Abstract
BackgroundThe study of cold tolerance in maize seeds and seedlings through physiological quality assessments, as well as the genetic control associated with this trait, allows an early characterization of genotypes. Here we studied the genetic control for cold tolerance during the germination process in maize seeds and genes influenced by this stress.ResultsSix maize lines were used, three classified as tolerant and three as susceptible to low germination temperature. A field was developed to produce the hybrid seeds, in a partial diallel scheme including the reciprocal crosses. For the expression analysis, seeds from two contrasting lines were used, as well as their hybrid combination and their reciprocal crosses, on dried and moistened seeds at 10 °C for 4 and 7 days. It was evaluated the catalase (CAT) and esterase (EST) enzymes, heat-resistant proteins and the genes Putative stearoyl-ACP desaturase (SAD), Ascorbate Peroxidase (APX), Superoxide Dismutase (SOD) and Mitogen Activated Protein Kinase (ZmMPK5). The estimated values for heterosis, general and specific combining abilities and reciprocal maternal and non-maternal effects were carried out and it showed that there is heterosis for germination at low temperatures, also the non-additive genes were more important and there was a reciprocal effect.ConclusionsThere is a greater expression of the CAT and EST enzymes in moistened seeds at seven days and there is less expression of heat-resistant proteins and the SAD gene at seven days of moistening. Also, there are variations in the expression of the APX, SOD and ZmMPK5 genes in dried and moistened seeds, as well as among the genotypes studied.
Highlights
The study of cold tolerance in maize seeds and seedlings through physiological quality assessments, as well as the genetic control associated with this trait, allows an early characterization of genotypes
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The results of this study revealed heterosis for cold tolerance during the germination process in maize seeds, with a greater contribution due to the non-additive gene effects
Summary
The study of cold tolerance in maize seeds and seedlings through physiological quality assessments, as well as the genetic control associated with this trait, allows an early characterization of genotypes. We studied the genetic control for cold tolerance during the germination process in maize seeds and genes influenced by this stress. Besides the lack of uniformity and the delay in the germination process, another problem associated with the occurrence of low temperatures is the fact that the seeds will stay longer in the soil exposed to deterioration and pest attack. Increasing the tolerance of plants to environmental stresses is one of the most relevant goals of breeding programs and selection of superior genotypes should take into account the seed germination and seedling emergence phases. The effect of heterosis on the cold tolerance characteristic has been observed
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