RNA Analysis
Recommended Reading:
Ramm, F., Jack, L., Kaser, D., Schloßhauer, J. L., Zemella, A., Kubick, S. (2022): „Cell-Free Systems Enable the Production of AB5 Toxins for Diagnostic Applications”. Toxins, 14, 233.
Ramm, F., Dondapati, S. K., Trinh, H. A., Wenzel, D., Walter, R. M., Zemella, A. Kubick, S. (2022): „The Potential of Eukaryotic Cell-Free Systems as a Rapid Response to Novel Zoonotic Pathogens: Analysis of SARS-CoV-2 Viral Proteins”. Front. Bioeng. Biotechnol. (eCollection), 10:896751.
doi: 10.3389/fbioe.2022.896751.
Ramm, F., Stech, M., Zemella, A., Frentzel, H., Kubick, S. (2021): „The Pore‐Forming Hemolysin BL Enterotoxin from Bacillus cereus: Subunit Interactions in Cell‐Free Systems”. Toxins, 13, 807.
Ramm, F., Dondapati, S. K., Thoring, L., Zemella, A., Wüstenhagen, D. A., Frentzel, H., Stech, M., Kubick, S. (2020): “Mammalian cell-free protein expression promotes the functional characterization of the tripartite non-hemolytic enterotoxin from Bacillus cereus”. Sci. Rep., 10:2887.
doi: 10.1038/s41598-020-59634-8.
Dondapati, S. K., Wüstenhagen, D. A., Strauch, E., Kubick, S. (2018): „Cell-free production of pore forming toxins: Functional analysis of thermostable direct hemolysin from Vibrio parahaemolyticus”. Eng. Life Sci., 18, 140 – 148.