Journal of Agricultural Science and Technology ›› 2023, Vol. 25 ›› Issue (11): 8-19.DOI: 10.13304/j.nykjdb.2023.0508
• AGRICULTURAL INNOVATION FORUM • Previous Articles Next Articles
Mingdi CHEN1(), Xingru CHENG2, Bo XU2, Haiwen ZHANG2, Wangtian WANG1(
), Youhua WANG2(
)
Received:
2023-06-20
Accepted:
2023-07-26
Online:
2023-11-15
Published:
2023-11-20
Contact:
Wangtian WANG,Youhua WANG
陈明迪1(), 程兴茹2, 徐博2, 张海文2, 王旺田1(
), 王友华2(
)
通讯作者:
王旺田,王友华
作者简介:
陈明迪 E-mail:251631622@qq.com
基金资助:
CLC Number:
Mingdi CHEN, Xingru CHENG, Bo XU, Haiwen ZHANG, Wangtian WANG, Youhua WANG. Analysis of Global Transgenic Oilseed Rape Patent Information and Technology Outlook[J]. Journal of Agricultural Science and Technology, 2023, 25(11): 8-19.
陈明迪, 程兴茹, 徐博, 张海文, 王旺田, 王友华. 全球转基因油菜专利信息分析与技术展望[J]. 中国农业科技导报, 2023, 25(11): 8-19.
序号Nmuber | 国际专利分类号IPC Number | 专利数 Number of patents | 涉及技术领域 Technology areas covered |
---|---|---|---|
1 | C12N15 | 494 | 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、制备或纯化以及所使用的宿主 Mutagenesis or genetic engineering; genetic engineering involving DNA or RNA, vectors (e.g., plasmids) or their isolation, preparation, or purification, and the hosts used |
2 | A01H5 | 356 | 植物部分的被子植物 Plant parts of angiosperms |
3 | A01H6 | 140 | 植物学分类的被子植物 Botanical classification of angiosperms |
4 | C07K14 | 135 | 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;促黑激素及其衍生物 Peptides with more than 20 amino acids; gastrin; growth hormone release inhibitory factor; melanotropic hormone and its derivatives |
5 | C12Q1 | 117 | 包含酶、核酸或微生物的测定或检验方法及其组合物与这种组合物的制备方法 Methods of assays or tests comprising enzymes, nucleic acids, or microorganisms and compositions thereof with methods of preparation of such compositions |
6 | C12N9 | 92 | 酶;酶原及其组合物,制备、活化、抑制、分离或纯化酶的方法 Enzymes; enzymes and compositions thereof, methods for preparing, activating, inhibiting, isolating or purifying enzymes |
7 | A01H1 | 83 | 改良基因型的方法 Methods for improving genotypes |
8 | C12N5 | 67 | 未分化的人类、动物或植物细胞,如细胞系、组织以及它们的培养或维持 Undifferentiated human, animal or plant cells, such as cell lines, tissues and their culture or maintenance |
9 | C12N1 | 41 | 微生物本身及其组合物;繁殖、维持或保藏微生物或其组合物的方法;制备或分离含有一种微生物的组合物的方法及其培养基 Microorganisms themselves and compositions thereof; methods of propagating, maintaining or conserving microorganisms or compositions thereof; methods of preparing or isolating compositions containing a microorganism and culture media thereof |
10 | A01H4 | 21 | 通过组织培养技术的植物再生 Plant regeneration by tissue culture technology |
Table 1 Distribution of key technical fields of transgenic rapeseed patent
序号Nmuber | 国际专利分类号IPC Number | 专利数 Number of patents | 涉及技术领域 Technology areas covered |
---|---|---|---|
1 | C12N15 | 494 | 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、制备或纯化以及所使用的宿主 Mutagenesis or genetic engineering; genetic engineering involving DNA or RNA, vectors (e.g., plasmids) or their isolation, preparation, or purification, and the hosts used |
2 | A01H5 | 356 | 植物部分的被子植物 Plant parts of angiosperms |
3 | A01H6 | 140 | 植物学分类的被子植物 Botanical classification of angiosperms |
4 | C07K14 | 135 | 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;促黑激素及其衍生物 Peptides with more than 20 amino acids; gastrin; growth hormone release inhibitory factor; melanotropic hormone and its derivatives |
5 | C12Q1 | 117 | 包含酶、核酸或微生物的测定或检验方法及其组合物与这种组合物的制备方法 Methods of assays or tests comprising enzymes, nucleic acids, or microorganisms and compositions thereof with methods of preparation of such compositions |
6 | C12N9 | 92 | 酶;酶原及其组合物,制备、活化、抑制、分离或纯化酶的方法 Enzymes; enzymes and compositions thereof, methods for preparing, activating, inhibiting, isolating or purifying enzymes |
7 | A01H1 | 83 | 改良基因型的方法 Methods for improving genotypes |
8 | C12N5 | 67 | 未分化的人类、动物或植物细胞,如细胞系、组织以及它们的培养或维持 Undifferentiated human, animal or plant cells, such as cell lines, tissues and their culture or maintenance |
9 | C12N1 | 41 | 微生物本身及其组合物;繁殖、维持或保藏微生物或其组合物的方法;制备或分离含有一种微生物的组合物的方法及其培养基 Microorganisms themselves and compositions thereof; methods of propagating, maintaining or conserving microorganisms or compositions thereof; methods of preparing or isolating compositions containing a microorganism and culture media thereof |
10 | A01H4 | 21 | 通过组织培养技术的植物再生 Plant regeneration by tissue culture technology |
排名 Ranking | 申请人 Applicant | 专利数 Number of patents | 占比 Percentage/% | 总部所在国家 Country where the headquarters is located |
---|---|---|---|---|
1 | 中国农业科学院 Chinese Academy of Agricultural Sciences | 68 | 11.74 | 中国 China |
2 | 华中农业大学 Huazhong Agricultural University | 35 | 6.04 | 中国 China |
3 | 孟山都 Monsanto | 34 | 5.87 | 美国 America |
4 | 西南大学 Southwest University | 26 | 4.49 | 中国 China |
5 | 浙江大学 Zhejiang University | 16 | 2.76 | 中国 China |
6 | 陶氏化学公司 Dow Chemical Company | 15 | 2.59 | 美国 America |
7 | 江苏大学 Jiangsu University | 14 | 2.42 | 中国 China |
8 | 巴斯夫 BASF | 10 | 1.73 | 德国 Germany |
9 | 南京农业大学 Nanjing Agricultural University | 10 | 1.73 | 中国 China |
10 | 上海交通大学 Shanghai Jiao Tong University | 8 | 1.38 | 中国 China |
Table 2 Status of key application agencies for GM rapgenic rapeseed paten
排名 Ranking | 申请人 Applicant | 专利数 Number of patents | 占比 Percentage/% | 总部所在国家 Country where the headquarters is located |
---|---|---|---|---|
1 | 中国农业科学院 Chinese Academy of Agricultural Sciences | 68 | 11.74 | 中国 China |
2 | 华中农业大学 Huazhong Agricultural University | 35 | 6.04 | 中国 China |
3 | 孟山都 Monsanto | 34 | 5.87 | 美国 America |
4 | 西南大学 Southwest University | 26 | 4.49 | 中国 China |
5 | 浙江大学 Zhejiang University | 16 | 2.76 | 中国 China |
6 | 陶氏化学公司 Dow Chemical Company | 15 | 2.59 | 美国 America |
7 | 江苏大学 Jiangsu University | 14 | 2.42 | 中国 China |
8 | 巴斯夫 BASF | 10 | 1.73 | 德国 Germany |
9 | 南京农业大学 Nanjing Agricultural University | 10 | 1.73 | 中国 China |
10 | 上海交通大学 Shanghai Jiao Tong University | 8 | 1.38 | 中国 China |
1 | 何微,李俊,王晓梅,等.全球油菜产业现状与我国油菜产业问题、对策[J].中国油脂,2022,47(2):1-7. |
HE W, LI J, WANG X M, et al.. Current status of global rapeseed industry and problems, countermeasures of rapeseed industry in China [J]. China Oils Fats, 2022, 47(2):1-7. | |
2 | 端群.抗草甘膦转基因油菜的稳定性鉴定与初步安全性评价[D].武汉:华中农业大学,2022. |
DUAN Q. Stability identification and preliminary safety evaluation of glyphosate-resistant transgenic rapeseed [D]. Wuhan: Huazhong Agricultural University, 2022. | |
3 | 邹婉侬.基于专利数据挖掘的全球生物技术育种技术及产业竞争态势分析[D].北京:中国农业科学院,2020. |
ZOU W N. Analysis of global biotechnology breeding technology and industrial competition based on patent data mining [D]. Beijing: Chinese Academy of Agricultural Sciences, 2020. | |
4 | 石洪岩.孟山都公司转基因作物商业化运营模式分析[D].长春:吉林大学,2022. |
SHI H Y. Analysis of monsanto’s commercial operation mode of genetically modified crops [D]. Changchun: Jilin University, 2022. | |
5 | 詹琳.全球转基因作物商业化进展情况及有关问题的分析[D].北京:中国农业科学院,2015. |
ZHAN L. The worldwide commercialization of GM crops and related issues analysis [D]. Beijing: Chinese Academy of Agricultural Sciences, 2015. | |
6 | 陈新华.我国油料产品的贸易救济问题研究[D].武汉:华中农业大学,2011. |
CHEN X H. The study on trade remedy of china oilseed product [D]. Wuhan: Huazhong Agricultural University, 2011. | |
7 | 王立祥,李永平,许强.中国粮食问题[M].北京:阳光出版社,2015:1-495. |
8 | 周振亚.中国植物油产业发展战略研究[D].北京:中国农业科学院,2012. |
ZHOU Z Y. Study on the strategy of the vegetable oil industry in China [D]. Beijing: Chinese Academy of Agricultural Sciences, 2012. | |
9 | 严金明,夏方舟.生态文明、产城融合与土地利用战略[M].北京:中国人民大学出版社,2020:1-277. |
10 | 金文涌,叶凤林,刘定富,等.中美转基因作物产业化最新进展[J].中国种业,2022(9):1-6. |
JIN W Y, YE F L, LIU D F, et al.. The latest progress of genetically modified crops industrialization in China and the United States [J]. China Seed Ind., 2022(9):1-6. | |
11 | 赵霞,王玉光,胡瑞法.基于专利分析的转基因农作物技术布局态势研究[J].情报杂志, 2014,33(9):51-55, 92. |
ZHAO X, WANG Y G, HU R F. Patent layout and status analysis of genetically modified crop technology [J]. J. Intelligence, 2014, 33(9):51-55, 92 | |
12 | 王友华,蔡晶晶,杨明,等.全球转基因大豆专利信息分析与技术展望[J].中国生物工程杂志,2018,38(2):116-125. |
WANG Y H, CAI J J, YANG M, et al.. Global patent information analysis and technology outlook of transgenic soybean [J]. Chin. J. Bioeng., 2018, 38(2):116-125. | |
13 | 黄红星,刘晓珂,林伟君,等.基于专利分析的智慧农业技术发展现状及趋势研究[J].安徽农业科学,2021,49(3):238-242. |
HUANG H X, LIU X K, LIN W J, et al.. Research on the development of wisdom agricultural technology based on patent analysis [J]. Anhui Agric. Sci., 2021, 49(3):238-242. | |
14 | 秦宇.转基因作物种植法律制度研究[D].武汉:华中农业大学,2022. |
QIN Y. Research on the legal system of planting genetically modified crops [D]. Wuhan: Huazhong Agricultural University, 2022. | |
15 | 于战平,李春杰.都市农业发展与乡村振兴[M].南开大学出版社 2021:1-248. |
16 | 袁华山.政策与市场的耦合[M].南京:东南大学出版社,2020:1-275. |
17 | LIAN J Z, WANG Y, LUO Y Z, et al.. Editorial: development and application of novel genome engineering tools in microbial biotechnology [J/OL]. Front. Bioeng. Biotechnol., 2020, 8:621851 [2023-05-20]. . |
18 | 谭磊,陈明月,沈彬.基因编辑研究进展与展望[J].南京医科大学学报(自然科学版),2021,41(11):1689-1694. |
TAN L, CHEN M Y, SHEN B. Progress and prospects of gene editing research [J]. J. Nanjing Med. Univ. (Nat. Sci.), 2021, 41(11): 1689-1694. | |
19 | 刘海岚,夏超,兰海.全基因组选择技术在作物育种中的研究进展[J].华北农学报,2022,37(S1):51-58. |
LIU H L, XIA C, LAN H. The research progress of genomic selection in breeding of crops [J]. J. North China Agric., 2022, 37(S1):51-58. | |
20 | 任源,王佐惠,吴江,等.全基因组选择及其在玉米育种中的研究进展[J].种子科技,2019,37(13):35-37, 39. |
21 | 苏瑞娜.全球粮食市场制度探源[M].南京:东南大学出版社,2022:1-268. |
22 | 邹婉侬.基于专利数据挖掘的全球生物技术育种技术及产业竞争态势分析[D].北京:中国农业科学院,2020. |
ZOU W N. Analysis of global biotechnology breeding technology and industrial competition based on patent data mining [D]. Beijing: Chinese Academy of Agricultural Sciences, 2020. | |
23 | 奥特快.粮食战争:霸权之柱背后的隐秘武器[J].世界文化,2020(8):44-48. |
24 | 孙逸轩.政治经济视角下“转基因作物”概念的迷思——从《孟山都眼中的世界》出发[J].新闻研究导刊,2019,10(15):65-66. |
25 | 国际农业生物技术应用服务组织.2018年全球生物技术/转基因作物商业化发展态势[J].中国生物工程杂志,2019,39(8):1-6. |
26 | 严茂林,葛玮玮,张翔,等.我国油料产业形势分析与发展对策[J].中国油脂,2023,48(6):8-18. |
YAN M L, GE W W, ZHANG X, et al.. Analysis of the situation of China’s oilseed industry and development countermeasures [J]. China Oil Fats, 2023, 48(6):8-18. | |
27 | 冯诗博,张剑波.2022年油料油脂市场分析与2023年展望[J].农业展望,2023,19(2):21-26. |
FENG S B, ZHANG J B. Oilseeds and edible vegetable oils market situations in 2022 and its prospects for 2023 [J]. Agric. Outlook, 2023, 19(2):21-26. | |
28 | 农业部新批准进口 5 种农业转基因生物来自孟山都、先正达等[J].农药,2019,58(1):64. |
29 | 李敏,王磊,邹俊杰.我国转基因抗虫耐除草剂玉米产业化应用面临的机遇与挑战[J].生物技术进展,2023,13(2):157-165. |
LI M, WANG L, ZOU J J. Opportunities and challenges for the industrial application of transgenic insect resistant and herbicide tolerant maize in china [J]. Ad. Biotechnol., 2023, 13(2):157-165. | |
30 | 张健.中国重要农作物生物育种产业化应用的展望[J].中国农业科技导报,2022,24(12):15-24. |
ZHANG J. Prospects for commercialization of biotech breeding technology of important crops in China [J]. J. Agric. Sci. Technol., 2022, 24(12):15-24. |
[1] | Zunkang CUI, Danyang LI, Xiaoting XU, Junfeng ZHU, Laping WU, Wenge ZUO. Research on the Global Innovation Layout and Competition Situation of Food Crop Bio-breeding Technology: Based on the Perspective of Core Patent Data Mining [J]. Journal of Agricultural Science and Technology, 2022, 24(5): 1-14. |
[2] | DUAN Jun, GAO Zhen. Development Status of Food Science and Technology Based on Bibliometrics and Patent Metrology [J]. Journal of Agricultural Science and Technology, 2021, 23(8): 114-126. |
[3] | LIANG Xiaohe, ZHOU Ailian, XIE Nengfu, ZHANG Yi, WU Saisai. Application Status and Technology Hotspots of Blockchain in Agriculture [J]. Journal of Agricultural Science and Technology, 2021, 23(12): 84-93. |
[4] | XIANG Wei, MA Lan, LIU Jiajie, DENG Xin, LONG Chaohai, WEN Qinghua, LIU Chunjie, LYU Jiangnan*. Development Trend of Ramie Mechanized Production Technology Based on Patent Analysis of IncoPat [J]. Journal of Agricultural Science and Technology, 2021, 23(1): 107-118. |
[5] | LIU Xidong1, CHEN Lingshi1, XU Hanhong2*. Studies on Development Characteristics of Azadirachtin Industry and Countermeasures Based on Patent Analysis [J]. Journal of Agricultural Science and Technology, 2018, 20(2): 19-26. |
[6] | LIU Qin1, ZHANG Yi2, YANG Yuming3, HU Lianglong1, ZHENG Yanyan1, TAN Lvke1, HUANG Xu1, TANG Yun1, WANG Yemeng1. Study on Development of Rape Industry Based on Patent Large Data [J]. Journal of Agricultural Science and Technology, 2018, 20(10): 1-8. |
[7] | LIU Qin1, WANG Shaokang2, HU Lianglong1, ZHENG Yanyan1, TAN Lvke1 . Patent Value Evaluation of Agricultural Machinery Equipment#br# [J]. Journal of Agricultural Science and Technology, 2017, 19(5): 86-91. |
[8] | YUE Chun-jiang1§, CHEN Chuan-chuan1§, GUO Feng-xian1, LI Hua1, SUN Hong-bo1, PEI Dan-ning1, MA Xiao-qing1, CHEN Fu-xin1, YANG Huo-li1, LI Qin1, LIU Yue1,2*. Data Mining of Simple Sequence Repeats in Transcriptome Sequences of Mongolia Medicinal Plant Artemisia frigida Willd [J]. Journal of Agricultural Science and Technology, 2016, 18(6): 31-43. |
[9] | YU Jin-cong1,2, HE Shu-ya1,2, LIN Ke-ming1,2, YOU Yue1,2. Development Situation Analysis of Seaweed Oligosaccharides in China [J]. Journal of Agricultural Science and Technology, 2016, 18(6): 164-174. |
[10] | LIN Zhi-jian1, ZHAO Yun-hua2, SHEN Kai1, QIU Qiu-fei1, YING Xiang-wei1*, . Study on Development Trend of Crop Diseases, Insect Pests and Weeds Detection Technology Based on Patent Analysis [J]. Journal of Agricultural Science and Technology, 2016, 18(4): 208-217. |
[11] | WANG Shuang-shuang1, FENG Yong-li2, MA Cai-yun2, PANG Jin-hui2, HU Rui-fa1*, CAI. International Competitive Ability of China in Transgenic Technology Research and Development [J]. Journal of Agricultural Science and Technology, 2015, 17(6): 15-20. |
[12] | ZHAO Jing-juan1, ZHANG Feng-lan2, ZHANG Jun-feng1*. Pattern Analysis and Countermeasur Suggestion for Global Patent Competition on Chinese Cabbage Molecular Breeding [J]. Journal of Agricultural Science and Technology, 2015, 17(6): 135-141. |
[13] | YUE Dong-dong, WANG Lu-min*, HUANG Hong-liang, ZHENG Han-feng, FENG Chun-lei, ZH. Status of Development and Countermeasures on Utilization Technology of Antarctic Krill Resources in China [J]. , 2015, 17(3): 159-166. |
[14] | LU Yao, SONG Min*. Analysis about Research Status of Plant Stress\|resistance Gene Based on Patent Data [J]. , 2014, 16(5): 167-174. |
[15] | CUI Yan, GU0 De-zhong . Legal Regulation and Protection of Agricultural Transgenic Plants [J]. , 2008, 10(2): 51-55. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||