Isolation and characterization of Escherichia coli strains containing new gene fusions (soi::lacZ) inducible by superoxide radicals.

Gene fusions in Escherichia coli that showed increased beta-galactosidase expression in response to treatment with a superoxide radical (O2-) generator, methyl viologen (MV), were obtained. These fusions were constructed by using a Mud(Ap lac) phage to insert the lactose structural genes randomly into the E. coli chromosome. Ampicillin-resistant colonies were screened for increased expression of beta-galactosidase on X-Gal (5-bromo-4-chloro-3-indolyl-beta-D-galactopyranoside) plates containing MV at 1.25 micrograms/ml. Other O2- generators, menadione and plumbagin, also induced beta-galactosidase activity in these fusion strains. The induction by these drugs occurred only under aerobic conditions. Hyperoxygenation also elicited an induction of the fusions. On the other hand, no significant induction was observed with hydrogen peroxide and cumene hydroperoxide. The induction of these fusions by MV was not dependent on the peroxide stress control mediated by the oxyR gene or on the recA-dependent SOS system. These fusions were named soi (superoxide inducible)::lacZ. The induction of beta-galactosidase was significantly reduced by introducing a soxS::Tn10 locus into the fusion strains, indicating that the soi genes are members of the soxRS regulon. Five of the fusions were located in 6 to 26 min of the E. coli genetic map, while three fusions were located in 26 to 36 min, indicating that these fusions are not related to genes already known to be inducible by O2- under the control of soxRS. At least five mutants containing the soi::lacZ fusion were more sensitive to MV and menadione than the wild-type strain, suggesting that the products of these soi genes play an important role in protection against oxidative stress.     

Bacteriochlorophyll-dependent expression of genes for pigment-binding proteins in<Emphasis Type="Italic"> Rhodobacter capsulatus</Emphasis> involves the RegB/RegA two-component system

Expression of the puf and puc operons, which encode proteins of the photosynthetic apparatus of Rhodobacter capsulatus, is regulated by oxygen. A drop in the oxygen tension in the environment leads to an increase in the levels of puf and puc mRNAs. In strains lacking bacteriochlorophyll (Bchl) due to mutations in bch genes, the rise in puf and puc mRNA levels observed on reduction of oxygen tension is much less pronounced than in wild-type cells, indicating co-regulation of the syntheses of pigments and pigment-binding proteins. Here we show that Bchl synthesis also affects the expression of the bchC gene, which codes for a subunit of bacteriochlorophyll synthase, suggesting an autoregulatory mechanism for the Bchl biosynthetic pathway. Furthermore, our data provide evidence that the RegB/RegA two-component system, which is known to play a central role in oxygen-controlled expression of photosynthesis genes, is also involved in the Bchl-dependent regulation. Mutant strains which do not synthesize RegB or RegA show similar oxygen-dependent puf and puc expression in the presence and absence of Bchl. Our results support the view that the RegB/RegA system can directly or indirectly sense whether Bchl synthesis takes place or not.     

Transposition and fusion of the lac genes to selected promoters in Escherichia coli using bacteriophage lambda and Mu

A general procedure is described for transposing the lac genes to selected locations on the Escherichia coli chromosome. These transpositions were designed so that the lac² genes could be fused to nearby promoters. In particular, the lac genes were fused to the promoters for the araBAD, araC and leu genes. In these fusions the lac genes are regulated by the controls of the genes to which they are fused. These fusions are therefore useful in discovering new types of regulation of gene expression, as was found in the case of the araC gene. λ transducing phage carrying the fusion as well as nearby genes can easily be isolated. Some of these fusions may result in the formation of hybrid proteins.     

Modulation by oxygen of zonal gene expression in liver studied in primary rat hepatocyte cultures

The different endowment with key enzymes and thus different metabolic capacities of periportal and perivenous cell types led to the model of "metabolic zonation." The periportal and perivenous hepatocytes receive different signals owing to the decrease of substrate concentrations including O2 and hormone levels during passage of blood through the liver sinusoids. These different signal patterns should be important for the short-term regulation of metabolism and also for the long-term induction and maintenance of the different enzyme pathways by control of gene expression. The periportal to perivenous drop in oxygen tension was considered to be a key regulator in the zonated expression of carbohydrate-metabolizing enzymes. In primary hepatocyte cultures, glucagon activated the phosphoenolpyruvate carboxykinase (PCK) gene to higher levels under arterial than under venous oxygen. The insulin-dependent activation of the glucokinase (GK) gene was reciprocally modulated by oxygen. Exogenously added hydrogen peroxide mimicked the effects of arterial oxygen on both the glucagon-dependent PCK gene and the insulin-dependent GK activation. Therefore, the oxygen sensor could be a hydrogen peroxide-producing oxidase which could contain a heme group for "measuring" the O2 tension. This notion was corroborated by the finding that CO mimicked the positive effect of O2 on PCK gene activation. Transfection of PCK promoter-CAT gene constructs into primary hepatocytes showed that the oxygen modulation of the PCK gene activation occurred in the region -281/+69. The modulation by O2 was not mediated by isolated cAMP-responsive elements. Nuclear protein extracts prepared from hepatocytes cultured under venous Po2 as compared to arterial Po2 showed an enhanced binding activity to the promoter fragment -149/-43. Oxidative conditions such as H2O2 reduced the DNA-binding activity, thus supporting the role of H2O2 as a mediator in the O2 response of the PCK and GK genes.     

Bacteriophage P1 Bof protein is an indirect positive effector of transcription of the phage bac-1 ban gene in some circumstances and a direct negative effector in other circumstances

Previous genetic studies have suggested that the Bof protein of bacteriophage P1 can act as both a negative and a positive regulator of phage gene expression: in bof-1 prophages, the ref gene and a putative phage ssb gene are derepressed, but expression of an operator-semiconstitutive variant of the phage ban gene (bac-1) is markedly reduced. An explanation of this apparent duality is suggested by recent reports that Bof is a corepressor of genes that are regulated by the phage C1 repressor, including the autoregulated c1 gene itself. Here we show, by means of operon fusions to lacZ, that the balance points between Bof-mediated decreases in c1 expression and Bof-mediated increases in C1 efficacy are different among various C1-regulated genes. Thus, expression of Bof by P1 prophages affects some genes (e.g., bac-1 ban) positively, and others (e.g., ref) negatively. Even at bac-1 ban, where the positive indirect effect of Bof is physiologically dominant, Bof can be seen to act as a corepressor if C1 is supplied from a nonautoregulated (ptac-c1) source, eliminating the effect of Bof on C1 synthesis.     

ESCHERICHIA COLI Gene Induction by Alkylation Treatment

Searches for alkylation-inducible (aid) genes of Escherichia coli have been conducted by screening random fusions of the Mu-dl(ApR lac) phage for fusions showing increased beta-galactosidase activity after treatment with methylating agents, but not after treatments with UV-irradiation. In this report we describe gene fusions that are specifically induced by alkylation treatments. Nine new mutants are described, and their properties are compared with the five mutants described previously. The total of 14 fusion mutants map at five distinct genetic loci. They can be further subdivided on the basis of their induction by methyl methanesulfonate (MMS) and N-methyl-N' -nitro-N-nitrosoguanidine (MNNG). alkA, aidB and aidD are induced by both agents and appear to be regulated by ada. Neither aidC nor aidI is regulated by ada. Moreover, since aidC is induced only by MNNG and aidI is induced only by MMS, these two genes are likely to be individually regulated. Thus, there appear to be at least three different regulatory mechanisms controlling aid genes.     

Influence of oxygen tension on apoptosis and hatching in bovine embryos cultured in vitro

Various oxygen tensions are employed for in vitro embryo production. Since it is known that oxygen tension can influence the efficiency of embryo production and embryo quality, the aim of our study was to define an optimal oxygen concentration for bovine embryo production in vitro in synthetic oviduct fluid (SOF). Embryo quality criteria were hatching ability and the degree of apoptosis as assessed by TUNEL staining and Bax gene expression. In Experiment 1, the effects of 2, 5 and 20% O(2) tensions on embryo development were compared. The highest rate of eight-cell embryos (47%) at 72 hpi was obtained under 20% O(2). However, it seemed that 2 and 5% O(2) were also suitable as assessed by embryo survival rates at 144 hpi (29 and 30% at morula stage), 168 hpi (21 and 19% at blastocyst stage) and 216 hpi (14 and 17% at hatched blastocyst stage). In Experiment 2, comparisons were made between effects of 5, 20% and alternating O(2) (20% O(2) to 72 hpi and then changed to 5% O(2) up to 216 hpi) on embryo development. Alternating the O(2) tension significantly reduced the number of hatching blastocysts to 7%. Staining with TUNEL revealed that apoptosis occurred in all tested hatched blastocysts, but a significantly lower apoptotic cell ratio was found in embryos cultured under 5% O(2) (P<0.05). Total cell number of embryos cultured under 5% and alternating oxygen was significantly higher than that of other groups (P<0.05). Bax gene expression was detected by means of RT-PCR in only 2 of 66 hatched blastocysts. It can be concluded that 5% oxygen is optimal for bovine embryo culture in cell free media. Moreover, it is very likely that the apoptosis detected by TUNEL staining in this study is Bax-independent.     

appA, a novel gene encoding a trans-acting factor involved in the regulation of photosynthesis gene expression in Rhodobacter sphaeroides 2.4.1.

A new gene, the product of which is involved in the regulation of photosynthesis gene expression in the anoxygenic photosynthetic bacterium Rhodobacter sphaeroides 2.4.1, has been identified. The isolation of this gene, designated appA (activation of photopigment and puc expression), was based on its ability, when provided in extra copies, to partially suppress mutations in the two-component PrrB-PrrA regulatory system. The presence of extra copies of the appA gene in either prrB, prrA, or wild-type strains resulted in an activation of puc::lacZ expression under aerobic conditions. Constructed AppA null mutants did not grow photosynthetically and were impaired in the synthesis of both bacteriochlorophyll and carotenoids, as well as the structural proteins of the photosynthetic spectral complexes. When grown anaerobically in the dark, these mutants accumulated bacteriochlorophyll precursors. The expression of lacZ fusions to several photosynthesis genes and operons, including puc, puf, and bchF, was decreased in the AppA mutant strains in comparison with the wild type. To examine the role of AppA involvement in bacteriochlorophyll biosynthesis, we inactivated an early gene, bchE, of the bacteriochlorophyll pathway in both wild-type and AppA- mutant backgrounds. The double mutant, AppA- BchE-, was found to be severely impaired in photosynthesis gene expression, similar to the AppA- BchE+ mutant and in contrast to the AppA+ BchE- mutant. This result indicated that AppA is more likely involved in the regulation of expression of the bch genes than in the biosynthetic pathway per se. The appA gene was sequenced and appears to encode a protein of 450 amino acids with no obvious homology to known proteins.     

Distinct control sites located upstream from the levansucrase gene of Bacillus subtilis

The sacR regulatory region, which modulates the expression of sacB, the structural gene for levansucrase, was separated into two parts: an upstream region which carries a constitutive promoter and a downstream region which carries a palindromic structure. Three types of fusions were constructed in which the aphA3 gene coding for kanamycin resistance of Streptococcus faecalis was placed downstream from different deleted sacR regions. Other fusions were constructed by inserting a promoter from phage SPO1 upstream from the sacB gene and part of the sacA region. A third kind of fusion was constructed in which the palindromic structure was flanked by a heterologous promoter and a heterologous structural gene. After introduction of these fusions into the chromosomal DNA of mutants affected in sacB regulation, it was possible to reveal different targets for the regulatory genes sacU, sacQ and sacS: the sacU and sacQ genes act on a region located near or just upstream from the promoter, and the sacS gene, which is involved in the induction process, acts on the palindromic structure.