CHROMOSOME PAINTING ANALYSIS OF X-RAY-INDUCED ABERRATIONS IN HUMAN-LYMPHOCYTES IN-VITRO

被引:38
作者
MATSUOKA, A [1 ]
TUCKER, JD [1 ]
HAYASHI, M [1 ]
YAMAZAKI, N [1 ]
SOFUNI, T [1 ]
机构
[1] LAWRENCE LIVERMORE NATL LAB,BIOL & BIOTECHNOL RES PROGRAM,LIVERMORE,CA 94551
来源
MUTAGENESIS | 1994年 / 9卷 / 02期
关键词
D O I
10.1093/mutage/9.2.151
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
Chromosomal rearrangements in human lymphocytes induced by X-rays (0, 0.5, 1.0 and 2.0 Gray) were analyzed using chromosome painting. DNA probes for human chromosomes 1, 3 or 4 alone, and a combination of 1 and 4, were used for analysis. The frequency of cells with rearrangements, i.e. reciprocal translocations, dicentrics, insertions, tricentrics and fragments, involving chromosome 4 increased with dose in both 48 and 72 h cultures. The number of translocations per cell also increased with dose at 48 and 72 h. Dicentrics increased with dose in 48 h but not in 72 h cultures. The estimated genomic frequency of aberrations per cell was comparable with results in banded cells. No difference was shown on the detection efficiency of chromosome rearrangements among the various DNA probes used. Since this technique does not necessarily require well-spread metaphases for analysis, it is possible to increase the number of analyzable metaphases compared with the banding technique. Chromosome painting is a simpler, more objective and more practical method for detecting chromosome rearrangements than conventional banding analyses.
引用
收藏
页码:151 / 155
页数:5
相关论文
共 16 条
[1]   DISTRIBUTION OF RADIATION-INDUCED LESIONS IN HUMAN-CHROMOSOMES AND DOSE-EFFECT RELATION ANALYZED WITH G-BANDING [J].
BAUCHINGER, M ;
GOTZ, G .
RADIATION AND ENVIRONMENTAL BIOPHYSICS, 1979, 16 (04) :355-366
[2]   RADIATION-INDUCED NON-RANDOM CHROMOSOME BREAKAGE [J].
CASPERSSON, T ;
HAGLUND, U ;
LINDELL, B ;
ZECH, L .
EXPERIMENTAL CELL RESEARCH, 1972, 75 (02) :541-543
[3]   MULTIPLE COLORS BY FLUORESCENCE INSITU HYBRIDIZATION USING RATIO-LABELED DNA PROBES CREATE A MOLECULAR KARYOTYPE [J].
DAUWERSE, JG ;
WIEGANT, J ;
RAAP, AK ;
BREUNING, MH ;
VANOMMEN, GJB .
HUMAN MOLECULAR GENETICS, 1992, 1 (08) :593-598
[4]   X-RAY-INDUCED RECIPROCAL TRANSLOCATIONS AND DICENTRICS IN HUMAN-G0 LYMPHOCYTES [J].
HANSMANN, I ;
MEYDING, U ;
VIRSIK, RP .
INTERNATIONAL JOURNAL OF RADIATION BIOLOGY, 1983, 43 (01) :91-93
[5]   A SIMPLE METHOD OF REDUCING THE FADING OF IMMUNOFLUORESCENCE DURING MICROSCOPY [J].
JOHNSON, GD ;
ARAUJO, GMDN .
JOURNAL OF IMMUNOLOGICAL METHODS, 1981, 43 (03) :349-350
[6]   RAPID HUMAN-CHROMOSOME ABERRATION ANALYSIS USING FLUORESCENCE INSITU HYBRIDIZATION [J].
LUCAS, JN ;
TENJIN, T ;
STRAUME, T ;
PINKEL, D ;
MOORE, D ;
LITT, M ;
GRAY, JW .
INTERNATIONAL JOURNAL OF RADIATION BIOLOGY, 1989, 56 (01) :35-44
[7]   RAPID TRANSLOCATION FREQUENCY-ANALYSIS IN HUMANS DECADES AFTER EXPOSURE TO IONIZING-RADIATION [J].
LUCAS, JN ;
AWA, A ;
STRAUME, T ;
POGGENSEE, M ;
KODAMA, Y ;
NAKANO, M ;
OHTAKI, K ;
WEIER, HU ;
PINKEL, D ;
GRAY, J ;
LITTLEFIELD, G .
INTERNATIONAL JOURNAL OF RADIATION BIOLOGY, 1992, 62 (01) :53-63
[8]   CORRECTION [J].
LUCAS, JN .
INTERNATIONAL JOURNAL OF RADIATION BIOLOGY, 1989, 56 (02) :201-201
[9]   DNA CONTENT AND DNA BASED CENTROMERIC INDEX OF 24 HUMAN CHROMOSOMES [J].
MENDELSOHN, ML ;
MAYALL, BH ;
BOGART, E ;
MOORE, DH ;
PERRY, BH .
SCIENCE, 1973, 179 (4078) :1126-1129
[10]   FREQUENCY OF RECIPROCAL TRANSLOCATIONS AND DICENTRICS INDUCED IN HUMAN BLOOD-LYMPHOCYTES BY X-IRRADIATION AS DETERMINED BY FLUORESCENCE IN-SITU HYBRIDIZATION [J].
NAKANO, M ;
NAKASHIMA, E ;
PAWEL, DJ ;
KODAMA, Y ;
AWA, A .
INTERNATIONAL JOURNAL OF RADIATION BIOLOGY, 1993, 64 (05) :565-569
12