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1.
Internal ribosome entry site within hepatitis C virus RNA.   总被引:71,自引:21,他引:50       下载免费PDF全文
The mechanism of initiation of translation on hepatitis C virus (HCV) RNA was investigated in vitro. HCV RNA was transcribed from the cDNA that corresponded to nucleotide positions 9 to 1772 of the genome by using phage T7 RNA polymerase. Both capped and uncapped RNAs thus transcribed were active as mRNAs in a cell-free protein synthesis system with lysates prepared from HeLa S3 cells or rabbit reticulocytes, and the translation products were detected by anti-gp35 antibodies. The data indicate that protein synthesis starts at the fourth AUG, which was the initiator AUG at position 333 of the HCV RNA used in this study. Efficiency of translation of the capped methylated RNA appeared to be similar to that of the capped unmethylated RNA. However, a capped methylated RNA showed a much higher activity as mRNA than did the capped unmethylated RNA in rabbit reticulocyte lysates when the RNA lacked a nucleotide sequence upstream of position 267. The results strongly suggest that HCV RNA carries an internal ribosome entry site (IRES). Artificial mono- and dicistronic mRNAs were prepared and used to identify the region that carried the IRES. The results indicate that the sequence between nucleotide positions 101 and 332 in the 5' untranslated region of HCV RNA plays an important role in efficient translation. Our data suggest that the IRES resides in this region of the RNA. Furthermore, an IRES in the group II HCV RNA was found to be more efficient than that in the group I HCV RNA.  相似文献   

2.
Eukaryotic start and stop translation sites.   总被引:88,自引:15,他引:73       下载免费PDF全文
Sequences flanking translational initiation and termination sites have been compiled and statistically analyzed for various eukaryotic taxonomic groups. A few key similarities between taxonomic groups support conserved mechanisms of initiation and termination. However, a high degree of sequence variation at these sites within and between various eukaryotic groups suggest that translation may be modulated for many mRNAs. Multipositional analysis of di-, tri-, and quadrinucleotide sequences flanking start/stop sites indicate significant biases. In particular, strong tri-nucleotide biases are observed at the -3, -2, and -1 positions upstream of the start codon. These biases and the interspecific variation in nucleotide preferences at these three positions have lead us to propose a revised model of the interaction of the 18S ribosomal RNA with the mRNA at the site of translation initiation. Unusually strong biases against the CG dinucleotide immediately downstream of termination codons suggest that they may lead to faulty termination and/or failure of the ribosome to disassociate from the mRNA.  相似文献   

3.
L H Soe  C K Shieh  S C Baker  M F Chang    M M Lai 《Journal of virology》1987,61(12):3968-3976
A 28-kilodalton protein has been suggested to be the amino-terminal protein cleavage product of the putative coronavirus RNA polymerase (gene A) (M.R. Denison and S. Perlman, Virology 157:565-568, 1987). To elucidate the structure and mechanism of synthesis of this protein, the nucleotide sequence of the 5' 2.0 kilobases of the coronavirus mouse hepatitis virus strain JHM genome was determined. This sequence contains a single, long open reading frame and predicts a highly basic amino-terminal region. Cell-free translation of RNAs transcribed in vitro from DNAs containing gene A sequences in pT7 vectors yielded proteins initiated from the 5'-most optimal initiation codon at position 215 from the 5' end of the genome. The sequence preceding this initiation codon predicts the presence of a stable hairpin loop structure. The presence of an RNA secondary structure at the 5' end of the RNA genome is supported by the observation that gene A sequences were more efficiently translated in vitro when upstream noncoding sequences were removed. By comparing the translation products of virion genomic RNA and in vitro transcribed RNAs, we established that our clones encompassing the 5'-end mouse hepatitis virus genomic RNA encode the 28-kilodalton N-terminal cleavage product of the gene A protein. Possible cleavage sites for this protein are proposed.  相似文献   

4.
Regions flanking the translation initiation site (TIS) are thought to play a crucial role in translation efficiency of mRNAs, but their exact sequence and evolution in eukaryotes are still a matter of debate. We investigated the context sequences in 20 nucleotides around the TIS in multi-cellular eukaryotes, with a focus on two model plants and a comparison to human. We identified consensus sequences aaaaaaa(A/G)(A/C)aAUGGcgaataata and ggcggc(g/c)(A/G)(A/C)(G/C)AUGGCggcggcgg for Arabidopsis thaliana and Oryza sativa, respectively. We observe strongly conserved G at position +4 and A or C at position -2; however, the exact nucleotide frequencies vary between the three organisms even at these conserved positions. The frequency of pyrimidines, which are considered sub optimum at position -3, is higher in both plants than in human. Arabidopsis is GC-depleted (AU-enriched) compared to both rice and human, and the enrichment is slightly stronger upstream than downstream of AUG. While both plants are similar though not identical in their variation of nucleotide frequencies, rice and human are more similar to each other than Arabidopsis and human. All three organisms display clear periodicity in A + G and C + U content when analyzing normalized frequencies. These findings suggest that, besides few highly conserved positions, overall structure of the context sequence plays a larger role in TIS recognition than the actual nucleotide frequencies.  相似文献   

5.
We have determined the nucleotide sequences of the 5' noncoding regions and the regions encoding the first 56 amino acids of rat and porcine pro-opiomelanocortin (POMC) mRNA. We accomplished this by sequencing cDNA produced by elongating specific DNA primers hybridized to neurointermediate pituitary mRNA. The nucleotide sequence of the 5' region of rat POMC mRNA fills a gap in our knowledge of the structure of this mRNA and the protein it codes for. While we have observed only a single porcine POMC mRNA, two different rat POMC mRNAs are detected. The rat POMC mRNAs differ by a 30-base insertion/deletion in their 5' noncoding regions. Its position and sequence suggest that it is the result of alternate modes of intron removal during RNA splicing.  相似文献   

6.
We have determined the DNA sequence of a 770 by Pst I fragment containing 450 nucleotides of the 5′ flanking region of the chicken lysozyme gene. S1-nuclease mapping was performed to localize the 5′ end of nuclear RNA containing lysozyme-specific sequences and of the mRNA. We present evidence that the 5′ noncoding region of the chicken lysozyme mRNA is heterogeneous in length. The 5′ termini of the different mRNAs map 29, 31 and 53 nucleotides upstream from their common initiation codon. The 5′ ends of lysozyme-specific nuclear RNAs map at positions similar to that of the mRNA. AT-rich regions and sequences similar to the E. coli RNA polymerase recognition sequence are found around 30 and 70 nucleotides upstream from each of these 5′ termini. The AT-rich regions differ, however, from the canonical Goldberg-Hogness box in that they do not contain the extremely conserved TATA sequence motif. Sequence comparison at the 5′ end of the lysozyme, conalbumin and ovalbumin genes reveals only one region of partial homology, 140 nucleotides upstream from the mRNA start sites.  相似文献   

7.
8.
The sequence of the 5'-terminal 106 nucleotides of cucumber mosaic virus (strain Y) RNA 4, the mRNA coding for viral coat protein, has been determined. The first AUG was located at 77 nucleotides from the 5'-terminus and was confirmed to be an initiation codon by analysis of the N-terminal amino acid sequence of the protein. The nucleotide sequence (positions 77-106) beyond the AUG codon predicted the sequence of ten amino acids corresponding to the N-terminal region of the protein, which exactly matched the determined amino acid sequence containing an acetyl methionine as the N-terminal amino acid. The distance of the initiation codon AUG from the cap structure was 76 nucleotides and the longest among the mRNAs for coat protein of plant viruses so far reported (9-36 nucleotides). This noncoding region is rich in U residues (40%) and the number of G residues (21 nucleotides) is the largest among these mRNAs (usually 1 or 2 residues). A possible secondary structure is postulated for the region, which might be implicated in efficient translation of the RNA 4 in vivo.  相似文献   

9.
The initiation of cap-independent translation of poliovirus mRNA occurs as a result of ribosome entry at an internal site(s) within the 5' noncoding region. A series of linker scanning mutations was constructed to define the genetic determinants of RNA-protein interactions that lead to high-fidelity translation of this unusual viral mRNA. The mutations are located within two distinct stem-loop structures in the 5' noncoding region of poliovirus RNA that constitute a major portion of a putative internal ribosome entry site. On the basis of our data derived from genetic and biochemical assays, the stability of one of the stem-loop structures appears to be essential for translation initiation via internal binding of ribosomes. However, the second stem-loop structure may function in a manner that requires base pairing and proper spacing between specific nucleotide sequences. By employing RNA electrophoretic mobility shift assays, an RNA-protein interaction was detected for this latter stem-loop structure that does not occur in RNAs containing mutations which perturb the predicted hairpin structure. Analysis of in vivo-selected virus revertants, in combination with mobility shift assays, suggests that extensive genetic rearrangement can lead to restoration of 5' noncoding region functions, possibly by the repositioning of specific RNA sequence or structure motifs.  相似文献   

10.
11.
An analysis of 5''-noncoding sequences from 699 vertebrate messenger RNAs.   总被引:496,自引:51,他引:445       下载免费PDF全文
M Kozak 《Nucleic acids research》1987,15(20):8125-8148
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12.
13.
14.
The amino acid sequence of the matrix protein of the human respiratory syncytial virus (RS virus) was deduced from the sequence of a cDNA insert in a recombinant plasmid harboring an almost full-length copy of this gene. It specifically hybridized to a single 1,050-base mRNA from infected cells. The recombinant containing 944 base pairs of RS viral matrix protein gene sequence lacked five nucleotides corresponding to the 5' end of the mRNA. The nucleotide sequence of the 5' end of the mRNA was determined by the dideoxy sequencing method and found to be 5' NGGGC, wherein the C residue is one nucleotide upstream of the cloned viral sequence. The initiator ATG codon for the matrix protein is embedded in an AATATGG sequence similar to the canonical PXXATGG sequence present around functional eucaryotic translation initiation codons. There is no conserved sequence upstream of the polyadenylate tail, unlike vesicular stomatitis virus and Sendai virus, in which four nucleotides upstream of the polyadenylate tail are conserved in all genes. There is no equivalent of the eucaryotic polyadenylation signal AAUAAA upstream of the polyadenylate tail. The matrix protein of 28,717 daltons has 256 amino acids. It is relatively basic and moderately hydrophobic. There are two clusters of hydrophobic amino acid residues in the C-terminal third of the protein that could potentially interact with the membrane components of the infected cell. The matrix protein has no homology with the matrix proteins of other negative-strand RNA viruses, implying that RS virus has undergone extensive evolutionary divergence. A second open reading frame potentially encoding a protein of 75 amino acids and partially overlapping the C terminus of the matrix protein was also identified.  相似文献   

15.
16.
Selection of AUG initiation codons differs in plants and animals.   总被引:135,自引:10,他引:125       下载免费PDF全文
The influence of the nucleotide at position -3 relative to the AUG initiation codon on the initiation of protein synthesis was studied in two different in vitro translation systems using synthetic mRNAs. The four mRNAs, transcribed from cDNAs directed by an SP6 promoter, were identical except for mutations at nucleotide -3. In each case, translation of mRNAs produced a single protein of Mr = 12,600. Relative translational efficiencies showed a hierarchy in the reticulocyte lysate system (100, 85, 61 and 38% for A, G, U and C in position -3, respectively) but no differences in the wheat germ system. Differential mRNA degradation or polypeptide chain elongation were excluded as causes of the differences observed in translation in the reticulocyte lysate. mRNA competition increased the differences observed in translational efficiencies in reticulocyte lysate but showed no effect in wheat germ. Analysis of 61 plant and 209 animal mRNA sequences revealed qualitative and quantitative differences between the consensus sequences surrounding AUG initiation codons. Whereas the consensus sequence for animals was CACCAUG that for plants was AACAAUGGC. Both the structural and functional findings suggest that the factors which select AUG initiation codons in plants and animals differ significantly.  相似文献   

17.
Tilgner M  Shi PY 《Journal of virology》2004,78(15):8159-8171
Using a self-replicating reporting replicon of West Nile (WN) virus, we performed a mutagenesis analysis to define the structure and function of the 3'-terminal 6 nucleotides (nt) (5'-GGAUCU(OH)-3') of the WN virus genome in viral replication. We show that mutations of nucleotide sequence or base pair structure of any of the 3'-terminal 6 nt do not significantly affect viral translation, but exert discrete effects on RNA replication. (i). The flavivirus-conserved terminal 3' U is optimal for WN virus replication. Replacement of the wild-type 3' U with a purine A or G resulted in a substantial reduction in RNA replication, with a complete reversion to the wild-type sequence. In contrast, replacement with a pyrimidine C resulted in a replication level similar to that of the 3' A or G mutants, with only partial reversion. (ii). The flavivirus-conserved 3' penultimate C and two upstream nucleotides (positions 78 and 79), which potentially base pair with the 3'-terminal CU(OH), are absolutely essential for viral replication. (iii). The base pair structures, but not the nucleotide sequences at the 3rd (U) and the 4th (A) positions, are critical for RNA replication. (iv). The nucleotide sequences of the 5th (G) position and its base pair nucleotide (C) are essential for viral replication. (v). Neither the sequence nor the base pair structure of the 6th nucleotide (G) is critical for WN virus replication. These results provide strong functional evidence for the existence of the 3' flavivirus-conserved RNA structure, which may function as contact sites for specific assembly of the replication complex or for efficient initiation of minus-sense RNA synthesis.  相似文献   

18.
Most of the 400 RNA editing sites in flowering plant mitochondria are found in mRNAs. Consequently, the sequence vicinities of homologous sites are highly conserved between different species and are presumably recognized by likewise conserved trans-factors. To investigate the evolutionary adaptation to sequence variation, we have now analyzed the recognition elements of an editing site with divergent upstream sequences in the two species pea and cauliflower. This variation is tolerated at the site selected, because the upstream cis-elements reach into the 5'-UTR of the mRNA. To compare cis-recognition features in pea and cauliflower mitochondria, we developed a new in vitro RNA editing system for cauliflower. In vitro editing assays with deleted and mutated template RNAs show that the major recognition elements for both species are located within the conserved sequence. In cauliflower, however, the essential upstream nucleotides extend further upstream than they do in pea. In-depth analysis of single-nucleotide mutations reveals critical spacing of the editing site and the specific recognition elements, and shows that the +1 nucleotide identity is important in cauliflower, but not in pea.  相似文献   

19.
A highly photosensitive analogue of thymidine, 5-azidodeoxyuridine 5'-triphosphate, has been incorporated into 61-base pair (bp) DNA fragments corresponding to the central region of Xenopus somatic-type 5 S RNA genes such that 5-azidodeoxyuridine replaces some or all T residues in either the coding or noncoding strand of the TFIIIA binding site. Photolysis of TFIIIA.DNA complexes formed with these probes results in efficient, sequence-specific cross-linking to the Zn-finger protein providing direct evidence that this class of proteins have contacts in the major groove of their target sequence. Of the 20 T residues present in the 61-bp probes, greater than 90% of the cross-linking occurs from two sites in the 5 S RNA gene corresponding to T residues at positions 84 and 88 in the noncoding and coding strands, respectively. Digestion by V8 protease of the complex formed with the noncoding strand probe releases peptides not bound to the DNA. Amino acid sequence analysis of the remaining, cross-linked peptides indicates the region including zinc-finger 2 plus the finger 2-3 linker is in contact with position 84. The linker region between fingers 5 and 6 is also in close proximity to the major groove somewhere upstream from position 84.  相似文献   

20.
The initiation of translation is a fundamental and highly regulated process in gene expression. Translation initiation in prokaryotic systems usually requires interaction between the ribosome and an mRNA sequence upstream of the initiation codon, the so-called ribosome-binding site (Shine-Dalgarno sequence). However, a large number of genes do not possess Shine-Dalgarno sequences, and it is unknown how start codon recognition occurs in these mRNAs. We have performed genome-wide searches in various groups of prokaryotes in order to identify sequence elements and/or RNA secondary structural motifs that could mediate translation initiation in mRNAs lacking Shine-Dalgarno sequences. We find that mRNAs without a Shine-Dalgarno sequence are generally less structured in their translation initiation region and show a minimum of mRNA folding at the start codon. Using reporter gene constructs in bacteria, we also provide experimental support for local RNA unfoldedness determining start codon recognition in Shine-Dalgarno--independent translation. Consistent with this, we show that AUG start codons reside in single-stranded regions, whereas internal AUG codons are usually in structured regions of the mRNA. Taken together, our bioinformatics analyses and experimental data suggest that local absence of RNA secondary structure is necessary and sufficient to initiate Shine-Dalgarno--independent translation. Thus, our results provide a plausible mechanism for how the correct translation initiation site is recognized in the absence of a ribosome-binding site.  相似文献   

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