首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到10条相似文献,搜索用时 62 毫秒
1.
Interaction of the sex-lethal RNA binding domains with RNA.   总被引:6,自引:2,他引:4       下载免费PDF全文
R Kanaar  A L Lee  D Z Rudner  D E Wemmer    D C Rio 《The EMBO journal》1995,14(18):4530-4539
Sex determination and X chromosome dosage compensation in Drosophila melanogaster are directed by the Sex-lethal (Sxl) protein. In part, Sxl functions by regulating the splicing of the transformer pre-mRNA by binding to a 3' splice site polypyrimidine tract. Polypyrimidine tracts are essential for splicing of metazoan pre-mRNAs. To unravel the mechanism of splicing regulation at polypyrimidine tracts we analyzed the interaction of Sxl with RNA. The RNA binding activity of Sxl was mapped to the two ribonucleoprotein consensus sequence domains of the protein. Quantitation of binding showed that both RNA binding domains (RBDs) were required in cis for site-specific RNA binding. Individual RBDs interacted with RNA more weakly and had lost the ability to discriminate between wild-type and mutant transformer polypyrimidine tracts. Structural elements in one of the RBDs that are likely to interact with a polypyrimidine tract were identified using nuclear magnetic resonance techniques. In addition, our data suggest that multiple imino protons of the transformer polypyrimidine tract were involved in hydrogen bonding. Interestingly, in vitro Sxl bound with equal affinity to polypyrimidine tracts of pre-mRNAs that it does not regulate in vivo. We discuss the implications of this finding for the mechanism through which Sxl may gain selectivity for particular polypyrimidine tracts in vivo.  相似文献   

2.
Aminoglycoside antibiotics have recently emerged as an intriguing family of RNA binding molecules and they became leading structures for the design of novel RNA ligands. The demystification of the aminoglycoside-RNA recognition phenomenon is required for the development of superior binders. To explore the existence of multiple binding sites in a large RNA molecule, we have synthesized covalently linked symmetrical and nonsymmetrical dimeric aminoglycosides. These unnatural derivatives were compared to their natural "monomeric" counterparts in their ability to inhibit the Tetrahymena ribozyme. The dimeric aminoglycosides inhibit ribozyme function 20 to 1.2 x 10(3) fold more effectively than their natural parent compounds. The inhibition curves of dimeric aminoglycosides have characteristic shapes suggesting the presence of at least two high affinity-binding sites within the ribozyme's three-dimensional fold. The interaction of a dimeric aminoglycoside with two complementary sites of the RNA molecule is proposed. This binding motif may have implications on the development of new drugs targeting pivotal RNA molecules of bacterial and viral pathogens.  相似文献   

3.
RNA binding strategies of ribosomal proteins.   总被引:5,自引:0,他引:5       下载免费PDF全文
Structures of a number of ribosomal proteins have now been determined by crystallography and NMR, though the complete structure of a ribosomal protein-rRNA complex has yet to be solved. However, some ribosomal protein structures show strong similarity to well-known families of DNA or RNA binding proteins for which structures in complex with cognate nucleic acids are available. Comparison of the known nucleic acid binding mechanisms of these non-ribosomal proteins with the most highly conserved surfaces of similar ribosomal proteins suggests ways in which the ribosomal proteins may be binding RNA. Three binding motifs, found in four ribosomal proteins so far, are considered here: homeodomain-like alpha-helical proteins (L11), OB fold proteins (S1 and S17) and RNP consensus proteins (S6). These comparisons suggest that ribosomal proteins combine a small number of fundamental strategies to develop highly specific RNA recognition sites.  相似文献   

4.
RNA binding properties of poliovirus subviral particles.   总被引:1,自引:1,他引:0       下载免费PDF全文
The mechanism of encapsidation of the RNA genome of poliovirus and other picornaviruses is unknown. To test whether any of the putative assembly intermediates of poliovirus could interact directly with the poliovirus RNA genome, poliovirus RNA was attached to magnetic streptavidin beads and incubated with partially purified extracts containing 35S-labeled 14S pentamer and 75S empty-capsid subviral particles from infected cells. The amount of labeled protein bound to the beads was monitored, thus testing the RNA-binding activities of only the labeled viral proteins in the preparations. In this assay, nonspecific RNA-binding activity was displayed by the 14S pentameric particles and mature virons. 75S empty capsids displayed no propensity to associate with RNA. 14S pentamers were demonstrated to form rapidly sedimenting complexes and to undergo a conformational alteration upon RNA binding. These findings are consistent with a direct role for the 14S pentameric particles in RNA packaging during poliovirus morphogenesis.  相似文献   

5.
6.
The C protein tetramer of hnRNP complexes binds approximately 150-230 nt of RNA with high cooperativity (McAfee J et al., 1996, Biochemistry 35:1212-1222). Three contiguously bound tetramers fold 700-nt lengths of RNA into a 19S triangular intermediate that nucleates 40S hnRNP assembly in vitro (Huang M et al., 1994, Mol Cell Biol 14:518-533). Although it has been assumed that the consensus RNA recognition motif (RRM) of C protein (residues 8-87) is the primary determinant of RNA binding, we report here that a recombinant construct containing residues 1-115 has very low affinity for RNA at physiological ionic strength (100 mM NaCl). Moreover, we demonstrate that an N-terminal deletion construct lacking the consensus RRM but containing residues 140-290 binds RNA with an affinity sufficient to account for the total free energy change observed for the binding of intact protein. Like native C protein, the 140-290 construct is a tetramer in solution and binds RNA stoichiometrically in a salt-resistant manner in 100-300 mM NaCl. Residues 140-179 of the N-terminal truncated variant contain 11 basic and 2 acidic residues, whereas residues 180-207 specify a leucine zipper motif that directs dimer assembly. Elements within the 50-residue carboxy terminus of C protein are required for tetramer assembly. A basic region followed by a leucine zipper is identical to the domain organization of the basic-leucine zipper (bZIP) class of DNA binding proteins. Sequence homologies with other proteins containing RRMs and the bZIP motif suggest that residues 140-207 represent a conserved bZIP-like RNA binding motif (designated bZLM). The steric orientation of four high-affinity RNA binding sites about rigid leucine zipper domains may explain in part C protein''s asymmetry, its large occluded site size, and its RNA folding activity.  相似文献   

7.
8.
We show here that nonspecific RNA-protein interactions can significantly enhance the biological activity of an essential RNA. protein complex. Bacterial glutaminyl-tRNA synthetase poorly aminoacylates yeast tRNA and, as a consequence, cannot rescue a knockout allele of the gene for the yeast homologue. In contrast to the bacterial protein, the yeast enzyme has an extra appended domain at the N terminus. Previously, we showed that fusion of this yeast-specific domain to the bacterial protein enabled it to function as a yeast enzyme in vivo and in vitro. We suggested that the novel yeast-specific domain contributed to RNA interactions in a way that compensated for the poor fit between the yeast tRNA and bacterial enzyme. Here we establish that the novel appended domain by itself binds nonspecifically to different RNA structures. In addition, we show that fusion of an unrelated yeast protein, Arc1p, to the bacterial enzyme also converts it into a functional yeast enzyme in vivo and in vitro. A small C-terminal segment of Arc1p is necessary and sufficient for this conversion. This segment was shown by others to have nonspecific tRNA binding properties. Thus, nonspecific RNA binding interactions in general can compensate for barriers to formation of a specific and essential RNA.protein complex.  相似文献   

9.
The site of interaction of phage Qbeta coat protein with Qbeta RNA was determined by ribonuclease T1 degradation of complexes of coat protein and [32P]-RNA obtained by codialysis of the components from urea into buffer solutions. The degraded complexes were recovered by filtration through nitrocellulose filters, and bound [32P]RNA fragments were extracted and separated by polyacrylamide gel electrophoresis. Fingerprinting and further sequence analysis established that the three main fragments obtained (chain lengths 88, 71 and 27 nucleotides) all consist of sequences extending from the intercistronic region to the beginning of the replicase cistron. These results suggest that in the replication of Qbeta, as in the case of R17, coat protein acts as a translational repressor by binding to the ribosomal initiation site of the replicase cistron.  相似文献   

10.
设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号