Genetic analysis of leaf rust resistance gene Lr34 in wheat

DAKOURI, ABDULSALAM

January 2010

Effective at the adult plant stage, Lr34 is the most important resistance gene to leaf rust. Usage of closely linked molecular markers is the best strategy to facilitate the incorporation of economically important genes in an adapted plant germplasm. Ten novel molecular markers spanning the Lr34 locus were developed, including six microsatellites (cam), one insertion site-based polymorphism (caISBP), two single nucleotide polymorphisms (caSNP) and one indel marker (caIND). Marker caIND11 is the best diagnostic marker for marker assisted selection of Lr34. Two novel haplotypes of Lr34 were discovered in the germplasm. Analysis of these markers on five segregating populations revealed a recombination between caSNP4 and cam8 which provided further support for the identity of the ABC transporter as Lr34. Using Lr34-specific markers, the world collection (WC) was divided into five major haplotypes (H) of which H1 was consistently associated with the resistance phenotype Lr34+. SNP12-C is the functional unit of Lr34. Maximum parsimony network and other observations revealed that H4, an Lr34- haplotype, was probably the most ancient haplotype and H1 the most recent and that it likely arose after the advent of hexaploid wheat. Analysis of geographical distribution showed that H1 was at a high frequency in the Asian germplasm while H4 was more frequent in the European germplasm. Lr34, a gain of function mutation, was hypothesized to have originated in Asia. The (WC) was characterized for seedling and adult plant resistance using gene specific markers and gene postulation. Fourteen seedling genes were determined or postulated in the collection. Lr1, Lr10, Lr3 and Lr20 were the most highly represented genes while Lr9, Lr14b, Lr3ka and/or Lr30 and Lr26 were rare. The WC was evaluated for field resistance. The rust rating in the field ranged from nearly immune (1R) to highly susceptible (84S). Most Lr34 containing accessions had maximum rust severity (MRS) of 35%. The high levels of resistance in some accessions are likely the result of synergy between APR genes or between APR and seedling genes. Accessions that were highly resistant should be considered potential sources of resistance for future wheat breeding program to improve leaf rust resistance.

Wheat

Leaf rust

Lr34

Genetic analysis of leaf rust resistance gene Lr34 in wheat

DAKOURI, ABDULSALAM

January 2010

Effective at the adult plant stage, Lr34 is the most important resistance gene to leaf rust. Usage of closely linked molecular markers is the best strategy to facilitate the incorporation of economically important genes in an adapted plant germplasm. Ten novel molecular markers spanning the Lr34 locus were developed, including six microsatellites (cam), one insertion site-based polymorphism (caISBP), two single nucleotide polymorphisms (caSNP) and one indel marker (caIND). Marker caIND11 is the best diagnostic marker for marker assisted selection of Lr34. Two novel haplotypes of Lr34 were discovered in the germplasm. Analysis of these markers on five segregating populations revealed a recombination between caSNP4 and cam8 which provided further support for the identity of the ABC transporter as Lr34. Using Lr34-specific markers, the world collection (WC) was divided into five major haplotypes (H) of which H1 was consistently associated with the resistance phenotype Lr34+. SNP12-C is the functional unit of Lr34. Maximum parsimony network and other observations revealed that H4, an Lr34- haplotype, was probably the most ancient haplotype and H1 the most recent and that it likely arose after the advent of hexaploid wheat. Analysis of geographical distribution showed that H1 was at a high frequency in the Asian germplasm while H4 was more frequent in the European germplasm. Lr34, a gain of function mutation, was hypothesized to have originated in Asia. The (WC) was characterized for seedling and adult plant resistance using gene specific markers and gene postulation. Fourteen seedling genes were determined or postulated in the collection. Lr1, Lr10, Lr3 and Lr20 were the most highly represented genes while Lr9, Lr14b, Lr3ka and/or Lr30 and Lr26 were rare. The WC was evaluated for field resistance. The rust rating in the field ranged from nearly immune (1R) to highly susceptible (84S). Most Lr34 containing accessions had maximum rust severity (MRS) of 35%. The high levels of resistance in some accessions are likely the result of synergy between APR genes or between APR and seedling genes. Accessions that were highly resistant should be considered potential sources of resistance for future wheat breeding program to improve leaf rust resistance.

Wheat

Leaf rust

Lr34

The susceptibility of cultivated "rubus" varieties to "Phragmidium violaceum", the cause of blackberry leaf rust, and fungicides for the control of the disease /

Washington, W. S.

January 1985

Thesis (M. Ag. Sc.)--University of Adelaide, 1985. / Some ill. mounted. Includes bibliographical references (leaves 86-92).

Blackberries Rust fungi Fungicides

Structure of genes of the L locus in flax controlling resistance to rust /

Islam, Md. Rafiqul,

January 1986

Thesis (Ph. D.)--Dept of Agronomy, University of Adelaide, 1987. / Includes bibliographical references (136-146).

Flax Rust fungi.

Lifecycle, biology and diversity of Puccinia boroniae in Western Australia /

Driessen, Susanna.

January 2005

Thesis (Ph.D.)--Murdoch University, 2005. / Thesis submitted to the Division of Science and Engineering. Bibliography: leaves 151-167.

Boronia Puccinia Rust fungi

Friedrich Wilhelm Rust.

Czach, Rudolf.

January 1900

Inaug.-diss.--Berlin. / Lebenslauf. "Thematisches verzeichnis der instrumentalkompositionen Friedrich Wilhelm Rusts": p. 3-18 (at end) "Kritik der quellen": p. 7-11.

Rust, Friedrich Wilhelm,

Vegetative vigor of the host as a factor influencing susceptibility and resistance to certain rust diseases of the higher plants

Raines, M. A.

January 1900

Thesis (Ph. D.)--Columbia University, 1922. / Vita. "Reprinted from the American Journal of Botany, vol. IX, no. 4 ... April 1922, and no. 5 ... May, 1922." "Literature cited": p. 235-237.

Rust fungi. Plant diseases.

The control of teliospore and urediniospore formation by experimental methods

Waters, Charles White,

January 1900

Thesis (Ph. D.)--University of Michigan, 1927. / Cover title. Running title: Teliospore formation. "Papers from the Department of botany of the University of Michigan, no. 271." "Reprinted from Phytopathology, February, 1928, vol. XVIII, no. 2." "Literature cited": p. 211-213.

Rust fungi. Plants

Inheritance of reaction to crown rust and stem rust and other characters in crosses between Bond, Avena byzantina, and varieties of A. sativa

Ko, Siang Yin,

January 1940

Thesis (Ph. D.)--University of Wisconsin--Madison, 1940. / Typescript. Includes abstract and vita. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 56-58).

Rust diseases. Oats

Rust in seed wheat and its relation to seedling infection

Hungerford, Charles William, Owens, Charles Elmer,

January 1920

Presented as Hungerford's Thesis (Ph. D.)--University of Wisconsin--Madison, 1924. / Cover titles. Reprinted from Journal of agricultural research: Part 1: vol. XIX, no. 6 (15 June 1920), p. 257-278, plates 38-48 -- Part 2: vol. XXIV, no. 7 (19 May 1923), p. 607-620, plates 1-4 -- Part 3: vol. XXV, no. 9 (1 Sep. 1923), p. 363-402, plates 1-6. Includes bibliographical references.

Rust fungi. Puccinia. Wheat