AUTHOR=Katano Mana , Takahashi Kazuki , Hirano Tomonari , Kazama Yusuke , Abe Tomoko , Tsukaya Hirokazu , Ferjani Ali 

TITLE=Suppressor Screen and Phenotype Analyses Revealed an Emerging Role of the Monofunctional Peroxisomal Enoyl-CoA Hydratase 2 in Compensated Cell Enlargement

JOURNAL=Frontiers in Plant Science

VOLUME=7

YEAR=2016

URL=https://www.frontiersin.org/journals/plant-science/articles/10.3389/fpls.2016.00132

DOI=10.3389/fpls.2016.00132

ISSN=1664-462X

ABSTRACT=<p>Efficient use of seed nutrient reserves is crucial for germination and establishment of plant seedlings. Mobilizing seed oil reserves in <italic>Arabidopsis</italic> involves β-oxidation, the glyoxylate cycle, and gluconeogenesis, which provide essential energy and the carbon skeletons needed to sustain seedling growth until photoautotrophy is acquired. We demonstrated that H<sup>+</sup>-PPase activity is required for gluconeogenesis. Lack of H<sup>+</sup>-PPase in <italic>fugu5</italic> mutants increases cytosolic pyrophosphate (PPi) levels, which partially reduces sucrose synthesis <italic>de novo</italic> and inhibits cell division. In contrast, post-mitotic cell expansion in cotyledons was unusually enhanced, a phenotype called compensation. Therefore, it appears that PPi inhibits several cellular functions, including cell cycling, to trigger compensated cell enlargement (CCE). Here, we mutagenized <italic>fugu5-1</italic> seeds with <sup>12</sup>C<sup>6+</sup> heavy-ion irradiation and screened mutations that restrain CCE to gain insight into the genetic pathway(s) involved in CCE. We isolated A#3-1, in which cell size was severely reduced, but cell number remained similar to that of original <italic>fugu5-1</italic>. Moreover, cell number decreased in A#3-1 single mutant (A#3-1sm), similar to that of <italic>fugu5-1</italic>, but cell size was almost equal to that of the wild type. Surprisingly, A#3-1 mutation did not affect CCE in other compensation exhibiting mutant backgrounds, such as <italic>an3-4</italic> and <italic>fugu2-1/fas1-6</italic>. Subsequent map-based cloning combined with genome sequencing and HRM curve analysis identified <italic>enoyl-CoA hydratase 2</italic> (<italic>ECH2</italic>) as the causal gene of A#3-1. The above phenotypes were consistently observed in the <italic>ech2-1</italic> allele and supplying sucrose restored the morphological and cellular phenotypes in <italic>fugu5-1</italic>, <italic>ech2-1</italic>, A#3-1sm, <italic>fugu5-1</italic><italic>ech2-1</italic>, and A#3-1; <italic>fugu5-1</italic>. Taken together, these results suggest that defects in either H<sup>+</sup>-PPase or ECH2 compromise cell proliferation due to defects in mobilizing seed storage lipids. In contrast, ECH2 alone likely promotes CCE during the post-mitotic cell expansion stage of cotyledon development, probably by converting indolebutyric acid to indole acetic acid.</p>