摘要:
To provide a simple and low-invasive method for obtaining information on a biorhythm of an individual organism. Provided is a method for obtaining information on a biorhythm of an individual organism based on variations over time in an expression level of a clock gene in a hair follicle cell of the individual organism. According to this method, a phase shift of the biorhythm of the individual organism can be detected by preparing a plurality of times about the individual organism and conducting a collation. Further, a phase shift of the biorhythm of the individual organism can also be detected by collating an expression level of the clock gene at a predetermined time with the molecular clock table.
摘要:
Disclosed herein is a method for extracting a biosubstance from a root of a hair, including the step of using as the hair a hair that has pulling force of at least a predetermined reference value to pull out the hair.
摘要:
Disclosed herein is a method for extracting a biosubstance from a root of a hair, including the step of using as the hair a hair that has pulling force of at least a predetermined reference value to pull out the hair.
摘要:
Disclosed herein is a method for extracting a biosubstance from a root of a hair, including the step of using as the hair a hair that has pulling force of at least a predetermined reference value to pull out the hair.
摘要:
Disclosed herein is a method for extracting a biosubstance from a root of a hair, including the step of using as the hair a hair that has pulling force of at least a predetermined reference value to pull out the hair.
摘要:
A bead set is composed of plural subsets of beads. The beads in each subset are each provided with a surface permitting immobilization thereon of a substance that takes part in a predetermined corresponding reaction or interaction. The individual beads in the beat set are provided with different physical elements, respectively, such that the individual beads in the bead can be distinguished into the plural subsets through an analysis of captured images of the individual beads in the bead set by a computer.
摘要:
Disclosed herein is a nucleic acid amplifier for carrying out a nucleic acid amplification reaction, the amplifier including at least: a plurality of wells configured to carry out the nucleic acid amplification reaction; a heating unit provided for every well; optical means capable of irradiating excitation light of a specified wavelength to all of the wells; and a fluorescence detection unit provided for every well.
摘要:
A nucleic acid amplifier for carrying out a nucleic acid amplification reaction is disclosed. The amplifier includes a plurality of wells configured to carry out the nucleic acid amplification reaction. The amplifier also include a heating unit provided for every well. The amplifier further includes a light source for irradiating excitation light of a specified wavelength to all of the wells. A fluorescence detection unit is provided for every well.
摘要:
A primer evaluation method includes: acquiring a signal indicating time change in an amplification amount obtained when sample sets prepared for the number of temperature conditions that should be made different from each other at an annealing stage in units of target nucleic acids diluted in a stepwise manner are so amplified that a temperature condition at a stage other than the annealing stage is fixed; acquiring a signal indicating initial amounts of the target nucleic acids diluted in a stepwise manner; obtaining amplification efficiency for each of the temperature conditions based on the time change in the amplification amount and the initial amount, and calculating a variation degree of the amplification efficiency; and submitting the variation degree and a reference value for quality evaluation of a primer, set with respect to the variation degree.
摘要:
A micro channel for recovering nucleic acid from a biological sample treated with a chaotropic ion, include an integrated portion composed of silica micro beads having a pore size of from 6 to 29 nm is formed in the channel.