Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix.
about
Systems biology-opportunities and challenges: the application of proteomics to study the cardiovascular extracellular matrixAdapting extracellular matrix proteomics for clinical studies on cardiac remodeling post-myocardial infarctionVascular proteomics in metabolic and cardiovascular diseasesTransitional Remodeling of the Hepatic Extracellular Matrix in Alcohol-Induced Liver InjuryComparative proteomic assessment of matrisome enrichment methodologiesThree-dimensional scaffolds of acellular human and porcine lungs for high throughput studies of lung disease and regenerationMyofibroblasts and the extracellular matrix network in post-myocardial infarction cardiac remodelingCardiac extracellular proteome profiling and membrane topology analysis using glycoproteomics.Comparative decellularization and recellularization of normal versus emphysematous human lungs.Proteomic analysis of naturally-sourced biological scaffolds.Quantification of decellularized human myocardial matrix: A comparison of six patientsCD36 Is a Matrix Metalloproteinase-9 Substrate That Stimulates Neutrophil Apoptosis and Removal During Cardiac Remodeling.Fibroblast Activation Protein (FAP) Accelerates Collagen Degradation and Clearance from Lungs in Mice.Age and SPARC change the extracellular matrix composition of the left ventricle.Using systems biology approaches to understand cardiac inflammation and extracellular matrix remodeling in the setting of myocardial infarctionCardiac extracellular matrix proteomics: Challenges, techniques, and clinical implicationsPathoproteomic profiling of the skeletal muscle matrisome in dystrophinopathy associated myofibrosis.Proteomics in cardiovascular disease: recent progress and clinical implication and implementation.Cardiac Extracellular Matrix Scaffold Generated Using Sarcomeric Disassembly and Antigen Removal.Using plasma matrix metalloproteinase-9 and monocyte chemoattractant protein-1 to predict future cardiovascular events in subjects with carotid atherosclerosis.Recent advances and clinical insights into the use of proteomics in the study of atherosclerosis.Glycoproteomics of the Extracellular Matrix: A Method for Intact Glycopeptide Analysis Using Mass Spectrometry.Obesity and Cardiometabolic Defects in Heart Failure Pathology.The hepatic "matrisome" responds dynamically to injury: Characterization of transitional changes to the extracellular matrix in mice.Protocols for Rat Uterus Isolation and Decellularization: Applications for Uterus Tissue Engineering and 3D Cell Culturing.Proteomic analysis of the cardiac extracellular matrix: clinical research applications.Thrombospondin-1: the good, the bad, and the complicated.SWATH mass spectrometry as a tool for quantitative profiling of the matrisome.LXR/RXR signaling and neutrophil phenotype following myocardial infarction classify sex differences in remodeling
P2860
Q28066160-419A00A5-C706-4F09-BE23-D7E6ED676D0DQ28069446-F2187790-927B-4206-A13C-A3DB4A754E60Q28070315-2E29723A-EC11-48A7-9D94-95949D8C6CE4Q28071500-97BA2D3D-99EE-461B-848B-58C09368E397Q28822150-AEE7D4EB-82F0-4225-8127-5F3D639CACDFQ30596685-25E4DD3F-A9A2-4831-8C56-7C2A7A35922AQ33663388-4A1A6C17-5E67-496C-8F9E-D29C3ABBC28FQ34420019-FA033A8E-130F-4AF9-9FA5-AEDE2C9AA87FQ34433502-EC33EBE9-58FE-4B05-B3B8-55388D3AC38BQ36278956-2DC4FB14-84FE-427B-898A-B04FAD9D5A3FQ36436938-A3860E51-D6AD-468E-96E8-08FE4F64DA39Q36593929-E478BE0E-6CAE-4660-BDE7-2C3A276C8D39Q36778823-C3E2E117-D89D-4E25-99B1-FB69B882A274Q37695656-F305000E-883D-4AAE-AA9D-0AFE46C46C57Q37709242-62D47E01-B803-4128-98AB-F8E064402C2AQ38552038-F6A39523-6BC5-4E7A-BF81-C7D465551A07Q38563300-9051BC69-3BFD-4E78-95A7-1582F7B361EFQ38780174-DB0C92C5-5FA6-4711-841A-36908AF109A3Q38980651-57FFFFB5-0A01-4FD6-9C7A-B6F6C1C27CBEQ39277249-8BD32424-A9DC-4CFE-9F8F-72BF7C2E7EEEQ39423557-30C22BE9-CB0A-42A9-95E6-D79267101C60Q41474245-0529D14A-7D16-4C22-A5F2-84FB08B614A6Q41997642-9E341616-27D9-4000-BD50-9F955948F3F2Q42279843-3B24C1DA-31AA-410E-AB4D-7A71540253EBQ46325941-8CE96ECE-35AF-40A0-A04D-2A3F2517F773Q47246912-6C9A3756-3A04-42BD-AE99-737AF4201319Q48390243-CFBAE642-1339-4218-9A20-8A196788FEF3Q52368449-B307D8FC-9A43-4F28-8CAB-3CA625965B8AQ58730141-E6EBB7FF-7FD3-4B15-A3A4-BADE5AD68128
P2860
Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 14 May 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix.
@en
Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix.
@nl
type
label
Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix.
@en
Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix.
@nl
prefLabel
Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix.
@en
Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix.
@nl
P2093
P2860
P50
P1476
Texas 3-step decellularization protocol: looking at the cardiac extracellular matrix
@en
P2093
Ganesh V Halade
Kevin Hakala
Qiuxia Dai
Susan T Weintraub
Trevi A Ramirez
Ying Ann Chiao
Yonggang Ma
P2860
P356
10.1016/J.JPROT.2013.05.004
P577
2013-05-14T00:00:00Z