RifR mutations in the beginning of the Escherichia coli rpoB gene

In Escherichia coli, mutations conferring rifampicin (Rif) resistance map to the rpoB gene, which encodes the 1342-amino acid β subunit of RNA polymerase. Almost all sequenced RifR mutations occur within the Rif region, encompassing rpoB codons 500–575. A strong Rif^R mutation lying outside the Rif region, which changed Val¹⁴⁶ to Phe was previously reported, but was not recovered in subsequent studies. Here, we used site-directed mutagenesis followed by selection on Rif to search for Rif^R mutations in the evolutionarily conserved segment of rpoB around codon 146. Strong Rif^R mutations were obtained when Val¹⁴⁶ was mutated, and several weak Rif^R mutations were also isolated near position 146. The results define a new, N-terminal cluster of Rif^R mutations, in addition to the classical central Rif region.     

Molecular characterization of Rifr mutations in Pseudomonas aeruginosa and Pseudomonas putida

The rpoB gene encoding for β subunit of RNA polymerase is a target of mutations leading to rifampicin resistant (Rif^r) phenotype of bacteria. Here we have characterized rpoB/Rif^r system in Pseudomonas aeruginosa and Pseudomonas putida as a test system for studying mutational processes. We found that in addition to the appearance of large colonies which were clearly visible on Rif selective plates already after 24 h of plating, small colonies grew up on these plates for 48 h. The time-dependent appearance of the mutant colonies onto selective plates was caused by different levels of Rif resistance of the mutants. The Rif^r clusters of the rpoB gene were sequenced and analyzed for 360 mutants of P. aeruginosa and for 167 mutants of P. putida. The spectrum of Rif^r mutations characterized for P. aeruginosa grown at 37 °C and that characterized for P. putida grown at 30 °C were dissimilar but the differences almost disappeared when the mutants of both strain were isolated at the same temperature, at 30 °C. The strong Rif^r phenotype of P. aeruginosa and P. putida was accompanied only with substitutions of these residues which belong to the putative Rif-binding pocket. Approximately 70% of P. aeruginosa mutants, which were isolated at 37 °C and expressed weak Rif^r phenotype, contained base substitutions in the N-terminal cluster of the rpoB gene. The differences in the spectra of mutations at 30 °C and 37 °C can be explained by temperature-sensitive growth of several mutants in the presence of rifampicin. Thus, our results imply that both the temperature for the growth of bacteria and the time for isolation of Rif^r mutants from selective plates are critical when the rpoB/Rif^r test system is employed for comparative studies of mutagenic processes in Pseudomonas species which are conventionally cultivated at different temperatures.     

Modification of optimal pH in l-arabinose isomerase from Geobacillus stearothermophilus for d-galactose isomerization

l-Arabinose isomerase from Geobacillus stearothermophilus (GSAI; EC 5.3.1.4) has been genetically evolved to increase the reaction rate toward d-galactose, which is not a natural substrate. To change the optimal pH of GSAI for d-galactose isomerization (pH optimum at 8.5), we investigated the single point mutations influencing the activity based on the sequences of the previously evolved enzymes. Among the seven point mutations found in the evolved enzymes, mutations at Val⁴⁰⁸ and Asn⁴⁷⁵ were determined to be highly influential mutation points for d-galactose isomerization activity. A random mutation was introduced into sites Val⁴⁰⁸ and Asn⁴⁷⁵ (X408V and X475N), and candidates were screened based on non-optimal pH conditions. Among the mutations of X408V and X475N, mutations of Q408V and R408V were selected. The optimal pH of the both mutations Q408V and R408V was shifted to pH 7.5. At the shifted optimal pH, the d-galactose isomerization activities of Q408V and R408V were 60 and 30% higher than that of the wild type at pH 8.5, respectively.     

Mutation to rifampicin resistance at the beginning of the RNA polymerase beta subunit gene in Escherichia coli

Summary The unusual recombinant plasmid pRC19 carrying the N-terminal fragment of the Escherichia coli RNA polymerase rpoB gene was found to specify high level rifampicin resistance of E. coli cells. Sequence analysis of this plasmid revealed one substitution only: transversion GT, leading to amino acid substitution Val¹⁴⁶Phe. This mutational change marks the second domain of the subunit involved in rifampicin binding.     

The frequency of MMS-induced, umuDC-dependent, mutations declines during starvation in Escherichia coli

It has been found that the level of methyl methanesulfonate (MMS)-induced mutation in Escherichia coli is dependent on the level of UmuD(D)C proteins. The frequency of argE(ochre)Arg⁺ mutations (which occur predominantly by ATTA transversions) and Rif^SRif^R mutations is much higher when UmuDC or UmuD'C are overproduced in the cell. When MMS-treated bacteria were starved for progressively longer times and hence the expression of mutations delayed, the level of mutations observed progressively declined. This same treatment had no effect on the degree of SOS induction. Examination of plasmid DNAs, isolated from MMS-treated cells, for their sensitivity to the specific endonucleases Fpg and Nth revealed that MMS causes formation of abasic sites, which are repaired during cell starvation. It is assumed that, in non-dividing cells, apurinic sites are mostly repaired by RecA-mediated recombinational repair. This pathway, which is error-free, is compared with the processing pathway in metabolically active cells, where translesion synthesis by the UmuD₂C-RecA-DNA polymerase III holoenzyme complex occurs; this latter pathway is error-prone.     

The ribosomal RNA genes from chloroplasts of mustard (Sinapis alba L.): mapping and sequencing of the leader region

Summary The genes coding for rRNAs from mustard chloroplasts were mapped within the inverted repeat regions of intact ctDNA and on ctDNA fragments cloned in pBR322. R-loop analysis and restriction endonuclease mapping show that the genes for 16S rRNA map at distances of 17 kb from the junctions of the repeat regions with the large unique region. The genes for 23S rRNA are located at distances of 2.8 kb from the junctions with the small unique region. Genes for 4.5S and 5S rRNA are located in close proximity to the 23S rRNA genes towards the small unique region. DNA sequencing of portions of the 5 terminal third from the mustard 16S rRNA gene shows 96–99% homology with the corresponding regions of the maize, tobacco and spinach chloroplast genes. Sequencing of the region proximal to the 16S rRNA gene reveals the presence of a tRNA^Val gene in nearly the same position and with identical sequence as in maize, tobacco and spinach. Somewhat less but still strong homology is also observed for the tDNA ^Val/16S rDNA intercistronic regions and for the regions upstream of the tRNA^Val gene. However, due to many small and also a few larger deletions and insertions in the leader region, common reading frames coding for homologous peptides larger than 44 amino acids can not be detected; it is therefore unlikely that this region contains a protein coding gene.     

Mutant of the glutamine transfer RNA gene as UGA suppressor in Escherichia coli

Summary A UGA suppressor derived from a glutamine tRNA gene of Escherichia coli K 12 was isolated and characterized. Phages carrying the suppressor su⁺2_UGA could be obtained only from a hybrid transducing phage, h ⁸⁰ cI ₈₅₇psu ⁺2_oc, but not from the original transducing phage cI ₈₅₇psu ⁺2_oc. By DNA sequence analysis, it was found that the su ⁺2 UGA suppressor obtained has two mutations; one is in the anticodon (TTATCA), as expected, and the other (CT) is at the 7th position from the 3 end of tRNA ₂ ^Gln . The significance of these mutations and the lethal effect on phage of the increased amounts of UGA suppressor tRNAs are discussed.     

Transformation of Rickettsia prowazekii to Rifampin Resistance

Rickettsia prowazekii, the causative agent of epidemic typhus, is an obligate intracellular parasitic bacterium that grows directly within the cytoplasm of the eucaryotic host cell. The absence of techniques for genetic manipulation hampers the study of this organism’s unique biology and pathogenic mechanisms. To establish the feasibility of genetic manipulation in this organism, we identified a specific mutation in the rickettsial rpoB gene that confers resistance to rifampin and used it to demonstrate allelic exchange in R. prowazekii. Comparison of the rpoB sequences from the rifampin-sensitive (Rif^s) Madrid E strain and a rifampin-resistant (Rif^r) mutant identified a single point mutation that results in an arginine-to-lysine change at position 546 of the R. prowazekii RNA polymerase β subunit. A plasmid containing this mutation and two additional silent mutations created in codons flanking the Lys-546 codon was introduced into the Rif^s Madrid E strain of R. prowazekii by electroporation, and in the presence of rifampin, resistant rickettsiae were selected. Transformation, via homologous recombination, was demonstrated by DNA sequencing of PCR products containing the three mutations in the Rif^r region of rickettsial rpoB. This is the first successful demonstration of genetic transformation of Rickettsia prowazekii and represents the initial step in the establishment of a genetic system in this obligate intracellular pathogen.     

Kinetics of L-valine uptake in tobacco leaf discs. Comparison of wild-type,the digenic mutant Valr-2, and its monogenic derivatives

Uptake rates of L-valine in epidermis-free leaf discs of tobacco (Nicotiana tabacum L. cv. Xanthi) were measured over the concentration range 0.1 M to 50 mM. Wild-type tobacco was compared with the digenic mutant Val^r-2 (genotype vr2/vr2; vr3/vr3), and with the monogenic mutant strains h9 and h10 (genotype +/+; vr3/vr3) and h17 and h23 (genotype vr2/vr2; +/+). Rate equations consisting of one to three Michaelis-Menten terms, possibly in combination with a linear term were fitted to the kinetic data. These rate equations are equivalent to rational polynomials which may be regarded as the general type of mathematical function describing the kinetics of enzymes and carriers. Kinetic data of the four genotypes conformed to the sum of three Michaelis-Menten terms. Accordingly, three kinetic components could be distinguished. In the wild-type the approximate K_ms were 40 M, 1mM, and 40 mM, respectively. In Val^r-2 a component with a very low K_m (about 4 M) was found which may represent either the modified low-K_m component of the wild-type or a fourth component which is undetectable in the wild-type by kinetic analysis. The V_max of the low-K_m component in Val^r-2 was at least a 100-fold lower than in the wild-type. In the presence of one of the mutant genes the calculated V_max of the low-K_m component was 48% (strains h9 and h10) or 40% (strains h17 and h23) of the corresponding V_max in the wild-type. It is reasoned that the mutations have no effect on the activity of the other two kinetic components, though the evidence for this is circumstantial. Autoradiographs of leaf discs showed that in Val^r-2 the uptake of ¹⁴C-labelled valine in both mesophyll and minor veins was strongly reduced as compared with the wild-type.Abbreviations CCCP carbonylcyanide m-chlorophenylhydrazone - DW dry weight - TPP⁺ tetraphenylphosphonium ion A preliminary account of part of this work has been presented (Borstlap 1986)     

Transposon mutagenesis in Azospirillum brasilense: isolation of auxotrophic and Nif- mutants and molecular cloning of the mutagenized nifDNA

Summary We report the successful mutagenesis of Azospirillum brasilense 29710 Rif Sm with transposon Tn5. The narrow host-range plasmid pGS9 (p15A replicon), which possesses broad host-range N-type transfer genes, was used as the suicide vehicle to deliver Tn5 in Azospirillum. Out of 900 colonies tested, 0.8% proved to be auxotrophic. One mutant altered in indoleacetic acid (auxin) biosynthesis was isolated and, in addition, three mutants completely defective in nitrogen fixation (nif) were obtained. All the mutants tested contained a single copy of Tn5 integrated randomly in the genome. The Tn5-mutagenized EcoRI fragments were cloned from the three Nif^- mutants. Physical analysis of cloned DNA showed that Tn5 was present on a different EcoRI fragment in each case, ranging in size from 15–17 kb. The nitrogenase structural genes (nifHDK) in A. brasilense 29710 Rif Sm were localized on a 6.7 kb EcoRI fragment. We found that Tn5 is not inserted in the nifHDK genes in the Nif^- mutants reported here. Site-directed mutagenesis using the cloned, Tn5-containing DNA from mutant Nif27(pMS188), produced a large number of Nif^- transconjugants of the A. brasilense 29710 Rif wild-type strain, showing the linkage between Tn5 insertion and the Nif^- phenotype. This is the first time that transposon-mutagenized auxotrophic, Nif^- and other mutants have been available for genetic analysis in Azospirillum. This should greatly facilitate the cloning and mapping of genes involved in nitrogen fixation as well as in many other phenotypic characteristics of Azospirillum.     

The bacterial phleomycin resistance geneble as a dominant selectable marker inChlamydomonas

A chimeric gene composed of the coding sequence of theble gene fromStreptoalloteichus hindustanus fused to the 5 and 3 untranslated regions of theChlamydomonas reinhardtii nuclear geneRBCS2 has been constructed. Introduction of this chimeric gene into the nuclear genome ofC. reinhardtii by co-transformation with theARG7 marker yields Arg⁺ transformants of which approximately 80% possess theble gene. Of these co-transformants, approximately 3% display a phleomycin-resistant (Pm^R) phenotype. Western blot analysis using antibodies against theble gene product confirms the presence of the protein in the Pm^R transformants and genetic analysis demonstrates the co-segregation of theble gene with the phenotype in progeny arising from the mating of a Pm^R transformant to wild-type strains. Direct selection of Pm^R transformants was achieved by allowing an 18-h period for recovery and growth of transformed cells prior to selection. This work represents the first demonstration of stable expression and inheritance of a foreign gene in the nuclear genome ofC. reinhardtii and provides a useful dominant marker for nuclear transformation.     

Cloning and nucleotide sequence of the ptsG gene of Bacillus subtilis

Summary The ptsG gene of Bacillus subtilis encodes Enzyme II^G1c of the phosphoenolpyruvate: glucose phosphotransferase system. The 3 end of the gene was previously cloned and the encoded polypeptide found to resemble the Enzymes III^Glc of Escherichia coli and Salmonella typhimurium. We report here cloning of the complete ptsG gene of B. subtilis and determination of the nucleotide sequence of the 5 end. These results, combined with the sequence of the 3 end of the gene, revealed that ptsG encodes a protein consisting of 699 amino acids and which is similar to other Enzymes II. The N-terminal domain contains two small additional fragments, which share no similarities with the closely related Enzymes II^Glc and II^Nag of E. coli but which are present in the II^G1c-like protein encoded by the E. coli malX gene.     

Elucidation of Structure of Lipid A from the Marine Gram-Negative Bacterium Pseudoalteromonas haloplanktis ATCC 14393T

The chemical structure of lipid A, from the marine -proteobacterium Pseudoalteromonas haloplanktis 14393, a main product of lipopolysaccharide hydrolysis (1% AcOH), was determined using chemical methods and NMR spectroscopy. The lipid A was shown to be -1,6-glucosaminobiose 1,4-diphosphate acylated with two (R)-3-hydroxyalkanoic acid residues at C3 and C3 and amidated with one (R)-3-hydroxydodecanoyl and one (R)-3-dodecanoyloxydodecanoyl residue at N2 and N2, respectively.     

Ultrastructural studies on the nucleoli of the follicle cells in the Lizards Acanthodactylus scutellatus hardyi and Eremias brevirostris

Summary In male mice homozygous for both p ^s and hpy, two recessive, pleiotrophic, mutations, gametogenesis is normal through meiosis but no functional spermatozoa are produced. Spermiogenesis is abnormal from the Golgi phase on. The types of abnormalities seen during the early and mid-stages of Spermiogenesis are characteristic of those associated with the presence of the p ^s mutation whereas those associated with the hpy mutation appear during the later stages of spermatid development. While centriolar ultrastructure was normal, axonemal structures were only rarely encountered and no late spermatids with recognizable flagella were seen. Some late spermatids showed head abnormalities of the type characteristic of the p^s mutation while others were recognizable as being of the hpy type. A released gamete usually consisted of a distorted nucleus and associated acrosome enclosed in a tightly fitting plasma membrane. No spermatids exhibiting a novel phenotype were encountered. The findings support the view that, despite their simultaneous presence in the double homozygote, each mutation acts autonomously. These studies also allow a similar inference to be made with respect to the extent of the interrelationship of the other major sub-processes of Spermiogenesis.The author wishes to express his thanks to Mr. Clifford S. Shuman III for capable technical assistance     

Analysis of the T-type calcium channel in embryonic chick ventricular myocytes

Summary T-type calcium channels (I _T channels) were studied in cell-attached patch electrode recordings from the ventricular cell membrane of 14-day embryonic chick heart. All experiments were performed in the absence of Ca²⁺ with Na⁺ (120mm) as the charge carrier.I _T channels were distinguished from L-type calcium channels (I _L) by their more negative activation and inactivation potential ranges; their smaller unitary slope conductance (26 pS), and their insensitivity to isoproterenol or D600. Inactivation kinetics were voltage dependent. The time constant of inactivation was 37 msec when the membrane potential was depolarized 40 mV from rest (R+40 mV), and 20 msec atR+60 mV. The frequency histogram of channel open times ₀ was fit by a single-exponential curve while that of closed times _c was biexponeintial. _o was the same atR+40 mV andR+60 mV whereas _c was shortened atR+60 mV. The open-state probability (P _o) increased with depolarization: 0.35 atR+40 mV, 0.8 atR+60 mV and 0.88 atR+80 mV. This increase inP _o at depolarized potentials could be accounted for by the decrease in _c.     

Mutational specificity of ethyl methanesulfonate in excision-repair-proficient and -deficient strains of Drosophila melanogaster

Summary The vermilion gene was used as a target to determine the mutational specificity of ethyl methanesulfonate (EMS) in germ cells of Drosophila melanogaster. To study the impact of DNA repair on the type of mutations induced, both excision-repair-proficient (exr ⁺) and excision-repair-deficient (exr ^–) strains were used for the isolation of mutant flies. In all, 28 mutants from the exr ⁺ strain and 24 from the exr ^– strain, were characterized by sequence analysis. In two mutants obtained from the exr ⁺ strain, small deletions were observed. All other mutations were caused by single base-pair changes. In two mutants double base-pair substitutions had occurred. Of the mutations induced in the exr ⁺ strain, 22 (76%) were GCAT transitions, 3 (10%) ATTA transversions, 2 (6%) GCTA transversions and 2 (6%) were deletions. As in other systems, the mutation spectrum of EMS in Drosophila is dominated by GCAT transitions. Of the mutations in an exr ^– background, 12 (48%) were GCAT transitions, 7 (28%) ATTA transversions, 5 (20%) GCTA transversions and 1 (4%) was a ATGC transition. The significant increase in the contribution of transversion mutations obtained in the absence of an active maternal excision-repair mechanism, clearly indicates efficient repair of N-alkyl adducts (7-ethyl guanine and 3-ethyl adenine) by the excision-repair system in Drosophila germ cells.