APA

Fannin R. D., Russo M., O'Connell T. M., Gerrish K., Winnike J. H., Macdonald J., Newton J., Malik S., Sieber S. O., Parker J., Shah R., Zhou T., Watkins P. B. & Paules R. S. (20100115). Acetaminophen dosing of humans results in blood transcriptome and metabolome changes consistent with impaired oxidative phosphorylation. : Hepatology (Baltimore, Md.).

Chicago

Fannin Rick D, Russo Mark, O'Connell Thomas M, Gerrish Kevin, Winnike Jason H, Macdonald Jeffrey, Newton Jack, Malik Shahid, Sieber Stella O, Parker Joel, Shah Ruchir, Zhou Tong, Watkins Paul B and Paules Richard S. 20100115. Acetaminophen dosing of humans results in blood transcriptome and metabolome changes consistent with impaired oxidative phosphorylation. : Hepatology (Baltimore, Md.).

Harvard

Fannin R. D., Russo M., O'Connell T. M., Gerrish K., Winnike J. H., Macdonald J., Newton J., Malik S., Sieber S. O., Parker J., Shah R., Zhou T., Watkins P. B. and Paules R. S. (20100115). Acetaminophen dosing of humans results in blood transcriptome and metabolome changes consistent with impaired oxidative phosphorylation. : Hepatology (Baltimore, Md.).

MLA

Fannin Rick D, Russo Mark, O'Connell Thomas M, Gerrish Kevin, Winnike Jason H, Macdonald Jeffrey, Newton Jack, Malik Shahid, Sieber Stella O, Parker Joel, Shah Ruchir, Zhou Tong, Watkins Paul B and Paules Richard S. Acetaminophen dosing of humans results in blood transcriptome and metabolome changes consistent with impaired oxidative phosphorylation. : Hepatology (Baltimore, Md.). 20100115.