13 research outputs found
Enhanced Syllable Discrimination Thresholds in Musicians
Speech processing inherently relies on the perception of specific, rapidly changing spectral and temporal acoustic features. Advanced acoustic perception is also integral to musical expertise, and accordingly several studies have demonstrated a significant relationship between musical training and superior processing of various aspects of speech. Speech and music appear to overlap in spectral and temporal features; however, it remains unclear which of these acoustic features, crucial for speech processing, are most closely associated with musical training. The present study examined the perceptual acuity of musicians to the acoustic components of speech necessary for intra-phonemic discrimination of synthetic syllables. We compared musicians and non-musicians on discrimination thresholds of three synthetic speech syllable continua that varied in their spectral and temporal discrimination demands, specifically voice onset time (VOT) and amplitude envelope cues in the temporal domain. Musicians demonstrated superior discrimination only for syllables that required resolution of temporal cues. Furthermore, performance on the temporal syllable continua positively correlated with the length and intensity of musical training. These findings support one potential mechanism by which musical training may selectively enhance speech perception, namely by reinforcing temporal acuity and/or perception of amplitude rise time, and implications for the translation of musical training to long-term linguistic abilities.Grammy FoundationWilliam F. Milton Fun
Targeted reprogramming of H3K27me3 resets epigenetic memory in plant paternal chromatin
Epigenetic marks are reprogrammed in the gametes to reset genomic potential in the next generation. In mammals, paternal chromatin is extensively reprogrammed through the global erasure of DNA methylation and the exchange of histones with protamines(1,2). Precisely how the paternal epigenome is reprogrammed in flowering plants has remained unclear since DNA is not demethylated and histones are retained in sperm(3,4). Here, we describe a multi-layered mechanism by which H3K27me3 is globally lost from histone-based sperm chromatin in Arabidopsis. This mechanism involves the silencing of H3K27me3 writers, activity of H3K27me3 erasers and deposition of a sperm-specific histone, H3.10 (ref. (5)), which we show is immune to lysine 27 methylation. The loss of H3K27me3 facilitates the transcription of genes essential for spermatogenesis and pre-configures sperm with a chromatin state that forecasts gene expression in the next generation. Thus, plants have evolved a specific mechanism to simultaneously differentiate male gametes and reprogram the paternal epigenome
Mitochondrial DNA detection and copy number determination in the spermatozoa of the sea urchin Arbacia lixula
Die »Zirkulation der Ideen« bei Lazarus / Steinthal Von öffentlicher Kulturproduktion zu sozial-normativer »Wilhelm Meister«-Rezeption
Genome expansion and gene loss in powdery mildew fungi reveal tradeoffs in extreme parasitism
Powdery mildews are phytopathogens whose growth and reproduction are entirely dependent
on living plant cells. The molecular basis of this life-style, obligate biotrophy, remains unknown. We
present the genome analysis of barley powdery mildew, Blumeria graminis f.sp. hordei (Blumeria), as well
as a comparison with the analysis of two powdery mildews pathogenic on dicotyledonous plants. These
genomes display massive retrotransposon proliferation, genome-size expansion, and gene losses. The
missing genes encode enzymes of primary and secondary metabolism, carbohydrate-active enzymes, and
transporters, probably reflecting their redundancy in an exclusively biotrophic life-style. Among the 248
candidate effectors of pathogenesis identified in the Blumeria genome, very few (less than 10) define a
core set conserved in all three mildews, suggesting thatmost effectors represent species-specific adaptations