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Complexity of matrix phenotypes

Renato V. Iozzo, Achilleas D. Theocharis, Thomas Neill, Nikos K. Karamanos

2020Matrix Biology Plus25 citationsDOIOpen Access PDF

Abstract

The extracellular matrix is engaged in an ever-evolving and elegant ballet of dynamic reciprocity that directly and bi-directionally regulates cell behavior. Homeostatic and pathophysiological changes in cell-matrix signaling cascades manifest as complex matrix phenotypes. Indeed, the extracellular matrix can be implicated in virtually every known human disease, thus, making it the most critical and dynamic “organ” in the human body. The overall goal of this Special Issue is to provide an accurate and inclusive functional definition that addresses the inherent complexity of matrix phenotypes. This goal is summarily achieved via a corpus of expertly written articles, reviews and original research, focused at answering this question empirically and fundamentally via state-of-the-art methods and research strategies.

Topics & Concepts

Extracellular matrixPhenotypeMatrix (chemical analysis)Reciprocity (cultural anthropology)Cognitive scienceComputer scienceNeuroscienceComputational biologyEpistemologyBiologyPsychologyCell biologyGeneticsSocial psychologyChemistryPhilosophyGeneChromatographyTGF-β signaling in diseasesCell Adhesion Molecules ResearchProtease and Inhibitor Mechanisms
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