On the mutagenic action of nitrous acid on Haemophilus influenzae transforming DNA

Summary The induction of thymineless mutants by nitrous acid treatment of native and denatured H. influenzae transforming DNA has been compared. As for the induction of antibiotic resistant mutants, only the treatment of the denatured DNA ist mutagenic.     

Inactivation of transfecting DNA by physical and chemical agents: influence of genotypes of phage lambda and host cells

Inactivation of λ₁₁c and its purified DNA by UV irradiation, γ-rays of ¹³⁷Cs (in conditions of indirect action), nitrous acid, hydroxylamine and N-methyl-N′-nitro-N-nitrosoguanidine (MNNG) was studied. The biological activity of isolated phage DNA was measured by the calcium transfection procedure. 14 different recipient strains of Escherichia coli K12 were used, including mutants deficient in excision and recombination repair (uvrA6, uvrB5, uvrC34, polA1, recA13, recC38, recD34, recA13B21C22, recA56uvrA6, exrA and recB21C22sbcB15).Whole phage was more resistant to the action of γ-rays than was isolated DNA. On the other hand, the chemical agents HNO₂ and MNNG inactivated phage much faster than isolated DNA. Of all mutations of the host cell only polA1 considerably increased the sensitivity of phage DNA to UV irradiation, γ-rays and MNNG. The mutations uvr^? affected the inactivation kinetics under UV action. In all other cases the genotype of the host cell was indifferent for the inactivation kinetics of phage DNA, even if it belonged to recombination deficient mutant λ red3 int6 (in which only UV and γ inactivation was studied). Possible reasons for the low efficiency of the host-cell repair toward the damage caused to λ DNA by different agents are discussed.     

The stability of deoxycytidine photohydrates in the mononucleotide, oligodeoxynucleotides and DNA

The stability of deoxycytidine photohydrates was determined for deoxycytidylic acid and deoxycytidine residues in oligodeoxynucleotides by optical measurements and in native and denatured DNA by a chemical assay. The half lives at 20° in $\text{10}{}^{\mathrm{?2}}\text{M}$ tris buffer, pH 7.7, were 102 min. for the mononucleotide, 128 min. for dpApGpG, 152 min. for MeOdpTpCpA, 51 min. for denatured $\text{E}\text{.}\text{coli}\text{DNA and 58 min. for native}\text{E}\text{.}\text{coli}$ DNA (at pH 8.1). It is concluded that the stability of deoxycytidine photohydrates is sufficient that they cannot at present be dismissed as lesions of possible biological importance in ultraviolet irradiated cells.     

Nitrous acid induced damage in T7 DNA and phage

T7 phage was exposed to 56 mM nitrous acid at pH 4.6 causing a 90% decrease in survival for each 10 min duration of exposure. The survival of phage made by encapsulating nitrous acid treated DNA into empty phage heads was nearly the same as the survival of phage exposed to nitrous acid in vivo. In contrast to previous reports, growth of SOS-induced wild-type E. coli showed no increase in survival. The survival of nitrous acid treated phage was not lowered when grown on E. coli strains deficient in DNA polymerase I, exonuclease III, and the uvrA component of the nucleotide excision-repair endonuclease. Therefore, these enzymes are not vital for repair of nitrous acid induced damage in bacteriophage T7.     

The catalytic subunit DNA-dependent protein kinase (DNA-PKcs) facilitates recovery from radiation-induced inhibition of DNA replication

Exposure of cells to ionizing radiation inhibits DNA replication in a dose-dependent manner. The dose response is biphasic and the initial steep component reflects inhibition of replicon initiation thought to be mediated by activation of the S-phase checkpoint. In mammalian cells, inhibition of replicon initiation requires the ataxia telagiectasia mutated (ATM) gene, a member of the phosphatidyl inositol kinase-like (PIKL) family of protein kinases. We studied the effect on replicon initiation of another member of the PI-3 family of protein kinases, the catalytic subunit of DNA-dependent protein kinase (DNA-PKcs) by measuring either total DNA synthesis, or size distribution of nascent DNA using alkaline sucrose gradient centrifugation. Exposure of human cells proficient in DNA-PKcs (HeLa or M059-K) to 10 Gy inhibited replicon initiation in a time-dependent manner. Inhibition was at a maximum 1 h after irradiation and recovered at later times. Similar treatment of human cells deficient in DNA-PKcs (M059-J) inhibited replicon initiation to a similar level and with similar kinetics; however, no evidence for recovery, or only limited recovery, was observed for up to 8 h after irradiation. In addition a defect was observed in the maturation of nascent DNA. Similarly, a Chinese hamster cell line deficient in DNA-PKcs (irs-20) showed little evidence for recovery of DNA replication inhibition up to 6 h after irradiation, whereas the parental CHO cells showed significant recovery and an irs-20 derivative expressing the human DNA-PKcs complete recovery within 4 h. Normal kinetics of recovery were observed in xrs-5 cells, deficient in Ku80; in 180BR cells, deficient in DNA ligase IV; as well as XR-1 cells, deficient in XRCC4, an accessory factor of DNA ligase IV. Since all these cell lines share the DNA double strand break rejoining defect of M059-J and irs20 cells, the lack of recovery of DNA replication in the latter cells may not be attributed entirely to the prolonged presence of unrepaired DNA dsb. We propose that DNA-PKcs, in addition to its functions in the rejoining of DNA dsb and in DNA replication, also operates in a pathway that in normal cells facilitates recovery of DNA replication after irradiation.     

Expression of a Thermomonospora fusca Cellulase Gene in Streptomyces lividans and Bacillus subtilis

A cellulase gene from Thermomonospora fusca coding for endocellulase E₅ was introduced into Streptomyces lividans by using shuttle plasmids that can replicate in either S. lividans or Escherichia coli. Plasmid DNA isolated from E. coli was used to transform S. lividans, selecting for thiostrepton resistance. The transformants expressed and excreted the endocellulase, but the ability to produce the endocellulase was unstable. This instability was shown to result from deletion of the endocellulase gene from the plasmid. Plasmid DNA prepared from a culture in which plasmid modification had occurred was used to transform E. coli, selecting for Amp⁺ cells, and all of the transformants were cellulase positive, showing that pBR322 and T. fusca DNA were deleted together. When a plasmid was constructed containing only T. fusca DNA in plasmid pIJ702, the transformants were more stable, and the level of endocellulase activity produced in the culture supernatant after growth on 0.2% glucose was close to the level produced by T. fusca cultures grown on 0.2% cellulose. About 50% of the total protein in the culture supernatant of the S. lividans transformant was endocellulase E₅. The enzyme produced by the S. lividans transformant was identical to pure T. fusca E₅ in its electrophoretic mobility and was completely inhibited by antiserum to E₅. Shuttle plasmids containing the E₅ gene that could replicate in Bacillus subtilis and E. coli were also constructed and used to transform B. subtilis. Again there was extensive deletion of the plasmid DNA during transformation and growth in B. subtilis. There was no evidence of E₅ activity, even in those B. subtilis transformants that retained the E₅ gene.     

The effects of long-term estrogen exposure on the induction of sexual behavior and measurements of brain estrogen and progestin receptors in the female rat

The purpose of this study was to investigate long-term effects of estradiol-17β (E₂) on sexual receptivity and to study the molecular basis for estrogen potentiated changes in receptivity. We therefore examined the long-term effects of E₂ on E₂ and progestin receptors in the hypothalamus-preoptic area-septum (HPS) and pituitary (PIT) of the female rat. Twenty-one days following ovariectomy, females received a 5-mm Silastic capsule of E₂ or cholesterol (C) for 1 week (pretreatment). Some animals were sacrificed for chemical analyses (i). The remainder had their capsules removed and 5 days later these animals either were sacrificed for chemical analyses (ii), or received E₂ (reimplantation). Forty-six hours after reimplantation, females either were sacrificed for chemical analyses (iii), or were tested for receptivity. When tested with sexually active males or by a manual stimulation method, animals pretreated with E₂ showed significantly better lordosis scores than animals pretreated with C. The tests for lordosis were carried out after administration of E₂ or E₂ + P to all subjects tested. During E₂ pretreatment, HPS and PIT cytosol progestin receptors increased significantly, while available estrogen receptor levels decreased significantly, as compared with C controls. Five days after E₂ pretreatment, HPS progestin receptor levels had decreased to the level observed in C controls, while PIT progestin receptors were slightly elevated. In HPS and PIT, levels of available E₂ receptor in E₂ and C pretreated animals were indistinguishable from each other. Neither the saturation capacity of the estrogen receptor nor the dissociation constant for binding [³H]E₂ was altered by E₂ pretreatment, as shown by Scatchard equilibrium analysis. Forty-six hours following E₂ reimplantation, progestin HPS and PIT receptor levels in E₂ and C pretreated animals were identical. Long-term potentiation of lordosis by E₂ does not result from a change in estrogen or progestin receptor dynamics in HPS of female rats.     

Methods for the determination of deoxyribonucleic Acid homologies in streptomyces

Variations of the membrane filter technique for deoxyribonucleic acid (DNA) hybridizations were studied with respect to Streptomyces species. At the temperatures required for specific hybridization of DNA with the high melting temperature (T_m) characteristic of Streptomyces, large amounts (up to 97%) of filter-bound DNA became eluted, in all reaction mixtures studied, within 21 hr. In most solutions this leaching was increased by the presence of sheared denatured DNA. Incubation of DNA-loaded filters in a solution of 50% formamide containing 6× standard saline citrate, at 48 C for 40 hr, was judged to be the best set of conditions tested based on relatively good retention of immobilized DNA, very low hybridization with unrelated DNA of a similarly high T_m (from Sarcina lutea), and the formation of complexes similar in thermal stability to the native DNA. The expression of results as sheared DNA bound in relation to long-chain DNA retained is recommended when a high concentration of sheared DNA relative to immobilized DNA is used.     

Efficacy of UV Irradiation in Inactivating Cryptosporidiumparvum Oocysts

To evaluate the effectiveness of UV irradiation in inactivating Cryptosporidium parvum oocysts, the animal infectivities and excystation abilities of oocysts that had been exposed to various UV doses were determined. Infectivity decreased exponentially as the UV dose increased, and the required dose for a 2-log₁₀ reduction in infectivity (99% inactivation) was approximately 1.0 mWs/cm² at 20°C. However, C. parvum oocysts exhibited high resistance to UV irradiation, requiring an extremely high dose of 230 mWs/cm² for a 2-log₁₀ reduction in excystation, which was used to assess viability. Moreover, the excystation ability exhibited only slight decreases at UV doses below 100 mWs/cm². Thus, UV treatment resulted in oocysts that were able to excyst but not infect. The effects of temperature and UV intensity on the UV dose requirement were also studied. The results showed that for every 10°C reduction in water temperature, the increase in the UV irradiation dose required for a 2-log₁₀ reduction in infectivity was only 7%, and for every 10-fold increase in intensity, the dose increase was only 8%. In addition, the potential of oocysts to recover infectivity and to repair UV-induced injury (pyrimidine dimers) in DNA by photoreactivation and dark repair was investigated. There was no recovery in infectivity following treatment by fluorescent-light irradiation or storage in darkness. In contrast, UV-induced pyrimidine dimers in the DNA were apparently repaired by both photoreactivation and dark repair, as determined by endonuclease-sensitive site assay. However, the recovery rate was different in each process. Given these results, the effects of UV irradiation on C. parvum oocysts as determined by animal infectivity can conclusively be considered irreversible.     

A nonalkaline method for isolating sequencing-ready plasmids

We describe a simple method of isolating plasmid DNA directly from Escherichia coli culture medium by addition of lithium acetate and Sodium dodecyl sulphate, followed by centrifugation and alcohol precipitation. The plasmid is sufficiently pure that it can be used in many enzyme-based reactions, including DNA sequencing and restriction analysis. Chromosomal DNA contamination is significantly reduced by pretreatment of the culture with DNase I, suggesting that much of the contaminant is associated with permeable dead cells. Chromosomal DNA contaminant can also be selectively denatured without damage to the supercoiled plasmid by alkaline denaturation in an arginine buffer or heat treatment in the presence of urea or N,N-dimethylformamide.     

Underwound loops in self-renatured DNA can be diagnostic of inverted duplications and translocated sequences

DNA that contains inverted duplications separated by non-inverted sequences often can form characteristic “underwound loops” when it is denatured and reannealed. An underwound loop is a partially double-stranded, partially denatured segment between the inverted duplications and is produced as follows. During the early stages of the reannealing, intrastrand stem-loop structures form with first-order kinetics when the inverted duplications pair. In a slower second-order reaction, complementary strands (each with a stem-loop) reanneal. The stem-loop structures produce a cruciform in the hybrid. Because of the unpaired sequences in the loop, the cruciform is unstable. It can isomerize to a linear duplex by double-strand exchange of complementary sequences in the stems. This process requires co-ordinated axial rotation of the stems and the flanking duplexes as well as rotation of the loops. If, however, complementary sequences in the loops start to pair, axial rotation is prevented and the stem-loop structures are trapped in a metastable state. The strands of separate, closed rings cannot interwind when they pair. Consequently, the loops observed by electron microscopy have variable patterns of single-stranded denaturation bubbles and duplex segments with both right-handed and left-handed winding.We have used underwound loops to identify a short inverted duplication flanking the γδ recombination sequence of Escherichia coli F factor (isolated on φ80 d₃ilv⁺ transducing phage) and to study DNA from phages Mu and P1 in which the G segments are flanked by inverted duplications. When deproteinized adenovirus-2 DNA was denatured and reannealed, some underwound circles the length of the entire chromosome were observed by electron microscopy. These resulted from the restricted interaction of complementary single-stranded rings generated when pairing of the short inverted terminal duplications closed the ends of single strands. Another type of underwound loop was seen in heteroduplexes containing complementary insertion loops located at different positions in the hybridized strands, such as occurs with P1 cam DNAs. All these underwound structures are similar in appearance to the hybrids formed when topologically separate, complementary single-stranded circles of Colicin E₁ DNA were allowed to anneal.     

Response of transpiration to rain pulses for two tree species in a semiarid plantation

Responses of transpiration (E _c) to rain pulses are presented for two semiarid tree species in a stand of Pinus tabulaeformis and Robinia pseudoacacia. Our objectives are to investigate (1) the environmental control over the stand transpiration after rainfall by analyzing the effect of vapor pressure deficit (VPD), soil water condition, and rainfall on the post-rainfall E _c development and recovery rate, and (2) the species responses to rain pulses and implications on vegetation coverage under a changing rainfall regime. Results showed that the sensitivity of canopy conductance (G _c) to VPD varied under different incident radiation and soil water conditions, and the two species exhibited the same hydraulic control (?dG _c/dlnVPD to G _cref ratio) over transpiration. Strengthened physiological control and low sapwood area of the stand contributed to low E _c. VPD after rainfall significantly influenced the magnitude and time series of post-rainfall stand E _c. The fluctuation of post-rainfall VPD in comparison with the pre-rainfall influenced the E _c recovery. Further, the stand E _c was significantly related to monthly rainfall, but the recovery was independent of the rainfall event size. E _c enhanced with cumulative soil moisture change (ΔVWC) within each dry–wet cycle, yet still was limited in large rainfall months. The two species had different response patterns of post-rainfall E _c recovery. E _c recovery of P. tabulaeformis was influenced by the pre- and post-rainfall VPD differences and the duration of rainless interval. R. pseudoacacia showed a larger immediate post-rainfall E _c increase than P. tabulaeformis did. We, therefore, concluded that concentrated rainfall events do not trigger significant increase of transpiration unless large events penetrate the deep soil and the species differences of E _c in response to pulses of rain may shape the composition of semiarid woodlands under future rainfall regimes.     

Novel repair activities of AlkA (3-methyladenine DNA glycosylase II) and endonuclease VIII for xanthine and oxanine,guanine lesions induced by nitric oxide and nitrous acid

Nitrosation of guanine in DNA by nitrogen oxides such as nitric oxide (NO) and nitrous acid leads to formation of xanthine (Xan) and oxanine (Oxa), potentially cytotoxic and mutagenic lesions. In the present study, we have examined the repair capacity of DNA N-glycosylases from Escherichia coli for Xan and Oxa. The nicking assay with the defined substrates containing Xan and Oxa revealed that AlkA [in combination with endonuclease (Endo) IV] and Endo VIII recognized Xan in the tested enzymes. The activity (V_max/K_m) of AlkA for Xan was 5-fold lower than that for 7-methylguanine, and that of Endo VIII was 50-fold lower than that for thymine glycol. The activity of AlkA and Endo VIII for Xan was further substantiated by the release of [³H]Xan from the substrate. The treatment of E.coli with N-methyl-N′-nitro-N-nitrosoguanidine increased the Xan-excising activity in the cell extract from alkA⁺ but not alkA^– strains. The alkA and nei (the Endo VIII gene) double mutant, but not the single mutants, exhibited increased sensitivity to nitrous acid relative to the wild type strain. AlkA and Endo VIII also exhibited excision activity for Oxa, but the activity was much lower than that for Xan.     

The termini of bacteriophage T7 DNA

The termini of Escherichia coli phage T7 DNA have been labeled with ³²P by the polynucleotide kinase reaction. The DNA was fragmented, denatured, and annealed to denatured T7 DNA embedded in agar; elution was measured as a function of temperature. The terminal fragments were eluted from the gel at temperatures well below that of the bulk of the DNA, suggesting that these regions have a very high adenine-plus-thymine content. However, when DNA doubly labeled throughout at random by growth of the phage in [³H]thymidine and ³²PO₄, was denatured, annealed to the gel, and eluted as a function of temperature, the material eluting from the gel in this low-temperature range was about 50% adenine and thymine. Hence the melting behavior of the terminal fragments is not a result of a high adenine plus thymine content. By electrophoretic analysis of exonucleolytic digests of the T7 DNA it was shown that no unusual bases were present. It is suggested that the low thermal stability of the annealed terminal fragments is a consequence of the high guanine·cytosine regions being unavailable for hybridization, possibly because they are involved in intra-strand hydrogen bonding.     

Cloning and Expression of Phytase appA Gene from Shigella sp. CD2 in Pichia pastoris and Comparison of Properties with Recombinant Enzyme Expressed in E. coli

The phytase gene appA_S was isolated from Shigella sp. CD2 genomic library. The 3.8 kb DNA fragment contained 1299 bp open reading frame encoding 432 amino acid protein (AppA_S) with 22 amino acid signal peptide at N-terminal and three sites of N-glycosylation. AppA_S contained the active site RHGXRXP and HDTN sequence motifs, which are conserved among histidine acid phosphatases. It showed maximum identity with phytase AppA of Escherichia coli and Citrobacter braakii. The appA_S was expressed in Pichia pastoris and E. coli to produce recombinant phytase rAppA_P and rAppA_E, respectively. Purified glycosylated rAppA_P and nonglycosylated rAppA_E had specific activity of 967 and 2982 U mg^-1, respectively. Both had pH optima of 5.5 and temperature optima of 60°C. Compared with rAppA_E, rAppA_P was 13 and 17% less active at pH 3.5 and 7.5 and 11 and 18% less active at temperature 37 and 50°C, respectively; however, it was more active at higher incubation temperatures. Thermotolerance of rAppA_P was 33% greater at 60°C and 24% greater at 70°C, when compared with rAppA_E. Both the recombinant enzymes showed high specificity to phytate and resistance to trypsin. To our knowledge, this is the first report on cloning and expression of phytase from Shigella sp.     

On the hydration of DNA. I. Preferential hydration and stability of DNA in concentrated trifluoroacetate solution

The hydration of DNA is an important factor in the stability of its secondary structure. Methods for measuring the hydration of DNA in solution and the results of various techniques are compared and discussed critically. The buoyant density of native and denatured T-7 bacteriophage DNA in potassium trifluoroacetate (KTFA) solution has been measured as a function of temperature between 5 and 50°C. The buoyant density of native DNA increased linearly with temperature, with a dependence of (2.3 ± 0.5) × 10^?4 g/cc-°C. DNA which has been heat denatured and quenched at 0°C in the salt solution shows a similar dependence of buoyant density on temperature at temperatures far below the T_m, and above the T_m. However, there is an inflection region in the buoyant density versus T curve over a wide range of temperatures below the T_m. Optical density versus temperature studies showed that this is due to the. inhibition by KTFA of recovery of secondary structure on quenching. If the partial specific volume is assumed to be the same for native and denatured DNA, the loss of water of hydration on denaturation is calculated to be about 20% in KTFA at a water activity of 0.7 at 25°C. By treating the denaturation of DNA as a phase transition, an equation has immmi derived relating the destabilizing effect of trifluoroacetate to the loss of hydration on denaturation. The hydration of native DNA is abnormally high in the presence of this anion, and the loss of hydration on denaturation is greater than in CsCl. In addition, trifluoroacetate appears to decrease the ΔHof denaturation.     

Characterization of Deoxyribonucleic Acids from Streptomycetes and Nocardiae

The relationships among selected streptomycetes, nocardiae, and mycobacteria have been determined, based upon the base composition of their deoxyribonucleic acid (DNA) and upon the ability of their denatured DNA to anneal with single-stranded reference DNA. The streptomycetes constituted a homogeneous group whose DNA contained between 69 and 73 mole% guanine + cytosine (% GC). Moreover, the streptomycetes examined showed 37 to 88% homology with the Streptomyces venezuelae and S. rimosus reference DNA. The nocardial and mycobacterial DNA both contained 62 to 69% GC. The nocardial strains studied fell into either a 62 to 64% GC group or a 68 to 69% GC group, indicating that they should not be assigned to a single species. The nocardiae having 68 to 69% GC showed 24 to 44% homology with S. venezuelae reference DNA. In competition experiments, wherein unlabeled heterologous DNA interfered with binding of labeled homologous DNA, the nocardial DNA with 68 to 69% GC showed a greater degree of homology with the streptomycetes than did the nocardial DNA with 62 to 64% GC. In addition, the DNA from spores of S. venezuelae was cursorily examined, and interactions between S. venezuelae denatured DNA and polyribonucleotides were sought. The buoyant density of the DNA from S. venezuelae spores was distinctly less than that from mycelia. Moreover, denatured S. venezuelae DNA formed a dense complex with polyriboguanylate.     

Synthesis and biological activity of hydroxylated derivatives of linoleic acid and conjugated linoleic acids

Allylic hydroxylated derivatives of the C18 unsaturated fatty acids were prepared from linoleic acid (LA) and conjugated linoleic acids (CLAs). The reaction of LA methyl ester with selenium dioxide (SeO₂) gave mono-hydroxylated derivatives, 13-hydroxy-9Z,11E-octadecadienoic acid, 13-hydroxy-9E,11E-octadecadienoic acid, 9-hydroxy-10E,12Z-octadecadienoic acid and 9-hydroxy-10E,12E-octadecadienoic acid methyl esters. In contrast, the reaction of CLA methyl ester with SeO₂ gave di-hydroxylated derivatives as novel products including, erythro-12,13-dihydroxy-10E-octadecenoic acid, erythro-11,12-dihydroxy-9E-octadecenoic acid, erythro-10,11-dihydroxy-12E-octadecenoic acid and erythro-9,10-dihydroxy-11E-octadecenoic acid methyl esters. These products were purified by normal-phase short column vacuum chromatography followed by high-performance liquid chromatography (HPLC). Their chemical structures were characterized by liquid chromatography-mass spectrometry (LC-MS) and nuclear magnetic resonance spectroscopy (NMR). The allylic hydroxylated derivatives of LA and CLA exhibited moderate in vitro cytotoxicity against a panel of human cancer cell lines including chronic myelogenous leukemia K562, myeloma RPMI8226, hepatocellular carcinoma HepG2 and breast adenocarcinoma MCF-7 cells (IC₅₀ 10-75 μM). The allylic hydroxylated derivatives of LA and CLA also showed toxicity to brine shrimp with LD₅₀ values in the range of 2.30-13.8 μM. However these compounds showed insignificant toxicity to honeybee at doses up to 100 μg/bee.     

Electrochemical approach to the mechanism of urea denaturation of horse heart cytochrome c

The effect of urea denaturation on the electroactivity of horse heart cytochrome c has been studied by differential pulse polarography and cyclic voltammetry at a gold electrode; the gold electrode was activated by 4,4'-bipyridine. Essentially, two redox couples with E₀₁ ≈ 0.25 V and E'_oz ≈ ?0.05 V (vs. normal hydrogen electrode) have been detected. The experimental results have been interpreted on the basis of the existence of equilibria between native and denatured electroactive forms; transitory species have been assumed to appear on reduction. The scheme that we have proposed agrees well with the conclusions obtained previously by other authors on conformational changes. Moreover, the advantage of electrochemical techniques in investigating the denaturation process has been underlined.