Masahiro Hizume

Chromosome painting of Y chromosomes and isolation of a Y chromosome-specific repetitive sequence in the dioecious plant Rumex acetosa.

Abstract.The dioecious plant Rumex acetosa has a multiple sex chromosome system: XX in female and XY1Y2 in male. Both types of Y chromosome were isolated from chromosome spreads of males by manual microdissection, and their chromosomal DNA was amplified using degenerate oligonucleotide primed-polymerase chain reaction (DOP-PCR). When the biotin-labeled DOP-PCR product was hybridized with competitor DNA in situ, the fluorescent signal painted the Y chromosomes. A library of Y chromosome DNA was constructed from the DOP-PCR product and screened for DNA sequences specific to the Y chromosome. One Y chromosome-specific DNA sequence was identified and designated RAYSI (R. acetosa Y chromosome-specific sequence I). RAYSI is a tandemly arranged repetitive DNA sequence that maps to the 4’,6-diamidino-2-phenylindole bands of both Y chromosomes.

Chromosome identification and comparative karyotypic analyses of four Pinus species

Abstract.Chromosomal landmarks in four Pinus species: P. densiflora, P. thunbergii, P. sylvestris, and P. nigra were identified by fluorescence in situ hybridization (FISH) using hapten- or fluorochrome-labeled probes for the plant telomere repeat, centromeric repeat (PCSR), and rDNA. FISH landmarks were located at the interstitial and proximal regions of chromosomes and allowed us to identify nearly all of the homologous chromosomes in each species. A comparative analysis of the FISH karyotypes among the four species showed that the interstitial FISH signals obtained by hybridization with the telomere and rDNA sequences were stable and could be used to identify homologous chromosomes among species. The identification of homologous chromosomes among species facilitated a detailed comparative karyotype analysis. The results suggest that the degree of chromosomal differentiation among the four Pinus species is very low and that the proximal regions vary in their DNA sequences. The similarities and differences among FISH karyotypes are discussed in relation to phylogeny.

Differentiation and the polymorphic nature of the Y chromosomes revealed by repetitive sequences in the dioecious plant, Rumex acetosa.

The dioecious plant Rumex acetosa has a multiple sex chromosome system: females are 2n = XX + 12, males are 2n = XY1Y2 + 12, and the two Y chromosomes are heterochromatic. A DNA sequence abounded in the male genome was isolated and analyzed. The sequence (RAE180) was a 180-bp-long tandemly arranged repetitive sequence, distributed in chromosomes Y1 and Y2, and two pairs of autosomes. Both Y chromosomes contained large amounts of RAE180 and the sequence formed many DAPI bands, while, on the two pairs of autosomes, RAE180 did not form DAPI bands. The internal structure and morphological changes of the Y chromosomes were analyzed by FISH, using RAE180 and the Y-chromosome-specific sequence RAYSI as probes. The pattern of the FISH signals caused by the accumulation of RAE180 and RAYSI suggested the structural change in the Y chromosomes during the process of sex chromosome evolution, and the morphological change in the Y chromosomes was explained by reciprocal translocation and inversion.

Chromosome banding in the genusPinus

The chromosomes (2n=24) ofPinus densiflora Sieb. et Zucc. andP. thunbergii Parl. collected from several localities were analyzed on their fluorescent banding patterns by sequential staining with the base specifically binding fluorochromes, CMA and DAPI. In both species, the CMA-bands were localized at the proximal and/or interstitial regions of most of the chromosomes. The CMA-banding pattern was constant among the cells in a plant and was specific to respective species with a few variations. After the CMA and DAPI stainings each chromosome was identified individually. The fluorescent banding patterns of the two species were somewhat similar, but were diferent with respect to in some characters.Pinus thunbergii had two pairs of metacentric chromosomes without CMA-band and two pairs of metacentric chromosomes with an additional thin CMA-band at the interstitial region. The 10th and 11th pairs of chromosomes of both species, which showed similarity in interstitial CMA and DAPI banding and chromosome shape, had the proximal CMA-bands inP. densiflora and DAPI-band inP. thunbergii. The interspecific F1 hybrid between the two species could easily be identified by the fluorescent banding method.

Chromosome Banding in the Genus Pinus.-1-Identification of Chromosomes in P.nigra by Fluorescent Banding Method

Somatic chromosomes ofPinus nigra var.maritima (2n=24) were sequentially stained with DNA binding base-specific fluorochromes, chromomycin A3 (CMA) and DAPI. Many CMA- and DAPI-bands appeared at intercalary and/or proximal regions of most chromosomes. These banding patterns reversely related. Individual chromosomes were easily identified using these fluorescent banding patterns.

Evolution of 5S rDNA units and their chromosomal localization in Allium cepa and Allium schoenoprasum revealed by microdissection and FISH

Abstract.Allium cepa and Allium schoenoprasum each possess 5S rDNA units of two different sizes. The evolution of the two repeat units and their chromosomal localization were investigated. A. cepa has 5S rDNA loci in the proximal and distal regions of the short arm of chromosome 7. When the proximal and distal segments of the short arm of chromosome 7 were microdissected separately, and used as templates for PCR, the short and long 5S rDNA fragments were amplified predominantly from the proximal and distal segments, respectively. The nucleotide sequence of the long 5S rDNA unit resulted from partial duplication of a non-transcribed spacer (NTS) and the insertion of a unique sequence. FISH using a probe consisting of the unique sequence demonstrated that the long unit was distally localized. In A. cepa, the long 5S rDNA unit is only present distally and the short unit is predominantly located proximally on the short arm of chromosome 7. In A. schoenoprasum, the NTSs of the two different-sized 5S rDNAs had quite different sequences. The two 5S rDNA loci were localized very close together in the interstitial region of chromosome 6. FISH, using long and short 5S rDNA unit probes with a competitor of a 120-bp sequence of the 5S rRNA gene, indicated that the long 5S rDNA unit was localized proximally and the short unit distally. Although the NTSs of the 5S rDNA of A. cepa and A. schoenoprasum had quite different nucleotide sequences, the long 5S rDNA units of A. cepa and A. schoenoprasum share a common 75-bp sequence. This sequence might act in the formation of the long 5S rDNA unit in Allium species.

Chromosome banding in the genus Pinus. III, Fluorescent banding pattern of P. luchuensis and its relationships among the Japanese diploxylon pines

Somatic chromosomes (2n=24) ofPinus luchuensis Mayr at metaphase were observed by fluorescent banding methods with chromomycin A3 (CMA) and DAPI. CMA-bands appeared at the interstitial and/or proximal regions of nearly all chromosomes. DAPI-bands appeared at the interstitial and/or centromeric regions of nearly all chromosomes, and pairs of DAPI-dots appeared at the centromeric regions. Each homologous pair of chromosomes in the chromosome complement was identified by the CMA and DAPI fluorescent banding patterns. The interstitial CMA-bands were mostly localized at the secondary constrictions of the Feulgen-stained chromosomes. The fluorescent banding pattern ofP. luchuensis was very similar to that ofP. thunbergii, but was different from that ofP. densiflora.

The identification and analysis of the sequences that allow the detection of Allium cepa chromosomes by GISH in the allodiploid A. wakegi

Abstract. In Allium wakegi, which is an allodiploid species between Allium cepa and Allium fistulosum, each genome can be clearly distinguished using genomic in situ hybridization (GISH). Genomic DNA of A. cepa and A. fistulosum is differentiated both qualitatively and quantitatively. We wanted to isolate nucleotide sequences that give genome-specific signals on A. cepa chromosomes in GISH experiments in A. wakegi. We isolated 23 clones that show GISH-like signal patterns in fluorescence in situ hybridization (FISH) and analyzed their distribution in the A. cepa- and A. fistulosum-derived genomes of A. wakegi. There was considerable variation in the abundance and distribution of these cloned sequences on the chromosomes of the two species. The degree of A. cepa specificity varied among the clones. Twenty-two of the clones showed an even distribution over most chromosome arms with some clustering in the pericentromeric regions, but one clone showed very distinct terminal signals on some chromosomes. Whereas these sequences are not specific for A. cepa, changes in bases in nucleotide sequences and in their amount result in genome-specific characteristics in GISH experiments.

Distribution of interstitial telomere-like repeats and their adjacent sequences in a dioecious plant, Silene latifolia

Abstract. The dioecious plant Silene latifolia has large, heteromorphic X and Y sex chromosomes that are thought to be derived from rearrangements of autosomes. To reveal the origin of the sex chromosomes in S. latifolia, we isolated and characterized telomere-homologous sequences from intra-chromosomal regions (interstitial telomere-like repeats; ITRs) and ITR-adjacent sequences (IASs). Nine genomic DNA fragments with degenerate 84- to 175-bp ITRs were isolated from a genomic library and total genome of male plants. Comparing the nucleotide sequences, the IASs of the nine ITRs were classified into seven elements (IAS-a, IAS-b, IAS-c, IAS-d, IAS-e, IAS-f, and IAS-g) by sequence similarity. The ITRs were grouped into two classes (class-I and -II ITRs) according to the classification of IASs. The class-I ITRs were sub-grouped into three subclasses (subclasses-IA, -IB, and -IC ITRs) based on the arrangement of IAS elements. By contrast, the class-II ITR was located between two different IASs (IAS-f and IAS-g). Genomic Southern analyses showed that both the male and female genomes contained six (IAS-f) to 153 (IAS-d) copies of each IAS per haploid genome. Fluorescence in situ hybridization analyses showed that one IAS element, IAS-d, was distributed in the interstitial and proximal regions of the sex chromosomes of S. latifolia. The distribution of IAS-d is important evidence for past telomere-mediated chromosome rearrangements during the evolution of the sex chromosomes of S. latifolia.

Fluorescent Chromosome Banding in Larix leptolepis(Pinaceae)

The somatic karyotype ofLarix leptolepis (2n=24) is composed of 12 large metacentric chromosomes and 12 small submetacentric chromosomes. Each CMA-band appeared at the interstitial region of four metacentric chromosomes. Each bright DAPI-band appeared at the proximal region of one side of the arms of nearly all chromosomes. However, two submetacentric chromosomes had no discriminable DAPI-bands. The CMA-bands coincided in position with the secondary constriction and the negative DAPI-bands.