Generation of RNA dimeric form of the human immunodeficiency virus type 1 (HIV-1) genome is crucial for viral replication. The dimerization initiation site (DIS) has been identified as a primary sequence that can form a stem-loop structure with a self-complementary sequence in the loop and a bulge in the stem. It has been reported that HIV-1 RNA fragments containing the DIS form two types of dimers, loose dimers and tight dimers. The loose dimers are spontaneously generated at the physiological temperature and converted into tight dimers by the addition of nucleocapsid protein NCp7. To know the biochemical process in this two-step dimerization reaction, we chemically synthesized a 39-mer RNA covering the entire DIS sequence and also a 23-mer RNA covering the self-complementary loop and its flanking stem within the DIS. Electrophoretic dimerization assays demonstrated that the 39-mer RNA reproduced the two-step dimerization process, whereas the 23-mer RNA immediately formed the tight dimer. Furthermore, deletion of the bulge from the 39-mer RNA prevented the NCp7-assisted tight-dimer formation. Therefore, the whole DIS sequence is necessary and sufficient for the two-step dimerization. Our data suggested that the bulge region regulates the stability of the stem and guides the DIS to the two-step dimerization process.
Transfer-messenger RNA (tmRNA) is a unique molecule that combines properties from both tRNA and mRNA, and facilitates a novel translation reaction termed trans -translation. According to phylogenetic sequence analysis among various bacteria and chemical probing analysis, the secondary structure of the 350-400 nt RNA is commonly characterized by a tRNA-like structure, and four pseudoknots with different sizes. A mutational analysis using a number of Escherichia coli tmRNA variants as well as a chemical probing analysis has recently demonstrated not only the presence of the smallest pseudoknot, PK1, upstream of the internal coding region, but also its direct implication in trans -translation. Here, NMR methods were used to investigate the structure of the 31 nt pseudoknot PK1 and its 11 mutants in which nucleotide substitutions are introduced into each of two stems or the linking loops. NMR results provide evidence that the PK1 RNA is folded into a pseudoknot structure in the presence of Mg(2+). Imino proton resonances were observed consistent with formation of two helical stem regions and these stems stacked to each other as often seen in pseudoknot structures, in spite of the existence of three intervening nucleo-tides, loop 3, between the stems. Structural instability of the pseudoknot structure, even in the presence of Mg(2+), was found in the PK1 mutants except in the loop 3 mutants which still maintained the pseudoknot folding. These results together with their biological activities indicate that trans -translation requires the pseudoknot structure stabilized by Mg(2+)and specific residues G61 and G62 in loop 3.
We have constructed haplotypes based on normal variation at six polymorphic sites -five single nucleotide polymorphisms (SNPs) and one short tandem repeat polymorphism (STRP) -at the RET locus for samples of normal individuals from 32 populations distributed across the major continental regions of the world. The haplotyped system spans 41.6 kilobases and encompasses most of the coding region of the gene. All of the markers are polymorphic in all regions of the world and in most individual populations. Expected heterozygosities for the six-site haplotypes range from 82 to 94% for all populations studied except for two Amerindian groups from the Amazon basin at 61 and 76%. Individual populations had from four to eight haplotypes with frequencies exceeding 5%. In general, African, southwest Asian and European groups have the highest numbers of total and of commonly occurring haplotypes; the lowest numbers are observed in Amerindian populations. Overall linkage disequilibrium (LD) for the five SNP sites was very significant (Pp0.001) for all the non-African populations, but significant at that level for only one of the seven African populations. In general, the permutation-based n coefficient that quantifies overall LD tends to increase the farther the population is from Africa, but variability of this measure of LD is often large within geographic regions. Pairwise LD measures among the SNPs also show considerable variation among populations. Association of STRP alleles with the SNP-defined background haplotypes is generally higher outside of Africa than in Africa, but is highly variable.
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