TEST DIRECTORY

(Various) band
Culture lymphocytes or bone marrow cells, and fix metaphase cells. This method then involves staining the chromosomes with a dye to create striped patterns (bands), and analyzing the distribution and density of the bands.
G-Banding, Giemsa staining after treatment with trypsin solution; C-Banding, Giemsa staining after treatment with HCI, Ba(OH)2, 2×SCC; Q, staining with quinacrine mustard and observation with a fluorescence microscope. -Banding, a high-precision differential staining method that uses mitotic images from the end of prophase to the beginning of metaphase to increase the number of bands than usual.

(Various) band
Culture lymphocytes or bone marrow cells, and fix metaphase cells. This method then involves staining the chromosomes with a dye to create striped patterns (bands), and analyzing the distribution and density of the bands.
G-Banding, Giemsa staining after treatment with trypsin solution; C-Banding, Giemsa staining after treatment with HCI, Ba(OH)2, 2×SCC; Q, staining with quinacrine mustard and observation with a fluorescence microscope. -Banding, a high-precision differential staining method that uses mitotic images from the end of prophase to the beginning of metaphase to increase the number of bands than usual.

(Various) band
Culture lymphocytes or bone marrow cells, and fix metaphase cells. This method then involves staining the chromosomes with a dye to create striped patterns (bands), and analyzing the distribution and density of the bands.
G-Banding, Giemsa staining after treatment with trypsin solution; C-Banding, Giemsa staining after treatment with HCI, Ba(OH)2, 2×SCC; Q, staining with quinacrine mustard and observation with a fluorescence microscope. -Banding, a high-precision differential staining method that uses mitotic images from the end of prophase to the beginning of metaphase to increase the number of bands than usual.

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

(Various) band
Culture lymphocytes or bone marrow cells, and fix metaphase cells. This method then involves staining the chromosomes with a dye to create striped patterns (bands), and analyzing the distribution and density of the bands.
G-Banding, Giemsa staining after treatment with trypsin solution; C-Banding, Giemsa staining after treatment with HCI, Ba(OH)2, 2×SCC; Q, staining with quinacrine mustard and observation with a fluorescence microscope. -Banding, a high-precision differential staining method that uses mitotic images from the end of prophase to the beginning of metaphase to increase the number of bands than usual.

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

Array CGH method
The principle of comparative genomic hybridization (CGH), which detects copy number changes (CNV) such as amplifications and deletions that occur in the genome by comparing fluorescently labeled sample-derived DNA and normal cell-derived DNA. This method is a combination of microarray technology.

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .

FISH (Fluorescence in situ hybridization)
Fluorescence in situ hybridization
Hybridizes with the target DNA using a probe labeled with a fluorescent dye, and uses the fluorescent site that develops at a specific wavelength as a signal on the chromosome. How to detect under fluorescence microscope.
There is a direct method in which a probe labeled with a fluorescent dye is directly bound to the target DNA, and an indirect method in which the probe labeled with a labeling substance is bound to the target DNA, and then the labeled probe and fluorescent substance are bound to develop color. .