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Ectopic expression of a bacterial thiamin monophosphate kinase enhances vitamin B1 biosynthesis in plants.

Authors :
Chung, Yi‐Hsin
Chen, Ting‐Chieh
Yang, Wen‐Ju
Chen, Soon‐Ziet
Chang, Jia‐Ming
Hsieh, Wei‐Yu
Hsieh, Ming‐Hsiun
Source :
Plant Journal. Mar2024, Vol. 117 Issue 5, p1330-1343. 14p.
Publication Year :
2024

Abstract

SUMMARY: Plants and bacteria have distinct pathways to synthesize the bioactive vitamin B1 thiamin diphosphate (TDP). In plants, thiamin monophosphate (TMP) synthesized in the TDP biosynthetic pathway is first converted to thiamin by a phosphatase, which is then pyrophosphorylated to TDP. In contrast, bacteria use a TMP kinase encoded by ThiL to phosphorylate TMP to TDP directly. The Arabidopsis THIAMIN REQUIRING2 (TH2)‐encoded phosphatase is involved in TDP biosynthesis. The chlorotic th2 mutants have high TMP and low thiamin and TDP. Ectopic expression of Escherichia coli ThiL and ThiL‐GFP rescued the th2‐3 mutant, suggesting that the bacterial TMP kinase could directly convert TMP into TDP in Arabidopsis. These results provide direct evidence that the chlorotic phenotype of th2‐3 is caused by TDP rather than thiamin deficiency. Transgenic Arabidopsis harboring engineered ThiL‐GFP targeting to the cytosol, chloroplast, mitochondrion, or nucleus accumulated higher TDP than the wild type (WT). Ectopic expression of E. coli ThiL driven by the UBIQUITIN (UBI) promoter or an endosperm‐specific GLUTELIN1 (GT1) promoter also enhanced TDP biosynthesis in rice. The pUBI:ThiL transgenic rice accumulated more TDP and total vitamin B1 in the leaves, and the pGT1:ThiL transgenic lines had higher TDP and total vitamin B1 in the seeds than the WT. Total vitamin B1 only increased by approximately 25–30% in the polished and unpolished seeds of the pGT1:ThiL transgenic rice compared to the WT. Nevertheless, these results suggest that genetic engineering of a bacterial vitamin B1 biosynthetic gene downstream of TMP can enhance vitamin B1 production in rice. Significance Statement: Introducing a bacterial gene encoding thiamin monophosphate kinase into Arabidopsis and rice creates an additional route for thiamin diphosphate biosynthesis and increases vitamin B1 contents. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
09607412
Volume :
117
Issue :
5
Database :
Academic Search Index
Journal :
Plant Journal
Publication Type :
Academic Journal
Accession number :
175704258
Full Text :
https://doi.org/10.1111/tpj.16563