The putative leucine sensor Sestrin2 is hyperphosphorylated by acute resistance exercise but not protein ingestion in human skeletal muscle

MLA

Troy L. Merry, et al. “The Putative Leucine Sensor Sestrin2 Is Hyperphosphorylated by Acute Resistance Exercise but Not Protein Ingestion in Human Skeletal Muscle.” European Journal of Applied Physiology, vol. 118, no. 6, Dec. 2017. EBSCOhost, widgets.ebscohost.com/prod/customlink/proxify/proxify.php?count=1&encode=0&proxy=&find_1=&replace_1=&target=https://search.ebscohost.com/login.aspx?direct=true&site=eds-live&scope=site&db=edsair&AN=edsair.doi.dedup.....65241f5fe7fdc78aca47b6862e9b7c49&authtype=sso&custid=ns315887.

APA

Troy L. Merry, Nina Zeng, Matthew P. G. Barnett, Randall F. D’Souza, David Cameron-Smith, Brie Sorrenson, & Cameron J. Mitchell. (2017). The putative leucine sensor Sestrin2 is hyperphosphorylated by acute resistance exercise but not protein ingestion in human skeletal muscle. European Journal of Applied Physiology, 118(6).

Chicago

Troy L. Merry, Nina Zeng, Matthew P. G. Barnett, Randall F. D’Souza, David Cameron-Smith, Brie Sorrenson, and Cameron J. Mitchell. 2017. “The Putative Leucine Sensor Sestrin2 Is Hyperphosphorylated by Acute Resistance Exercise but Not Protein Ingestion in Human Skeletal Muscle.” European Journal of Applied Physiology 118 (6). http://widgets.ebscohost.com/prod/customlink/proxify/proxify.php?count=1&encode=0&proxy=&find_1=&replace_1=&target=https://search.ebscohost.com/login.aspx?direct=true&site=eds-live&scope=site&db=edsair&AN=edsair.doi.dedup.....65241f5fe7fdc78aca47b6862e9b7c49&authtype=sso&custid=ns315887.