Michel Bernard

Fine Mapping and Marker Development for the Crossability Gene SKr on Chromosome 5BS of Hexaploid Wheat (Triticum aestivum L.)

Most elite wheat varieties cannot be crossed with related species thereby restricting greatly the germplasm that can be used for alien introgression in breeding programs. Inhibition to crossability is controlled genetically and a number of QTL have been identified to date, including the major gene Kr1 on 5BL and SKr, a strong QTL affecting crossability between wheat and rye on chromosome 5BS. In this study, we used a recombinant SSD population originating from a cross between the poorly crossable cultivar Courtot (Ct) and the crossable line MP98 to characterize the major dominant effect of SKr and map the gene at the distal end of the chromosome near the 5B homeologous GSP locus. Colinearity with barley and rice was used to saturate the SKr region with new markers and establish orthologous relationships with a 54-kb region on rice chromosome 12. In total, five markers were mapped within a genetic interval of 0.3 cM and 400 kb of BAC contigs were established on both sides of the gene to lay the foundation for map-based cloning of SKr. Two SSR markers completely linked to SKr were used to evaluate a collection of crossable wheat progenies originating from primary triticale breeding programs. The results confirm the major effect of SKr on crossability and the usefulness of the two markers for the efficient introgression of crossability in elite wheat varieties.

Location of Pm3g, a powdery mildew resistance allele in wheat, by using a monosomic analysis and by identifying associated molecular markers

A segregating population of doubled-haploid lines issued from the cross between the wheat (Triticum aestivum L. em. Thell) cultivars Courtot, resistant to several isolates of powdery mildew (Blumeria graminis DC. f. sp. tritici Em. Marchal), and Chinese Spring (susceptible) was used to map Mlar, a gene carried by Courtot and conferring resistance to this pathogen. The assignation of Mlar using monosomic lines of Courtot was confirmed by the mapping analysis. Mlar was located on the short arm of the chromosome 1A, in the vicinity of the locus XGli-A5 coding for storage proteins. This result was in accordance with those demonstrating that Mlar was an allele of the Pm3 locus (Pm3g), a gene also involved in the resistance to powdery mildew.

Fat element-a new marker for chromosome and genome analysis in the Triticeae

Chromosomal distribution of the Fat element that was isolated from bacterial artificial chromosome (BAC) end sequences of wheat chromosome 3B was studied in 45 species representing eight genera of Poaceae (Aegilops, Triticum, Agropyron, Elymus, Secale, Hordeum, Avena and Triticale) using fluorescence in situ hybridisation (FISH). The Fat sequence was not present in oats and in two barley species, Hordeum vulgare and Hordeum spontaneum, that we investigated. Only very low amounts of the Fat element were detected on the chromosomes of two other barley species, Hordeum geniculatum and Hordeum chilense, with different genome compositions. The chromosomes of other cereal species exhibited distinct hybridisation patterns with the Fat probe, and labelling intensity varied significantly depending on the species or genome. The highest amount of hybridisation was detected on chromosomes of the D genome of Aegilops and Triticum and on chromosomes of the S genome of Agropyron. Despite the bioinformatics analysis of several BAC clones that revealed the tandem organisation of the Fat element, hybridisation with the Fat probe produces uneven, diffuse signals in the proximal regions of chromosomes. In some of the genomes we investigated, however, it also forms distinct, sharp clusters in chromosome-specific positions, and the brightest fluorescence was always observed on group 4 chromosomes. Thus, the Fat element represents a new family of Triticeae-specific, highly repeated DNA elements with a clustered–dispersed distribution pattern. These elements may have first emerged in cereal genomes at the time of divergence of the genus Hordeum from the last common ancestor. During subsequent evolution, the amount and chromosomal distribution of the Fat element changed due to amplification, elimination and re-distribution of this sequence. Because the labelling patterns that we detected were highly specific, the Fat element can be used as an accessory probe in FISH analysis for chromosome identification and investigation of evolutionary processes at the chromosomal level.

Analysis of introgression of Aegilops ventricosa Tausch. genetic material in a common wheat background using C-banding

Seven Triticum aestivum (cv. Moisson)–Aegilops ventricosa addition lines and four VPM-1 lines were studied by C-banding, and compared with the parental common wheat cultivars Marne-Desprez (hereafter Marne), Moisson, and A. ventricosa lines 10 and 11. All of the VPM-1 lines had similar C-banding patterns and carried the same major 5B:7B translocation as the parental Marne cultivar. According to the C-banding analysis, the VPM-1 lines carry a complete 7D(7Dv) chromosome substitution and a translocation involving the 5D and 5Dv chromosomes. However, the translocation of the 2Nv/6Nv chromosome of A. ventricosa to the short arm of the 2A chromosome of wheat that had been identified in an earlier study using molecular analysis (Bonhomme A, Gale MD, Koebner RMD, Nicolas P, Jahier J, Bernard M in Theor Appl Genet 90:1042–1048, 1995; Jahier J, Abelard P, Tanguy AM, Dedryver F, Rivoal R, Khatkar S, Bariana HS Plant Breed 120:125–128, 2001) was not detected in our study. However, the appearance of a small pAs1 site at the tip of the chromosome 2A short arm in VPM-1 could be indicative of a minor translocation of the A. ventricosa chromosome. The 5B:7B translocation was also found in all seven T. aestivum–A. ventricosa addition lines, although it was not present in the parental common wheat cultivar Moisson. These lines showed different introgression patterns; besides the addition of the five Nv-genome chromosomes, they also possessed different D(Dv) genome substitutions or translocations. A whole arm translocation between chromosome 1Nv and 3Dv was identified in lines v86 and v137, and also in the A. ventricosa line 10. This observation lends further support to the idea that A. ventricosa line 10, rather than line 11, was used to develop a set of wheat A. ventricosa addition lines.

Cooperative communications between vehicles and intelligent road signs

CAPTIV is a research program proposing new low-cost and energy-efficient mobile communications solutions to ease and make safer road traffic conditions. Considering ¿intelligent¿ road signs and vehicles, i.e. equipped with an autonomous radio communication system, drivers will be able to receive at any time various information about traffic fluidity or road sign identification. In order to reduce deployment cost and increase lifetime of the whole system, Multi-Input Multi-Output (MIMO) signal processing techniques are used. Considering each crossroads as a communication node, the possible cooperation between road signs allows energy-efficient communications between crossroads. MIMO channels characterization and modeling, specific antennas conception, associated with signal processing techniques allow to further optimize the energy consumption between nodes. A driving simulator is used in order to both validate the communication system and protocols between vehicles and road signs and evaluate the effect of the additional information on the driver behavior. Supported by the Brittany Regional Council, CAPTIV is a highly applicative program. A first prototype of such a communicating crossroads will be presented in the Vehipole in Saint-Brieuc (technological site devoted to ITS experimentations).

Comparative analysis of the N-genome in diploid and polyploid Aegilops species

The genetic classification for the N-genome chromosomes has been developed on the basis of C-banding analysis on the set of Triticum aestivum × Aegilops uniaristata single chromosome addition lines and examination of A. uniaristata (

Metaphase-I analysis of a Triticum aestivum x T. monococcum hybrid by the C-banding technique

{\text{2n = 2}} \times { = 14}

PCR-mediated screening and labeling of DNA from clones

, NN), Aegilops ventricosa (