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Rubin et al. report the development of a programmable organism- and locus-specific genome editing approach that can target microorganisms in their native community context, without the need for isolation.
A study in Science reports the genetic determinants of differences in immune responses to viral infection between individuals of European and African ancestries.
A study in Nature Communications shows that horizontal transfer of bacterial chromosomes by phage-mediated lateral transduction renders them more mobile than many classically defined mobile genetic elements, including plasmids and transposons.
A study in Cell describes how non-coding RNAs can drive the formation of higher-order RNA-chromatin structures in the nucleus, with a role in mediating chromatin conformation and gene expression.
In this Journal Club article, Fowzan Alkuraya describes how a paper outlining the mathematical foundations of homozygosity mapping provided a route to disease gene identification that still benefits his patients in clinical practice today.
Individual cells in the same induced pluripotent stem cell (iPSC)-derived clones can exhibit large heterogeneity. In this Comment, Carelli et al. discuss emerging evidence implicating variants in mitochondrial DNA, and highlight the need for routine screening of iPSCs.
Two recent studies demonstrate that putative nucleases encoded by IS200/IS605 family transposons are programmable RNA-guided DNA endonucleases, which could represent a new source of genome-editing enzymes for biotechnological applications.
A study in Nature Biotechnology describes single-cell genome and epigenome by transposases sequencing (scGET-seq), which generates euchromatin and heterochromatin profiles from the same cell, and Chromatin Velocity, a computational framework capable of predicting future epigenetic cell fate trajectories from scGET-seq data.
Tom Misteli highlights a 2006 study by Shopland et al., which used relatively simple methods to visualize characteristics of chromosome organization. Their conclusions foreshadowed key concepts in the field: topologically associating domains, compartments and cell-to-cell heterogeneity in genome organization.
A study in Nature describes single-cell ribosome sequencing, which advances single-cell genomics by enabling the measurement of translational dynamics in single cells.
Three recent studies report the generation of miniature CRISPR systems based on compact Cas effector proteins, showing high efficiency of genome editing or transcriptional regulation in mammalian cells.
Four new studies in Nature report multi-tissue analyses of somatic mutations from human donors, with insights into cell lineage commitment during embryonic development, as well as tissue-specific aspects of mutagenesis.
This molecular phenotyping study shows that common variants in mitochondrial DNA associated with diseases of ageing influence cellular protein homeostasis, and that this link is mediated by circulating levels of N-formylmethionine, the initiating amino acid in mitochondrial protein synthesis.
A new study in Nature reports a large-scale genome-wide association study of menopause timing, revealing mechanistic details and potential therapeutic opportunities for preserving human fertility.
Attempts to understand the role of aneuploidy in tumorigenesis have been hampered by conflicting results. Now, two new mouse models described in Genes and Development provide evidence that chromosome instability-induced aneuploidy drives T cell lymphomagenesis.
A new method called CIM-seq analyses pairwise co-occurrences of cell types across multiplets to identify cells that are in physical contact with each other in intact tissues.
A recent study has analysed publicly available long-read sequencing data to characterize human-specific variable number tandem repeats at high resolution.
A study in Current Biology reports the retrieval of genome-scale information for human, wolf (Canis lupus) and bison (Bison bonasus) by shotgun sequencing and genomic analysis of a sediment sample.
A new report introduces xPore, a computational method and statistical framework for the analysis of differential RNA modifications from nanopore direct RNA sequencing data.