Abstract
Aux/IAA genes are early auxin-responsive genes and essential for auxin signaling transduction. There is little information about Aux/IAAs in the agriculturally important cereal, barley. Using in silico method, we identified and subsequently characterized 36 Aux/IAAs from the barley genome. Based on their genomic sequences and the phylogenic relationship with Arabidopsis and rice Aux/IAA, the 36 HvIAAs were categorized into two major groups and 14 subgroups. The indication of the presence or absence of these domains for the biological functions and acting mechanisms was discussed. The cis-element distributions in HvIAA promoters suggests that the HvIAAs expressions may not only regulated by auxin (the presence of AuxREs and TGA-element) but also by other hormones and developmental and environmental cues. We then studied the HvIAAs expression in response to NAA (1-Naphthaleneacetic acid) using quantitative real-time PCR (qRT-PCR). Like the promoter analysis, only 14 HvIAAs were upregulated by NAA over two-fold at 4 h. HvIAAs were clustered into three groups based on the spatiotemporal expression data. We confirmed by qRT-PCR that most HvIAAs, especially HvIAA3, HvIAA7, HvIAA8, HvIAA18, HvIAA24 and HvIAA34, are expressed in the developing barley spike compared within seedling, suggesting their roles in regulating spike development. Taken together, our data provide a foundation for further revealing the biological function of these HvIAAs.
Highlights
Auxin plays a vital regulatory role in plant growth and development processes
We think that a comprehensive analyze of barley Aux/IAAs may help us analysis important agricultural traits associated with auxin in reverse genetics
Arabidopsis AtIAAs and rice OsIAAs protein sequences were downloaded from The Arabidopsis Information Resource (TAIR)[13] and Rice Genome Annotation Project (RGAP)[37], respectively
Summary
Aux/IAAs belong to primary/ early auxin-response genes including GH3 (Gretchen Hagen 3) and SAUR (small auxin up RNA)[1,2] The transcription of these genes responds to auxin treatment quickly and they play an important role at the early stage in auxin signal transduction. OsIAA26 with amino acids substitution in the degron in domain II works downstream of the canonical Aux/IAA OsIAA9 to integrate auxin and ethylene signaling[21]. The domain composition may reveal the functions and downstream mechanisms of the Aux/IAAs. Previous studies indicated that auxin is critical nearly in every aspect of plant development processes, including cell division, embryogenesis, lateral root initiation, vascular bundle extension, leaf extension, flowering patterning, fruit ripening, apical dominance, tropic growth and stress resistance[15,22,23,24,25]. It would be interesting to test what are the roles of HvIAA in spikelet development
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