共查询到20条相似文献,搜索用时 451 毫秒
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Mohamed A Aboshkiwa Geoffrey C Rowland Geoffrey Coleman 《FEMS microbiology letters》1995,126(3):305-309
Abstract Although considerable homology exists between the translation products of the rplL, rpoB and rpoC genes of the β operons of the Gram-negative organism Escherichia coli and the Gram-positive Staphylococcus aureus the region between the rplL and rpoB genes is quite different in the two bacterial species. In E. coli the 324 bp has three centres of dyad symmetry in the first half of the sequence and multiple nonsense codons in all three reading frames. By contrast, the corresponding region in S. aureus consists of 1000 bp capable of forming a similar arrangement of stem-loop structures but with an open reading frame, sited 177 bp downstream of the end of rplL and 217 bp upstream of the beginning of the rpoB gene, with consensus initiation and termination signals, which if translated would generate a 22,665 Da protein with 202 amino acids. In view of the inability to find any significant homology with other proteins in the data bank and because the evidence suggests, as in E. coli , that the rplL-rpoB intergenic sequence is involved in regulation it is proposed that the expression product of orf202 may be a further element of control in the S. aureus β operon. 相似文献
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Coding from a distance: dissection of the mRNA determinants required for the incorporation of selenocysteine into protein. 总被引:12,自引:0,他引:12
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Incorporation of selenocysteine into proteins is directed by specifically 'programmed' UGA codons. The determinants for recognition of the selenocysteine codon have been investigated by analysing the effect of mutations in fdhF, the gene for formate dehydrogenase H of Escherichia coli, on selenocysteine incorporation. It was found that selenocysteine was also encoded when the UGA codon was replaced by UAA and UAG, provided a proper codon-anticodon interaction was possible with tRNA(Sec). This indicates that none of the three termination codons can function as efficient translational stop signals in that particular mRNA position. The discrimination of the selenocysteine 'sense' codon from a regular stop codon has previously been shown to be dependent on an RNA secondary structure immediately 3' of the UGA codon in the fdhF mRNA. It is demonstrated here that the correct folding of this structure as well as the existence of primary sequence elements located within the loop portion at an appropriate distance to the UGA codon are absolutely required. A recognition sequence can be defined which mediates specific translation of a particular codon inside an mRNA with selenocysteine and a model is proposed in which translation factor SELB interacts with this recognition sequence, thus forming a quaternary complex at the mRNA together with GTP and selenocysteyl-tRNA(Sec). 相似文献
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Translation of chloroplast-encoded mRNA: potential initiation and termination signals. 总被引:14,自引:3,他引:11
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A survey of 196 protein-coding chloroplast DNA sequences demonstrated the preference for AUG and UAA codons for initiation and termination of translation, respectively. As in prokaryotes at every nucleotide position from -25 to +25 (AUG is +1 to +3) and for 25 nucleotides 5' and 3' to the termination codon an A or U is predominant, except for C at +5 and G at +22. A Shine-Dalgarno (SD) sequence (GGAGG or tri- or tetranucleotide variant) was found within 100 bp 5' to the AUG codon in 92% of the genes. In 40% of these cases, the location of the SD sequence was similar to that of the consensus for prokaryotes (-12 to -7 5' to AUG), presumed to be optimal for translation initiation. A SD sequence could not be located in 6% of the chloroplast sequences. We propose that mRNA secondary structures may be required for the relocation of a distal SD sequences to within the optimal region (-12 to -7) for initiation of translation. We further suggest that termination at UGA codons in chloroplast genes may occur by a mechanism, involving 16S rRNA secondary structure, which has been proposed for UGA termination in E. coli. 相似文献
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Sato T Terabe M Watanabe H Gojobori T Hori-Takemoto C Miura Ki 《Journal of biochemistry》2001,129(6):851-860
Nucleotide sequences around the boundaries of all open reading frames in the Escherichia coli whole genome were analyzed. Characteristic base biases were observed after the initiation codon and before the termination codon. We examined the effect of the base sequence after the initiation codon on the translation efficiency, by introducing mutations after the initiation codon of the E. coli dihydrofolate reductase (DHFR) gene, considering codon and base biases, and using in vitro and in vivo translation systems. In both assay systems, the two most frequent second codons, AAA and AAU, enhanced the translation efficiency compared with the wild type, whereas the effects of lower frequency codons were not significant. Experiments using 16S rRNA variants with mutations in the putative complementary sequence to the region downstream of the initiation codon showed that the translation efficiency of none of the DHFR mutants was affected. These results demonstrate that the statistically most frequent sequences for the second codon enhance translation efficiency, and this effect seems to be independent of base pairing between mRNA and 16S rRNA. 相似文献
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