Genome-wide identification and characterization of methyltransferase involved in benzylisoquinoline alkaloids biosynthesis from Menispermum dauricum

doi:https://doi.org/10.1016/j.chmed.2025.11.007

Archive > Volume 18 Issue 1 > 2026,18(1):97-109. DOI:https://doi.org/10.1016/j.chmed.2025.11.007 Prev Next

蝙蝠葛中参与苄基异喹啉生物碱生物合成的甲基转移酶的全基因组鉴定与表征

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Genome-wide identification and characterization of methyltransferase involved in benzylisoquinoline alkaloids biosynthesis from Menispermum dauricum

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摘要:

目的：苄基异喹啉生物碱（BIAs）是具有重要价值的植物次生代谢产物，其结构多样性在很大程度上依赖于O-/N-甲基转移酶（OMTs/NMTs）。尽管此前已阐明蝙蝠葛中CYP450介导的BIA骨架形成途径，但负责其功能甲基化的特异性OMTs/NMTs仍未明确。本研究旨在系统鉴定并表征这些甲基转移酶，以明确其在BIA生物合成中的作用。方法：结合基因组学与生物化学方法，利用已发表的蝙蝠葛基因组数据，在全基因组范围内对甲基转移酶（MT）基因进行鉴定。通过采用多种BIA底物的体外酶活实验，对候选MTs进行功能评估，以确定其甲基化特异性。通过蛋白质建模与分子对接技术，预测并比较了MdOMT1与MdOMT11的底物结合模式。结果：对蝙蝠葛基因组中鉴定出的75个甲基转移酶进行功能表征，揭示了四个关键酶（三个OMTs和一个NMT）通过其独特的底物特异性和位置偏好，促进了BIA骨架的多样化。具体而言，MdOMT1优先催化1-苄基异喹啉类（1-BIAs）C7位点及四氢原小檗碱类C2位点的O-甲基化；而MdOMT11对（S）-金黄紫堇碱的C9位点O-甲基化表现出更高的亲和力与强烈偏好。同时，MdNMT3对1-BIAs与四氢原小檗碱类均显示出有效的N-甲基化活性。结论：本研究阐明了蝙蝠葛中OMTs/NMTs的功能谱，揭示了它们在BIA结构多样化中的关键作用。新发现的酶为旨在实现高价值BIAs可持续、优化生产的合成生物学策略提供了有价值的生物催化工具。

Abstract:

Objective: Benzylisoquinoline alkaloids (BIAs) are valuable plant metabolites whose structural diversity largely depends on O-/N-methyltransferases (OMTs/NMTs). Although the CYP450-mediated backbone formation of BIAs was previously elucidated in Menispermum dauricum DC., the specific OMTs/NMTs responsible for their functional methylation remain unknown. This study aims to systematically identify and characterize these methyltransferases to define their roles in BIA biosynthesis. Methods: Combining genomic and biochemical approaches, a genome-wide identification of methyltransferase (MT) genes was conducted using the published M. dauricum genome. The candidate MTs were functionally evaluated through in vitro enzymatic assays employing diverse BIA substrates to determine their methylation specificities. The substrate-binding modes of MdOMT1 and MdOMT11 were predicted and compared by protein modeling and molecular docking. Results: Functional characterization of the 75 methyltransferases identified in the M. dauricum genome revealed four key enzymes (three OMTs and one NMT) that contribute to the diversification of BIA scaffolds through their distinct substrate specificities and positional preferences. Specifically, MdOMT1 preferentially catalyzed O-methylation at C7 position of 1-benzylisoquinolines (1-BIAs) and C2 position of tetrahydroprotoberberines. In contrast, MdOMT11 exhibited superior affinity and a strong preference for O-methylation at the C9 position of (S)-scoulerine. Meanwhile, MdNMT3 demonstrated effective Nmethylation activity toward both 1-BIAs and tetrahydroprotoberberines. Conclusion: This research elucidates the functional landscape of OMTs/NMTs in M. dauricum, revealing their crucial roles in BIA structural diversification. The newly identified enzymes provide valuable biocatalytic tools for synthetic biology approaches aimed at the sustainable and optimized production of highvalue BIAs.

关键词:

苄基异喹啉生物碱;酶底物混杂性;O-/N-甲基转移酶;底物特异性;蝙蝠葛

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Project Supported:

This work was supported by the National Natural Science Foundation of China (Nos. 82274037, 32460117), Beijing Life Science Academy (BLSA, No. 2024500CD0120), YNDG202402ZY02, YNDG202302ZY02, CNTC-110202201016 (JY-16), YNTC2023530000241009 and the Fundamental Research Funds for the central public welfare research institutes (Nos. ZZ16-YQ-047, ZZ18-ND-10-11). The author sincerely thanks the China Association for Science and Technology (CAST) for the academic support through the Youth Talent Lift Project (PhD Student Special Support Program).

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蝙蝠葛中参与苄基异喹啉生物碱生物合成的甲基转移酶的全基因组鉴定与表征

Original articles

Genome-wide identification and characterization of methyltransferase involved in benzylisoquinoline alkaloids biosynthesis from Menispermum dauricum

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