Knocking Down miR172f in the Hairy Roots of Grass Pea Increases β-ODAP Content and Induces Global Transcriptomic Reprogramming
Xiaoning Liu, Xueping Zhang, Jianmeng Bai, Jiasheng Lv, Yingshan Jiang, Jiahui Zhan, Zhihong Yang, Rongze Han, Tingli You, Hao Ma, Ning Cao, Rongfang Lian, Shijun Wang, Yun Yue, Quanle Xu

TL;DR
Knocking down miR172f in grass pea hairy roots increases β-ODAP levels and changes gene activity, offering new insights into its biosynthesis.
Contribution
miR172f is identified as a novel regulator of β-ODAP biosynthesis by targeting LsBAHD3 in grass pea.
Findings
Knockdown of miR172f in L. sativus hairy roots increased β-ODAP content.
miR172f targets LsBAHD3, a β-ODAP synthetase, to regulate its biosynthesis.
Transcriptomic changes linked to protein ubiquitination and amino acid metabolism were observed.
Abstract
Background: There is an abundance of the neuroactive β-N-oxalyl-L-α,β-diaminopropionic acid (β-ODAP) in grass pea (Lathyrus sativus), pea (Pisum sativum), and several Chinese traditional herbs such as Panax notoginseng. It is well known for its dose- and context-dependent effects on its toxicological characteristics (inducing neurodegenerative neurolathyrism upon excessive consumption) or for its pharmacological effects (including neuroprotection and wound healing). Therefore, reducing β-ODAP levels improves the safety profile of β-ODAP-containing species for utilization, whereas increasing them facilitates their isolation and purification. LsBAHD3 acyltransferase, named after the first letter of BEAT benzylalcohol O-acetyltransferase (BEAT), anthocyanin O-hydroxycinnamoyltransferase (AHCT), anthranilate N-hydroxycinnamoyl/benzoyltransferase (HCBT), and deacetylvindoline…
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Taxonomy
TopicsGenetic and Environmental Crop Studies · GABA and Rice Research · Plant Gene Expression Analysis
