His scientific interests lie mostly in Auxin, Arabidopsis, Botany, Arabidopsis thaliana and Cell biology. His research in the fields of Indole-3-acetic acid overlaps with other disciplines such as Elongation. As part of his Biochemistry and Mutant and Arabidopsis studies, Göran Sandberg is studying Arabidopsis.
He interconnects Biophysics, Gravitropism and Phytochrome A in the investigation of issues within Botany. Göran Sandberg usually deals with Arabidopsis thaliana and limits it to topics linked to Biosynthesis and Vegetative reproduction. His work deals with themes such as Polar auxin transport and Auxin influx, which intersect with Cell biology.
Göran Sandberg mostly deals with Auxin, Botany, Biochemistry, Indole-3-acetic acid and Arabidopsis. His Auxin study combines topics in areas such as Primordium, Gravitropism, Apical dominance, Polar auxin transport and Cell biology. His Cell biology research is multidisciplinary, incorporating perspectives in Gene family, Lateral root, Auxin efflux and Auxin influx.
He combines subjects such as Catabolism, Metabolism, Metabolite and High-performance liquid chromatography, Chromatography with his study of Indole-3-acetic acid. The study incorporates disciplines such as Plant hormone and Arabidopsis thaliana in addition to Arabidopsis. His Arabidopsis thaliana research focuses on subjects like Cytokinin, which are linked to Agrobacterium.
Göran Sandberg mainly investigates Arabidopsis, Auxin, Cell biology, Arabidopsis thaliana and Botany. Göran Sandberg has included themes like Plant hormone and Regulation of gene expression in his Arabidopsis study. His Auxin research incorporates elements of Auxin homeostasis, Gravitropism, Vascular tissue and Biosynthesis.
His Cell biology research incorporates themes from Primordium, Lateral root, Auxin efflux and Auxin influx. In his study, Apical dominance is inextricably linked to Cytokinin, which falls within the broad field of Arabidopsis thaliana. His Botany research integrates issues from Phototropin and Shade avoidance.
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Auxin Transport Promotes Arabidopsis Lateral Root Initiation
Ilda Casimiro;Alan Marchant;Rishikesh P. Bhalerao;Tom Beeckman.
The Plant Cell (2001)
Rapid synthesis of auxin via a new tryptophan-dependent pathway is required for shade avoidance in plants.
Yi Tao;Jean-Luc Ferrer;Jean-Luc Ferrer;Karin Ljung;Florence Pojer.
AtPIN4 Mediates Sink-Driven Auxin Gradients and Root Patterning in Arabidopsis
Jiřı́ Friml;Eva Benková;Ikram Blilou;Justyna Wisniewska.
A PINOID-dependent binary switch in apical-basal PIN polar targeting directs auxin efflux.
Jiří Friml;Xiong Yang;Xiong Yang;Marta Michniewicz;Dolf Weijers.
Sites and homeostatic control of auxin biosynthesis in Arabidopsis during vegetative growth.
Karin Ljung;Rishikesh P. Bhalerao;Göran Sandberg.
Plant Journal (2002)
The auxin influx carrier LAX3 promotes lateral root emergence
Kamal Swarup;Eva Benková;Eva Benková;Ranjan Swarup;Ilda Casimiro.
Nature Cell Biology (2008)
Dissecting Arabidopsis lateral root development
Ilda Casimiro;Tom Beeckman;Neil Graham;Rishikesh Bhalerao.
Trends in Plant Science (2003)
Localization of the auxin permease AUX1 suggests two functionally distinct hormone transport pathways operate in the Arabidopsis root apex
Ranjan Swarup;Jirı́ Friml;Alan Marchant;Karin Ljung.
Genes & Development (2001)
Auxin regulation of cytokinin biosynthesis in Arabidopsis thaliana: A factor of potential importance for auxin–cytokinin-regulated development
Anders Nordström;Petr Tarkowski;Danuse Tarkowska;Rikke Norbaek.
Proceedings of the National Academy of Sciences of the United States of America (2004)
A transcriptional roadmap to wood formation
Magnus Hertzberg;Henrik Aspeborg;Jarmo Schrader;Anders Andersson.
Proceedings of the National Academy of Sciences of the United States of America (2001)
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