Abstract
In an approach to study lateral root development in monocots, genome-wide searches for homologs of the Gibberellic Acid Stimulated Transcript-like (GAST-like) gene family in rice (Oryza sativa) and maize (Zea mays) were carried out. Six novel GAST-like genes in rice and 10 members of the gene family in maize, which were designated ZmGSL (for Z. mays Gibberellic Acid Stimulated-Like), were identified. The ZmGSL family encodes small proteins of 75 to 128 amino acids, which are characterized by a conserved 59 to 64 amino acid C-terminal domain. Within this domain, 17 amino acids, including 12 cysteines, are perfectly conserved. The transcript of the ZmGSL1 gene is differentially spliced into the alternative variants ZmGSL1a and ZmGSL1b, the latter of which is translated into a premature protein that lacks the C-terminal domain. The presence of an additional N-terminal cleavable signal sequence in eight of the 10 ZmGSL proteins suggests that they are secreted into the extracellular matrix. In-depth root-specific gene expression analyses carried out in the wild type and the lateral root mutants lrt1 and rum1 suggest a role for ZmGSL genes in early lateral root development, which is likely regulated by gibberellic acid. Expression patterns of ZmGSL1a and ZmGSL1b propose antagonistic functions of these splice variants during early lateral root formation.
Highlights
In an approach to study lateral root development in monocots, genome-wide searches for homologs of the Gibberellic Acid Stimulated Transcript-like (GAST-like) gene family in rice (Oryza sativa) and maize (Zea mays) were carried out
In order to study their potential role in maize development, 10 maize genes (ZmGSL1–ZmGSL10) were identified based on homology to the tomato Root System Induced1 (RSI1) gene and to members of the GASA family from the dicot model system Arabidopsis as a reference (Taylor and Scheuring, 1994; Herzog et al, 1995) in a comprehensive screen of different maize genomic databases
The ZmGSL1 locus displays a particular scenario as it gives rise to a fulllength protein of 128 amino acids (ZmGSL1a) and to a truncated protein of 75 amino acids (ZmGSL1b), which lacks the conserved C-terminal domain
Summary
In an approach to study lateral root development in monocots, genome-wide searches for homologs of the Gibberellic Acid Stimulated Transcript-like (GAST-like) gene family in rice (Oryza sativa) and maize (Zea mays) were carried out. For example, maize (Zea mays) or rice (Oryza sativa), are characterized by a complex root architecture that is elaborated in two successive stages of development (Hochholdinger, 2009). Only a single primary root and a variable number of seminal roots are laid down that emerge shortly after germination (Hochholdinger, 2009) During vegetative development, this embryonic root system becomes functionally replaced by a complex shoot-borne root stock that.
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