Your search keyword '"Carmen Pal"' showing total 3 results

1. Introgression of Seedling Plant Resistance to Leaf Rust from Agropyron cristatum into Wheat by Induced Homoeologous Recombination

Author

Adoración Cabrera, Rafael Porras, Carmen Palomino, and Josefina Carmen Sillero

Subjects

Agropyron cristatum, homoeologous pairing, leaf rust resistance, wheat, Agriculture

Abstract

Agropyron cristatum (P genome) is a Triticeae species from the wheat tertiary gene pool which has economic importance as forage and also displays traits beneficial to wheat. Resistance to leaf rust was previously mapped to the short arm of chromosome 1P (1PS) in A. cristatum by the development of a compensating Robertsonian translocation involving chromosome arm 1PS and the long arm of wheat chromosome 1B (1BL). In this study, chromosome arm 1PS was engineered using the ph1b mutation to induce 1BS/1PS homoeologous recombination and to obtain new translocations with shortened fragments of chromosome arm 1PS. Two translocations with different alien fragment sizes were identified by genomic in situ hybridization, wheat 1BS- and 1PS-specific molecular markers and gene-specific markers for glutenin, Glu-B3 and gliadin Gli-B1 seed storage protein. One translocation (called type 1) replaces a proximal segment of 1PS chromatin, and the other (called type 2) replaces a distal 1PS segment and introduces the Glu-B3 and Gli-B1 wheat storage protein loci. Six specific EST-STS markers for chromosome arm 1PS amplified PCR products in the recombinant type 2 translocation line. Resistance analysis showed that the type 2 translocation was highly resistant to a virulent race of leaf rust pathogen. The new wheat–A. cristatum translocations obtained yield material with seedling plant resistance to leaf rust and seed storage protein loci.

Published

2023

2. Development and Characterization of Wheat-Agropyron cristatum Introgression Lines Induced by Gametocidal Genes and Wheat ph1b Mutant

Author

Alejandro Copete-Parada, Carmen Palomino, and Adoración Cabrera

Subjects

Agropyron cristatum, gametocidal chromosome 2Cc, Ph1b, wheat-A. cristatum translocations, Agriculture

Abstract

The P genome of Agropyron cristatum Gaertn. contains many desirable genes that can be utilized as genetic resources to improve wheat. In this research, we used both the gametocidal chromosome 2Cc and the pairing homologous gene (Ph1b) mutant to induce structural aberrations and translocations between wheat and the 4P, 5P, and 6P genome chromosomes. By using the two approaches, a total of 19 wheat-A. cristatum translocations have been identified, in which 13 were induced by the Triticum aestivum cv. Chinese Spring (CS) ph1b mutant (CS ph1b) and six were induced by gametocidal chromosome 2Cc from Aegilops cylindrica Host. The wheat-4P, -5P and -6P A. cristatum translocations were characterized by in situ hybridization and by a set of conserved orthologous set (COS) molecular markers. The aberrations included centromeric translocations, terminal translocations, dicentric translocations, and deletions. The average induction frequency of chromosome structural aberrations was 10.9% using gametocidal 2Cc chromosome and 8.8% using ph1b mutant. The highest frequency obtained was for chromosome 4P using both approaches. All the wheat-A. cristatum translocation lines obtained were valuable for identifying A. cristatum chromosome 4P, 5P, and 6P related genes. In addition, these lines provided genetic resources and new germplasm accessions for the genetic improvement of wheat.

Published

2021

3. Development of wheat—Hordeum chilense Chromosome 2Hch Introgression Lines Potentially Useful for Improving Grain Quality Traits

Author

Carmen Palomino and Adoracion Cabrera

Subjects

grain colour, Hordeum chilense, wheat introgression, wheat quality, wild barley, Agriculture

Abstract

The chromosome 2Hch of Hordeum chilense. has the potential to improve seed carotenoid content in wheat as it carries a set of endosperm carotenoid-related genes. We have obtained structural changes in chromosome 2Hch in a common wheat (Triticum aestivum L. “Chinese Spring”) background by crossing a wheat double disomic substitution 2Hch(2D) and 7Hch(7D) line with a disomic addition line carrying chromosome 2Cc from Aegilops cylindrica Host.. Seven introgressions of chromosome 2Hch into wheat were characterized by fluorescence in situ hybridization (FISH) and DNA markers. Chromosome-specific simple sequence repeats (SSRs) were used for identifying wheat chromosomes. In addition, we tested 82 conserved orthologous set (COS) markers for homoeologous group 2, of which 65 amplified targets in H. chilense and 26 showed polymorphism between H. chilense and wheat. A total of 24 markers were assigned to chromosome 2Hch with eight allocated to 2HchS and 16 to 2HchL. Among the seven introgressions there was a disomic substitution line 2Hch(2D), a ditelosomic addition line for the 2HchL arm, an isochromosome for the 2HchL arm, a homozygous centromeric 2HchS·2DL translocation, a double monosomic 2HchS·2DL plus 7HchS·D translocation, a homozygous centromeric 7HchS·2HchL translocation and, finally, a 2HchL·7HchL translocation. Wheat—H. chilense macrosyntenic comparisons using COS markers revealed that H. chilense chromosome 2Hch exhibits synteny to wheat homoeologous group 2 chromosomes, and the COS markers assigned to this chromosome will facilitate alien gene introgression into wheat. The genetic stocks developed here include new wheat—H. chilense recombinations which are useful for studying the effect of chromosome 2Hch on grain quality traits.

Published

2019