Microevolution in response to transient heme-iron restriction enhances intracellular bacterial community development and persistence

MLA

Kevin M. Mason, et al. “Microevolution in Response to Transient Heme-Iron Restriction Enhances Intracellular Bacterial Community Development and Persistence.” PLoS Pathogens, vol. 14, no. 10, Oct. 2018. 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.....f15b5efed7ab3505594490c576999d3e&authtype=sso&custid=ns315887.

APA

Kevin M. Mason, Sheryl S. Justice, Heather W. Pinkett, Rachel M. Wallace, Rachael L. Hardison, Robert Sebra, Meghan E. O’Bryan, Alistair Harrison, & Derek R. Heimlich. (2018). Microevolution in response to transient heme-iron restriction enhances intracellular bacterial community development and persistence. PLoS Pathogens, 14(10).

Chicago

Kevin M. Mason, Sheryl S. Justice, Heather W. Pinkett, Rachel M. Wallace, Rachael L. Hardison, Robert Sebra, Meghan E. O’Bryan, Alistair Harrison, and Derek R. Heimlich. 2018. “Microevolution in Response to Transient Heme-Iron Restriction Enhances Intracellular Bacterial Community Development and Persistence.” PLoS Pathogens 14 (10). 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.....f15b5efed7ab3505594490c576999d3e&authtype=sso&custid=ns315887.