, type III collagen was found to be a faster and a most powerful platelet aggregating factor.
J, Hugues +3 more
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Difference in interaction of fibronectin with type I collagen and type IV collagen
Biochimica et Biophysica Acta (BBA) - Protein Structure and Molecular Enzymology, 1997In our studies on fibronectin, difference in binding to type I collagen and type IV collagen was observed and analysed. Four different fragments, which consist of I6-II1-II2-I7-I8-I9, I6-II1-II2-I7, I6-II1-II2, and I8-I9 within the collagen binding domain, have been isolated from proteolytic digests of fibronectin.
M, Shimizu +3 more
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Reduced thrombogenicity of type VI collagen as compared to type I collagen
Thrombosis Research, 1995Type VI collagen has been recently identified as a major constituent of vascular subendothelium where it serves as a binding site for von Willebrand factor. The present study compares the functional characteristics of type VI collagen with those of type I collagen with respect to platelet aggregating and secretory activities.
M, Zangari +3 more
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Glycosylation of Type I Collagen
2019Fibrillar type I collagen is the most abundant structural protein in most tissues and organs. One of the unique and functionally important characteristics of collagen is sequential posttranslational modifications of lysine (Lys) residues. In the endoplasmic reticulum, hydroxylation of specific Lys occurs producing 5-hydroxylysine (Hyl).
Mitsuo, Yamauchi +4 more
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Hydroperoxide formation in model collagens and collagen type I
International Journal of Cosmetic Science, 2002SynopsisProtein hydroperoxides represent a relatively new concept in understanding biological oxidation chemistry. Here, we show with post‐column‐chemiluminescence that this sometimes remarkably stable and yet reactive species can be formed in collagen models and collagen type I when submitted to oxidative stress as exemplified by the Fenton reaction ...
S A, Madison +2 more
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Connective Tissue Research, 1986
Type V collagen and type I collagen were obtained from human placentas by pepsin treatment, followed by salt fractionation. The precipitates formed at 37 degrees C from a mixed solution of type V collagen and type I collagen, reacted with antibodies to either type V collagen or type I collagen.
E, Adachi, T, Hayashi
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Type V collagen and type I collagen were obtained from human placentas by pepsin treatment, followed by salt fractionation. The precipitates formed at 37 degrees C from a mixed solution of type V collagen and type I collagen, reacted with antibodies to either type V collagen or type I collagen.
E, Adachi, T, Hayashi
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Improvement of the Material Property of Shark Type I Collagen by Composing with Pig Type I Collagen
Journal of Agricultural and Food Chemistry, 2000Fibril reconstruction process, that is, the nucleation and growth of mixed type I collagen fibril of shark and pig, progressed faster than that of the individual collagen species of shark or pig. The reconstructed mixed collagen fibril had a greater resistance to return to the solution or to melt into gelatin in comparison with the counterpart ...
Y, Nomura, S, Toki, Y, Ishii, K, Shirai
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Characteristics of cellular immune responses to collagen type I or collagen type II
Cellular Immunology, 1986We have examined the murine cell-mediated immune (CMI) response to collagens type I (CI) and type II (CII) as measured by in vivo delayed-type hypersensitivity responses. We have verified the histopathology and kinetics of the cell-mediated immune responses. Predominant cell-mediated responses were obtained 7, 10, or 14 days following immunization.
L, Butler +4 more
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