RNA cleavages by many ribonucleases generate RNA molecules that contain a 2',3'-cyclic phosphate (cP) at their 3'-termini, and many cP-containing RNAs (cP-RNAs) are expressed as functional molecules in cells and tissues. 5'-tRNA half molecules are representative examples of functional cP-RNAs, playing important roles in various biological processes. We here show in vitro production of cP-containing 5'-tRNA half molecules that is able to prepare abundant synthetic cP-RNAs enough for functional analyses. Furthermore, we report a multiplex TaqMan RT-qPCR method which can simultaneously quantify multiple cP-containing 5'-tRNA half species. The method enabled us to efficiently quantify 5'-tRNA halves using samples with limited amounts, such as human plasma samples, revealing drastic enhancement of 5'-tRNA half levels at approximately 1,000-fold in patients infected with Mycobacterium tuberculosis. These in vitro production and multiplex quantification methods can be applied to any cP-RNAs, and they provide cost-effective, in-house techniques to accelerate expressional and functional characterizations of 5'-tRNA halves and other cP-RNAs.
Keywords: 2′,3′-cyclic phosphate (cP); 5′-tRNA half; Multiplex; Plasma; TaqMan RT-qPCR; cP-RNA.
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