Abstract
Background
The 29-member Arabidopsis AHL gene family is classified into three main classes based on nucleotide and protein sequence evolutionary differences. These differences include the presence or absence of introns, type and/or number of conserved AT-hook and PPC domains. AHL gene family members are divided into two phylogenetic clades, Clade-A and Clade-B. A majority of the 29 members remain functionally uncharacterized. Furthermore, the biological significance of the DNA and peptide sequence diversity, observed in the conserved motifs and domains found in the different AHL types, is a subject area that remains largely unexplored.
Results
Transgenic plants overexpressing AtAHL20 flowered later than the wild type. Transcript accumulation analyses showed that 35S:AtAHL20 plants contained reduced FT, TSF, AGL8 and SPL3 mRNA levels. Similarly, overexpression of AtAHL20’s orthologue in Camelina sativa, Arabidopsis’ closely related Brassicaceae family member species, conferred a late-flowering phenotype via suppression of CsFT expression. In addition, 35S:AtAHL20 seedlings exhibited suppressed hypocotyl length and enhanced water stress tolerance. However, overexpression of an aberrant AtAHL20 gene harboring a missense mutation in the AT-hook domain’s highly conserved R-G-R core motif abolished the late-flowering phenotype. Data from targeted yeast-two-hybrid assays showed that AtAHL20 interacted with itself and several other Clade-A Type-I AHLs which have been previously implicated in flowering-time regulation: AtAHL22, AtAHL27 and AtAHL29.
Conclusion
We showed via gain-function analysis that AtAHL20 is a negative regulator of FT expression, as well as other downstream flowering time regulating genes. A similar outcome in Camelina sativa transgenic plants overexpressing CsAHL20 suggest that this is a conserved function. Additionally, overexpression of AtAHL20 resulted in shorter hypocotyls and enhanced drought stress tolerance compared to wild-type plants. Our results demonstrate that AtAHL20 is a negative regulator of transition to flowering and hypocotyl elongation, but a positive regulator of drought stress tolerance.
Overexpression of AtAHL20 causes delayed flowering in Arabidopsis via repression of FT expression