APA

Sadeh N., Spielberg J. M., Logue M. W., Wolf E. J., Smith A. K., Lusk J., Hayes J. P., Sperbeck E., Milberg W. P., McGlinchey R. E., Salat D. H., Carter W. C., Stone A., Schichman S. A., Humphries D. E. & Miller M. W. (20161114). SKA2 methylation predicts reduced cortical thickness in prefrontal cortex. : Molecular psychiatry.

Chicago

Sadeh N, Spielberg J M, Logue M W, Wolf E J, Smith A K, Lusk J, Hayes J P, Sperbeck E, Milberg W P, McGlinchey R E, Salat D H, Carter W C, Stone A, Schichman S A, Humphries D E and Miller M W. 20161114. SKA2 methylation predicts reduced cortical thickness in prefrontal cortex. : Molecular psychiatry.

Harvard

Sadeh N., Spielberg J. M., Logue M. W., Wolf E. J., Smith A. K., Lusk J., Hayes J. P., Sperbeck E., Milberg W. P., McGlinchey R. E., Salat D. H., Carter W. C., Stone A., Schichman S. A., Humphries D. E. and Miller M. W. (20161114). SKA2 methylation predicts reduced cortical thickness in prefrontal cortex. : Molecular psychiatry.

MLA

Sadeh N, Spielberg J M, Logue M W, Wolf E J, Smith A K, Lusk J, Hayes J P, Sperbeck E, Milberg W P, McGlinchey R E, Salat D H, Carter W C, Stone A, Schichman S A, Humphries D E and Miller M W. SKA2 methylation predicts reduced cortical thickness in prefrontal cortex. : Molecular psychiatry. 20161114.