Global Patent Analysis of Lipase Development Trends

doi:10.19586/j.2095-2341.2020.0161

Current Biotechnology ›› 2021, Vol. 11 ›› Issue (6): 749-757.DOI: 10.19586/j.2095-2341.2020.0161

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Global Patent Analysis of Lipase Development Trends

Yage ZHANG¹^,²(), Yu PANG¹, Wei ZHANG¹, Zhengfu ZHOU¹()

^1.Key Laboratory of Agricultural Genomics，Ministry Agriculture and Rural Affairs，Biotechnology Research Institute，Chinese Academy of Agricultural Sciences，Beijing 100081，China
^2.Sanya Institute，Hainan Academy of Agricultural Sciences，Hainan Sanya 572000，China

Received:2020-12-17 Accepted:2021-05-24 Online:2021-11-25 Published:2021-11-26
Contact: Zhengfu ZHOU

脂肪酶研发态势的全球专利分析

张亚格¹^,²(), 庞雨¹, 张维¹, 周正富¹()

^1.中国农业科学院生物技术研究所，农业农村部农业基因组学重点实验室，北京 100081
^2.海南省农业科学院三亚研究所，海南三亚 572000

通讯作者: 周正富
作者简介:张亚格 E-mail：zhangyage1992@163.com；
基金资助:
国家自然科学基金项目(31930004);国家科技重大专项(2019ZX08010-002);中国农业科学院科技创新工程重大科研任务(CAAS- ZDRW202009)

Abstract

Abstract:

Lipase is a kind of green and environment?friendly biocatalyst which can catalyze the break and formation of various ester bonds. Lipases have been widely used in many fields such as food， feed， detergent， pharmaceutical， fine chemistry and bioremediation. Based on Pat Snap， statistic on lipase?related patents in various countries and regions around the world before October 2020， we analyzed the lipase technology distribution， development status and future trends， and comparative analyzed the lipase research and development in China to provide a reference for the development of lipase technology and industry.

Key words: lipase, patent, research and development situation, detergent

摘要：

脂肪酶作为一种能够催化各种酯键断裂和形成的绿色环保生物催化剂，已被广泛应用于食品、饲料、洗涤剂、制药、精细化学以及生物修复等领域。基于智慧芽数据库（Pat Snap）对2020年10月前全球范围内各个国家及地区的脂肪酶相关专利进行统计，分析脂肪酶的技术分布、发展状况和未来趋势，并对比分析我国的脂肪酶研发现状，以期为脂肪酶技术及产业发展方向提供参考依据。

关键词: 脂肪酶, 专利, 研发态势, 洗涤剂

CLC Number:

Yage ZHANG, Yu PANG, Wei ZHANG, Zhengfu ZHOU. Global Patent Analysis of Lipase Development Trends[J]. Current Biotechnology, 2021, 11(6): 749-757.

张亚格, 庞雨, 张维, 周正富. 脂肪酶研发态势的全球专利分析[J]. 生物技术进展, 2021, 11(6): 749-757.

Figures/Tables 10

References 30

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IPC分类号	定义
C12N9	酶，如连接酶；酶原；其组合物；制备、活化、抑制、分离或纯化酶的方法
A61K31	含有机有效成分的医药配制品
C12N15	突变或遗传工程；遗传工程涉及的DNA或RNA，载体（如质粒）或其分离、制备或纯化；所使用的宿主
C11D3	包括在C11D1/00组内洗涤组合物的其他配料成分
A61K38	含肽的医药配制品
C12P7	含氧有机化合物的制备
A61P3	治疗代谢疾病的药物（治疗血液或细胞外液的A61P7/00）
C12N1	微生物本身，如原生动物；其组合物；繁殖、维持或保存微生物或其组合物的方法；制备或分离含有一种微生物组合物的方法；其培养基
C12Q1	包含酶、核酸或微生物的测定或检验方法；其组合物；组合物的制备方法
C07K14	具有多于20个氨基酸的肽；促胃液素；生长激素释放抑制因子；促黑激素；其衍生物

IPC分类号	定义
C12N9	酶，如连接酶；酶原；其组合物；制备、活化、抑制、分离或纯化酶的方法
A61K31	含有机有效成分的医药配制品
C12N15	突变或遗传工程；遗传工程涉及的DNA或RNA，载体（如质粒）或其分离、制备或纯化；所使用的宿主
C11D3	包括在C11D1/00组内洗涤组合物的其他配料成分
A61K38	含肽的医药配制品
C12P7	含氧有机化合物的制备
A61P3	治疗代谢疾病的药物（治疗血液或细胞外液的A61P7/00）
C12N1	微生物本身，如原生动物；其组合物；繁殖、维持或保存微生物或其组合物的方法；制备或分离含有一种微生物组合物的方法；其培养基
C12Q1	包含酶、核酸或微生物的测定或检验方法；其组合物；组合物的制备方法
C07K14	具有多于20个氨基酸的肽；促胃液素；生长激素释放抑制因子；促黑激素；其衍生物

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Global Patent Analysis of Lipase Development Trends

脂肪酶研发态势的全球专利分析

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