SCHIBANY, Sonja, KLEINE BORGMANN, Luise A. K., RÖSCH, Thomas Christian, KNUST, Tobias, ULBRICH, Maximilian und GRAUMANN, Peter, 2019. Single molecule tracking reveals that the bacterial SMC complex moves slowly relative to the diffusion of the chromosome. Freiburg: Universität.

Schibany, S., Kleine Borgmann, L.A.K., Rösch, T.C., Knust, T., Ulbrich, M., Graumann, P., 2019. Single molecule tracking reveals that the bacterial SMC complex moves slowly relative to the diffusion of the chromosome. Universität, Freiburg. https://doi.org/10.1093/nar/gky581

Schibany, S., Kleine Borgmann, L. A. K., Rösch, T. C., Knust, T., Ulbrich, M., & Graumann, P. (ca. 2019). Single molecule tracking reveals that the bacterial SMC complex moves slowly relative to the diffusion of the chromosome [Cd]. Universität. https://doi.org/10.1093/nar/gky581

Schibany S, Kleine Borgmann LAK, Rösch TC, Knust T, Ulbrich M, Graumann P (2019) Single molecule tracking reveals that the bacterial SMC complex moves slowly relative to the diffusion of the chromosome. Universität, Freiburg

Schibany, Sonja/ Kleine Borgmann, Luise A. K./ Rösch, Thomas Christian/ Knust, Tobias/ Ulbrich, Maximilian/ Graumann, Peter, Single molecule tracking reveals that the bacterial SMC complex moves slowly relative to the diffusion of the chromosome, Freiburg 2019.