Publications

Alings F, Scharmann K, Eggers C, Böttcher B, Sokołowski M, Shvetsova E, Sharma P, Roth J, Rashiti L, Glatt S, Brunke S, Leidel SA (2023) Ncs2* mediates in vivo virulence of pathogenic yeast through sulphur modification of cytoplasmic transfer RNA. Nucleic Acids Res 51(15), 8133-8149.
Böttcher B, Driesch D, Krüger T, Garbe E, Gerwien F, Kniemeyer O, Brakhage AA, Vylkova S (2022) Impaired amino acid uptake leads to global metabolic imbalance of Candida albicans biofilms. NPJ Biofilms Microbiomes 8(1), 78.
Garbe E, Gerwien F, Driesch D, Müller T, Böttcher B, Gräler M, Vylkova S (2022) Systematic metabolic profiling identifies de novo sphingolipid synthesis as hypha associated and essential for Candida albicans filamentation. mSystems 7(6), e0053922.
Garbe E, Miramón P, Gerwien F, Ueberschaar N, Hansske-Braun L, Brandt P, Böttcher B, Lorenz M, Vylkova S (2022) GNP2 encodes a high-specificity proline permease in Candida albicans. mBio 13(1), e0314221.
Böttcher B, Hoffmann B, Garbe E, Weise T, Cseresnyés Z, Brandt P, Dietrich S, Driesch D, Figge MT, Vylkova S (2020) The transcription factor Stp2 is important for Candida albicans biofilm establishment and sustainability. Front Microbiol 11, 794.
Weise T, Böttcher B, Vylkova S (2020) Bioflux analysis. Protocols ,
Böttcher B, Pöllath C, Staib P, Hube B, Brunke S (2016) Candida species rewired hyphae developmental programs for chlamydospore formation. Front Microbiol 7, 1697.
Böttcher B, Palige K, Jacobsen ID, Hube B, Brunke S (2015) Csr1/Zap1 maintains zinc homeostasis and influences virulence in Candida dubliniensis but is not coupled to morphogenesis. Eukaryot Cell 14(7), 661-670.
Palige K, Linde J, Martin R, Böttcher B, Citiulo F, Sullivan DJ, Weber J, Staib C, Rupp S, Hube B, Morschhäuser J, Staib P (2013) Global transcriptome sequencing identifies chlamydospore specific markers in Candida albicans and Candida dubliniensis. PLOS One 8(4), e61940.