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Discontinuous synthesis of mRNA in trypanosomes.   总被引:47,自引:12,他引:35       下载免费PDF全文
J M Kooter  T De Lange    P Borst 《The EMBO journal》1984,3(10):2387-2392
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Several mature mRNAs of Trypanosoma brucei were previously shown to have a common 5' terminal sequence of 35 nucleotides (nt) encoded by a separate mini-exon. To verify whether all trypanosome mRNAs contain this mini-exon sequence at their 5' end, we have tested oligodeoxynucleotides complementary to different parts of the 35 nt leader sequence for their ability to inhibit translation of total trypanosome mRNA. All oligomers tested inhibited translation of trypanosome mRNAs in a wheat germ extract. They had no effect on translation of Brome mosaic virus mRNA and of a trypanosome mRNA for phosphoglycerate kinase modified to remove the mini-exon sequence. Three different 12mers inhibited translation 35-60%; both the 22- and 34mer inhibited translation 95-100%. Incorporation of amino acids decreased proportionally in all protein bands detected in high resolution polyacrylamide gels. Our results show that all trypanosome mRNAs that yield a product detectable in gel contain a mini-exon sequence. We infer that most, if not all, trypanosome mRNAs contain a 5' terminal mini-exon sequence acquired by discontinuous synthesis.  相似文献   

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The Bodo caudatus mini-exon-derived RNA gene repeat has been isolated following PCR amplification. The DNA sequence of the mini-exon fits the trypanosomatid mini-exon consensus, supporting inclusion of Bodo in this group. The B. caudatus mini-exon repeat also contains the 5S ribosomal RNA gene, an organization found in the trypanosome T. rangeli and five genera of nematodes. Phylogenetic analysis of both mini-exon-derived RNA gene and 5S gene sequences show that the free-living B. caudatus is more closely related to the monogenetic Crithidia than the digenetic Trypanosoma. Similarity between the Euglena gracilis trans-spliced leader and trypanosomatid mini-exon sequences was also noted during these comparisons.  相似文献   

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In order to explore genomic plasticity at the level of the mini-exon gene-bearing chromosome in natural populations of Leishmania, the molecular karyotype of 84 Leishmania stocks belonging to subgenus Viannia, originating mostly from Peru and Bolivia, and differing according to eco-geographical and clinical parameters, was resolved and hybridised with a mini-exon probe. The results suggest that size variation of the mini-exon gene-bearing chromosome is frequent and important (up to 245-kb size-difference), and partially involves variation (up to 50%) in copy number of mini-exon genes. There is no significant size-difference between mini-exon-bearing chromosomes of Peruvian and Bolivian populations of cutaneous and mucosal isolates of Leishmania (Viannia) braziliensis, but there is between eco-geographical populations of Leishmania (Viannia) peruviana. Leishmania (V.) peruviana presented a significantly smaller mini-exon-bearing chromosome than the other species of subgenus Viannia. The contrast between the general chromosome size heterogeneity and the homogeneity observed in some Peruvian Andean areas is discussed in terms of selective pressure.  相似文献   

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Anti-messenger oligodeoxynucleotides covalently linked to an intercalating agent were tested for their ability to inhibit translation of Trypanosoma brucei mRNAs in a cell-free system. The sequence of these oligodeoxynucleotides was complementary to part of the 35-nucleotide (nt) sequence which is present at the 5' end of all trypanosome mRNAs (the so-called mini-exon sequence). In a rabbit reticulocyte lysate, a nonadeoxynucleotide linked to an acridine derivative, specifically inhibited protein synthesis from T. brucei mRNAs much more efficiently than unmodified oligodeoxynucleotides of similar length. These oligodeoxynucleotides were tested on cultured trypanosomes. The acridine-linked nonadeoxynucleotide had a lethal effect on the parasites. No effect was observed with the homologous unmodified 9-mer nor with those 9-mers linked to the acridine derivative which were not complementary to the mini-exon sequence. These effects are probably a result of hybrid formation between the anti-messenger and mini-exon sequence. Trypanocidal activity of the acridine-modified nonadeoxynucleotide is most likely due to (i) increased affinity for its target, (ii) improved resistance to 3' exonucleases, and (iii) promoted membrane penetration of living parasites.  相似文献   

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The African trypanosome, Trypanosoma brucei, causes sleeping sickness in humans in sub-Saharan Africa. Here we report the sequence and analysis of the 1.1 Mb chromosome I, which encodes approximately 400 predicted genes organised into directional clusters, of which more than 100 are located in the largest cluster of 250 kb. A 160-kb region consists primarily of three gene families of unknown function, one of which contains a hotspot for retroelement insertion. We also identify five novel gene families. Indeed, almost 20% of predicted genes are members of families. In some cases, tandemly arrayed genes are 99–100% identical, suggesting an active process of amplification and gene conversion. One end of the chromosome consists of a putative bloodstream-form variant surface glycoprotein (VSG) gene expression site that appears truncated and degenerate. The other chromosome end carries VSG and expression site-associated genes and pseudogenes over 50 kb of subtelomeric sequence where, unusually, the telomere-proximal VSG gene is oriented away from the telomere. Our analysis includes the cataloguing of minor genetic variations between the chromosome I homologues and an estimate of crossing-over frequency during genetic exchange. Genetic polymorphisms are exceptionally rare in sequences located within and around the strand-switches between several gene clusters.  相似文献   

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Gene amplification in eukaryotes plays an important role in drug resistance, tumorigenesis, and evolution. The Schizosaccharomyces pombe sod2 gene provides a useful model system to analyze this process. sod2 is near the telomere of chromosome I and encodes a plasma membrane Na(+)(Li(+))/H(+) antiporter. When sod2 is amplified, S. pombe survives otherwise lethal concentrations of LiCl, and >90% of the amplified sod2 genes are found in 180- and 225-kilobase (kb) linear amplicons. The sequence of the novel joint of the 180-kb amplicon indicates that it is formed by recombination between homologous regions near the telomeres of the long arm of chromosome I and the short arm of chromosome II. The 225-kb amplicon, isolated three times more frequently than the 180-kb amplicon, is a palindrome derived from a region near the telomere of chromosome I. The center of symmetry of this palindrome contains an inverted repeat consisting of two identical 134-base pair sequences separated by a 290-base pair spacer. LiCl-resistant mutants arise 200-600 times more frequently in strains deficient for topoisomerases or DNA ligase activity than in wild-type strains, but the mutant cells contain the same amplicons. These data suggest that amplicon formation may begin with DNA lesions such as breaks. In the case of the 225-kb amplicon, the breaks may lead to a hairpin structure, which is then replicated to form a double-stranded linear amplicon, or to a cruciform structure, which is then resolved to yield the same amplicon.  相似文献   

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The African trypanosome genome   总被引:1,自引:0,他引:1  
The haploid nuclear genome of the African trypanosome, Trypanosoma brucei, is about 35 Mb and varies in size among different trypanosome isolates by as much as 25%. The nuclear DNA of this diploid organism is distributed among three size classes of chromosomes: the megabase chromosomes of which there are at least 11 pairs ranging from 1 Mb to more than 6 Mb (numbered I-XI from smallest to largest); several intermediate chromosomes of 200-900 kb and uncertain ploidy; and about 100 linear minichromosomes of 50-150 kb. Size differences of as much as four-fold can occur, both between the two homologues of a megabase chromosome pair in a specific trypanosome isolate and among chromosome pairs in different isolates. The genomic DNA sequences determined to date indicated that about 50% of the genome is coding sequence. The chromosomal telomeres possess TTAGGG repeats and many, if not all, of the telomeres of the megabase and intermediate chromosomes are linked to expression sites for genes encoding variant surface glycoproteins (VSGs). The minichromosomes serve as repositories for VSG genes since some but not all of their telomeres are linked to unexpressed VSG genes. A gene discovery program, based on sequencing the ends of cloned genomic DNA fragments, has generated more than 20 Mb of discontinuous single-pass genomic sequence data during the past year, and the complete sequences of chromosomes I and II (about 1 Mb each) in T. brucei GUTat 10.1 are currently being determined. It is anticipated that the entire genomic sequence of this organism will be known in a few years. Analysis of a test microarray of 400 cDNAs and small random genomic DNA fragments probed with RNAs from two developmental stages of T. brucei demonstrates that the microarray technology can be used to identify batteries of genes differentially expressed during the various life cycle stages of this parasite.  相似文献   

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