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1.
Olubajo B  Taylor EW 《Mutation research》2005,579(1-2):125-132
Ribosomal frameshifting is used by various organisms to maximize protein coding potential of genomic sequences. It is commonly exploited by RNA viruses to overcome the constraint of their limited genome size. Frameshifting requires specific RNA structural features, such as a suitable heptanucleotide “slippery” sequence and an RNA pseudoknot. Previous genomic analysis of HIV-1 indicated the potential for several hidden genes encoded through frameshifting; one of these, overlapping the envelope gene, has an RNA pseudoknot just downstream from a slippery sequence, AAAAAGA that features an adenine quadruplet prior to a potential hungry arginine codon (AGA). This env-frameshift (env-fs) gene has been shown to encode a truncated glutathione peroxidase homologue, with both antioxidant and anti-apoptotic activities in transfected cells. Using a dual reporter cell-based frameshift assay, we demonstrate that the env-fs frameshift sequence is active in vitro. Furthermore, in arginine deficient media, env-fs frameshifting increased over 100% (p < 0.005), consistent with the hypothesized hungry codon mechanism. As a response to arginine deficiency, increased expression of the antioxidant viral GPx gene (env-fs) by upregulation of frameshifting could be protective to HIV-infected cells, as a countermeasure to the increased oxidative stress induced by arginine deficiency (because NO is a known scavenger of hydroxyl radical).  相似文献   

2.
变灰青霉线粒体基因组特征及系统发育分析   总被引:1,自引:0,他引:1       下载免费PDF全文
本研究对一株分离自细虫草上的变灰青霉SFY00C3菌株线粒体基因组进行测定,分析其组成特征,并探究其与青霉属真菌的系统发育关系。结果表明,SFY00C3的线粒体基因组是一条长度为28 301 bp的环状DNA分子,共编码42个基因(15个蛋白编码基因、2个rRNA基因和25个tRNA基因),其碱基组成有显著的A-T偏好性,25个tRNA基因均可形成典型三叶草结构,并存在32处G-U错配。通过青霉属物种间共线性分析发现其线粒体基因组发生了基因重排;共有的14个蛋白编码基因的Ka/Ks值均小于1,表明受到了纯化选择压力的影响;系统发育分析表明:SFY00C3在青霉属中是一个独立的分支,应该是6种青霉祖先的姊妹。本研究丰富了变灰青霉的线粒体基因组序列信息,为青霉属的系统发育、资源保护及遗传多样性研究提供基础数据。  相似文献   

3.
A series of spontaneous and ethyl methanesulfonate-induced 6-thioguanine-resistant mutants were isolated in the CHO-10T5 cell line. This cell line was constructed by the introduction of a shuttle vector containing the Escherichia coli gpt gene into a hypoxanthine-guanine phosphoribosyltransferase deficient derivative of the Chinese hamster cell line CHO-K1. Shuttle vector sequences were recovered from many of the mutant cell lines by the COS cell fusion technique and the DNA base sequence of the gpt genes was determined whenever possible.

The base sequences were determined for gpt genes recovered from 29 spontaneous mutants. Of these 29 mutants, 9 have single base substitutions, 1 has a small duplication, 17 have simple deletions, 1 has a deletion with additional bases inserted at the deletion site, and 1 has no change in the gpt coding sequence. Many of the deletions were less than 20 basepairs in length and several occurred in a region previously observed to be a hotspot for spontaneous deletions. The generation of the deletion/insertion mutation may have involved a quasi-palindromic intermediate.

A total of 59 ethyl methansesulfonate-induced mutants were isolated and vector sequences were recovered from 50 mutants. All 50 mutants sequenced had single base substitutions and most (45) were G:C to A:T transitions. While there were no strong hotspots in this collection of mutations, the site distribution was obviously nonrandom. Many of the G:C to A:T transitions either produced a nonsense codon or occurred at glycine codons.  相似文献   


4.
5.
叶绿体基因组序列变异和基因组成等特征可有效反映植物类群间的系统发育和进化关系。本研究利用Illumina高通量测序平台对梅花草属(Parnassia)及其近缘属5种植物的叶绿体基因组进行测序和组装,同时基于已发表的近缘种叶绿体基因组信息,对梅花草属叶绿体基因组结构特征、序列遗传变异和蛋白编码基因密码子偏好性比对分析。结果显示:梅花草属叶绿体基因组整体结构较为保守,均为四分体结构;梅花草多个基因出现假基因化,而本属其他物种叶绿体基因组成一致,均编码115个基因;与近缘属物种相比,本属所有物种均丢失rpl16基因的内含子;蛋白质编码基因的非同义/同义替代率比值较低,叶绿体基因可能经历纯化选择作用;密码子偏好性聚类结果与蛋白编码序列重建的系统发育关系结果一致。本研究表明选择压力可能在梅花草属叶绿体基因组蛋白编码基因进化过程中发挥作用,有助于进一步理解梅花草属植物的进化和适应机制。  相似文献   

6.
Vlachou D  Komitopoulou K 《Gene》2001,270(1-2):41-52
We present a total of approximately 15 kb of DNA sequences, encompassing four chorion genes Ccs18, Ccs15, Ccs19, Cc16 and their flanking DNA in the medfly C. capitata. Comparison of coding regions, introns and intergenic sequences in five Dipteran species, D. melanogaster, D. subobscura, D. virilis, D. grimshawi and C. capitata documented an extensive divergence in introns and coding regions, but few well conserved elements in the proximal 5′ flanking regions in all species. These elements are related to conserved regulatory features of three of the genes, including tissue- and temporal regulation. In the fourth, gene s15, significant alterations in the 5′ flanking region may be responsible for its changed temporal regulation in C. capitata. One long intergenic sequence, located in the distal 5′ flanking region of gene s18, is homologous to ACE3, a major amplification control element and contains an 80-bp A/T-rich sequence, known to stimulate strong binding of the origin recognition complex (ORC) in D. melanogaster. Analysis of the nucleotide composition of all chorion genes in C. capitata and D. melanogaster showed that C. capitata exhibit less biased representation of synonymous codons than does D. melanogaster.  相似文献   

7.
N Nakajima  H Ozeki  Y Shimura 《Cell》1981,23(1):239-249
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8.
Phylogenetic methods can produce biased estimates of phylogeny when base composition varies along different lineages. Pettigrew (1994,Curr. Biol.4:277–280) has suggested that base composition bias is responsible for the apparent support for the monophyly of bats (Chiroptera: megabats and microbats) from several different nuclear and mitochondrial genes. Pettigrew's “flying DNA” hypothesis makes several predictions: (1) that metabolic constraints associated with flying result in elevated levels of adenine and thymine throughout the genome of both megabats and microbats, (2) that the resulting base compositional bias in bats is sufficient to mislead phylogenetic methods and account for the support for bat monophyly from several nuclear and mitochondrial genes, and (3) that phylogenetic analysis using pairwise distances corrected for compositional bias should eliminate the support for bat monophyly. We tested these predictions by analyzing DNA sequences from two nuclear and three mitochondrial genes. The predicted base compositional bias does not appear to exist in some of the genes, and in other genes the differences in AT content are very small. Analyses under a wide diversity of criteria and models of evolution, including analyses that take base composition into account (using log-determinant distances), all strongly support bat monophyly. Moreover, simulation analyses indicate that even extreme bias toward AT-base composition in bats would be insufficient to explain the observed levels of support for bat monophyly. These analyses provide no support for the “flying DNA” hypothesis, whereas the monophyly of bats appears to be well supported by the DNA sequence data.  相似文献   

9.
The enzyme triosephosphate isomerase (TPI) was purified to homogeneity from the mosquito Culex tarsalis. Anti-C. tarsalis TPI antibodies cross-reacted with TPIs from other organisms but bands on western blots were most intense with proteins from closely related Dipterans. Using a degenerate primer corresponding to the amino-terminal sequence of the protein in a polymerase chain reaction (PCR), a cDNA corresponding to the TPI gene (Tpi) was isolated and sequenced. Subsequently, a genomic sequence including 305 bp to the 5′-end of the coding sequence was obtained. Comparison of C. tarsalis Tpi to that of Drosophila melanogaster revealed that although the two genes had little similarity in the intron and 5′ flanking sequences, they were highly similar (73% identity) in their coding sequence. The rate of synonymous substitution in insect genes may be slower than that of vertebrates, but the nonsynonymous substitution rate, and hence the rate of TPI evolution, appears to be faster in insects than in vertebrates.  相似文献   

10.
Edward R. Fliss  Peter Setlow   《Gene》1984,30(1-3):167-172
The nucleotide sequence of the Bacillus megaterium gene coding for spore-specific protein C-3 has been determined. The gene codes for 65 amino acids and the coding sequence is preceded by an efficient ribosome-binding site. The predicted protein C-3 sequence agrees with both the amino acid composition and the amino terminal sequence of protein C-3, and shows homology (approx. 65 % of all residues are identical) with the sequences of the analogous proteins A and C of B. megaterium. Protein C-3 is cleaved by the sequence-specific B. megaterium spore protease, and the amino acid sequence at the new amino-terminus generated is identical to that predicted from the gene sequence, and homologous to the spore protease cleavage sites in the A and C proteins. The protein C-3 gene also shares a number of features with the previously sequenced protein C gene in both upstream and downstream flanking sequence.  相似文献   

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