Mestrado em Genética e Melhoramento de Plantas (EA)
URI Permanente para esta coleção
Navegar
Navegando Mestrado em Genética e Melhoramento de Plantas (EA) por Por Orientador "Telles, Mariana Pires de Campos"
Agora exibindo 1 - 4 de 4
Resultados por página
Opções de Ordenação
Item Desenvolvimento de marcadores microssatélites para Stryphnodendron adstringens (barbatimão - Fabaceae)(Universidade Federal de Goiás, 2018-08-27) Barateli, Luciana Oliveira; Telles, Mariana Pires de Campos; http://lattes.cnpq.br/4648436798023532; Brito, Cíntia Pelegrineti Targueta de Azevedo; Soares, Thannya Nascimento; Telles, Mariana Pires de CamposStryphnodendron adstringens presents a wide geographical distribution, being predominant in regions of Cerrado sensu stricto and is popularly known as "barbatimão". It is a species widely used in herbal medicine because of its anti-inflammatory, antibacterial and antiulcerogenic potential. The Cerrado’s removal of vegetation cover reduces significantly the number of several native species, among them S. adstringens. Thus, it is important that efficient strategies for the use and conservation of this species are drawn. In order to provide molecular tools for studies of genetic diversity and conservation of S. adstringens, the present work had the objective of developing microsatellite markers for the species. Genomic DNA was obtained from leaf tissue using the CTAB protocol. The identification of the microsatellite regions and the design of the primers were performed using the QDD program modules. From the identified microsatellite regions, 20 pairs of primers were designed, 14 of which flank microsatellite regions composed of dinucleotides, four by tetranucleotides and two by pentanucleotides. Initially, four individuals were used for the standardization tests of the PCR protocol and annealing temperatures. Subsequently, 48 individuals were selected, distributed in three populations, to evaluate polymorphism via 6% polyacrylamide gel. Of the 20 pairs of primers evaluated, 16 presented polymorphic amplification products and four monomorphic amplification products. Considering the 16 polymorphic markers, the number of alleles varied between two (SadH19) and 13 (SadH13), with a mean of seven alleles per locus. The observed heterozygosity (Ho) and expected (He) and PIC values were 0.506, 0.543, 0.635, respectively. The mean Hmax value founded (65,519) indicates values of genetic diversity that can be considered medians for this set of loci evaluated in three populations of S. adstringens. On the other hand, although genetic diversity is median, this set of 16 polymorphic markers exhibited a ombined probability of paternity exclusion high (0.9999983) and combined probability of genetic identity low (3,49x10-15). The analysis of variance of allelic frequencies presented significant values for two of the three estimated statistics with f not significant 0.050, significant θ equal to 0,329 and F in the overall value also significant 0.360. Thus, it can be concluded that the panel of polymorphic markers developed for S. adstringens is highly informative and indicated for population genetic studies for the species. Another important factor is that these markers can be tested in other evolutionarily close species for the availability of microsatellite markers, without the need to develop new primers.Item Estrutura genética intrapopulacional e dispersão de pólen em Hancornia speciosa Gomes (Apocynaceae)(Universidade Federal de Goiás, 2013-03-23) Costa, Camila Fernanda; Collevatti, Rosane Garcia; Telles, Mariana Pires de Campos; http://lattes.cnpq.br/4648436798023532; Telles, Mariana Pires de Campos; Collevatti, Rosane Garcia; Chaves, Lázaro José; Martins, KarinaHancornia speciosa (Apocynaceae) is a fruit species which has a wide distribution in areas of Cerrado vegetation type restricted sense. Its flowers have a complex pollination mechanism and unique, co-adapted to pollination by moths and butterflies and their fruits are dispersed by mammals large and medium-sized. It has high economic potential and its use has been conducted in an exploratory way. To implement conservation programs, breeding and enabling the commercial use of species, knowledge about the genetic variability, the spatial genetic structure, the reproductive system and gene flow in natural populations are needed. In this context, in the present study was performed the molecular characterization of the genetic variability in three stages of individuals (adults, juveniles and seedlings) and the assessment of genetic structure spatial (adults and juveniles), of the system of crossing and of the gene flow via pollen in a subpopulation of Hancornia speciosa located in the State Park of Serra de Jaragua, Jaragua-GO. To this end, 113 adults and 100 juveniles were sampled and georeferenced in an area of approximately 2.5ha. Of the total number of adults, 20 trees were selected matrices to obtain seedlings and formation of families of open pollination. Genomic DNA was obtained from the leaves of all individuals (adults, juveniles and seedlings) and was amplified with the use of seven microsatellite loci for obtaining of genotypes. The analyzes of genetic diversity, of spatial structure, rates of cross-fertilization and distance of dispersal of pollen were obtained from these genotypes. The total number of alleles at seven loci evaluated was 125, with an average of 17.8 alleles per locus. For adults the mean allele was 15.8, for the juveniles was 13.5and the seedlings were 11alleles. The average total values of heterozigosidade expected (He) and observed (Ho) were equal to 0.750 and 0.698, respectively. In adults He = 0.750 and Ho =0.714, in juveniles He =0.744 and Ho =0.679 and in seedlings He = 0. 712 and Ho =0. 763. These values indicate that the subpopulation evaluated presents high levels of genetic diversity. The fixation index(f) waspositive and significantforthe generations ofadults(0.052, p <0.05)andjuvenile(0.087, p <0.05), indicating the existence of inbreeding in this subpopulation. The analysis of spatial autocorrelation evidenced that kinship is weakly related to the geographical distance in in bothstagesof lifeevaluated (adults: b= -0.00223, R2 = 0. 000514, p < 0.05 and juveniles: b: - 0.00440, R2 = 0.00148489; p < 0.001).Concomitantly the values of Sp were low and the size of neighborhoods (Nb) were high for the two generations. This result shows that there is no restriction of gene flow via seed and corroborates the hypothesis that the dispersal by animals have high potential to disperse the seeds over long distances.The rates of crossfertilization multilocus (tm= 1.000) and single locus (ts = 0.972 a 1.29) were high and significantly different from zero in all families. The difference in the rate of the crossfertilization multilocus and single locus combined for all families analyzed (tm-ts = 0. 077) was also positive and significant, suggesting that 7% of crossings that occur in this population are between related individuals. The correlation of selfing negative(rs=-0.999), indicates absence of selfing and the correlation of paternity(rp=0.107) not significantly different from zero (SD = 0.135) shows that this subpopulation no full siblings. Every subpopulation resulting outcrossing and individuals are evaluated relatives at least to the 15 level of half-brothers. The paternity analysis assigned pollen donors to 75.2% (64) seedlings, and 24 (37.5%) assignments at a confidence level of 85%, 30 (46.8%) assignments at 95% probability assignments and 10(15.6%) at a confidence level of 99%.This low assignment can be explained by sampling: due to the size of the total area of the population and distribution in aggregate, many individuals may not have been sampled. Moreover, the loci battery used in this analysis could not demonstrated the optimal values for the combined exclusion. Although the maximum distance of pollination has been of 292m and covers the entire area evaluated, most events of pollination (77%) occurred at distances less than 200m. The flowering in mass, the distribution in aggregate and the floral structure are the main responsible for predominance of events of cross-pollination at short distances.Item Variabilidade genética molecular em uma coleção de germoplasma de Hymenaea stigonocarpa (Fabaceae)(Universidade Federal de Goiás, 2016-03-22) Gonçalves, Ariany Rosa; Telles, Mariana Pires de Campos; http://lattes.cnpq.br/4648436798023532; Telles, Mariana Pires de Campos; Almeida, Luciane Madureira de; Chaves, Lázaro JoséThe study of genetic variation in plant populations, especially in native Brazilian savanna, is fundamental to understanding the magnitude of biodiversity in ecosystems. Understanding how this variability is structured, gives us evidence of how evolution is acting in these populations, bringing subsidies to trace relevant conservation strategies for these species. Its economic potential is significant, mainly due to its nutritional value. The extractive use of native plants is a warning, because the genetic resources of these plants can be exhausted without even discover their full potential. Given this, the germplasm collections that conserve genetic resources ex situ and in vivo, are an alternative to access information about the species at the same time helps conserve their genetic variability. This study was therefore to characterize, genotypically, individuals of the collection of germplasm Hymenaea stigonocarpa, located in the Escola de Agronomia of the Universidade Federal de Goiás. For this, we used ten microsatellite markers with detection methods by capillary electrophoresis. Individuals in the collection are from fruit collections occurred in 24 locations spanning the Brazilian savanna. In total, were evaluated 353 individuals in 119 progenies. Subpopulations showed moderate level of genetic diversity for the evaluated loci and mean heterozygosity was 0,59. Significant genetic structure was detected on subpopulations (𝜃𝑃 = 0,14), with intrapopulation inbreeding coefficient (f) of 0,12 and total inbreeding (F) 0,25. These results suggest that these subpopulations are not behaving as a panmitic population. Analyses of genetic diversity through the genetic distance of Nei (1972), showed two distinct groups subdivided. The correlation between genetic and geographic distances, doesn’t show a strong relationship between these arrays (r = 0.27), suggesting that the physical distance between subpopulations is not sufficient to differentiate them genetically. The germplasm collection has an effective size of 60, an amount considered sufficient to conduct breeding programs (minimum 50), and presents an allelic representation of 78.84% compared to 32 natural subpopulations. Thus, it can be concluded that the collection of germplasm,satisfactorily, represents the genetic variability of H. stigonocarpa while preserving their diversity, which is essential to support future work of conservation and improvement of the species.Item Sistema reprodutivo e fluxo gênico via pólen em uma coleção de germoplasma de Eugenia dysenterica DC.(Universidade Federal de Goiás, 2012-09-03) Rodrigues, Eduardo Borges; Collevatti, Rosane Garcia; http://lattes.cnpq.br/9979596352166630; Telles, Mariana Pires de Campos; http://lattes.cnpq.br/4648436798023532; Telles, Mariana Pires Campos; Martins, Karina; Chaves, Lázaro JoséThe success of any breeding program or genetic resources conservation depends on the knowledge about gene flow, reproductive system and genetic variability in the studied populations. For perennial plants, germplasm collection maintained ‘in vivo’ and ‘ex situ’ can be an efficient method for conserving the genetic variability of a species is maintained outside its original habitat. This study aimed to evaluate the reproductive system and pollen-mediated gene flow in one generation of Eugenia dysenterica DC. from the germoplasma collection of the Escola de Agronomia e Engenharia de Alimentos from Universidade Federal de Goiás. We collected leaves from 404 adult plants and seeds from 23 mother-trees in the germplasm collection. Genotypes were obtained using eight microsatellite loci, four of them developed for E. dysenterica, and four transferred from Eucalyptus spp. The total number of alleles was 88, ranging from 4 to 20 for the eight loci analyzed (mean of 11 alleles per locus). The mean expected (He) and observed (Ho) heterozygosity were equal to 0.646 and 0.423, respectively. Additionally, the high combined paternity exclusion probability (QC= 0.99579), and the low combined probability of identity (IC = 7.9 x10-5) indicate that markers can be reliable for this kind of analysis. Multilocus outcrossing rates (t ̂_m= 0.957) and single locus outcrossing rates (t ̂_s= 0.848) were high. Biparental inbreeding (t_m-t_s =0,109) ) combined for all families analyzed was also high and significant, sugesting the occurrence of 10.9% of cross-fertilization between related individuals. Paternity correlation was also low (r ̂_p=0,119), with 11.9% of the progeny sired by cross-fertilization with the same pollen donor. On average 10.79% of the progeny analyzed were derived by biparental cross, whereas 84.70% were formed by multi-parental crosses, being related to the degree of half-sibs. Only 4.6% of the seeds were formed by selfing. Paternity was successfully assigned with 95% of confidence to 32% (171) of the seeds analyzed, most likely due to non-sampled candidate pollen donors or because the loci battery could not demonstrated the optimal values for the combined exclusion. The maximum pollen dispersal distance (224 m) corresponded to the length of the orchard. The “big-bang” flowering pattern and the aggregated spatial distribution of adults may have favored short distance pollen dispersal at the germplasm collection of E. dysenterica. Our results show that the E. dysenterica germplasm collection preserves the genetic diversity present in natural populations of southeastern Goiás and can be a reliable approach for maintenance of genetic diversity of the species for the future.