Add to ORKGThis article details a quantitative method to measure the D-periodic spacing of type I collagen fibrils using atomic force microscopy coupled with analysis using a two-dimensional fast fourier transform approach. Instrument calibration, data sampling and data analysis are discussed and comparisons of the data to the complementary methods of electron microscopy and X-ray scattering are made. Examples of the application of this new approach to the analysis of type I collagen morphology in disease models of estrogen depletion and osteogenesis imperfecta (OI) are provided. We demonstrate that it is the D-spacing distribution, not the D-spacing mean, that showed statistically significant differences in estrogen depletion associated with early st...
Bone tissue is characterized by a remarkable hierarchical structure, from nano – to macro – scale. T...
AbstractCollagen fibrils play an important role in the human body, providing tensile strength to con...
Type I collagen, a fundamental extracellular matrix (ECM) component, is pivotal in maintaining tissu...
This paper details a quantitative method to measure the D-periodic spacing of Type I collagen fibril...
Although the axial D-periodic spacing is a well-recognized nanomorphological feature of type I colla...
Bone is an amazing material evolved by nature to elegantly balance structural and metabolic needs in...
This study demonstrates that collagen, the most abundant protein in animals, exists as a distributio...
Bone has a complex hierarchical structure that has evolved to serve structural and metabolic roles i...
Tissue cryo-sectioning combined with atomic force microscopy imaging reveals that the nanoscale morp...
Collagen molecules, self-assembled into macroscopic hierarchical tissue networks, are the main organ...
Tissue cryo-sectioning combined with atomic force microscopy imaging reveals that the nanoscale morp...
Type I collagen, the most abundant protein in the human body, is the primary organic component of bo...
AbstractFibrous long spacing collagen (FLS) fibrils are collagen fibrils in which the periodicity is...
AbstractBackground: The proteins belonging to the collagen family are ubiquitous throughout the anim...
Collagen fibers and fibrils that comprise tendons and ligaments are disrupted or damaged during inju...
Bone tissue is characterized by a remarkable hierarchical structure, from nano – to macro – scale. T...
AbstractCollagen fibrils play an important role in the human body, providing tensile strength to con...
Type I collagen, a fundamental extracellular matrix (ECM) component, is pivotal in maintaining tissu...
This paper details a quantitative method to measure the D-periodic spacing of Type I collagen fibril...
Although the axial D-periodic spacing is a well-recognized nanomorphological feature of type I colla...
Bone is an amazing material evolved by nature to elegantly balance structural and metabolic needs in...
This study demonstrates that collagen, the most abundant protein in animals, exists as a distributio...
Bone has a complex hierarchical structure that has evolved to serve structural and metabolic roles i...
Tissue cryo-sectioning combined with atomic force microscopy imaging reveals that the nanoscale morp...
Collagen molecules, self-assembled into macroscopic hierarchical tissue networks, are the main organ...
Tissue cryo-sectioning combined with atomic force microscopy imaging reveals that the nanoscale morp...
Type I collagen, the most abundant protein in the human body, is the primary organic component of bo...
AbstractFibrous long spacing collagen (FLS) fibrils are collagen fibrils in which the periodicity is...
AbstractBackground: The proteins belonging to the collagen family are ubiquitous throughout the anim...
Collagen fibers and fibrils that comprise tendons and ligaments are disrupted or damaged during inju...
Bone tissue is characterized by a remarkable hierarchical structure, from nano – to macro – scale. T...
AbstractCollagen fibrils play an important role in the human body, providing tensile strength to con...
Type I collagen, a fundamental extracellular matrix (ECM) component, is pivotal in maintaining tissu...
