Abstract: A touch panel including an oxide semiconductor film having conductivity is provided. The touch panel includes a transistor, a second insulating film, and a touch sensor. The transistor includes a gate electrode; a gate insulating film; a first oxide semiconductor film; a source electrode and a drain electrode; a first insulating film; and a second oxide semiconductor film. The second insulating film is over the second oxide semiconductor film so that the second oxide semiconductor film is positioned between the first insulating film and the second insulating film. The touch sensor includes a first electrode and a second electrode. One of the first and second electrodes includes the second oxide semiconductor film.

Abstract: A vaccinia virus into which a therapeutic gene has been introduced as an exogenous gene and a therapeutic composition containing the same. The vaccinia virus contains at least one immune regulating gene as an exogenous gene.

Abstract: This invention provides a vaccinia virus that induces cell fusion between infected cells and a method for producing the same. Such vaccinia virus is deprived of the K2L gene or the HA gene or functions of the K2L gene and the HA gene and is mutated to induce cell fusion between infected cells and induce cell death.

Abstract: The present invention provides a genetically recombinant vaccinia virus effective in preventing or treating cancer. Specifically, the present invention provides a recombinant vaccinia virus lacking functions of VGF and O1L and having a gene encoding B5R in which an SCR domain has been deleted. Specifically, the present invention provides a vaccinia virus comprising two polynucleotides, a polynucleotide encoding IL-7 and a polynucleotide encoding IL-12; a combination kit of two vaccinia viruses, a vaccinia virus comprising a polynucleotide encoding IL-7 and a vaccinia virus comprising a polynucleotide encoding IL-12; and use of the two vaccinia viruses in combination.

Abstract: The present invention provides a genetically recombinant vaccinia virus effective in preventing or treating cancer. Specifically, the present invention provides a recombinant vaccinia virus lacking functions of VGF and O1L and having a gene encoding B5R in which an SCR domain has been deleted. Specifically, the present invention provides a vaccinia virus comprising two polynucleotides, a polynucleotide encoding IL-7 and a polynucleotide encoding IL-12; a combination kit of two vaccinia viruses, a vaccinia virus comprising a polynucleotide encoding IL-7 and a vaccinia virus comprising a polynucleotide encoding IL-12; and use of the two vaccinia viruses in combination.

Abstract: The present invention has an object to provide a vaccinia virus expressing a foreign gene and capable of killing cancer cells, and a cancer therapy drug comprising the vaccinia virus. The present invention relates to a vaccinia virus, wherein a suicide gene as a foreign gene selected from the group consisting of cytosine deaminase (CD) gene, uracil phosphoribosyltransferase (UPRT) gene, and herpes simplex virus thymidine kinase (HSV-tk) gene is introduced.

Abstract: The present invention provides a genetically recombinant vaccinia virus effective in preventing or treating cancer. Specifically, the present invention provides a recombinant vaccinia virus lacking functions of VGF and O1L and having a gene encoding B5R in which an SCR domain has been deleted. Specifically, the present invention provides a vaccinia virus comprising two polynucleotides, a polynucleotide encoding IL-7 and a polynucleotide encoding IL-12; a combination kit of two vaccinia viruses, a vaccinia virus comprising a polynucleotide encoding IL-7 and a vaccinia virus comprising a polynucleotide encoding IL-12; and use of the two vaccinia viruses in combination.

Abstract: It is an object of the present invention to provide utilization of a UCA1 gene that is a host regulatory factor that enhances replication and/or propagation of a vaccinia virus, in order to effectively carry out cancer virotherapy using the vaccinia virus. The present invention relates to: a method for predicting and evaluating the cancer therapeutic effects of a vaccinia virus, which comprises measuring the expression of a UCA1 gene in the cancer cells of a cancer patient, and then predicting that a vaccinia virus exhibits cancer therapeutic effects on the patient, when the UCA1 gene has been expressed therein; and a vaccinia virus into which a UCA1 gene has been expressibly introduced.

Abstract: It is an object of the present invention to provide utilization of a UCA1 gene that is a host regulatory factor that enhances replication and/or propagation of a vaccinia virus, in order to effectively carry out cancer virotherapy using the vaccinia virus. The present invention relates to: a method for predicting and evaluating the cancer therapeutic effects of a vaccinia virus, which comprises measuring the expression of a UCA1 gene in the cancer cells of a cancer patient, and then predicting that a vaccinia virus exhibits cancer therapeutic effects on the patient, when the UCA1 gene has been expressed therein; and a vaccinia virus into which a UCA1 gene has been expressibly introduced.