Second-generation chromosome-specific BAC resources in wheat

In the societal and scientific discussions about the support for democracy and gender equality in the Arab Middle East, this study engages the triangular theory, which predicts that Islamic orientations influence gender equality attitudes and democracy negatively, and attitudes towards gender equality are also expected to lead to more democratic support, partly channelling the influence of Islam. This theory was tested on Arab Barometer data for seven countries, including three different dimensions of Islamic-religious identity: affiliation, piety, and political-Islamist attitudes. The analyses roughly back the triangular model, but for democratic support only the Islamist values seem important, partly working through economic gender equality attitudes. Attitudes towards women’s position in politics and education seem unrelated to democratic support. In addition, this study applies the gender and postcolonial concept of ‘othering’ to the triangular model. Theoretically it predicts that in the current neo-colonial era, anti-Western feelings might create more Islamic and less democracy and gender equal attitudes simultaneously, making Islam’s impact partly spurious. Empirically, this is modestly supported for the Islamist-democracy link only. However, anti-Western feelings do relate to gender equality, democratic support, and religious attitudes, and deserves more attention when studying democracy and gender equality in the Arab Middle East

Somatic embryogenesis and flow cytometric assessment of nuclear genetic stability for Sansevieria spp.: an approach for in vitro regeneration of ornamental plants

Sansevieria Thunb. species are traditionally known as succulent ornamental plants world- wide. They are also cultivated for medicinal, fodder, soil conservation and fiber uses, and for their capacity to reduce environmental pollution. Sansevieria sexual propagation is limited by the lack of viable seeds, and reproduction is largely made via vegetative propagation by suckers or cuttings. For these reasons, genetic improvement by conventional breeding is limited. To overcome this problem and to address the increasing demand from customers for novel Sansevieria varieties, many commercial companies regularly use in vitro propagation, as is the case in the breeding process of several ornamental plants. In this paper, for the first time, we report a procedure for in vitro somatic embryogenesis and plant regeneration starting from three flower explants for seven different Sansevieria genotypes. Regeneration was attempted using stigmas/styles, anther/filament, and ovary which were cultured on a Murashige and Skoog solidified medium under three different plant growth regulator combinations. A good regeneration rate was obtained with all genotypes used under all culture conditions tested from every explant type, with percentages ranging from 0 to 73.3%. “Genetic stability” assessment of regenerated plants in respect to their mother plants was verified through flow cytometry analysis showing a high degree of uniformity, with only S. parva exhibiting a different level of DNA fluorescence among in vitro regenerated plants. This is an interesting achievement in the aim to produce true-to-type plants and new variants with desirable characteristics, both of which are desired features in ornamentals improvement

Molecular marker-assisted characterization of mulberry (Morus Ssp.) cultivars for the constitution of a core collection

Mulberries are members of the genus Morus L., a taxonomic group showing a great genetic variability and adaptability to different environmental conditions. This study deals with the use of AFLP-based fingerprints as a tool for estimating genetic variability within as well as among three different mulberry species (i.e., M. alba L., M. latifolia Poir. and M. bombycis Koidz.) Preliminary flow cytometric analyses pointed out the presence of diploid as well as triploid accessions. A high level of polymorphism (72.2%) was found over all the 48 accessions analyzed. Genetic similarity (GS) within single Morus species ranged from 0.845 (M. bombycis) to 0.884 (M. alba) being intermediate in M. latifolia (0.869). The between-species mean genetic similarity estimates based on pair-wise AFLP marker fingerprint comparison were very similar ranging from 0.861 to 0.874. The partition of the genetic variation over the three Morus species was unexpected: a proportion of the among-species genetic diversity as low as GST=0.084 pointed out that about 92% of the total genetic diversity found among Morus accessions is due to DNA polymorphisms within a species, while only 8% of the total variation was highlighted among species. Our data indicate that some of the introduced accessions showing distinctive phenotypes, clearly differentiated from those revealed in the original habitat where they have been selected and adapted, hide an identical genotype. Current studies are aimed to set up a high reproducible identification method on the basis of accession-specific AFLP marker sequences to be used in simple PCR-based haplotyping

Saponaria officinalis karyology and karyotype by means of image analyzer and atomic force microscopy

The aim of this work was to offer a contribution to the characterization of taxonomic entity of Saponaria officinalis (2n 5 28; an herbaceous perennial species; saporin, a type 1 Ribosome Inactivating Protein, is present in leaves and seeds) by a cytogenetic and karyomorphological approach. We investigated the karyotype's morphometry correlated with Stebbin's symmetric index; the same information has been used for computing the indices resemblance between chromosomes (REC), symmetric indices (SYI), and total form (TF%) which allow the comparison between species and evaluation of karyological evolution. Fluorescence intensities of the stained nuclei were measured by a flow cytometer and, for the first time, values for nuclear DNA content were estimated by comparing nuclei fluorescence intensities of the test population with those of appropriate internal DNA standards. Our study is also aimed to introduce chromosomal volumes, which were determined by atomic force microscopy (AFM), as novel karyomorphological parameter which could allow for chromosome discrimination especially when tiny ones are present. © 2008 Wiley-Liss, Inc

Inheritance of parental genomes in progenies of Poa pratensis L. from sexual and apomictic genotypes as assessed by RAPD markers and Flow Cytometry.

Moving gene(s) responsible for the apomictic trait into crop plants that naturally reproduce through a sexual process would open up new areas in plant breeding and agricultural systems. Kentucky bluegrass (Poa pratensis L.) is one of the most important forage and turf grasses in temperate climates. It reproduces through facultative aposporous parthenogenesis, but the reproductive behaviour ranges naturally from nearly obligate apomixis to complete sexuality. In addition to apomictic reproduction, sexual hybridization may take place. Selfing may also occur, and occasionally reduced egg cells may develop through parthenogenesis generating (poly)haploids. The inheritance of parental genomes was assessed in Kentucky bluegrass progenies by employing RAPD markers in combination with flow cytometry (FCM). Nine progenies from different crosses carried out between completely sexual and highly apomictic genotypes were evaluated in order to probe the reproductive behaviour of the mother plants and to distinguish the different classes of aberrant plants. Not only were maternals and balanced BII hybrids recorded, but so were (poly)triploid BIII hybrids, selfs, and (poly)haploids. The application of these techniques demonstrated that FCM analysis accurately distinguishes the n, 2n, and 3n ploidy levels of progenies, and that RAPD markers unequivocally recognize progenies of apomictic and hybrid origin. The occurrence of aneusomaty was documented in one of the selected sexual genotypes, whose crossed progeny plants manifested two distinct classes of ploidy. The nomenclature BI was adopted to refer to hybrids with a hypodiploid nuclear condition. On the whole, the FCM analysis confirmed most of the RAPD data. The combined evaluation of DNA markers and DNA contents proved to be an efficient screening tool for scoring maternal plants, assessing the genetic origin of aberrant plants, and quantifying the inheritance of parental genomes in Kentucky bluegrass. Hybrid populations from sexual 7apomictic matings that segregate for the mode of reproduction represent a valuable basis for attempting to identify molecular markers linked to the apomixis gene(s)