Different genetic architectures underlie crop responses to the same pathogen: the {Helianthus annuus * Phoma macdonaldii} interaction case for black stem disease and premature ripening.

MLA

Bordat, Amandine, et al. “Different Genetic Architectures Underlie Crop Responses to the Same Pathogen: The {Helianthus Annuus * Phoma Macdonaldii} Interaction Case for Black Stem Disease and Premature Ripening.” BMC Plant Biology, vol. 17, Oct. 2017, pp. 1–15. EBSCOhost, https://doi.org/10.1186/s12870-017-1116-1.

APA

Bordat, A., Marchand, G., Langlade, N. B., Pouilly, N., Muños, S., Dechamp-Guillaume, G., Vincourt, P., & Bret-Mestries, E. (2017). Different genetic architectures underlie crop responses to the same pathogen: the {Helianthus annuus * Phoma macdonaldii} interaction case for black stem disease and premature ripening. BMC Plant Biology, 17, 1–15. https://doi.org/10.1186/s12870-017-1116-1

Chicago

Bordat, Amandine, Gwenaëlle Marchand, Nicolas B. Langlade, Nicolas Pouilly, Stéphane Muños, Grégory Dechamp-Guillaume, Patrick Vincourt, and Emmanuelle Bret-Mestries. 2017. “Different Genetic Architectures Underlie Crop Responses to the Same Pathogen: The {Helianthus Annuus * Phoma Macdonaldii} Interaction Case for Black Stem Disease and Premature Ripening.” BMC Plant Biology 17 (October): 1–15. doi:10.1186/s12870-017-1116-1.