64 research outputs found
Evolution and Expression of MYB Genes in Diploid and Polyploid Cotton
R2R3-MYB transcription factors have been implicated in a diversity of plant-specific processes. Among the functions attributed to myb factors is the determination of cell shape, including regulation of trichome length and density. Because myb transcription factors are likely to play a role in cotton fiber development, the molecular evolutionary properties of six MYB genes previously shown to be expressed in cotton fiber initiation were examined. In accordance with their presumed central role, each of the genes display conservative substitution patterns and limited sequence divergence in diploid members of the genus Gossypium, and this pattern is conserved in allotetraploid cottons. In contrast to highly reiterated rDNA repeats, GhMYB homologues (duplicated gene pairs) exhibit no evidence of concerted evolution, but instead appear to evolve independently in the allopolyploid nucleus. Expression patterns for the MYB genes were examined in several organs to determine if there have been changes in expression patterns between the diploids (G. raimondii and G. arboreum) and the tetraploid (G. hirsutum) or between the duplicated copies in the tetraploid. Spatial and temporal expression patterns appear to have been evolutionarily conserved, both during divergence of the diploid parents of allopolyploid cotton and following polyploid formation. However, the duplicated copies of MYB1 in the tetraploid are not expressed at equal levels or equivalently in all organs, suggesting possible functional differentiation
Polyploidization Altered Gene Functions in Cotton (Gossypium spp.)
Cotton (Gossypium spp.) is an important crop plant that is widely grown to produce both natural textile fibers and cottonseed oil. Cotton fibers, the economically more important product of the cotton plant, are seed trichomes derived from individual cells of the epidermal layer of the seed coat. It has been known for a long time that large numbers of genes determine the development of cotton fiber, and more recently it has been determined that these genes are distributed across At and Dt subgenomes of tetraploid AD cottons. In the present study, the organization and evolution of the fiber development genes were investigated through the construction of an integrated genetic and physical map of fiber development genes whose functions have been verified and confirmed. A total of 535 cotton fiber development genes, including 103 fiber transcription factors, 259 fiber development genes, and 173 SSR-contained fiber ESTs, were analyzed at the subgenome level. A total of 499 fiber related contigs were selected and assembled. Together these contigs covered about 151 Mb in physical length, or about 6.7% of the tetraploid cotton genome. Among the 499 contigs, 397 were anchored onto individual chromosomes. Results from our studies on the distribution patterns of the fiber development genes and transcription factors between the At and Dt subgenomes showed that more transcription factors were from Dt subgenome than At, whereas more fiber development genes were from At subgenome than Dt. Combining our mapping results with previous reports that more fiber QTLs were mapped in Dt subgenome than At subgenome, the results suggested a new functional hypothesis for tetraploid cotton. After the merging of the two diploid Gossypium genomes, the At subgenome has provided most of the genes for fiber development, because it continues to function similar to its fiber producing diploid A genome ancestor. On the other hand, the Dt subgenome, with its non-fiber producing D genome ancestor, provides more transcription factors that regulate the expression of the fiber genes in the At subgenome. This hypothesis would explain previously published mapping results. At the same time, this integrated map of fiber development genes would provide a framework to clone individual full-length fiber genes, to elucidate the physiological mechanisms of the fiber differentiation, elongation, and maturation, and to systematically study the functional network of these genes that interact during the process of fiber development in the tetraploid cottons
Finishing the euchromatic sequence of the human genome
The sequence of the human genome encodes the genetic instructions for human physiology, as well as rich information about human evolution. In 2001, the International Human Genome Sequencing Consortium reported a draft sequence of the euchromatic portion of the human genome. Since then, the international collaboration has worked to convert this draft into a genome sequence with high accuracy and nearly complete coverage. Here, we report the result of this finishing process. The current genome sequence (Build 35) contains 2.85 billion nucleotides interrupted by only 341 gaps. It covers ∼99% of the euchromatic genome and is accurate to an error rate of ∼1 event per 100,000 bases. Many of the remaining euchromatic gaps are associated with segmental duplications and will require focused work with new methods. The near-complete sequence, the first for a vertebrate, greatly improves the precision of biological analyses of the human genome including studies of gene number, birth and death. Notably, the human enome seems to encode only 20,000-25,000 protein-coding genes. The genome sequence reported here should serve as a firm foundation for biomedical research in the decades ahead
Politics of Culture and Cultural Policies in the European Union
In this contribution I focus on two main points: a) policies, chiefly cultural policy, and mainstreaming of the cultural dimension of EU l policy; b) and financial support, primarily via the Culture Programme (2007-2013), but also via other actions such as within the framework of regional policy. These two aspects are closely linked as the Programme has been designed to serve policy development in the cultural field and ultimately to promote common cultural values aiming to enhance the cultural heritage shared by Europe's peoples
Totalitarismo e futuro della democrazia
Il saggio prende in considerazione le possibili derive totalitarie della democrazia
Visioni della democrazia
Da più di un decennio si assiste a una particolare fioritura della letteratura filosofica e politologica sulla democrazia, tesa, da un lato, a ridefinire concettualmente una categoria analitica apparentemente vuota che sembra ormai aver perso ogni validità euristica e, dall’altro, a saggiare la possibilità della sua realizzazione sul piano empirico e fattuale. Spesso e a torto, infatti, la democrazia viene considerata come un presupposto acquisito e non come un processo di ridefinizione permanente, informato al sistema dei valori vigenti e in continuo mutamento, sintesi e rappresentazione di una cultura e non di un’astratta razionalità operatrice. Sovente riemerge la convinzione per cui se la democrazia è quel tipo di sistema e di organizzazione che stiano esperendo negli stati occidentali, dove le libertà civili e individuali vengono sempre più aggredite da esigenze di sicurezza e di controllo, allora non si vede quali siano le differenze rispetto a regimi autoritari o addirittura totalitari. Nel tentativo di far luce sul fondamento della democrazia e sui suoi criteri distintivi, questo libro propone diverse visioni della democrazia, spesso dilemmatiche e contrapposte, sovente prefiguranti un suo superamento o un auspicabile ritorno in forma inedita, mai sperimentata in precedenza
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