APA

Connell T. D., Black W. J., Kawula T. H., Barritt D. S., Dempsey J. A., Kverneland K., Stephenson A., Schepart B. S., Murphy G. L. & Cannon J. G. (19880727). Recombination among protein II genes of Neisseria gonorrhoeae generates new coding sequences and increases structural variability in the protein II family. : Molecular microbiology.

Chicago

Connell T D, Black W J, Kawula T H, Barritt D S, Dempsey J A, Kverneland K, Stephenson A, Schepart B S, Murphy G L and Cannon J G. 19880727. Recombination among protein II genes of Neisseria gonorrhoeae generates new coding sequences and increases structural variability in the protein II family. : Molecular microbiology.

Harvard

Connell T. D., Black W. J., Kawula T. H., Barritt D. S., Dempsey J. A., Kverneland K., Stephenson A., Schepart B. S., Murphy G. L. and Cannon J. G. (19880727). Recombination among protein II genes of Neisseria gonorrhoeae generates new coding sequences and increases structural variability in the protein II family. : Molecular microbiology.

MLA

Connell T D, Black W J, Kawula T H, Barritt D S, Dempsey J A, Kverneland K, Stephenson A, Schepart B S, Murphy G L and Cannon J G. Recombination among protein II genes of Neisseria gonorrhoeae generates new coding sequences and increases structural variability in the protein II family. : Molecular microbiology. 19880727.