Ay Vanderveen

Assignment of the gene coding for human cytochrome c oxidase subunit VIb to chromosome 19, band q13.1, by fluorescence in situ hybridisation.

SummaryA cloned, 40 kb, genomic DNA fragment, containing the last exon of the gene for human cytochrome c oxidase subunit VIb and its flanking sequences, was used as a probe to localize the subunit VIb gene on human metaphase chromosomes. The probe was labelled with Bio-11-dUTP and detected by fluorescence. Subsequent R-banding indicated that the cytochrome c oxidase subunit VIb gene is localized in band 19q13.1, extending the evidence that the human nuclear genes of cytochrome c oxidase are not clustered.

Effects on chromosomal proteins in sister chromatid differentiation by incorporation of 5-bromodeoxyuridine into DNA.

Abstract When fixed metaphase chromosomes of human lymphocytes grown in the presence of BrdUr for two cell cycles were stained with amino group-specific 2-methoxy-2,4-diphenyl-3(2H)furanone (MDPF) after a previous extraction of DNA, sister chromatids showed a light-independent differential staining. Although more faintly differential, a similar staining pattern being just the reverse of the DNA-specific DAPI pattern was obtained without prior removal of DNA. We conclude that the chromatid containing bifilarly BrdUr-substituted DNA has a higher protein content, at least after fixation, than the chromatid containing unifilarly BrdUr-substituted DNA. Possibly, a higher degree of BrdUr substitution leads to a tighter binding of chromosomal proteins. In line with this suggestion we found a markable difference in DNA extractability of BrdUr-containing and normal cytological preparations.

BANDING OF UNFIXED MITOTIC CHROMOSOMES IN SUSPENSION AFTER RELEASE FROM HUMAN-LYMPHOCYTES AND FIBROBLASTS

SummaryCombined application during chromosome isolation of the non- or weakly fluorescent DNA-intercalators 4′-aminomethyl-4,5′, 8-trimethylpsoralen and daunomycin as stabilizers of mitotic chromosome structure, and the non-intercalating DNA-binding fluorochromes DAPI and D287/170 as producers of a visible banding pattern, resulted in clearly banded unfixed floating chromosomes. Chromosomes stabilized by intercalation appeared to be sufficiently stable to allow the reproduction of distamycin A/DAPI or netropsin/DAPI staining in suspension, thus highlighting specific heterochromatic regions on the floating chromosomes. The results of this study demonstrate that the inducibility of bands is an inherent characteristic of mitotic chromosome organization. Possible practical applications of these results in flow cytometry are discussed.

DIFFERENT EFFECTS OF 33258 HOECHST AND DAPI IN FLUORESCENT STAINING OF SISTER CHROMATIDS DIFFERENTIALLY SUBSTITUTED WITH BROMODEOXYURIDINE

SummaryAfter substitution with 5-bromodeoxyuridine (BrdUrd) for two rounds of replication, chromosomes in cytological preparations stained with 33258 Hoechst show upon epiluminescence an immediate differential sister chromatid fluorescence. When stained with DAPI, however, which has a structural resemblance to part of the 33258 Hoechst molecule, such a differential pattern of fluorescence was only induced after some delay. Upon restaining with the same dye the differential fluorescence appeared instantly. In preparations double stained with ethidium bromide and 33258 Hoechst the induction of a differential staining of sister chromatids with 33258 Hoechst was not accompanied by a differential staining with ethidium bromide. Once a differential staining was obtained with DAPI in preparations double stained with ethidium bromide and DAPI, the ethidium bromide pattern also appeared to be differential upon subsequent observation. No differentiation could be obtained with ethidium bromide alone. The observations described in the case of 33258 Hoechst staining are in agreement with a molecular quenching by BrdUrd without gross structural consequences for the DNA. In the case of DAPI staining, however, there occurs a differential photolysis of BrdUrd-substituted DNA. Besides the nature, most likely the size, of the fluorochrome molecules themselves, the state of the fixed chromatin appeared also to play a role in determining the mechanism of the sister chromatid differentiation: after prolonged incubation in buffer, BrdUrd-containing chromosomes stained with 33258 Hoechst showed a differential staining evidently caused by photolysis, indicating that they had become more susceptible to light.

Physical localisation of the chromosomal marker D13S31 places the Wilson disease locus at the junction of bands q14.3 and q21.1 of chromosome 13.

D13S31 is the marker closest to the Wilson disease locus according to genetic analysis. Its physical localisation was refined by fluorescent in situ hybridisation to the junction to chromosomal bands 13q14.3 and 13q21.1. Using polymerase chain reaction analysis, D13S31 and D13S59 (the closest proximal and distal marker, respectively) were found to be located on the end of the der(13) consisting of 13pter-13q14.3: in the somatic cell hybrid ICD, and to be absent from the cell lines WC-H38B3B6 containing a del(13) (13pter-q13::13q21.1-qter) and KSF39 containing a del(13) (13pter-q14.1:).

Localization at a subband level of polymorphic 13q14 DNA probes for diagnosis of hereditary retinoblastoma and Wilson disease

SummaryTwo single-copy DNA sequences, pG24E6.8 (D13S21) detecting a low-frequency MspI RFLP and pG14E1.9 (D13S22) detecting a high-frequency DraI RFLP, have been isolated and cloned from a human chromosome 13-specific phage library and localized at 13q14. Their subband localization was described using a panel of cell lines from patients with different chromosome 13 deletions. A quantitative analysis of hybridization signals was carried out, taking for reference a single-copy DNA sequence from another chromosome. D13S21 and D13S22 were both assigned to q14.1-14.2, which also harbors the genes responsible for retinoblastoma and Wilson disease. The DraI polymorphism detected by pG14E1.9 is a very suitable one for linkage studies in families with either disease.

ORDERING OF MARKERS IN THE PERICENTROMERIC REGION OF CHROMOSOME-10

Seven polymorphic cosmids previously assigned to 10cen-q11.2 were mapped between D10S34 and RBP3, and ordered by interphase in situ hybridization and yeast artificial chromosome analysis. Some of the presumed unique sequences from the centromeric region have homologies either within the same region or within the centromeric region of other chromosomes.