Contrasting modes of diversification in the Aux/IAA and ARF gene families

The complete genomic sequence for Arabidopsis provides the opportunity to combine phylogenetic and genomic approaches to study the evolution of gene families in plants. The Aux/IAA and ARF gene families, consisting of 29 and 23 loci in Arabidopsis, respectively, encode proteins that interact to mediate auxin responses and regulate various aspects of plant morphological development. We developed scenarios for the genomic proliferation of the Aux/IAA and ARF families by combining phylogenetic analysis with information on the relationship between each locus and the previously identified duplicated genomic segments in Arabidopsis. This analysis shows that both gene families date back at least to the origin of land plants and that the major Aux/IAA and ARF lineages originated before the monocot-eudicot divergence. We found that the extant Aux/IAA loci arose primarily through segmental duplication events, in sharp contrast to the ARF family and to the general pattern of gene family proliferation in Arabidopsis. Possible explanations for the unusual mode of Aux/IAA duplication include evolutionary constraints imposed by complex interactions among proteins and pathways, or the presence of long-distance cis-regulatory sequences. The antiquity of the two gene families and the unusual mode of Aux/IAA diversification have a number of potential implications for understanding both the functional and evolutionary roles of these genes.     

Expression Analysis of AUX/IAA Family Genes in Apple Under Salt Stress

Biochemical Genetics - Members of the auxin/indoleacetic acid (Aux/IAA) gene family in plants are primary auxin-responsive genes that play important roles in many aspects of plant development and...     

Roles and activities of Aux/IAA proteins in Arabidopsis.

Auxin induces various distinct developmental responses, partly by regulating gene expression. The Aux/IAA genes are a large gene family, many of which are induced by auxin. Work on Arabidopsis Aux/IAA genes has begun to reveal that they can regulate development and auxin-induced gene expression. Furthermore, auxin responses require Aux/IAA protein turnover. Finally, recent evidence suggests that Aux/IAA proteins can mediate light responses. Work in the near future should test whether Aux/IAA proteins are antennae that connect auxin and light signals to endogenous developmental responses.     

植物Aux/IAA基因家族生物学功能研究进展

生长素是最重要的植物激素之一,对植物生长发育起着关键调控作用。生长素作用于植物后,早期生长素响应基因家族Aux/IAA、GH3和SAUR等被迅速诱导,基因表达上调。其中Aux/IAA基因家族编码的蛋白一般由4个保守结构域组成,结构域Ⅰ具有抑制生长素信号下游基因表达的作用,结构域Ⅱ在生长素信号转导中主要被TIR1调控进而影响Aux/IAA的稳定性,结构域Ⅲ/Ⅳ通过与生长素响应因子ARF相互作用调控生长素信号。Aux/IAA基因家族在双子叶植物拟南芥(Arabidopsis thaliana)的器官发育、根形成、茎伸长和叶扩张等方面发挥重要作用;在单子叶植物水稻(Oryza sativa)和小麦(Triticum aestivum)中,主要影响根系发育和株型,但大多数Aux/IAA基因的功能尚不清楚。该文主要从Aux/IAA蛋白的结构、功能和生长素信号转导途径方面综述Aux/IAA家族在拟南芥、禾谷类作物及其它植物中的研究进展,以期为全面揭示Aux/IAA家族基因的生物学功能提供线索。