APA

Amiram M., Haimovich A. D., Fan C., Wang Y., Aerni H., Ntai I., Moonan D. W., Ma N. J., Rovner A. J., Hong S. H., Kelleher N. L., Goodman A. L., Jewett M. C., Söll D., Rinehart J. & Isaacs F. J. (2015). Evolution of translation machinery in recoded bacteria enables multi-site incorporation of nonstandard amino acids. : Nature biotechnology.

Chicago

Amiram Miriam, Haimovich Adrian D, Fan Chenguang, Wang Yane-Shih, Aerni Hans-Rudolf, Ntai Ioanna, Moonan Daniel W, Ma Natalie J, Rovner Alexis J, Hong Seok Hoon, Kelleher Neil L, Goodman Andrew L, Jewett Michael C, Söll Dieter, Rinehart Jesse and Isaacs Farren J. 2015. Evolution of translation machinery in recoded bacteria enables multi-site incorporation of nonstandard amino acids. : Nature biotechnology.

Harvard

Amiram M., Haimovich A. D., Fan C., Wang Y., Aerni H., Ntai I., Moonan D. W., Ma N. J., Rovner A. J., Hong S. H., Kelleher N. L., Goodman A. L., Jewett M. C., Söll D., Rinehart J. and Isaacs F. J. (2015). Evolution of translation machinery in recoded bacteria enables multi-site incorporation of nonstandard amino acids. : Nature biotechnology.

MLA

Amiram Miriam, Haimovich Adrian D, Fan Chenguang, Wang Yane-Shih, Aerni Hans-Rudolf, Ntai Ioanna, Moonan Daniel W, Ma Natalie J, Rovner Alexis J, Hong Seok Hoon, Kelleher Neil L, Goodman Andrew L, Jewett Michael C, Söll Dieter, Rinehart Jesse and Isaacs Farren J. Evolution of translation machinery in recoded bacteria enables multi-site incorporation of nonstandard amino acids. : Nature biotechnology. 2015.