APA
Gahloth D., Dunstan M. S., Quaglia D., Klumbys E., Lockhart-Cairns M. P., Hill A. M., Derrington S. R., Scrutton N. S., Turner N. J. & Leys D. (20170908). Structures of carboxylic acid reductase reveal domain dynamics underlying catalysis. : Nature chemical biology.
Chicago
Gahloth Deepankar, Dunstan Mark S, Quaglia Daniela, Klumbys Evaldas, Lockhart-Cairns Michael P, Hill Andrew M, Derrington Sasha R, Scrutton Nigel S, Turner Nicholas J and Leys David. 20170908. Structures of carboxylic acid reductase reveal domain dynamics underlying catalysis. : Nature chemical biology.
Harvard
Gahloth D., Dunstan M. S., Quaglia D., Klumbys E., Lockhart-Cairns M. P., Hill A. M., Derrington S. R., Scrutton N. S., Turner N. J. and Leys D. (20170908). Structures of carboxylic acid reductase reveal domain dynamics underlying catalysis. : Nature chemical biology.
MLA
Gahloth Deepankar, Dunstan Mark S, Quaglia Daniela, Klumbys Evaldas, Lockhart-Cairns Michael P, Hill Andrew M, Derrington Sasha R, Scrutton Nigel S, Turner Nicholas J and Leys David. Structures of carboxylic acid reductase reveal domain dynamics underlying catalysis. : Nature chemical biology. 20170908.