| scholarly article | Q13442814 |
| P50 | author | Joost Sluijter | Q56947756 |
| Patrick van Vliet | Q73275960 | ||
| Pieter A Doevendans | Q88758548 | ||
| P2093 | author name string | Jia Liu | |
| Marie-José Goumans | |||
| Alain van Mil | |||
| Corina H G Metz | |||
| P433 | issue | 4 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | negative regulation of cardiac muscle cell differentiation | Q14903152 |
| SRY-box transcription factor 6 | Q21136017 | ||
| microRNA | Q310899 | ||
| P304 | page(s) | 859-868 | |
| P577 | publication date | 2010-01-15 | |
| P1433 | published in | Arteriosclerosis, Thrombosis, and Vascular Biology | Q4797542 |
| P1476 | title | MicroRNA-1 and -499 regulate differentiation and proliferation in human-derived cardiomyocyte progenitor cells | |
| P478 | volume | 30 |
| Q64969464 | A Novel Method for Predicting Disease-Associated LncRNA-MiRNA Pairs Based on the Higher-Order Orthogonal Iteration. |
| Q36758910 | A new unique form of microRNA from human heart, microRNA-499c, promotes myofibril formation and rescues cardiac development in mutant axolotl embryos |
| Q30359241 | Advances in induced pluripotent stem cells, genomics, biomarkers, and antiplatelet therapy highlights of the year in JCTR 2013. |
| Q41038422 | An overview of viral and nonviral delivery systems for microRNA. |
| Q48274040 | Association of MIR-499a expression and seed region variant (rs3746444) with cardiovascular disease in Egyptian patients |
| Q43936078 | Association of miR-146aC>G, miR-196a2T>C, and miR-499A>G polymorphisms with risk of premature ovarian failure in Korean women |
| Q43498170 | Association of the miR-146aC>G, 149C>T, 196a2C>T, and 499A>G polymorphisms with colorectal cancer in the Korean population |
| Q45118174 | Association of the miR-146aC>G, miR-149T>C, miR-196a2T>C, and miR-499A>G polymorphisms with gastric cancer risk and survival in the Korean population |
| Q39031282 | Associations of microRNA single nucleotide polymorphisms and disease risk and pathophysiology |
| Q37294594 | Bone marrow mesenchymal stem cells for post-myocardial infarction cardiac repair: microRNAs as novel regulators |
| Q91643965 | Cardiac Progenitor Cells from Stem Cells: Learning from Genetics and Biomaterials |
| Q35853918 | Cardiac myocyte-protective effect of microRNA-22 during ischemia and reperfusion through disrupting the caveolin-3/eNOS signaling |
| Q38128133 | Cardiac regeneration in non-mammalian vertebrates |
| Q38801384 | Cardiac-specific miRNA in cardiogenesis, heart function, and cardiac pathology (with focus on myocardial infarction). |
| Q37685243 | Cardiovascular microRNAs: as modulators and diagnostic biomarkers of diabetic heart disease |
| Q37188204 | Circulating Extracellular Vesicles Contain miRNAs and are Released as Early Biomarkers for Cardiac Injury. |
| Q38125100 | Circulating microRNAs as novel biomarkers for the early diagnosis of acute coronary syndrome. |
| Q41967015 | Circulating microRNAs indicate cardioprotection by sevoflurane inhalation in patients undergoing off-pump coronary artery bypass surgery |
| Q38926005 | Combination of miRNA499 and miRNA133 exerts a synergic effect on cardiac differentiation. |
| Q94547315 | Combining Nanomaterials and Developmental Pathways to Design New Treatments for Cardiac Regeneration: The Pulsing Heart of Advanced Therapies |
| Q38120722 | Concise review: Engineering myocardial tissue: the convergence of stem cells biology and tissue engineering technology |
| Q27021931 | Concise review: heart regeneration and the role of cardiac stem cells |
| Q38332480 | Control of stem cell fate by engineering their micro and nanoenvironment. |
| Q28077986 | Developing miRNA therapeutics for cardiac repair in ischemic heart disease |
| Q38182186 | Developmental cues for the maturation of metabolic, electrophysiological and calcium handling properties of human pluripotent stem cell-derived cardiomyocytes. |
| Q34764197 | Different effects of three polymorphisms in MicroRNAs on cancer risk in Asian population: evidence from published literatures |
| Q33654961 | Differentiation of mesenchymal stem cells into cardiomyocytes is regulated by miRNA-1-2 via WNT signaling pathway |
| Q36081365 | Directing neuronal differentiation of primary neural progenitor cells by gene knockdown approach. |
| Q28742659 | Distinct roles of microRNA-1 and -499 in ventricular specification and functional maturation of human embryonic stem cell-derived cardiomyocytes |
| Q52353228 | Do platelets promote cardiac recovery post myocardial infarction: Roles beyond occlusive ischemic damage. |
| Q37431570 | Downregulation of long non-coding RNA H19 promotes P19CL6 cells proliferation and inhibits apoptosis during late-stage cardiac differentiation via miR-19b-modulated Sox6. |
| Q34132801 | Dynamic microRNA expression programs during cardiac differentiation of human embryonic stem cells: role for miR-499. |
| Q34426867 | Dynamical behaviors of Rb-E2F pathway including negative feedback loops involving miR449. |
| Q36389315 | Early assessment of acute coronary syndromes in the emergency department: the potential diagnostic value of circulating microRNAs |
| Q33900451 | Elevated miR-499 levels blunt the cardiac stress response |
| Q28081134 | Epigenetic mechanisms in heart development and disease |
| Q26853220 | Epigenetic mechanisms underlying cardiac degeneration and regeneration |
| Q37586770 | Exercise mediated protection of diabetic heart through modulation of microRNA mediated molecular pathways |
| Q53561005 | Expression of microRNA-1, microRNA-133a and Hand2 protein in cultured embryonic rat cardiomyocytes. |
| Q39837840 | Expression of microRNAs and their target mRNAs in human stem cell-derived cardiomyocyte clusters and in heart tissue |
| Q34729987 | Expression profile of microRNAs regulating proliferation and differentiation in mouse adult cardiac stem cells |
| Q34506855 | Gadd45α: a novel diabetes-associated gene potentially linking diabetic cardiomyopathy and baroreflex dysfunction |
| Q51495604 | Gelatin Microspheres as Vehicle for Cardiac Progenitor Cells Delivery to the Myocardium. |
| Q38657334 | Genetic and Epigenetic Regulation of Human Cardiac Reprogramming and Differentiation in Regenerative Medicine |
| Q42452928 | Global developmental delay, progressive relapsing-remitting parkinsonism, and spinal syrinx in a child with SOX6 mutation |
| Q34039987 | HDAC4: mechanism of regulation and biological functions |
| Q38597923 | Harnessing the microRNA pathway for cardiac regeneration. |
| Q38041426 | Heavy and light roles: myosin in the morphogenesis of the heart |
| Q93083874 | Hsa-miR-335 regulates cardiac mesoderm and progenitor cell differentiation |
| Q42705539 | Human cardiac stem cell differentiation is regulated by a mircrine mechanism |
| Q37977129 | Human cardiomyocyte progenitor cells: a short history of nearly everything. |
| Q37372183 | Human pluripotent stem cell-derived cardiomyocytes for heart regeneration, drug discovery and disease modeling: from the genetic, epigenetic, and tissue modeling perspectives |
| Q55499094 | Human-Induced Pluripotent Stem Cell Technology and Cardiomyocyte Generation: Progress and Clinical Applications. |
| Q34326525 | Impacts of microRNA gene polymorphisms on the susceptibility of environmental factors leading to carcinogenesis in oral cancer |
| Q34532172 | In vitro epigenetic reprogramming of human cardiac mesenchymal stromal cells into functionally competent cardiovascular precursors |
| Q36624105 | Inhibition of miR-29c promotes proliferation, and inhibits apoptosis and differentiation in P19 embryonic carcinoma cells |
| Q28116477 | Inhibitory effect of hsa-miR-590-5p on cardiosphere-derived stem cells differentiation through downregulation of TGFB signaling |
| Q34988387 | Integrative analysis of porcine microRNAome during skeletal muscle development |
| Q47100264 | Involment of RAS/ERK1/2 signaling and MEF2C in miR-155-3p inhibition-triggered cardiomyocyte differentiation of embryonic stem cell |
| Q35681010 | Kinetics of plasma microRNA-499 expression in acute myocardial infarction |
| Q33985922 | Local activation of cardiac stem cells for post-myocardial infarction cardiac repair |
| Q64987225 | MiR-499 inhibited hypoxia/reoxygenation induced cardiomyocytes injury by targeting SOX6. |
| Q27306812 | MiR-499 regulates cell proliferation and apoptosis during late-stage cardiac differentiation via Sox6 and cyclin D1 |
| Q37392535 | MiR-499-5p protects cardiomyocytes against ischaemic injury via anti-apoptosis by targeting PDCD4. |
| Q91670957 | Micro-Ribonucleic Acid-216a Regulates Bovine Primary Muscle Cells Proliferation and Differentiation via Targeting SMAD Nuclear Interacting Protein-1 and Smad7 |
| Q42318246 | MicroRNA Modulation during the In vitro Culture of Hematopoietic Stem Cells Prior to Transplantation |
| Q26750638 | MicroRNA and Heart Failure |
| Q41035554 | MicroRNA as Therapeutic Targets for Chronic Wound Healing |
| Q26766383 | MicroRNA biogenesis and their functions in regulating stem cell potency and differentiation |
| Q35863950 | MicroRNA delivery for regenerative medicine |
| Q32884452 | MicroRNA-1 enhances the angiogenic differentiation of human cardiomyocyte progenitor cells |
| Q35543468 | MicroRNA-1 transfected embryonic stem cells enhance cardiac myocyte differentiation and inhibit apoptosis by modulating the PTEN/Akt pathway in the infarcted heart |
| Q42838769 | MicroRNA-132/212 family enhances arteriogenesis after hindlimb ischaemia through modulation of the Ras-MAPK pathway. |
| Q28116144 | MicroRNA-155 prevents necrotic cell death in human cardiomyocyte progenitor cells via targeting RIP1 |
| Q33112708 | MicroRNA-204 is required for differentiation of human-derived cardiomyocyte progenitor cells |
| Q51827694 | MicroRNA-214 inhibits angiogenesis by targeting Quaking and reducing angiogenic growth factor release. |
| Q36996533 | MicroRNA-488 regulates zinc transporter SLC39A8/ZIP8 during pathogenesis of osteoarthritis |
| Q26829175 | MicroRNA-mediated regulation of differentiation and trans-differentiation in stem cells |
| Q35597374 | MicroRNAs and Cardiac Regeneration |
| Q54333138 | MicroRNAs are dynamically regulated and play an important role in LPS-induced lung injury. |
| Q38157933 | MicroRNAs as novel regulators of stem cell fate |
| Q34209703 | MicroRNAs can generate thresholds in target gene expression |
| Q85240855 | MicroRNAs deciding cardiac stem cell fate |
| Q58996489 | MicroRNAs in Cardiovascular Regenerative Medicine: Directing Tissue Repair and Cellular Differentiation |
| Q24596454 | MicroRNAs in cardiomyocyte development |
| Q34988737 | MicroRNAs in cardiovascular disease |
| Q36955783 | MicroRNAs in heart development |
| Q37920026 | MicroRNAs regulating cell pluripotency and vascular differentiation |
| Q37785997 | MicroRNAs, epigenetics and disease |
| Q38888119 | MicroRNAs, heart failure, and aging: potential interactions with skeletal muscle. |
| Q28505167 | Myh7b/miR-499 gene expression is transcriptionally regulated by MRFs and Eos |
| Q90009893 | Neural maturation enhanced by exercise-induced extracellular derivatives |
| Q37581016 | New Trends in Heart Regeneration: A Review |
| Q24595144 | New methods for next generation sequencing based microRNA expression profiling |
| Q26783717 | Non-coding RNAs in cardiac regeneration |
| Q26849658 | Novel techniques and targets in cardiovascular microRNA research |
| Q93216700 | Oral Administration of Bovine and Porcine Milk Exosome Alter miRNAs Profiles in Piglet Serum |
| Q44415960 | Overexpression of MicroRNA-1 improves the efficacy of mesenchymal stem cell transplantation after myocardial infarction |
| Q28854604 | Overexpression of microRNA-1 promotes cardiomyocyte commitment from human cardiovascular progenitors via suppressing WNT and FGF signaling pathways |
| Q26769997 | Pathological Left Ventricular Hypertrophy and Stem Cells: Current Evidence and New Perspectives |
| Q37016190 | Position Paper of the European Society of Cardiology Working Group Cellular Biology of the Heart: cell-based therapies for myocardial repair and regeneration in ischemic heart disease and heart failure |
| Q39069601 | Possible Muscle Repair in the Human Cardiovascular System |
| Q92881879 | Potential Clinical Implications of miR-1 and miR-21 in Heart Disease and Cardioprotection |
| Q89522293 | Protective effect of microRNA‑381 against inflammatory damage of endothelial cells during coronary heart disease by targeting CXCR4 |
| Q34110302 | Quantitative analysis of miRNA expression in seven human foetal and adult organs |
| Q36742616 | Recurrent miscarriage and micro-RNA among north Indian women |
| Q34774709 | Regulation of Cardiac Cell Fate by microRNAs: Implications for Heart Regeneration. |
| Q37781672 | Role of MicroRNAs in Cardiovascular Disease: Therapeutic Challenges and Potentials |
| Q36460528 | SOX6 and PDCD4 enhance cardiomyocyte apoptosis through LPS-induced miR-499 inhibition |
| Q46640892 | Serum miRNA-499 and miRNA-210: A potential role in early diagnosis of acute coronary syndrome |
| Q37140454 | Small solutions to big problems: microRNAs for cardiac regeneration |
| Q37865447 | Sox6, jack of all trades: a versatile regulatory protein in vertebrate development |
| Q50085975 | Specific Cell (Re-)Programming: Approaches and Perspectives |
| Q34215130 | Syngeneic cardiac and bone marrow stromal cells display tissue-specific microRNA signatures and microRNA subsets restricted to diverse differentiation processes |
| Q38217461 | Targeted delivery of miRNA therapeutics for cardiovascular diseases: opportunities and challenges. |
| Q28293277 | Temporal microRNA expression during in vitro myogenic progenitor cell proliferation and differentiation: regulation of proliferation by miR-682 |
| Q28080565 | The Role of MicroRNAs in Cardiac Stem Cells |
| Q33624461 | The Role of MicroRNAs in Myocardial Infarction: From Molecular Mechanism to Clinical Application |
| Q60908823 | The Winding Road of Cardiac Regeneration-Stem Cell Omics in the Spotlight |
| Q35997573 | The association between miR-499 polymorphism and cancer susceptibility: a meta-analysis. |
| Q38615422 | The expression and functional roles of microRNAs in stem cell differentiation |
| Q61809258 | The microRNA and the perspectives of miR-302 |
| Q38116760 | The non-coding road towards cardiac regeneration. |
| Q37325686 | The potential of stem cells in the treatment of cardiovascular diseases |
| Q92370292 | The protective role of MiR-206 in regulating cardiomyocytes apoptosis induced by ischemic injury by targeting PTP1B |
| Q36699569 | The role of microRNAs in cardiac development and regenerative capacity |
| Q38210729 | The role of vitamins and minerals in modulating the expression of microRNA. |
| Q34369275 | Thyroid Hormone-Regulated Cardiac microRNAs are Predicted to Suppress Pathological Hypertrophic Signaling. |
| Q36188897 | Transcriptome Dynamics and Potential Roles of Sox6 in the Postnatal Heart. |
| Q52729630 | Translational cardiac stem cell therapy: advancing from first-generation to next-generation cell types. |
| Q36884990 | Trip12, a HECT domain E3 ubiquitin ligase, targets Sox6 for proteasomal degradation and affects fiber type-specific gene expression in muscle cells |
| Q26801907 | Update on the Pathogenic Implications and Clinical Potential of microRNAs in Cardiac Disease |
| Q34014258 | Walking the interactome to identify human miRNA-disease associations through the functional link between miRNA targets and disease genes |
| Q33112691 | miR-10a regulates proliferation of human cardiomyocyte progenitor cells by targeting GATA6. |
| Q39346698 | miR-128 regulates non-myocyte hyperplasia, deposition of extracellular matrix and Islet1 expression during newt cardiac regeneration |
| Q30981917 | miR-134 Modulates the Proliferation of Human Cardiomyocyte Progenitor Cells by Targeting Meis2. |
| Q33809844 | miR-142-3p Contributes to Early Cardiac Fate Decision of Embryonic Stem Cells |
| Q33823007 | miR-499 protects cardiomyocytes from H 2O 2-induced apoptosis via its effects on Pdcd4 and Pacs2. |
| Q61812334 | miR-499-5p Attenuates Mitochondrial Fission and Cell Apoptosis via p21 in Doxorubicin Cardiotoxicity |
| Q63649149 | miRBase: from microRNA sequences to function |
| Q61795631 | miRNA Polymorphisms and Risk of Cardio-Cerebrovascular Diseases: A Systematic Review and Meta-Analysis |
| Q35066493 | miRNA expression atlas in male rat. |
| Q47774616 | miRNA-1 and miRNA-133a are involved in early commitment of pluripotent stem cells and demonstrate antagonistic roles in the regulation of cardiac differentiation. |
| Q38245253 | miRNA-1: functional roles and dysregulation in heart disease |
| Q34336863 | miRNA-940 reduction contributes to human Tetralogy of Fallot development |
| Q33658842 | miRNAs in newt lens regeneration: specific control of proliferation and evidence for miRNA networking |
| Q41370575 | microRNA and Cardiac Regeneration. |
| Q57395334 | microRNA-122down-regulation may play a role in severe myocardial fibrosis in human aortic stenosis through TGF-β1up-regulation |
| Q38324467 | microRNA-124 regulates cardiomyocyte differentiation of bone marrow-derived mesenchymal stem cells via targeting STAT3 signaling |
| Q38237570 | microRNAs and Cardiac Cell Fate |
| Q38103312 | microRNAs in cardiac development and regeneration. |
| Q33660277 | microRNAs: important regulators of stem cells |
| Q37411881 | Β-blockers treatment of cardiac surgery patients enhances isolation and improves phenotype of cardiosphere-derived cells. |
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