T
Tanya E. S. Dahms
Researcher at University of Regina
Publications - 41
Citations - 1244
Tanya E. S. Dahms is an academic researcher from University of Regina. The author has contributed to research in topics: Chemistry & Candida albicans. The author has an hindex of 14, co-authored 33 publications receiving 1029 citations. Previous affiliations of Tanya E. S. Dahms include Regina Qu'Appelle Health Region.
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Investigation of Temperature-Induced Phase Transitions in DOPC and DPPC Phospholipid Bilayers Using Temperature-Controlled Scanning Force Microscopy
TL;DR: It is demonstrated the existence of several phase transitions in DPPC and DOPC mica-supported bilayers by both atomic force microscopy imaging and force measurements, which provide valuable information on bilayer thickness and phase transitions.
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Friends or foes? Emerging insights from fungal interactions with plants
Susanne Zeilinger,Vijai Kumar Gupta,Tanya E. S. Dahms,Roberto Nascimento Silva,Harikesh Bahadur Singh,Ram Sanmukh Upadhyay,Eriston Vieira Gomes,Clement K. M. Tsui,Chandra Nayak +8 more
TL;DR: New innovative methods and the associated new insights into plant–fungal interactions are reviewed and the potential of fungi in preventing plant diseases, improving plant productivity and understanding ecosystem stability is understood.
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High spatial resolution surface imaging and analysis of fungal cells using SEM and AFM.
TL;DR: SEM and AFM are complementary techniques that are clarifying the understanding of fungal biology and the integration of AFM with optical microscopy will allow examination of individual molecules or cellular structures in the context ofFungal cell architecture.
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Surface ultrastructure and elasticity in growing tips and mature regions of Aspergillus hyphae describe wall maturation.
TL;DR: AFM images and FS data suggest that the Aspergillus nidulans wall matures following deposition at the hyphal tip, and surface architecture during wall maturation correlated with changes in the relative viscoelasticity of walls measured by force spectroscopy in growing A. niduans hyphae.
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Oxidative stress and metabolic perturbations in Escherichia coli exposed to sublethal levels of 2,4-dichlorophenoxyacetic acid.
Supriya V. Bhat,Sean C. Booth,Erik A.N. Vantomme,Shirin Afroj,Christopher K. Yost,Tanya E. S. Dahms +5 more
TL;DR: Direct evidence is provided that 2,4-D at sublethal levels induces oxidative stress and identifies the associated metabolic changes in E. coli.