Abstract: The present invention easily identifies a genotype for gene mutations related to myeloproliferative neoplasms. The present invention comprises a mutant probe that specifically hybridizes with a gene mutation related to myeloproliferative neoplasms in JAK2, a mutant probe that specifically hybridizes with a gene mutation related to myeloproliferative neoplasms in CALR, and a mutant probe that specifically hybridizes with a gene mutation related to myeloproliferative neoplasms in MPL.

Abstract: A therapeutic effect of irinotecan is predicted using a predetermined genetic polymorphism. A genetic polymorphism identified by rs1980576 in APCDD1L gene, or a genetic polymorphism in linkage disequilibrium with the above genetic polymorphism is analyzed, and determination is performed based on the genotype of the genetic polymorphism.

Abstract: The present invention provides a compound that thickens or gels a fluid organic substance to a desired viscosity, or uniformly stabilizes a composition containing a fluid organic substance. The compound of the present invention is a compound represented by Formula (1) below: wherein, R1 represents a monovalent aliphatic hydrocarbon group having 4 or more carbons; R2 represents a divalent aliphatic hydrocarbon group having from 1 to 12 carbons; R3 represents a monovalent aliphatic hydrocarbon group having from 1 to 12 carbons; m represents an integer from 0 to 10; and n represents an integer from 1 to 4; in a case where n is 1 or 2, (4?n) R1s may be the same or different; and in a case where n is from 2 to 4, n R2s, n R3s, and n m's each may be the same or different.

Abstract: The present invention provides a compound that thickens or gels a fluid organic substance to a desired viscosity, or uniformly stabilizes a composition containing a fluid organic substance. The compound of the present invention is a compound represented by Formula (1) below: wherein, R1 represents a monovalent aliphatic hydrocarbon group having 4 or more carbons; R2 represents a divalent aliphatic hydrocarbon group having from 1 to 12 carbons; R3 represents a monovalent aliphatic hydrocarbon group having from 1 to 12 carbons; m represents an integer from 0 to 10; and n represents an integer from 1 to 4; in a case where n is 1 or 2, (4?n) R1s may be the same or different; and in a case where n is from 2 to 4, n R2s, n R3s, and n m's each may be the same or different.

Abstract: The present invention addresses the problem of providing a novel therapeutic agent for keratoconjunctive disorders. As a means for solving the problem, a therapeutic agent for keratoconjunctive disorders which contains a RAR? agonist as an active ingredient is provided. The therapeutic agent exhibits an excellent ameliorating effect in a keratoconjunctive disorder model, and is therefore useful as a therapeutic agent for keratoconjunctive disorders such as corneal ulcer, corneal epithelial abrasion, keratitis, dry eye, conjunctivitis, chronic superficial keratitis, corneal erosion, persistent corneal disorders, superficial punctate keratopathy, corneal epithelial defects, conjunctival epithelial defects, keratoconjunctivitis sicca, superior limbic keratoconjunctivitis, filamentary keratoconjunctivitis, infectious keratitis, noninfectious keratitis, infectious conjunctivitis and noninfectious conjunctivitis.

Abstract: An object of the present invention is to provide: an anti-GPC3 antibody that recognizes an epitope different from that for existing antibodies (e.g., GC33 and GC199) and can specifically bind, even in the form of single chain antibody, to GPC3 localized on a cell membrane; CAR comprising the anti-GPC3 single chain antibody; an immunocompetent cell expressing the CAR; a gene of the anti-GPC3 antibody or a gene of the CAR; a vector comprising the anti-GPC3 antibody gene or the CAR gene; a host cell in which the vector has been introduced; a method for specifically detecting GPC3; and a kit for specifically detecting GPC3. An antibody comprising particular heavy chain CDR1 to CDR3 and particular light chain CDR1 to CDR3 defined in claim 1, and specifically binding to a human-derived GPC3 polypeptide specifically binds to GPC3 localized on a cell membrane. CAR-immunocompetent cells prepared on the basis of CAR comprising such single chain antibody are useful for cancer immunotherapy.

Abstract: An object of the present invention is to provide: an anti-GPC3 antibody that recognizes an epitope different from that for existing antibodies (e.g., GC33 and GC199) and can specifically bind, even in the form of single chain antibody, to GPC3 localized on a cell membrane; CAR comprising the anti-GPC3 single chain antibody; an immunocompetent cell expressing the CAR; a gene of the anti-GPC3 antibody or a gene of the CAR; a vector comprising the anti-GPC3 antibody gene or the CAR gene; a host cell in which the vector has been introduced; a method for specifically detecting GPC3; and a kit for specifically detecting GPC3. An antibody comprising particular heavy chain CDR1 to CDR3 and particular light chain CDR1 to CDR3 defined in claim 1, and specifically binding to a human-derived GPC3 polypeptide specifically binds to GPC3 localized on a cell membrane. CAR-immunocompetent cells prepared on the basis of CAR comprising such single chain antibody are useful for cancer immunotherapy.

Abstract: A buffer composition for hybridization of a target nucleic acid is provided. The nucleic acid can include a nucleotide to be detected with a nucleic acid probe. The probe can contain a nucleotide sequence complementary to the target nucleic acid. The buffer can include a blocking nucleic acid having a nucleotide sequence complementary to a non-target nucleic acid having a nucleotide not to be detected corresponding to the nucleotide to be detected. The buffer composition can suppress non-specific hybridization to the nucleic acid probe even when a non-target nucleic acid is present. The use of the buffer composition can achieve excellent detection efficiency of the target nucleic acid.

Abstract: A method of treating or reducing at least one inflammatory condition or the susceptibility to at least one inflammatory condition is provided involving administering at least one CD69 antagonist to a subject, wherein the subject has been diagnosed with at least one inflammatory condition, or a susceptibility to the same. CD69 antagonists can include one or more of an anti-CD69 antibody, an anti-CD69 aptamer, a CD69 mRNA antagonist, and a small molecule pharmaceutical.

Abstract: There is provided a state-monitory system of a moving apparatus which is capable of deducing an abnormality and cause of breakdown of the moving apparatus by Equationematical analysis only by measuring vibration of a casing or object to be monitored and which requires no large-scaled apparatus. An equivalent model of the moving apparatus 1 is formed, which is adapted to replace the vibration of a monitored object of the moving apparatus 1 with the vibration of a viscoelastic member such as an elastic spring etc. and which is adapted to be capable of outputting virtual vibration data having synthesized vibration equivalent to the vibration of the viscoelastic member, and the equivalent model is Equationematically analyzed, thereby estimating the abnormality and cause of breakdown of the moving apparatus 1 only by measuring vibration of the casing 8 or a monitored object.

Abstract: Provided are: a compound, a thickening/stabilizing agent including the compound, a thickened/stabilized composition including the thickening/stabilizing agent and a fluid organic substance, and a method for producing the thickened/stabilized composition, where the compound effectively thickens the fluid organic substance to a desired viscosity and effectively uniformly stabilizes the formulation of the composition containing the fluid organic substance via thickening of the fluid organic substance. The thickening/stabilizing agent according to the present invention includes a compound represented by Formula (1): (R2—HNOC)4-n—R1—(CONH—R3)n??(1) where R1 is a group resulting from removing four hydrogen atoms from the structural formula of butane; R2 and R3 are different from each other and are aliphatic hydrocarbon groups each containing 4 or more carbon atoms; and n is an integer of 1 to 3.

Abstract: An object of the present invention is to provide CAR-expressing T cells that coexpress a chimeric antigen receptor (CAR) and a T cell immune function-enhancing factor and have a high immunity-inducing effect and antitumor activity, and to provide a CAR expression vector for the preparation of the CAR-expressing T cells. A CAR expression vector comprises a nucleic acid encoding a chimeric antigen receptor (CAR) and a nucleic acid encoding a T cell immune function-enhancing factor, wherein the nucleic acid encoding an immune function-enhancing factor is a nucleic acid encoding interleukin-7 and a nucleic acid encoding CCL19, a nucleic acid encoding a dominant negative mutant of SHP-1, or a nucleic acid encoding a dominant negative mutant of SHP-2, or a CAR-expressing T cell introduced with the CAR expression vector are prepared.

Abstract: In the case of using a blocking nucleic acid to prevent non-specific hybridization of a target nucleic acid with a nucleic acid probe, further excellent efficiency of detecting the target nucleic acid is achieved. A buffer composition used in hybridization of a target nucleic acid with a nucleic acid probe, wherein the buffer composition for hybridization contains a blocking nucleic acid comprising a nucleotide sequence complementary to a region comprising at least a non-detection target nucleotide in a non-target nucleic acid, in a concentration of one or more times higher than the concentration of a nucleic acid in a nucleic acid mixture consisting of the target nucleic acid and the non-target nucleic acid.

Abstract: Disclosed is a method for producing an in vitro model for blood-brain barrier, including (a) a culturing conditionally immortalized astrocytes on one surface of a porous membrane and culturing conditionally immortalized brain pericytes on the other surface of the porous membrane, until both of the cells become a sheet; (b) culturing conditionally immortalized brain microvascular endothelial cells in a culture vessel, until the cells become a sheet; (c) peeling off the sheet of conditionally immortalized brain microvascular endothelial cells; (d) allowing the sheet of conditionally immortalized brain microvascular endothelial cells to come into contact with the sheet of conditionally immortalized brain pericytes, so that the sheets are arranged in layers; and (e) co-culturing a cell culture comprising three layers consisting of the sheet of conditionally immortalized brain microvascular endothelial cells, the sheet of conditionally immortalized brain pericytes, and the sheet of conditionally immortalized astro

Abstract: It is to provide an immunocompetent cell that expresses regulatory factors of immunocompetent cell immune function and possesses all of proliferative potential, viability, and the ability to accumulate a T cell, and an expression vector of regulatory factors of immune function for generating the immunocompetent cell. An immunocompetent cell expressing a cell surface molecule specifically recognizing a cancer antigen, interleukin 7 (IL-7), and CCL19 is generated. Preferably, the cell surface molecule specifically recognizing a cancer antigen is T cell receptor specifically recognizing the cancer antigen, and the immunocompetent cell is a T cell.

Abstract: Provided is an ion exchange membrane including an ionic vinyl alcohol polymer having a cation exchange group or an anion exchange group. The ion exchange membrane 1 includes a porous support 3 and the ionic vinyl alcohol polymer. The porous support is provided, in a thickness direction from one surface thereof, with an impregnated layer 2 at least a part of which is impregnated with the ionic vinyl alcohol polymer. The ionic vinyl alcohol polymer includes an ionic vinyl alcohol polymer having an ion exchange group selected from a cation exchange group or an anion exchange group. The ion exchange membrane has a zeta potential value (?1) at one surface and a zeta potential value (?2) at the other surface, which are represented by the formula (1). (|?1|)?|?2|)/|?1|<0.

Abstract: A compound that thickens or gels a fluid organic substance to a desired viscosity or homogeneously stabilizes a composition containing a fluid organic substance, a thickening/stabilizing agent containing the compound, a thickened/stabilized composition containing the thickening/stabilizing agent and a fluid organic substance, and a method for producing a thickened/stabilized composition. The compound is represented by the following formula (1): In the formula, R1 and R2 are different from each other and represent an aliphatic hydrocarbon group having not less than 4 carbon atoms, and n represents an integer of 1 to 3. The thickening/stabilizing agent of the present invention contains the compound.

Abstract: In order to provide a culture medium eliminating variation by lot of component concentrations, the present invention provides a culture medium, and preferably a chemical-synthetic culture medium, imparting a proliferation ability to yeast that is equivalent to or greater than that of a YPD culture medium. A culture medium is provided which includes sugars as a carbon source capable of being assimilated by yeast; amino acids as a nitrogen source; vitamins; inositol; zinc ion (Zn2+); potassium ion (K+), and magnesium ion (Mg2+), and in which inositol concentration is between 50 and 10,000 mg/L.

Abstract: The present invention addresses the problem of providing a novel therapeutic agent for keratoconjunctive disorders. As a means for solving the problem, a therapeutic agent for keratoconjunctive disorders which contains a RAR? agonist as an active ingredient is provided. The therapeutic agent exhibits an excellent ameliorating effect in a keratoconjunctive disorder model, and is therefore useful as a therapeutic agent for keratoconjunctive disorders such as corneal ulcer, corneal epithelial abrasion, keratitis, dry eye, conjunctivitis, chronic superficial keratitis, corneal erosion, persistent corneal disorders, superficial punctate keratopathy, corneal epithelial defects, conjunctival epithelial defects, keratoconjunctivitis sicca, superior limbic keratoconjunctivitis, filamentary keratoconjunctivitis, infectious keratitis, noninfectious keratitis, infectious conjunctivitis and noninfectious conjunctivitis.

Abstract: An object is to provide a thermotolerant yeast capable of assimilating xylose to produce ethanol or a mutant strain thereof and a method for producing ethanol by assimilation of xylose. There is used a yeast, Kluyveromyces marxianus strain No. 21 (accession number: NITE BP-01739), or a mutant strain thereof that has xylose assimilation ability and ethanol production ability when cultured at 30° C. under aerobic conditions using a culture medium containing xylose as a sugar source. Also performed is a method for producing ethanol, comprising culturing the yeast or the mutant strain thereof under aerobic conditions using a culture medium containing xylose as a sugar source.