Max Planck Institute for Medical Research
Member of the European Molecular Biology Organization (EMBO)
His primary areas of study are Molecular biology, Biochemistry, Cell biology, AMPA receptor and Receptor. His research in Molecular biology intersects with topics in DNA and Complementary DNA, Molecular cloning, Gene, Peptide sequence. His work deals with themes such as R-type calcium channel and Calcium, which intersect with Biochemistry.
His Cell biology study combines topics from a wide range of disciplines, such as Phenotype, Internal medicine, RNA editing and Ion channel. He interconnects Neuroscience and Excitatory postsynaptic potential in the investigation of issues within AMPA receptor. His Receptor research integrates issues from Endocrinology, Signal transduction and Messenger RNA.
His scientific interests lie mostly in Molecular biology, Neuroscience, AMPA receptor, Receptor and Biochemistry. His Molecular biology research is multidisciplinary, incorporating perspectives in Genetics, Recombinant DNA, Complementary DNA, Peptide sequence and Gene. Peter H. Seeburg has included themes like NMDA receptor, Long-term potentiation and Synaptic plasticity in his Neuroscience study.
His AMPA receptor course of study focuses on Biophysics and Homomeric. His Receptor study incorporates themes from Endocrinology, Protein subunit and Cell biology. Peter H. Seeburg combines subjects such as Allosteric regulation, Pharmacology and Alpha with his study of GABAA receptor.
Neuroscience, AMPA receptor, Cell biology, NMDA receptor and Glutamate receptor are his primary areas of study. His studies deal with areas such as Synaptic plasticity, Long-term potentiation and Neurotransmission as well as Neuroscience. His AMPA receptor research entails a greater understanding of Receptor.
His Cell biology research is multidisciplinary, incorporating elements of RNA, RNA editing, Gene, Endogeny and In vivo. His work carried out in the field of Glutamate receptor brings together such families of science as Nociceptor, Peripheral nervous system, Olfactory bulb, Pharmacology and Brain mapping. In Protein subunit, Peter H. Seeburg works on issues like Knockout mouse, which are connected to Stimulus.
Peter H. Seeburg mainly investigates Neuroscience, AMPA receptor, NMDA receptor, Long-term potentiation and Synaptic plasticity. The various areas that Peter H. Seeburg examines in his Neuroscience study include Metaplasticity and Adenosine. His AMPA receptor study combines topics in areas such as Amino acid and Cell biology.
Peter H. Seeburg has researched NMDA receptor in several fields, including Glutamate receptor, Neurotransmission and Odor. Glutamate receptor is the subject of his research, which falls under Receptor. Peter H. Seeburg usually deals with Long-term potentiation and limits it to topics linked to Spatial memory and Long-term memory, Hippocampus and Memory consolidation.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Supercoil sequencing: a fast and simple method for sequencing plasmid DNA
Ellson Y. Chen;Peter H. Seeburg.
DNA (Mary Ann Liebert, Inc.) (1985)
A system for shotgun DNA sequencing.
Joachim Messing;Roberto Crea;Peter H. Seeburg.
Nucleic Acids Research (1981)
Human insulin receptor and its relationship to the tyrosine kinase family of oncogenes
Axel Ullrich;J. R. Bell;Ellson Y. Chen;R. Herrera.
Tyrosine kinase receptor with extensive homology to EGF receptor shares chromosomal location with neu oncogene.
Lisa Coussens;Teresa L. Yang-Feng;Yu Cheng Liao;Ellson Chen.
Human tumour necrosis factor: precursor structure, expression and homology to lymphotoxin.
Diane Pennica;Glenn E. Nedwin;Joel S. Hayflick;Peter H. Seeburg.
Domain interaction between NMDA receptor subunits and the postsynaptic density protein PSD-95
Hans Christian Kornau;Leslie T. Schenker;Mary B. Kennedy;Peter H. Seeburg.
RNA editing in brain controls a determinant of ion flow in glutamate-gated channels.
Bernd Sommer;Martin Köhler;Rolf Sprengel;Peter H. Seeburg.
Importance of a novel GABAA receptor subunit for benzodiazepine pharmacology.
Dolan B. Pritchett;Harald Sontheimer;Brenda D. Shivers;Sanie Ymer.
Flip and flop: a cell-specific functional switch in glutamate-operated channels of the CNS
Bernd Sommer;Kari Keinänen;Todd A. Verdoorn;William Wisden.
Divalent ion permeability of AMPA receptor channels is dominated by the edited form of a single subunit
Nail Burnashev;Hannah Monyer;Peter H. Seeburg;Bert Sakmann.
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: