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HAPLN1
Versican V2 Assembles the Extracellular Matrix Surrounding the Nodes of Ranvier in the CNS
Kids First Pediatric Research Program (Kids First) Poster Session at ASHG Accelerating Pediatric Genomics Research Through Collaboration October 15Th, 2019
A Single-Cell Transcriptomic Landscape of Primate Arterial Aging
Supplementary Table 1: Adhesion Genes Data Set
Distinct Genetic Alterations in Colorectal Cancer
5570968.Pdf
Endothelial Perspective on Tumor Development
Perineuronal Nets and Metal Cation Concentrations in The
Rna-Sequencing Applications: Gene Expression Quantification and Methylator Phenotype Identification
The Function of the Hyalectan Class of Proteoglycans and Their Binding Partners During Vertebrate Development
(12) United States Patent (10) Patent No.: US 8,029,992 B2 Rapko Et Al
Camp Response Element-Binding Protein Is a Primary Hub of Activity-Driven Neuronal Gene Expression
Data-Driven and Knowledge-Driven Computational Models of Angiogenesis in Application to Peripheral Arterial Disease
Protumorigenic Role of HAPLN1 and Its Igv Domain in Malignant Pleural Mesothelioma Alla V
Extracellular Matrix of the Central Nervous System: from Neglect to Challenge
Supplementary Methods
Supporting Information
Understanding the Role of Sclerostin in Post-Traumatic Osteoarthritis Development in Mice
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Protumorigenic Role of HAPLN1 and Its Igv Domain in Malignant Pleural Mesothelioma Alla V
UNIVERSITY of NAPLES FEDERICO II Role of Extracellular Matrix And
Maturation of Heart Valve Cell Populations During Postnatal Remodeling Alexia Hulin1,2, Luis Hortells1, M
Mouse Hapln1 Conditional Knockout Project (CRISPR/Cas9)
Transcriptome Profile of Human Fibroblasts in an Ex Vivo Culture
Transcriptional Maturation of the Mouse Auditory Forebrain Troy A
A Recombinant System to Model Proteoglycan Aggregate
Computational Identification and Functional Validation of Regulatory Motifs in Cartilage-Expressed Genes Sherri R
The Extracellular Bone Marrow Microenvironment – a Proteomic Comparison of Constitutive Protein Release by in Vitro Cultured Osteoblasts and Mesenchymal Stem Cells