The roles of starvation and selective substrates in the emergence of araB-lacZ fusion clones.

The araB-lacZ fusion system has been a key case in the 'directed mutation' controversy. Fusions did not occur detectably during normal growth but formed readily after prolonged incubation on selective Ara-Lac medium. To distinguish the roles of starvation stress and selective substrates in coding sequence fusions, we applied sib selection and PCR technologies. Sib selection of the prefusion strain, MCS2, starved under aerobic conditions permitted us to isolate active fusion clones which had never been in contact with arabinose or lactose. Hence, a directive role for selective substrates is not essential. Aerobiosis was necessary for fusions to appear in glucose-starved cultures. The difference in fusion formation between normal and starved conditions is best explained by the response of a signal transduction network to physiological stimuli to activate Mu prophage joining of araB and lacZ sequences. PCR analysis revealed that direct plating on selective Ara-Lac agar yielded mostly a single class of 'standard' fusions, while sib selection yielded a broader spectrum of fusion structures. Standard fusions were found to occur within a narrow 9 bp window in lacZ. The high frequency of standard fusions in glucose-starved cultures suggested efficient and/or specific Mu action.     

In vivo selection and characterization of internal deletions in the lamB::lacZ gene fusion

Strain Pop3299 contains the lamB::lacZ42-12 gene fusion that encodes a hybrid protein that is efficiently exported to the cellular envelope of Escherichia coli. As a result of this efficient export, this strain is killed by the inducer maltose and unable to grow on minimal media supplemented with lactose. In an attempt to isolate mutants in which export of the hybrid protein is altered, we selected Lac+ mutants of strain Pop3299 on lactose tetrazolium media. Unlike mutants previously isolated on lactose minimal media, all the mutants we obtained carried large deletions within the lamB::lacZ gene fusion. Thus, it appears that the type of selection employed affects the type of mutations obtained. We have analyzed the nucleotide sequences of representative mutants, and demonstrate a correlation between the deletion size and the export-related maltose and lactose phenotypes. In addition, we demonstrate that the deletions do not appear to arise from regions of micro-homology.     

Analysis of pancreatic development using a cell lineage label

We have devised a new culture system for in vitro culture of pancreatic buds from mouse embryos which enables the organ to grow as a flat branched structure suitable for wholemount immunostaining. This system has been used to analyze pancreatic development. We have also used the ROSA-26 gene trap mouse strain as a source of tissue which expresses lacZ in a stable manner, in all cell types, during in vitro culture. Combinations of lacZ epithelium and unlabeled mesenchyme show that both exocrine and endocrine cells arise from the epithelium, and smooth muscle cells from the mesenchyme. Although previously suspected, this is the first formal proof that both exocrine and endocrine cells are of endodermal origin. Combinations of lacZ epithelium with unlabeled stomach mesenchyme give similar results and show that stomach mesenchyme has the same trophic effect as pancreatic mesenchyme. When a lacZ and an unlabeled epithelium are combined with an unlabeled mesenchyme, both acini and islets in the resulting culture can be of mixed cell composition. This shows that neither of the chief structural units of the pancreas is formed by clonal growth from a single cell.     

Yeast shuttle and integrative vectors with multiple cloning sites suitable for construction of lacZ fusions

We report yeast/Escherichia coli shuttle vectors suitable for fusing yeast promoter and coding sequences to the lacZ gene of E. coli. The vectors contain a region of multiple unique restriction sites including EcoRI, KpnI, SmaI, BamHI, XbaI, SalI, PstI, SphI and HindIII. The region with the unique cloning sites has been introduced in both orientations with respect to lacZ and occurs proximal to the eighth codon of the gene. All the restriction sites have been phased to three different reading frames. Two series of vectors have been constructed. The first series (YEp) has two origins of replication (ori), i.e., of the yeast 2 mu circle and of the ColE1 plasmid of E. coli, and can therefore replicate autonomously in both organisms. These shuttle vectors also have the ApR gene of E. coli and either the yeast LEU2 or URA3 genes to allow for selection of both E. coli and yeast transformants. The second series of vectors (YIp) are identical in all respects to the YEp vectors except that they lack the 2 mu ori. The YIp vectors can be used to integrate lacZ fusions into yeast chromosomal DNA. None of the vectors express beta-galactosidase (beta Gal) in yeast or E. coli in the absence of inserted yeast promoter sequences. The 5'-nontranslated sequences and parts of the coding sequences of various yeast genes have been cloned into representative lacZ fusion vectors. In-frame gene fusions can be detected by beta Gal activity when either yeast or E. coli clones are plated on media containing XGal indicator. Quantitative determinations of promoter activity were made by colorimetric assay of beta Gal activity in whole cells. Fusion of the yeast CYC1 gene to lacZ in one of the vectors allowed detection of regulated expression of this gene when cells were grown under conditions of catabolite repression or derepression.     

Analysis of mutations occurring during replication of a SV40 shuttle vector in mammalian cells

To analyse mutations that arise in mammalian cells we have used a SV40::plasmid shuttle vector containing a portion of the E. coli lacZ gene. We have found that following transfection into monkey Cos-7 cell mutations are not detected in the recovered plasmids at 24 h post transfection, but are found at 48 h post transfection, after the onset of DNA replication. Analysis of the mutant plasmids shows that in almost all cases the mutant phenotype is caused by a deletion or rearrangement of the lacZ gene in the shuttle vector.     

Insights into mutagenesis using Escherichia coli chromosomal lacZ strains that enable detection of a wide spectrum of mutational events

Strand misalignments at DNA repeats during replication are implicated in mutational hotspots. To study these events, we have generated strains carrying mutations in the Escherichia coli chromosomal lacZ gene that revert via deletion of a short duplicated sequence or by template switching within imperfect inverted repeat (quasipalindrome, QP) sequences. Using these strains, we demonstrate that mutation of the distal repeat of a quasipalindrome, with respect to replication fork movement, is about 10-fold higher than the proximal repeat, consistent with more common template switching on the leading strand. The leading strand bias was lost in the absence of exonucleases I and VII, suggesting that it results from more efficient suppression of template switching by 3' exonucleases targeted to the lagging strand. The loss of 3' exonucleases has no effect on strand misalignment at direct repeats to produce deletion. To compare these events to other mutations, we have reengineered reporters (designed by Cupples and Miller 1989) that detect specific base substitutions or frameshifts in lacZ with the reverting lacZ locus on the chromosome rather than an F' element. This set allows rapid screening of potential mutagens, environmental conditions, or genetic loci for effects on a broad set of mutational events. We found that hydroxyurea (HU), which depletes dNTP pools, slightly elevated templated mutations at inverted repeats but had no effect on deletions, simple frameshifts, or base substitutions. Mutations in nucleotide diphosphate kinase, ndk, significantly elevated simple mutations but had little effect on the templated class. Zebularine, a cytosine analog, elevated all classes.     

Precise excision of bacteriophage Mu DNA

The temperate bacteriophage Mu is a transposable element that can integrate randomly into bacterial DNA, thereby creating mutations. Mutants due to an integrated Mu prophage do not give rise to revertants, as if Mu, unlike other transposable elements, were unable to excise precisely. In the present work, starting with a lacZ::Muc62(Ts) strain unable to form Lac+ colonies, we cloned a lacZ+ gene in vivo on a mini-Mu plasmid, under conditions of prophage induction. In all lac+ plasmids recovered, the wild-type sequence was restored in the region where the Mu prophage had been integrated. The recovery of lacZ+ genes shows that precise excision of Mu does indeed take place; the absence of Lac+ colonies suggests that precise excision events are systematically associated with loss of colony-forming ability.     

DNA Rearrangements Associated with Reversion of Bacteriophage Mu-Induced Mutations

Excision of transposable genetic elements from host DNA is different from the classical prophage lambda type of excision in that it occurs at low frequency and is mostly imprecise; only a minority of excision events restores the wild-type host sequences. In bacteriophage Mu, a highly efficient transposon, imprecise excision is 10-100 times more frequent than precise excision. We have examined a large number of these excision events by starting with mucts X mutants located in the Z gene of the lac operon of Escherichia coli. Mucts X mutants are defective prophages whose excision occurs at a measurable frequency. Imprecise excision was monitored by selecting for melibiose+ (Mel+) phenotype, which requires only a functioning lacY gene. Mel+ revertants exhibit an array of DNA rearrangements and fall in four main classes, the predominant one being comprised of revertants that have no detectable Mu DNA. Most of these revertants can further revert to Lac+. Perhaps 5 base-pair duplications, originally present at prophage-host junctions, are left in these lacZ-Y+ revertants, and they can be further repaired to lacZ+. Another class has, in addition to the loss of Mu DNA, deletions that extend generally, but not always, to only one side of the prophage. The other two classes of revertants, surprisingly, still have Mu DNA in the lacZ gene. One class has deletions in the Z gene, whereas, no deletions can be detected in the other. Many of the revertants in the last class can further revert to lacZ+, indicating that the lacY gene must have been turned on by a rearrangement within Mu DNA. Apparently, all of the detectable precise and most of the imprecise excision events require functioning of the Mu A gene. We suggest that a block in large-scale Mu replication allows the excision process to proceed.     

Effects of deletion and insertion mutations in the ilvM gene of Escherichia coli.

A plasmid was constructed that carried the ilvG and ilvM genes and the associated promoter and leader regions derived from the K-12 strain of Escherichia coli. The ilvG gene contained a + 1 frameshift mutation that enabled the plasmid to specify acetohydroxyacid synthase II. The plasmid was modified by deletions in the terminus of and within the ilvM gene and by insertions into the ilvM gene. The effects of these modifications on the phenotypes of the plasmids were examined in a host strain that lacked all three isozymes of acetohydroxyacid synthase. Most of the ilvM mutant plasmids so obtained permitted growth of the host strain in the absence of isoleucine but not in the absence of valine. Growth in the presence of valine, however, was very slow. No significant acetohydroxyacid synthase activity could be detected even when the cells were grown in a valine-supplemented minimal medium. It thus appears that, at most, only a very low level of acetohydroxyacid synthase activity occurred with ilvG in the absence of ilvM and that low activity was more effective for acetohydroxy butyrate formation than for acetolactate formation. The ilvM gene product could be formed under the control of the lac promoter in the presence of a plasmid that carried an in-frame gene fusion between lacZ and the downstream portion of ilvG. Extracts from the host strain that contained such an IlvG(-)-IlvM+ plasmid could be combined with extracts from cells that contained one of the IlvG+-IlvM- plasmids to yield acetohydroxyacid synthase activity. Thus, the ilvM and ilvG genes could be expressed independently of each other.     

RecA-independent mutagenesis in Escherichia coli may be subject to glucose repression

The frameshift mutagen 9-aminoacridine (9AA) causes DNA damage via a recA+-independent mechanism in Escherichia coli. In this study we have exposed E. coli cells carrying the lacZ19124 frameshift marker to 9AA in defined minimal media, washed them, and plated to score for Lac+ revertants. Our results show that 9AA-induced reversion to Lac+ occurs in the absence of any exogenous carbon source and when cells are plated on media which do not allow much, if any, cell replication prior to expression of the revertant phenotype. When glycerol (1% w/v) was added to the liquid treatment medium, the number of Lac+ E. coli revertants was similar to that obtained when no carbon source was present. By contrast the addition of glucose (1% w/v) during the mutagenesis treatment caused a significant decrease in the number of revertants. Further experiments indicate that the repressing effects of glucose may be due to a reduction in cAMP concentration, since 9AA mutagenesis was abolished in a cya strain in which no adenylate cyclase is produced. These results are consistent with (but do not prove) the notion that at least one part of the process leading to 9AA mutagenesis is subject to catabolite repression.     

In situ lacZ retrovirus-marked lymphocytes define a B cell microenvironment in the lymph node medulla.

A recombinant nonreplicating retroviral vector bearing the Escherichia coli lacZ indicator gene was used to mark a population of B cells in situ in murine lymphoid tissue. The retrovirus was surgically injected into popliteal lymph nodes during the primary immune response to DNP-CGG when B cell proliferation in the germinal centers was maximal. LacZ+ cells were initially detected in the perivascular medullary interstitium, where they expanded and persisted up to 2 weeks following retrovirus injection. Migrant lacZ+ B cells were detected in the spleen 3-18 weeks following immunization and resided in the red pulp or marginal zones. Two-color flow cytometric analysis using a fluorogenic substrate for beta-galactosidase revealed that lacZ+ cells bear kappa light chains and that at least 50% of these cells bound the hapten, DNP. Based on their location, life span, migratory capacity, antigenic specificity, and surface immunoglobulin density, lacZ+ cells define a distinct nonfollicular B cell population associated with other late developmental stages of B lymphocytes, including memory and plasma cells.     

Amplification of lac cannot account for adaptive mutation to Lac+ in Escherichia coli

When the Lac- strain of Escherichia coli, FC40, is incubated with lactose as its sole carbon and energy source, Lac+ revertants arise at a constant rate, a phenomenon known as adaptive mutation. Two alternative models for adaptive mutation have been proposed: (i) recombination-dependent mutation, which specifies that recombination occurring in nongrowing cells stimulates error-prone DNA synthesis, and (ii) amplification-dependent mutation, which specifies that amplification of the lac region and growth of the amplifying cells creates enough DNA replication to produce mutations at the normal rate. Here, we examined several of the predictions of the amplification-dependent mutation model and found that they are not fulfilled. First, inhibition of adaptive mutation by a gene that is toxic when overexpressed does not depend on the proximity of the gene to lac. Second, mutation at a second locus during selection for Lac+ revertants is also independent of the proximity of the locus to lac. Third, mutation at a second locus on the episome occurs even when the lac allele under selection is on the chromosome. Our results support the hypothesis that most Lac+ mutants that appear during lactose selection are true revertants that arise in a single step from Lac- cells, not from a population of growing or amplifying precursor cells.     

Influence of dam and mismatch repair system on mutagenic and SOS-inducing activity of methyl methanesulfonate in Escherichia coli

In contrast to earlier reports (Mohn et al., 1980; Glickman, 1982), we show that E. coli dam- cells are able to mutate following MMS treatment. Since the mutagenicity of MMS has been regarded as largely dependent on induction of the SOS functions, E. coli strains bearing the recA::lacZ or umuC::lacZ fusions were used to determine the ability of MMS to induce the SOS functions in the various dam+ and dam- strains. The mutagenicity of MMS was also tested in several of these strains. The results show that (i) there is no direct correlation between SOS-inducing ability and mutagenicity potency of MMS; and (ii) most of the premutagenic lesions induced by MMS are removed from DNA of dam+ or dam- cells by the mismatch repair system. The role of strand breaks in repair of mismatches induced by alkylating agents is discussed.     

Mutagenicity of the peroxisome proliferators clofibrate, Wyeth 14,643 and di-2-ethylhexyl phthalate in the lacZ plasmid-based transgenic mouse mutation assay

BACKGROUND: Peroxisome proliferators are considered rodent carcinogens that are putative human non-carcinogens based on the presumed absence of direct genetic toxicity in rodent and human cells and the resistance of human cells to the induction of peroxisomes by peroxisome proliferators. The highly sensitive lacZ plasmid-based transgenic mouse mutation assay was employed to investigate the mutagenicity of several peroxisome proliferators based on several lines of evidence suggesting that these agents may in fact exert a genotoxic effect. METHODS: Male and female lacZ-plasmid based transgenic mice were treated at 4 months of age with 6 doses of 2,333 mg di-2-ethylhexyl phthalate (DHEP), 200 mg Wyeth-14,643, or 90 mg clofibrate per kg of bodyweight, respectively, over a two-week period. Control animals were treated with the respective vehicles only (35% propyl glycol for DEHP and Wyeth-14,643 treatment controls and sterile water for clofibrate treatment controls).The mutant frequency in liver, kidney and spleen DNA was determined as the proportion of retrieved mutant and wild-type lacZ plasmids expressed in Escherichia Coli C host cells employing a positive selection system for mutant plasmids. RESULTS: Exposure to DEHP or Wyeth-14,643 significantly increased the mutant frequency in liver, but not in kidney or spleen, of both female and male mice. Treatment with clofibrate did not lead to an increased mutant frequency in any of the organs studied. CONCLUSION: The results indicate that some peroxisome proliferators display an organ-specific mutagenicity in lacZ plasmid-based transgenic mice consistent with historical observations of organ- and compound-specific carcinogenicity.