What is he best known for?
The fields of study he is best known for:
His primary areas of investigation include Biochemistry, Signal transduction, Cell biology, Nitric oxide synthase and Nicotiana tabacum.
David Wendehenne performs integrative study on Biochemistry and Cyclic ADP-ribose.
His Signal transduction research is multidisciplinary, relying on both Salicylic acid, Aconitase and Protein kinase A.
In Cell biology, David Wendehenne works on issues like Nitrosylation, which are connected to Mediator.
While the research belongs to areas of Nitric oxide synthase, he spends his time largely on the problem of Nitrogen assimilation, intersecting his research to questions surrounding Arabidopsis, Arabidopsis thaliana, Metabolism and Nitrate reductase.
David Wendehenne interconnects Cytoplasm, Biophysics, Palisade cell, Cytosol and Elicitor in the investigation of issues within Nicotiana tabacum.
His most cited work include:
- Defense gene induction in tobacco by nitric oxide, cyclic GMP, and cyclic ADP-ribose (1148 citations)
- Priming: Getting Ready for Battle (1041 citations)
- New Insights into Nitric Oxide Signaling in Plants (631 citations)
What are the main themes of his work throughout his whole career to date?
David Wendehenne mainly investigates Biochemistry, Cell biology, Signal transduction, Elicitor and Arabidopsis thaliana.
Nicotiana tabacum, Nitric oxide synthase, Enzyme, Nitrate reductase and Plant defense against herbivory are the core of his Biochemistry study.
His biological study spans a wide range of topics, including Plant Immunity, Nuclear protein, Immune system and Botany.
His Signal transduction research is mostly focused on the topic Second messenger system.
He has researched Elicitor in several fields, including Chaperone, Calcium signaling, Respiratory burst, Efflux and Hypersensitive response.
David Wendehenne has included themes like Botrytis cinerea and Arabidopsis in his Arabidopsis thaliana study.
He most often published in these fields:
- Biochemistry (57.02%)
- Cell biology (53.51%)
- Signal transduction (33.33%)
What were the highlights of his more recent work (between 2014-2021)?
- Cell biology (53.51%)
- Plant Immunity (16.67%)
- Immune system (12.28%)
In recent papers he was focusing on the following fields of study:
His scientific interests lie mostly in Cell biology, Plant Immunity, Immune system, S-Nitrosylation and Biochemistry.
He frequently studies issues relating to Elicitor and Cell biology.
His Plant Immunity research is multidisciplinary, incorporating perspectives in Calmodulin, Protein quality and Botany.
His study looks at the relationship between S-Nitrosylation and fields such as Regulator, as well as how they intersect with chemical problems.
His study in Nitric oxide synthase, Enzyme, Cell signaling, Amino acid residue and Recombinant DNA falls under the purview of Biochemistry.
His Reactive oxygen species research incorporates themes from Peroxynitrite, Signal transduction, Second messenger system and Protein kinase A.
Between 2014 and 2021, his most popular works were:
- Occurrence, structure, and evolution of nitric oxide synthase–like proteins in the plant kingdom (138 citations)
- Nitric oxide synthase in plants: Where do we stand? (85 citations)
- A forty year journey: The generation and roles of NO in plants. (64 citations)
In his most recent research, the most cited papers focused on:
David Wendehenne focuses on Cell biology, Biochemistry, Reactive oxygen species, Plant Immunity and Bioinformatics.
His research integrates issues of Elicitin and Superoxide in his study of Cell biology.
His work is connected to Enzyme, Nitric oxide synthase, Peroxynitrite, NADPH oxidase and Protein kinase A, as a part of Biochemistry.
His Enzyme study which covers Algal species that intersects with Nitrate reductase.
His Reactive oxygen species study combines topics from a wide range of disciplines, such as Immune system, Calmodulin and Signal transduction, Second messenger system.
His studies deal with areas such as Identification and S-Nitrosylation, Biotin switch as well as Bioinformatics.
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