Abstract: An electronic balance includes an electromagnetic unit including a yoke with a magnet disposed inside, and configured to achieve a balance with a load of a to-be-weighed object by supplying a current to a coil disposed in a magnetic field of the magnet, and a temperature sensor configured to detect a temperature of the electromagnetic unit, wherein the temperature sensor is attached to a flexible board including a sensor attaching portion to which the temperature sensor is attached and a lead wire portion configured to connect the temperature sensor to an A/D converter, a sensor accommodating recess capable of accommodating the temperature sensor is formed on a surface of the yoke, and the temperature sensor is attached to the electromagnetic unit so that the temperature sensor is accommodated in the sensor accommodating recess, and the sensor attaching portion closes the sensor accommodating recess.

Abstract: A sole includes a midsole. The midsole includes: a first support portion that is configured to support a front portion of an MP joint of a wearer's foot; and a second support portion that is configured to support a rear portion of the MP joint of the wearer's foot, the second support portion having a shape extending rearward from the first support portion in a foot length direction. The first support portion has an elastic modulus lower than an elastic modulus of the second support portion. The midsole includes a thenar region surrounded by a first portion, a second portion, a third portion, and a fourth portion. A boundary portion between the first support portion and the second support portion passes through the thenar region.

Abstract: An object of the present invention is to provide a novel method that enables determination or evaluation of the undifferentiated state of human pluripotent stem cells simply, efficiently and non-invasively. The present invention provides a method for determining or evaluating the undifferentiated state of human pluripotent stem cells, comprising a step of detecting or measuring fibronectin in a culture supernatant of human pluripotent stem cells.

Abstract: A method for analyzing a cell surface glycan is provided, the method including bringing a glycan-binding substance labeled with a nucleic acid into contact with the cell and detecting the nucleic acid labeled to the glycan-binding substance bound to the cell, in which a kind and a quantity of the nucleic acid correspond to a kind and a quantity of the cell surface glycan.

Abstract: The present invention relates to a method for analyzing a biological sample obtained from a subject, comprising analyzing components contained in a biological sample by an assay using a first molecule selected from the group consisting of a molecule binding to a sugar chain bindable with BC2LCN, a molecule binding to SerpinA3, and a molecule binding to Gal3BP, and a second molecule that is BC2LCN.

Abstract: Provided are a static eliminator capable of performing quick static elimination while having a good ion balance, an electronic balance including the static eliminator, and a static eliminating method of the static eliminator. A static eliminator is provided which is configured to eliminate static from a static eliminating object by ions generated by applying high voltages to static eliminating needles, and has a high-speed static eliminating mode configured to eliminate static from a static eliminating object at a high speed, and a relaxation static eliminating mode to be executed by a voltage application method different from that of the high-speed static eliminating mode and configured to regulate ion balances of the static eliminating object and the area around of the static eliminating object. With this configuration, a static eliminator capable of quickly eliminating static from a specimen while having a good ion balance can be provided.

Abstract: As a technique for specifically detecting cancer cells, provided is a method for detecting cancer cells, including the steps of: bringing BC2LCN lectin into contact with a test sample; and determining the presence or absence or the amount of a sugar chain having a BC2LCN lectin binding activity in the test sample, in which the test sample is a body fluid sample of a test individual.

Abstract: Provided is a highly sensitive and less expensive lectin-immobilized base material (for example, a lectin plate), such as lectin-immobilized base material having stable qualities and being able to be sufficiently washed after a target sugar chain-containing antigen binds thereto. Further provided is a method for immobilizing lectin to a base material therefor. Particularly provided are: a method whereby a lectin-peptide fusion, in which a peptide capable of adsorbing to a base material surface such as a polystyrene (PS) tag is fused with the N-terminal side or C-terminal side of lectin capable of recognizing a target sugar chain, is immobilized on the peptide side to a base material; and a lectin-immobilized base material produced by this method. By using the lectin-immobilized base material, a target sugar chain-containing antigen can be highly sensitively and evenly measured and, moreover, target sugar chain-containing cells, etc. can be separated (concentrated and harvested).

Abstract: Provided are a static eliminator capable of performing quick static elimination while having a good ion balance, an electronic balance including the static eliminator, and a static eliminating method of the static eliminator. A static eliminator is provided which is configured to eliminate static from a static eliminating object by ions generated by applying high voltages to static eliminating needles, and has a high-speed static eliminating mode configured to eliminate static from a static eliminating object at a high speed, and a relaxation static eliminating mode to be executed by a voltage application method different from that of the high-speed static eliminating mode and configured to regulate ion balances of the static eliminating object and the area around of the static eliminating object. With this configuration, a static eliminator capable of quickly eliminating static from a specimen while having a good ion balance can be provided.

Abstract: A purpose of the present invention is to provide a highly sensitive and less expensive lectin-immobilized base material (for example, a lectin plate), said lectin-immobilized base material having stable qualities and being able to be sufficiently washed after a target sugar chain-containing antigen binds thereto. Another purpose of the present invention is to provide a method for immobilizing lectin to a base material therefor. Provided are: a method whereby a lectin-peptide fusion, in which a peptide capable of adsorbing to a base material surface such as a PS tag is fused with the N-terminal side or C-terminal side of lectin capable of recognizing a target sugar chain, is immobilized on the peptide side to a base material; and a lectin-immobilized base material produced by this method. By using the lectin-immobilized base material, a target sugar chain-containing antigen can be highly sensitively and evenly measured and, moreover, target sugar chain-containing cells, etc.

Abstract: Provided is a method for detecting a stem cell based on an undifferentiated sugar chain marker having a specific sugar chain structure, wherein the stem cell is detected by detecting podocalyxin contained in a culture supernatant or a lysate of cells by a “lectin-antibody sandwich method” using a combination of a lectin and an antibody and having high sensitivity, the method including steps of: contacting the culture supernatant or the lysate, a lectin capable of binding to a sugar chain represented by (Formula 1) or (Formula 2), and an antibody capable of binding to keratan sulfate to form a complex composed of the lectin, podocalyxin and the antibody; and detecting the complex. wherein R1 represents an OH group or any sugar chain and R2 represents an OH group or any sugar chain, protein, lipid, or another molecule. wherein R1 represents an OH group or any sugar chain and R2 represents an OH group or any sugar chain, protein, lipid, or another molecule.

Abstract: A Wisteria floribunda monomeric lectin polypeptide is provided. The Wisteria floribunda monomeric lectin polypeptide includes any one of the amino acid sequences selected from the group consisting of: (1) the amino acid sequence represented by SEQ ID NO: 2; (2) the amino acid sequence defined in (1) above, except that one to 20 amino acids at positions other than Cys272 position is/are deleted, substituted, inserted, or added; and (3) the amino acid sequence defined in (1) or (2) above, further having an N-terminus deletion of one to 30 amino acids, in which Cys272 is alkylated, and the polypeptide is capable of specifically binding to a GalNAc terminal sugar chain.

Abstract: As a technique for specifically detecting cancer cells, provided is a method for detecting cancer cells, including the steps of: bringing BC2LCN lectin into contact with a test sample; and determining the presence or absence or the amount of a sugar chain having a BC2LCN lectin binding activity in the test sample, in which the test sample is a body fluid sample of a test individual.

Abstract: A Wisteria floribunda monomeric lectin polypeptide is provided. The Wisteria floribunda monomeric lectin polypeptide includes any one of the amino acid sequences selected from the group consisting of: (1) the amino acid sequence represented by SEQ ID NO: 2; (2) the amino acid sequence defined in (1) above, except that one to 20 amino acids at positions other than Cys272 position is/are deleted, substituted, inserted, or added; and (3) the amino acid sequence defined in (1) or (2) above, further having an N-terminus deletion of one to 30 amino acids, in which Cys272 is alkylated, and the polypeptide is capable of specifically binding to a GalNAc terminal sugar chain.

Abstract: An object of the present invention is to provide a method for introducing a target substance into undifferentiated cells, and a carrier therefor, whereby the target substance can be specifically introduced into the undifferentiated cells by contacting the undifferentiated cells with an rBC2LCN-target substance fusion product in which rBC2LCN lectin is fused to the target substance. Particularly, an rBC2LCN-toxin fusion product in which rBC2LCN lectin is fused to a toxin functioning in cells or its domain having the ability to kill cells functions as an agent for eliminating undifferentiated stem cells and can be administered into a medium after inducing the differentiation of the stem cells to reliably kill only the stem cells in an undifferentiated state.

Abstract: Provided is a method for detecting a stem cell based on an undifferentiated sugar chain marker having a specific sugar chain structure, wherein the stem cell is detected by detecting podocalyxin contained in a culture supernatant or a lysate of cells by a “lectin-antibody sandwich method” using a combination of a lectin and an antibody and having high sensitivity, the method including steps of: contacting the culture supernatant or the lysate, a lectin capable of binding to a sugar chain represented by (Formula 1) or (Formula 2), and an antibody capable of binding to keratan sulfate to form a complex composed of the lectin, podocalyxin and the antibody; and detecting the complex. wherein R1 represents an OH group or any sugar chain and R2 represents an OH group or any sugar chain, protein, lipid, or another molecule. wherein R1 represents an OH group or any sugar chain and R2 represents an OH group or any sugar chain, protein, lipid, or another molecule.

Abstract: [Problem] The purpose of the present invention is to stably supply high-quality and highly uniform Wisteria floribunda agglutinin (WFA) that recognizes biologically important sugar-chain markers, to elucidate the sugar-chain recognition activity in detail, and to furthermore increase the specificity of the sugar-chain recognition activity. [Solution] The present invention involves the development of a technique for cloning genes for coding Wisteria floribunda agglutinin (WFA) and producing recombinant WFA having the same sugar-chain recognition activity as natural WFA from transformed bacteria. Natural WFA is reduced to thereby manufacture a reduced WFA monomer for specifically recognizing terminal GalNAc residue. A recombinant monomer WFA for recognizing LDN (GalNAc?1, 4GlcNAc) sugar chain, which is important as a diagnostic marker among sugar chains having a terminal GalNAc residue, is manufactured by introducing cysteine mutation to recombinant WFA or by C-terminal-side amino acid deletion.

Abstract: An object of the present invention is to provide a method for evaluating a differentiation status of cells using a culture supernatant of stem cells. Provided is “undifferentiation sugar chain marker” composed of the sugar chain structure “Fuc?1-2Gal?1-3GlcNAc” or “Fuc?1-2Gal?1-3GalNAc” and capable of sensitively determining the undifferentiated state of stem cells using a culture supernatant of stem cells. Also found is BC2LCN lectin or a modified product thereof capable of sensitively recognizing the “undifferentiation sugar chain marker” as excellent “probe for detecting the undifferentiation sugar chain marker” capable of determining the undifferentiation status of cells using a culture supernatant.

Abstract: Provided are a method for accurately evaluating the differentiation status of stem cells by selectively staining only stem cells in an undifferentiated state, and a method for positively isolating only stem cells in an undifferentiated state. Specifically provided is a method for determining differentiation of a cell comprising a step of contacting a test cell with a probe comprising protein (A) or (B) below and a step of detecting the presence of binding of the probe to the test cell. The method for determining differentiation of a cell is capable of detecting the presence or absence of an undifferentiated stem cell in test cells by using a probe that specifically reacts with undifferentiated stem cells and detecting the presence of bonding to the test cell.