Mansky, J., Wang, H., Ebert, M., Tomasch, J., Härtig, E., Jahn, D. & Wagner-Döbler, I (2022)
The influence of genes on the “killer plasmid” of Dinoroseobacter shibae on its symbiosis with the dinoflagellate Prorocentrum minimum.
Front Microbiol., 12:804767.
Beier, N, Kucklick, M, Fuchs, S., Mustafayeva, S., Behringer, M.,Härtig, E., Jahn, D., & Engelmann, S. (2021) Adaptation of Dinoroseobacter shibae to oxidative stress and the specific role of RirA, PLOS ONE, 16, e0248865
Behringer, M., L. Plötzky, D. Baabe, M.-K. Zaretzke, P. Schweyen, M. Bröring, D. Jahn & E. Härtig (2020) RirA of Dinoroseobacter shibae senses iron via a [3Fe–4S]1+ cluster co-ordinated by three cysteine residues. Biochemical Journal 477: 191-212.
Härtig, E., C. Frädrich, M. Behringer, A. Hartmann, M. Neumann-Schaal & D. Jahn (2018) Functional definition of the two effector binding sites, the oligomerization and DNA binding domains of the Bacillus subtilis LysR-type transcriptional regulator AlsR. Molecular Microbiology 109: 845-864.
Ebert, M., Schweyen, P., Bröring, M., Laass, S., Härtig, E. & Jahn, D. (2017) Heme and nitric oxide binding by the transcriptional regulator DnrF from the marine bacterium Dinoroseobacter shibae increases napD promoter affinity. J. Biol. Chem., 292: 15468-15480.
Ebert, M., Laass, S., Thürmer, A., Roselius L., Eckweiler, D., Daniel, R., Härtig, E. & Jahn, D. (2017) FnrL and three Dnr regulators are used for the metabolic adaptation to low oxygen tension in Dinoroseobacter shibae. Front. Microbiol. 8:642.
Laass, S., Kleist, S., Bill, N., Drueppell, K., Kossmehl, S., Woehlbrand, L., Rabus, R., Klein, J., Rohde, M., Bartsch, A., Wittmann, C., Schmidt-Hohagen, K., Tielen, P., Jahn, D. & Schomburg, D. (2014) Gene regulatory and metabolic adaptation processes of Dinoroseobacter shibae DFL12T during oxygen depletion J Biol Chem, 9; 289(19): 13219–13231.
Ebert, M.*, Laaß, S.*, Burghartz, M., Petersen, J., Koßmehl, S., Wöhlbrand, L., Rabus, R., Wittmann, C., Tielen, P. & Jahn, D. (2013)
Transposon mutagenesis identified chromosomal and plasmid encoded genes essential for the adaptation of the marine bacterium Dinoroseobacter shibaeto anaerobic conditions. J Bacteriol., 195:4769-4777; *contributed equally to this work.
Piekarski, T., Jahn, D., Tielen, P. (2011) Marine Mikrobiologie: Etablierung genetischer Werkzeuge für Bakterien der Roseobacter-Gruppe. BIOspektrum 04/11
Wagner-Döbler, I., Ballhausen, B., Baumgart, M., Brinkhoff, T., Buchholz, I., Bunk, B., Cypionka, H., Daniel, R., Drepper, T., Gerdts, G., Hahnke, S., Han, C., Jahn, D., Kalhoefer, D., Kiss, H., Klenk, H.P., Kyrpides, N., Liebl, W., Liesegang, H., Meincke, L., Pati, A., Petersen, J., Piekarski, T., Pommerenke, C., Pradella, S., Pukall, R., Rabus, R., Stackebrandt, E., Thole, S., Thompson, L., Tielen, P.,Tomasch, J., von Jan, M., Wanphrut, N., Wichels, A., Zech, H., Simon, M. (2010) The complete genome sequence of the algal symbiont Dinoroseobacter shibae - a hitchhiker`s guide to life in the sea. ISME J: 1-17
Piekarski, T., Buchholz, I., Drepper, T., Schobert, M., Wagner-Doebler, I., Tielen, P., Jahn, D. (2009) Genetic tools for the investigation of Roseobacter clade bacteria. BMC Microbiol., 9: 265