Literature DB >> 26334764

Altered expression of TaRSL4 gene by genome interplay shapes root hair length in allopolyploid wheat.

Yao Han1, Mingming Xin1, Ke Huang1, Yuyun Xu1, Zhenshan Liu1, Zhaorong Hu1, Yingyin Yao1, Huiru Peng1, Zhongfu Ni1, Qixin Sun1.   

Abstract

Polyploidy is a major driving force in plant evolution and speciation. Phenotypic changes often arise with the formation, natural selection and domestication of polyploid plants. However, little is known about the consequence of hybridization and polyploidization on root hair development. Here, we report that root hair length of synthetic and natural allopolyploid wheats is significantly longer than those of their diploid progenitors, whereas no difference is observed between allohexaploid and allotetraploid wheats. The expression of wheat gene TaRSL4, an orthologue of AtRSL4 controlling the root hair development in Arabidopsis, was positively correlated with the root hair length in diploid and allotetraploid wheats. Moreover, transcript abundance of TaRSL4 homoeologue from A genome (TaRSL4-A) was much higher than those of other genomes in natural allopolyploid wheat. Notably, increased root hair length by overexpression of the TaRSL4-A in wheat led to enhanced shoot fresh biomass under nutrient-poor conditions. Our observations indicate that increased root hair length in allohexaploid wheat originated in the allotetraploid progenitors and altered expression of TaRSL4 gene by genome interplay shapes root hair length in allopolyploid wheat.
© 2015 The Authors. New Phytologist © 2015 New Phytologist Trust.

Entities:  

Keywords:  TaRSL4; gene expression; homoeologue; polyploid wheat; root hair length

Mesh:

Substances:

Year:  2015        PMID: 26334764     DOI: 10.1111/nph.13615

Source DB:  PubMed          Journal:  New Phytol        ISSN: 0028-646X            Impact factor:   10.151


  17 in total

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