Jean-Paul Behr mainly investigates Transfection, Gene delivery, Molecular biology, Polyethylenimine and Biochemistry. His Transfection study combines topics from a wide range of disciplines, such as Biophysics, DNA, In vivo and Cell biology. His Gene delivery research is multidisciplinary, relying on both Endocytosis and Signal peptide.
In his study, Luciferase is strongly linked to Transgene, which falls under the umbrella field of Polyethylenimine. In the field of Biochemistry, his study on Cell membrane, Polylysine, Gene transfer and Nuclear export signal overlaps with subjects such as Zeta potential. Jean-Paul Behr studied Cell culture and Cytotoxicity that intersect with Magnetofection, SiRNA binding and Oligonucleotide.
His primary areas of investigation include DNA, Transfection, Biochemistry, Stereochemistry and Molecular biology. The DNA study combines topics in areas such as Cationic polymerization, Biophysics, Nucleic acid and Gene. His work deals with themes such as Electrophoresis, Liposome and Endosome, which intersect with Biophysics.
His Transfection study combines topics in areas such as Genetic transfer, Genetic enhancement and Cell biology. Jean-Paul Behr usually deals with Stereochemistry and limits it to topics linked to Molecule and Ammonium. His Molecular biology research is multidisciplinary, incorporating elements of Cell culture, Reporter gene, Gene expression, Transgene and In vivo.
The scientist’s investigation covers issues in Gene delivery, Molecular biology, Transfection, DNA and Small interfering RNA. His studies in Gene delivery integrate themes in fields like Cancer cell, DNA condensation and Polyethylenimine. His Molecular biology research integrates issues from Cell culture, Gene expression, Genetic enhancement and In vivo.
The various areas that Jean-Paul Behr examines in his Transfection study include Cancer research and Reporter gene. DNA is a subfield of Biochemistry that he explores. His Biophysics research includes elements of Cationic polymerization, Polyethylene glycol and Polymer.
His main research concerns Molecular biology, Transfection, Gene delivery, Cell biology and RNA. His Molecular biology study integrates concerns from other disciplines, such as RNA interference, Gene expression and Small interfering RNA. Jean-Paul Behr works in the field of Transfection, namely Polyethylenimine.
His research in Gene delivery intersects with topics in DNA condensation, DNA and Endosome. His study with DNA involves better knowledge in Biochemistry. His study in RNA is interdisciplinary in nature, drawing from both Cell culture, Dendrimer, Luciferase, Photinus pyralis and Regulation of gene expression.
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A versatile vector for gene and oligonucleotide transfer into cells in culture and in vivo: polyethylenimine
Otmane Boussif;Frank LezoualC'H;Maria Antonietta Zanta;Mojgan Djavaheri Mergny.
Proceedings of the National Academy of Sciences of the United States of America (1995)
Efficient gene transfer into mammalian primary endocrine cells with lipopolyamine-coated DNA
Jean-Paul Behr;Barbara Demeneix;Jean-Philippe Loeffler;Jose Perez-Mutul.
Proceedings of the National Academy of Sciences of the United States of America (1989)
Gene delivery: A single nuclear localization signal peptide is sufficient to carry DNA to the cell nucleus
Maria Antonietta Zanta;Pascale Belguise-Valladier;Jean-Paul Behr.
Proceedings of the National Academy of Sciences of the United States of America (1999)
POLYETHYLENIMINE BUT NOT CATIONIC LIPIDS PROMOTES TRANSGENE DELIVERY TO THE NUCLEUS IN MAMMALIAN CELLS
Hélène Pollard;Jean-Serge Remy;Gildas Loussouarn;Sophie Demolombe.
Journal of Biological Chemistry (1998)
A POWERFUL NONVIRAL VECTOR FOR IN VIVO GENE TRANSFER INTO THE ADULT MAMMALIAN BRAIN : POLYETHYLENIMINE
Bassima Abdallah;Ahmed Hassan;Corinne Benoist;Daniel Goula.
Human Gene Therapy (1996)
Nomenclature for Synthetic Gene Delivery Systems
P. L. Felgner;Y. Barenholz;J. P. Behr;S. H. Cheng.
Human Gene Therapy (1997)
Gene Transfer with Synthetic Cationic Amphiphiles: Prospects for Gene Therapy
Bioconjugate Chemistry (1994)
Optimized galenics improve in vitro gene transfer with cationic molecules up to 1000-fold.
O Boussif;M A Zanta;J P Behr.
Gene Therapy (1996)
In vitro gene delivery to hepatocytes with galactosylated polyethylenimine
Maria-Antonietta Zanta;Otmane Boussif;and Abdennaji Adib;Jean-Paul Behr.
Bioconjugate Chemistry (1997)
An electron microscopy study into the mechanism of gene transfer with lipopolyamines.
Labat-Moleur F;Steffan Am;Brisson C;Perron H.
Gene Therapy (1996)
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