The miR395b–ABI5 module regulates amylopectin branching and biosynthesis and affects lotus root quality
Fenghua Li, Mengying Tan, Xiaojing Fan, Qianru Niu, Shangjie Chen, Peng Wu, Kai Feng, Shuping Zhao, Liangjun Li

TL;DR
This study shows how a specific microRNA and its target gene control starch quality in lotus roots, affecting their nutritional value and texture.
Contribution
The paper identifies a novel miR395b–NnABI5 regulatory module that controls amylopectin biosynthesis in lotus roots.
Findings
Overexpression of miR395b reduces amylopectin and starch content in lotus roots.
NnABI5 activates genes involved in amylopectin biosynthesis by binding to their promoters.
Inhibiting miR395b increases starch content and improves lotus root quality.
Abstract
Starch is an important carbohydrate in lotus (Nelumbo nucifera Gaertn.) roots, which are edible rhizomes, and starch biosynthesis and metabolism strongly influence lotus root yield and quality. Plant microRNAs (miRNAs) have a significant effect on crop yield, quality, and starch biosynthesis, but the molecular mechanism by which miRNAs regulate starch biosynthesis is unknown. In this study, miR395b expression levels showed significant differences in lotus germplasms with different starch contents. Overexpressing MIR395b reduced amylopectin levels and medium- and long-branched chain percentages in lotus roots, decreasing total starch accumulation. Inhibiting miR395b function (using short tandem target mimics) or overexpressing ABA Insensitive 5 (NnABI5) increased amylopectin content and medium- and long-branched chain proportions in lotus roots, significantly enhancing total starch…
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Taxonomy
TopicsPlant Molecular Biology Research · Plant responses to water stress · Plant nutrient uptake and metabolism
