Chloroplast ribosomal protein L-18 in Chlamydomonas reinhardtii is processed during ribosome assembly

Summary Chloroplast ribosomal protein L-18 is made in the cytoplasm as a precursor, imported into the chloroplast, and processed to the mature form in two steps. We report here that the intermediate produced following the first processing step associates specifically with a ribosomal complex migrating with the chloroplast ribosome large subunit peak in sucrose gradients, and is then processed into mature L-18. This processing event is slowed down in mutant cells deficient in synthesis of non-ribosomal proteins in the chloroplast. Thus the second processing step of L-18 occurs during ribosome assembly, depends on one or more nonribosomal proteins made in the chloroplast, and may be required for the maturation of the 50 S ribosome subunit. The mature L-18 protein shows extensive sequence homology at its amino-terminus to Escherichia coli ribosomal protein L27, which is located at the interface, between 30 S and 50 S subunits and is involved in the formation of the peptidyl-tRNA binding site.     

Morphologic, genetic, and biochemical characterization of Helicobacter magdeburgensis, a novel species isolated from the intestine of laboratory mice

Background: The presence of enterohepatic Helicobacter species (EHS) is commonly noted in mouse colonies. These infections often remain unrecognized but can cause severe health complications or more subtle host immune perturbations and therefore can confound the results of animal experiments. The aim of this study was to isolate and characterize a putative novel EHS that has previously been detected by PCR screening of specific‐pathogen‐free mice. Materials and Methods: Biochemical analysis of enzyme activities (API campy), morphologic investigation (Gram‐staining and electron microscopy) and genetic analyses (16SrRNA and 23SrRNA analyses, DNA fingerprinting, restriction fragment polymorphisms, and pulsed‐field gel electrophoresis) were used to characterize isolated EHS. Genomic DNA fragments were sequenced to develop a species‐specific PCR detection assay. Results: Scanning electron microscopy revealed the presence of spiral‐shaped EHS, which varied in length (2.5–6 μm) and contained single monopolar or single bipolar sheathed flagella. The bacteria were grown under anaerobic conditions, preferably on agar plates containing serum or blood. The 16SrRNA, genetic, and biochemical analyses indicated the identification of a novel EHS species, named Helicobacter magdeburgensis. We also examined the genome content using pulsed‐field gel electrophoresis. Based on the pattern produced by two restriction enzymes, BamIII and KspI, the genome size was determined to be about 1.7–1.8 Mbp. Conclusion: We isolated and characterized a novel EHS species, H. magdeburgensis, morphologically, biochemically, and genetically. These results are important for future studies on the prevalence and pathophysiologic relevance of such infections. Our PCR assay can be used to detect and discriminate H. magdeburgensis from other Helicobacter species.     

Structure secondaire de l’ARN 18S et phylogénie basale du genre Carabus L., 1758 (Coleoptera : Carabidae)

The phylogeny of the Carabinae (genera Cychrus, Pamborus, Ceroglossus, Calosoma, Carabus) is still not well resolved in its deepest nodes, despite several attempts in recent years. This group appeared during the Palaeogene, but phylogenetic analyses are difficult, which is correlated to the topology of the conflicting trees obtained, with long terminal and short internal branches. To circumvent this classical problem, we studied a non-coding and rather conservative nuclear marker (18SrRNA), then we focussed on its most variable regions, looking for some ‘molecular signatures’ originating from deep inter-nodes. For this, we compared the secondary structure of the helices H23-3 and H43. We found that the genus Carabus is monophyletic, the clade Calosoma being its sister group. Within Carabus, the Arcifera is the sister group of a diversified clade, named Eucarabi, grouping the Spinulati, the Crenolimbi and the Heterocarabi. Unexpectedly, the Heterocarabi is a very homogenous clade considering 18SrRNA, despite a high morphological diversity. The close phylogenetic relationship between Spinulati and Crenolimbi is emphasised. A clade grouping the genera Pamborus and Ceroglossus is a probable hypothesis but is not yet robustly demonstrated.     

Nucleotide Sequence of the SrRNA Gene and Phylogenetic Analysis of Trichomonas tenax

The small subunit ribosomal RNA (SrRNA) gene of Trichomonas tenax ATCC30207 was amplified by PCR and the 1.55-kb product was cloned into plasmid vector pUC18. Four clones were isolated and sequenced. The insert DNAs were 1,552 bp long and their G+C contents were 48.1%; three of them had exactly the same DNA sequences and one had only one nucleotide change. A representative SrRNA sequence was analyzed and a phylogenetic tree was estimated by the neighbor-joining (NJ) method. Among the protists examined, T. tenax was placed as the closest relative of Tritrichomonas foetus, as expected from the traditional taxonomy. The total homology between the two SrRNA sequences was 89.2%.     

On the biosynthesis of bacterial ribosomal RNA

By comparison of the fingerprints of 5S and 23S ribosomal RNAs from Bacillus licheniformis with that of the precursor of 23S ribosomal RNA, it can be shown that 5S RNA is not a part of the precursor of 23S ribosomal RNA.     

Selection for intragenic suppressors of lethal 23S rRNA mutations in Escherichia coli identifies residues important for ribosome assembly and function

Mutations in several functionally important regions of the 23S rRNA of E. coli increase the levels of frameshifting and readthrough of stop codons. These mutations include U2555A, U2555G, ΔA1916 and U2493C. The mutant rRNAs are lethal when expressed at high levels from a plasmid, in strains also expressing wild type rRNA from chromosomal rrn operons. The lethal phenotype can be suppressed by a range of second-site mutations in 23S rRNA. However, analysis of the functionality of the double mutant rRNAs in heterogeneous ribosome populations shows that in general, the second site mutations do not restore function. Instead, they prevent the assembly, or entry of the mutant 50S subunits into the functioning 70S ribosome and polysome pools, by affecting the competitiveness of the mutant subunits for association with 30S particles. The second-site mutations lie in regions of the 23S rRNA involved in subunit assembly, intersubunit bridge formation and interactions of the ribosome with tRNAs and factors. These second site suppressor mutations thus define functionally important rRNA nucleotides and this approach may be of general use in the functional mapping of large RNAs.     

Characterization of a 30S ribosomal subunit assembly intermediate found in <Emphasis Type="Italic">Escherichia coli</Emphasis> cells growing with neomycin or paromomycin

Neomycin and paromomycin are aminoglycoside antibiotics that specifically stimulate the misreading of mRNA by binding to the decoding site of 16S rRNA in the 30S ribosomal subunit. Recent work has shown that both antibiotics also inhibit 30S subunit assembly in Escherichia coli and Staphylococcus aureus cells. This work describes the characteristics of an assembly intermediate produced in E. coli cells grown with neomycin or paromomycin. Antibiotic treatment stimulated the accumulation of a 30S assembly precursor with a sedimentation coefficient of 21S. The particle was able to bind radio-labeled antibiotics in vivo and in vitro. Hybridization experiments showed that the 21S precursor particle contained unprocessed 16S rRNA with both 5′ and 3′ extensions. Ten 30S ribosomal proteins were found in the precursor after inhibition by each drug. In addition, cell free reconstitution assays generated a 21S particle after incubation with either aminoglycoside. This work helps to define the features of the ribosome structure as a target for antimicrobial agents and may provide information needed for the design of more effective antibiotics.     

Single-chain ribosome inactivating proteins from plants depurinate Escherichia coli 23S ribosomal RNA

The rRNA N-glycosidase activities of the catalytically active A chains of the heterodimeric ribosome inactivating proteins (RIPs) ricin and abrin, the single-chain RIPs dianthin 30, dianthin 32, and the leaf and seed forms of pokeweed antiviral protein (PAP) were assayed on E. coli ribosomes. All of the single-chain RIPs were active on E. coli ribosomes as judged by the release of a 243 nucleotide fragment from the 3′ end of 23S rRNA following aniline treatment of the RNA. In contrast, E. coli ribosomes were refractory to the A chains of ricin and abrin. The position of the modification of 23S rRNA by dianthin 32 was determined by primer extension and found to be A₂₆₆₀, which lies in a sequence that is highly conserved in all species.     

Nucleotide Sequence of the SrRNA Gene of Entamoeba gingivalis: Applications for Construction of a Species-Specific DNA Probe and Phylogenetic Analysis

The small subunit ribosomal RNA (SrRNA) gene of Entamoeba gingivalis was amplified by PCR and the product of 1.9-kbp sequence was cloned into a plasmid vector pUC18. Four clones were isolated and sequenced. The insert DNAs were 1918- to 1921-bp long and A+T rich (65.5%). The four SrRNA sequences of E. gingivalis were found to be aligned with those of nine related protozoans while searching for E. gingivalis-specific sequences. A sequence of 28 oligonucleotides was chosen, chemically synthesized, and labeled with digoxigenin for use as a DNA probe. The probe thus constructed was shown to hybridize only with either the SrRNA-coding DNAs or the cells of the two E. gingivalis strains and not with those of other protozoans or oral fungi tested. A representative SrRNA-sequence was analyzed and a phylogenetic tree was constructed by the neighbor-joining (NJ) method. Among the protists examined, E. gingivalis was placed next to Entamoeba histolytica as expected from the traditional taxonomy.     

The activity of ribosome modulation factor during growth of <Emphasis Type="Italic">Escherichia coli</Emphasis> under acidic conditions

Expression of the gene encoding ribosome modulation factor (RMF), as measured using an rmf-lacZ gene fusion, increased with decreasing pH in exponential phase cultures of Escherichia coli. Expression was inversely proportional to the growth rate and independent of the acidifying agent used and it was concluded that expression of rmf was growth rate controlled in exponential phase under acid conditions. Increased rmf expression during exponential phase was not accompanied by the formation of ribosome dimers as occurs during stationary phase. Nor did it appear to have a significant effect on cell survival under acid stress since the vulnerability of an RMF-deficient mutant strain was similar to that of the parent strain. Ribosome degradation was increased in the mutant strain compared to the parent strain at pH 3.75. Also, the peptide elongation rate was reduced in the mutant strain but not the parent during growth under acid conditions. It is speculated that the function of RMF during stress-induced reduction in growth rate is two-fold: firstly to prevent reduced elongation efficiency by inactivating surplus ribosomes and thus limiting competition for available protein synthesis factors, and secondly to protect inactivated ribosomes from degradation.     

Ribosome modulation factor protects <Emphasis Type="Italic">Escherichia coli</Emphasis> during heat stress,but this may not be dependent on ribosome dimerisation

The role of ribosome modulation factor (RMF) in protecting heat-stressed Escherichia coli cells was identified by the observation that cultures of a mutant strain lacking functional RMF (HMY15) were highly heat sensitive in stationary phase compared to those of the parent strain (W3110). No difference in heat sensitivity was observed between these strains in exponential phase, during which RMF is not synthesised. Studies by differential scanning calorimetry demonstrated that the ribosomes of stationary-phase cultures of the mutant strain had lower thermal stability than those of the parent strain in stationary phase, or exponential-phase ribosomes. More rapid breakdown of ribosomes in the mutant strain during heating was confirmed by rRNA analysis and sucrose density gradient centrifugation. Analyses of ribosome composition showed that the 100S dimers dissociated more rapidly during heating than 70S particles. While ribosome dimerisation is a consequence of the conformational changes caused by RMF binding, it may not therefore be essential for RMF-mediated ribosome stabilisation.Abbreviations DSC Differential scanning calorimetry - MRD Maximum recovery diluent - RMF Ribosome modulation factor     

Electron Microscopic,Genetic and Protein Expression Analyses of Helicobacter acinonychis Strains from a Bengal Tiger

Colonization by Helicobacter species is commonly noted in many mammals. These infections often remain unrecognized, but can cause severe health complications or more subtle host immune perturbations. The aim of this study was to isolate and characterize putative novel Helicobacter spp. from Bengal tigers in Thailand. Morphological investigation (Gram-staining and electron microscopy) and genetic studies (16SrRNA, 23SrRNA, flagellin, urease and prophage gene analyses, RAPD DNA fingerprinting and restriction fragment polymorphisms) as well as Western blotting were used to characterize the isolated Helicobacters. Electron microscopy revealed spiral-shaped bacteria, which varied in length (2.5–6 µm) and contained up to four monopolar sheathed flagella. The 16SrRNA, 23SrRNA, sequencing and protein expression analyses identified novel H. acinonychis isolates closely related to H. pylori. These Asian isolates are genetically very similar to H. acinonychis strains of other big cats (cheetahs, lions, lion-tiger hybrid and other tigers) from North America and Europe, which is remarkable in the context of the great genetic diversity among worldwide H. pylori strains. We also found by immunoblotting that the Bengal tiger isolates express UreaseA/B, flagellin, BabA adhesin, neutrophil-activating protein NapA, HtrA protease, γ-glutamyl-transpeptidase GGT, Slt lytic transglycosylase and two DNA transfer relaxase orthologs that were known from H. pylori, but not the cag pathogenicity island, nor CagA, VacA, SabA, DupA or OipA proteins. These results give fresh insights into H. acinonychis genetics and the expression of potential pathogenicity-associated factors and their possible pathophysiological relevance in related gastric infections.     

A ribosomal frameshifting error during translation of the argl mRNA of Escherichla coli

Using fusions between the Escherichia coli genes argI and lacZ, it has been demonstrated that ribosomal frameshifting occurs at a frequency of between 3% and 16% within the argl mRNA, soon after the initiation codon. The frameshift involves a phenylalanyl-tRNA shifting into the + 1 frame at the sequence UUU-U/C. The shift does not occur if the in-frame phenylalanine codon UUU is replaced by UUC. The level of frameshifting is higher in dense cultures and is not dependent on phenylalanine starvation. In the wild-type argI gene this frameshifting event would be an error, leading to a truncated, non-functional protein. Therefore, it is unlike the numerous examples of required frameshifting events that have been described in other genes.     

A RAS-encoded protein in Dictyostelium discoideum is acylated and membrane-associated

Dictyostelium dfscoideum synthesizes a 23000 M_r protein, p23^dd-ras, closely related to the mammalian oncogene-encoded protein p21^ras. To investigate the subcellular localization of P23^dd-ras, conditions were optimized to reduce protein degradation following cell breakage. Subcellular fractionation of D. discoideum showed that p23^dd-ras was associated predominantly with the membrane fraction during both vegetative growth and differentiation, in the absence of suitable protease inhibitors considerable amounts of a truncated form of p23^dd-ras were recovered in the cytosol fraction, suggesting that intact p23^dd-ras is attached to the membrane by a short terminal peptide sequence. Radio-isotope labelilng of D. discoideum with myristic acid or palmitic acid in the presence of excess un-labelled acetate resulted in radio-isotope incorporation into a select group of proteins including p23^dd-ras. No acyl label appeared in the truncated cytoplasmic form of p23^dd-ras when ceil breakage was performed In the absence of suitable protease inhibitors, indicating that the acyl group is associated with the short terminal peptide that is cleaved. These data suggest that p23^dd-ras like its mammailan counterpart, is acylated and associated with the plasma membrane. There was no evidence during a 30-minute pulse of methionine for a cytoplasmic precursor to the membrane-bound p23^dd-ras suggesting that the turnover of the presumptive precursor must be much more rapid in D. discoideum than for pro-p21^ras in mammalian cells.     

Import of the barley PSI-F subunit into the thylakoid lumen of isolated chloroplasts

A full-length cDNA clone encoding the PSI-F subunit of barley photosystem I has been isolated and sequenced. The open reading frame encodes a precursor polypeptide with a deduced molecular mass of 24837 Da. The barley PSI-F precursor contains a bipartite presequence with characteristics similar to the presequences of proteins destined to the thylakoid lumen. In vitro import studies demonstrate that an in vitro synthesized precursor is transported across the chloroplast envelope and directed to the thylakoid membrane, where it accumulates in a protease-resistant form. Incubation of the precursor with a chloroplast stromal extract results in processing to a form intermediate in size between the precursor and mature forms. Hydrophobicity analysis of the barley PSI-F protein reveals a hydrophobic region predicted to be a membrane spanning -helix. The hydrophobic nature of PSI-F combined with a bipartite presequence is unusual. We postulate that the second domain in the bipartite presequence of the PSI-F precursor proteins is required to ensure the proper orientation of PSI-F in the thylakoid membrane. The expression of the PsaF gene is light-induced similar to other barley photosystem I genes.Abbreviations 16K 23K and 33K proteins, the 16 kDa, 23 kDa and 33 kDa subunits of the photosystem II oxygen-evolving complex - PSI-N and PSI-F photosystem I subunit N and F - SDS-PAGE sodium dodecyl sulfate-polyacrylamide gel electrophoresis     

Isolation and Characterization of cDNAs Encoding Ribosome Inactivating Protein from Dianthus sinensis L.

To isolate a ribosome inactivating protein (RIP) gene, six plant species were surveyed for antiviral activity. Crude proteins extracted from these plants were tested for the antiviral activity against tobacco mosaic virus (TMV) in Nicotiana glutinosa. All the plants, Spinacia oleracea, Amaranthus lividus, Dianthus superbus, Dianthus sinensis and Celosia cristata, with an exception of Oenanthe stolonifera, presented 70–90% inhibition of viral infectivity. In an attempt to search for the RIP gene from D. sinensis, partial cDNA was obtained by polymerase chain reaction (PCR) of the poly(A)⁺ RNA from D. sinensis leaves. DNA gel blot analysis showed that D. sinensis has multi-copy RIP genes. The expression of RIP gene was investigated in the flower, leaf, root and stem of D. sinensis, and was found to be most abundant in the leaf. Using the partial cDNA as a probe, seven full-length cDNAs were isolated from a library prepared from D. sinensis leaves. They were divided into three groups on the basis of their nucleotide sequence homology. The three representative clones, cDsRIP1, cDsRIP2 and cDsRIP3 were completely sequenced. They all had an open reading frame of 882 bp. The cDsRIP2 showed 79% homology with dianthin 30 and saporin genes; 59% with PAP and Mirabilis antiviral protein MAP genes. From the analysis of deduced amino acid sequences, it was predicted that D. sinensis RIP cDNAs might have a putative signal peptide of 23 amino acid residues at their N-terminus. When the cDNA was expressed in E. coli, the bacteria was unable to grow upon IPTG induction, suggesting that expression of the gene renders toxicity to E. coli cells.     

Cloning and characterization of NM23-Bbt2 gene from amphioxus Branchiostoma belcheri tsingtauense

A full-length amphioxus (Branchiostoma belcheri tsingtauense) NM23-Bbt2, NM23-H2 homologue, cDNA was isolated from the cDNA library and sequenced. The obtained amphioxus NM23-Bbt2 cDNA contains an open reading frame coding for 171 amino acids. Sequence analysis showed that the amphioxus NM23-Bbt2 was highly conserved with that of other species, and all of them contained highly conserved motifs that play important roles in the function of NM23. RT-PCR revealed that NM23-Bbt2 is expressed in the neuronal tissues and is expressed in all stages during the embryogenesis. Nucleoside kinases are thought to have a critical role in regulatory processes such as signal transduction, proliferation, and differentiation. Taken together, these results suggest that nucleoside diphosphate kinases have an important role to play in embryogenic development in amphioxus. Phylogenetic analysis showed that the amphioxus group 1 NDPKs (Bf1-4) may be precursors of the human group 1 NDPKs, NM23-Bf5, NM23-Bf6, NM23-Bf7 and NM23-Bf8 may be precursors of NM23-H5, NM23-H6, NM23-H7 and M23-H8, respectively. Our finding of nine NM23 genes in Branchiostoma floride, the precursor of vertebrates, strongly suggests that the ancestral gene corresponding to each of vertebrates NM23 genes generated before the appearance of vertebrates. Comparison of the gene structures of NM23-H2 homologue from invertebrates to vertebrates suggests that the locations of three of the four introns are conserved in amphioxus and vertebrates.     

Characterization of 13 newly isolated strains of anaerobic, cellulolytic, thermophilic bacteria

Characteristics of 13 newly isolated thermophilic, anaerobic, and cellulolytic strains were compared with previously described strains of Clostridium thermocellum: ATCC 27405 and JW20 (ATCC 31549). Colony morphology, antibiotic sensitivity, fermentation end-products, and cellulose degradation were documented. All 13 strains were sensitive to erythromycin (5 μg/ml) and chloramphenicol (25 μg/ml), and all strains but one were sensitive to kanamycin (20 μg/ml). Polymerase chain reaction (PCR) amplification using primers based on gene sequences from C. thermocellum ATCC 27405 was successful for all 13 strains in the case of the hydrogenase gene and 11 strains in the case of phosphotransacetylase/acetate kinase genes. Ten strains amplified a product of the expected size with primers developed to be specific for C. thermocellum 16SrRNA primers. Two of the 13 strains did not amplify any product with the PCR primers designed for the phosphotransacetylase/acetate kinase and 16SrRNA primers. A MboI-like GATC- recognizing restriction activity was present in all of the five strains examined. The results of this study have several positive implications with respect to future development of a transformation system for cellulolytic thermophiles. Journal of Industrial Microbiology & Biotechnology (2001) 27, 275–280. Received 12 September 2000/ Accepted in revised form 20 November 2000     

E. coli HflX interacts with 50S ribosomal subunits in presence of nucleotides

HflX is a GTP binding protein of unknown function. Based on the presence of the hflX gene in hflA operon, HflX was believed to be involved in the lytic-lysogenic decision during phage infection in Escherichia coli. We find that E. coli HflX binds 16S and 23S rRNA - the RNA components of 30S and 50S ribosomal subunits. Here, using purified ribosomal subunits, we show that HflX specifically interacts with the 50S. This finding is in line with the homology of HflX to GTPases involved in ribosome biogenesis. However, HflX-50S interaction is not limited to a specific nucleotide-bound state of the protein, and the presence of any of the nucleotides GTP/GDP/ATP/ADP is sufficient. In this respect, HflX is different from other GTPases. While E. coli HflX binds and hydrolyses both ATP and GTP, only the GTP hydrolysis activity is stimulated by 50S binding. This work uncovers interesting attributes of HflX in ribosome binding.