Article(id=1148993959646519676, tenantId=1146029695717560320, journalId=1146031712061968385, issueId=1148993956857307504, articleNumber=null, orderNo=null, doi=10.12211/2096-8280.2024-032, pmid=null, cstr=null, oa=null, hot=null, price=null, onlineType=0, articleFormat=0, articleType=null, articleTypeStr=null, receivedDate=1711987200000, receivedDateStr=2024-04-02, revisedDate=1719244800000, revisedDateStr=2024-06-25, acceptedDate=null, acceptedDateStr=null, onlineDate=1751871107255, onlineDateStr=2025-07-07, pubDate=1735574400000, pubDateStr=2024-12-31, doiRegisterDate=null, doiRegisterDateStr=null, onlineIssueDate=1751871107255, onlineIssueDateStr=2025-07-07, onlineJustAcceptDate=null, onlineJustAcceptDateStr=null, onlineFirstDate=null, onlineFirstDateStr=null, sourceXml=null, magXml=null, createTime=1751871107255, creator=13701087609, updateTime=1751871107255, updator=13701087609, issue=Issue{id=1148993956857307504, tenantId=1146029695717560320, journalId=1146031712061968385, year='2024', volume='5', issue='6', pageStart='1227', pageEnd='1529', issueExtLink='null', onlineDate='null', pubDate='null', beforeIssueId=null, nextIssueId=null, price=null, status=1, issueComplete=1, articleOrder=1, issueType=-1, specialIssue=null, createTime=1751871106590, creator=13701087609, updateTime=1752057237502, updator=13701087609, preIssue=null, nextIssue=null, ext={EN=IssueExt(id=1149774646557499609, tenantId=1146029695717560320, journalId=1146031712061968385, issueId=1148993956857307504, language=EN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=), CN=IssueExt(id=1149774646557499610, tenantId=1146029695717560320, journalId=1146031712061968385, issueId=1148993956857307504, language=CN, specialIssueTitle=, coverIllustrator=null, specialIssueEditor=, specialIssueAbout=)}, issueFiles=null}, startPage=1404, endPage=1418, ext={EN=ArticleExt(id=1149994722497016724, articleId=1148993959646519676, tenantId=1146029695717560320, journalId=1146031712061968385, language=EN, title=BioHPP^®: a benchmark of biomanufacturing for high optically pure L-phosphinothricin, columnId=1149894683619635652, journalTitle=Synthetic Biology Journal, columnName=Invited Review, runingTitle=null, highlight=null, articleAbstract=

Phosphinothricin (PPT) is one of the top three herbicides, known for its broad spectrum, high herbicidal activity, and non-selectivity, with a highly optimistic market prospect. However, PPT exists in two enantiomers (D-PPT and L-PPT), with the herbicidal activity primarily stemming from L-PPT. Therefore, efficient synthesis of L-PPT with high optical purity is crucial. Pesticide manufacturing enterprises have attempted to develop chemical synthesis methods for L-PPT using approaches such as racemic compound splitting, asymmetric synthesis, natural amino acid chiral source method, and chiral auxiliary induction. However, due to challenges such as low stereo-selectivity, low product yield, and high production costs, large-scale production has not been achieved. Under the guidance of Academician Yin-Chu Shen, the “Father of Biopesticides in China”, our research group has conducted scientific research and industrial practice on the biosynthesis of L-PPT for over 20 years. In cooperation with multiple enterprises, we have developed more than ten process routes and technologies. Among them, five routes (racemic mixture derivatization-resolution route, racemic PPT-chiral separation route, generic compound cyanation followed by hydrolysis route, de novo synthesis from common chemicals route, and synthesis of homoserine followed by chemical synthesis) are discussed in detail in this review. Each route’s reconstruction, establishment of bioinorganic amine technology, creation of biocatalysts, high-density fermentation for enzyme production, product separation and purification, and reaction equipment are included. Notably, we developed the BioHPP^®, a biomanufacturing technology for the synthesis of highly optically pure L-PPT. Based on this technology, a ten-thousand-ton digital and intelligent production line for L-PPT was established. Utilizing smart sensors and actuators, real-time data collection, transmission, analysis, and feedback adjustment were achieved at over a thousand control points. This led to fully automated parameter collection and control, increasing production efficiency by 50% and reducing labor intensity by more than 70%, thereby realizing the bio-intelligent manufacturing of ten thousand tons of L-PPT. Based on the long-term accumulation of our research efforts, we summarize and analyze the mainstream production processes of D,L-PPT, detailing on the principles and methods of biomanufacturing technology and synthetic biology to construct the key synthesis system for L-PPT. We also compare the characteristics and key points of industrialization implementation of these routes in terms of substrate synthesis and selection, types of biocatalysts, use of amino donors, and separation and purification. It can be foreseeable that, with the aid of synthetic biology technology, an increasing number of high-optical-purity chiral pesticides will be produced on a large scale through biomanufacturing in the future.

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草铵膦是全球三大除草剂之一，具有广谱、高活性、非选择性等特点，市场前景被广泛看好。然而，草铵膦具有两种对映异构体（D型和L型），其除草活性主要来自于其中的L型对映体（L-草铵膦）。因此，高光学纯L-草铵膦高效合成至关重要。本文作者团队者研究团队在中国“生物农药之父”沈寅初院士的指导下，开展生物合成L-草铵膦的科学研究和产业化实践长达二十余年，涵盖合成路线重构、生物无机胺化技术建立、生物催化剂创制、产物分离纯化、反应装备、过程智能化控制等方面，开发了“生物高纯精草生产技术”（BioHPP^®），建成了万吨级L-草铵膦数字智能化生产线，利用智能传感器和执行器，实现超千个控制点的实时数据采集、传输、分析和反馈调节，全自动化参数采集与控制生产效率提高50%，劳动强度降低70%以上，实现了万吨级L-草铵膦的生物智能制造。本文在研究团队长期积累的基础上，总结和分析了D，L-草铵膦主流生产工艺路线，详述了创新生物制造技术、合成生物技术构筑L-草铵膦关键合成体系的原理和方法，从底物合成与选择、生物催化剂类型、氨基供体使用、分离纯化等方面比较了这些路线的各自特点及实现产业化的关键要点。可以预见，在合成生物技术的助力下，未来将有越来越多的高光学纯度手性农药通过生物制造实现大规模生产。

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² The National and Local Joint Engineering Research Center for Biomanufacturing of Chiral Chemicals，Zhejiang University of Technology，Hangzhou 310014，Zhejiang，China, bio=null, bioImg=null, bioContent=null, aboutCorrespAuthor=null), CN=AuthorExt(id=1164877098624758705, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993959646519676, authorId=1164877098490540972, language=CN, stringName=程峰, firstName=null, middleName=null, lastName=null, prefix=null, suffix=null, authorComment=null, nameInitials=null, affiliation=null, department=null, xref=^{1, 2}, address=¹ 浙江工业大学生物工程学院，全省生物有机合成重点实验室，浙江 杭州 310014
² 浙江工业大学，手性生物制造国家地方联合工程研究中心，浙江 杭州 310014, bio={"img":"hlgEuXqyftm7xzN/3gTbqg==","content":"

程峰（1986—），男，教授，博士生导师。研究方向为工业酶创制与手性生物合成。 E-mail：fengcheng@zjut.edu.cn

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程峰（1986—），男，教授，博士生导师。研究方向为工业酶创制与手性生物合成。 E-mail：fengcheng@zjut.edu.cn

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薛亚平（1975—），男，教授，博士生导师，手性生物制造国家地方联合工程研究中心副主任。研究方向为绿色生物制造。 E-mail：xyp@zjut.edu.cn

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薛亚平（1975—），男，教授，博士生导师，手性生物制造国家地方联合工程研究中心副主任。研究方向为绿色生物制造。 E-mail：xyp@zjut.edu.cn

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Comparison of three production processes for D,L-PPT

, figureFileSmall=null, figureFileBig=null, tableContent=

条目	热裂解-ACA工艺（“气相合成”）	铝法-Strecker工艺（“铝法合成”）	格氏-Strecker工艺（“格氏合成”）
连续化程度	完全连续化	半连续化	间歇化
工艺特点	连续化程度高 对反应器装置要求高	工艺简单 易燃易爆，使用剧毒氰化物，分离纯化困难	工艺简单 易燃易爆，使用剧毒氰化物，分离纯化困难
三废排放	固废量少，可用来制备高附加值产品	固废量大	废水量大
生产成本	5万～6万 元/吨	6万～7万 元/吨	7万～8万元/吨

), ArticleFig(id=1164877101061649385, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993959646519676, language=CN, label=表1, caption=

D，L-草铵膦三种生产工艺比较

, figureFileSmall=null, figureFileBig=null, tableContent=

条目	热裂解-ACA工艺（“气相合成”）	铝法-Strecker工艺（“铝法合成”）	格氏-Strecker工艺（“格氏合成”）
连续化程度	完全连续化	半连续化	间歇化
工艺特点	连续化程度高 对反应器装置要求高	工艺简单 易燃易爆，使用剧毒氰化物，分离纯化困难	工艺简单 易燃易爆，使用剧毒氰化物，分离纯化困难
三废排放	固废量少，可用来制备高附加值产品	固废量大	废水量大
生产成本	5万～6万 元/吨	6万～7万 元/吨	7万～8万元/吨

), ArticleFig(id=1164877101111981034, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993959646519676, language=EN, label=Table 2, caption=

Comparison of four technical routes for L-PPT

, figureFileSmall=null, figureFileBig=null, tableContent=

条目	通用化合物氰基化再水解路线	外消旋D,L-草铵膦为底物的 混旋体合成-去消旋化路线			从常用化学品合成 L-草铵膦路线		从头合成高丝氨酸再化学合成路线
		生物拆分	生物有机胺胺化	生物无机氨胺化	生物无机氨胺化	生物有机胺胺化
生物 催化剂	腈水解酶等	酰化酶、酰胺酶等	氧化酶/多个转氨酶	D-氧化酶/L-脱氢酶等	脱氢酶等	转氨酶	生物发酵
供体	无	无	3～4倍当量有机胺	无机氨	无机氨	2～4倍当量有机胺	有机膦
底物	氨基腈	草铵膦衍生物	D,L-草铵膦	D,L-草铵膦	潜手性酮	D,L-草铵膦	葡萄糖
转化率 产物e.e.值	86% >99%	<50% >99%	90%～99% >99%	100% >99%	<100% >99%	90%～99% >99%	>99%
分离 纯化	容易	容易	困难	容易	容易	困难	容易
	(原粉、水剂)	(原粉、水剂)	(水剂)	(原粉、水剂)	(原粉、水剂)	(水剂)	(原粉、水剂)

), ArticleFig(id=1164877101170701291, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993959646519676, language=CN, label=表2, caption=

L-草铵膦四大技术路线比较

, figureFileSmall=null, figureFileBig=null, tableContent=

条目	通用化合物氰基化再水解路线	外消旋D,L-草铵膦为底物的 混旋体合成-去消旋化路线			从常用化学品合成 L-草铵膦路线		从头合成高丝氨酸再化学合成路线
		生物拆分	生物有机胺胺化	生物无机氨胺化	生物无机氨胺化	生物有机胺胺化
生物 催化剂	腈水解酶等	酰化酶、酰胺酶等	氧化酶/多个转氨酶	D-氧化酶/L-脱氢酶等	脱氢酶等	转氨酶	生物发酵
供体	无	无	3～4倍当量有机胺	无机氨	无机氨	2～4倍当量有机胺	有机膦
底物	氨基腈	草铵膦衍生物	D,L-草铵膦	D,L-草铵膦	潜手性酮	D,L-草铵膦	葡萄糖
转化率 产物e.e.值	86% >99%	<50% >99%	90%～99% >99%	100% >99%	<100% >99%	90%～99% >99%	>99%
分离 纯化	容易	容易	困难	容易	容易	困难	容易
	(原粉、水剂)	(原粉、水剂)	(水剂)	(原粉、水剂)	(原粉、水剂)	(水剂)	(原粉、水剂)

), ArticleFig(id=1164877101237810156, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993959646519676, language=EN, label=Table 3, caption=

Classification and characteristics of coenzyme regeneration enzymes

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酶类	国际酶学编号	辅酶再生底物	辅酶再生产物	优点	缺点
FDH	EC 1.2.1.2	甲酸（铵）	CO2和水	副产物CO2无毒具挥发性易于分离	催化效率低，底物亲和力差，具NAD+特异性
GDH	EC 1.1.1.47	葡萄糖	葡萄糖酸	催化活力高，辅底物价格低廉	副产物易溶于水难以分离，反应pH降低需要调控
ADH	EC 1.1.1.1-2	异丙醇	丙酮	催化活力较高，副产物沸点低，易除去	反应可逆，副产物可能会影响酶活

), ArticleFig(id=1164877101288141805, tenantId=1146029695717560320, journalId=1146031712061968385, articleId=1148993959646519676, language=CN, label=表3, caption=

辅酶再生酶的分类及特点

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酶类	国际酶学编号	辅酶再生底物	辅酶再生产物	优点	缺点
FDH	EC 1.2.1.2	甲酸（铵）	CO2和水	副产物CO2无毒具挥发性易于分离	催化效率低，底物亲和力差，具NAD+特异性
GDH	EC 1.1.1.47	葡萄糖	葡萄糖酸	催化活力高，辅底物价格低廉	副产物易溶于水难以分离，反应pH降低需要调控
ADH	EC 1.1.1.1-2	异丙醇	丙酮	催化活力较高，副产物沸点低，易除去	反应可逆，副产物可能会影响酶活

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