Dominique Thomas mainly focuses on Biochemistry, Saccharomyces cerevisiae, Transcriptional regulation, Gene and Methionine. His Cell biology research extends to Biochemistry, which is thematically connected. His Saccharomyces cerevisiae research is multidisciplinary, incorporating perspectives in Complementation, Arabidopsis and Sulfate assimilation.
His studies in Transcriptional regulation integrate themes in fields like Sulfur metabolism, Sulfur, Metabolism and Biosynthesis. His study in Methionine is interdisciplinary in nature, drawing from both Arabidopsis thaliana and Thioredoxin, Thioredoxin h. His study looks at the intersection of Transcription factor and topics like Activator with Ubiquitin.
His primary scientific interests are in Biochemistry, Pressure drop, Filtration, Aerosol and Composite material. Yeast, Methionine, Saccharomyces cerevisiae, Gene and Ubiquitin ligase are subfields of Biochemistry in which his conducts study. His Saccharomyces cerevisiae research integrates issues from Molecular biology, Arabidopsis, Mutant and Thioredoxin.
The concepts of his Pressure drop study are interwoven with issues in Porosity, Environmental engineering and HEPA. As a member of one scientific family, he mostly works in the field of Filtration, focusing on Flow and, on occasion, Simulation. Dominique Thomas works mostly in the field of Composite material, limiting it down to topics relating to Nanoparticle and, in certain cases, Analytical chemistry, Particle size, Bubble and Penetration, as a part of the same area of interest.
Filtration, Pressure drop, Aerosol, Composite material and Nanoparticle are his primary areas of study. His study in the fields of Filter media under the domain of Filtration overlaps with other disciplines such as Macroscopic scale. Dominique Thomas performs multidisciplinary study in Pressure drop and Clogging in his work.
His Aerosol research is multidisciplinary, relying on both Simulation, Flow and Filter. His Composite material study incorporates themes from HEPA and Relative humidity. His work in Nanoparticle addresses issues such as Analytical chemistry, which are connected to fields such as Geometric standard deviation.
His main research concerns Aerosol, Filtration, Nanoparticle, Composite material and Ultrafine particle. His Aerosol study integrates concerns from other disciplines, such as Flow, Simulation and Filter. His Filtration research incorporates elements of Tomography and Homogeneous distribution.
His work in Nanoparticle addresses subjects such as Analytical chemistry, which are connected to disciplines such as Differential mobility analyzer and Particle deposition. His study on Composite material is mostly dedicated to connecting different topics, such as Pressure drop. The Pressure drop study combines topics in areas such as Agglomerate and Porosity.
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