PLANT GENETIC SYSTEMS NV has a total of 296 patent applications. Its first patent ever was published in 1984. It filed its patents most often in United States, WIPO (World Intellectual Property Organization) and Australia. Its main competitors in its focus markets biotechnology, environmental technology and foods and drinks are INST GENETICS CAS, ALGENTECH SAS and BIOCENTURY TRANSGENE CHINA CO.
# | Country | Total Patents | |
---|---|---|---|
#1 | United States | 67 | |
#2 | WIPO (World Intellectual Property Organization) | 44 | |
#3 | Australia | 42 | |
#4 | Canada | 34 | |
#5 | EPO (European Patent Office) | 33 | |
#6 | Japan | 11 | |
#7 | Israel | 8 | |
#8 | Hungary | 7 | |
#9 | South Africa | 7 | |
#10 | United Kingdom | 6 | |
#11 | Hong Kong | 6 | |
#12 | Finland | 5 | |
#13 | Brazil | 4 | |
#14 | Denmark | 4 | |
#15 | Portugal | 4 | |
#16 | Ireland | 3 | |
#17 | Poland | 3 | |
#18 | Czechia | 2 | |
#19 | France | 2 | |
#20 | Norway | 2 | |
#21 | China | 1 | |
#22 | African Intellectual Property Organization | 1 |
# | Industry | |
---|---|---|
#1 | Biotechnology | |
#2 | Environmental technology | |
#3 | Foods and drinks | |
#4 | Machines | |
#5 | Basic materials chemistry | |
#6 | Pharmaceuticals | |
#7 | Measurement |
# | Technology | |
---|---|---|
#1 | Microorganisms | |
#2 | Peptides | |
#3 | Climate change adaptation technologies | |
#4 | Unspecified technologies | |
#5 | Preservation of human bodies | |
#6 | Microorganisms | |
#7 | Enzymes | |
#8 | New plants | |
#9 | Medical preparations | |
#10 | Analysing materials |
# | Name | Total Patents |
---|---|---|
#1 | Leemans Jan | 66 |
#2 | Botterman Johan | 54 |
#3 | Peferoen Marnix | 45 |
#4 | Mariani Celestina | 36 |
#5 | Greef Willy De | 32 |
#6 | Lambert Bart | 27 |
#7 | Joos Henk | 25 |
#8 | Michiels Frank | 19 |
#9 | Thompson Charles | 18 |
#10 | Krebbers Enno | 18 |
Publication | Filing date | Title |
---|---|---|
US6506963B1 | Hybrid winter oilseed rape and methods for producing same | |
US6509516B1 | Male-sterile brassica plants and methods for producing same | |
US6384304B1 | Conditional sterility in wheat | |
AU3124899A | Plants with modified stamen cells | |
US6333449B1 | Glufosinate tolerant rice | |
AU8804498A | Improved bacillus thuringiensis toxin | |
BR9805900A | Process for integrating a DNA fragment into the genome of a manocotyledonous plant cell and composition for the plant growth medium | |
WO9831822A1 | Pathogen-induced plant promoters | |
AU4942197A | DNA-constructs comprising intergenic ribosomal DNA and methods to produce proteins using these DNA-constructs | |
HU9903633A3 | Improved barstar gene | |
US5994526A | Gene expression in plants | |
AU3170497A | Gene expression in plants | |
CA2235748A1 | Plants with reduced glucosinolate content | |
HU9802535A2 | Seed shattering | |
CA2200496A1 | Genetic transformation using a parp inhibitor | |
EP0771878A1 | Plants with reduced glucosinolate content | |
EP0757102A1 | Genetic transformation using a PARP inhibitor | |
CA2191441A1 | Use of anthocyanin genes to maintain male sterile plants | |
US6008437A | Use of anthocyanin genes to maintain male sterile plants | |
US5908970A | Recombinant plant expressing non-competitively binding Bt insecticidal crystal proteins |