Nature of deletions formed in response to IS2 in a revertant of the gal3 insertion of E. coli.

Summary The gal3 mutation of E. coli, which arose by the insertion of IS2 in the OP region of the gal operon, reverts spontaneously by excision of the IS2 to produce inducible revertants or by mutational alterations of IS2 to produce constitutive revertants. However, gal3() strains bearing chlD-pgl deletions produce constitutive revertants alone. We proposed that deletions formed in the presence of IS2 terminate specifically at its right end, so that revertants arising by excision of IS2 fuse the gal genes to other promoters. Therefore, the revertants are exclusively constitutive.The above hypothesis was tested by electron microscopy of IS2-specific deletions. Spontaneous chlD-pgl deletions were isolated from gal ^c331 (a revertant of gal3 which retains IS2) and transferred to gal genomes. Electron microscopy of DNA heteroduplexes from these phages confirmed that all of the deletions examined have one end-point fixed at the right end of IS2, whereas their other end-points are variable. In each case, the complete IS2 element was apparently retained. This specificity was also detectable in a revertant (gal ^c200) which retains only the right 1/5 portion of the IS2. The frequencies of these deletions were generally increased in constitutive revertants of gal3. Since a galO ^cmutant did not show a similar increase, it seems that this effect depends upon a base sequence provided by IS2. Moreover, the presence of prophage contributes to the specificity and, in some instances, the frequency of IS2-specific deletions.A mechanism for the formation of the IS2-specific deletions has been proposed. A base sequence located at, or near, the right end of IS2 is recognized and nicked by a specific endonuclease. The nick is enlarged by unidirectional, exonucleolytic degradation to produce deletions extending outwards from the insertion. In constitutive revertants, the nicking site may be exposed to endonucleolytic attack more frequently.     

Reversion of the gal3 mutation of Escherichia coli: Partial deletion of the insertion sequence

Summary The gal3 mutation of E. coli is an insertion of a DNA sequence, 1,100 base pairs in length, into the operator-promoter region of the galactose operon. This mutation reverts spontaneously to gal⁺ by excision of the insertion to produce stable, inducible revertants, or by tandem duplications of the gal operon to produce unstable, constitutive revertants. The nature of a third class of revertants, which are stable and constitutive, is the subject of the present study.The stable, constitutive class of revertants included approximately 30% of all gal⁺ revertants obtained from a gal3() strain. Although the constitutive reversions could be transduced by , the efficiency was found to be extremely poor and the rare transductants which did appear seemed to originate from abnormal transducing particles. It was concluded that these reversions were not normally packaged by .In order to facilitate the packaging of these reversions, the chlD-pgl region was deleted from the parent gal3() strain. Unexpectedly, the gal3 mutation in the majority of these deletions reverted to produce stable, constitutive reversions exclusively. The explanation proposed was that the chlD-pgl deletions had also removed part of the gal operator-promoter up to the gal3 insertion, so that simple excisions of the insertion yielded stable, constitutive revertants by connecting the gal structural genes to a different promoter. These revertants were not considered to be true representatives of the stable, constitutive class. The specificity of deletion end-points at the insertion was found only in the gal3() strain, and not in gal ⁺, gal ⁺(), or gal3 strains. Moreover, the frequency of spontaneous chlD-pgl deletions increased 10- to 15-fold in presence of the gal3 insertion.A gal phage bearing a true stable, constitutive reversion (gal ^c 200) was isolated from the revertant strain by subsequent deletion of the chlD-pgl segment (31). Electron micrographs of gal ⁺ and gal ^c 200 31(chlD pgl) DNA heteroduplexes were interpreted to indicate that the stable, constitutive reversion had arisen by a deletion of 3/4 of the gal3 insertion sequence.The main conclusions are: (i) the stable, constitutive reversions of gal3 can arise by partial deletions of the insertion sequence, apparently by elimination of the nucleotide sequence which causes polarity; (ii) the chlD-pgl deletions may exhibit preferential termination at the right extremity of the gal3 insertion in presence of prophage ; and (iii) the gal3 insertion appears to inhibit the production of gal particles by providing a nucleotide sequence which is recognized and degraded by a specific endonuclease. It is suggested that inhibition of transducing particle formation by gal3 and the preferred termination of deletions at gal3 might represent related phenomena.     

Suppression of polarity of insertion mutations within the gal operon of E. coli.

Summary Phenotypic revertants of galOP::IS1 and galOP::IS2 mutations have been isolated after mutagenesis with nitrosoguanidine, they are probably caused by mutations in gene suA. The polarity suppressor mutations described in this study and a known mutation in gene suA isolated by D. Morse (Morse and Guertin, 1972) suppress polarity caused by IS1 more effectively than that caused by IS2 or IS4. Furthermore, suppressibility is influenced by the site and orientation of IS integration.The synthesis of the three enzymes in galOP::IS suA double mutants is constitutive and the ratio of the three enzymes is altered in comparison to the wild type. The reasons for constitutive synthesis of the galactose enzymes and for the altered ratio of enzyme synthesis are discussed.     

Isolation of the mini insertions IS6 and IS7 of E. coli

Summary The mini IS elements IS6 and IS7 have been detected in constitutive gal ⁺ revertants of galOP-308::IS2 (I), in which the expression of the gal operon is turned off by IS2 in orientation I. Both, IS6 and IS7, are integrated into IS2 proximal to the gal structural genes. IS6 is 115 base pairs long and causes 50% constitutive expression of the gal genes. IS7 is only 65 base pairs long and the gal operon is expressed 20% constitutively compared to the gal ⁺ wild type operon. Both IS6 and IS7 are excised frequently, in the absence of selective pressure. These findings are discussed with respect to the evolution of gene expression.     

Analysis of rpsD mutations in Escherichia coli. I. Comparison of mutants with various alterations in ribosomal protein S4.

Summary Streptomycin-independent revertants were selected from streptomycin-dependent mutants. Twenty-five out of 150 such revertants were temperature sensitive. Ribosomal proteins from 18 temperature-sensitive and 10 temperature-insensitive revertants were analysed by SDS-polyacrylamide gel electrophoresis. Seventeen of the former but none of the latter category showed an alteration of protein S4. The mutated rpsD allele of 6 temperature-sensitive revertants was transduced into a rpsL ⁺ strain. In all cases an increased suppressibility of T4 amber phages was observed. Such suppressibility was not observed in the original rpsD, rpsL strains. All 18 temperature-sensitive mutants were disturbed in the processing of 17s to 16s RNA at non-permissive temperature and the accumulated 17s RNA was degraded. Temperature-insensitive rpsD revertants could be isolated, which had gained a second alteration in S4. Such revertants, which had lost the temperature-sensitive property, were also unable to suppress growth of T4 amber phages.It is concluded that temperature-sensitive growth, inability to process 17s RNA and to assemble 30S ribosomes at non-permissive temperature as well as increased translational ambiguity are highly correlated properties in rpsD mutants.     

O0 and strong-polar mutations in the gal operon are insertions

Summary Three dg phages carrying strong-polar mutations in the gal operon are denser than the corresponding phages carrying the wildtype gal operon or reversions of the mutations to the Gal ⁺ phenotype. The latter phages have the same density. It is concluded that these strong-polar mutations are insertions of DNA into the gal operon.The amount of inserted DNA is different in the three mutations and is calculated to be 450, 1,080 and 1,800 nucleotide pairs respectively.The strong-polar phenotype is also found in a mutant supplied by A. Taylor which carries a Mu-1 phage integrated into the transferase gene.     

Analysis of relative reversion frequencies for IS2 insertion mutations in the regulatory region of the galOPETK operon of Escherichia coli

Two previously characterized mutations in the galOPETK operon of Escherichia coli, galOP-3 and galOPE-490, contain IS2 insertions only 1 bp apart in the gal regulatory region; yet only the former yields Gal⁺ phenotypic revertants at a detectable frequency. We have shown that the galOPE-490 allele comprises two mutations—an IS2(I) insertion at bp+(2–6) (relative to the gal mRNA start site) plus a C/G to A/T transversion at bp+59. The latter creates an ochre stop codon and lies within the internal site of the bipartite gal operator; it acts as an operator mutation in an in vivo repressor titration assay. Analysis of a newly isolated allele (galOP-490^*) which retains the IS2 of galOPE-490 but is galE⁺ reveals a reversion frequency approximately 30-fold higher than that of galOP-3. Reversion of galOPE-490 is at least 10,000-fold lower and has not been detectable even under conditions conducive to enhanced double mutations in other systems.     

mRNA distal to polar nonsense and insertion mutations in the gal operon of E. coli

Summary mRNA of the galactose operon of E. coli was measured in wildtype E. coli and in gal operon amber and insertion mutants. The mRNA coded by the distal half of the operon is reduced in the mutants. This reduction is more pronounced in the insertion mutants than in the amber mutants. It was compared with the polar effects of the mutations on the enzymes of the operon.     

Regulatory mutations of the Pseudomonas plasmid alk regulon.

Pseudomonas putida strains with plasmids carrying pleiotropic alk mutations gave rise to alkane-positive "revertants," which differ from wild type. Some had restricted ability to utilize alkane and primary alcohol growth substrates, and others could grow on undecane and dodecanol, which are not utilized by alk+ strains. These revertants showed altered responses to normal inducers of alkA+, alkB+, and alkC+ activities. Some revertants were constitutive for these activities. Constitutive mutants could also be isolated directly from wild type, but they appeared spontaneously at a frequency of less than 2 X 10(-8). Regulatory mutations of all three types, pleiotropic negative, altered inducer specificity, and constitutive, were tightly linked in transduction crosses with a polar alkB mutation. These results demonstrate that the IncP-2 plasmid alk gene cluster constitutes a regulon. They also permit the identification of at least one cistron whose gene product participates in inducer recognition and suggest that the alkABC regulon is not under simple repressor control.     

A new experimental system for study on adaptive mutations

A super-repressed mutant of purR (purR^S), which encodes a repressor protein controlling expression of purine biosynthetic genes inSalmonella typhimurium, grew very slowly on NCE medium with 10 μg/mL Ade and lactose as sole carbon source (cannot form colonies). However, a phenomenon of late-arising mutations was observed when purR^S mutants were spread on NCE+lactose plates and subjected to a prolonged non-lethal selection. The reconstruction experiments of revertants showed that the late-arising “lac⁺” mutants are not slow growing mutants. Statistical analysis indicated that the distribution of late-arising mutants is Poisson distribution, showing that reversion occurred after plating. The result of co-transductional analysis preliminarily showed that late-arising mutation occurred at selected genepurR or 16 bp PUR box,cis element of structural genepurD. The above results suggest that the phenomenon of late-arising mutation observed by our system is a result of adaptive mutations which are different from random mutations. This is the first time to extend target genes at which adaptive mutations could occur from structural genes involved in carbon metabolism and amino acid biosynthesis totrans regulatory gene coding repressor protein. Our results have provided not only a new proof for generality of adaptive mutations but also a new system for study on adaptive mutations.     

A new experimental system for study on adaptive mutations

A super-repressed mutant of purR (purRs), which encodes a repressor protein controlling expression of purine biosynthetic genes in Salmonella typhimurium, grew very slowly on NCE medium with 10 μg/mL Ade and lactose as sole carbon source (cannot form colonies). However, a phenomenon of late-arising mutations was observed when purRs mutants were spread on NCE+lactose plates and subjected to a prolonged non-lethal selection. The reconstruction experiments of revertants showed that the late-arising "lac+" mutants are not slow growing mutants. Statistical analysis indicated that the distribution of late-arising mutants is Poisson distribution, showing that reversion occurred after plating. The result of co-transductional analysis preliminarily showed that late-arising mutation occurred at selected gene purR or 16 bp PUR box, cis element of structural gene purD. The above results suggest that the phenomenon of late-arising mutation observed by our system is a result of adaptive mutations which are different     

Negative control of the galactose operon in E. coli

Summary Non-inducible mutants have been isolated which synthesize the three galactose enzymes with the basal rate both in the absence and in the presence of inducers. These mutations are closely linked to the lysA gene, as are the constitutive mutations in the regulator gene first described by Buttin (1963).The non-inducible mutants are Gal ^– on EMB gal plates. Revertants to the Gal ⁺ phenotpye are constitutive. Heterozygotes have been prepared at the locus of the regulator gene (galR), abd dominance studies involving the different alleles at this locus have been carried out. The non-inducible mutations are dominant over the wildtype, and this in turn is dominant over constitutive mutations in the galR gene.Starting from the non-inducible mutations, deletions have been isolated, which extend from the galR gene into the lysA gene. These are constitutive.The behavior of the non-inducible mutations and of the deletions are strong arguments for negative control of the galactose operon.     

Isolation and characterization of cold-sensitive mutations at the benA, beta-tubulin, locus of Aspergillus nidulans

Summary We have isolated large numbers of conditionally lethal -tubulin mutations to provide raw material for analyzing the structure and function of tubulin and of microtubules. We have isolated such mutations as intragenic suppressors of benA33, a heat-sensitive (hs^-) -tubulin mutation of Aspergillus nidulans. Among over 2,600 revertants isolated, 126 were cold-sensitive (cs^-). In 41 of 78 cs^- revertants analyzed, cold sensitivity and reversion from hs^- to hs⁺ were due to mutations linked to benA33. In three cases reversion was due to mutations closely linked to benA33 but cold sensitivity was due to a coincidental mutation unlinked to benA33. In the remaining 34 cases reversion was due to mutations unlinked to benA33. Thirty-three of the revertants in which cold sensitivity and reversion were linked to benA33 were sufficiently cold-sensitive to allow us to select for rare recombinants between benA33 and putative suppressors in a revertant x wild-type (wt) cross. We found only one recombinant among 1,000 or more viable progeny from crosses of each of these revertants with a wt strain. Reversion is thus due to a back mutation or very closely linked suppressor in each case. We have analyzed 17 of these 33 revertants with greater precision and have found that, in each case, reversion is due to a suppressor mutation that maps to the right of benA33. The recombination frequencies between benA33 and the suppressors are very low (less than 1.2×10^-4) in all cases. Five of these 33 revertants have been examined microscopically and in each of them nuclear division and nuclear migration are inhibited at a restrictive temperature. We conclude that at least some and perhaps all of these revertants carry intragenic suppressors of benA33 that, in combination with benA33, cause cold sensitivity by inhibiting the functioning of microtubules at low temperatures. Of the 17 suppressors mapped, 11 map to two clusters. These clusters are likely to define regions particularly important to the functioning of the -tubulin molecule.     

A further characterization of the cinnamon gene in Drosophila melanogaster

Summary Two mutants of Saccharomyces cerevisiae lacking pyruvate kinase (EC.2.7.1.40) are described. The mutations are recessive, segregate 2⁺:2^- in tetrads and do not complement each other. Single-step spontaneous revertants, isolated on glucose plates, get back pyruvate kinase activity. The enzymes from various revertants display a wide spectrum of specific activity, thermolability and altered affinity for ligands such as P-enol pyruvate, ADP and fructose 1,6-diphosphate. The mutants produce materials crossreacting to the rabbit antibody raised against purified pyruvate kinase from the wild type yeast. These mutations thus define the structural gene of pyruvate kinase.The mutations map on the leaft arm of chromosome I and form a single complementation group with five other pyruvate kinase mutations in the pyk1 gene that was earlier suggested to be a regulatory locus controlling the synthesis of this enzyme. A comparative study of these mutants has been made with the structural mutants described here.     

Cytochrome b of cob revertants in yeast. 1. Isolation and characterization of revertants derived from cob exon mutants of Saccharomyces cerevisiae

Summary About 300 revertants were derived from 44 cob ^- mutants, mapping in the structure coding regions (exon 1, 3, 4, 5, or 6) of the mitochondrial apocytochrome b gene in Saccharomyces cerevisiae, strain 777-3A. Most of the revertants could not be distinguished from the wild-type by means of physiological properties. Twenty-two revertants different in phenotype are described here in more detail.The suppressor mutations (sup ^a) that compensate the primary cob ^- mutations (i.e., restore growth on glycerol) are mitochondrially inherited. They were localized in the same cob exon regions as the respective primary mutations, except for one revertant with a primary mutation in exon 6 and a suppressor, 4.2 map units distant, which may be located either in intron 5 or downstream in exon 6.Of 21 suppressors 17 are closely coupled to the primary mutation with recombination frequencies of 0.1%–0.3%. An estimate predicts that in more than 80% of these revertants only one amino acid is altered at that point of the polypeptide corresponding to the cob ^- site in the gene.The most interesting revertant phenotypes are: (1) reduced growth rate on glycerol. The respective cob ^-/sup^a mutations are scattered over the whole cob region and cannot be correlated exclusively with special gene regions. (2) decreased cytochrome b content. The most extreme reductions (28% and 30% of wild-type level) were observed to be due to mutations located in the 5 proximal part of exon 1. The highest percentage of revertants with decreased cytochrome b content was predominantly found mapping in exon 3. Complications in protoporphyrin attachment or the chelatase reaction were assumed to be the basic lesion causing reduced cytochrome b content, since in 10 out of 11 revertants examined the polypeptide is produced at wild-type level. (3) shifted maximum absorption wavelength of cytochrome b. The double mutations of the respective revertants map in the middle part of exon 1, in exon 4 and exom 5. The corresponding regions in the polypeptide presumably surround the heme group.     

Analysis of mutations affecting Ty-mediated gene expression in Saccharomyces cerevisiae

Summary Yeast translocatable, Ty, elements can cause constitutive synthesis of the glucose-repressible alcohol dehydrogenase (ADHII) when inserted upstream from the 5 end of the structural gene, ADR2. These insertion mutations, ADR3 ^c, are unstable and give rise to secondary ADHII^– mutations. The majority of such mutants, adr3, can be attributed to excision of the insertion sequence, leaving behind a single copy of the -sequence which occurs as a direct repeat at the ends of the Ty elements. A few adr3 mutants appear to be generated by DNA-rearrangements in the vicinity of the Ty insertion. The occurrence of recessive mutants, tye, which are unlinked to ADR2 indicates that the constitutive expression of ADR2 caused by the Ty insertions requires the function of trans-acting genes. These results support the idea that regulation of Ty-linked ADR2 is actively mediated by the insertion sequence and is probably not due to a mere disruption of the wild-type controlling site.     

Stability of deletion,insertion and point mutations at the bronze locus in maize

Summary Phenotypic revertants from several kinds of mutations, including deletions, have been detected by pollen analysis at the wx and Adh loci in maize. Mutations in these genes give phenotypic revertants with median frequencies of 0.7 and 0.5×10^–5, respectively. However, the nature of such revertants can only be analyzed following their recovery from conventional matings. In the current study large seed populations derived from crosses involving several bz (bronze) locus mutations in maize were examined for reversion to a Bz (purple) expression. Deletion, insertion and point mutations were included in the study. Principally, over 2 million gametes of the bz-R mutation, which is shown here to be associated with a 340 base pair deletion within the transcribed region of the gene, have been screened for reversion. No revertants from it or any of the other bz mutations have been recovered, even though a total of almost 5 million gametes from homoallelic crosses have been examined to date. Results from seed analysis are discussed in reference to those from pollen analysis in maize.     

Isolation of Rec? mutants from an F-prime merodiploid strain of Escherichia coli K-12

Summary This paper describes a method of screening mutagenised populations of an E. coli gal _A ^– gal _B ^– F-prime merodiploid for mutants defective in recombination. The method relies on scoring colonies on Eosin-Methylene Blue agar that have fewer than normal numbers of Gal⁺ papillae. With a suitable choice of gal ^–mutations most of the papillae arise by recombination and some of those colonies with less than normal numbers prove to be defective in some aspect of recombination or DNA repair. In addition to strains carrying mutations that can be ascribed to known loci, several novel mutant phenotypes were identified.     

Carbohydrate Accumulation and Metabolism in Escherichia coli: Characteristics of the Reversions of ctr Mutations

The reversion behavior of pleiotropic carbohydrate mutants, previously designated as ctr, was studied. The mutants revert to complete restoration of the wild-type phenotype, as well as to a spectrum of partial wild-type phenotypes. Lac⁺ reversions were found in the lac region (11 min) and some Mal⁺ reversions occurred at malB (79 min), at a distance from the site of the ctr mutations (46 to 47 min). About one-third of Lac⁺ and Mal⁺ revertants were constitutive for uptake of their respective substrates, and one-third modified for inducibility. The remaining third were not distinguishable from wild type. Induction of a ctr mutation in a lac constitutive strain, either operator or repressor mutant, did not affect lactose metabolism. A polar-like ctr mutant, deficient in both enzyme I and heat-stable protein of the phosphoenolpyruvate-dependent phosphotransferase strain was also described. Partial revertants of ctr were still found to lack enzyme I.     

Mechanism of repression of methionine biosynthesis in Escherichia coli. II. The effect of metJ mutations on the free amino acid pool

Summary Ethionine-resistant mutants (metJ mutants) were isolated and characterized as constitutive in the biosynthesis of methionine. Such mutations resulted in marked differences or alterations in the free amino acid pool. In some strains the levels of threonine and histidine were elevated by as much as 13 and 22 times that of the wild type level. The possibility that structural modifications of methionyl-tRNA were giving rise to constitutive methionine biosynthesis and the apparent aberrations in the free amino acid pool, was in large part ruled out by a comparison of the mobilities of wild type and mutant methionyl-tRNA on benzoylated DEAE-cellulose columns. The results obtained are consistent with the view that the product of the metJ locus is a repressor protein which is directly involved in the repression of the methionine genes.