| A 360 degrees view of circular RNAs: From biogenesis to functions |
69 |
| Cytoplasmic functions of long noncoding RNAs |
68 |
| Alternative-splicing defects in cancer: Splicing regulators and their downstream targets, guiding the way to novel cancer therapeutics |
39 |
| Cas9 versus Cas12a/Cpf1: Structure-function comparisons and implications for genome editing |
34 |
| The dynamic RNA modification 5-methylcytosine and its emerging role as an epitranscriptomic mark |
26 |
| Hfq chaperone brings speed dating to bacterial sRNA |
24 |
| Targeting RNA in mammalian systems with small molecules |
24 |
| Stress-induced mRNP granules: Form and function of processing bodies and stress granules |
24 |
| Intriguing circles: Conflicts and controversies in circular RNA research |
21 |
| Advances and challenges in the detection of transcriptome-wide protein-RNA interactions |
20 |
| Rules and tools to predict the splicing effects of exonic and intronic mutations |
18 |
| Noncoding RNAs in Alzheimer's disease |
17 |
| Translation initiation by cap-dependent ribosome recruitment: Recent insights and open questions |
16 |
| Nonsense-mediated mRNA decay: The challenge of telling right from wrong in a complex transcriptome |
16 |
| Regulation of translation initiation factor eIF2B at the hub of the integrated stress response |
16 |
| Membraneless nuclear organelles and the search for phases within phases |
16 |
| miR-146a-5p: Expression, regulation, and functions in cancer |
15 |
| LARP1 on TOP of ribosome production |
14 |
| Trans-acting translational regulatory RNA binding proteins |
13 |
| Mimicry, deception and competition: The life of competing endogenous RNAs |
13 |
| Genetic variants in mRNA untranslated regions |
12 |
| Molecular anatomy of the architectural NEAT1 noncoding RNA: The domains, interactors, and biogenesis pathway required to build phase-separated nuclear paraspeckles |
12 |
| Cold-inducible RNA binding protein in cancer and inflammation |
12 |
| Computational approaches for circular RNA analysis |
12 |
| Unconventional RNA-binding proteins step into the virus-host battlefront |
12 |
| Viral internal ribosomal entry sites: four classes for one goal |
11 |
| Diverse roles of RNA-binding proteins in cancer traits and their implications in gastrointestinal cancers |
11 |
| Recent methodology progress of deep learning for RNA-protein interaction prediction |
11 |
| Splicing and cancer: Challenges and opportunities |
10 |
| Tissue-specific mechanisms of alternative polyadenylation: Testis, brain, and beyond (2018 update) |
10 |
| MicroRNAs as regulators and effectors of hematopoietic transcription factors |
10 |
| RNA versatility, flexibility, and thermostability for practice in RNA nanotechnology and biomedical applications |
10 |
| Cyclic-di-GMP regulation of virulence in bacterial pathogens |
10 |
| The complex enzymology of mRNA decapping: Enzymes of four classes cleave pyrophosphate bonds |
10 |
| Maturation of pre-40S particles in yeast and humans |
10 |
| Guanidine-sensing riboswitches: How do they work and what do they regulate? |
9 |
| Emerging roles of RNA-binding proteins in diabetes and their therapeutic potential in diabetic complications |
9 |
| Natural antisense transcripts in diseases: From modes of action to targeted therapies |
9 |
| RNA regulation of the antiviral protein 2 '-5 '-oligoadenylate synthetase |
9 |
| Writing a wrong: Coupled RNA polymerase II transcription and RNA quality control |
8 |
| Viral modulation of cellular RNA alternative splicing: A new key player in virus-host interactions? |
8 |
| A recap of RNA recapping |
8 |
| The evolution of posttranscriptional regulation |
7 |
| Contributions of regulated transcription and mRNA decay to the dynamics of gene expression |
7 |
| RNA uridylation: a key posttranscriptional modification shaping the coding and noncoding transcriptome |
7 |
| Mutually exclusive alternative splicing of pre-mRNAs |
7 |
| The GAIT translational control system |
7 |
| Glycogen synthase kinase-3 and alternative splicing |
7 |
| New perspectives on telomerase RNA structure and function |
6 |
| RNAs in the spliceosome: Insight from cryoEM structures |
6 |
