Abstract
BackgroundThe APETALA2-like genes form a large multi-gene family of transcription factors which play an important role during the plant life cycle, being key regulators of many developmental processes. Many studies in Arabidopsis have revealed that the APETALA2 (AP2) gene is implicated in the establishment of floral meristem and floral organ identity as well as temporal and spatial regulation of flower homeotic gene expression.ResultsIn this work, we have cloned and characterised the AP2-like gene from accessions of Hordeum chilense and Hordeum vulgare, wild and domesticated barley, respectively, and compared with other AP2 homoeologous genes, including the Q gene in wheat. The Hordeum AP2-like genes contain two plant-specific DNA binding motifs called AP2 domains, as does the Q gene of wheat. We confirm that the H. chilense AP2-like gene is located on chromosome 5Hch. Patterns of expression of the AP2-like genes were examined in floral organs and other tissues in barley, wheat and in tritordeum amphiploids (barley × wheat hybrids). In tritordeum amphiploids, the level of transcription of the barley AP2-like gene was lower than in its barley parental and the chromosome substitutions 1D/1Hch and 2D/2Hch were seen to modify AP2 gene expression levels.ConclusionThe results are of interest in order to understand the role of the AP2-like gene in the spike morphology of barley and wheat, and to understand the regulation of this gene in the amphiploids obtained from barley-wheat crossing. This information may have application in cereal breeding programs to up- or down-regulate the expression of AP2-like genes in order to modify spike characteristics and to obtain free-threshing plants.
Highlights
The APETALA2-like genes form a large multi-gene family of transcription factors which play an important role during the plant life cycle, being key regulators of many developmental processes
Results showed a high homology to many floral homeotic genes and their corresponding proteins such as the T. aestivum floral homeotic (Q) mRNA [GenBank: AY702956, AAU94922], the H. vulgare AP2-like mRNA [GenBank: AY069953, AAL50205], the Zea mays indeterminate spikelet 1 mRNA [GenBank: AF048900, AAC05206], the Oryza sativa transcription factor AP2D2 mRNA [GenBank: AY685113, AAO65862] and the A. thaliana APETALA2 [GenBank: U12546, AAC13770]
All these genes belong to an AP2 subfamily of putative transcription factors which are characterized by the presence of two DNA binding motifs, referred to as AP2 domains, which consist of 60 and 61 conserved amino acids, respectively (Figure 1)
Summary
The APETALA2-like genes form a large multi-gene family of transcription factors which play an important role during the plant life cycle, being key regulators of many developmental processes. Inter-specific hybridization can be used to introgress genetic variability from wild species into crops and to produce new species with valuable agronomic traits. An example of this is the hexaploid tritordeum, an amphiploid obtained by crossing Triticum turgidum L. The grain and flour from tritordeum has similar functional properties to bread wheat [1], but with higher pigment content [2,3]. Most of this genetic variability can be attributed to H. chilense, a wild relative (page number not for citation purposes)
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