Monterisi, S., Zuluaga, M. Y. A., Senizza, B., Cardarelli, M., Rouphael, Y., Colla, G., . . . Pii, Y. The integrated multi-omics analysis unravels distinct roles of Malvaceae-derived protein hydrolysate and its molecular fraction in modulating tomato resilience under limited nitrogen availability. Elsevier.
Chicago Style (17th ed.) CitationMonterisi, Sonia, Monica Yorlady Alzate Zuluaga, Biancamaria Senizza, Mariateresa Cardarelli, Youssef Rouphael, Giuseppe Colla, Luigi Lucini, Stefano Cesco, and Youry Pii. The Integrated Multi-omics Analysis Unravels Distinct Roles of Malvaceae-derived Protein Hydrolysate and Its Molecular Fraction in Modulating Tomato Resilience Under Limited Nitrogen Availability. Elsevier.
MLA (9th ed.) CitationMonterisi, Sonia, et al. The Integrated Multi-omics Analysis Unravels Distinct Roles of Malvaceae-derived Protein Hydrolysate and Its Molecular Fraction in Modulating Tomato Resilience Under Limited Nitrogen Availability. Elsevier.