Effects of Fe deficiency on the protein profile of Brassica napus phloem sap

Proteomics
Elain Gutierrez-CarbonellAna Flor López-Millán

Abstract

The aim of this work was to study the effect of Fe deficiency on the protein profile of phloem sap exudates from Brassica napus using 2DE (IEF-SDS-PAGE). The experiment was repeated thrice and two technical replicates per treatment were done. Phloem sap purity was assessed by measuring sugar concentrations. Two hundred sixty-three spots were consistently detected and 15.6% (41) of them showed significant changes in relative abundance (22 decreasing and 19 increasing) as a result of Fe deficiency. Among them, 85% (35 spots), were unambiguously identified. Functional categories containing the largest number of protein species showing changes as a consequence of Fe deficiency were signaling and regulation (32%), and stress and redox homeostasis (17%). The Phloem sap showed a higher oxidative stress and significant changes in the hormonal profile as a result of Fe deficiency. Results indicate that Fe deficiency elicits major changes in signaling pathways involving Ca and hormones, which are generally associated with flowering and developmental processes, causes an alteration in ROS homeostasis processes, and induces decreases in the abundances of proteins involved in sieve element repair, suggesting that Fe-deficient plants may hav...Continue Reading

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Citations

Apr 2, 2016·Biochimica Et Biophysica Acta·Jorge Rodríguez-CelmaAna-Flor López-Millán
Jun 1, 2016·Frontiers in Plant Science·Philip CarellaRobin K Cameron
Aug 21, 2016·Phytochemistry·Eloy Navarro-LeónBegoña Blasco
Sep 22, 2020·Bioscience Reports·Amanda M Koenig, Susanne Hoffmann-Benning
Mar 19, 2021·Analytical and Bioanalytical Chemistry·Panpan GaoRyo Miyake

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