Search results for "Long non-coding RNA"

showing 6 items of 16 documents

Reconnoitering the Role of Long-Noncoding RNAs in Hypertrophic Cardiomyopathy: A Descriptive Review

2021

Hypertrophic cardiomyopathy (HCM) is the most common form of hereditary cardiomyopathy. It is characterized by an unexplained non-dilated hypertrophy of the left ventricle with a conserved or elevated ejection fraction. It is a genetically heterogeneous disease largely caused by variants of genes encoding for cardiac sarcomere proteins, including MYH7, MYBPC3, ACTC1, TPM1, MYL2, MYL3, TNNI3, and TNNT23. Preclinical evidence indicates that the enhanced calcium sensitivity of the myofilaments plays a key role in the pathophysiology of HCM. Notably, this is not always a direct consequence of sarcomeric variations but may also result from secondary mutation-driven alterations. Long non-coding R…

QH301-705.5CardiomyopathyTPM1ReviewBiologyCatalysisInorganic ChemistrymedicineHumansBiology (General)Physical and Theoretical ChemistryQD1-999Molecular BiologySpectroscopyGeneticslong non-coding RNAgenetic variantsOrganic ChemistryACTC1Hypertrophic cardiomyopathyGeneral MedicineCardiomyopathy Hypertrophichypertrophic cardiomyopathymedicine.diseaseLong non-coding RNAcardiovascular diseasesComputer Science ApplicationsChemistryMYL3Cardiovascular diseases Genetic variants Hypertrophic cardiomyopathy Long non-coding RNA Cardiomyopathy Hypertrophic Humans RNA Long NoncodingMYL2RNA Long NoncodingMYH7International Journal of Molecular Sciences
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Long Non Coding RNA H19: A New Player in Hypoxia-Induced Multiple Myeloma Cell Dissemination

2019

The long non-coding RNA H19 (lncH19) is broadly transcribed in the first stage of development and silenced in most cells of an adult organism

Stromal cellCellHIF-1αBiologyModels BiologicalCatalysisArticleInorganic Chemistrylcsh:ChemistryChemokine receptorWestern blotSettore BIO/13 - Biologia ApplicataCell Line TumormedicineCell AdhesionGene silencingHumansHIF-1 alfaPhysical and Theoretical ChemistryMolecular Biologylcsh:QH301-705.5Spectroscopymedicine.diagnostic_testCell growthhypoxiaOrganic ChemistryGeneral MedicineHypoxia (medical)Hypoxia-Inducible Factor 1 alpha Subunitfemale genital diseases and pregnancy complicationsComputer Science ApplicationsCell biologyGene Expression Regulation Neoplasticmultiple myelomamedicine.anatomical_structurelcsh:Biology (General)lcsh:QD1-999Cell cultureembryonic structuresRNA Long Noncodingmedicine.symptomStromal Cellslong non-coding RNA H19 (lncH19)International Journal of Molecular Sciences
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RNA memory model: a RNA-mediated transcriptional activation mechanism involved in cell identity.

2010

Position-effect variegation (PEV) was discovered in Drosophila melanogaster in 1930 in a study of X-ray-induced chromosomal rearrangements. If a rearrangement places euchromatic genes adjacent to a region of centromeric heterochromatin, it gives a variegated phenotype that results from the random inactivation of genes by heterochromatin spreading from the breakpoint. After the establishment, the inactivation is henceforth clonally inherited. The vast majority of these modifiers were originally isolated in Drosophila as dominant mutations that suppressed or enhanced the variegation caused by a variegating white allele called white-mottled 4 (wm4). A large number of modifier genes alter PEV p…

Transcriptional ActivationAgingBiologyModels BiologicalCell Physiological PhenomenaDNA-directed RNA interferenceRNA interferenceTranscription (biology)AnimalsHumansGene SilencingSmall nucleolar RNAGeneticsPEV RNA Transinduction Cell Identity TransdifferentiationNucleic Acid HeteroduplexesRNACell DifferentiationNon-coding RNALong non-coding RNAChromatinRNA silencingDrosophila melanogasterRNARNA InterferenceGeriatrics and Gerontologyrna memory memRNA epigeneticsRejuvenation research
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A long non-coding RNA controls parasite differentiation in African trypanosomes

2020

Trypanosoma bruceicauses African sleeping sickness, a fatal human disease. Its differentiation from replicative slender form into quiescent stumpy form promotes host survival and parasite transmission. Long noncoding RNAs (lncRNAs) are known to regulate cell differentiation. To determine whether lncRNAs are involved in parasite differentiation we used RNAseq to survey theT. bruceilncRNA gene repertoire, identifying 1,428 previously uncharacterized lncRNA genes. We analysedgrumpy, a lncRNA located immediately upstream of an RNA-binding protein that is akeydifferentiation regulator. Grumpy over-expression resulted in premature parasite differentiation into the quiescent stumpy form, and subse…

biologyHost (biology)Cellular differentiationparasitic diseasesRegulatorParasite hostingTrypanosoma bruceibiology.organism_classificationParasite loadGeneLong non-coding RNACell biology
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Prediction of Disease–lncRNA Associations via Machine Learning and Big Data Approaches

2021

This chapter introduces long non-coding RNAs and their role in the occurrence and progress of diseases. The discovery of novel lncRNA-disease associations may provide valuable input to the understanding of disease mechanisms at the lncRNA level, as well as to the detection of biomarkers for disease diagnosis, treatment, prognosis, and prevention. Unfortunately, due to costs and time complexity, the number of possible disease-related lncRNAs verified by traditional biological experiments is very limited. Computational approaches for the prediction of potential disease-lncRNA associations can effectively decrease the time and cost of biological experiments. We first review the main computatio…

business.industryComputer scienceBig Data Technologies Biological Processes Computational Approaches Disease–lncRNA Associations Non-Coding RNA Hypergeometric distribution Leave One Out Cross Validation Long non-coding RNA Master-Slave Architecture Micro-RNA.Big dataArtificial intelligenceDiseasebusinessMachine learningcomputer.software_genrecomputer
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Long non-coding RNAs during embryogenesis of the sea urchin

2014

Intriguing studies suggest that long non-coding RNAs (lncRNAs) tend to act in cis with neighboring protein-coding genes. Based on this notion, we assessed whether lncRNAs originate from adjacent genomic regions of selected protein-coding genes, such as early-H2A histone and strim1, that play important functions during development of the sea urchin Paracentrotus lividus. Downregulation of H2A expression relies on the sns5 chromatin insulator placed at the 3'-end of H2A. Northern blot hybridization show that a lncRNA (of ~600 nt), not overlapping with the H2A mRNA, is transcribed from sns5, following H2A expression. The strim1 locus encodes the first echinoderm TRIM-containing factor which fu…

long non-coding RNA protein-coding genes embryogenesys sea urchinSettore BIO/11 - Biologia Molecolare
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