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Characterization of Altered MicroRNA Expression in Cervical CancerHow, Christine Diane 20 June 2014 (has links)
Cervical cancer is the third most common cancer among women worldwide, and the fourth leading cause of cancer mortality. Despite significant declines in the incidence and mortality rates of cervical cancer in Canada, it remains the 4th most common cancer in women aged 20-29 years. In order to gain novel insights into cervical cancer tumourigenesis and clinical outcome, we investigated and characterized the alterations in microRNA (miRNA) expression in this disease. Firstly, we performed global miRNA expression profiling of cervical cancer cell lines (n=3), and patient specimens (n=79). From this analysis, we identified miR-196b to be significantly down-regulated in cervical cancer, and characterized its role in regulating the HOXB7~VEGF axis. The global miRNA expression data also led to the development of a candidate 9-miRNA signature that was prognostic for disease-free survival in patients with cervical cancer, although we were unable to validate this signature in an independent cohort. This report describes important considerations concerning the development and validation of microRNA signatures for cervical cancer.
Our investigations also led us to a comparison of three methods for measuring miRNA abundance: the TaqMan Low Density Array, the NanoString nCounter assay, and single-well quantitative real-time PCR. Our findings demonstrated limited concordance between the TLDA and NanoString platforms, although each platform correlated well with PCR, which is considered the gold standard for nucleic acid quantification. Furthermore, we examined biases created by amplification protocols for microarray studies. Our analysis demonstrated that performing a correction using the LTR-method (linear transformation of replicates) could help mitigate, but not completely eliminate such biases.
Overall, this report presents insights into the role of miRNAs in cervical cancer, as well as an evaluation of technical considerations concerning miRNA and mRNA expression profiling studies.
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Sequencing and characterization of non-coding small RNAs controlling development in Arabidopsis thaliana rootsBreakfield, Natalie Wynn January 2011 (has links)
<p>Small noncoding RNAs (ncRNAs) are key regulators of plant development through modulation of the processing, stability and translation of larger RNAs. I generated small RNA datasets comprising over 200 million aligned Illumina sequence reads covering all major cell types of the root as well as four distinct developmental zones. These data were analyzed for three major types of small RNAs, namely microRNAs (miRNAs), repeat associated small interfering RNAs (ra-siRNAs), and trans-acting siRNAs (ta-siRNAs). 133 of the 243 known miRNAs were found to be expressed in the root, and most showed tissue- or zone-specific expression patterns. My collaborators and I identified 70 new high-confidence miRNAs, and knockdown of three of the newly identified miRNAs resulted in altered root growth phenotypes. Ra-siRNAs specify methylation by the RNA directed DNA methylation (RdRM) pathway, requiring the generation of additional methylation datasets. Preliminary analysis shows cell-type specific methylation patterns that correlate with small RNA and mRNA expression. Analysis of ta-siRNAs revealed new ta-siRNA generating loci, and a novel triggering miRNA for TAS1 loci. In summary, our study demonstrates the power of isolating individual cell types and developmental zones in combination with deep sequencing and computational analyses to obtain detailed profiles of ncRNAs, as well as to significantly extend the compendium of known functional RNAs.</p> / Dissertation
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Origin and evolution of eukaryotic gene sequences derived from transposable elementsPiriyapongsa, Jittima 09 June 2008 (has links)
My dissertation encompasses five different studies that are linked by a common theme the investigation of transposable element (TE) contributions to eukaryotic gene sequences. A detailed analysis of exonization events of LTR elements in the human genome shows the preference towards the fixation of LTR elements in gene untranslated regions, which supports the existing concept of a major role of LTR elements as a natural source of regulatory sequences. The ability of different classes of sequence similarity search methods to detect TE-derived sequences was evaluated. In general, the different search methods are found to be complementary, and combined search approaches are needed to systematically check any data set for all potential TE-associated coding sequences. On average, TE-derived exon sequences have low protein coding potential. In particular, non-coding TEs, are frequently exonized but unlikely to encode protein sequences. Many of these non-coding exonized TEs may be actually involved in gene regulation via the formation of double stranded RNA complexes with complementary TE-derived exons. The investigation of the relationship between human miRNAs and TEs shows that 55 experimentally verified human miRNA genes (~12%) originated from TEs. Overall, TE-derived miRNA genes are less conserved than non TE-derived miRNAs. The potential regulatory and functional significance of TE-derived miRNAs was explored. An ab initio prediction algorithm I developed was used to discover putative cases of novel TE-derived miRNA genes. A miRNA gene family, hsa-mir-548, was found to be derived from Made1 family of MITEs. The palindromic structure of the Made1 elements, and MITEs in general, points to a specific mechanism by which these sequences can be recognized and processed by the miRNA biogenesis pathway. MITEs may also represent an evolutionary link between siRNAs and miRNAs. An original model for a siRNA-to-miRNA evolutionary transition mediated by DNA-type TEs is proposed. This model is supported by the presence of evolutionary intermediate TE sequences that encode both siRNAs and miRNAs in the Arabidopsis and rice genomes. The siRNA-to-miRNA evolutionary transition is representative of a number of other regulatory mechanisms that evolved to silence TEs and were later co-opted to serve as regulators of host gene expression.
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Building graph models of oncogenesis by using microRNA expression dataZichner, Thomas January 2008 (has links)
<p>MicroRNAs (miRNAs) are a class of small non-coding RNAs that control gene expression by targeting mRNAs and triggering either translation repression or RNA degradation. Several groups pointed out that miRNAs play a major role in several diseases, including cancer. This is assumed since the expression level of several miRNAs differs between normal and cancerous cells. Further, it has been shown that miRNAs are involved in cell proliferation and cell death.</p><p>Because of this role it is suspected that miRNAs could serve as biomarkers to improve tumor classification, therapy selection, or prediction of survival. In this context, it is questioned, among other things, whether miRNA deregulations in cancer cells occur according to some pattern or in a rather random order. With this work we contribute to answering this question by adapting two approaches (Beerenwinkel et al. (J Comput Biol, 2005) and Höglund et al. (Gene Chromosome Canc, 2001)), developed to derive graph models of oncogenesis for chromosomal imbalances, to miRNA expression data and applying them to a breast cancer data set. Further, we evaluated the results by comparing them to results derived from randomly altered versions of the used data set.</p><p>We could show that miRNA deregulations most likely follow a rough temporal order, i.e. some deregulations occur early and some occur late in cancer progression. Thus, it seems to be possible that the expression level of some miRNAs can be used as indicator for the stage of a tumor. Further, our results suggest that the over expression of mir-21 as well as mir-102 are initial events in breast cancer oncogenesis.</p><p>Additionally, we identified a set of miRNAs showing a cluster-like behavior, i.e. their deregulations often occur together in a tumor, but other deregulations are less frequently present. These miRNAs are let-7d, mir-10b, mir-125a, mir-125b, mir-145, mir-206, and mir-210.</p><p>Further, we could confirm the strong relationship between the expression of mir-125a and mir-125b.</p>
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miRNA and Asymmetric siRNA : Small RNAs with Large Effects on Bone MetabolismLaxman, Navya January 2015 (has links)
RNA interference (RNAi) is a post-transcriptional gene silencing process elicited by double-stranded RNA, such as micro-RNA (miRNA) and small interfering RNA (siRNA). They are 18-25 nucleotide long, small non-coding RNAs acting as critical regulators in eukaryotic genome expression. They play an important role in regulating a wide range of biological processes such as cell cycle control, differentiation, aging and apoptosis. However, their role in supporting skeletal development and bone homeostasis is still poorly understood. Osteoporotic fractures constitute a tremendous and growing problem in our ageing populations, with an annual incidence of approximately 60000 osteoporotic fractures in Sweden. Osteoporosis is referred as the “Silent epidemic” because bone loss is gradual and a basically symptomless development until a fracture occurs. Results presented in this thesis provide a novel insight into crucial roles of miRNAs in regulating bone homeostasis. The initial aim for the thesis was to perform global miRNA expression profiling in human bone cells, and to correlate these levels to global mRNA levels. We identified and functionally characterized several miRNAs that were differentially expressed and acted in important bone signaling pathways such as the Wnt and BMP pathways. These miRNAs included hsa-miR-29b, hsa-miR-30c2 and hsa-miR-125b, which we found targeting genes highly relevant to bone metabolism e.g. COL1A1, SPARC, RUNX2, BGLAP and FRZB. Thereafter, the effect on the microRNAome upon external stimuli (e.g., Dexamethasone and Parathyroid hormone) was assessed by SOLiD sequencing. We observed a substantial difference in the expression of miRNAs between PTH and DEX treated cells. Understanding the changes in miRNAome in human bone cells under different conditions could provide new insight in bone remodeling, specifically differentiation and functional properties of osteoblasts. Based on these studies, we furthermore identified Dlx5 as potential common target of miR-203 and miR-320b and these miRNAs negatively regulate BMP-2-induced osteoblast differentiation. To activate the RNAi pathway, siRNA or miRNA molecules must be conveyed into the cytoplasm of target cells. Since challenges in cellular delivery of these small silencing RNA molecules so far have limited their clinical utility, we developed a new siRNA design that demonstrates a novel carrier-free cellular delivery. This development could potentially have a major impact in RNAi therapeutics. In conclusion, this thesis provides novel insight of miRNAs that play a major role in the regulation of bone remodeling and differentiation and functional properties of osteoblasts. Our findings may have diagnostic and/or therapeutic implications in disorders of bone metabolism.
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Contribution du transfert du miR-223-3p des neutrophiles aux cellules tumorales dans la progression du cancer du poumon / Contribution of miR-223-3p transfer from neutrophils to tumor cells in lung cancer progressionZangari, Joséphine 11 July 2016 (has links)
Le cancer du poumon est la première cause de mortalité par cancer en France et dans le monde. Aujourd'hui, en France, la survie cinq ans après un diagnostic de cancer du poumon est de seulement 14%, ce qui en fait l'un des cancers les plus difficiles à soigner. La médecine personnalisée, notamment l’immunothérapie, est désormais l’approche privilégiée pour les cancers du poumon aux stades métastatiques. Au sein d’une tumeur, les cellules cancéreuses sont entourées par un microenvironnement inflammatoire riche en polymorphonucléaires neutrophiles (PMN). Alors qu’il est établi que la présence répétée de PMN est associée au développement des carcinomes, la contribution de l'interaction intratumorale des PMN avec les cellules cancéreuses dans la progression tumorale n’est pas claire. Pour cela nos objectifs ont été de : 1) décrypter les moyens de communication engagés entre les neutrophiles et les cellules tumorales (miARNs et microvésicules) et 2) la régulation de ces acteurs dans les cellules réceptrices, 3) démontrer leur rôle dans la progression et la dissémination tumorale. La plasticité tumorale et l’invasion font parties des caractéristiques les plus importantes de la progression du cancer. Ces travaux nous ont permis d’identifier un nouveau mécanisme d'acquisition transitoire du phénotype invasif via le transfert de miARNs extracellulaires dans les cellules tumorales. Nous avons pu observer que le miR-223-3p extracellulaire est transféré des PMN aux cellules tumorales pulmonaires via des exosomes. / Lung cancer is the leading cause of cancer mortality in France and worldwide. Today in France, the overall five-year survival rate after diagnosis is only 14%, making it one of the most challenging cancers to treat. Personalized medicine is now the preferred approach for lung cancer for metastatic stage, including so-called immunotherapy. Within a tumor, cancer cells are surrounded by an inflammatory microenvironment rich in polymorphonuclear neutrophils (PMN). While it is established that the presence of PMN is associated with the development of carcinomas, the contribution of intratumoral PMN and their interaction with cancer cells in tumor progression is unclear. To explore these hypotheses, objectives of our study were: 1) to decrypt the communication between neutrophils and tumor cells (miRNAs and microvesicles) and 2) the regulation of these actors in the recipient cells, 3) to demonstrate their role in tumor progression and dissemination. Tumor plasticity and invasion are part of the most important features of cancer progression. This work has allowed us to identify a new mechanism of transient acquisition of phenotype by transfer of extracellular miRNA (ex-miRNA) into cancer cells with and, importantly, by letting the ex-miRNA decay. We observed that the ex-miR-223-3p is transferred from PMN to lung tumor cells via exosomes. This transfer is functional, as demonstrated by the occurrence of epithelial to mesenchymal transition (EMT) associated with an invasive phenotype and inhibition of one of its targets, FOXO1 transcription factor.
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Development of circulatory microRNAs as markers of organ injury and mediators of inter-organ signallingMorrison, Emma Elisabeth January 2018 (has links)
Plasma contains small, non-protein coding RNA species, microRNAs (miRNAs). Circulating miRNAs originate from tissues throughout the body and circulate in the blood bound to proteins or encapsulated in extracellular vesicles (EVs). The pattern of circulating miRNAs changes in different pathological states, leading to the hypothesis that they could act as biomarkers or mediators of inter-organ signalling. Acute kidney injury (AKI) is associated with high morbidity worldwide. Recent work has highlighted a potential role for EV signalling in the delivery of functional exogenous miRNA into kidney cells, which may contribute to the pathogenesis of AKI. The studies described in this thesis investigate the effects of circulating miRNAs on renal proximal tubular (PT) cells. Utilising next generation sequencing technology, circulating miRNA profiles were demonstrated to change significantly following myocardial injury. These findings were translated from humans into a mouse model of myocardial injury. Investigation of EV cell signalling, using flow cytometry and nanoparticle tracking analysis, demonstrated that PT cell EV uptake was not affected by known physiological agonists. By contrast, EV release from PT cells was regulated by purinergic P2Y1 and dopamine D1 receptors. Toxic cisplatin injury of PT cells resulted in increased EV release and reduced EV uptake in a dose-dependent manner. Cisplatin toxicity in PT cells was unaffected by EVs from mice with myocardial injury, but toxicity was reduced by EVs from mice with drug-induced liver injury (DILI). Circulating EVs from mice with DILI transferred the liver specific miRNA, miR-122, into PT cells in both in vivo and in vitro models. The consequence of miR-122 transfer was modulation of downstream target genes including Foxo3 which has been implicated in cell injury by apoptosis. These findings therefore show that circulatory miRNA profiles change in different models of organ injury and suggest miRNAs can be transferred to PT cells in vivo and in vitro. The improved viability of injured PT cells following co-incubation with DILI EVs, and subsequent transcriptomic work, suggests this may be as a consequence of miRNA transfer. In conclusion, circulatory miRNAs may act as mediators of inter-organ signalling and could play a crucial role in the propagation of systemic illness.
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Perfil de expressão de microRNAs no esôfago de crianças portadoras de estenose cáusticaOliveira Junior, Wilson Elias de January 2018 (has links)
Orientador: Erika Veruska Paiva Ortolan / Resumo: Introdução: Por volta de oitenta por cento dos acidentes envolvendo ingestão de cáusticos ocorrem em crianças. A estenose cáustica do esôfago é a sua principal complicação com grande morbidade. Lesões neoplásicas esofágicas podem desenvolver-se como uma complicação tardia desta estenose com um tempo médio de aparecimento entre o acidente e o desenvolvimento neoplásico de 15 a 30 anos. Considerando este risco, biopsias seriadas do esôfago são recomendadas com o objetivo de detecção precoce de displasias. Assim, um conhecimento abrangente da relação biológica entre cáusticos e neoplasia esofágica é de grande importância na identificação de novos biomarcadores que possibilitariam tratamento precoce. MicroRNAs (miRNAs) são RNAs pequenos, não codificadores de proteínas que regulam importantes processos celulares e têm se mostrado como robustos biomarcadores. O perfil global de expressão de miRNAs nesta população, seguida da identificação dos miRNA-alvo, pode levar à identificação da presença e magnitude do dano ao material genético em amostra de tecido esofágico obtido de pacientes portadores de estenose cáustica. Objetivos: Determinar o perfil global da expressão de miRNAs em células da mucosa esofágica de crianças portadoras de lesões por ingestão de cáusticos, com o objetivo de identificar miRNAs como biomarcadores associados a tumorigênese esofágica nesta população específica. Materiais e Métodos: Vinte e sete amostras esofágicas fixadas em formalina e embebidas em parafina (F... (Resumo completo, clicar acesso eletrônico abaixo) / Abstract: Background: 80% of the caustic ingestions occur in children. Esophageal stricture is a major chronic complication with great morbidity. Esophageal neoplasms may develop as a late complication of caustic injury with a mean time between caustic ingestion and cancer development of 15-30 years. Serial biopsies are recommended aiming early detection of premalignant changes. Thus a comprehensive knowledge of biological relation between caustic and esophageal cancer is of major importance to identify the biomarkers that could enable an early treatment. MicroRNAs (miRNAs) are small non-coding RNA molecules and regulate key cellular processes during tumorigenesis and have been demonstrated as an useful diagnostic, prognostic and predictive biomarkers. Global miRNA expression profiling analysis in this population, followed by the identification of miRNA target genes, may lead to the identification of the presence and magnitude of damage to genetic material in a sample of esophageal tissue obtained from patients with caustic stenosis. Objectives: We aimed to identify global microRNA (miRNA) expression changes in cells of the esophageal mucosa from children with caustic lesions compared to paired macroscopic and microscopically normal esophageal tissue. Patient and Methods: 27 formalin fixed, paraffin embedded (FFPE) esophageal samples from 15 patients were divided into two groups according to the time elapsed after the injury (Group A: less than 5 years, Group B: more than 5 years). Tho... (Complete abstract click electronic access below) / Doutor
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O transtorno de déficit de atenção e hiperatividade (TDAH) : estudo funcional e de associação com o gene DRD4Baumont, Angélica Cerveira de January 2011 (has links)
O transtorno de déficit de atenção e hiperatividade (TDAH) é um dos transtornos psiquiátricos mais freqüentes da infância e adolescência, sendo caracterizado por sintomas de desatenção, hiperatividade e impulsividade. A contribuição genética na etiologia do TDAH é uma das mais altas já verificadas para transtornos psiquiátricos, com herdabilidade média estimada de 76%. Dentre os fatores genéticos que contribuiriam para o desenvolvimento da doença, genes que codificam componentes do sistema dopaminérgico estão entre os principais candidatos. Entre estes, o gene que codifica o receptor D4 de dopamina (DRD4) é o loco mais intensamente investigado nos estudos moleculares com o TDAH. O polimorfismo mais estudado no DRD4 é um VNTR de 48 pb localizado no exon 3; porém outros polimorfismos, localizados na região promotora do gene – uma duplicação de 120pb e os SNPs -521C>T e - 616C>G – também vêm sendo propostos como polimorfismos de suscetibilidade ao TDAH. Além desses, novas variantes em regiões regulatórias do gene, os SNPs rs11246227 e rs11246228, foram observados recentemente em associação com sintomas de desatenção do TDAH. O objetivo geral do presente trabalho foi aumentar a compreensão acerca da participação do gene DRD4 na etiologia do TDAH na nossa população Para tanto, foi testada inicialmente a possibilidade de associação do SNP rs11246227, sendo em seguida investigado o significado funcional dos SNPs rs11246227 e rs11246228, e sua possível relação com a doença, através de ferramentas de bioinformática. O estudo de associação foi realizado em uma amostra composta por 478 pacientes com TDAH, diagnosticados segundo os critérios do DSM-IV, e seus pais biológicos. O rs112466227 foi investigado por abordagens baseada em família (FBAT) e dimensional (PBAT, ANOVA). A possibilidade de desequilíbrio de ligação (DL) com polimorfismos previamente investigados na presente amostra foi estimada pelo programa MLocus. A análise in silico foi realizada utilizando diferentes bases de dados genômicos e programas de predição de sítios alvo para miRNAs e de funcionalidade. A análise pelo FBAT mostrou um desvio significativo da transmissão do alelo C nos pacientes do subtipo desatento. Foram observadas evidências de DL com a duplicação de 120bp e com o VNTR do exon 3. As análises de bioinformática mostraram que os SNPs rs11246227 e rs11246228 estão localizadas na região 3’ do gene DRD4, e não na região 5’, como previamente descrito. Diferenças entre os alelos, com perda ou ganho de sítios de ligação para diferentes miRNAs, foram detectados em ambos os SNPs pelos programas MicroInspector, 5 smiRNAdb e miRecords, e apenas no rs11246227 pelos programas Human miRNA Target e Mirò. A grande variabilidade e a complexidade genética marcante do gene DRD4 aliada à heterogeneidade fenotípica do TDAH provavelmente contribuíram para nossos resultados de associação, divergentes dos descritos na literatura, os quais necessitam de replicação em estudos futuros. Nossos achados em bioinformática sugerem um possível envolvimento dos SNPs investigados com a ligação de miRNAs relacionados aos processos de neurogênese e neuroplasticidade. Genes envolvidos com estes processos vêm sendo identificados nos genome-wide association studies realizados com o TDAH, o que apóia nossos resultados in silico. Entretanto, mais estudos funcionais são necessários, tanto in silico como in vitro, para esclarecer o envolvimento dos polimorfismos analisados na regulação da expressão do gene DRD4 via miRNAs e, consequentemente, do possível efeito desses elementos na etiologia da doença. / Attention-deficit/hyperactivity disorder (ADHD) is one of the most common psychiatric disorders of childhood and adolescence, characterized by inattentive, hyperactive and impulsive symptoms. Genetic contribution to ADHD etiology is one of the highest ever recorded for psychiatric disorders, with a mean heritability of 76%. Among genetic factors that could contribute to disorder development, genes encoding components from dopaminergic system are the main candidate. Of these, the dopamine D4 receptor gene (DRD4) is the most extensively investigated locus in molecular studies of ADHD. The most studied polymorphism in DRD4 gene is a variable number of tandem repeats (VNTR) of 48bp, located at exon 3, although other polymorphisms, located in promoter region – a 120bp duplication and the SNPs -521C> T and-616C> G – have also been proposed as susceptibility polymorphisms for ADHD. In addition, new variants in regulatory regions, the SNPs rs11246227 and rs11246228, have recently been associated with inattentive symptoms of the disorder. The overall objective of this study was to increase the understanding on the involvement of DRD4 gene in ADHD etiology in our population For this purpose, the possibility of association with the SNP rs11246227 was initially tested, being afterwards investigated the functional effect of both rs11246227 and rs11246228 and their possible relation to ADHD through bioinformatics approach. The association study was performed in a sample composed by 478 ADHD patients, diagnosed according to DSM-IV criteria, and their biological parents. The rs112466227 was investigated by both family-based (FBAT) and dimensional (PBAT, ANOVA) approaches. The possibility of linkage disequilibrium (LD) with polymorphisms previously investigated in the present sample was estimated by MLocus software. In silico analysis was conducted using different genomic databases and programs to predict miRNA target sites and functionality. FBAT analysis showed a significant excess of C allele transmission in inattentive subtype patients. Evidences of LD with both 120bp tandem duplication and exon 3 VNTR were observed. Bioinformatics analyses showed that both SNPs rs11246227 and rs11246228 are located in the 3' region of DRD4 gene, and not at 5’ region, as previously described. Differences between alleles, with loss or gain of binding sites, were detected in both SNPs by MicroInspector, smiRNAdb and miRecords, and only in rs11246227 by Human miRNA Targets and miRò DRD4 huge variability and marked genetic complexity allied to ADHD phenotypic heterogeneity might have contributed to our 7 association results, distinct from the ones reported in literature, what needs to be replicated in future studies. Our bioinformatics findings suggest a possible involvement of investigated SNPs in binding properties of miRNAs related to processes of neurogenesis and neuronal plasticity. Genes involved in these processes have been identified in ADHD genome-wide association studies, reinforcing our in silico results. However, new functional studies, using both in silico and in vitro approaches, are needed to clarify the involvement of the investigated polymorphisms in DRD4 expression control mediated by miRNAs and, consequently, the possible effect of these elements in ADHD etiology.
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Příprava biosenzoru tvorby miRNA efektorového komplexu pomocí CRISPR nukleáz / Creating a biosensor for miRNA effector complex formation using CRISPR nucleasesPetržílek, Jan January 2018 (has links)
miRNAs are small regulatory RNAs, which function as post-transcriptional mRNA regulators. They direct ribonucleoprotein complexes to cognate mRNA to repress them by translational inhibition and degradation. miRNAs regulate thousands of mRNAs in mammals and have been recognized as regulatory factors in most cellular and developmental processes. Dysregulation of the miRNA pathway can lead to severe defects and diseases. Interestingly, a unique situation exists in mouse oocytes, where all the miRNA pathway components are present, yet the pathway is dispensable and nonfunctional, the molecular foundation of this phenomenon and its significance still remain unclear. In spite of the pronounced effects of the miRNA pathway in gene regulation in somatic cells, study strategies of the pathway bare limitations. Current methods for studying the activity of the miRNA pathway employ corelative studies (such as NGS) or reporter assays, which have relatively low throughput and are prone to artifacts. Here, I present design and development of a new strategy for directly monitor global miRNA pathway activity and integrity in near physiological conditions in living cells, which could also be employed in vivo for studies of mouse oocytes. The strategy is based on fluorescently tagged endogenous proteins of the...
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