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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Mechanisms of sexual polyploidization and inheritance in triploid citrus populations

Cuenca Ibáñez, José 23 December 2013 (has links)
Citrus is the main fruit crop in the world and Spain is the 6th producer and the major exporter for the fresh fruit market. Seedlessness is one of the most important fruit quality traits for this market since consumers do not accept seedy fruits. Recovery of triploid hybrids has become an important breeding strategy to develop new seedless citrus varieties and several of them have been already released from citrus breeding programs worldwide. Despite the undisputable importance of polyploidy in plant species, their genetics are much less well known than those of their diploid counterparts. Citrus triploid hybrids can be routinely recovered from sexual polyploidization (2x ¿ 2x) or interploid crosses (2x ¿ 4x and 4x ¿ 2x). In 2x ¿ 2x sexual crosses, spontaneous triploid hybrids arise from the union of an unreduced (2n) megagametophyte with haploid pollen. In the case of interploid sexual crosses (2x ¿ 4x and 4x ¿ 2x), triploid hybrids result from the fecundation of a diploid gamete arising from the tetraploid parent and a haploid gamete arising from the diploid parent. The genetic and phenotypic structures of triploid populations greatly depend on the parental heterozygosity restitution (HR) in the diploid gamete at each locus, which is mainly affected by the triploid recovery strategy. In 2x ¿ 2x crosses, HR depends on the underlying mechanism leading to the unreduced gamete formation, which are genetically equivalent to First Division Restitution (FDR) or Second Division Restitution (SDR) mechanisms. Moreover, under each restitution mechanism, HR also depends on the locus-centromere genetic distance. In the case of interploid crosses, parental heterozygosity restitution from tetraploid parents depends on the double reduction frequency. In citrus, the unreduced gamete formation mechanism is still controversial; FDR has been the mechanism proposed for sweet orange, whereas SDR has been proposed for clementine. On the other hand, inferring the allelic configurations of genetic markers is a main challenge in polyploidy crops to infer genotypic and gametic structures with the objective to analyze meiosis and inheritance mechanisms. According to this scientific context, the objectives of the thesis where: (i) to develop a new approach for allele dosis assignation when using co-dominant markers, (ii) to implement and apply methods for the analysis of 2n gametes origin and locate centromeres, and (iii) to take advantage of this knowledge to locate a major gene of resistance to Alternaria Brown Spot (ABS) which is a major constraint for triploid mandarin breeding. For microsatellite (SSR) markers, we have demonstrated that triploid progeny genotyping can be successfully performed using the microsatellite allele-counting peak ratio (MAC-PR) method. However, SSR analysis remains relatively costly and time consuming compared with actual SNP genotyping methods. Moreover, with the increasing availability of EST databases and whole genome sequences, SNPs have become the most abundant and powerful polymorphic markers that can be selected along the entire genome. In this thesis, a new method based on competitive allele-specific PCR has been developed to assign SNP allele dosage in an accurate, simple, and cost effective way. Combining the MAC-PR and the new developed SNP genotyping methods offers the possibility to utilize a broad range of molecular markers in genotyping triploid genotypes. Both methods have been used in further works included in this thesis. SDR has been demonstrated as the mechanism underlying unreduced gamete production in `Fortune¿ mandarin by genotyping triploid progenies with SSR markers. In addition, a new method to locate the centromere, based on the best fit between observed heterozygosity restitution within a linkage group and theoretical functions under either partial or no chiasma interference hypotheses has been developed and successfully applied. To expand the knowledge of the mechanism underlying unreduced gamete formation to other citrus genotypes besides clementines and `Fortune¿ mandarin, a maximum likelihood method based on parental heterozygosity restitution of centromeric loci was developed and successfully applied in sixteen mandarin cultivars. The new method developed in the study allows inferring the restitution mechanism both at population level and even at individual level. Maternal origin of 2n gametes was confirmed for all triploid hybrids and SDR was proposed as the restitution mechanism for all analyzed progenies. The information acquired from the mode of heterozygosity restitution in citrus was useful to determine the genetic and phenotypic structures of new triploid populations arising from different breeding strategies. We studied these structures for the resistance to Alternaria brown spot (ABS), a serious fungal disease producing necrotic lesions on fruits and young leaves in susceptible citrus genotypes. In the present work, different approaches were combined taking advantage of the particular genetic structures of 2n gametes resulting from SDR to map a genome region linked to ABS resistance in triploid citrus progeny. The monolocus dominant inheritance of the susceptibility, proposed on the basis of diploid population studies, was corroborated in triploid progeny. A 3.3 Mb genomic region linked to ABS resistance was located near the centromere on chromosome III, which includes clusters of resistance genes. SSR and SNP markers were developed for an efficient early selection of ABS resistant hybrids and they are currently used in our breeding program to perform marker assisted selection. The knowledge obtained in this thesis on the mechanism of sexual polyploidization and inheritance of concrete traits in citrus will allow implementing much more efficient triploid breeding programs on the basis of current and future needs. Indeed, applied outcomes of this PhD are already routinely used in the IVIA triploid breeding program. / Cuenca Ibáñez, J. (2013). Mechanisms of sexual polyploidization and inheritance in triploid citrus populations [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/34671 / Premios Extraordinarios de tesis doctorales

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