Marco Tripodi spends much of his time researching Cell biology, Molecular biology, Hepatocyte, Neuroscience and Chromatin immunoprecipitation. In his study, RNA-binding protein, Gene knockdown and Cytoplasm is inextricably linked to Microvesicles, which falls within the broad field of Cell biology. His Molecular biology research integrates issues from Cell culture, Gene expression, Interferon, Transcription factor and Regulation of gene expression.
His research investigates the connection with Hepatocyte and areas like RNA which intersect with concerns in Hox gene and Chromatin. His study looks at the relationship between Chromatin immunoprecipitation and topics such as Cellular differentiation, which overlap with Regulator gene and Hepatocyte nuclear factors. His studies deal with areas such as Rabies virus, Cholinergic and Premovement neuronal activity as well as Spinal cord.
The scientist’s investigation covers issues in Cell biology, Molecular biology, Cancer research, Immunology and Cell culture. His Cell biology study combines topics from a wide range of disciplines, such as RNA, Cellular differentiation and Hepatocyte. His RNA study deals with microRNA intersecting with RNA-binding protein.
He has included themes like Regulation of gene expression, Gene expression, Gene, Globin and DNA in his Molecular biology study. His Cancer research study integrates concerns from other disciplines, such as Epithelial–mesenchymal transition, Transforming growth factor, Signal transduction and Inflammation. His research integrates issues of Cell and Cell growth in his study of Cell culture.
Marco Tripodi mostly deals with Cell biology, RNA, Neuroscience, Cancer research and Epithelial–mesenchymal transition. His Cell biology research is multidisciplinary, incorporating perspectives in Regulation of gene expression, Gene silencing and Hepatocyte differentiation. Marco Tripodi has researched RNA in several fields, including microRNA and Stereochemistry.
His Neuroscience study frequently intersects with other fields, such as Nerve tract. His Cancer research study combines topics in areas such as Cancer cell, Downregulation and upregulation, EZH2, Metastasis and Hedgehog signaling pathway. His work deals with themes such as Autocrine signalling and Hedgehog, GLI1, GLI2, Smoothened, which intersect with Epithelial–mesenchymal transition.
Marco Tripodi mainly focuses on RNA, Neuroscience, Cell biology, Motor control and Regulation of gene expression. His work in RNA tackles topics such as Chromatin which are related to areas like Transcription, Transcription factor and Repressor. His work on Retrograde tracing expands to the thematically related Neuroscience.
His Cell biology research includes themes of Long interspersed nuclear element, Molecular biology, Ribosome and Ribonucleoprotein. His Motor control research is multidisciplinary, incorporating elements of Superior colliculus, Homeobox and Sensory system. His study in Regulation of gene expression is interdisciplinary in nature, drawing from both Amino acid, Proteome, Cell specific, Cortex and Cell type.
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The RNA-Binding Protein SYNCRIP Is a Component of the Hepatocyte Exosomal Machinery Controlling MicroRNA Sorting.
Laura Santangelo;Giorgio Giurato;Carla Cicchini;Claudia Montaldo.
Cell Reports (2016)
CD90+ liver cancer cells modulate endothelial cell phenotype through the release of exosomes containing H19 lncRNA
Alice Conigliaro;Viviana Costa;Alessia Lo Dico;Laura Saieva.
Molecular Cancer (2015)
Hepatitis C Virus Inhibits Interferon Signaling through Up-regulation of Protein Phosphatase 2A
Francois H.T. Duong;Magdalena Filipowicz;Marco Tripodi;Nicola La Monica.
TGFβ-induced EMT requires focal adhesion kinase (FAK) signaling
Carla Cicchini;Ilaria Laudadio;Franca Citarella;Marco Corazzari.
Experimental Cell Research (2008)
Cerebral organoids at the air–liquid interface generate diverse nerve tracts with functional output
Stefano L. Giandomenico;Susanna B. Mierau;George M. Gibbons;Lea M. D. Wenger.
Nature Neuroscience (2019)
Expression of hepatitis c virus proteins inhibits interferon α signaling in the liver of transgenic mice
Alex Blindenbacher;Francois H.T. Duong;Lukas Hunziker;Simone T.D. Stutvoet.
p53-independent apoptotic effects of the hepatitis B virus HBx protein in vivo and in vitro
Oliver Terradillos;Teresa Pollicino;Hervé Lecoeur;Marco Tripodi.
Monosynaptic Rabies Virus Reveals Premotor Network Organization and Synaptic Specificity of Cholinergic Partition Cells
Anna E. Stepien;Anna E. Stepien;Marco Tripodi;Marco Tripodi;Silvia Arber;Silvia Arber.
Transgenic expression in the liver of truncated Met blocks apoptosis and permits immortalization of hepatocytes.
Laura Amicone;Francesca M. Spagnoli;Gerald Späth;Silvia Giordano.
The EMBO Journal (1997)
Coexpression of IL‐6 and soluble IL‐6R causes nodular regenerative hyperplasia and adenomas of the liver
Domenico Maione;Emma Di Carlo;Wei Li;Piero Musiani.
The EMBO Journal (1998)
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