Michel Revel mainly investigates Molecular biology, Interferon, RNA, Protein biosynthesis and Messenger RNA. His Molecular biology study integrates concerns from other disciplines, such as Biochemistry, Phosphorylation, Complementary DNA, Interferon type I and Ribosome. His work deals with themes such as Major histocompatibility complex, Cell growth and Enzyme, which intersect with Interferon.
His work in the fields of RNA, such as Reticulocyte, overlaps with other areas such as Polynucleotide phosphorylase. The concepts of his Protein biosynthesis study are interwoven with issues in eIF2 and Nuclease. His research integrates issues of Globin, Polyacrylamide gel electrophoresis, Mitochondrion and Hamster in his study of Messenger RNA.
The scientist’s investigation covers issues in Molecular biology, Interferon, Biochemistry, Messenger RNA and Cell biology. His research in Molecular biology focuses on subjects like RNA, which are connected to Gene expression. His research in Interferon intersects with topics in Virus, Cell culture and Enzyme.
He works mostly in the field of Biochemistry, limiting it down to concerns involving Interleukin 6 and, occasionally, Cancer research, Cancer and Leukemia. His Messenger RNA study focuses on Translation in particular. His Protein biosynthesis study combines topics from a wide range of disciplines, such as Five-prime cap and Ribosome, Initiation factor.
His main research concerns Cell biology, Interleukin 6, Receptor, Embryonic stem cell and Molecular biology. His work carried out in the field of Cell biology brings together such families of science as Dna encoding, Gene expression, DNA-binding protein, Induced pluripotent stem cell and Antibody. His study in Receptor is interdisciplinary in nature, drawing from both Tripeptide and DNA.
His Molecular biology research includes themes of Cell growth, Subculture, Myelin basic protein, Bioreactor and Packed bed. The various areas that Michel Revel examines in his Cell growth study include Concanavalin A, RNA, Protein biosynthesis, Stimulation and Adenylate kinase. His biological study spans a wide range of topics, including Interferon, Membrane and Molecule.
His scientific interests lie mostly in Cell biology, Embryonic stem cell, Myelin basic protein, Stem cell and Molecular biology. He interconnects Neuroscience, Liver metabolism, Immunology and Transcription, Gene in the investigation of issues within Cell biology. Michel Revel focuses mostly in the field of Myelin basic protein, narrowing it down to topics relating to Gene expression and, in certain cases, Schwann cell, Cell culture, Myelin protein zero and Remyelination.
His Stem cell research is multidisciplinary, incorporating perspectives in KOSR, Embryoid body and Adult stem cell. His studies in Molecular biology integrate themes in fields like RNA, Oligonucleotide and Cell growth. The Cell growth study combines topics in areas such as Concanavalin A, Interferon, Protein biosynthesis, Stimulation and Adenylate kinase.
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HGF, SDF-1, and MMP-9 are involved in stress-induced human CD34+ stem cell recruitment to the liver.
Orit Kollet;Shoham Shivtiel;Yuan Qing Chen;Jenny Suriawinata.
Journal of Clinical Investigation (2003)
Structure and expression of cDNA and genes for human interferon-beta-2, a distinct species inducible by growth-stimulatory cytokines.
A. Zilberstein;R. Ruggieri;J.H. Korn;M. Revel.
The EMBO Journal (1986)
Preferential effect of gamma interferon on the synthesis of HLA antigens and their mRNAs in human cells.
David Wallach;Marc Fellous;Michel Revel.
Michel Revel;Judith Chebath.
Trends in Biochemical Sciences (1986)
Constitutive expression of (2'-5') oligo A synthetase confers resistance to picornavirus infection.
J Chebath;P Benech;M Revel;M Vigneron.
Post-Transcriptional and Translational Controls of Gene Expression in Eukaryotes
M Revel;Y Groner.
Annual Review of Biochemistry (1978)
Interferon-dependent induction of mRNA for the major histocompatibility antigens in human fibroblasts and lymphoblastoid cells
Marc Fellous;Uri Nir;David Wallach;Gilles Merlin.
Proceedings of the National Academy of Sciences of the United States of America (1982)
Interleukin 6 Gene Transfection into Lewis Lung Carcinoma Tumor Cells Suppresses the Malignant Phenotype and Confers Immunotherapeutic Competence against Parental Metastatic Cells
Angel Porgador;Esther Tzehoval;Anne Katz;Ezra Vadai.
Cancer Research (1992)
Four different forms of interferon-induced 2',5'-oligo(A) synthetase identified by immunoblotting in human cells.
J Chebath;P Benech;A Hovanessian;J Galabru.
Journal of Biological Chemistry (1987)
Specific phosphorylation in vitro of a protein associated with ribosomes of interferon-treated mouse L cells.
Asher Zilberstein;Perla Federman;Lester Shulman;Michel Revel.
FEBS Letters (1976)
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