Chromosome Analysis in Clinical Samples by Chromosome Diagnostic System Using Fluorescence in Situ Hybridization.
- Author:
Shin Yong MOON
;
Myung Geol PANG
;
Sun Kyung OH
;
Buom Yong RYU
;
Doyeong HWANG
;
Byeong Jun JUNG
;
Jin CHOE
;
Cherl SOHN
;
Jun Keun CHANG
;
Jong Won KIM
;
Seok Hyun KIM
;
Young Min CHOI
- Publication Type:Original Article
- MeSH:
Blastomeres;
Chromosome Aberrations;
DNA Probes;
Fluorescence*;
Germ Cells;
Humans;
In Situ Hybridization*;
Interphase;
Lymphocytes;
Metaphase;
Spermatozoa
- From:Korean Journal of Fertility and Sterility
1997;24(3):335-340
- CountryRepublic of Korea
- Language:Korean
-
Abstract:
Fluorescence in situ hybridization (FISH) techniques allow the enumeration of chromosome abnormalities and from a great potential for many clinical applications. In order to produce quantitative and reproducible results, expensive tools such as a cooled CCD camera and a computer software are required. We have developed a Chromosome Image Processing System (Chips) using FISH that allows the detection and mapping of the genetic aberrations. The aim of our study, therefore, is to evaluate the capabilities of our original system using a black-and-white video camera. As a model system, three repetitive DNA probes (D18Zl, DXZI, and DYZ3) were hybridized to variety different clinical samples such as human metaphase spreads and interphase nuclei obtained from uncultured peripheral blood lymphocytes, uncultured amniocytes, and germ cells. The visualization of the FISH signals was performed using our system for image acquisition and pseudocoloring. FISH images were obtained by combining images from each of probes and DAPI counterstain captured separately. Using our original system, the aberrations of single or multiple chromosomes in a single hybridization experiment using chromosomes and interphase nuclei from a variety of cell types, including lymphocytes, amniocytes, sperm, and biopsied blastomeres, were enabled to evaluate. There were no differences in the image quality in accordance with FISH method, fluorochrome types, or different clinical samples. Always bright signals were detected using our system. Our system also yielded constant results. Our Chips would permit a level of performance of FISH analysis on metaphase chromosomes and interphase nuclei with unparalleled capabilities. Thus, it would be useful for clinical purposes.
