(2021)
Rapid proliferation due to better metabolic adaptation results in full virulence of a filament-deficient Candida albicans strain.
Nat Commun 12(1),
3899.
Dr. Ronny Martin
AlumniPublikationen
(2020)
Ahr1 and Tup1 contribute to the transcriptional control of virulence-associated genes in Candida albicans.
mBio 11(2),
e00206-20.
(2019)
Candida auris in germany and previous exposure to foreign healthcare.
Emerg Infect Dis 25(9),
1763-1765.
(2017)
CO2 sensing in fungi: at the heart of metabolic signaling.
Curr Genet 63(6),
965-972.
(2017)
Lipid signaling via Pkh1/2 regulates fungal CO2 sensing through the kinase Sch9.
mBio 8(1),
e02211-16.
(2017)
A functional link between hyphal maintenance and quorum sensing in Candida albicans.
Mol Microbiol 103(4),
595-617.
(2016)
Candida albicans infection leads to barrier breakdown and a MAPK/NF-κB mediated stress response in the intestinal epithelial cell line C2BBe1.
Cellular Microbiology 18(7),
889-904.
(2016)
Candida albicans induces metabolic reprogramming in human NK cells and responds to perforin with a Zinc depletion response.
Front Microbiol 7,
750.
(2015)
Neutrophil activation by Candida glabrata but not Candida albicans promotes fungal uptake by monocytes.
Cell Microbiol 17(9),
1259-1276.
(2015)
A second stimulus required for enhanced antifungal activity of human neutrophils in blood is provided by anaphylatoxin C5a.
The Journal of Immunology 194(3),
1199-1210.