A novel chromodomain protein, pdd3p, associates with internal eliminated sequences during macronuclear development in Tetrahymena thermophila.
(17/730)
Conversion of the germ line micronuclear genome into the genome of a somatic macronucleus in Tetrahymena thermophila requires several DNA rearrangement processes. These include (i) excision and subsequent elimination of several thousand internal eliminated sequences (IESs) scattered throughout the micronuclear genome and (ii) breakage of the micronuclear chromosomes into hundreds of DNA fragments, followed by de novo telomere addition to their ends. Chromosome breakage sequences (Cbs) that determine the sites of breakage and short regions of DNA adjacent to them are also eliminated. Both processes occur concomitantly in the developing macronucleus. Two stage-specific protein factors involved in germ line DNA elimination have been described previously. Pdd1p and Pdd2p (for programmed DNA degradation) physically associate with internal eliminated sequences in transient electron-dense structures in the developing macronucleus. Here, we report the purification, sequence analysis, and characterization of Pdd3p, a novel developmentally regulated, chromodomain-containing polypeptide. Pdd3p colocalizes with Pdd1p in the peripheral regions of DNA elimination structures, but is also found more internally. DNA cross-linked and immunoprecipitated with Pdd1p- or Pdd3p-specific antibodies is enriched in IESs, but not Cbs, suggesting that different protein factors are involved in elimination of these two groups of sequences. (+info)
Molecular characterization of the first two enzymes of the pentose-phosphate pathway of Trypanosoma brucei. Glucose-6-phosphate dehydrogenase and 6-phosphogluconolactonase.
(18/730)
Trypanosomatids are parasitic protists that have part of their glycolytic pathway sequestered inside peroxisome-like organelles: the glycosomes. So far, at least one enzyme of the pentose-phosphate pathway has been found to be associated partially with glycosomes. Here, we describe how two genes from Trypanosoma brucei, coding for the first two enzymes of the pentose-phosphate pathway, i.e. glucose-6-phosphate dehydrogenase and 6-phosphogluconolactonase, were identified by in silico screening of trypanosome genome project data bases. These genes were cloned and sequenced. Analysis of the lactonase sequence revealed that it contained a C-terminal peroxisome targeting signal in agreement with its subcellular localization in the bloodstream form trypanosome (15% glycosomal and 85% cytosolic). However, the dehydrogenase sequence did not reveal any targeting signal, despite its localization inside glycosomes. The corresponding enzymes have been overexpressed in Escherichia coli and purified, and their biochemical characteristics have been determined. (+info)
Genomic rearrangements in trypanosomatids: an alternative to the "one gene" evolutionary hypotheses?
(19/730)
Most molecular trees of trypanosomatids are based on point mutations within DNA sequences. In contrast, there are very few evolutionary studies considering DNA (re) arrangement as genetic characters. Waiting for the completion of the various parasite genome projects, first information may already be obtained from chromosome size-polymorphism, using the appropriate algorithms for data processing. Three illustrative models are presented here. First, the case of Leishmania (Viannia) braziliensis/L. (V.) peruviana is described. Thanks to a fast evolution rate (due essentially to amplification/deletion of tandemly repeated genes), molecular karyotyping seems particularly appropriate for studying recent evolutionary divergence, including eco-geographical diversification. Secondly, karyotype evolution is considered at the level of whole genus Leishmania. Despite the fast chromosome evolution rate, there is qualitative congruence with MLEE- and RAPD-based evolutionary hypotheses. Significant differences may be observed between major lineages, likely corresponding to major and less frequent rearrangements (fusion/fission, translocation). Thirdly, comparison is made with Trypanosoma cruzi. Again congruence is observed with other hypotheses and major lineages are delineated by significant chromosome rearrangements. The level of karyotype polymorphism within that "species" is similar to the one observed in "genus" Leishmania. The relativity of the species concept among these two groups of parasites is discussed. (+info)
The unusual gene organization of Leishmania major chromosome 1 may reflect novel transcription processes.
(20/730)
The complete chromosomal sequence for chromosome 1 from Leishmania major Friedlin predicts that this chromosome has 79 protein-coding genes. Surprisingly, the first 29 of these genes are encoded in tandem on one strand of DNA, and the remaining 50 genes are encoded in tandem on the other. No RNA polymerase promoters, centromeric sequences or origins of DNA replication have been identified in the DNA sequence. Statistical analyses of the nucleotide content reveal striking, non-random, sequence-biases that are correlated with genome organization. Analysis of coding regions suggests that novel transcription processes in Leishmania may be responsible for the nucleotide bias, which in turn affects gene organization in the chromosome. These results also suggest that the region between the two units of in-tandem genes is a candidate for an origin of DNA replication. (+info)
Novel trypanosomatid small nucleolar RNAs that guide methylation: their genome organization, expression and potential use to direct specific methylation on target RNA molecules.
(21/730)
Trypanosomatids are the causative agent of several major parasitic diseases including African trypanosomiasis, American trypanosomiasis, and leishmaniasis. These parasites possess unique RNA-processing mechanisms including trans-splicing of pre-mRNA and RNA editing of mitochondrial transcripts. In this study, we identified a trypanosomatid novel group of small nucleolar RNAs that belong to the box C/D snoRNA, which were shown to guide ribose methylation on rRNA. Three snoRNA genes were identified; snoRNA-2 carrying a single snoRNA and g2 and b2 coding for a single or multiple snoRNAs, respectively. Mapping of the methylation sites guided by snoRNA-2 using two different approaches suggest that snoRNA-2 has the potential to guide methylation on both 5.8S and 18S rRNAs. The trypanosomes follow the same guide-methylation rule established for yeast and for mammals. As a first attempt to change the methylation pattern of target RNAs, we generated transgenic parasites carrying the B2 and snoRNA-2, which were engineered to shift the methylation site on rRNA. Despite efficient expression of these tagged snoRNAs, the novel methylation site was not generated. However, efficient expression of tagged snoRNAs in transgenic parasites opens the possibility of engineering novel methylation sites on different target RNAs in vivo. (+info)
SURVEY AND SUMMARY: exon-intron organization of genes in the slime mold Physarum polycephalum.
(22/730)
The slime mold Physarum polycephalum is a morphologically simple organism with a large and complex genome. The exon-intron organization of its genes exhibits features typical for protists and fungi as well as those characteristic for the evolutionarily more advanced species. This indicates that both the taxonomic position as well as the size of the genome shape the exon-intron organization of an organism. The average gene has 3.7 introns which are on average 138 bp, with a rather narrow size distribution. Introns are enriched in AT base pairs by 13% relative to exons. The consensus sequences at exon-intron boundaries resemble those found for other species, with minor differences between short and long introns. A unique feature of P.polycephalum introns is the strong preference for pyrimidines in the coding strand throughout their length, without a particular enrichment at the 3'-ends. (+info)
Targeted terminal deletions as a tool for functional genomics studies in Plasmodium.
(23/730)
We describe a transfection system that induces terminal deletions at specific chromosome ends in malaria parasites using a linear construct containing telomeric repeats at one end and plasmodial sequences able to drive homologous recombination at the other. A site-specific deletion was generated at one extremity of chromosome 5 of Plasmodium berghei, which was stably maintained in the parasite population selected after transfection. The telomeric repeat array introduced with the construct reached the average length observed in natural telomeres of Plasmodium, indicating that in vivo telomere addition occurred at the newly formed extremity. The expression of a mutant dhfr/ts gene conferring pyrimethamine resistance, used as a selectable marker, was not affected by the proximity to the telomeric sequences, either in the presence or absence of drug pressure. In addition, no transcriptional silencing was observed on insertion of the mutant dhfr/ts gene either in subtelomeric or internal positions that are transcriptionally silent in blood-stage parasites. This suggests that the activity of its promoter is not affected by the chromatin organization of the chromosomal context. (+info)
Nucleotide sequence, genomic organization and cell-cycle-dependent expression of a Chlamydomonas 14-3-3 gene.
(24/730)
Members of the 14-3-3 protein family have been identified as regulatory elements in intracellular signalling pathways and cell cycle control. Previously we reported the nucleotide sequence of a 14-3-3 cDNA cloned from the unicellular green alga Chlamydomonas reinhardtii. In this communication, we describe the nucleotide sequence, the genomic organization and the cell-cycle-dependent expression of the corresponding gene. The coding sequence of this gene was found to be interrupted by four introns of 124, 116, 81, and 659 bp, respectively. Introns 2-4 were found in conserved positions as compared to the Arabidopsis 14-3-3 genes. A counterpart to intron 1 absent in the Arabidopsis 14-3-3 genes was found in the human 14-3-3 epsilon gene. (+info)