Abstract
The human genome encodes hundreds of transfer RNA (tRNA) genes to decode 61 codons. The basis for such genetic redundancy is unclear but the increase in the number of tRNA genes goes in concert with the complexity of an organism. While changes in the expression of isoacceptor tRNA pools can reflect adaptation to demanding protein synthesis needs and/or codon usage, the variations in the expression of the individual tRNA isodecoders are documented but poorly understood. Such expression variations are hypothesized to contribute to non-canonical tRNA functions, yet physiological relevance remains ambiguous. We report here that specific tRNA isodecoders can be functionally repurposed through cleavage that produces tRNA-derived RNAs (tDRs). The repurposing employs nucleotide variations in isodecoders leading to the production of distinct sets of tDRs with variable bioactivities.
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