MLAMBO, Tafadzwa, NITSCH, Sandra, HILDENBEUTEL, Markus, ROMITO, Marianna, MÜLLER, Maximilian, BOSSEN, Claudia, DIEDERICHS, Sven, CORNU, Tatjana I., CATHOMEN, Anton und MUSSOLINO, Claudio, 2019. Designer epigenome modifiers enable robust and sustained gene silencing in clinically relevant human cells. Freiburg: Universität.

Mlambo, T., Nitsch, S., Hildenbeutel, M., Romito, M., Müller, M., Bossen, C., Diederichs, S., Cornu, T.I., Cathomen, A., Mussolino, C., 2019. Designer epigenome modifiers enable robust and sustained gene silencing in clinically relevant human cells. Universität, Freiburg. https://doi.org/10.1093/nar/gky171

Mlambo, T., Nitsch, S., Hildenbeutel, M., Romito, M., Müller, M., Bossen, C., Diederichs, S., Cornu, T. I., Cathomen, A., & Mussolino, C. (ca. 2019). Designer epigenome modifiers enable robust and sustained gene silencing in clinically relevant human cells [Cd]. Universität. https://doi.org/10.1093/nar/gky171

Mlambo T, Nitsch S, Hildenbeutel M, Romito M, Müller M, Bossen C, Diederichs S, Cornu TI, Cathomen A, Mussolino C (2019) Designer epigenome modifiers enable robust and sustained gene silencing in clinically relevant human cells. Universität, Freiburg

Mlambo, Tafadzwa/ Nitsch, Sandra/ Hildenbeutel, Markus/ Romito, Marianna/ Müller, Maximilian/ Bossen, Claudia/ Diederichs, Sven/ Cornu, Tatjana I./ Cathomen, Anton/ Mussolino, Claudio, Designer epigenome modifiers enable robust and sustained gene silencing in clinically relevant human cells, Freiburg 2019.