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. 2024 Dec 23;37(1):koaf017.
doi: 10.1093/plcell/koaf017.

An epiallele of a gene encoding a PfkB-type carbohydrate kinase affects plant architecture in maize

Ruonan Li  1 Yue Xu  1 Qiang Xu  1   2 Jing Tang  1 Wenqing Chen  1   2 Zhixiang Luo  1 Hongbo Liu  1 Wenqiang Li  1   2 Jianbing Yan  1   2 Nathan M Springer  3 Lin Li  1   2 Qing Li  1   2
Affiliations

An epiallele of a gene encoding a PfkB-type carbohydrate kinase affects plant architecture in maize

Ruonan Li et al. Plant Cell. .

Abstract

Plant architecture greatly contributes to grain yield, but the epigenetic regulation of plant architecture remains elusive. Here, we identified the maize (Zea mays L.) mutant plant architecture 1 (par1), which shows reduced plant height, shorter and narrower leaves, and larger leaf angles than the wild type. Interestingly, par1 is an epiallele harbouring a de novo CACTA insertion in the intron of the Par1 gene. High DNA methylation levels of the CACTA insertion are associated with strong Par1 expression and normal phenotypes. In contrast, low DNA methylation levels of this insertion are associated with weak Par1 expression and a mutant-like phenotype. The Par1 gene encodes a PfkB-type carbohydrate kinase that converts nucleosides to nucleoside monophosphates both in vitro and in vivo. Additional analyses showed that genes differentially expressed in the par1 mutant are enriched in jasmonic acid (JA) metabolism, and levels of JA metabolites were significantly higher in the mutant than in the wild type. Treatment with either nucleoside monophosphates or a synthetic inhibitor of JA biosynthesis reduced JA levels and partially rescued the mutant phenotype. In summary, we identified an epiallele of a gene encoding a PfkB-type carbohydrate kinase that might affect nucleoside monophosphate and JA levels, thus affecting maize growth.

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Conflict of interest statement

Conflict of interest statement. None declared.

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