RNAi articles within Nature Communications

The molecular mechanisms underlying wing polyphenism remain poorly understood. Here the authors use plant hoppers to show that the development of long and short wing morphs is balanced by the relative activities of the Zfh1-FoxO and insulin signaling cascades.

Progression of the canonical eukaryotic cell cycle is tightly regulated. While the cell cycle control of flagellated protozoa Trypanosoma brucei shares conserved features with other eukaryotes certain cell cycle checkpoints are absent. Here, Marques et al. provide a genome-scale RNAi screen followed by sorting of parasites according to their cell cycle stage to inform about cell cycle regulators of bloodstream T. brucei.

The authors describe programmable Argonaute nucleases that use small DNA guides to recognize and cleave RNA targets and can sense mismatches and modifications in RNA targets, making them potential tools for RNA biotechnology.

Long hairpin RNA (hpRNA) transgenes are the most widely used RNAi technology in plants, but are potentially subject to self-induced transcriptional silencing. Here, the authors show nucleotide mismatches prevent intrinsic self-silencing of hpRNA transgenes in Arabidopsis and tobacco.

While RNA interference is conserved across species, small RNA pathways are very diverse. In this study, Gutbrod et al. find that non-canonical roles of Dicer in genome stability are in fact deeply conserved from yeast to humans.

Studying the contribution of pairs of genes to complex traits has been challenging. Here, the authors combine exome and genotype data with RNAi to screen for genetic interactions between 30 genes identified in lipid GWAS to hint at pairs whose joint modulation may improve lipid-lowering therapies.

Evolutionary arms races can drive adaptations in hosts and parasites as well as among competing parasites. A combination of multi-omics and functional tests identifies a set of genes that allow a parasitic wasp to minimize intraspecific competition by inducing hosts to escape before more wasps can parasitize them.

miRNAs are loaded into Argonaute protein and repress complementary mRNA targets. Here the authors show the unappreciated role of RNA binding proteins for efficient miRNA targeting and expand the current understanding of miRNA targeting.

Rhodopsin-related dominant retinitis pigmentosa is a degenerative disease of the retina of the eye for which there is no current treatment. In this study, the authors use a novel form of RNA-interference- artificial mirtrons- to slow retinal degeneration in a mouse model of the disease.

Cas13b can be harnessed to target and degrade RNA transcripts inside a cellular environment. Here the authors reprogram Cas13b to target SARSCoV-2 transcripts in infected mammalian cells and reveal its resilience to variants thanks to single mismatch tolerance.

The therapeutic application of small interfering RNA (siRNA) is challenging due to its non-specific targeting and delivery issues. Here, the authors report an endogenous micro-RNA guided and hybridisation chain reaction-promoted siRNA delivery system encapsulated in tumour-derived extracellular vesicles, with cancer-specific activation, and achieve silencing of hypoxia-related genes.

22G-RNAs are single-stranded antisense small RNAs that are expressed in C. elegans germline. Here the authors show that CSR-1 dependent 22G-RNAs are produced in the cytosol on mRNAs actively engaged in translation and that codon usage of an mRNA regulates the biogenesis of CSR-1 dependent 22G-RNAs.

Parasitism is a widespread evolutionary strategy. A study that spans functional and evolutionary genomics identifies the molecular basis and history underlying two genes that have mediated divergent parasitic strategies (specialist vs generalist) between two sister species of parasitoid wasp.

The secondary structure of miRNA precursor sequences is known to affect processing by DICER-like proteins. Here Rojas et al. show that additional sequence features also play a regulatory role in plants with nucleotide identity at unpaired positions substantially impacting processing efficiency.

Short hairpin RNAs can be used to modulate and regulate gene expression. Here the authors generate chimeric RNAs that interact with the photoreceptor PAL, allowing for optoribogenetic control of cell physiology.

The C. elegans PIWI protein PRG-1 resides in the membraneless organelle P granule. Here, the authors identify the constitutive P granule protein DEPS-1 as an interactor of PRG-1 and show its function in piRNA-dependent silencing. DEPS-1 and PRG-1 form elongated condensates in vivo.

Cell cycle checkpoint kinase, MK2, is in synthetic relationship with p53 in the DNA damage response to chemotherapeutic agents. Here, the authors report XPA as a third gene in which simultaneous targeting of MK2 and XPA further enhances sensitivity to cisplatin in p53-deficient tumours.

The MOF acetyltransferase-containing Non-Specific Lethal (NSL) complex is a broad transcription regulator and haploinsufficiency of its KANSL1 subunit results in the Koolen-de Vries syndrome in humans. Here, the authors identify the BET protein BRD4 as evolutionary conserved co-factor of the NSL complex and provide evidence that NSL-deposited histone acetylation induces BRD4 recruitment for transcription of constitutively active genes.

PALB2 is an established breast cancer risk gene but the pathogenicity of many variants remains uncharacterised. Here, the authors present a cDNA-based system for the functional analysis of PALB2 variants of unknown significance.

Most reagents designed to deliver cargo into cells are cationic and so cannot deliver cationic cargo. Here the authors show that pretreating cells with the anionic polymer poly(propylacrylic acid) facilitates the uptake and endosomal escape of a wide variety of cationic cargo in numerous cell types.

The synthesis of nanoparticles capable of orthogonal photo-activity is complex. Here, the authors report on an assembly process of two distinct nanoparticles into composite nanoparticles as a simple method and report on the application in photodynamic therapy and siRNA delivery in tumour therapy.

Fungi that infect insects can potentially be exploited for disease vector control. Here the authors show that the fungus Beauveria bassiana exports a microRNA-like RNA into mosquito cells that modulates host immunity by suppressing expression of Toll receptor ligand Spätzle 4.

Although many neuropsychiatric risk genes are known to contribute to epigenetic regulation of gene expression, very little is known about specific chromatin-associated mechanisms that govern the formation and maintenance of neuronal connectivity. Here, the authors report that transcallosal connectivity is critically dependent on C11orf46/ARL14EP, a nuclear protein encoded in the chromosome 11p13 WAGR risk locus, and that RNA-guided epigenetic editing of hyperexpressed Sema6a gene promoters in C11orf46-knockdown neurons resulted in normalization of expression and rescue of transcallosal dysconnectivity via repressive chromatin remodeling.

DICER is involved in the processing of miRNAs, where the RNase IIIa and IIIb domains are thought to cut the 3p and 5p hairpin arms, respectively. Here, in endometrial cancer, the authors identify an RNase IIIa mutation, which phenocopies mutations in the RNase IIIb domain.

PIWI-interacting RNAs (piRNAs) are regulatory RNAs that bind to PIWI proteins to control transposons and maintain genome integrity. Here the authors characterized their binding specificity and reveal the 5′ nucleotide bias of the Drosophila Piwi protein, through mutation of its specificity loop.

AGO2 is a core component of the RNAi machinery and contributes to plant immunity during bacterial infection. Here the authors show that AGO2 activity is suppressed by arginine methylation which not only promotes AGO2 degradation but also recruits TSN proteins to degrade AGO2-associated small RNAs.

In this review, Aravin and colleagues examine bacterial and archaeal Argonaute proteins, discuss their diverse architectures and their possible roles in host defense, proposing additional functions for Argonaute proteins in prokaryotic cells.

A small RNA-based signaling cascade prevents the induction of plant resistance genes (R-genes) in the absence of pathogen challenge. Here Cai et al. show that nuclear accumulation of the R protein SNC1 can activate immunity by suppressing small RNA production and releasing R-gene repression.

Topoisomerases solve topological problems during DNA metabolism, but their role in RNA metabolism remains unclear. Here the authors provide evidence that in Drosophila, Topoisomerase 3β interacts biochemically and genetically with the RNAi-induced silencing complex (RISC) to promote heterochromatin formation and transcriptional silencing.

Small interfering (siRNAs) can be toxic to cancer cells. Here the authors investigate the toxicity of microRNA in cancer cells by performing a siRNA screen that tests the miRNA activities of an extensive list of miRNAs with different 6mer seed sequences.

Depletion of the splicing factors MBNL 1 and 2 causes myotonic dystrophy. Here, the authors show that miR-23b and miR-218 target MBNL proteins, and that antagonists to these miRNAs rescue mis-splicing events in myoblasts and boost MBNL expression and rescue pathology in mouse models.

Heterochromatin protein 1a (HP1a) is thought to function downstream of transposon repression in the Drosophila female germline. Here the authors show that HP1a also functions upstream of piRNA processing by repressing splicing of piRNA precursors, predominantly at telomeric and centromeric regions.

The American cockroach (Periplaneta americana) is an hemimetabolous insect with rapid growth, high fecundity, and remarkable tissue-regeneration capability. Here Li et al sequence its 3.38-Gb genome and perform the functional studies, yielding insights into its environmental adaptation and developmental plasticity.

The BioID approaches takes advantage of the promiscuous biotinylation enzyme (BirA*) to identify proteins that closely interact. Here the authors improve the resolution of BioID using a protein fragment complementation approach that allows the assignment of protein-protein interactions to specific complexes within a common interactome.

While RNA interference is a highly conserved mechanism of gene regulation, how Argonaute-bound small RNAs are targeted for degradation is not well understood. Here the authors show that Cid14 and Cid16 target Argonaute-bound small RNAs for degradation and protect the genome from uncontrolled RNAi activity.

Oculopharyngeal muscular dystrophy is caused by trinucleotide repeat expansions in thePABPN1gene. Here the authors use AAV-based gene therapy to knockdown the mutant gene and replace it with a wild-type allele, and show effectiveness in mice and in patient cells.

The RNA binding protein TRBP is a component of the Dicer complex but its role in microRNA biogenesis remains poorly understood. Here the authors use a crowded RNA environment and single-molecule imaging to show that TRBP acts as a gatekeeper to prevent Dicer engagement with pre miRNA-like substrates.

In the nematode Pristionchus pacificus, a developmental switch, the sulfatase eud-1, controls mouth-form plasticity. Here, the authors show that mutations in two conserved histone modifying enzymes mimic the eud-1 phenotype, in part mediated by an antisense eud-1RNA, resulting in the absence of one mouth-form

Analysis of RNAi screens is a multi-step process requiring the sequential use of several unrelated resources. Here the authors generate an online resource integrating RNAi analytic tools and filters into a seamless workflow, which improves the specificity, selectivity and reproducibility of the results.

RNA interference inadvertently represses off-target transcripts. Here, Lee et al.report that substituting nucleotide in position 6 of the seed region of the small interfering RNAs with abasic spacers can significantly decrease miRNA-like off-target repression while preserving on-target activity.

Short hairpin RNAs are widely used to produce small interfering RNAs (siRNAs) for gene silencing. Here, the authors show that an alternative siRNA precursor in the presence of a self-cleaving ribozyme has enhanced silencing activity and reduced off-target effects, providing a potential RNAi tool.

Unbiased screening for insect gene function has been largely restricted to Drosophila. Here, Schmitt-Engel et al. perform an unbiased large-scale RNAi screen in the red flour beetle Tribolium castaneumto identify putative gene functions.

It has been proposed that the identification of genes regulating senescence in the absence of PTEN might help develop pro-senescence compounds for the treatment of cancer. Here, the authors use a combination of chemical and shRNA functional screen and identify CK2 as a potential target.

miRNAs are incorporated into ribonucleoprotein complexes called RNA-induced silencing complexes (RISCs) to exert RNA interference. Here the authors show that translation initiation factor eIF1A interacts with the RISCs component Ago2 to promote miR-451 biogenesis and RNA interference.

Large-scale genetic screens combined with phenotype assays can identify novel regulators of specific cellular functions. Here, Seo et al. use shRNA-based genetic selection to identify novel genes regulating cell migration, functioning within the PI 3-kinase/PTEN/AKT signalling pathway.

Macromolecular complexes hold promise for future generations of drug delivery carriers, but probing their structures with high resolution is challenging. Here, the authors combine X-ray free-electron laser and synchrotron approaches to reveal the core-shell structure of RNA interference microsponges.

The composition of trace elements in human cells (the ionome) is an important component of metabolism. Here, the authors carry out a high-throughput, genome-wide analysis of the human ionome and identify cellular regulators of important trace elements such as selenium, copper and iron.

Improving the quality of cotton fibres is important for agriculture and fibre length is influenced by far-red light. Here, the authors knock down the red/far-red photoreceptor Phytocrome A1 of cotton and show that this enhances cotton fibre length.

Small interfering RNA is degraded by plasma and can’t cross the cell membrane due to its negative charge. Here, the authors present an influenza inspired polymer carrier, capable of local RNA delivery, which degrades to a non-toxic by-product, and is thus suitable for multiple doses.