His scientific interests lie mostly in Genetics, Arabidopsis, Transcription factor, Cell biology and Gene. His study in the fields of Regulation of gene expression, Nuclear cap-binding protein complex and Zinc finger under the domain of Genetics overlaps with other disciplines such as Cap binding complex. Within one scientific family, Jan U. Lohmann focuses on topics pertaining to Meristem under Arabidopsis, and may sometimes address concerns connected to Response regulator, Auxin, Cytokinin and Arabidopsis thaliana.
The study incorporates disciplines such as Cell, Plasmodesma and Multicellular organism in addition to Transcription factor. Specifically, his work in Cell biology is concerned with the study of Stem cell. His research related to Gene expression profiling and Gene expression might be considered part of Gene.
Jan U. Lohmann focuses on Cell biology, Arabidopsis, Meristem, Transcription factor and Stem cell. His studies deal with areas such as Shoot, Morphogenesis, Auxin and Cell division as well as Cell biology. Arabidopsis is a subfield of Genetics that Jan U. Lohmann studies.
Jan U. Lohmann interconnects Homeobox, Organogenesis, Agamous and Meristem maintenance in the investigation of issues within Meristem. His Transcription factor study integrates concerns from other disciplines, such as Signal transduction, Gene expression and Ectopic expression. His work is dedicated to discovering how Stem cell, Plant stem cell are connected with Cellular differentiation and other disciplines.
Jan U. Lohmann mainly focuses on Cell biology, Transcription factor, Stem cell, Meristem and Arabidopsis. His Cell biology research is multidisciplinary, incorporating perspectives in Histone, Auxin, Cell division and Cell fate determination. His Transcription factor research is included under the broader classification of Gene.
His research integrates issues of Cell, Suppressor, Plant stem cell, Cambium and Phloem in his study of Stem cell. Jan U. Lohmann has researched Meristem in several fields, including Regulator, Regulation of gene expression, Transcriptional regulation and Multicellular organism. His work carried out in the field of Arabidopsis brings together such families of science as Arabidopsis thaliana, Cell type, Function and Effector.
His main research concerns Arabidopsis, Transcription factor, Cell biology, Meristem and Stem cell. His Transcription factor research is multidisciplinary, relying on both Arabidopsis thaliana, Reprogramming, Function, Callus and Computational biology. His Computational biology study incorporates themes from Auxin homeostasis and Gene expression, Gene, Transactivation.
Jan U. Lohmann works mostly in the field of Cell biology, limiting it down to concerns involving Auxin and, occasionally, Organogenesis, Shoot apex, Developmental biology and Multicellular organism. His Meristem research incorporates elements of Regulation of gene expression and Transcriptional regulation. His research in Stem cell tackles topics such as Plant stem cell which are related to areas like Plant Immunity, Cell division and Virus.
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A gene expression map of Arabidopsis thaliana development
Markus Schmid;Timothy S Davison;Stefan R Henz;Utz J Pape.
Nature Genetics (2005)
Integration of spatial and temporal information during floral induction in Arabidopsis.
Philip A. Wigge;Philip A. Wigge;Min Chul Kim;Katja E. Jaeger;Wolfgang Busch.
WUSCHEL controls meristem function by direct regulation of cytokinin-inducible response regulators
Andrea Leibfried;Jennifer P. C. To;Wolfgang Busch;Sandra Stehling.
A molecular link between stem cell regulation and floral patterning in Arabidopsis.
Jan U. Lohmann;Ray L. Hong;Ray L. Hong;Martin Hobe;Maximilian A. Busch.
Dissection of floral induction pathways using global expression analysis.
Markus Schmid;N. Henriette Uhlenhaut;François Godard;Monika Demar.
Hormonal control of the shoot stem-cell niche
Zhong Zhao;Stig U. Andersen;Stig U. Andersen;Karin Ljung;Karel Dolezal;Karel Dolezal.
Dual roles of the nuclear cap-binding complex and SERRATE in pre-mRNA splicing and microRNA processing in Arabidopsis thaliana
Sascha Laubinger;Timo Sachsenberg;Georg Zeller;Wolfgang Busch.
Proceedings of the National Academy of Sciences of the United States of America (2008)
Whole-genome analysis of the SHORT-ROOT developmental pathway in Arabidopsis.
Mitchell P Levesque;Teva Vernoux;Wolfgang Busch;Hongchang Cui.
PLOS Biology (2006)
Silencing of developmental genes in Hydra.
Jan U Lohmann;Ingrid Endl;Thomas C.G Bosch.
Developmental Biology (1999)
Transgenic Hydra allow in vivo tracking of individual stem cells during morphogenesis
Jörg Wittlieb;Konstantin Khalturin;Jan U. Lohmann;Friederike Anton-Erxleben.
Proceedings of the National Academy of Sciences of the United States of America (2006)
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