Though polyamines (putrescine, spermidine, and spermine) bind to the specific position in RNA molecules, interaction mechanisms are poorly understood. SELEX procedure has been used to isolate high-affinity oligoribonucleotides (aptamers) from randomized RNA libraries. Selected aptamers are useful in exploring sequences and/or structures in RNAs for binding molecules. In this study, to analyze the interaction mechanism of polyamine to RNA, we selected RNA aptamers targeted for spermine. Two spermine-binding aptamers (#5 and #24) were obtained and both of them had two stem-loop structures. The 3′ stem-loop of #5 (SL_2) bound to spermine more effectively than the 5′ stem-loop of #5 did. A thermodynamic analysis by an isothermal titration calorimetry revealed that the dissociation constant of SL_2 for spermine was 27.2 μM and binding ratio was nearly 1:1. Binding assay with base-pair replaced variants showed that two stem regions and an internal loop in SL_2 were important for their spermine-binding activities. NMR analyses proposed that a terminal-side and a loop-side stem in SL_2 take a loose and a stable structure, respectively and a conformational change of SL_2 is induced by spermine. It is conclusive that two stems with different characteristics and an internal loop in SL_2 contribute to the specific spermine-binding.
Long interspersed nuclear element (LINE) is known to be transposed by reverse transcription using its RNA transcript. Recognition of the 3' stem-loop of LINE RNA by its reverse transcriptase (RT) is an important step of the retrotransposition. Our previous study revealed that the second G residue (G8) in the GGAUA loop of a 17mer LINE RNA from eel, UnaL2-17, is recognized by its RT and the U residue (U10) in the same loop is required to maintain the loop structure (Baba S, Kajikawa M, Okada N, Kawai G. Solution structure of an RNA stem-loop derived from the 3' conserved region of eel LINE UnaL2. RNA 2004;10:1380-1387). ZfL2-2, a LINE from zebrafish, has the same 3' stem-loop with UnaL2 and ZfL2-1 has similar but distinct 3' stem-loop with an insertion which can form an additional stem-loop. Here, we determined the solution structure of the 34mer RT recognition site of the LINE RNA (ZfL2-1-34). It was found that ZfL2-1-34 forms a hairpin with an internal loop, the tertiary structure of which is superimposed with that of ZfL2-2. It is noted that A10 and the inserted stem-loop, starting with A12, in ZfL2-1-34 located at the positions corresponding to those of G8 and U10, respectively, in UnaL2-17. These results strongly suggest that the two LINEs share the similar recognition mechanism and the A10 in ZfL2-1-34 is the determinant recognized by its RT.
PIWI-interacting RNAs (piRNAs) repress transposons to protect the germline genome from DNA damage caused by transposon transposition. In Drosophila, the Traffic jam (Tj) mRNA is consumed to produce piRNA in its 3′ UTR. A cis element located within the 3′-UTR, Tj-cis, is necessary for piRNA biogenesis. In this study, we analyzed the structure of the Tj-cis RNA, a 100 nt RNA corresponding to the Tj-cis element, by the SHAPE and NMR analyses and found that a stable hairpin structure formed in the 5′ half of the Tj-cis RNA. The tertiary structure of the 16 nt stable hairpin was analyzed by NMR, and a novel stem-loop structure, the T-hairpin, was found. In the T-hairpin, four uridine residues are exposed to the solvent, suggesting that this stem loop is the target of Yb protein, a Tudor domain-containing piRNA biogenesis factor. The piRNA biogenesis assay showed that both the T-hairpin and the 3′ half are required for the function of the Tj-cis element, suggesting that both the T-hairpin and the 3′ half are recognized by Yb protein.
The triplex formation ability of a sense chain containing a cyanuryl nucleoside was evaluated and the tertiary structure of the triplex was calculated using the NOE in 1H NMR by incorporating a 15N into the base moiety.
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