Agronomy (Aug 2023)

Proteomic Analysis of Maize Cultivars Tolerant to Drought Stress

  • Mariana Cabral Pinto,
  • Odair Honorato de Oliveira,
  • Maria Beatriz Araújo de Oliveira,
  • Cleiton Ribeiro da Silva,
  • Marcela Portela Santos de Figueiredo,
  • Rômulo Gil de Luna,
  • Anielson dos Santos Souza,
  • Lauter Silva Souto,
  • Ancélio Ricardo de Oliveira Godim,
  • Rodolfo Rodrigo de Almeida Lacerda,
  • Andréa Chaves Fiuza Porto,
  • Frank Gomes-Silva,
  • Josimar Mendes de Vasconcelos,
  • Guilherme Rocha Moreira,
  • Maria Lindomárcia Leonardo da Costa,
  • Mércia Regina Pereira de Figueiredo,
  • Fabiana Aparecida Cavalcante Silva,
  • Francisco Cássio Gomes Alvino,
  • Amaro Epifânio Pereira Silva,
  • Leonardo de Sousa Alves,
  • Diogo Gonçalves Neder,
  • Bianca Galúcio Pereira Araújo,
  • Lucas Carvalho de Freitas,
  • Tercilio Calsa Junior,
  • João de Andrade Dutra Filho

DOI
https://doi.org/10.3390/agronomy13082186
Journal volume & issue
Vol. 13, no. 8
p. 2186

Abstract

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Maize is a crop of significant economic importance. In the northeast region of Brazil, it serves as the foundation of family support for the majority of farmers. However, achieving high levels of productivity requires an adequate water supply throughout its growth cycle. The northeast semi-arid region experiences low rainfall and high potential evapotranspiration, directly affecting maize development and leading to severe declines in productivity. In this study, genetic selection and proteomic analysis are proposed as a strategy to identify the tolerance of maize cultivars against water stress. The experiments were conducted under two water regimes using randomized block designs with three replicates. Development and productivity traits were evaluated, and genetic parameters were estimated using mixed linear models. Selection for water stress tolerance was based on the harmonic mean of the relative performance of genotypic values. Total protein extraction from maize leaves followed the protocol established by the phenol method, and peptides were analyzed through mass spectrometry. The AG8677P cultivar demonstrated remarkable productivity under drought stress conditions, and proteins related to various fundamentally important biological processes for the tolerance mechanism were identified. The combination of genetic selection with proteomic analysis proves to be an efficient strategy, even in the face of limited resources and a small number of treatments.

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