Characterization of O -methyltransferases in the biosynthesis of phenylphenalenone phytoalexins based on the telomere-to-telomere gapless genome of Musella lasiocarpa

Phenylphenalenones (PhPNs), phytoalexins in wild bananas (Musaceae), are known to act against various pathogens. However, the abundance of PhPNs in many Musaceae plants of economic importance is low. Knowledge of the biosynthesis of PhPNs and the application of biosynthetic approaches to improve the...

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Published inHorticulture research Vol. 11; no. 4; p. uhae042
Main Authors Zhao, Wanli, Wu, Junzhi, Tian, Mei, Xu, Shu, Hu, Shuaiya, Wei, Zhiyan, Lin, Guyin, Tang, Liang, Wang, Ruiyang, Feng, Boya, Wang, Bi, Lyu, Hui, Paetz, Christian, Feng, Xu, Xue, Jia-Yu, Li, Pirui, Chen, Yu
Format Journal Article
LanguageEnglish
Published England Oxford University Press 01.04.2024
Subjects
Antifungal activity
Bananas
Biosynthesis
Breeding
Disease resistance
Economic importance
Fungicides
Fusarium oxysporum
Genetic resources
Genomes
Hydroxyl groups
Metabolomics
Musaceae
Musella lasiocarpa
Phytoalexins
Telomeres
Transcriptomics
Online AccessGet full text
ISSN2052-7276
2662-6810
2052-7276
DOI10.1093/hr/uhae042

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Abstract Phenylphenalenones (PhPNs), phytoalexins in wild bananas (Musaceae), are known to act against various pathogens. However, the abundance of PhPNs in many Musaceae plants of economic importance is low. Knowledge of the biosynthesis of PhPNs and the application of biosynthetic approaches to improve their yield is vital for fighting banana diseases. However, the processes of PhPN biosynthesis, especially those involved in methylation modification, remain unclear. Musella lasiocarpa is a herbaceous plant belonging to Musaceae, and due to the abundant PhPNs, their biosynthesis in M. lasiocarpa has been the subject of much attention. In this study, we assembled a telomere-to-telomere gapless genome of M. lasiocarpa as the reference, and further integrated transcriptomic and metabolomic data to mine the candidate genes involved in PhPN biosynthesis. To elucidate the diversity of PhPNs in M. lasiocarpa, three screened O-methyltransferases (Ml01G0494, Ml04G2958, and Ml08G0855) by phylogenetic and expressional clues were subjected to in vitro enzymatic assays. The results show that the three were all novel O-methyltransferases involved in the biosynthesis of PhPN phytoalexins, among which Ml08G0855 was proved to function as a multifunctional enzyme targeting multiple hydroxyl groups in PhPN structure. Moreover, we tested the antifungal activity of PhPNs against Fusarium oxysporum and found that the methylated modification of PhPNs enhanced their antifungal activity. These findings provide valuable genetic resources in banana breeding and lay a foundation for improving disease resistance through molecular breeding.
AbstractList Phenylphenalenones (PhPNs), phytoalexins in wild bananas (Musaceae), are known to act against various pathogens. However, the abundance of PhPNs in many Musaceae plants of economic importance is low. Knowledge of the biosynthesis of PhPNs and the application of biosynthetic approaches to improve their yield is vital for fighting banana diseases. However, the processes of PhPN biosynthesis, especially those involved in methylation modification, remain unclear. is a herbaceous plant belonging to Musaceae, and due to the abundant PhPNs, their biosynthesis in has been the subject of much attention. In this study, we assembled a telomere-to-telomere gapless genome of as the reference, and further integrated transcriptomic and metabolomic data to mine the candidate genes involved in PhPN biosynthesis. To elucidate the diversity of PhPNs in , three screened -methyltransferases (Ml01G0494, Ml04G2958, and Ml08G0855) by phylogenetic and expressional clues were subjected to enzymatic assays. The results show that the three were all novel -methyltransferases involved in the biosynthesis of PhPN phytoalexins, among which Ml08G0855 was proved to function as a multifunctional enzyme targeting multiple hydroxyl groups in PhPN structure. Moreover, we tested the antifungal activity of PhPNs against and found that the methylated modification of PhPNs enhanced their antifungal activity. These findings provide valuable genetic resources in banana breeding and lay a foundation for improving disease resistance through molecular breeding.
Phenylphenalenones (PhPNs), phytoalexins in wild bananas (Musaceae), are known to act against various pathogens. However, the abundance of PhPNs in many Musaceae plants of economic importance is low. Knowledge of the biosynthesis of PhPNs and the application of biosynthetic approaches to improve their yield is vital for fighting banana diseases. However, the processes of PhPN biosynthesis, especially those involved in methylation modification, remain unclear. Musella lasiocarpa is a herbaceous plant belonging to Musaceae, and due to the abundant PhPNs, their biosynthesis in M. lasiocarpa has been the subject of much attention. In this study, we assembled a telomere-to-telomere gapless genome of M. lasiocarpa as the reference, and further integrated transcriptomic and metabolomic data to mine the candidate genes involved in PhPN biosynthesis. To elucidate the diversity of PhPNs in M. lasiocarpa, three screened O-methyltransferases (Ml01G0494, Ml04G2958, and Ml08G0855) by phylogenetic and expressional clues were subjected to in vitro enzymatic assays. The results show that the three were all novel O-methyltransferases involved in the biosynthesis of PhPN phytoalexins, among which Ml08G0855 was proved to function as a multifunctional enzyme targeting multiple hydroxyl groups in PhPN structure. Moreover, we tested the antifungal activity of PhPNs against Fusarium oxysporum and found that the methylated modification of PhPNs enhanced their antifungal activity. These findings provide valuable genetic resources in banana breeding and lay a foundation for improving disease resistance through molecular breeding.
Author Zhao, Wanli
Wei, Zhiyan
Tian, Mei
Lin, Guyin
Wang, Ruiyang
Xue, Jia-Yu
Wu, Junzhi
Xu, Shu
Hu, Shuaiya
Wang, Bi
Chen, Yu
Feng, Boya
Lyu, Hui
Li, Pirui
Tang, Liang
Paetz, Christian
Feng, Xu
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Snippet Phenylphenalenones (PhPNs), phytoalexins in wild bananas (Musaceae), are known to act against various pathogens. However, the abundance of PhPNs in many...
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SubjectTerms Antifungal activity
Bananas
Biosynthesis
Breeding
Disease resistance
Economic importance
Fungicides
Fusarium oxysporum
Genetic resources
Genomes
Hydroxyl groups
Metabolomics
Musaceae
Musella lasiocarpa
Phytoalexins
Telomeres
Transcriptomics
Title Characterization of O -methyltransferases in the biosynthesis of phenylphenalenone phytoalexins based on the telomere-to-telomere gapless genome of Musella lasiocarpa
URI https://www.ncbi.nlm.nih.gov/pubmed/39493361
https://www.proquest.com/docview/3240681478
Volume 11
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