It was long believed that viral and eukaryotic mRNA molecules are capped at their 5' end solely by the N7-methylguanosine cap, which regulates various aspects of the RNA life cycle, from its biogenesis to its decay. However, the recent discovery of a variety of non-canonical RNA caps derived from metabolites and cofactors - such as NAD, FAD, CoA, UDP-glucose, UDP-N-acetylglucosamine, and dinucleoside polyphosphates - has expanded the known repertoire of RNA modifications. These non-canonical caps are found across all domains of life and can impact multiple aspects of RNA metabolism, including stability, translation initiation, and cellular stress responses. The study of these modifications has been facilitated by sophisticated methodologies such as liquid chromatography-mass spectrometry, which have unveiled their presence in both prokaryotic and eukaryotic organisms. The identification of these novel RNA caps highlights the need for advanced sequencing techniques to characterize the specific RNA types bearing these modifications and understand their roles in cellular processes. Unravelling the biological role of non-canonical RNA caps will provide insights into their contributions to gene expression, cellular adaptation, and evolutionary diversity. This review emphasizes the importance of these technological advancements in uncovering the complete spectrum of RNA modifications and their implications for living systems.

• Keywords
• Mass spectrometry, RNA, RNA capping, RNA sequencing, RNA structures,
• MeSH
• Humans MeSH
• RNA, Messenger * metabolism   genetics   chemistry   MeSH
• RNA Caps * metabolism   chemistry   genetics   MeSH
• Sequence Analysis, RNA * methods   MeSH
• Animals MeSH
• Check Tag
• Humans MeSH
• Animals MeSH
• Publication type
• Journal Article MeSH
• Review MeSH
• Names of Substances
• RNA, Messenger * MeSH
• RNA Caps * MeSH

RNA capping is a prominent RNA modification that influences RNA stability, metabolism, and function. While it was long limited to the study of the most abundant eukaryotic canonical m7G cap, the field recently went through a large paradigm shift with the discovery of non-canonical RNA capping in bacteria and ultimately all domains of life. The repertoire of non-canonical caps has expanded to encompass metabolite caps, including NAD, FAD, CoA, UDP-Glucose, and ADP-ribose, alongside alarmone dinucleoside polyphosphate caps, and methylated phosphate cap-like structures. This review offers an introduction into the field, presenting a summary of the current knowledge about non-canonical RNA caps. We highlight the often still enigmatic biological roles of the caps together with their processing enzymes, focusing on the most recent discoveries. Furthermore, we present the methods used for the detection and analysis of these non-canonical RNA caps and thus provide an introduction into this dynamic new field.

• Keywords
• NAD, RNA, RNA cap, RNA modifications, dinucleoside polyphosphate, epitranscriptomics,
• MeSH
• Bacteria genetics   metabolism   MeSH
• Humans MeSH
• RNA Caps * metabolism   chemistry   MeSH
• RNA chemistry   metabolism   genetics   MeSH
• RNA Stability MeSH
• Animals MeSH
• Check Tag
• Humans MeSH
• Animals MeSH
• Publication type
• Journal Article MeSH
• Review MeSH
• Names of Substances
• RNA Caps * MeSH
• RNA MeSH