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A study comparing the Y chromosome across mammalian species reveals that selection to maintain the ancestral dosage of homologous X–Y gene pairs preserved a handful of genes on the Y chromosome while the rest were lost; the survival of broadly expressed dosage-sensitive regulators of gene expression suggest that the human Y chromosome is essential for male viability.
Using high-throughput genome and transcriptome sequencing, Y chromosome evolution across 15 representative mammals is explored, with results providing evidence for three independent sex chromosome originations in mammals and birds.
By studying the transcriptome of fetal cells of monozygotic twins discordant for trisomy 21, this paper finds that differential expression between the twins is organized in domains along all chromosomes; these gene expression dysregulation domains are conserved in the mouse model of Down’s syndrome and correlate with the lamina-associated domains and replication domains.
A novel approach to the estimation of sea level and deep-sea temperature has been used to determine these quantities over the past 5.3 million years; this approach, based on oxygen isotope records from the eastern Mediterranean, shows that temperature and sea-level histories are broadly correlated but also show intriguing temporal offsets.
The egg receptor for Izumo, a sperm cell-surface protein required for male fertility, is identified here and renamed Juno; these findings show that the Izumo–Juno interaction is conserved within mammals, and open new opportunities for the development of fertility treatments and contraceptives.
A catalytic and enantioselective intermolecular Heck-type reaction of trisubstituted-alkenyl alcohols with aryl boronic acids provides direct access to quaternary stereocentres remote from a carbonyl group.
DNA double-stranded breaks (DSBs) are shown to form in greater numbers in yeast cells lacking ZMM proteins, which are traditionally regarded as acting strictly downstream of DSB formation; these findings shed light on how cells balance the beneficial and deleterious outcomes of DSB formation.
In order to find a general treatment for cancer, this study found that MTH1 activity is essential for the survival of transformed cells, and isolated two small-molecule inhibitors of MTH1, TH287 and TH588 — in the presence of these inhibitors, damaged nucleotides are incorporated into DNA only in cancer cells, causing cytotoxicity and eliciting a beneficial response in patient-derived mouse xenograft models.
A spatially resolved transcriptional atlas of the mid-gestational developing human brain has been created using laser-capture microdissection and microarray technology, providing a comprehensive reference resource which also enables new hypotheses about the nature of human brain evolution and the origins of neurodevelopmental disorders.
In mouse, an axonal connectivity map showing the wiring patterns across the entire brain has been created using an EGFP-expressing adeno-associated virus tracing technique, providing the first such whole-brain map for a vertebrate species.
A chemoproteomic screen is used here to identify MTH1 as the target of SCH51344, an experimental RAS-dependent cancer drug; a further search for inhibitors revealed (S)-crizotinib as a potent MTH1 antagonist, which suppresses tumour growth in animal models of colon cancer, and could be part of a new class of anticancer drugs.
This study reveals a role for the MHC class I molecule H2-Db in retinogeniculate synapse elimination; expression of this immune system molecule in neurons lacking it is sufficient to rescue proper synapse pruning, as well as the segregation of eye-specific circuits in mice.
The near-atomic-level structure of a complete bacterial light-harvesting antenna–reaction centre (LH1–RC) complex is described here; the structure reveals how energy is transferred from the LH1 to the RC in a highly efficient way and suggests how ubiquinone might cross a closed LH1 barrier.
Using the FANTOM5 CAGE expression atlas, the authors show that bidirectional capped RNAs are a signature feature of active enhancers and identify over 40,000 enhancer candidates from over 800 human cell and tissue samples across the whole human body.
Bariatric surgical procedures, such as vertical sleeve gastrectomy (VSG), are the most effective therapy for the treatment of obesity; now bile acids, and the presence of the nuclear bile acid receptor FXR, are shown to underpin the mechanism of VSG action, and the ability of VSG to reduce body weight and improve glucose tolerance is substantially reduced if FXR is absent.
A study from the FANTOM consortium using single-molecule cDNA sequencing of transcription start sites and their usage in human and mouse primary cells, cell lines and tissues reveals insights into the specificity and diversity of transcription patterns across different mammalian cell types.
Neuronal activity relaxes pericytes, leading to capillary dilation and increased blood flow, before arterioles dilate, suggesting that pericytes initiate blood-oxygen-level-dependent (BOLD) functional imaging signals; pericytes constrict and die in rigor in ischaemia, which will cause a long-lasting blood flow decrease after stroke, and damage the blood–brain barrier.
REST, a developmental regulator, is markedly induced in human neurons during ageing but is lost in Alzheimer’s disease; REST represses genes that promote neurodegeneration, is neuroprotective in animal models, and is associated with cognitive preservation and longevity in humans.
A large-scale transcriptome analysis in Drosophila melanogaster, across tissues, cell types and conditions, provides insights into global patterns and diversity of transcription initiation, splicing, polyadenylation and non-coding RNA expression.
Bone homeostasis and repair declines with ageing and the mechanisms regulating the relationship between bone growth and blood vessel formation have remained unknown; this mouse study identifies the endothelial cells that promote the formation of new bone, a small microvessel subtype that can be identified by high CD31 and high Emcn expression.