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6 results on '"L. Leus"'

1. Host adaptation and speciation through hybridization and polyploidy in Phytophthora.

Author

Bertier L, Leus L, D'hondt L, de Cock AW, and Höfte M

Subjects
Plant Diseases genetics, Adaptation, Physiological physiology, Chimera physiology, Host-Pathogen Interactions physiology, Phytophthora physiology, Plant Diseases microbiology, Polyploidy
Abstract

It is becoming increasingly evident that interspecific hybridization is a common event in phytophthora evolution. Yet, the fundamental processes underlying interspecific hybridization and the consequences for its ecological fitness and distribution are not well understood. We studied hybridization events in phytophthora clade 8b. This is a cold-tolerant group of plant pathogenic oomycetes in which six host-specific species have been described that mostly attack winter-grown vegetables. Hybrid characterization was done by sequencing and cloning of two nuclear (ITS and Ypt1) and two mitochondrial loci (Cox1 and Nadh1) combined with DNA content estimation using flow cytometry. Three different mtDNA haplotypes were recovered among the presumed hybrid isolates, dividing the hybrids into three types, with different parental species involved. In the nuclear genes, additivity, i.e. the presence of two alleles coming from different parents, was detected. Hybrid isolates showed large variations in DNA content, which was positively correlated with the additivity in nuclear loci, indicating allopolyploid hybridization followed by a process of diploidization. Moreover, indications of homeologous recombination were found in the hybrids by cloning ITS products. The hybrid isolates have been isolated from a range of hosts that have not been reported previously for clade 8b species, indicating that they have novel pathogenic potential. Next to this, DNA content measurements of the non-hybrid clade 8b species suggest that polyploidy is a common feature of this clade. We hypothesize that interspecific hybridization and polyploidy are two linked phenomena in phytophthora, and that these processes might play an important and ongoing role in the evolution of this genus.

Published
2013
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3. Unique genomic configuration revealed by microsatellite DNA in polyploid dogroses, Rosa sect. Caninae.

Author

Nybom H, Esselink GD, Werlemark G, Leus L, and Vosman B

Subjects
Crosses, Genetic, Flow Cytometry, Flowers genetics, Genome, Plant, Plant Roots genetics, Ploidies, Random Amplified Polymorphic DNA Technique, Rosa classification, Sweden, DNA, Plant genetics, Microsatellite Repeats genetics, Polyploidy, Rosa genetics
Abstract

An allopolyploid complex with high genomic integrity has been studied. Dogroses transmit only seven chromosomes (from seven bivalents) through the pollen, whereas 21, 28 or 35 chromosomes (from seven bivalents and 14, 21 or 28 univalents) come from the egg cells. Seedlings derived from two interspecific crosses were analysed with flow cytometry and molecular markers to determine ploidy level, mode of reproduction and genomic constitution. Evidence was obtained for the formation of unreduced male and female gametes, which can take part in fertilization (producing seedlings with higher ploidy than the parental plants) or in apomictic reproduction. Random amplified polymorphic DNA (RAPD) and microsatellite analyses indicated that three seedlings (5%) were derived through apomixis, whereas the other 49 were hybrids. Bivalent formation appears to involve chromosomes that consistently share the same microsatellite alleles. Allele-sharing between the maternally transmitted and highly conserved univalent-forming chromosomes reflected the taxonomic distance between different genotypes. The frequently recombining bivalent-forming chromosomes were taxonomically less informative.

Published
2006
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4. A ploidy chimera reveals the effects of tetraploidy in date palm

Author

A. Othmani, M. Jemni, A. Sellemi, F. Artés, S. Werbrouck, and L. Leus

Subjects
Agriculture and Food Sciences, Gynoecium, Pollination, POLYPLOIDY, Horticulture, Biology, medicine.disease_cause, Parthenocarpy, phenology, Pollen, Offshoot, medicine, flowering, ORIGIN, flow cytometry, PHOENIX-DACTYLIFERA L, fungi, food and beverages, Triploid block, EVOLUTION, Phoenix dactylifera, Inflorescence, parthenocarpy, MORPHOLOGY, Ploidy
Abstract

In the oasis of Tozeur (Tunisia) a peculiar date palm ploidy chimera was discovered, showing a diploid (2n = 2x) and a tetraploid (2n =4x) sector and a uniform tetraploid offshoot. This chimera allowed to describe the effects of chromosome doubling on some selected features. Because both ploidies occur within one plant, there was no environmental bias. Tetraploid leaves are longer, bear larger leaflets and spines and have a thicker rachis than normal diploid leaves. During three seasons, tetraploid inflorescences appeared ten days later than their diploid counterparts. The tetraploid sector formed bunches with stalks bearing larger fruits, with a higher percentage of inedible parthenocarpic fruits, than bunches that arose from the diploid sector. Tetraploid fruits are significantly longer, wider and heavier than diploid fruits, with a larger pulp diameter, irrespective of whether they are seeded or parthenocarpic. Diploid parthenocarpic fruits are longer than seeded fruits, while tetraploid parthenocarpic and seeded fruits both show the same size. The occurrence of tetraploidy opens new perspectives in date palm breeding. Pollination of tetraploid pistils with pollen from diploid males gave rise to a relatively low number of triploid plantlets, suggesting a triploid block.

Published
2020
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6. Unique genomic configuration revealed by microsatellite DNA in polyploid dogroses, Rosa sect.Caninae

Author

Ben Vosman, G. D. Esselink, L. Leus, Gun Werlemark, and Hilde Nybom

Subjects
DNA, Plant, molecular markers, Flowers, Biology, Rosa, Plant Roots, Bivalent (genetics), l, Polyploidy, Polyploid, Meiosis, PRI Biodiversiteit en Veredeling, Apomixis, evolution, Caninae, origin, inheritance, Ecology, Evolution, Behavior and Systematics, Crosses, Genetic, Genetics, Sweden, skewed distribution, Ploidies, behavior, biology.organism_classification, Flow Cytometry, RAPD, Random Amplified Polymorphic DNA Technique, PRI Biodiversity and Breeding, crosses, apomixis, Microsatellite, Ploidy, Genome, Plant, complex, Microsatellite Repeats
Abstract

An allopolyploid complex with high genomic integrity has been studied. Dogroses transmit only seven chromosomes (from seven bivalents) through the pollen, whereas 21, 28 or 35 chromosomes (from seven bivalents and 14, 21 or 28 univalents) come from the egg cells. Seedlings derived from two interspecific crosses were analysed with flow cytometry and molecular markers to determine ploidy level, mode of reproduction and genomic constitution. Evidence was obtained for the formation of unreduced male and female gametes, which can take part in fertilization (producing seedlings with higher ploidy than the parental plants) or in apomictic reproduction. Random amplified polymorphic DNA (RAPD) and microsatellite analyses indicated that three seedlings (5%) were derived through apomixis, whereas the other 49 were hybrids. Bivalent formation appears to involve chromosomes that consistently share the same microsatellite alleles. Allele-sharing between the maternally transmitted and highly conserved univalent-forming chromosomes reflected the taxonomic distance between different genotypes. The frequently recombining bivalent-forming chromosomes were taxonomically less informative.

Published
2006

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