APA
Allen F., Crepaldi L., Alsinet C., Strong A. J., Kleshchevnikov V., De Angeli P., Páleníková P., Khodak A., Kiselev V., Kosicki M., Bassett A. R., Harding H., Galanty Y., Muñoz-Martínez F., Metzakopian E., Jackson S. P. & Parts L. (2018). Predicting the mutations generated by repair of Cas9-induced double-strand breaks. : Nature biotechnology.
Chicago
Allen Felicity, Crepaldi Luca, Alsinet Clara, Strong Alexander J, Kleshchevnikov Vitalii, De Angeli Pietro, Páleníková Petra, Khodak Anton, Kiselev Vladimir, Kosicki Michael, Bassett Andrew R, Harding Heather, Galanty Yaron, Muñoz-Martínez Francisco, Metzakopian Emmanouil, Jackson Stephen P and Parts Leopold. 2018. Predicting the mutations generated by repair of Cas9-induced double-strand breaks. : Nature biotechnology.
Harvard
Allen F., Crepaldi L., Alsinet C., Strong A. J., Kleshchevnikov V., De Angeli P., Páleníková P., Khodak A., Kiselev V., Kosicki M., Bassett A. R., Harding H., Galanty Y., Muñoz-Martínez F., Metzakopian E., Jackson S. P. and Parts L. (2018). Predicting the mutations generated by repair of Cas9-induced double-strand breaks. : Nature biotechnology.
MLA
Allen Felicity, Crepaldi Luca, Alsinet Clara, Strong Alexander J, Kleshchevnikov Vitalii, De Angeli Pietro, Páleníková Petra, Khodak Anton, Kiselev Vladimir, Kosicki Michael, Bassett Andrew R, Harding Heather, Galanty Yaron, Muñoz-Martínez Francisco, Metzakopian Emmanouil, Jackson Stephen P and Parts Leopold. Predicting the mutations generated by repair of Cas9-induced double-strand breaks. : Nature biotechnology. 2018.