1990 - Fellow of the Royal Society of New Zealand
Warren P. Tate integrates Gene and Aminoacyl tRNA synthetase in his research. His work blends Aminoacyl tRNA synthetase and Gene studies together. His study in LTP induction extends to Genetics with its themes. His Receptor research extends to the thematically linked field of LTP induction. His Receptor study frequently intersects with other fields, such as Genetics. Many of his studies on Biochemistry involve topics that are commonly interrelated, such as Release factor. In his works, he performs multidisciplinary study on Release factor and Open reading frame. Warren P. Tate conducts interdisciplinary study in the fields of Open reading frame and Genome through his research. Warren P. Tate performs multidisciplinary study in Genome and Codon usage bias in his work.
In his study, Warren P. Tate carries out multidisciplinary Gene and Escherichia coli research. His research combines Sequence (biology) and Biochemistry. Many of his studies on Sequence (biology) apply to Biochemistry as well. Warren P. Tate integrates many fields in his works, including RNA and Molecular biology. In his papers, he integrates diverse fields, such as Molecular biology and RNA. His research ties Protein subunit and Genetics together. His work blends Transfer RNA and Release factor studies together. With his scientific publications, his incorporates both Release factor and Protein biosynthesis. Warren P. Tate undertakes multidisciplinary investigations into Protein biosynthesis and Transfer RNA in his work.
Genetics is closely attributed to Protein biosynthesis in his research. Warren P. Tate performs integrative study on Protein biosynthesis and Release factor. He carries out multidisciplinary research, doing studies in Release factor and Genetic code. He combines Genetic code and Base pair in his studies. By researching both Base pair and Messenger RNA, Warren P. Tate produces research that crosses academic boundaries. Many of his studies on Messenger RNA apply to Genetics as well. His multidisciplinary approach integrates Gene and Computational biology in his work. He carries out multidisciplinary research, doing studies in Computational biology and Gene. Warren P. Tate integrates Methylation with DNA methylation in his study.
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Roles of amyloid precursor protein and its fragments in regulating neural activity, plasticity and memory.
Paul R Turner;Kate O’Connor;Warren P Tate;Wickliffe C Abraham.
Progress in Neurobiology (2003)
Metaplasticity: A new vista across the field of synaptic plasticity
Wickliffe C. Abraham;Warren P. Tate.
Progress in Neurobiology (1997)
Correlations between immediate early gene induction and the persistence of long-term potentiation
W.C. Abraham;S.E. Mason;J. Demmer;J.M. Williams.
The identity of the base following the stop codon determines the efficiency of in vivo translational termination in Escherichia coli.
E S Poole;C M Brown;W P Tate.
The EMBO Journal (1995)
Maintenance of long-term potentiation in rat dentate gyrus requires protein synthesis but not messenger RNA synthesis immediately post-tetanization
S. Otani;C.J. Marshall;W.P. Tate;G.V. Goddard.
The role of immediate early genes in the stabilization of long-term potentiation.
Wickliffe C. Abraham;Michael Dragunow;Warren P. Tate.
Molecular Neurobiology (1991)
Bacterial peptide chain release factors: conserved primary structure and possible frameshift regulation of release factor 2.
W J Craigen;R G Cook;W P Tate;C T Caskey.
Proceedings of the National Academy of Sciences of the United States of America (1985)
Translational termination efficiency in mammals is influenced by the base following the stop codon
Kim K. McCaughan;Chris M. Brown;Mark E. Dalphin;Marla J. Berry.
Proceedings of the National Academy of Sciences of the United States of America (1995)
Metabotropic Glutamate Receptors Trigger Homosynaptic Protein Synthesis to Prolong Long-Term Potentiation
Clarke R. Raymond;Vida L. Thompson;Warren P. Tate;Wickliffe C. Abraham.
The Journal of Neuroscience (2000)
Endogenous secreted amyloid precursor protein-α regulates hippocampal NMDA receptor function, long-term potentiation and spatial memory
Chanel J. Taylor;David R. Ireland;Irene Ballagh;Katie Bourne.
Neurobiology of Disease (2008)
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