A populational survey of 45S rDNA polymorphism in the Jefferson salamander Ambystoma jeffersonianum revealed by fluorescence in situ hybridization （FISH）

The chromosomal localization of 45S ribosomal RNA genes in Ambystoma jeffersonianum was determined by fluorescence in situ hybridization with 18S rDNA fragment as a probe (FISH-rDNA). Our results revealed the presence of rDNA polymorphism among A.jeffersonianum populations in terms of number, location and FISH signal intensity on the chromosomes. Nine rDNA cytotypes were found in ten geographically isolated populations and most of them contained derivative rDNA sites. Our preliminary study provides strong indication of karyotypic diversification of A.jeffersonianum that is demonstrated by intraspecific variation of 45S rDNA cytotypes. rDNA cytotype polymorphism has been described in many other caudate amphibians. We predict that habitat isolation, low dispersal ability and decline of effective population size could facilitate the fixation and accumulation of variable rDNA cytotypes during their chromosome evolution [Current Zoology 55(2):145-149,2009].     

Assignment of human β-galactosidase-A gene to 3p21.33 by fluorescence in situ hybridization

GM₁ gangliosidosis and Morquio syndrome type B (MPS IVB) are inherited lyosomal storage disorders associated with deficiency of -galactosidase-A (GAL_A) activity. A recombinant plasmid containing a biotinylated cDNA (2.4-kb insert) encoding human GAL_A was used to localize the enzyme locus by fluorescence in situ hybridization (FISH). The human GAL_A gene was assigned to 3p21.33 by FISH.     

Chromosomal localization of 5S and 18S–5.8S–25S ribosomal DNA sites in five Asian pines using fluorescence in situ hybridization

Fluorescence in situ hybridization (FISH) was employed on mitotic metaphase chromosome preparations of five Asian Pinus species: Pinus tabuliformis, Pinus yunnanensis, Pinus densata, Pinus massoniana and Pinus merkusii, using simultaneously DNA probes of the 18S rRNA gene and the 5S rRNA gene including the non-transcribed spacer sequences. The number and location of 18S rDNA sites varied markedly (5-10 pairs of strong signals) among the five pines. A maximum of 20 major 18S rDNA sites was observed in the diploid genome (2n = 24) of P. massoniana. The 5S rDNA FISH pattern was less variable, with one major site and one minor site commonly observed in each species. The differentiation of rDNA sites on chromosomes among the five pines correlates well with their phylogenic positions in Pinus as reconstructed from other molecular data. P. densata, a species of hybrid origin, resembles its parents ( P. tabuliformis and P. yunnanensis), including some components characteristic of each parent in its pattern. However, the species is unique, showing new features resulting possibly from recombination and genome reorganization.     

Characterization of Japanese flounder karyotype by chromosome bandings and fluorescence in situ hybridization with DNA markers

The chromosomes of Japanese flounder, Paralichthys olivaceus, were examined by conventional differential staining methods including G-, Q-, C-, silver (Ag)-, fluorochrome, and replication R-bandings and by fluorescence in situ hybridization (FISH) with 5S and 18S rDNAs and telomeric DNA as probes. Replication R-banding substantially made it possible to identify 24 homologous pairs by their RBG-banding pattern and relative length. Both rDNA loci were mapped to chromosome 1, where 5S and 18S rDNA loci were located at the centromeric region and secondary constriction, respectively. C-banding revealed that both rDNA loci were heterochromatic, and 18S rDNA loci were positive for chromomycin A₃ but negative for 4′,6-diamidino-2-phenylindole (DAPI) staining. Telomeric FISH signals were observed at all chromosome ends and at the interstitial region of some chromosomes. The observed results were discussed in relation to the karyotype evolution in the order Pleuronectiformes.     

Localization of luteinizing hormone β-mRNA by in situ hybridization in the sheep pars tuberalis

Summary The localization of luteinizing hormone beta (LH)-mRNA was studied by in situ hybridization in the pars tuberalis of sheep using a homologous sheep double-stranded ³²P-or ³⁵S-cDNA. The labelled cDNA probe detected one mRNA sequence in the pars tuberalis by Northern blot analysis; this sequence was similar to that detected in the pituitary. In situ, the labelling of LH-mRNA in the horizontal and sagittal tissue sections was found throughout the pars tuberalis. This labelling was prevented by adding an excess of cold probe or treating the sections by ribonuclease before in situ hybridization. Controls showed a labelling in the pars distalis, but not in the median eminence, hypothalamus, cerebral cortex and liver sections. Double labelling by using a specific LH-antiserum indicated that the labelling of LH-mRNA appeared more intense in LH-containing cells that were found only in the ventral part of the pars tuberalis. These results suggest that the entire pars tuberalis is able to produce the LH subunit, but that the level of translation greatly varies according to the location of the cells.     

Regional mapping of the human gene for lysosomal α-glucosidase by in situ hybridization

Summary The current approach to the chromosomal localization of genes coding for lysosomal enzymes has been the correlation of enzymatic and karyotypic analyses of human-rodent somatic cell hybrids. The feasibility of regional mapping depends on the availability of human cells with informative chromosomal rearrangements. In this communication we report the first localization of a gene coding for a lysosomal enzyme by in situ hybridization. The application of an acid -glucosidase cDNA probe to normal human chromosomes allowed direct regional mapping of the -glucosidase locus (GAA) to the region q23q25 of chromosome 17.     

Interchromosomal effects for chromosome 21 in carriers of structural chromosome reorganizations determined by fluorescence in situ hybridization on sperm nuclei

We have used dual color fluorescence in situ hybridization (FISH) on decondensed sperm heads from four carriers of structural chromosome reorganizations, viz. t(3;15), t(Y;7), t(13;22) and inv(9), to assess the possible existence of an interchromosomal effect (ICE) on the segregation of chromosome 21. In the carriers of t(Y;7), t(13;22) and inv(9), all results were within the limits described in controls. A highly significant increase (P<0.0001) of disomy 21 (1.90% v 0.37%), which could be considered as a positive ICE, was observed in the t(3;15) carrier. Significantly higher percentages (P<0.0001) of diploid sperm (5.71% v. 0.27%) were also observed in this patient. Our results suggests that the occurrence of an ICE may depend on the reorganization and on the chromosome and chromosome regions involved, resulting in a particular meiotic behaviour (presence of unsynapsed regions, preferential meiotic configurations) that could lead to the observed increase in chromosome 21 disomies. Further studies with this technical approach in a wide range of structural reorganizations could help to elucidate the actual occurrence of ICEs.     

High-resolution mapping of YACs and the single-copy gene Hs1pro−1 on Beta vulgaris chromosomes by multi-colour fluorescence in situ hybridization

Fluorescence in situ hybridization (FISH) is a powerful approach for physical mapping of DNA sequences along plant chromosomes. Nematode-resistant sugar beets (Beta vulgaris) carrying aBeta procumbens translocation were investigated by FISH with two differentially labelled YACs originating from the translocation. At mitotic metaphases, the translocation was identified with both YACs in the terminal region on a pair of chromosomes. Meiotic chromosomes, representing a far more extended hybridization target, were used to determine the orientation of YACs with respect to chromosomal domains in combination with chromosomal landmark probes for telomeres and centromeres. The in situ detection of plant single-copy sequences is technically difficult, and the wild beet translocation was used to explore the potential resolution of the FISH approach and to introduce the chromosomal mapping of single-copy genes into genome analysis of Beta species. An internal fragment of the nematode resistance gene Hs1 ^pro–1, 684 bp long, was detected on both chromatids of different Beta chromosomes and represents one of the shortest unique DNA sequences localized on mitotic plant chromosomes so far. Comparative chromosomal mapping of the 684 bp Hs1 ^pro–1 probe in the translocation line, a monosomic addition line and in B. procumbens revealed the origin of the wild beet translocation leading to nematode-resistant sugar beets.     

Analysis of a whole arm translocation between chromosomes 18 and 20 using fluorescence in situ hybridization: detection of a break in the centromeric α-satellite sequences

Using classical cytogenetic techniques, we detected a male patient with monosomy 18p/trisomy 20p, originating from a paternal reciprocal translocation of the short arms of chromosomes 18 and 20. To characterize the breakpoints further and to determine the centromeric origin of the chromosomes involved, we analyzed the metaphase chromosomes by fluorescence in situ hybridization using -satellite DNA probes specific to chromosomes 18 and 20. With this approach, we showed that -satellite centromeric fragments were involved in the translocation event and that the chromosome-18-specific centromeric sequences were split into two. Analysis of 14 family members from four generations revealed nine phenotypically normal individuals carrying this reciprocal translocation. These results suggest that breaks in -satellite DNA fragments neither impair the centromeric function nor have clinical effects.     

Chromosomal Distribution of the 18S-5.8S-26S rDNA Loci and Heterogeneity of Nuclear ITS Regions in Thinopyrum intermedium （Poaceae： Triticeae）

Fluorescent in situ hybridization (FISH) was used to investigate the chromosomal location of 18S-5.8S-26S rDNA loci in Thinopyrum intermedium (Host) Barkworth et Dewey (2n=6x=42). In all accessions and individuals studied, 3 or 4 pairs of major loci were detected. Subsequent genomic in situhybddization (GISH) analyses revealed that one pair was located on the ends of the short arms of one pair of homologous chromosomes of the St genome, while the other 2 or 3 pairs of major loci were located in the E genomes (including the E^o and E^b). It is suggested that 2 to 3 pairs of major loci were probably lost during the evolution of this hexaploid species. The variation in rDNA positions and copy numbers between the diploid donors and Th. interrnedium, as well as the diversity among the accessions of Th. intermedium confirmed that the rDNA gene family conveyed the characters of DNA mobile elements. The internal transcribed spacer (ITS) regions of the rDNA in Th. intermedium were also investigated. Sequence data of seven positive clones from one individual suggested high degree of individual heterogeneity exists among ITS repeats. Phylogenetic analyses showed that there were two distinct types of ITS sequences in Th. intermedium, one with homology to that of Pseudoroegneria species (St genome) and the other to that of the E genome diploid species. This showed that the ITS paralogues in Th. intermedium have not been uniformly homogenized by concerted evolution. The limitation of using the chromosomal location of rDNA loci for phylogenetic analysis is discussed.     

Use of the STR loci D18S53, D18S59, and D18S488 in the diagnosis of Edwards’ syndrome

The aim of this study was to investigate the feasibility of using short tandem repeats (STRs) to diagnose Edwards’ syndrome (ES). Quantitative fluorescence polymerase chain reaction (QF-PCR) was performed to amplify STR loci on chromosome 18, specifically D18S53, D18S59, and D18S488. The amplified products were subjected to a fluorescence signal analysis and their application to ES diagnosis was examined. Among the 807 cases that showed normal results in the karyotype analysis, 793 showed one or two fluorescence bands with a fluorescence intensity ratio of 1:1, and 14 cases showed 3 bands, which were false-positive results. ES was diagnosed in 9 samples. The sensitivities of D18S53, D18S59, and D18S488 for the diagnosis of ES were 77.78, 44.44, and 55.56 % and the specificities were 96.16, 96.03, and 96.28 %, respectively. The combined sensitivity of the three loci for diagnosing DS was 100 % (9/9), with a specificity of 98.27 % (793/807). QF-PCR amplification of STR loci had high sensitivity, strong specificity, and was simple and rapid. Thus, it might have wide clinical applications, and could be an ideal tool for large-scale genetic and prenatal diagnosis of ES.     

Variation of wheatgrass chromosomes in wheat-wheatgrass alien addition line “TAI-27” revealed by fluorescencein situ hybridization (FISH)

The Karyotyp of the primary wheat-whastgrass alien addition line TAI-27 was 2n = 44 in which all d the chromosomes were metacentric and subrmetacentric. However, in the progeny of TAI-27 a pair of chromosomes had become small chromosomea in the two morphologically different plants. Fluorescence in situ hybridizstionm (FISH) technique was used to analyze the two different plants. The observations indicate that a pair of small chromosomes in one varietion line are from wheatgrass. In another variation line, a pair of small chromosomes are also from whest-grass, while another pair of wheatgrass chromosomes have substituted the wheat chromosomes. TAI-27 and its variant lines showed a high level of resistance to barley yellow dwarf virus (BYDV). The pessible explanation for such a variation and the potential use of the variant lines were discussed briefly.