Showing papers by "Martin A. Lysak published in 2000"

Flow Sorting of Mitotic Chromosomes in Common Wheat (Triticum aestivum L.)

Abstract: The aim of this study was to develop an improved procedure for preparation of chromosome suspensions, and to evaluate the potential of flow cytometry for chromosome sorting in wheat. Suspensions of intact chromosomes were prepared by mechanical homogenization of synchronized root tips after mild fixation with formaldehyde. Histograms of relative fluorescence intensity (flow karyotypes) obtained after the analysis of DAPI-stained chromosomes were characterized and the chromosome content of all peaks on wheat flow karyotype was determined for the first time. Only chromosome 3B could be discriminated on flow karyotypes of wheat lines with standard karyotype. Remaining chromosomes formed three composite peaks and could be sorted only as groups. Chromosome 3B could be sorted at purity >95% as determined by microscopic evaluation of sorted fractions that were labeled using C-PRINS with primers for GAA microsatellites and for Afa repeats, respectively. Chromosome 5BL/7BL could be sorted in two wheat cultivars at similar purity, indicating a potential of various wheat stocks for sorting of other chromosome types. PCR with chromosome-specific primers confirmed the identity of sorted fractions and suitability of flow-sorted chromosomes for physical mapping and for construction of small-insert DNA libraries. Sorted chromosomes were also found suitable for the preparation of high-molecular-weight DNA. On the basis of these results, it seems realistic to propose construction of large-insert chromosome-specific DNA libraries in wheat. The availability of such libraries would greatly simplify the analysis of the complex wheat genome.

Nuclear γ-Tubulin during Acentriolar Plant Mitosis

Abstract: Neither the molecular mechanism by which plant microtubules nucleate in the cytoplasm nor the organization of plant mitotic spindles, which lack centrosomes, is well understood. Here, using immunolocalization and cell fractionation techniques, we provide evidence that γ-tubulin, a universal component of microtubule organizing centers, is present in both the cytoplasm and the nucleus of plant cells. The amount of γ-tubulin in nuclei increased during the G2 phase, when cells are synchronized or sorted for particular phases of the cell cycle. γ-Tubulin appeared on prekinetochores before preprophase arrest caused by inhibition of the cyclin-dependent kinase and before prekinetochore labeling of the mitosis-specific phosphoepitope MPM2. The association of nuclear γ-tubulin with chromatin displayed moderately strong affinity, as shown by its release after DNase treatment and by using extraction experiments. Subcellular compartmentalization of γ-tubulin might be an important factor in the organization of plant-specific microtubule arrays and acentriolar mitotic spindles.

Rapid identification and determination of purity of flow‐sorted plant chromosomes using C‐PRINS

Abstract: Background Flow-sorted plant chromosomes are being increasingly used in plant genome analysis and mapping. Consequently, there is a need for a rapid method for identification of sorted chromosomes and for determination of their purity. We report on optimization of procedures for primed in situ DNA labeling (PRINS) and cycling-PRINS (C-PRINS) for fluorescent labeling of repetitive DNA sequences on sorted plant chromosomes suitable for their identification. Methods Chromosomes of barley, wheat, and field bean were sorted onto microscope slides, dried, and subjected to PRINS or C-PRINS with primers for GAA microsatellites (barley and wheat) or FokI repeat (field bean). The following parameters were optimized to achieve the highest specificity and intensity of fluorescent labeling: ratio of labeled versus unlabeled nucleotides, nucleotide concentration, and the number and concentration of primers. Results Under optimal conditions, C-PRINS resulted in strong and specific labeling of GAA microsatellites on sorted barley and wheat chromosomes and FokI repeats on sorted field bean chromosomes. The labeling patterns were characteristic for each chromosome and permitted their unequivocal identification as well as determination of purity after sorting, which ranged from 96% to 99%. A standard polymerase chain reaction (PCR) with chromosome-specific primers was not sensitive enough to detect low-frequency contamination. Conclusions The results indicate that a single C-PRINS assay with primers that give chromosome-specific labeling pattern is sufficient not only to determine chromosome content of peaks on flow karyotype but also to determine the purity of sorted chromosome fractions. The whole procedure can be performed in less than 3 h on the next day after sorting. Numerous applications are expected in the area of plant flow cytogenetics. Cytometry 41:102–108, 2000 © 2000 Wiley-Liss, Inc.