Abstract
BackgroundIron (Fe) is essential micronutrient for plants and its deficiency as well as toxicity is a serious agricultural problem. The mechanisms of Fe deficiency are reasonably understood, however our knowledge about plants response to excess Fe is limited. Moreover, the regulation of small open reading frames (sORFs) in response to abiotic stress has not been reported in rice. Understanding the regulation of rice transcriptome in response to Fe deficiency and excess could provide bases for developing strategies to breed plants tolerant to Fe deficiency as well as excess Fe.ResultsWe used a novel rice 110 K microarray harbouring ~48,620 sORFs to understand the transcriptomic changes that occur in response to Fe deficiency and excess. In roots, 36 genes were upregulated by excess Fe, of which three were sORFs. In contrast, 1509 genes were upregulated by Fe deficiency, of which 90 (6%) were sORFs. Co-expression analysis revealed that the expression of some sORFs was positively correlated with the genes upregulated by Fe deficiency. In shoots, 50 (19%) of the genes upregulated by Fe deficiency and 1076 out of 2480 (43%) genes upregulated by excess Fe were sORFs. These results suggest that excess Fe may significantly alter metabolism, particularly in shoots.ConclusionThese data not only reveal the genes regulated by excess Fe, but also suggest that sORFs might play an important role in the response of plants to Fe deficiency and excess.Electronic supplementary materialThe online version of this article (doi:10.1186/s12284-014-0018-1) contains supplementary material, which is available to authorized users.
Highlights
Iron (Fe) is essential micronutrient for plants and its deficiency as well as toxicity is a serious agricultural problem
50 (19%) of the genes upregulated by Fe deficiency and 1076 out of 2480 (43%) genes upregulated by excess Fe were Small open reading frames (sORF)
These data reveal the genes regulated by excess Fe, and suggest that sORFs might play an important role in the response of plants to Fe deficiency and excess
Summary
Iron (Fe) is essential micronutrient for plants and its deficiency as well as toxicity is a serious agricultural problem. Understanding the regulation of rice transcriptome in response to Fe deficiency and excess could provide bases for developing strategies to breed plants tolerant to Fe deficiency as well as excess Fe. Iron (Fe) is an essential micronutrient for all higher organisms, and its deficiency causes a serious nutritional problem in both humans and plants. A low soil pH and anaerobic conditions, such as in a paddy field, lead to the reduction of Fe3+ to Fe2+, which can result in increased absorption and conditions of excess Fe (Neue et al 1998; Quinet et al 2012). Fe toxicity is a serious agricultural problem, when plants. The genes involved in rootto-shoot translocation and the transport of Fe to subcellular organelles have been characterized (Aoyama et al 2009; Bashir et al 2011a; Bashir et al 2011c; Bashir et al 2013b; Ishimaru et al 2009; Ishimaru et al 2010; Ishimaru et al 2011a; Ishimaru et al 2011b; Ishimaru et al 2012; Kakei et al 2012; Koike et al 2004; Lee et al 2012; Yokosho et al 2009; Zhang et al 2012b)
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