Dynamic protein methylation in chromatin biology

Post-translational modification of chromatin is emerging as an increasingly important regulator of chromosomal processes. In particular, histone lysine and arginine methylation play important roles in regulating transcription, maintaining genomic integrity, and contributing to epigenetic memory. Recently, the use of new approaches to analyse histone methylation, the generation of genetic model systems, and the ability to interrogate genome wide histone modification profiles has aided in defining how histone methylation contributes to these processes. Here we focus on the recent advances in our understanding of the histone methylation system and examine how dynamic histone methylation contributes to normal cellular function in mammals

Cohort Profile: COVIDMENT: COVID-19 cohorts on mental health across six nations

Why were the cohorts set up? With more than 218 million cases and 4.5 million deaths worldwide (Worldometers, 31 August 2021), the COVID-19 pandemic has had an unprecedented influence on the global economy and population health. As a potent global disaster, it is likely to significantly affect the incidence of adverse mental health symptoms and psychiatric disorders, particularly in vulnerable and highly affected populations. The World Health Organization and leading scientific journals have alerted concerning the potential adverse mental health impact of COVID-19 and emphasized the need for multinational research in this area, which additionally provides new insights into disease mechanisms

Correlation lengths in stacked InAs quantum dot systems studied by cross-sectional scanning tunnelling microscopy

We have studied the influence of the InP spacer layer thickness on stackedInAs/InP quantum dots, using cross-sectional scanning tunnellingmicroscopy. We show that for a spacer layer thickness of up to 30 nm, thequantum dots are spatially correlated but for a separating distance of 50 nmthe vertical ordering of the dots is lost. These values are the same aspreviously found for quantum dots in the InAs/GaAs system despite the largedifference in lattice mismatch between the InAs/GaAs (7%) and InAs/InP(3%) systems. We show that the apparent similarities can be understood by acombination of intermixing in the dots and differences in dot size. Finally,we demonstrate that the size of the quantum dots is affected by their verticalcorrelation

The ageing workforce: implications for occupational safety and health: A research review

This review presents the context in which the review was undertaken: the ageing workforce in Europe. It examines research in three main questions: (1) ‘What changes occur in ageing individuals?’, (2) ‘What are the implications of these changes throughout working life?’ and (3) ‘What OSH measures could promote sustainable work throughout working life?’. Gaps in current knowledge are identified and overall conclusions and possible policy implications are presented, highlighting the importance of improved prevention for all workers, considering individual work ability and specific measures in risk prevention strategies, and effective OSH systems

A family-level Tree of Life for bivalves based on a Sanger-sequencing approach

The systematics of the molluscan class Bivalvia are explored using a 5-gene Sanger-based approach including the largest taxon sampling to date, encompassing 219 ingroup species spanning 93 (or 82%) of the 113 currently accepted bivalve families. This study was designed to populate the bivalve Tree of Life at the family level and to place many genera into a clear phylogenetic context, but also pointing to several major clades where taxonomic work is sorely needed. Despite not recovering monophyly of Bivalvia or Protobranchia—as in most previous Sanger-based approaches to bivalve phylogeny—our study provides increased resolution in many higher-level clades, and supports the monophyly of Autobranchia, Pteriomorphia, Heteroconchia, Palaeoheterodonta, Heterodonta, Archiheterodonta, Euheterodonta, Anomalodesmata, Imparidentia, and Neoheterodontei, in addition to many other lower clades. However, deep nodes within some of these clades, especially Pteriomorphia and Imparidentia, could not be resolved with confidence. In addition, many families are not supported, and several are supported as non-monophyletic, including Malletiidae, Nuculanidae, Yoldiidae, Malleidae, Pteriidae, Arcidae, Propeamussiidae, Iridinidae, Carditidae, Myochamidae, Lyonsiidae, Pandoridae, Montacutidae, Galeommatidae, Tellinidae, Semelidae, Psammobiidae, Donacidae, Mactridae, and Cyrenidae; Veneridae is paraphyletic with respect to Chamidae, although this result appears to be an artifact. The denser sampling however allowed testing specific placement of species, showing, for example, that the unusual Australian Plebidonax deltoides is not a member of Donacidae and instead nests within Psammobiidae, suggesting that major revision of Tellinoidea may be required. We also showed that Cleidothaerus is sister group to the cementing member of Myochamidae, suggesting that Cleidothaeridae may not be a valid family and that cementation in Cleidothaerus and Myochama may have had a single origin. These results highlight the need for an integrative approach including as many genera as possible, and that the monophyly and relationships of many families require detailed reassessment. NGS approaches may be able to resolve the most recalcitrant nodes in the near future