The work on breeding new apple cultivars, of improved quality and longer storage life has been going on for a long time at the Fruit and Grape Research Centre in Čačak. As a result nine promising apple selections, that show the range of fruit storage capability (J/l/7, J/l/20, J/2/12, J/2/14, J/ll/31, J/54/53/59, J/60/7/63, Šumatovka 1 O.P. and Šumatovka 2 O.P.), were singled out. Fruit ripening is genetically programmed, complex physiological process with the important role of plant hormone ethylene. Allelic polymorphism of the genes encoding ACC synthase and ACC oxidase, enzymes on ethylene biosynthetic pathway, was studied in promising apple selections and compared to their storage life. Polymorphism was detected by the polymerase chain reaction (PCR method) and restriction analysis with 6 restriction enzymes. Two alleles of the gene encoding ACC synthase (ACS1-1 and ACS1-2), three alleles of the ACC oxidase gene (a, b and n) were identified and a positive test for early seedling selection, the fruits of which will be characterized by long storage life, was indicated
Apple is economically the most important species of genus Malus Miller. In respect of production, trade and consumption, it ranks first among deciduous fruit and third on a global scale among all fruit species. Apple breeding is carried out on a large scale in several scientific institutes throughout the world. Due to this activity, apple is a fruit species with the highest number of described monogenic traits; 76 genes, encoding morphological traits, pest and disease resistance, as well as 69 genes encoding enzymes. The development of molecular markers (RFLPs, AFLPs, SCARs and SSRs) has allowed the mapping of the apple genome and the development of several saturated genetic maps, to which genes controlling important traits are assigned. Markers flanking these genes not only play an important role in selecting parental combinations and seedlings with positive traits, but they are also particularly important in detecting recessive traits, such as seedless fruit. In addition they enable pre-selection for polygenic quantitative traits. In recent years, particular attention has been paid to biochemical and physiological processes involved in the pathway of important traits e.g., ripening and the storage capability of apple fruit
The paper presents results of eight-year study (1999-2006) of flowering phenophase in 21 introduced sweet cherry cultivars grown under the agro-environmental conditions of West Serbia. Flowering time, as well as progress and abundance of flowering were studied, and classification of the studied cultivars according to flowering time was derived. On the basis of mean several-year overlap in phenophase of full flowering and on the grounds of so far known data on classification of these cultivars among incompatibility groups, we have offered a recommendation for their cultivation in orchards whereby the most effective pollination and fertilization can be ensured as well as good fruit-set and satisfactory fruit yields
Ethylene is a plant hormone, which plays an important role in the ripening of climacteric fruits such as the apple. We studied allelic polymorphism of the ETR1 gene, encoding ethylene receptor, in 23 autochthonous apple cultivars. The polymorphism was revealed by combining the gene specific PCR and restriction of PCR product. Four alleles of the ETR1 gene (a, b, c and d) were detected, and their possible association with the fruit storage ability examined
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