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Cytokinin action and its interaction with other plant hormones in the control of branching in tomato (Solanum lycopersicum L.)

Grant number: 14/16553-1
Support type:Scholarships in Brazil - Post-Doctorate
Effective date (Start): April 01, 2015
Effective date (End): July 31, 2018
Field of knowledge:Biological Sciences - Botany - Pant Physiology
Cooperation agreement: Coordination of Improvement of Higher Education Personnel (CAPES)
Principal researcher:Antonio Vargas de Oliveira Figueira
Grantee:Lilian Ellen Pino
Home Institution: Centro de Energia Nuclear na Agricultura (CENA). Universidade de São Paulo (USP). Piracicaba , SP, Brazil

Abstract

Branching of plants determines its overall architecture and affects fundamental aspects such as nutrient partitioning, height, light gathering efficiency and visibility to pollinators. Branching occurs by two successive steps: i) initiation and ii) growth of axillary buds. Mutants affecting growth of axillary buds have been identified in several species: ramosus (rms) in pea, more axillary growth (max) in Arabidopsis, decreased apical dominance (dad) in petunia and dwarf (d) in rice. Few mutants have been described affecting initiation of axillary buds, such as lateral suppresser (ls) and blind (bl) in tomato. While it is well established that the aforementioned mutants affecting axillary buds are related to synthesis and signaling of the hormone strigolactone, little is known about the impact of plant hormones in ls and bl mutations. Cytokinin, auxin, and gibberellins are the major hormone groups associated with control of branching in plants. Auxins and cytokinins have antagonistic effect in the control of branching. Auxin derived from the stem apex may regulate the levels of cytokinin in the stem, inducing its degradation by regulating the expression of cytokinin oxidase (CKX) as well as by suppressing the biosynthesis of cytokinin, through regulation of IPT genes expression. Strigolactones comprise another hormone class that negatively controls the development of axillary buds. The expression of at least two of the genes responsible for strigolactone biosynthesis is regulated by auxin. Additionally, cytokinins and strigolactones act antagonistically in the development of the bud. Gibberellins interact with cytokinins in the control of the stem apical meristem activity, both being influenced by KNOX family of regulatory genes. However, little is known about the interaction between cytokinins and gibberellins in the control of branching. Apices of plants homozygous for the defective ls allele contain higher levels of auxin and gibberellic acid, while cytokinin levels are reduced in comparison to wild type plants. Another major gap in our knowledge is the lack of an explanation for the increased branching of plants overexpressing the CKX gene, which leads to reduced cytokinin levels. This project aims at exploring the role of cytokinin as well as its interaction with auxin, gibberellin and strigolactone in control of branching. With this goal, transgenic plants overexpressing CKX2 will be characterized and crossed to hormone-related mutants to obtain homozygous double transgenic/mutant lines. Vegetative and reproductive traits and responses to cytokinin, auxin, gibberellin and strigolactone will be evaluated. (AU)

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Scientific publications
(References retrieved automatically from Web of Science and SciELO through information on FAPESP grants and their corresponding numbers as mentioned in the publications by the authors)
MERLIN, BRUNA LAIS; PINO, LILIAN ELLEN; PERES, LAZARO EUSTAQUIO PEREIRA; PRATAVIERA, FABIO; ORTEGA, EDWIN MOISES MARCOS; CONSOLI, FERNANDO LUIS. Beyond host specificity: the biotechnological exploitation of chitolectin from teratocytes ofToxoneuron nigricepsto control non-permissive hosts. JOURNAL OF PEST SCIENCE, v. 94, n. 3, p. 713-727, JUN 2021. Web of Science Citations: 0.
BATISTA-SILVA, WILLIAN; MEDEIROS, DAVID B.; RODRIGUES-SALVADOR, ACACIO; DALOSO, DANILO M.; OMENA-GARCIA, REBECA P.; OLIVEIRA, FRANCIELE SANTOS; PINO, LILIAN ELLEN; PEREIRA PERES, LAZARO EUSTAQUIO; NUNES-NESI, ADRIANO; FERNIE, ALISDAIR R.; ZSOGON, AGUSTIN; ARAUJO, WAGNER L. Modulation of auxin signalling through DIAGETROPICA and ENTIRE differentially affects tomato plant growth via changes in photosynthetic and mitochondrial metabolism. PLANT CELL AND ENVIRONMENT, v. 42, n. 2, p. 448-465, FEB 2019. Web of Science Citations: 1.

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