KEYGENE NV has a total of 688 patent applications. It decreased the IP activity by 43.0%. Its first patent ever was published in 1992. It filed its patents most often in EPO (European Patent Office), United States and WIPO (World Intellectual Property Organization). Its main competitors in its focus markets biotechnology, foods and drinks and environmental technology are FOND PARCO TECNOLOGICO PADANO, HAINAN BOLIAN RICE GENE TECH CO LTD and NIPPON GENETECH CO LTD.
# | Country | Total Patents | |
---|---|---|---|
#1 | EPO (European Patent Office) | 129 | |
#2 | United States | 126 | |
#3 | WIPO (World Intellectual Property Organization) | 107 | |
#4 | China | 61 | |
#5 | Australia | 60 | |
#6 | Canada | 53 | |
#7 | Israel | 39 | |
#8 | Brazil | 21 | |
#9 | Republic of Korea | 17 | |
#10 | Mexico | 17 | |
#11 | Japan | 14 | |
#12 | New Zealand | 7 | |
#13 | South Africa | 6 | |
#14 | India | 5 | |
#15 | United Kingdom | 4 | |
#16 | Hungary | 4 | |
#17 | Ukraine | 4 | |
#18 | Hong Kong | 3 | |
#19 | Czechia | 2 | |
#20 | Finland | 2 | |
#21 | Malaysia | 2 | |
#22 | Netherlands | 2 | |
#23 | Costa Rica | 1 | |
#24 | Norway | 1 | |
#25 | Poland | 1 |
# | Industry | |
---|---|---|
#1 | Biotechnology | |
#2 | Foods and drinks | |
#3 | Environmental technology | |
#4 | Computer technology | |
#5 | Basic materials chemistry | |
#6 | Measurement |
# | Technology | |
---|---|---|
#1 | Microorganisms | |
#2 | Measuring microorganism processes | |
#3 | New plants | |
#4 | Peptides | |
#5 | Climate change adaptation technologies | |
#6 | Bioinformatics | |
#7 | Enzymes | |
#8 | Fermentation | |
#9 | Preservation of human bodies | |
#10 | Analysing materials |
# | Name | Total Patents |
---|---|---|
#1 | Van Eijk Michael Josephus Theresia | 113 |
#2 | Bundock Paul | 110 |
#3 | De Both Michiel Theodoor Jan | 89 |
#4 | Hogers Rene Cornelis Josephus | 60 |
#5 | Zabeau Marc | 48 |
#6 | Vos Pieter | 43 |
#7 | Munkvold Jesse David | 42 |
#8 | De Vos Martin | 37 |
#9 | Deslattes Mays Anne | 37 |
#10 | Van Tunen Adrianus Johannes | 36 |
Publication | Filing date | Title |
---|---|---|
WO2020239984A1 | Gene for parthenogenesis | |
WO2020169830A1 | Genotyping of polyploids | |
WO2020109412A1 | Targeted enrichment by endonuclease protection | |
WO2020089448A1 | Dual guide rna for crispr/cas genome editing in plants cells | |
WO2020011985A1 | Type v crispr/nuclease-system for genome editing in plant cells | |
CA3102892A1 | Nucleic acid amplification method | |
WO2019211296A1 | Genes for hormone-free plant regeneration | |
EP3775226A1 | Improved shoot regeneration by overexpression of chk genes | |
EP3772908A1 | Qtls for powdery mildew resistance in melon | |
EP3728298A1 | Geminivirus resistant plants | |
WO2019121603A1 | Chemical mutagenesis of cassava | |
EP3679134A1 | Balanced indels | |
EP3582609A1 | Methods of targeted genetic alteration in plant cells | |
WO2018146322A1 | Method for altering ripening characteristics of fruit | |
WO2018146323A1 | Method for altering ripening characteristics of fruit | |
EP3557981A1 | Method for targeted alteration of duplex dna | |
MX2019007628A | Complex traits using tissue technology. | |
WO2018115389A1 | Methods of targeted genetic alteration in plant cells | |
MX2019007368A | Methods for the production of seed with improved seed germination properties. | |
WO2018087301A1 | Methods for improving drought resistance in plants - kgdr06, kgdr26, kgdr25, kgdr42 and kgdr37 |