ABSTRACT. Genomic in situ hybridization (GISH), which is a modification of fluorescent in situ hybridization, has been widely used in the study of plants. It has become one of the most important techniques for molecular cytogenetics. GISH is a technique that allows distinguishing the genomes in a cell. With this technique, it is possible to differentiate the genomes in a hybrid; consequently, this tool has been applied to the study of hybrid lineages, genetic improvement programs, and studies of the evolution of polyploids. Moreover, GISH can be applied to the analysis of the meiotic behavior in hybrids and polyploids, providing information concerning the relationship between species. This review presents the wide application of this technique in plants.
A diversidade genética entre genótipos de maracujazeiro amarelo foi avaliada por meio de marcadores genéticos de DNA tipo RAPD. Para tanto, materiais genéticos foram coletados em populações comerciais em regiões tradicionais de fruticultura da Região Norte Fluminense (Itaperuna, São Francisco do Itabapoana, Campos dos Goytacazes). Foi também estimada a diversidade entre a espécie cultivada (Passiflora edulis f. flavicarpa Deg.) e espécies relacionadas no gênero, P. alata, P. giberti, P. cincinnata, P. foetida, P. edulis. P. maliformes, P. mucronata, P. suberosa, P. malacophylla. Para o estudo dos acessos de maracujá amarelo não foi verificada expressiva diversidade genética; as populações se distribuíram conforme sua origem, sendo que os indivíduos coletados em São Francisco do Itabapoana apresentaram uma maior consistência no seu agrupamento. Para o estudo interespecífico, verificou-se que P. maliformis ficou em um grupo distinto, assim como P. giberti, mas próximo a P. mucronata. Para a espécie P. alata foi também verificada a sua alocação em um grupo distinto. Para as espécies P. cincinnata e P. edulis (Maracujá roxo), ambas ficaram alocadas em mesmo grupo, evidenciando uma proximidade entre as mesmas. As espécies P. foetida e P. suberosa formaram um grupo único.
Three new varieties of Passiflora hybrids were developed from crosses between P. sublanceolata J. M. MacDougal (ex P. palmeri var. sublanceolata Killip) versus P. foetida var. foetida L. Twenty putative hybrids were analyzed. Hybridizations were confirmed by RAPD and SSR markers. The RAPD primer UBC11 (5 0 -CCGGCCTTAC-3 0 ) generated informative bands. The SSR primer A08FP1 amplified species-specific fragments and heterozygote status was observed with the two parent bands 240 and 280 bp. The molecular markers generated by primers were analyzed in terms of the presence or absence of specific informative bands. The morphological characterization of the hybrids enabled their differentiation into three groups, identified as: (1) Passiflora 'Alva', composed of five hybrid plants with white flowers, large corona, light purple filaments at base, white and purple/white banding to apex; (2) P. 'Aninha', composed of six hybrid plants with pale pink flowers, corona filaments reddish/purple at base, white, purple/ white banding to apex; (3) P. 'Priscilla', composed of nine hybrid plants with white flowers, small corona, filaments dark purple at base, white and purple to apex. The genomic homology of parent plants was verified by cytogenetic analysis. Both parents were 2n = 22. Meiosis was regular in genitors and hybrids. Aneuploidy was observed at hybrid groups P. 'Alva' and P. 'Priscilla' (2n = 20). Other authors had already observed the same number of chromosomes for some P. foetida genotypes. Obtaining valuable interspecific hybrids opens up new perspectives to offer opportunities in agribusiness for producers and to arouse the interest of consumers into using passion flowers in the Brazilian ornamental plant market.
Nuclear genome size variation was studied in eight taxa of Passiflora. Nuclear DNA content was estimated by flow cytometry of nuclei stained by propidium iodide. 2C DNA content ranged from 3.16-5.36 pg for diploids and 1.83 pg for tetraploid. Differences in nuclear genome size were observed among Passiflora species (pg): P. suberosa 1.83, P. edulis f. edulis 3.16, P. edulis f. flavicarpa (Brazil) 3.19, P. edulis f. flavicarpa (Mexico) 3.21, P. mucronata 3.40, Passiflora edmundoi 3.43, P. laurifolia 3.88, P. giberti 3.92, P. quadrangularis 5.36, the largest value being up to 192% greater than the smallest. The means of 2C DNA content were compared by the Tukey test, and the differences in genome size permitted the recognition of five taxa groups. The result was the same for the means 2C genome size (Mbp) values. The genetic parameters were studied with their respective estimators, phenotypic variance (sigma2F), genotypic variability (PhiG), and the genotypic determination index (H2). The genotypic determination index presented high magnitude estimates (greater than 99%) emphasizing the reliability of the results and demonstrating the efficiency of determining the DNA content in the species using only one leaf per plant. Passiflora species show great phenotypic variability and have different geographic distribution that might implicate in genetic diversity.
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