Phenotypic instability in a tif-1 mutant of Escherichia coli

Summary The mutant T44() of Escherichia coli K12, grown in the presence of adenine, develops an increased tolerance to streptomycin. In cultures grown on streptomycin, the ts character (tif) may temporarily be suppressed but, on further transfer, both the temperature-sensitive phenotype and streptomycin tolerance disappear. In a cell-free system, the relative efficiency of translation of MS2 and poly U messenger RNAs was, respectively, 75 and 50% lower in extracts from cultures grown at 37° with adenine than in extracts from 30° cultures. Similar results were obtained when adenine was added in vitro to an extract from a culture grown at 37° in the absence of adenine, using MS2 RNA as messenger. Moreover, the 37° extracts showed a much lower misincorporation of isoleucine into polyphenylalanine in the poly U system. In addition, the Mg⁺⁺ concentration required for optimal translational activity was higher for the 37° than for the 30° extracts. Extracts from a culture grown in L medium at 37° or from a tif ^-/F tif ⁺ merodiploid grown at 37° with adenine behaved similarly to that from the 30° culture when poly U was used as messenger RNA. It is suggested that the tif ⁺ gene product may play a regulatory role in ribosomal function and the pleiotropic nature of the tif-1 mutation could be due to impairment of translational activity augmented by elevated temperature or by adenine.     

Biosynthesis of RNA polymerase in Escherichia coli

Summary Effect of temperature-sensitive, assembly-defective mutations in Escherichia coli RNA polymerase (rpoB) or subunit gene (rpoC) was investigated on the expression of wild-type rpoB ⁺C⁺operon, which was introduced by infection of a lambda transducing phage drif ⁺ (rpoB ⁺)-6 after UV-irradiation of the mutant cells. In rpoB2·rpoB7 strain which accumulates assembly-intermediates, free , ₂ complex and premature core, the expression of rpoB ⁺C⁺operon measured by the rate of subunit synthesis was considerably inhibited whereas that of EF(translation elongation factor)-Tu, ribosomal proteins L1 and L7/L12, and some -coded proteins remained unaffected. On the other hand, the expression was enhanced specifically for only rpoB ⁺C⁺operon in either rpoC4 or rpoC1 mutants, which are defective in the association of ₂ complex and subunit or the activation of premature core enzyme, respectively. Upon preincubation of the mutant cells at 42° C prior to phage infection, during which assembly intermediates degraded rapidly, the rate of subunit synthesis relative to other phage-corded proteins increased remarkably in rpoB2·rpoB7 mutant as well as in rpoC4 and rpoC1 mutants. These observations strongly suggested the autogenous regulation for at least (rpoB ⁺C⁺) operon by some trans-active diffusible protein complexes built of RNA polymerase subunits. Nature of the regulatory molecules is discussed.Paper VI in this series is Saitoh and Ishihama (1977)     

Inducible sfi dependent division inhibition in Escherichia coli

Summary Brief exposure of an Escherichia coli tif lon strain to 40° results in subsequent prolonged inhibition of cell division (part of the SOS response), which is completely and specifically suppressed by sfiA and sfiB mutations. This sfi dependent division inhibition requires protein synthesis during the 40° incubation period, implying the existence of a tif-inducible protein which results in cell division arrest. sfi dependent division inhibition is also induced early during thymine starvation in tif ⁺ cells; at later times a sfi independent mechanism of division arrest is invoked as well.In lon mutants, known to lack a protease, the sfi dependent division inhibition is amplified, perhaps due to stabilization of the inducible protein involved in division arrest. In these strains the P1 lysogenization defect and the filamentation observed after a nutritional shift-up are sfi dependent, suggesting that P1 infection and nutritional shift-up may also induce the protein involved in division arrest. Bacteria are known to increase in size following a shift-up. Thus the latter observation suggests that the SOS response may be not only a last resort in time of distress but also a means permitting better adaptation of the cells to their environment.After five years of heroic struggle against cancer, Jacqueline George passed away 14 August 1979. Despite weakened health and debilitating therapy she continued to stimulate and participate in the work of the microbial genetics group which she had created     

Requirement of the Escherichia coli dnaA gene function for integrative suppression of dnaA mutations by plasmid R100-1

Summary The phenotype of Escherichia coli dnaA missense and nonsense mutations was integratively suppressed by plasmid R100-1. The suppressed strains, however, could not survive when the dnaA function was totally inactivated. This was demonstrated by the inability of replacing the dnaA allele in the suppressed strain by a dnaA::Tn10 insertion using phage P1-mediated transduction. When the intact dnaA ⁺ allele was additionally supplied by a specialized transducing phage, imm ²¹ dnaA ⁺, which integrated at the att site on the E. coli chromosome, then the dnaA::Tn10 insertion, together with a oriC deletion, were able to be introduced into the suppressed strain. Thus, the mechanisms of dnaA function for oriC and for the replication origin of R100-1 may not be quite the same.     

Prophage induction and cell division in E. coli. II. Linked (recA, zab) and unlinked (lex) suppressors of tif-1-mediated induction and filamentation

Summary The pleiotropy of tif-1, a mutation in E. coli K12 causing, among other effects, cellular filamentation at 42° and thermal induction of lysogenic derivatives, can be explained by the participation of the tif ⁺ gene product in more than one reaction pathway. Pathways that involve the tif ⁺ product may be analyzed by selection of secondary mutations that reverse both tif-1-mediated prophage induction and cell filamentation. Among revertants of a tif-1 lysogen among 20% are recombination deficient. These appear to carry a recA mutation. In addition to this class is a rarer (7%) phenotypically distinguishable class of revertants, called zab, first described here. Markers tif-1, recA and zab are closely linked. Mutations lex which are dominant and located near malB also appear (3%) among tif-1 revertants. The lex ⁺ function is needed for normal UV, X-ray and mitomycin C induction of prophage .The zab mutation resembles recA in causing (1) high sensitivity to UV, X-rays and mitomycin C, (2) drastic DNA degradation following UV irradiation but normal capacity to repair UV-damaged infecting phage (Hcr⁺), (3) failure to carry out UV reactivation and UV mutagenesis of UV-irradiated bacteriophage , (4) a markedly reduced level of spontaneous induction of . In contrast, other capacities, strikingly diminished by recA, are affected less, if at all by zab. Thus zab (1) permits 30–60% normal recombination proficiency, (2) shows real, although very low inducibility of by UV or mitomycin C, (3) permits 100% efficiency of plating of red gam, and (4) does not degrade DNA spontaneously.The hypothesis is proposed that the tif-1 mutation is a regulatory mutation controlling the activity, or more likely the synthesis of repair enzyme(s). The level of these repair enzyme(s), rather than DNA lesions, may govern the stability of the prophage repressor and the capacity of the bacteria to form septa.     

Induction of SOS like responses by nitrofurantoin in Vibrio cholerae el tor cells

Treatment of Vibrio cholerae el tor strain SLH22(J) with nitrofurantoin induced dose-dependent prophage kappa, the maximum induction being 6-fold the spontaneous induction level. UV-inactivated kappa phages were Weigle reactivated, the maximum Weigle factor being 1.8 and 2.0 respectively in nitrofurantoin and UV pretreated el tor strain H218 Sm^r. Nitrofurantoin treatment also caused significant filamentation of the el tor strain H218 Sm^r and mutation of these cells from ampicillin sensitivity to ampicillin resistance. The levels of the four SOS-like responses induced by this drug were low but significant.     

Interchromosomal and intrachromosomal recombination in rad 18 mutants of Saccharomyces cerevisiae

Summary The frequency of intra- and interchromosomal recombination was determined in RAD18 and rad18 deletion and rad18-3 mutant strains. It was found that spontaneous interchromosomal recombination at trp5, his1, ade2, and MAT was elevated 10- to 70-fold in the rad18-3 and rad18 mutants as compared to the RAD ⁺ strains. On the other hand the frequencies of spontaneous intrachromosomal recombination for the his33, his35 and the his4C ^–, his4A ^– duplications and for heterothallic mating type switching were only marginally elevated in the rad18 deletion mutant, and recombination between ribosomal DNA repeats was only 2-fold elevated in the rad18-3 mutant. These differences may be due to a haploid versus diploid specific difference. However interchromosomal recombination was elevated 40-fold and intrachromosomal recombination was only marginally (1.5-fold) elevated in a diploid homozygous for rad18, arguing against a haploid versus diploid specific difference. Possible explanations for the difference in the elevated levels of intra- versus interchromosomal spontaneous recombination are discussed.     

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.     

Positive involvemetn of ppGpp in derepression of the nif operon in Klebsiella pneumoniae

Summary The kinetics of derepression of the enzyme nitrogenase were investigated, after exhaustion of a limiting amount of ammonium from the culture medium, in a prototrophic stringent-relaxed pair of Klebsiella pneumoniae strains and in their F relA ⁺-F relA derivatives. The results indicate that ppGpp (guanosine 3–5 diphosphate) increases the nitrogen fixation capability of K. pneumoniae by at least three different mechanisms. (1) It prevents exhaustion of the ATP pool when nitrogen starvation is imposed. (2) The translational defects in relaxed mutants are suppressed by ppGpp during nif derepression. (3) The synthesis of nitrogenase components is at least five times higher in the presence of ppGpp than in its absence. This latter conclusion was based on experimental results obtained when following the incorporation of (³⁵S)-methionine into nitrogenase components after pulse labelling at various time intervals during nif derepression. The nitrogenase components were separated by solid phase radioimmunoassay as well as by two-dimensional gel electrophoresis.     

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.     

Repressor and rex product of coliphage lambda: lack of collaboration and joint controls

Summary Exposure to 41° C for 10 to 100 minutes rapidly inactivates repressor bearing several ts mutations in the A or B region of gene cI, but does not result in simultaneous rapid loss of the rex function, which restricts phage T4 rII. One may conclude that the rex product does not directly collaborate with the repressor protein. Immediate loss of the rex activity at 47.5° C, observed with most of the cIts mutants and even cI⁺, appears to be unrelated to the repressor inactivation. In tof ⁺ lysogens carrying nonlethal cIts prophage mutants, the prolongation of induction at 41° C ultimately results in irreversible loss of the rex function, but only after about six cell generations. In similar experiments with tof deficient lysogens, loss of the rex activity requires about eleven cell generations and the rex function is regained in less than 30 minutes after return of the lysogen to 30° C. Two methods of rex assay, the more sensitive phage yield method and the infective center method, were employed.     

Identification of a positive regulatory protein in Escherichia coli: the product of the cysB gene

Summary From the specialized transducing bacteriophage cysB, recombinant phages cysB242 and cysB257 have been obtained, each of which carries an amber mutation in the cysB cistron. A comparison of polyacrylamide gel electrophoretic profiles of labelled extracts from uv-irradiated bacteria that had been infected with cysB ⁺ or with cysB-amber phages, led to the identification of a 39,000-dalton polypeptide as the product of the cysB gene. The native protein was purified to near radiochemical purity and was found to be an oligomer with an isoelectric point close to pH 7.     

Cloned truncated recA genes in E. coli

Summary Plasmids pMH1 and pDR1461, possessing the control region and 22% or 73% of the E. coli recA gene, conferred UV sensitivity to wild-type uvrA, and umuC bacteria. Sensitization was less in recA441 (tif-1) mutants and absent in lexA cells. Radiosensitization correlated with inhibition of recombinational repair, even through induced recA protein synthesis and recombination in Hfr matings were normal. Plasmids pMH1 and pDR1461 also prevented induction of some, but not all, SOS functions. Mutagenic reversion to tryptophan prototrophy and induced reactivation of UV-irradiated phage were eliminated, and the efficiency of lysogenic induction reduced. However, naladixic acid induced filamentous growth, mitomycin-C induced uvrA gene expression and post UV-irradiation DNA degradation control were little changed. Explanations of these effects are discussed which involve the presence of either truncated recA protein or multiple copies of the recA gene control sequence.A preliminary account of this work is presented in Chromosome Damage and Repair, edited by E. Seeberg and K. Klepper, to be published by Plenum Press     

Genetic control of ammonium transport in nitrogen fixing cyanobacterium Nostoc muscorum

Summary Ammonium (NH ₄ ⁺ ) transport was investigated in Nostoc muscorum ISU (wild type) and spontaneous mutants resistant to cyanophage N-1 (Nm/N-1), streptomycin (Nm/Sm) and methylamine (Nm/MA). N₂-fixing wild-type cells transported NH ₄ ⁺ via two transport systems: the high-affinity (K _m 11 M) and low-affinity (K _m 66 M), which formed 10 and 50-fold concentration gradients, respectively. The high-affinity system of Nm/MA (K _m 11 M) was similar to the wild type but the low-affinity system had reduced affinity for NH ₄ ⁺ (K _m 125 M), while Nm/N-1 and Nm/Sm mutants had only a high-affinity transport system (K _m 20 and 28 M, respectively). The growth of mutant Nm/N-1 was more sensitive to 1 mM NH ₄ ⁺ or methylamine than other strains, and also glutamine-synthetase activity was most reduced in NH ₄ ⁺ -grown cells. l-methionine-d, l-sulfoximine (20 M) treatment of N₂-grown Nm/N-1 cells resulted in a higher rate of NH ₄ ⁺ efflux. The apparent alterations in kinetic constants of NH ₄ ⁺ transport in mutants and glutamine synthetase activity suggested that NH ₄ ⁺ in N. muscorum is transported by specific carrier(s) and the transport is genetically controlled.     

Plasmid (pKM101)-mediated enhancement of repair and mutagenesis: Dependence on chromosomal genes in Escherichia coli K-12

Summary The drug resistance plasmid pKM101 plays a major role in the Ames Salmonella/microsome carcinogen detecting system by enhancing chemical mutagenesis. It is shown that in Escherichia coli K-12 the plasmid pKM101 enhances both spontaneous and methyl methanesulfonate-caused reversion of an ochre mutation, bacterial survival after ultraviolet irradiation, and reactivation of ultraviolet-irradiated in unirradiated cells. All these effects are shown to be dependent on the recA ⁺ lexA⁺ genotype but not on the recB ⁺ recC⁺ or recF ⁺ genotypes. The recA lexA-dependence of the plasmid-mediated repair and mutagenesis suggests an interaction with the cell's inducible error-prone repair system. The presence of pKM101 is shown to cause an additional increase in methyl methanesulfonate mutagenesis in a tif mutant beyond that caused by growth at 42°. The presence of the plasmid raises the level of the Weigle-reactivation curve for the reactivation of ultraviolet-irradiated in E. coli and causes a shift of the maximum to a higher UV fluence. These observations suggest that pKM101 does not exert its effects by altering the regulation of the cell's error-prone repair system but rather by supplying a mechanistic component or components.     

Phage T4 infection restricts rRNA synthesis byE. coli RNA polymerase

Summary Complementation for the maintenance of lysogeny was studied by superinfecting cIts lysogens at 34° C, and then heating to 43° C. With certain exceptions,ts mutants with defects in the left half of the repressor complementedts mutants with defects in the right half to produce a less heat-labile repressor (Fig. 3). AllcIamber mutants failed to complementcIts mutants. ThecI mutantc50 complements allts mutants. Mutations in Pre (cy) or genescII andcIII do not significantly affect the expression ofcI by a superinfecting genome in an immune lysogen. Mutants with very heat-labile repressors failed to complement cy42 for the establishment of lysogeny at elevated temperatures, while those with less heatsensitive repressors apparently did complementcy.According to a suggested model, the left side of thecI product is concerned primarily with subunit aggregation, while operator binding is the function of the right side of the oligomer.     

SCM2, a tryptophan permease in Saccharomyces cerevisiae, is important for cell growth

SCM2, a novel gene encoding a yeast tryptophan permease, was cloned as a high-copy-number suppressor of cse2-1. The cse2-1 mutation causes cold sensitivity, temperature sensitivity and chromosome missegregation. However, only the cold-sensitive phenotype of cse2-1 cells is suppressed by SCM2 at high copy. SCM2 is located on the left arm of yeast chromosome XV, adjacent to SUP3 and encodes a 65 kDa protein that is highly homologous to known amino acid permeases. Four out of five disrupted scm2 alleles (scm21-4) cause slow growth, whereas one disrupted allele (scm25) is lethal. Cells with both the scm21 and trp1-101 mutations exhibit a synthetic cold-sensitive phenotype and grow much more slowly at the permissive temperature than cells with a single scm21 or trp1-101 mutation. A region of the predicted SCM2 protein is identical to the partial sequence recently reported for the yeast tryptophan permease TAP2, indicating that SCM2 and TAP2 probably encode the same protein.     

Sodium ions are necessary for growth and energy transduction in the marine cyanobacterium Oscillatoria brevis

The maximal growth rate of the marine cyanobacterium Oscillatoria brevis was reached at 200–400 mM NaCl and pH 9.0–9.6. NaCl was found (i) to stimulate the rate of the light-supported generation across the cytoplasmic membrane of the cells and (ii) to decrease the sensitivity of level and motility of the O. brevis trichomes to protonophorous uncouplers. The Na⁺/H⁺ antiporter, monensin, increased both and the uncoupler sensitivity of the cells. The data obtained agree with the assumption that O. brevis possesses a primary Na⁺ pump in its cytoplasmic membrane.Abbreviations ATP adenosine-5-triphosphate - TTFB tetrachlortrifluoromethylimidazol - CCCP carbonyl cyanide m-chlorophenylhydrazone - Na⁺ transmembrane electrochemical potential differences of Na⁺ - transmembrane electric potential difference - pNa transmembrane pNa difference     

Molecular species of membrane phospholipids containing arachidonic acid and linoleic acid contribute to the interindividual variability of red blood cell Na+-Li+ countertransport: In vivo and in vitro evidence

Summary Previous studies indicate a particular sensitivity of red blood cell Na⁺-Li⁺ countertransport activity to small variations in the fatty acid composition of membrane phospholipids. To assess whether the interindividual variability of Na⁺-Li⁺ countertransport is related to differences in the species pattern of erythrocyte phosphatidylcholine (PC) and phosphatidylethanolamine (PE) in vivo, the molecular species composition of PC and PE as well as the kinetics of Na⁺-Li⁺ countertransport were analyzed in parallel in normo- and hyperlipidemic donors. Both in diacyl PC and in diacyl-PE the species 160/204 and 160/182 were, respectively, positively and negatively related to the apparent maximal velocity of Na⁺-Li⁺ countertransport. The sum of all species with 204 at sn₂ of diacyl-PE exhibited a strong positive (r = 0.82, 2p < 0.001), and those containing 182 a negative correlation (r = –0.63, 2p < 0.01) to the transport activity. Essentially similar connections were observed between these species and the apparent affinity of the transport system for intracellular Na⁺. To evaluate whether the associations between molecular species of membrane phospholipids and Na⁺-Li⁺ countertransport activity were indicative of a causal relationship, the species 160/204-PC and 160/182-PC were selectively introduced into the erythrocyte membrane by means of the PC-specific transfer protein. Replacement of 11% of native PC by 160/182-PC inhibited the transport rate by about 25%. Exchange of 6 and 9% of PC with 160/204-PC, in contrast, accelerated the transport rate by 30 and 60%, respectively. The accordance between the in vivo relations and the results of the in vitro modification strongly suggests that elevations and reductions in the arachidonic acid and linoleic acid content of membrane PC and PE contribute to the interindividual variability of red blood cell Na⁺-Li⁺ counter-transport activity and its acceleration in hyperlipidemias.The authors wish to thank Dr. W.O. Richter (II. Medizinische Klinik, Klinikum Großhadern, Universität München) for selection of the patients and Dr. T. Brosche (Universität ErlangenNürnberg) for gaschromatographic analyses. This study was supported in part by a grant of the Wilhelm-Sander-Stiftung to B.E.     

Reduced expression of a distal gene of the prn gene cluster in deletion mutants of Aspergillus nidulans: genetic evidence for a dicistronic messenger in an eukaryote.

Summary Temperature sensitive dnaAts46 mutants, in which initiation of chromosome replication is blocked at 42° C, are unable to maintain a dv plasmid at the permissive temperature unless the plasmid carries a mutation in gene P of the type permitting phage to grow in groP (dnaB) bacteria. The growth rate of dnaAts46 mutants seems to be impaired by the presence of the dvP mutant plasmid.Cold sensitive dnaAcos mutants which overinitiate replication at low temperature and grow normally only at 40° and above, can maintain efficiently dvP ⁺ plasmids as well as dvP mutants. Cold sensitivity of dnaAcos mutants is suppressed by the presence of the plasmid dvP ⁺ and by certain dvP mutants, but not by others.The gene P product seems to act by reducing the initiation potential of both types of dnaA mutants, aggravating the initiation defect in dnaAts46 and correcting the overinitiation of dnaAcos.