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Koji Sagane

Koji Sagane, Ibaraki-Ken JP

Patent application numberDescriptionPublished
20100021918METHOD FOR ASSAYING ACTION OF ANTITUMOR AGENT USING SPLICING DEFECTS AS INDEX - An object of the present invention is to provide a method, a probe, a primer, an antibody, a reagent, and a kit for assaying an action of a pladienolide derivative to a living subject. According to the present invention, there is provided a method for assaying an action of the pladienolide derivative using splicing defect as an index.01-28-2010
20100333216Non-human gene-disrupted animal with disrupted Adam11 gene - It is an object of the present invention to provide a non-human gene-disrupted animal with a disrupted ADAM11 gene. According to the present invention, a non-human gene-disrupted animal, wherein either one of or both alleles of an ADAM11 gene are disrupted, is provided.12-30-2010

Koji Sagane, Tsukuba-Shi JP

Patent application numberDescriptionPublished
20080261272FUNGAL CELL WALL SYNTHESIS GENE - A reporter system reflecting the transport process that transports GPI-anchored proteins to the cell wall was constructed and compounds inhibiting this process were discovered. Further, genes conferring resistance to the above compounds were identified and methods of screening for compounds that inhibit the activity of the proteins encoded by these genes were developed. Therefore, through the novel compounds, the present invention showed that antifungal agents having a novel mechanism, i.e. inhibiting the process that transports GPI-anchored proteins to the cell wall, could be achieved.10-23-2008
20090098636FUNGAL CELL WALL SYNTHESIS GENE - A reporter system reflecting the transport process that transports GPI-anchored proteins to the cell wall was constructed and compounds inhibiting this process were discovered. Further, genes conferring resistance to the above compounds were identified and methods of screening for compounds that inhibit the activity of the proteins encoded by these genes were developed. Therefore, through the novel compounds, the present invention showed that antifungal agents having a novel mechanism, i.e. inhibiting the process that transports GPI-anchored proteins to the cell wall, could be achieved.04-16-2009
20090117586FUNGAL CELL WALL SYNTHESIS GENE - A reporter system reflecting the transport process that transports GPI-anchored proteins to the cell wall was constructed and compounds inhibiting this process were discovered. Further, genes conferring resistance to the above compounds were identified and methods of screening for compounds that inhibit the activity of the proteins encoded by these genes were developed. Therefore, through the novel compounds, the present invention showed that antifungal agents having a novel mechanism, i.e. inhibiting the process that transports GPI-anchored proteins to the cell wall, could be achieved.05-07-2009
20090325228FUNGAL CELL WALL SYNTHESIS GENE - A reporter system reflecting the transport process that transports GPI-anchored proteins to the cell wall was constructed and compounds inhibiting this process were discovered. Further, genes conferring resistance to the above compounds were identified and methods of screening for compounds that inhibit the activity of the proteins encoded by these genes were developed. Therefore, through the novel compounds, the present invention showed that antifungal agents having a novel mechanism, i.e. inhibiting the process that transports GPI-anchored proteins to the cell wall, could be achieved.12-31-2009

Patent applications by Koji Sagane, Tsukuba-Shi JP

Koji Sagane, Ibaraki JP