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.2005 Jun;170(2):823-9.
doi: 10.1534/genetics.104.039180. Epub 2005 Mar 31.

Chromosome sorting in tetraploid wheat and its potential for genome analysis

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Chromosome sorting in tetraploid wheat and its potential for genome analysis

Marie Kubaláková et al. Genetics.2005 Jun.

Abstract

This study evaluates the potential of flow cytometry for chromosome sorting in durum wheat (Triticum turgidum Desf. var. durum, 2n = 4x = 28). Histograms of fluorescence intensity (flow karyotypes) obtained after the analysis of DAPI-stained chromosomes consisted of three peaks. Of these, one represented chromosome 3B, a small peak corresponded to chromosomes 1A and 6A, and a large peak represented the remaining 11 chromosomes. Chromosomes sorted onto microscope slides were identified after fluorescence in situ hybridization (FISH) with probes for GAA microsatellite, pSc119.2, and Afa repeats. Genomic distribution of these sequences was determined for the first time in durum wheat and a molecular karyotype has been developed for this crop. Flow karyotyping in double-ditelosomic lines of durum wheat revealed that the lines facilitated sorting of any arm of the wheat A- and B-genome chromosomes. Compared to hexaploid wheat, flow karyotype of durum wheat is less complex. This property results in better discrimination of telosomes and high purities in sorted fractions, ranging from 90 to 98%. We have demonstrated that large insert libraries can be created from DNA purified using flow cytometry. This study considerably expands the potential of flow cytogenetics for use in wheat genomics and opens the possibility of sequencing the genome of this important crop one chromosome arm at a time.

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Figures

F<sc>igure</sc> 1.—
Figure 1.—
Flow karyotypes (histograms of relative fluorescence intensities) obtained after the analysis of DAPI-stained chromosome suspensions prepared from durum wheat “Langdon” with a standard karyotype and from three dDt lines (B–D). (A) The karyotype of Langdon consists of two composite peaks (II and III) representing specific groups of chromosomes and a peak representing chromosome 3B. Flow karyotypes of dDt lines show extra peaks representing short and long chromosome arms. (B) Langdon dDt1A (2n = 26 + 2t1AL + 2t1AS). Note that peak II represents only chromosome 6A in this line. (C) LD222 dDt3A (2n = 26 + 2t3AL + 2t3AS). (D) LD222 dDt3B (2n = 26 + 2t3BL + 2t3BS).x-axis, relative DAPI fluorescence intensity;y-axis, number of events.
F<sc>igure</sc> 2.—
Figure 2.—
Genomic distribution of repetitive DNA sequences obtained after FISH on flow-sorted chromosomes. Labeled DNA probes were detected with either fluorescein (yellow-green) or Cy3 (red). Chromosomes were counterstained with either propidium iodide (red) or DAPI (blue). For each chromosome, two representative examples are given. (A) Distribution of three repetitive DNA sequences,pSc119.2 (119), GAA microsatellite (GAA), andAfa family repeat (AFA), on A- and B-genome chromosomes of the durum wheat Langdon. (B–E) Chromosome arms sorted from ditelosomic lines of durum wheat after FISH with probes for GAA microsatellite (yellow-green) and telomeric repeat (red).
F<sc>igure</sc> 3.—
Figure 3.—
Idiogram of the durum wheat Langdon showing genomic distribution of four repetitive DNA sequences: GAA microsatellite (GAA),Afa family repeat (AFA),pSc119.2 (119), and 5S rDNA (rDNA). Differences in labeling pattern facilitate identification of each of the 28 chromosome arms.
F<sc>igure</sc> 4.—
Figure 4.—
Flow karyotype (histogram of relative fluorescence intensity) obtained after the analysis of DAPI-stained chromosome suspension from a strain ofT. turgidum var.melanopus with 2n = 30. The karyotype consists of two composite peaks (II and III) representing specific groups of chromosomes and a peak representing chromosome 3B. In addition, two peaks that represent chromosomes 5BS and 5BL are well discriminated.x-axis, relative DAPI fluorescence intensity;y-axis, number of events.
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References

    1. Bedbrook, J. R., J. Jones, M. O'Dell, R. D. Thompson and R. B. Flavell, 1980. A molecular description of telomeric heterochromatin inSecale species. Cell 19: 545–560. - PubMed
    1. Bennett, M. D., and I. J. Leitch, 1995. Nuclear-DNA amounts in angiosperms. Ann. Bot. 76: 113–176.
    1. Cenci, A., N. Chantret, X. Kong, Y. Gu, O. D. Andersonet al., 2003. Construction and characterization of a half million clone BAC library of durum wheat (Triticum turgidum ssp.durum). Theor. Appl. Genet. 107: 931–939. - PubMed
    1. Doležel, J., P. Binarová and S. Lucretti, 1989. Analysis of nuclear DNA content in plant cells by flow cytometry. Biol. Plant. 31: 113–120.
    1. Doležel, J., S. Lucretti and I. Schubert, 1994. Plant chromosome analysis and sorting by flow cytometry. Crit. Rev. Plant Sci. 13: 275–309.

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