Publikationen von Ilka B. Bischofs

Zeitschriftenartikel (7)

2022
Zeitschriftenartikel
Ernst, L.; Steinfeld, B. K.; Barayeu, U.; Klintzsch, T.; Kurth, M.; Grimm, D.; Dick, T. P.; Rebelein, J. G.; Bischofs, I. B.; Keppler, F.: Methane formation driven by reactive oxygen species across all living organisms. NATURE 603 (7901), S. 482 - + (2022)
2020
Zeitschriftenartikel
Dragoš, A.; Priyadarshini, B.; Hasan, Z.; Strube, M. L.; Kempen, P. J.; Maróti, G.; Kaspar, C.; Bose, B.; Burton, B. M.; Bischofs, I. B. et al.; Kovács Á, T.: Pervasive prophage recombination occurs during evolution of spore-forming Bacilli. Isme j 15 (5), S. 1344 - 1358 (2020)
Zeitschriftenartikel
Mutlu, A.; Kaspar, C.; Becker, N.; Bischofs, I. B.: A spore quality-quantity tradeoff favors diverse sporulation strategies in Bacillus subtilis. ISME J 14 (11), S. 2703 - 2714 (2020)
Zeitschriftenartikel
Babel, H.; Naranjo-Meneses, P.; Trauth, S.; Schulmeister, S.; Malengo, G.; Sourjik, V.; Bischofs, I. B.: Ratiometric population sensing by a pump-probe signaling system in Bacillus subtilis. NATURE COMMUNICATIONS 11 (1), 1176 (2020)
2019
Zeitschriftenartikel
Bettenworth, V.; Steinfeld, B.; Duin, H.; Petersen, K.; Streit, W. R.; Bischofs, I. B.; Becker, A.: Phenotypic Heterogeneity in Bacterial Quorum Sensing Systems. SI 431 (23), S. 4530 - + (2019)
Zeitschriftenartikel
Lytvynenko, I.; Paternoga, H.; Thrun, A.; Balke, A.; Mueller, T. A.; Chiang, C. H.; Nagler, K.; Tsaprailis, G.; Anders, S.; Bischofs, I. B. et al.; Maupin-Furlow, J. A.; Spahn, C. M. T.; Joazeiro, C. A. P.: Alanine Tails Signal Proteolysis in Bacterial Ribosome-Associated Quality Control. CELL 178 (1), S. 76 - + (2019)
2018
Zeitschriftenartikel
Mutlu, A.; Trauth, S.; Ziesack, M.; Nagler, K.; Bergeest, J.; Rohr, K.; Becker, N.; Hofer, T.; Bischofs, I.: Phenotypic memory in Bacillus subtilis links dormancy entry and exit by a spore quantity-quality tradeoff. NATURE COMMUNICATIONS 9, 69 (2018)

Preprint (1)

2021
Preprint
Steinfeld, B. K.; Cui, Q.; Schmidt, T.; Bischofs, I. B.: Communication determines population-level fitness under cation stress by modulating the ratio of motile to sessile B. subtilis cells. (2021)
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