165 research outputs found
Georges Sorel’s Study on Vico
This English translation of Sorel’s Study on Vico opens the way to a radical re-evaluation not only of Sorel’s trajectory, but of his French intellectual contexts, and the anarcho-syndicalism he is sometimes said to represent Readership: Students and researchers of fin de siècle European intellectual history; historians of the social sciences, and Marxism; students of Vico’s legacy and of Sorel’s social thought. Anyone interested in the roots of cultural studies
Georges Sorel’s Study on Vico
This English translation of Sorel’s Study on Vico opens the way to a radical re-evaluation not only of Sorel’s trajectory, but of his French intellectual contexts, and the anarcho-syndicalism he is sometimes said to represent Readership: Students and researchers of fin de siècle European intellectual history; historians of the social sciences, and Marxism; students of Vico’s legacy and of Sorel’s social thought. Anyone interested in the roots of cultural studies
The uncertainties of action : agency, capitalism, and class in the thought of Georges Sorel
Defence date: 9 January 2015Examining Board: Professor Martin van Gelderen, European University Institute /Lichtenberg Kolleg, Universität Göttingen (Supervisor) Professor Laura Lee Downs, European University Institute Professor Gareth Stedman Jones, University of Cambridge Professor Nadia Urbinati, Columbia University, New York.Against an established but substantially mistaken consensus, this intellectual biography suggests that a contextually informed reading of Sorel's work invalidates both the supposedly 'irrationalist' character of his theoretical elaboration and the interpretation of his syndicalism as a theory of insurrection for insurrections' sake.This is done by showing that Sorel's understanding of historical materialism was decisively shaped by epistemological questions on science, determinism, and freedom that characterized the French philosophical debate in the 1880s and 1890s. The inability of the dominant understanding of science to make room for human agency in history brought Sorel to remove both historical and economic determinism from his revision of Marxism and led him, through his readings of Vico and Labriola, to understand the social world in terms of collective agency embedded in changing institutions rather than as a set of phenomena connected by deterministic causal relations. This resulted in an understanding of the socialist transformation as a longue durée process of proletarian institutional evolution and led Sorel to see in existing proletarian institutions, most notably unions, the seeds of the society of tomorrow.As Sorel, after 1900, focussed on the more empirical question of how to ensure the progress of existing working class institutions, he became aware of living in an era characterized by a process of assimilation of European working classes into national frameworks. He understood, like Bernstein, that the increasing interdependency between national states and capital hampered the revolutionary potential of proletarian institutions. Unlike Bernstein, however, he refused to abandon the revolutionary ambitions that he thought were essential to Marxism. Thus, he dedicated his most important works, most notably the Reflections on violence, to the questions of class identity and class formation.Instead of the 'pessimist moaning for blood' described by G.D.H. Cole, Sorel emerges, philosophically, as an epistemologist concerned with human agency and with its essential historicity, and historically, as a Marxist who perceptively understood the challenges that a changing capitalism posed to the revolutionary perspective outlined by Marx
Copia and Gypsy retrotransposons activity in sunflower (Helianthus annuus L.)
<p>Abstract</p> <p>Background</p> <p>Retrotransposons are heterogeneous sequences, widespread in eukaryotic genomes, which refer to the so-called mobile DNA. They resemble retroviruses, both in their structure and for their ability to transpose within the host genome, of which they make up a considerable portion. <it>Copia</it>- and <it>Gypsy</it>-like retrotransposons are the two main classes of retroelements shown to be ubiquitous in plant genomes. Ideally, the retrotransposons life cycle results in the synthesis of a messenger RNA and then self-encoded proteins to process retrotransposon mRNA in double stranded extra-chromosomal cDNA copies which may integrate in new chromosomal locations.</p> <p>Results</p> <p>The RT-PCR and IRAP protocol were applied to detect the presence of <it>Copia </it>and <it>Gypsy </it>retrotransposon transcripts and of new events of integration in unstressed plants of a sunflower (<it>Helianthus annuus </it>L.) selfed line. Results show that in sunflower retrotransposons transcription occurs in all analyzed organs (embryos, leaves, roots, and flowers). In one out of sixty-four individuals analyzed, retrotransposons transcription resulted in the integration of a new element into the genome.</p> <p>Conclusion</p> <p>These results indicate that the retrotransposon life cycle is firmly controlled at a post transcriptional level. A possible silencing mechanism is discussed.</p
Different histories of two highly variable LTR retrotransposons in sunflower species
In the Helianthus genus, very large intra- and interspecific variability related to two specific retrotransposons of Helianthus annuus (Helicopia and SURE) exists. When comparing these two sequences to sunflower sequence databases recently produced by our lab, the Helicopia family was shown to belong to the Maximus/SIRE lineage of the Sirevirus genus of the Copia superfamily, whereas the SURE element (whose superfamily was not even previously identified) was classified as a Gypsy element of the Ogre/Tat lineage of the Metavirus genus. Bioinformatic analysis of the two retrotransposon families revealed their genomic abundance and relative proliferation timing. The genomic abundance of these families differed significantly among 12 Helianthus species. The ratio between the abundance of long terminal repeats and their reverse transcriptases suggested that the SURE family has relatively more solo long terminal repeats than does Helicopia. Pairwise comparisons of Illumina reads encoding the reverse transcriptase domain indicated that SURE amplification may have occurred more recently than that of Helicopia. Finally, the analysis of population structure based on the SURE and Helicopia polymorphisms of 32 Helianthus species evidenced two subpopulations, which roughly corresponded to species of the Helianthus and Divaricati/Ciliares sections. However, a number of species showed an admixed structure, confirming the importance of interspecific hybridisation in the evolution of this genus. In general, these two retrotransposon families differentially contributed to interspecific variability, emphasising the need to refer to specific families when studying genome evolution
Variability in LTR-retrotransposon redundancy and proximity to genes between sunflower cultivars and wild accessions.
The sunflower (Helianthus annuus) genome contains a very large proportion of transposable
elements, especially long-terminal-repeat retrotransposons. Being knowledge on the
retrotransposon-related variability within this species still limited, we performed a quantitative and
qualitative survey of intraspecific variation of LTR-retrotransposon fraction of the genome across
different genotypes of H. annuus, using next generation sequencing technologies. First, we
characterized the repetitive component of a sunflower homozygous experimental line, using 454
reads, and prepared a library of retrotransposon-related sequences. Then, we analysed the LTRretrotransposon
fraction of 7 wild accessions and 8 cultivars of sunflowerby mapping Illumina reads
of the 15 genotypes onto the library. We observed large variations in redundancy among genotypes,
at both superfamily and family levels. In another analysis, we mapped Illumina paired reads of the
15 genotypes onto two sets of sequences, i.e. retrotransposons and protein-encoding sequences, and
evaluated the extent of retrotransposon proximity to genes in the 15 genomes by counting the
number of paired reads of which one mapped onto a retrotransposon and the other onto a gene.
Large variability among genotypes was ascertained also for retrotransposonproximity to genes.
Both retrotransposon redundancy and proximity to genes showed different behaviour among
retrotransposon families and also between cultivated and wild genotypes, indicating a possible
involvement in sunflower domestication
A survey of variability in LTR-retrotransposon abundance and proximity to genes between wild and cultivated sunflower genotypes
Sunflower (Helianthus annuus) is an important crop species of the Asteraceae family. Recent
characterization of sunflower repetitive fraction has shown that the genome of this species contains
a very large proportion of transposable elements, especially long-terminal-repeat retrotransposons.
However, knowledge on the retrotransposon-related variability within this species is still limited.
We used next generation sequencing technologies to perform a quantitative and qualitative survey
of intraspecific variation of the retrotransposon fraction of the genome across different genotypes of
H. annuus. First, we characterized the repetitive component of a sunflower homozygous
experimental line, using 454 reads, and prepared a library of retrotransposon-related sequences.
Then, we analysed the retrotransposon fraction of 7 wild accessions and 8 cultivars of H. annuus by
mapping Illumina reads of the 15 genotypes onto the library. We observed large variations in
redundancy among genotypes, at both superfamily and family levels. In another analysis, we
mapped Illumina paired reads of the 15 genotypes onto two sets of sequences, i.e. retrotransposons
and protein-encoding sequences, and evaluated the extent of retrotransposon proximity to genes in
the 15 genomes by counting the number of paired reads of which one mapped onto a
retrotransposon and the other onto a gene. Large variability among genotypes was ascertained also
for retrotransposon proximity to genes. Both retrotransposon redundancy and proximity to genes
showed different behaviour among retrotransposon families and also between cultivated and wild
genotypes, indicating a possible involvement in sunflower domestication
NR V2X Communications at Millimeter Waves: An End-to-End Performance Evaluation
3GPP NR V2X represents the new 3GPP standard for next-generation vehicular
systems which, among other innovations, supports vehicle-to-vehicle (V2V)
operations in the millimeter wave (mmWave) spectrum to address the
communication requirements of future intelligent automotive networks. While
mmWaves will enable massive data rates and low latency, the propagation
characteristics at very high frequencies become very challenging, thereby
calling for accurate performance evaluations as a means to properly assess the
performance of such systems. Along these lines, in this paper MilliCar, the new
ns-3 module based on the latest NR V2X specifications, is used to provide an
end-to-end performance evaluation of mmWave V2V networks. We investigate the
impact of different propagation scenarios and system parameters, including the
inter-vehicle distance, the adopted frame numerology, and the modulation and
coding scheme, and provide guidelines towards the most promising V2V deployment
configurations.Comment: 6 pages, 7 figures. Submitted to IEEE Globecom 202
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