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Publications by Thomas Teichmann
Verticillium Infection Triggers VASCULAR-RELATED NAC DOMAIN7-Dependent De Novo Xylem Formation and Enhances Drought Tolerance in Arabidopsis
Plant Cell
Plant Science
Cell Biology
Stabilization of Cytokinin Levels EnhancesArabidopsisResistance AgainstVerticillium Longisporum
Molecular Plant-Microbe Interactions
Medicine
Agronomy
Crop Science
Physiology
Related publications
TaNAC29, a NAC Transcription Factor From Wheat, Enhances Salt and Drought Tolerance in Transgenic Arabidopsis
BMC Plant Biology
Plant Science
[PROVISIONAL] Ammopiptanthus Mongolicus Stress-Responsive NAC Gene Enhances the Tolerance of Transgenic Arabidopsis Thaliana to Drought and Cold Stresses
Genetics and Molecular Biology
Genetics
Molecular Biology
OoNAC72, a NAC-Type Oxytropis Ochrocephala Transcription Factor, Conferring Enhanced Drought and Salt Stress Tolerance in Arabidopsis
Frontiers in Plant Science
Plant Science
GmWRKY16 Enhances Drought and Salt Tolerance Through an ABA-Mediated Pathway in Arabidopsis Thaliana
Frontiers in Plant Science
Plant Science
Cytokinetic Bridge Triggers De Novo Lumen Formation in Vivo
Nature Communications
Astronomy
Genetics
Molecular Biology
Biochemistry
Chemistry
Physics
Cultivar-Dependent Responses of Eggplant (Solanum Melongena L.) to Simultaneous Verticillium Dahliae Infection and Drought
Frontiers in Plant Science
Plant Science
Overexpression of Cotton a DTX/MATE Gene Enhances Drought, Salt, and Cold Stress Tolerance in Transgenic Arabidopsis
Frontiers in Plant Science
Plant Science
GhSNAP33, a T-Snare Protein From Gossypium Hirsutum, Mediates Resistance to Verticillium Dahliae Infection and Tolerance to Drought Stress
Frontiers in Plant Science
Plant Science
Verticillium Longisporum Infection Induces Organ-Specific Glucosinolate Degradation in Arabidopsis Thaliana
Frontiers in Plant Science
Plant Science
