Literals
- aiiso:code
- 0abf08568ed6c5d8bc49b06bd9e07540
- foaf:firstName
- CARLOS
- ou:indiceHscopus
- 6
- foaf:lastName
- GARCÍA PADILLA
- foaf:name
- CARLOS GARCÍA PADILLA
- vivo:scopusId
- 57198492328
Typed Literals
- ou:esDoctor
- True (xsd:boolean)
- ou:personalActual
- False (xsd:boolean)
Relations
- ou:tienePublicacion
- Comparative Analysis of Non-Coding RNA Transcriptomics in Heart Failure
- Differential chamber-specific expression and regulation of long non-coding RNAs during cardiac development
- Differential spatio-temporal regulation of t-box gene expression by micrornas during cardiac development
- Dynamic MicroRNA Expression Profiles During Embryonic Development Provide Novel Insights Into Cardiac Sinus Venosus/Inflow Tract Differentiation
- Editorial: Cell signalling in heart development, disease and regeneration
- Genetics of atrial fibrilation: In search of novel therapeutic targets
- Hyperthyroidism, but not hypertension, impairs PITX2 expression leading to Wnt-microRNA-ion channel remodeling
- Identification of atrial-enriched lncRNA Walras linked to cardiomyocyte cytoarchitecture and atrial fibrillation
- Inhibition of RhoA and Cdc42 by miR-133a Modulates Retinoic Acid Signalling during Early Development of Posterior Cardiac Tube Segment
- LncRNA H19 Impairs Chemo and Radiotherapy in Tumorigenesis
- LncRNAs and CircRNAs in Endoplasmic Reticulum Stress: A Promising Target for Cardiovascular Disease?
- MiR-195 enhances cardiomyogenic differentiation of the proepicardium/septum transversum by Smurf1 and Foxp1 modulation
- Molecular Mechanisms of lncRNAs in the Dependent Regulation of Cancer and Their Potential Therapeutic Use
- New Insights into the Roles of lncRNAs as Modulators of Cytoskeleton Architecture and Their Implications in Cellular Homeostasis and in Tumorigenesis
- Non-coding RNAs in retinoic acid as differentiation and disease drivers
- Post-Transcriptional Regulation of Molecular Determinants during Cardiogenesis
- The Role of Bmp- and Fgf Signaling Modulating Mouse Proepicardium Cell Fate
- miR-16-5p Suppression Protects Human Cardiomyocytes against Endoplasmic Reticulum and Oxidative Stress-Induced Injury
- miR-195b is required for proper cellular homeostasis in the elderly
Inverse Relations
- Has related: ou:autorTesis