Trypanosoma cruzi 5S rRNA arrays define five groups and indicate the geographic origins of an ancestor of the heterozygous hybrids

Isolates of the etiological agent of Chagas disease, Trypanosoma cruzi, have been subdivided into six subgroups referred to as discrete typing units. The subgroups are related through two distinct hybridisation events: representatives of homozygous discrete typing units I and IIb fused to form discrete typing units IIa and IIc, whose homozygous genotypes have features of both ancestral types; a second fusion between strains of homozygous discrete typing units IIb and IIc created the heterozygous hybrid strains discrete typing units IId and IIe. The intergenic region of the tandemly repeated 5S rRNA array displays four variant sequence classes, allowing the discrimination of five discrete typing units. The genome project reference strain, CL Brener, is a hybrid discrete typing unit IIe strain that contains both discrete typing unit IIb and IIc classes of 5S rRNA repeats in distinct arrays present on different chromosomes. The CL Brener discrete typing unit IIb-type array contains approximately 193 repeated units, of which about one-third contain a 129 bp sequence that replaces a majority of the 5S rRNA sequence. The 129 bp 'invader' sequence was detected within the arrays of all hybrid discrete typing unit IId and IIe strains and in a subset of discrete typing unit IIb strains. This array invader replaces the internal promoter elements conserved in 5S rRNA. The discrete typing unit IIb Esmeraldo strain contains approximately 135 repeats and shows a region of homology to the array invader in the 5' flank of the array, but no evidence of the invading sequence element within the array. A survey of additional discrete typing unit IIb strains revealed a split within the subgroup, in which some strains contained invaded arrays and others were homogeneous for the 5S rRNA. The putative discrete typing unit IIb ancestor of the hybrid discrete typing units IId and IIe more closely resembles the extant Bolivian/Chilean IIb isolates than the Brazilian IIb isolates based on the correlation with the array invader.     

Cerastoderma glaucum 5S ribosomal DNA: characterization of the repeat unit, divergence with respect to Cerastoderma edule, and PCR-RFLPs for the identification of both cockles.

The 5S rDNA repeat unit of the cockle Cerastoderma glaucum from the Mediterranean and Baltic coasts was PCR amplified and sequenced. The length of the units was 539-568 bp, of which 120 bp were assigned to the 5S rRNA gene and 419-448 bp to the spacer region, and the G/C content was 46%-49%, 54%, and 44%-47%, respectively. Two types of units (A and B), differing in the spacer, were distinguished based on the percentage of differences and clustering in phylogenetic trees. A PCR assay with specific primers for each unit type indicated that the occurrence of both units is not restricted to the sequenced individuals. The 5S rDNA units of C. glaucum were compared with new and previously reported sequences of Cerastoderma edule. The degree of variation observed in C. edule was lower than that in C. glaucum and evidence for the existence of units A and B in C. edule was not found. The two cockles have the same coding region but displayed numerous fixed differences in the spacer region and group separately in the phylogenetic trees. Digestion of the 5S rDNA PCR product with the restriction enzymes HaeIII and EcoRV revealed two RFLPs useful for cockle identification.     

Expression and characterization of recombinant human factor V and a mutant lacking a major portion of the connecting region

Human coagulation factor V is a protein cofactor that is an essential component of the prothrombinase complex. A full-length factor V cDNA has been subcloned into the mammalian expression vector pDX and used to transfect COS cells. Approximately 95 +/- 4% of the recombinant human factor V (rHFV) synthesized in COS cells is secreted into the culture medium. Forty-eight hours after transfection rHFV antigen levels in the conditioned medium were 70 +/- 15 ng/mL. Factor V activity determined by fibrometer assay increased approximately 5-fold from 0.027 +/- 0.012 to 0.124 +/- 0.044 unit/mL following activation by the factor V activating enzyme from Russell's viper venom (RVV-V). A chromogenic assay specific for factor Va indicated that recombinant factor V had 3.8 +/- 1.3% of the activity of the activated protein. The estimated specific activity of the recombinant factor Va was approximately 1800 +/- 500 units/mg, which is similar to the specific activity of purified plasma factor Va of 1700-2000 units/mg. Immunoprecipitation of [35S]methionine-labeled rHFV revealed a single high molecular mass component (approximately 330 kDa). Treatment of rHFV with thrombin or RVV-V resulted in the formation of proteolytic products that were similar to those seen with plasma factor V. We have also expressed a mutant, rHFV-des-B811-1441, that lacks a large portion of the highly glycosylated connecting region that is present in factor V. Immunoprecipitation of [35S]methionine-labeled rHFV-des-B811-1441 revealed a single-chain polypeptide with Mr approximately 230 kDa. This mutant constitutively expressed 38 +/- 7% of the activity of the RVV-V-activated protein.(ABSTRACT TRUNCATED AT 250 WORDS)     

Evolution of 5S rDNA units and their chromosomal localization in Allium cepa and Allium schoenoprasum revealed by microdissection and FISH

Allium cepa and Allium schoenoprasum each possess 5S rDNA units of two different sizes. The evolution of the two repeat units and their chromosomal localization were investigated. A. cepa has 5S rDNA loci in the proximal and distal regions of the short arm of chromosome 7. When the proximal and distal segments of the short arm of chromosome 7 were microdissected separately, and used as templates for PCR, the short and long 5S rDNA fragments were amplified predominantly from the proximal and distal segments, respectively. The nucleotide sequence of the long 5S rDNA unit resulted from partial duplication of a non-transcribed spacer (NTS) and the insertion of a unique sequence. FISH using a probe consisting of the unique sequence demonstrated that the long unit was distally localized. In A. cepa, the long 5S rDNA unit is only present distally and the short unit is predominantly located proximally on the short arm of chromosome 7. In A. schoenoprasum, the NTSs of the two different-sized 5S rDNAs had quite different sequences. The two 5S rDNA loci were localized very close together in the interstitial region of chromosome 6. FISH, using long and short 5S rDNA unit probes with a competitor of a 120-bp sequence of the 5S rRNA gene, indicated that the long 5S rDNA unit was localized proximally and the short unit distally. Although the NTSs of the 5S rDNA of A. cepa and A. schoenoprasum had quite different nucleotide sequences, the long 5S rDNA units of A. cepa and A. schoenoprasum share a common 75-bp sequence. This sequence might act in the formation of the long 5S rDNA unit in Allium species.     

Zea mays chloroplast ribosomal RNA genes are part of a 22,000 base pair inverted repeat

Zea mays chloroplast rDNA exists in two identical units. Each unit contains one sequence for the 16, 23 and 5S rRNAs in the order given. The 16 and 23S sequences in each unit are separated by a 2100 base pair (bp) spacer. The DNA sequence for 5S RNA is closely linked to that for the 23S RNA. Within the above unit, the three RNAs are transcribed from a single DNA strand. The two rDNA units on the circular chloroplast DNA molecule are separated from each other by 18,500 bp in one direction and by 106,100 bp in the other direction. The two rDNA units have an inverted orientation with respect to each other. Each rDNA unit is part of a 22,000 bp sequence which is repeated with inverted orientation.     

Heterogeneity in the ribosomal RNA genes of the yeast Yarrowia lipolytica; cloning and analysis of two size classes of repeats

Southern blotting of DNA from the ascomycetous yeast Yarrowia lipolytica revealed two major size classes of DNA units coding for rRNAs, which differ in length by about 1000 bp. We have cloned an rDNA unit of each size class. R-looping experiments revealed that the rRNA genes of both units are uninterrupted; subsequent heteroduplex analysis showed that the size difference both units is located within the nontranscribed spacer. Sequence analysis revealed that a major part of these spacers consists of a complex pattern of repetitions in periodicities of up to about 150 bp and that the difference between both rDNA units are located mainly in this repetitive region. Apart from different lengths of the repetitive regions, both rDNA units also reveal extended microheterogeneity within their homologous parts. Furthermore, no gene for 5S rRNA was observed in the spacer region. Therefore, the organization of the spacer of Yarrowia rDNA is clearly different from that of Saccharomyces cerevisiae.     

Epidemiological investigation of an animal house based upon phage-typing and biotyping of Staphylococcus epidermidis.

The value of biotyping and phage-typing coagulase-negative staphylococci in the epidemiological investigation of a laboratory animal house was clearly demonstrated. In the animal rooms in which conventional bacteriological methods revealed equal bacterial contamination between a conventional unit and one housing specified-pathogen-free rodents, biotyping identified Staphylococcus cohnii as the only species in the latter, compared to S. warneri, S. hominis, S. saprophyticus. S. xylosus abd S. epidermidis as well as S. cohnii in the conventional unit. Similarly, phagetyping revealed 2 phage types in the specified-pathogen-free compared to 7 in the conventional unit. Thus biotyping and phage-typing provided evidence for the existence of a barrier between these units that had presented similar gross bacteriological findings.     

A second locus for the 5S multigene family in Secale L.: sequence divergence in two lineages of the family

The 5S RNA genes in Secale sp. are arranged as tandem arrays of a 460- and 480-bp repeating sequence. These size classes were initially discovered by restriction endonuclease analysis using BamHI and subsequently by DNA sequencing of cloned units. The length variation between short and long units originated from major deletion-insertion events in the noncoding spacer region of the 5S DNA repeat units. In situ hybridization with [3H]cRNA and biotin-labelled probes synthesized from both the short and long 5S DNA units of S. cereale localized the sites on chromosome 1R and a new site on a chromosome identified as 5R. We propose that the chromosome 1R locus, which has been mapped previously, be named 5SDna-R1 and the second locus, reported in the present paper, be referred to as 5SDna-R2. A preferential hybridization of a probe from the long unit to the 5SDna-R2 locus and of a probe from the short unit to the 5SDna-R1 locus is reported. The clustering of long units in the 5SDna-R2 locus was confirmed by restriction endonuclease digestion of DNA from rye chromosome 5R additions to wheat. Nucleotide sequence alignment of 5S DNA repeat units from a number of Secale species, using both phenetic and cladistic computer programmes, demonstrated that two clear lineages corresponding to the long and short units existed in this genus. The different Secale species could not be unambiguously differentiated using the 5S DNA sequences.     

Unusual ribosomal RNA gene organization in copepods of the genus Calanus

Ribosomal RNA genes in the nuclear genomes of eukaryotes are generally found in tandemly repeated units encoding 18 S, 5.8 S and 28 S rRNA (in that order). 5 S rRNA genes typically lie outside these units, most often in tandem clusters coding exclusively for 5 S rRNA. Inclusion of 5 S genes within the 18 S-5.8 S-28 S repeat unit is known only for certain protozoa and fungi. Here we report that, in the copepod Calanus finmarchicus, single 5 S genes are included within many or all of the 18 S-5.8 S-28 S repeat units. Sequence analyses of regions cloned from two of these repeat units show that they indeed include 5 S genes (which are distal to 28 S genes) and that these are transcribed from opposite strands.     

Evolution and structure of 5S rDNA loci in allotetraploid Nicotiana tabacum and its putative parental species

Nicotiana tabacum (tobacco) is an allotetraploid derived from ancestors of the modern diploids, N. sylvestris and N. tomentosiformis. We identified and characterized two distinct families of 5S ribosomal DNA (rDNA) in N. tabacum; one family had an average 431 bp unit length and the other a 646 bp unit length. In the diploid species, N. sylvestris and N. tomentosiformis, the 5S rDNA unit lengths are 431 bp and 644 bp respectively. The non-coding spacer sequence of the short unit in tobacco had high sequence homology to the spacer of N. sylvestris5S rDNA, while the longer spacer of tobacco had high homology with the 5S spacer of N. tomentosiformis. This suggests that the two 5S families in tobacco have their origin in the diploid ancestors. The longer spacer sequence had a GC rich sub-region (called the T-genome sub-region) that was absent in the short spacer. Pulsed field gel analysis and fluorescent in situ hybridization to tobacco metaphase chromosomes showed that the two families of 5S rDNA units are spatially separate at two chromosomal loci, on chromosomes S8 (short family) and T8 (long family). The repeat copy number at each chromosomal locus showed heterogeneity between different tobacco cultivars, with a tendency for a decrease in the copy number of one family to be compensated by an increase in the copy number of the second family. Sequence analysis reveals there is as much diversity in 5S family units within the diploid species as there is within the T and S-genome 5S family units respectively, suggesting 5S diversification within each family had occurred before tobacco speciation. There is no evidence of interlocus homogenization of the two 5S families in tobacco. This is therefore substantially different to 18-26S rDNA where interlocus gene conversion has substantially influenced most sequences of S and T genome origin; possible reasons are discussed.     

The 5S rRNA gene diversity in Kengyilia rigidula (Keng and S.L. Chen) J.L. Yang, Yen, and Baum (Poaceae: Triticeae): possible contribution of the H genome to the origin of Kengyilia.

Fifty-three units of 5S rDNA sequences from five accessions of Kengyilia rigidula, a member of the tribe Triticeae that also includes wheat, barley, rye, and their wild relatives, have been amplified by the polymerase chain reaction (PCR), cloned, and sequenced. The genome of K. rigidula consists of three haplomes, St, P, and Y. An evaluation of the aligned sequences of the diverse 53 different 5S DNA units yielded three 5S-unit classes. One unit class, Long S1, was assignable to the St haplome, one unit class, the Long P1, was assignable to the P haplome, and a third unit class, Long H1, was assignable to the H haplome. The last was expected to be assignable to the Y haplome, based on previous knowledge. Evolutionary scenarios are put forward to explain this finding. Among those possibilities is that the number of copies of units assignable to the Y haplome is very small and difficult to detect. Short units, reported earlier in K. alatavica, were not found in K. rigidula.     

Nucleotide sequence of two repeating units of the 5S rRNA gene from the house cricket Acheta domesticus

The 5S rRNA genes of the house cricket, Acheta domesticus, are contained within two basic repeating units measuring 3.0 and 2.1 kb, that have been cloned. Nucleotide sequence analysis was done on a 528-bp and a 541-bp EcoRI-HinfI DNA fragment from each cloned repeating unit which contains the 5S rRNA coding region. The nucleotide sequences of the 5S rRNA coding region from the two repeating units are identical.     

Two highly divergent 5S rDNA unit size classes occur in composite tandem array in European larch (Larix decidua Mill.) and Japanese larch (Larix kaempferi (Lamb.) Carr.).

The 5S ribosomal DNA unit structure and organization have been investigated in Larix decidua and Larix kaempferi using selective amplification of gene and spacer, sequence analysis and homologous probe hybridization. Two highly divergent unit size classes of approximately 650 and 870 bp were detected in both species. Sequence analysis in Larix decidua revealed that length variations occur in the middle spacer region and are the result of duplications (in the long spacers) and considerable sequence heterogeneity. Conversely, the transcribed region is of uniform length (120 bp), and the nucleotide sequence of one Larix decidua clone is similar to that reported for other gymnosperms. Sequence comparison of the larch spacers with two other Pinaceae species (Pinus radiata and Picea glauca) showed that the 5' and 3' regions flanking the gene (40 and 60 bp, respectively) are quite conserved, suggesting a regulatory role. Moreover, a small element of about 70 bp located in the middle spacer region was found to be common to the larch long units and the six Pinus radiata spacer clones previously sequenced (64% sequence identity). The short and long unit size classes are mainly organized in composite tandem array(s) with evidence of extensive zones of strict alternation in both species. Mechanisms underlying this unusual association of divergent units in larch 5S rDNA arrays are discussed.     

The nucleotide sequence of oocyte 5S DNA in Xenopus laevis. II. The GC-rich region

The primary sequence of the GC-rich half of the repeating unit in X. laevis 5S DNA has been determined in both a single plasmid-cloned repeating unit and in the total population of repeatig units. The GC-rich half of the repeating unit contains a single long duplication of 174 nucleotides. The duplicated segment commences 73 nucleotides preceding the 5' end of the gene and terminates at nucleotide 101 of the gene. The duplicated portion of the gene, termed the pseudogene, differs by 10 nucleotides from the corresponding portion of the gene, and the remaining duplicated sequence of 73 nucleotides differs by 13 nucleotides. The plasmid-cloned repeating unit differs from the dominant sequence in the total population repeating units by 6 nucleotides in the GC-rich region. Evidence is provided that most of the CpG dinucleotides in 5S DNA are at least partially methylated.     

Occurrence of 9 homologous repeat units in the external spacer region of a nuclear maize rRNA gene unit.

A 14 kb maize DNA fragment carrying nuclear rRNA genes and spacer regions was isolated and characterised by restriction enzyme mapping. A complete 3020 bp long external spacer region was sequenced and revealed 9 tandemly arranged 200 bp long repeat units with high homology. The repeat units lie upstream from two prominent S1 mapping signals. The sequence of a typical repeat unit is compared to a corresponding 130 bp long wheat repeat unit. The possible functional relevance of the repeat units is discussed.