Revealing sex-specific changes across protein structure in the aging bone extracellular matrix
Jacob Tudor, Alexander Eckersley, Michael Buckley

TL;DR
This study uses a new method to find age-related changes in bone proteins, revealing sex-specific differences and potential biomarkers for aging.
Contribution
First use of peptide location fingerprinting to identify biomarker candidates for bone aging.
Findings
Regional changes in ECM proteins suggest increased remodeling in juvenile rats and damage accumulation in adults.
Peptide location fingerprinting identified potential roles for osteopontin, thrombin, and apolipoproteins in bone aging.
Findings highlight the importance of fibrillar collagen remodeling in the aging bone extracellular matrix.
Abstract
•First use of peptide location fingerprinting as a screening tool to identify biomarker candidates of bone ageing.•Highlights importance of fibrillar collagen remodelling.•Suggests new roles osteopontin, thrombin, apolipoproteins and wider extracellular matrix regulators. First use of peptide location fingerprinting as a screening tool to identify biomarker candidates of bone ageing. Highlights importance of fibrillar collagen remodelling. Suggests new roles osteopontin, thrombin, apolipoproteins and wider extracellular matrix regulators. The process of aging is an integral but complex component of life that has been intensely studied for decades, from the molecular level to whole organisms. At the tissue level, bone is one of the most difficult to study due to its composite nature of inorganic and organic phases, but advancements in proteomics are enhancing our understanding of the…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsAdvanced Proteomics Techniques and Applications · Bone and Dental Protein Studies · Bone Metabolism and Diseases
