Karyotyping Dasypyrum breviaristatum chromosomes with multiple oligonucleotide probes reveals the genomic divergence in Dasypyrum

The perennial species <i>Dasypyrum breviaristatum</i> (genome V^b) contains many potentially valuable genes for the improvement of common wheat. Construction of a detailed karyotype of <i>D. breviaristatum</i> chromosomes will be useful for the detection of <i>Dasypyrum</i> chromatin in wheat background. We established the standard karyotype of 1V^b-7V^b chromosomes through non-denaturing fluorescence <i>in situ</i> hybridization (ND-FISH) technique using 28 oligonucleotide probes from the wheat-<i>D. breviaristatum</i> partial amphiploid TDH-2 (AABBV^bV^b) and newly identified wheat-<i>D. breviaristatum</i> disomic translocation and addition lines D2138 (6V^bS.2V^bL), D2547 (4V^b) and D2532 (3V^bS.6V^bL) by comparative molecular marker analysis. The ND-FISH with multiple oligo probes were conducted on the durum wheat-<i>D. villosum</i> amphiploid TDV-1 and large karyotype differences between <i>D. breviaristatum</i> and <i>D. villosum</i> was revealed. These ND-FISH probes will be valuable for screening the wheat-<i>Dasypyrum</i> derivative lines for chromosome identification, and newly developed wheat-<i>D. breviaristatum</i> addition lines may broaden the gene pool of wheat breeding. The differences between <i>D. villosum</i> and <i>D. breviaristatum</i> chromosomes revealed by ND-FISH will help us understand evolutionary divergence of repetitive sequences within the genus <i>Dasypyrum</i>.

Diversified Chromosome Rearrangements Detected in a Wheat‒Dasypyrum breviaristatum Substitution Line Induced by Gamma-Ray Irradiation

To determine the composition of chromosome aberrations in a wheat‒Dasypyrum breviaristatum substitution line with seeds treated by a dose of gamma-rays (200 Gy), sequential non-denaturing fluorescence in situ hybridization (ND-FISH) with multiple oligonucleotide probes was used to screen individual plants of the mutagenized progenies. We identified 122 types of chromosome rearrangements, including centromeric, telomeric, and intercalary chromosome translocations from a total of 772 M1 and 872 M2 plants. The frequency of reciprocal translocations between B- and D-chromosomes was higher than that between A- and D-chromosomes. Eight translocations between D. breviaristatum and wheat chromosomes were also detected. The 13 stable plants with multiple chromosome translocations displayed novel agronomic traits. The newly developed materials will enhance wheat breeding programs through wheat‒Dasypyrum introgression and also facilitate future studies on the genetic and epigenetic effects of translocations in wheat genomics.

Characterization of New Wheat-Dasypyrum breviaristatum Introgression Lines with Superior Gene(s) for Spike Length and Stripe Rust Resistance

Dasypyrum breviaristatum (genome VbVb) contains potentially important traits for commercial wheat production. Chromosome 2Vb of D. breviaristatum carries several desirable agronomic characters, including long spike length as well as enhanced resistance to stripe rust, which are expressed in a common wheat background. In this study, wheat-D. breviaristatum 2Vb deletion lines were produced and identified by fluorescence in situ hybridization (FISH), and 74 molecular markers specific to D. breviaristatum chromosome 2Vb were physically localized in 4 distinct chromosomal regions. New wheat-D. breviaristatum 2Vb translocation lines were also characterized by FISH. The breakpoint of the translocation T3AS.3AL-2VbS was determined by physically mapped molecular markers. Field evaluation revealed that genes affecting plant height and spike length are located on fraction length (FL) 0.65-1.00 of 2VbS, while the stripe rust resistance gene(s) are located on FL 0.40-1.00 of D. breviaristatum chromosome 2VbL. The newly characterized wheat-Dasypyrum chromosomal introgressions are of potential value for the improvement of the yield and disease resistance of wheat.

Heterochromatin organization in metaphase chromosomes and interphase nuclei of Dasypyrum breviaristatum (Lindb) Frederiksen

Metaphase chromosomes of <em>Dasypyrum breviaristatum</em> (Lindb f) Frederiksen, a tetraploid wild species, were differentially stained with C-banding and fluorochromes in order to aquire information on heterochromatin chromosomal distribution and composition. DNA content and relative amount of nuclear heterochromatin were determined by cytophotometric analysis after Feulgen reaction. The results were compared to those of <em>Dasypyrum villosum</em> (L.) P. Candargy, a diploid species of the same genus. The achieved information indicate that <em>D. breviaristatum</em> and <em>D. villosum</em> differ in the composition, organization and distribution of heterochromatin, and may suggest that the telomeric regions of the chromosomes of the two species are more differentiated than the centromeric ones, as a result of a long lasting divergence between the two species.