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71.
72.
第一类释放因子是新生肽链释放所必需的因子,它能正确地识别终止信号,水解肽酰-tRNA酯键,释放出新合成的多肽链.它的高级结构与tRNA结构相似,从而解释了它们功能上的相似性,其氨基酸序列的高度保守区GGQ motif和三肽反密码子区在新生肽链的释放中分别执行重要的功能. 相似文献
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Protein-RNA recognition is an essential foundation of cellular processes, yet much remains unknown about these important interactions. The recognition between aminoacyl-tRNA synthetases and their cognate tRNA substrates is highly specific and essential for cell viability, due to the necessity for accurate translation of the genetic code into protein sequences. We selected an active tRNA that is highly mutated in the recognition nucleotides of the acceptor stem region in the alanine system. The functional properties of this mutant and its secondary derivatives demonstrate that recognition cannot be reduced to isolated structural elements, but rather the amino acid acceptor stem is being recognized as a unit. 相似文献
75.
Kiselev A. V. Ostapenko O. V. Rogozhkina E. V. Kholod N. S. Seit-Nebi A. S. Baranov A. N. Lesina E. A. Ivashchenko T. E. Sabetskii V. A. Shavlovskii M. M. Rechinsky V. O. Kisselev L. L. Baranov V. S. 《Molecular Biology》2002,36(1):30-33
Nonsense mutations in the dystrophin gene are the cause of Duchenne muscular dystrophy (DMD) in 10–15% of patients. In such an event, one approach to gene therapy for DMD is the use of suppressor tRNAs to overcome the premature termination of translation of the mutant mRNA. We have carried out cotransfection of the HeLa cell culture with constructs containing a suptRNA gene (pcDNA3suptRNA) and a marker LacZ gene (pNTLacZhis) using their polymer VSST-525 complexes. It was found that the number of cells producing -galactosidase depends inversely on the dose of the suptRNA gene. A single in vivo injection of the construct providing for expression of the suptRNAochre gene into mdx mouse muscle resulted in the production of dystrophin in 2.5% of fibers. This suggests that suppressor tRNAs are applicable in gene therapy for hereditary diseases caused by nonsense mutations. 相似文献
76.
During bacterial protein synthesis, stalled ribosomes can be rescued by tmRNA, a molecule with both tRNA and mRNA features. The tRNA region of tmRNA has sequence similarity with tRNA(Ala) and also has a clover-leaf structure folded similarly as in canonical tRNAs. Here we propose the L-shape of tmRNA to be stabilized by two tertiary interactions between its D- and T-loop on the basis of phylogenetic and experimental evidence. Mutational analysis clearly demonstrates a tertiary interaction between G(13) and U(342). Strikingly, this in evolution conserved interaction is not primarily important for tmRNA alanylation and for binding to elongation factor Tu, but especially for a proper functioning of SmpB. 相似文献
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78.
In a screen for calcium-regulated gene expression during growth and development ofDictyostelium discoideum we have identified an asparaginyl tRNA synthetase (ddAsnRS) gene, the second tRNA synthetase gene identified in this organism. TheddAsnRS gene shows many unique features. One, it is repressed by lowering cellular calcium, making it the first known calcium-regulated
tRNA synthetase. Two, despite the calcium-dependence, its expression is unaltered during the cell cycle, making this the firstD. discoideum gene to show a calcium-dependent but cell cycle phase-independent expression. Finally, the N-terminal domain of the predicted
ddAsnRS protein shows higher sequence similarity to Glutaminyl tRNA synthetases than to other Asn tRNA synthetases. These
unique features of theAsnRS from this primitive eukaryote not only point to a novel mechanism regulating the components of translation machinery and
gene expression by calcium, but also hint at a link between the evolution ofGlnRS andAsnRS in eukaryotes. 相似文献
79.
The anticodon sequence is a major recognition element for most aminoacyl-tRNA synthetases. We investigated the in vivo effects of changing the anticodon on the aminoacylation specificity in the example of E. coli tRNAPhe. Constructing different anticodon mutants of E. coli tRNAPhe by site-directed mutagenesis, we isolated 22 anticodon mutant tRNAPhe; the anticodons corresponded to 16 amino acids and an opal stop codon. To examine whether the mutant tRNAs had changed their amino acid acceptor specificity in vivo, we tested the viability of E. coli strains containing these tRNAPhe genes in a medium which permitted tRNA induction. Fourteen mutant tRNA genes did not affect host viability. However, eight mutant tRNA genes were toxic to the host and prevented growth, presumably because the anticodon mutants led to translational errors. Many mutant tRNAs which did not affect host viability were not aminoacylated in vivo. Three mutant tRNAs containing anticodon sequences corresponding to lysine (UUU), methionine (CAU) and threonine (UGU) were charged with the amino acid corresponding to their anticodon, but not with phenylalanine. These three tRNAs and tRNAPhe are located in the same cluster in a sequence similarity dendrogram of total E. coli tRNAs. The results support the idea that such tRNAs arising from in vivo evolution are derived by anticodon change from the same ancestor tRNA. 相似文献
80.
The proper folding of tubulins prior to their incorporation into microtubules requires a group of conserved proteins called
cofactors A to E. In fission yeast, homologues of these cofactors (at least B, D and E) are necessary for the biogenesis of
microtubules and for cell viability. Here we show that the temperature-sensitive alp11-924 mutant, which is defective in the cofactor B homologue, contains an opal nonsense mutation, which results in the production
of a truncated Alp11B protein (Alp111–118). We isolated a tRNATrp gene as a multicopy suppressor of this mutation, which rescues alp11-924 by read-through of the nonsense codon. The truncated Alp111–118 protein lacks the C-terminal half of Alp11B, consisting of a central coiled-coil region and the distal CLIP-170 domain found in a number of proteins involved in microtubule
functions. Both of these domains are required for the maintenance of microtubule architecture in vivo. Detailed functional
analyses lead us to propose that Alp11B comprises three functional domains: the N-terminal half executes the essential function, the central coiled-coil region is
necessary for satisfactory maintenance of cellular α-tubulin levels, and the C-terminal CLIP-170 domain is required for efficient
binding to α-tubulin.
Received: 29 November 1999 / Accepted: 18 April 2000 相似文献