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Wheat Evolution and Domestication (2023)

Feldman, Moshe. ; Levy, Avraham A.

Cham :Springer International Publishing :

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Schlagwort(e): Botany. ; Agriculture. ; Genetics. ; Plant Science. ; Agriculture. ; Genetics and Genomics.

Beschreibung / Inhaltsverzeichnis: 1. Introduction -- 2. Taxonomy and Evolution of the tribe Triticeae Dumort -- 3. Genome structure of Triticeae species -- 4. B Chromosomes -- 5. Orphan genera of the subtribe Triticineae Simmonds -- 6. Secale L -- 7. Classification of the wheat group (the genera Amblyopyrum, Aegilops, and Triticum) -- 8. Amblyopyrum (Jaub. &Spach) Eig -- 9. Aegilops L -- 10. Triticum L. -- 11. Evolution of the diploid species of the sub-tribe Triticineae -- 12. Evolution of the allopolyploid species -- 13. Evolution of wheat under cultivation -- 14. Future prospects -- 15. References. .

Kurzfassung: This open access book covers a century of research on wheat genetics and evolution, starting with the discovery in 1918 of the accurate number of chromosomes in wheat. We re-evaluate classical studies that are pillars of the current knowledge in light of recent genomic data in the wheat group comprising 31 species from the genera Amblyopyrum, Aegilops, Triticum, and other more distant relatives. For these species, we describe morphology, ecogeographical distribution, phylogeny as well as cytogenetic and genomic features. For crops, we also address evolution under human selection, namely pre-domestication cultivation and domestication. We re-examine the genetic and archeological evidence of where, when, and how domestication occurred. Several species are polyploids, including bread wheat which is a young allohexaploid. We discuss unique aspects of genome evolution and maintenance under polyploidization. Finally, we propose some thoughts on the future prospects of wheat improvement. As such, it can be of great interest to wheat researchers and breeders as well as to plant scientists and students interested in plant genetics, evolution, domestication, and polyploidy.

Materialart: Online-Ressource

Seiten: XXIII, 673 p. 28 illus., 22 illus. in color. , online resource.

Ausgabe: 1st ed. 2023.

ISBN: 9783031301759

URL: https://doi.org/10.1007/978-3-031-30175-9

DOI: 10.1007/978-3-031-30175-9

DDC: 580

Sprache: Englisch

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Digitale Medien

Characterization of the calmodulin gene family in wheat: structure, chromosomal location, and evolutionary aspects (1996)

Yang, Tianbao ; Segal, Gregorio ; Abbo, S. ; [weitere]

Springer

Molecular genetics and genomics 252 (1996), S. 684-694

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ISSN: 1617-4623

Schlagwort(e): Key words Aneuploid ; Calcium ; Root ; Triticum ; Wild wheat

Quelle: Springer Online Journal Archives 1860-2000

Thema: Biologie

Notizen: Abstract Calmodulin is a ubiquitous transducer of calcium signals in eukaryotes. In diploid plant species, several isoforms of calmodulin have been described. Here, we report on the isolation and characterization of calmodulin cDNAs corresponding to 10 genes from hexaploid (bread) wheat (Triticum aestivum). These genes encode three distinct calmodulin isoforms; one isoform is novel in that it lacks a conserved calcium binding site. Based on their nucleotide sequences, the 10 cDNAs were classified into four subfamilies. Using subfamily-specific DNA probes, calmodulin genes were identified and the chromosomal location of each subfamily was determined by Southern analysis of selected aneuploid lines. The data suggest that hexaploid wheat possesses at least 13 calmodulin-related genes. Subfamilies 1 and 2 were both localized to the short arms of homoeologous-group 3 chromosomes; subfamily 2 is located on all three homoeologous short arms (3AS, 3BS and 3DS), whereas subfamily 1 is located only on 3AS and 3BS but not on 3DS. Further analysis revealed that Aegilops tauschii, the presumed diploid donor of the D-genome of hexaploid wheat, lacks a subfamily-1 calmodulin gene homologue, whereas diploid species related to the progenitors of the A and B genomes do contain such genes. Subfamily 3 was localized to the short arm of homoeologous chromosomes 2A, 2B and 2D, and subfamily 4 was mapped to the proximal regions of 4AS, 4BL and 4DL. These findings suggest that the calmodulin genes within each subfamily in hexaploid wheat represent homoeoallelic loci. Furthermore, they also suggest that calmodulin genes diversified into subfamilies before speciation of Triticum and Aegilops diploid species.

Materialart: Digitale Medien

URL: http://dx.doi.org/10.1007/BF02173974

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