Updating rDNA Restriction Enzyme Maps of Tetrahymena Reveals Four New Intron-Containing Species1

The extrachromosomal rDNA molecules from a number of Tetrahymena strains wered racterized by restriction enzyme mapping using three different restriction enzymes combined with gel blotting and hybridization analysis. Strains from four out of six recently described species were found to contain an intron in the 26s rRNA coding region. The evolutionary relationship among the species of the T. pyriformis complex was examined on the basis of the rDNA maps with emphasis on similarities between two of the new species and the widely studied T. thermophila and T. pigmentosa. Examination of a large number of T. pigmentosa strains showed this species to exhibit an unusual polymorphism with respect to its rDNA. It is suggested that recombinational cross-over events play a role in the formation of new rDNA alleles in this species.     

Inheritance of the group I rDNA intron in Tetrahymena pigmentosa

We have previously argued from phylogenetic sequence data that the group I intron in the rRNA genes of Tetrahymena was acquired by different Tetrahymena species at different times during evolution. We have now approached the question of intron mobility experimentally by crossing intron⁺ and intron^? strains looking for a strong polarity in the inheritance of the intron (intron homing). Based on the genetic analysis we find that the intron in T. pigmentosa is inherited as a neutral character and that intron⁺ and intron^? alleles segregate in a Mendelian fashion with no sign of intron homing. In an analysis of vegetatively growing cells containing intron⁺ and intron^? rDNA, initially in the same macronucleus, we similarly find no evidence of intron homing. During the course of this work, we observed to our surprise that progeny clones from some crosses contained three types of rDNA. One possible explanation is that T. pigmentosa has two rdn loci in contrast to the single locus found in T. thermophila. Some of the progeny clones from the genetic analysis were expanded for several hundred generations, and allelic assortment of the rDNA was demonstrated by subcloning analysis. © 1992 Wiley-Liss, Inc.     

Conformation change of cytochrome c. II. Ferricytochrome c refinement at 1.8 A and comparison with the ferrocytochrome structure

The X chromosomal nucleolus organizer of Drosophila hydei contains about 500 ribosomal RNA genes. The 28 S rRNA coding region of about 50% of these genes is interrupted by an intervening sequence of 6.0 × 10³ base-pairs. Restriction enzyme analysis revealed that more than 90% of the rRNA genes with intervening sequences are present as one or a few clusters within the X chromosomal nucleolus organizer. Furthermore, even though X chromosomal rRNA genes show several distinct size classes of non-transcribed spacers, the cluster of repeating units containing an intervening sequence has major spacer lengths of 4.4 × 10³ and 4.6 × 10³ base-pairs; spacers 5.1 × 10³ base-pairs in length are mainly linked with genes lacking the intervening sequence.     

Free ribosomal DNA molecules from Tetrahymena pyriformis GL are giant palindromes

Restriction ondonuclease EcoRI was used to study the structure of the free ribosomal DNA molecules from Tetrahymena pyriformis, strain GL. From the following observations we conclude that the free rDNA molecules from Tetrahymena are giant palindromes³, each containing two genes for preribosomal RNA arranged in rotational symmetry as inverted repeating sequences. Analyses of the sizes of products of partial or complete digestion and quantitative analyses of the products of complete digestion of uniformly ³²P-labeled rDNA yielded an RI endonucleolytic cleavage map which showed that the EcoRI recognition sites are arranged symmetrically about the center of the rDNA molecule.When heat-denatured rDNA was rapidly cooled under conditions in which no renaturation would occur between separated complementary strands of DNA, molecules of half the size of the original rDNA molecule were produced. These were double-stranded DNA molecules as evidenced by their resistance to digestion with S1 nuclease. Moreover, they could be digested with EcoRI to produce fragments of sizes which would be predicted from the assumption that each single strand of the original rDNA molecule had folded back on itself to form a “hair-pin” double-stranded DNA structure. Hybridization experiments between ribosomal RNA and purified rDNA showed that each rDNA molecule contains two genes for rDNA. Hybridization of the isolated EcoRI fragments of rDNA with 25 S or 17 S rRNA suggested that the two structural genes for 17 S rRNA are located near the center of the rDNA molecule and the two genes for 25 S rRNA are found in distal positions.     

Low molecular weight DNA in the heteromeric macronuclei of two cyrtophorid ciliates

Summary— The size range of the native DNA molecules in the heteromeric macronuclei of two cyrtophorid ciliates (Trithigmostoma cucullulus, Chilodonella uncinata) was mainly investigated by using agarose gel electrophoresis. Numerous bands superimposed on a continuous spectrum of molecular sizes between about 0.35 kb and 30 kb were resolved by conventional electrophoresis. Species-specific banding patterns indicate a variation between species in the copy number of individual DNA fragments. A slight intra-specific variability of banding patterns can exist. Electrophoretic distributions for two strains of T cucullulus were indeed found to differ by at least one more intense band (‘overamplified’ sequences?). Fractionation by contour-clamped homogeneous electric field (CHEF) gel electrophoresis revealed that the size continum of macronuclear DNA molecules does not extend beyond 60–70 kb. The average size was estimated to be around 4 kb. Unresolved DNA fraction (> 1000 kb) accounted for less than 10% of the mass of cellular DNA entering CHEF gels. Macronuclear ribosomal DNA of each cyrtophorid species was identified by Southern hybridization with a Tetrahymena rDNA probe. The hybridization signal was observed on a single band of low molecular weight DNA. The corresponding size was close to 14.5 kb in Trithigmostoma and 15.5 kb in Chilodonella, which is about twice the size of monomeric rDNA in hypotrichous ciliates. We showed that S1 nuclease resistant duplexes wit half the length of the native rDNA can be formed by rapid renaturation of heat-denatured molecules and hybridized with native rDNA. This strongly suggests that the nucleotide sequence of this rDNA is a large palindrome. Unlike the hypotrichs, macronuclear rDNA in cyrtophorids should be organized into palindromic dimers as in Tetrahymena species.     

Sequence homology near the center of the extrachromosomal rDNA palindrome in Tetrahymena

The nucleotide sequence in the central region of the extrachromosomal ribosomal DNA palindrome of Tetrahymena pigmentosa has been determined. The sequence data show that 26 nucleotides at the very center are not palindromic. A segment of 34 base-pairs just outside the non-palindromic region is highly conserved between Tetrahymena pigmentosa and Tetrahymena thermophila, while the rest of the central regions show little sequence homology.     

Cadmium detoxification in protists

Studies on cadmium (Cd) detoxification mechanisms mostly concern multicellular organisms, while information on eukaryotic unicellular organisms such as protists is very scanty. This study focuses on these organisms, and deals with the response of some species of ciliates to a non-essential metal like Cd. The effect of accumulation and tolerance are reported for Tetrahymena pyriformis T. pigmentosa and T. thermophila, and for three species of Hypotrichida. Cd is bound to both particulate and soluble fractions. These two compartments, which play an important role in intracellular metal homeostasis, are different in the species considered. In Hypotrichida, the particulate compartment binds Cd very promptly, while it is still present often three days of treatment in the soluble fraction of Tetrahymena. Two Cd-Zn binding isothioneins were isolated from the soluble fraction of T. pyriformis and T. pigmentosa. The primary structure revealed that the equivalent proteins from the two species have identical sequences and that the two isoforms differ only in the presence or absence of a lysine residue at the N-terminus. These metallothioneins are unusually long and have a unique internal homology which suggests that the proteins originate by gene duplication. The chains contain 331 cysteine residues, 16 of which are arranged in unique repeating motifs. The similarities of protist metallothioneins with other eukaryotic metallothioneins are discussed.     

Proteolytic degradation of ribosomal proteins during isolation of ribosomes and ribosomal subunits from Tetrahymena

A preparation procedure previously used to isolate active ribosomal subunits from an amicronucleate strain of Tetrahymena of undefined phenoset (T. «pyriformis CGL) yields inactive subunits when applied to other amicronucleate or to micronucleate strains of this protozoa.Proteolytic degradation of a small number of ribosomal proteins during preparation of ribosomal subunits from these strains explains this results. If cell extraction and ribosome isolation are carried out in the presence of iodoacetamide, proteolytic activity is inhibited and active ribosomal subunits are obtained. Comparison of the protein complements of active ribosomal subunits prepared in the presence of iodoacetamide from three amicronucleate strains of Tetrahymena reveals small but significant differences.     

Barcodes Reveal 48 New Species of Tetrahymena,Dexiostoma, and Glaucoma: Phylogeny,Ecology, and Biogeography of New and Established Species

Tetrahymena mitochondrial cox1 barcodes and nuclear SSUrRNA sequences are particularly effective at distinguishing among its many cryptic species. In a project to learn more about Tetrahymena natural history, the majority of >1,000 Tetrahymena‐like fresh water isolates were assigned to established Tetrahymena species with the remaining assigned to 37 new species of Tetrahymena, nine new species of Dexiostoma and 12 new species of Glaucoma. Phylogenetically, all but three Tetrahymena species belong to the well‐established “australis” or “borealis” clades; the minority forms a divergent “paravorax” clade. Most Tetrahymena species are micronucleate, but others are exclusively amicronucleate. The self‐splicing intron of the LSUrRNA precursor is absent in Dexiostoma and Glaucoma and was likely acquired subsequent to the “australis/borealis” split; in some instances, its sequence is diagnostic of species. Tetrahymena americanis, T. elliotti, T. gruchyi n. sp., and T. borealis, together accounted for >50% of isolates, consistent with previous findings for established species. The biogeographic range of species found previously in Austria, China, and Pakistan was extended to the Nearctic; some species show evidence of population structure consistent with endemism. Most species were most frequently collected from ponds or lakes, while others, particularly Dexiostoma species, were collected most often from streams or rivers. The results suggest that perhaps hundreds of species remain to be discovered, particularly if collecting is global and includes hosts of parasitic forms.     

Differentiation of Species and Populations of Aphelenchoides and of Ditylenchus angustus Using a Fragment of Ribosomal DNA

The polymerase chain reaction (PCR) was used to amplify a fragment of the ribosomal DNA (rDNA) from species and undescribed populations of Aphelenchoides and Ditylenchus angustus. The PCR primers used were based on conserved sequences in the 18S and 26S ribosomal RNA genes of Caenorhabditis elegans. In C. elegans, these primers amplify a 1,292 base pair (bp) fragment, which consists of the two internal transcribed spacers and the entire 5.8S gene. Amplification products from crude DNA preparations of 12 species and populations of Aphelenchoides and from D. angustus ranged in size from approximately 860-1,100bp. Southern blots probed with a cloned ribosomal repeat from C. elegans confirmed the identity of these amplified bands as ribosomal fragments. In addition to the differing sizes of the amplified rDNA fragments, the relative intensity of hybridization with the C. elegans probe indicated varying degrees of sequence divergence between species and populations. In some cases, amplified rDNA from the fungal host was evident. Storage of A. composticola at - 45 C for 2 years did not affect the ability to obtain appropriate amplified products from crude DNA preparations. Amplified rDNA fragments were cut with six restriction enzymes, and the restriction fragments produced revealed useful diagnostic differences between species and some undescribed populations. These results were consistent with previous studies based on morphology and isoenzymes. Three undescribed populations of Aphelenchoides were found to be different from all the species examined and from each other.     

Characterization of the ascomycetes Therrya fuckelii and T. pini fruiting on Scots pine branches in Nordic countries

The relative frequency of Therrya fuckelii and T. pini fruiting on dead branches of Scots pine was investigated in southern Norway by examining lightning-damaged and wind-fallen trees, randomly collected branches and Nordic herbarium collections of these ascomycetes representing the order Rhytismatales. Ascus, ascospore, and subhymenium characteristics were used as criteria for species identification, while a sequence analysis of ITS rDNA gene cluster was performed to compare the relatedness of the species to each other and to corresponding fungal sequences available at the NCBI GenBank Sequence Database. In a few cases, the two Therrya species co-occurred on the same branch, but in general, whether field or herbarium material, T. fuckelii was clearly more common than T. pini. Within the Nordic countries, both species occurred throughout the natural distribution area of Scots pine. The ITS rDNA sequence of T. pini strains was 91% similar to T. fuckelii strains, the differences locating both within the internal transcribed spacers ITS1 and ITS2 and the 5.8 S rDNA gene. More variation in the ITS1-5.8S-ITS2 sequence was observed among T. pini than T. fuckelii samples; genetic implications of this finding are discussed. Upon sequence analysis, we discovered that a T. pini sequence has been deposited in the NCBI GenBank under a false identity. We emphasize the importance of co-examining strains that originate from mature fruit bodies with fully developed morphologic features as reference samples.     

Near-full length sequencing of 16S rDNA and RFLP indicates that Rhizobium etli is the dominant species nodulating Egyptian winter Berseem clover (Trifolium alexandrinum L.)

Egyptian winter Berseem clover (EWBC) is one of the main important forage legume crops in Egypt that is used for animal feeding in winter and it occupies about 2.5 million feddans (Feddan = 4200 m²) in winter agricultural rotation systems. Forty-eight rhizobial isolates that nodulated this legume host from different geographical regions within Egypt were isolated. RFLP analyses of 16S rDNA (1.5 kb) and whole ribosomal DNA (5 kb), the sequencing of 16S rDNA, and the sequencing of nodC, nifH and house keeping genes were used to identify these isolates. The RFLP analysis of 16S rDNA (1.5 kb) among 15 representative strains with three enzymes generated two genotypes. The largest genotype was similar to Rhizobium etli CFN42T (93.33%) except for strain 902 that failed to re-nodulate EWBC. RFLP analysis of complete ribosomal DNA (5 kb) produced five genotypes. The majority of tested strains shared the genotype with R. etli CFN42T (53.33%). Only one strain (1002) shared the genotype with Rhizobium leguminosarum sv. trifolii 3023. The other four strains were comprised of two unique genotypes. Phylogenetic analysis of 16S rDNA sequences revealed that seven representative strains could be divided into two genetic clusters sharing the ancestral clad with R. etli CFN42T. A phylogenetic tree based on nodC gene sequence confirmed that all the examined strains shared the genetic lineage with R. leguminosarum sv. trifolii WSM1325. The phylogenetic trees of house keeping genes are supported strongly the identification of majority of strains as a novel symbiovar of R. etli with new lineages.     

The ribosomal DNA of Calliphora erythrocephala; an analysis of hybrid plasmids containing ribosomal DNA

We have analysed the ribosomal DNA of Calliphora erythrocephala, a Dipteran fly of the same sub-order as Drosophila melanogaster, through a series of rDNA² fragments cloned in a plasmid vector. We have mapped the sites for eight restriction enzymes within these plasmids, and positioned the regions coding for the 18 S and 28 S rRNAs within the maps of selected plasmids using the S₁ endonuclease mapping procedure of Berk & Sharp (1977). This analysis establishes that some rDNA cistrons of C. erythrocephala contain an “intron” (Gilbert, 1978) which interrupts the 28 S coding region at the same position as that of D. melanogaster rDNA. Two introns of 2.85 kilobases in length and part of a longer, sequence-related variant were isolated in these cloned fragments. Restriction enzyme site analysis and preliminary hybridization data indicate that the 2.85 kb intron of C. erythrocephala is largely unrelated in sequence to the two classes of D. melanogaster rDNA introns.     

Morphological and Biochemical Properties of a Sphaerotilus sp. Isolated From Paper Mill Slimes

Four strains of filamentous bacteria were isolated from slimes collected in different paper mill factories. Morphological and physiological characterization of the isolates indicated an affiliation with the genus Sphaerotilus. However, while the physiological properties of the isolates were almost identical, pronounced physiological differences between the isolates and Sphaerotilus natans DSM 6575^T, DSM 565, and DSM 566 with respect to their ability to metabolize complex polysaccharides, sugars, polyalcohols, or organic acids as carbon sources were detected. In contrast to the analyzed culture collection strains of S. natans, all paper mill isolates were able to grow at elevated temperatures of up to 40°C. Comparative sequence analysis of nearly complete 16S ribosomal DNA (rDNA) sequences from the four new isolates demonstrated that the retrieved sequences were highly similar to each other (99.6 to 99.8% similarity) and to previously published partial 16S rDNA sequences of S. natans DSM 6575^T and ATCC 15291. Polyphasic characterization of the isolated Sphaerotilus strains revealed interesting adaptations of the strains to the environmental paper mill conditions with regard to temperature tolerance and utilization of cellulose and starch.     

Homogeneity of the 16S rDNA sequence among geographically disparate isolates of Taylorella equigenitalis

Background

At present, six accessible sequences of 16S rDNA from Taylorella equigenitalis (T. equigenitalis) are available, whose sequence differences occur at a few nucleotide positions. Thus it is important to determine these sequences from additional strains in other countries, if possible, in order to clarify any anomalies regarding 16S rDNA sequence heterogeneity. Here, we clone and sequence the approximate full-length 16S rDNA from additional strains of T. equigenitalis isolated in Japan, Australia and France and compare these sequences to the existing published sequences.

Results

Clarification of any anomalies regarding 16S rDNA sequence heterogeneity of T. equigenitalis was carried out. When cloning, sequencing and comparison of the approximate full-length 16S rDNA from 17 strains of T. equigenitalis isolated in Japan, Australia and France, nucleotide sequence differences were demonstrated at the six loci in the 1,469 nucleotide sequence. Moreover, 12 polymorphic sites occurred among 23 sequences of the 16S rDNA, including the six reference sequences.

Conclusion

High sequence similarity (99.5% or more) was observed throughout, except from nucleotide positions 138 to 501 where substitutions and deletions were noted.     

An AluI fragment isolated from lake trout (Salvelinus namaycush), maps to the intergenic spacer region of the rDNA cistron

The relationship between a 217-bp AluI fragment (SnAluI-33c) from lake trout (Salvelinus namaycush) which hybridizes to the nucleolar organizer regions (NORs) and the ribosomal RNA genes was examined by Southern analysis and comparative hybridization. Restriction enzymes with recognition sites mapped in the lake trout rDNA cistron were used to digest genomic DNA into fragments of predetermined size. Comparison of the hybridization pattern of SnAluI-33c with those of two rDNA-specific probes placed this fragment within the intergenic spacer region of the rDNA cistron, approximately 3 kb upstream (5′) of the 18S gene. This finding is consistent with in situ hybridization experiments showing hybridization of this fragment to sites of rDNA [Reed, K.M. and Phillips, R.B., Cytogenet. Cell Genet. 70 (1995) 104–107]. Based on cross hybridization and sequence comparisons, homologous sequences are present in other salmonid species.     

Comparison of the nuclear ribosomal units of five Chlamydomonas species

The organization of the nuclear ribosomal units of five different species of Chlamydomonas has been examined by hybridization of their nuclear DNA fragments produced by several restriction endonucleases with a radioactively labelled probe consisting of the two cloned BamHI ribosomal fragments of C. reinhardii. The results indicate that a) the ribosomal units of these five species are structurally related, b) changes in the non transcribed spacer occur in C. eugametos and in C. globosa, c) the rDNA unit of C. intermedia contains either an enlarged internal transcribed spacer or a ribosomal intervening sequence, d) the rDNA units of C. reinhardii and C. callosa are indistinguishable.