1. Circular RNAs: Characterization, cellular roles, and applications.
期刊:Cell
日期:2022-05-17
DOI :10.1016/j.cell.2022.04.021
Most circular RNAs are produced from the back-splicing of exons of precursor mRNAs. Recent technological advances have in part overcome problems with their circular conformation and sequence overlap with linear cognate mRNAs, allowing a better understanding of their cellular roles. Depending on their localization and specific interactions with DNA, RNA, and proteins, circular RNAs can modulate transcription and splicing, regulate stability and translation of cytoplasmic mRNAs, interfere with signaling pathways, and serve as templates for translation in different biological and pathophysiological contexts. Emerging applications of RNA circles to interfere with cellular processes, modulate immune responses, and direct translation into proteins shed new light on biomedical research. In this review, we discuss approaches used in circular RNA studies and the current understanding of their regulatory roles and potential applications.
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1区Q1影响因子: 14.7
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2. Rational design of microRNA-responsive switch for programmable translational control in mammalian cells.
期刊:Nature communications
日期:2023-11-08
DOI :10.1038/s41467-023-43065-w
Artificial RNA translation modulation usually relies on multiple components, such as RNA binding proteins (RBPs) or microRNAs (miRNAs) for off-switches and double-inverter cascades for on-switches. Recently, translational circular RNAs (circRNAs) were developed as promising alternatives for linear messenger RNAs (mRNAs). However, circRNAs still lack straightforward and programmable translation control strategies. Here, we rationally design a programmable miRNA-responsive internal ribosome entry site (IRES) translation activation and repression (PROMITAR) platform capable of implementing miRNA-based translation upregulation and downregulation in a single RNA construct. Based on the PROMITAR platform, we construct logic gates and cell-type classifier circRNAs and successfully identify desired mammalian cell types. We also demonstrate the potential therapeutic application of our platform for targeted cancer cell killing by encoding a cytotoxic protein in our engineered circRNAs. We expect our platform to expand the toolbox for RNA synthetic biology and provide an approach for potential biomedical applications in the future.
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1区Q1影响因子: 33.1
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3. Engineering circular RNA for enhanced protein production.
期刊:Nature biotechnology
日期:2022-07-18
DOI :10.1038/s41587-022-01393-0
Circular RNAs (circRNAs) are stable and prevalent RNAs in eukaryotic cells that arise from back-splicing. Synthetic circRNAs and some endogenous circRNAs can encode proteins, raising the promise of circRNA as a platform for gene expression. In this study, we developed a systematic approach for rapid assembly and testing of features that affect protein production from synthetic circRNAs. To maximize circRNA translation, we optimized five elements: vector topology, 5' and 3' untranslated regions, internal ribosome entry sites and synthetic aptamers recruiting translation initiation machinery. Together, these design principles improve circRNA protein yields by several hundred-fold, provide increased translation over messenger RNA in vitro, provide more durable translation in vivo and are generalizable across multiple transgenes.
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1区Q1影响因子: 14.7
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4. Pervasive translation of circular RNAs driven by short IRES-like elements.
期刊:Nature communications
日期:2022-06-29
DOI :10.1038/s41467-022-31327-y
Some circular RNAs (circRNAs) were found to be translated through IRES-driven mechanism, however the scope and functions of circRNA translation are unclear because endogenous IRESs are rare. To determine the prevalence and mechanism of circRNA translation, we develop a cell-based system to screen random sequences and identify 97 overrepresented hexamers that drive cap-independent circRNA translation. These IRES-like short elements are significantly enriched in endogenous circRNAs and sufficient to drive circRNA translation. We further identify multiple trans-acting factors that bind these IRES-like elements to initiate translation. Using mass-spectrometry data, hundreds of circRNA-coded peptides are identified, most of which have low abundance due to rapid degradation. As judged by mass-spectrometry, 50% of translatable endogenous circRNAs undergo rolling circle translation, several of which are experimentally validated. Consistently, mutations of the IRES-like element in one circRNA reduce its translation. Collectively, our findings suggest a pervasive translation of circRNAs, providing profound implications in translation control.
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1区Q1影响因子: 5.2
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5. Mechanisms of circular RNA degradation.
期刊:Communications biology
日期:2022-12-09
DOI :10.1038/s42003-022-04262-3
Circular RNAs (CircRNAs) are a class of noncoding RNAs formed by backsplicing during cotranscriptional and posttranscriptional processes, and they widely exist in various organisms. CircRNAs have multiple biological functions and are associated with the occurrence and development of many diseases. While the biogenesis and biological function of circRNAs have been extensively studied, there are few studies on circRNA degradation and only a few pathways for specific circRNA degradation have been identified. Here we outline basic information about circRNAs, summarize the research on the circRNA degradation mechanisms and discusses where this field might head, hoping to provide some inspiration and guidance for scholars who aim to study the degradation of circRNAs.
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1区Q1影响因子: 9.5
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6. Molecular mechanisms of circular RNA translation.
期刊:Experimental & molecular medicine
日期:2024-06-14
DOI :10.1038/s12276-024-01220-3
Circular RNAs (circRNAs) are covalently closed single-stranded RNAs without a 5' cap structure and a 3' poly(A) tail typically present in linear mRNAs of eukaryotic cells. CircRNAs are predominantly generated through a back-splicing process within the nucleus. CircRNAs have long been considered non-coding RNAs seemingly devoid of protein-coding potential. However, many recent studies have challenged this idea and have provided substantial evidence that a subset of circRNAs can associate with polysomes and indeed be translated. Therefore, in this review, we primarily highlight the 5' cap-independent internal initiation of translation that occurs on circular RNAs. Several molecular features of circRNAs, including the internal ribosome entry site, N-methyladenosine modification, and the exon junction complex deposited around the back-splicing junction after back-splicing event, play pivotal roles in their efficient internal translation. We also propose a possible relationship between the translatability of circRNAs and their stability, with a focus on nonsense-mediated mRNA decay and nonstop decay, both of which are well-characterized mRNA surveillance mechanisms. An in-depth understanding of circRNA translation will reshape and expand our current knowledge of proteomics.
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1区Q1影响因子: 10.4
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7. Group II Intron Self-Splicing.
作者:Pyle Anna Marie
期刊:Annual review of biophysics
日期:2016-07-05
DOI :10.1146/annurev-biophys-062215-011149
Group II introns are large, autocatalytic ribozymes that catalyze RNA splicing and retrotransposition. Splicing by group II introns plays a major role in the metabolism of plants, fungi, and yeast and contributes to genetic variation in many bacteria. Group II introns have played a major role in genome evolution, as they are likely progenitors of spliceosomal introns, retroelements, and other machinery that controls genetic variation and stability. The structure and catalytic mechanism of group II introns have recently been elucidated through a combination of genetics, chemical biology, solution biochemistry, and crystallography. These studies reveal a dynamic machine that cycles progressively through multiple conformations as it stimulates the various stages of splicing. A central active site, containing a reactive metal ion cluster, catalyzes both steps of self-splicing. These studies provide insights into RNA structure, folding, and catalysis, as they raise new questions about the behavior of RNA machines.
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1区Q1影响因子: 33.1
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8. Chemical and topological design of multicapped mRNA and capped circular RNA to augment translation.
期刊:Nature biotechnology
日期:2024-09-23
DOI :10.1038/s41587-024-02393-y
Protein and vaccine therapies based on mRNA would benefit from an increase in translation capacity. Here, we report a method to augment translation named ligation-enabled mRNA-oligonucleotide assembly (LEGO). We systematically screen different chemotopological motifs and find that a branched mRNA cap effectively initiates translation on linear or circular mRNAs without internal ribosome entry sites. Two types of chemical modification, locked nucleic acid (LNA) N-methylguanosine modifications on the cap and LNA + 5 × 2' O-methyl on the 5' untranslated region, enhance RNA-eukaryotic translation initiation factor (eIF4E-eIF4G) binding and RNA stability against decapping in vitro. Through multidimensional chemotopological engineering of dual-capped mRNA and capped circular RNA, we enhanced mRNA protein production by up to tenfold in vivo, resulting in 17-fold and 3.7-fold higher antibody production after prime and boost doses in a severe acute respiratory syndrome coronavirus 2 vaccine setting, respectively. The LEGO platform opens possibilities to design unnatural RNA structures and topologies beyond canonical linear and circular RNAs for both basic research and therapeutic applications.
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1区Q1影响因子: 12.5
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9. Genome-wide identification of mRNA 5-methylcytosine in mammals.
作者:Huang Tao , Chen Wanying , Liu Jianheng , Gu Nannan , Zhang Rui
期刊:Nature structural & molecular biology
日期:2019-05-06
DOI :10.1038/s41594-019-0218-x
Accurate and systematic transcriptome-wide detection of 5-methylcytosine (mC) has proved challenging, and there are conflicting views about the prevalence of this modification in mRNAs. Here we report an experimental and computational framework that robustly identified mRNA mC sites and determined sequence motifs and structural features associated with the modification using a set of high-confidence sites. We developed a quantitative atlas of RNA mC sites in human and mouse tissues based on our framework. In a given tissue, we typically identified several hundred exonic mC sites. About 62-70% of the sites had low methylation levels (<20% methylation), while 8-10% of the sites were moderately or highly methylated (>40% methylation). Cross-species analysis revealed that species, rather than tissue type, was the primary determinant of methylation levels, indicating strong cis-directed regulation of RNA methylation. Combined, these data provide a valuable resource for identifying the regulation and functions of RNA methylation.
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2区Q1影响因子: 16.6
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10. Structural basis for substrate binding and catalytic mechanism of a human RNA:m5C methyltransferase NSun6.
作者:Liu Ru-Juan , Long Tao , Li Jing , Li Hao , Wang En-Duo
期刊:Nucleic acids research
日期:2017-06-20
DOI :10.1093/nar/gkx473
5-methylcytosine (m5C) modifications of RNA are ubiquitous in nature and play important roles in many biological processes such as protein translational regulation, RNA processing and stress response. Aberrant expressions of RNA:m5C methyltransferases are closely associated with various human diseases including cancers. However, no structural information for RNA-bound RNA:m5C methyltransferase was available until now, hindering elucidation of the catalytic mechanism behind RNA:m5C methylation. Here, we have solved the structures of NSun6, a human tRNA:m5C methyltransferase, in the apo form and in complex with a full-length tRNA substrate. These structures show a non-canonical conformation of the bound tRNA, rendering the base moiety of the target cytosine accessible to the enzyme for methylation. Further biochemical assays reveal the critical, but distinct, roles of two conserved cysteine residues for the RNA:m5C methylation. Collectively, for the first time, we have solved the complex structure of a RNA:m5C methyltransferase and addressed the catalytic mechanism of the RNA:m5C methyltransferase family, which may allow for structure-based drug design toward RNA:m5C methyltransferase-related diseases.
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2区Q1影响因子: 16.6
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11. Sequence- and structure-specific cytosine-5 mRNA methylation by NSUN6.
期刊:Nucleic acids research
日期:2021-01-25
DOI :10.1093/nar/gkaa1193
The highly abundant N6-methyladenosine (m6A) RNA modification affects most aspects of mRNA function, yet the precise function of the rarer 5-methylcytidine (m5C) remains largely unknown. Here, we map m5C in the human transcriptome using methylation-dependent individual-nucleotide resolution cross-linking and immunoprecipitation (miCLIP) combined with RNA bisulfite sequencing. We identify NSUN6 as a methyltransferase with strong substrate specificity towards mRNA. NSUN6 primarily targeted three prime untranslated regions (3'UTR) at the consensus sequence motif CTCCA, located in loops of hairpin structures. Knockout and rescue experiments revealed enhanced mRNA and translation levels when NSUN6-targeted mRNAs were methylated. Ribosome profiling further demonstrated that NSUN6-specific methylation correlated with translation termination. While NSUN6 was dispensable for mouse embryonic development, it was down-regulated in human tumours and high expression of NSUN6 indicated better patient outcome of certain cancer types. In summary, our study identifies NSUN6 as a methyltransferase targeting mRNA, potentially as part of a quality control mechanism involved in translation termination fidelity.
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2区Q1影响因子: 5.5
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12. CRISPR guide RNA design for research applications.
期刊:The FEBS journal
日期:2016-06-22
DOI :10.1111/febs.13777
The rapid rise of CRISPR as a technology for genome engineering and related research applications has created a need for algorithms and associated online tools that facilitate design of on-target and effective guide RNAs (gRNAs). Here, we review the state of the art in CRISPR gRNA design for research applications of the CRISPR-Cas9 system, including knockout, activation, and inhibition. Notably, achieving good gRNA design is not solely dependent on innovations in CRISPR technology. Good design and design tools also rely on availability of high-quality genome sequence and gene annotations, as well as on availability of accumulated data regarding off-targets and effectiveness metrics.
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1区Q1影响因子: 33.1
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13. Internal cap-initiated translation for efficient protein production from circular mRNA.
期刊:Nature biotechnology
日期:2025-02-19
DOI :10.1038/s41587-025-02561-8
Circular mRNA faces challenges in enhancing its translation potential as an RNA therapeutic. Here we introduce two molecular designs that bolster circular mRNA translation through an internal cap-initiated mechanism. The first consists of a circular mRNA with a covalently attached N-methylguanosine (mG) cap through a branching structure (cap-circ mRNA). This modification allows circular mRNA to recruit translation machinery and produce proteins more efficiently than internal ribosome entry site (IRES)-containing circular mRNAs. Combining with an N-methylpseudouridine (mΨ) modification, cap-circ mRNA exhibits a lower acute immunostimulatory effect, maintaining high translation in mice. The second design features the non-covalent attachment of an mG cap to a circular mRNA through hybridization with an mG cap-containing oligonucleotide, enhancing translation by more than 50-fold. This setup allows circular mRNAs to synthesize reporter proteins upon hybridizing with capped mRNAs or long non-coding RNAs and to undergo rolling circle-type translation. These advancements broaden the therapeutic applications of circular mRNAs by minimizing their molecular size, elevating translation efficiency and facilitating cell-type-selective translation.