Increase in DNA replication sites in cells held at the beginning of S phase

CHO cells were pulse labeled with ³H-thymidine after synchronization and blockage at the beginning of S phase for various intervals. The distribution of initiation sites for DNA replication and rates of chain growth were measured in autoradiographs prepared from these cells. Origins used for replication are widely distributed at or near the beginning of S phase, but usable origins increase continuously for many hours when FdU is used to block the synthesis of thymidylate. Potential origins are located about four microns apart, but in normal replication in these fibroblasts only one in 15 to 20 potential origins are used for initiation. On the other hand, when cells are held at the beginning of S phase for 12–14 h, about one-half of the potential origins are activated in part of the DNA and utilized when the cell is released from the block by supplying ³H-thymidine (10^–6M). Chain growth during a short pulse decreases with time of the blockage at what appears to be a linear rate. However, cells can replicate long continuous stretches of their DNA with only 2×10^–8M thymidine available in the medium for several hours when synthesis is blocked by FdU. The total amount of DNA replicated is, however, much less than when a concentration of 10^–6 M thymidine is supplied for the same period. The origins which are finally used under any experimental condition appear to be a random sample of the total potential origins which are distributed in a regular repeating sequence along the DNA at about 12 kilobase intervals.     

Estimation of DNA fork displacement rates from isolated mammalian chromosomes

Chromosomes were isolated from Chinese hamster ovary cells that had been pulse-labeled with ³H-thymidine and bromodeoxyuridine and allowed to proceed to metaphase in the presence of colcemid. The chromosomes were then irradiated with 313 nm light and the length of the pulse-labeled DNA segments was estimated by the distribution of ³H-DNA in alkaline sucrose gradients. The average rate of fork displacement, calculated from this measurement, was 0.9 m/min, which was in excellent agreement with measurements from interphase cells. By the same method, hydroxyurea was shown to retard DNA chain growth by 50–60% in both isolated chromosomes and interphase cells.     

Response of maize and rice to 9-β-L(+) adenosine applied under different environmental conditions

The increase in growth, determined by dry weight gain, of rice (Oryza sativa L.) and maize (Zea mays L.) caused by foliar applications of 9--L(+) adenosine, a putative second messenger elicited by triacontanol, was studied under different environmental conditions. Maize seedlings cultured in the greenhouse under approximately 100 mol m^–2s^–1 of light prior to treatment with L(+) adenosine did not respond unless they received supplemental light (250–300 mol m^–2s^–1) after treatment. Exposure of rice seedlings growing for 16 h at 150 mol m^–2s^–1 to short periods of 450 mol m^–2s^–1 (< than 20 min) had no effect on the positive response of rice to L(+) adenosine; however, exposure for 60 min or more increased the growth of rice and obviated the effect of L(+) adenosine. Rice seedlings treated with L(+) adenosine at different times during the day responded only when treated 9 to 12h after initiation of the photoperiod. Normal growing temperatures under different light intensities had little or no direct effect on the response of plants to L(+) adenosine.     

Effects of reovirus infection on the spatial and temporal organization of DNA replication in L cells

DNA fiber autoradiography was used to analyze the spatial and temporal organization of activated initiation sites for DNA replication in mouse L929 cells infected with reovirus type 3 (Dearing strain) and in uninfected control cells. Cells were labeled for 10 min with³H-thymidine at high specific activity followed by 3 h of low specific activity labeling. Reovirus infection causes no change in the rate of replication fork progression, but increases both the mean distance between activated initiation sites by 30% and the nonrandomness in the spatial distribution of the sites along the DNA fibers. Significant synchronization of initiation in adjacent activated sites was detected on DNA fibers from uninfected cells and from reovirusinfected cells. The mean relative initiation time for pairs of initiation events which had occurred prior to high specific activity labeling did not differ significantly between the infected and uninfected cells. The data are consistent with the interpretation that reovirus infection shuts off initiation sites in a coordinated fashion, possibly by preventing activation of entire clusters of potential initiation sites.     

Kinetics of replicon initiation during S phase of Chinese hamster ovary cells

Chinese hamster ovary (CHO) cells were synchronized by a thymidine-hydroxyurea block. At different times after release from the block, cells were treated with trioxsalen and long-wavelength ultraviolet light to crosslink DNA in vivo and were labelled with [³H]thymidine for 30 min. This technique permits labelling of only the short nescent DNA fragments initiated between crosslinks. The amount of radioactivity incorporated in these fragments during the labelling period reflects the number of replicon initiation events and allows us to follow the replicon initiation pattern after removing the inhibitor. It was shown that the rate of initiation was high at the beginning of S phase and then steadily decreased.     

Replication of DNA in mammalian chromosomes

DNA replication has been studied in cells (CHO) synchronized by mitotic selection from roller cultures. A study of the incorporation of ³H supplied as uridine indicates that cells cannot be blocked precisely at the beginning of the S phase, but DNA synthesis can be stopped in early S by treating with F-dU in G₁. After blockage potential initiation sites continue to increase at a linear rate for atleast 13 hours after division. Incorporation of ³H-thymidine begins at most of these sites within seconds after thymidine is supplied in the medium and incorporation continues at a linear rate for 20–24 minutes. There appears to be a pause after this interval before synthesis is resumed at about two times the initial rate. ³H-bromodeoxyuridine can be substituted for thymidine without affecting the kinetic pattern over a similar period. The increased rate is probably an increase in sites of chain growth rather than a change in rate of chain growth. A study of the labeled DNA segments by band sedimentation in a preformed NaClO₄ isokinetic gradient shows that two distinctly different sized segments can be released from the chromosomes by lysis at submelting conditions. One is the previously reported single chain segments averaging about one-half micron in length, but the other is a much larger segment (26S) which is native DNA with perhaps small regions of single chains presumably at the ends. Primarily single chain DNA is released after 1–2 minute pulse labeling, but after 2 minutes the larger segments (26S) contain most of the newly formed DNA except that attached to the chains of the major part of the template DNA which exhibits a discontinuous distribution, sedimenting far faster than either newly replicated segment. A consideration of the kinetics of formation of the 26S component indicates that is may contain the replicating fork. If this proves to be the correct interpretation the template chains would both have non-adjacent nicks preceeding the fork and also in a post-fork site at a mean distance of about 2 microns in both directions. The isolation of the growing points of DNA replication in chromosomes is now possible and the study of properties of the newly replicated regions should be greatly facilitated.     

Xanthophyll cycle activity in detached barley leaves senescing under dark and light

Senescence-induced changes in the xanthophyll cycle activity and chlorophyll (Chl) fluorescence parameters were compared in detached barley (Hordeum vulgare L.) leaf segments kept for 6 d in darkness or under continuous white light (90 mol m^–2 s^–1). Before detachment of the leaf segments, the plants were grown at periodic regime [12 h light (90 mol m^–2 s^–1)/12 h dark]. The de-epoxidation state of the xanthophyll cycle pigments (DEPS) in the leaf samples was determined immediately (the actual DEPS), after 1 h of dark-adaptation (the residual DEPS), and during 14 min of a high-irradiance (HI) exposure (500 mol m^–2 s^–1) (HI-induced DEPS). In the light-senescing segments, senescence was delayed pronouncedly compared to dark-senescing ones as the Chl content, the photosystem 2 photochemistry, and electron transport processes were highly maintained. Further, the actual DEPS increased, probably due to the increased mean photon dose. The HI-induced increase in the DEPS was stimulated in the light-senescing segments, whereas it was slowed down in the dark-senescing ones. However, after the 14 min HI-exposure of the dark-senescing segments the HI-induced DEPS was not markedly lower than in the mature leaves, which indicated the maintenance of the xanthophyll cycle operation.     

Somatic embryogenesis in loblolly pine (<Emphasis Type="Italic">Pinus taeda</Emphasis>) and Douglas fir (<Emphasis Type="Italic">Pseudotsuga menziesii</Emphasis>): improving culture initiation and growth with MES pH buffer,biotin, and folic acid

Loblolly pine (Pinus taeda L.) somatic embryogenesis initiation was improved by supplementing the initiation medium with the pH buffer agent 2(n-morpholino)ethanesulphonic acid (MES) at 250 mg l^–1, folic acid at 0.5 mg l¹, and biotin at 0.05 mg l^–1. MES and vitamins increased the percentage of explants with extruded tissue that continued the initiation process to form embryogenic tissue. The increase in initiation was about 12%. Initiation of 12 open-pollinated families averaged 38.5%, which is 16% higher than initiation on medium without these additives. When tested with 18 control-pollinated families, initiation averaged 26.3%. Basal medium contained a combination of modified 1/2 P6 salts, activated carbon (AC) at 50 mg ^–1, Cu and Zn adjusted to compensate for adsorption by AC, 1.5% maltose, 2% myo-inositol, 500 mg l^–1 casamino acids, 450 mg l^–1 glutamine, 2 mg l^–1 NAA, 0.63 mg l^–1 BAP, 0.61 mg l^–1 kinetin, 3.4 mg l^–1 silver nitrate, 10 M 8-Br-cGMP, 0.1 M brassinolide, and 2 g l^–1 Gelrite. Early-stage embryo growth and initiation in Douglas-fir (Pseudotsuga menziesii (Mirb.) Franco) were also improved in the presence of these additives.     

An electrochemical analysis of changes in properties of DNA caused by ionizing and ultraviolet radiations

Summary Electrooxidation and electroreduction of- and u.v.-irradiated DNA were studied by means of differential pulse voltammetry at the graphite electrode and differential pulse polarography at the dropping mercury electrode. Two separated voltammetric oxidation peaks G and A were used for monitoring conformational changes in guanine - cytosine (GC) and adenine - thymine (AT) pairs respectively in irradiated double-stranded (ds) DNA. Pulse-polarography reduction peak III was used for detection of denatured DNA in the irradiated samples of ds DNA. It was found that the heights of peaks G and A of ds DNA did not change with the radiation dose after relatively low doses of- and u.v.-radiations (up to ca. 40 krads and 1 × 10⁴ Jm^–2, respectively), when no single-stranded (ss) DNA was detected in the irradiated DNA samples. After higher doses of radiation the occurrence of ss DNA or ss segments in the irradiated samples of ds DNA was accompanied by an increase of peaks G and A; however, peak A grew more rapidly with the increasing dose than peak G. It was concluded that the results obtained support the assumption, according to which regions of ds DNA rich in AT pairs are more susceptible to denaturation caused by- and u.v.-radiations.This dose concerns the DNA solution at a concentration of 600 µg/ml^–1     

DNA replication in soybean protoplasts and suspension-cultured cells: Comparison of exponential and fluorodeoxyuridine synchronized cultures

Cell-suspension cultures of soybean (Glycine max (L.) Merr., line SB-1) have been used to study DNA replication. Cells or protoplasts incorporate either radioactive thymidine or 5-bromodeoxyuridine (BUdR) into DNA. The DNA has been extracted as large molecules which can be visualized by autoradiography. Nuclei were isolated and lysed on slides thus avoiding degradation of DNA by a cytoplasmic endonuclease. The autoradiograms demonstrated that DNA synthesis occurs at several sites tandemly arranged on single DNA molecules separated by center to center distances ranging from 10 to 30 m. Velocity sedimentations through alkaline gradients confirm the lengths of the replicated regions seen in autoradiograms. By using velocity sedimentation it also has been possible to demonstrate that replication proceeds by the synthesis of very small (4–6S) DNA intermediates which join to form the larger, replicon-size pieces seen in autoradiograms. Both small (4–6S) and large (20–30S) intermediates are observed in synchronized and exponential cultures. However, after synchronization with fluorodeoxyuridine (FUdR) the rate of DNA synthesis is reduced. Since the size of intermediates is not reduced by FUdR treatment, it is concluded that the slower rate of replication results from a reduction in the number of tandem replication units but not in the rate at which they are elongated. After FUdR treatment, the density analogue of thymidine, BUdR, can be substituted for almost all of the thymidine residue in DNA, resulting in a buoyant density increase (in CsCl) from 1.694 to 1.747 g/cm³. Using this density analogue it is possible to estimate the amount of template DNA attached to new replication sites. When this is done, it can be shown that synchronized cells initiate replication at about 5,000 different sites at the beginning of S. (Each such site will replicate to an average length of 20 m.) Use of BUdR also substantiates that at early stages of replication, very small replicated regions (<8S) exist which are separated by unreplicated segments of DNA which replicate at a later time. Most of these conclusions agree with the pattern of DNA replication established for animal cells. However, a major difference appears to be that after prolonged inhibition of soybean cell replication with FUdR, very small, as well as replicon-size intermediates accumulate when replication is restored. This indicates that regulation of replication in these cells may be different from animal cells.Abbreviations BUdR 5-Bromodeoxyuridine - FUdR 5-Fluorodeoxyuridine     

The organization of DNA segments undergoing repair synthesis during pachytene

DNA regions undergoing programmed repair synthesis during pachytene were isolated and used as a probe for analyzing the organization of these regions. Segments that are the sites of nick-repair activity are referred to as PsnDNA. These segments are distributed at intervals ranging from 30–350 kilobase pairs (kbp) within about half the genome. The other half of the genome, which consists of DNA molecules longer than 350 kbp under defined conditions of extraction, lacks these segments. PsnDNA sequences range in length from about 150–300 base pairs (bp) and are arranged in larger P.DNA units measuring 0.8–3.0 kbp. P.DNA units have three identifiable regions. Each end region consists of a PsnDNA sequence and the middle region contains sequences that do not share homology with PsnDNA and have a much lower repeat number. Pachytene nicking of PsnDNA sequences is polar with respect to the orientation of individual DNA strands. Most of the PsnDNA sequences are present at the 5 ends of the single strands generated in vivo by endonuclease action. Nicking is probably repeated at each PsnDNA site during early and midpachytene, and both members of a duplex are nicked within any single P.DNA region.     

DNA,RNA and protein synthesis in ØLL55-infected Lactobacillus lactis

Lactobacillus lactis cells were infected with the bacteriophage ØLL55. The changes in DNA, RNA and protein synthesis were studied by following a long-term (over 3 h) incorporation of radioactive precursors into acid-insoluble material. Stimulation of DNA synthesis caused by phage occurred 30–35 min after infection and thymidine incorporation continued for about 70 min ceasing 10–20 min before the cells started to lyse. Cumulative (¹⁴C)-uracil incorporation into RNA continued at the level of uninfected cells for 30–40 min before starting to slow up. Protein synthesis in the infected cells followed that of a control culture for 40–50 min before the further incorporation of (¹⁴C)-leucine began to decrease.The additions of antibiotic inhibitors of RNA and protein synthesis (rifampicin and chloramphenicol, respectively) at various times before or during the prereplicative period showed that rifampicin, added up to 15 min after infection and chloramphenicol, added as late as 20–25 min after infection completely prevented the initiation of phage-genome replication. The later addition of these drugs did not prevent the out-burst of thymidine up-take, but promoted, however, a deduction in the initiations of new replication cycles. The results indicate that certain genes of ØLL55 genome must be expressed at the early stages of infection to confirm a proper onset and continuation of phage DNA replication.Abbreviations Rif rifampicin - CAL chloramphenicol - TCA trichloroacetic acid - cpm counts per minute     

In vitro inhibition of HeLa cell nuclear ribonucleases by ADP-ribosylation

Regeneration of cilia in Tetrahymena cells treated with 1 µg/ml of 4,6-diamidino-2-phenylindole (DAPI) takes place about 30 min later then in untreated controls. Analysis of RNA isolated at 50-th min of reciliation, that is when the control cells – but not DAPI-treated ones — have just restored their motility, revealed that; –1. Two peaks of polyadenylated RNA were present in DAPI-treated cells as well as in the control ones; –2. The mobility of the polyadenylated RNA was the same in the two compared cell samples; –3. In wheat germ cell-free translational system these poly (A⁺)-RNA probably directed the synthesis of -and -tubulin; –4. The amount of polyadenylated RNA in compared cell samples was different, in DAPI-treated Tetrahymena its amount was estimated at 1.43% vs. 1.89% in control ones.     

Measurement of calcium fluxes in plants using 45Ca

This paper deals with the effect of calcium binding in the cell wall on the measured ⁴⁵Ca influx in Chara corallina Klein ex Will. esk. R.D. Wood. Calcium in the cell wall was in the range 687–1197 (mol · m^–2 compared to the sap which contained only 144–256 mol · m^–2. In dilute culture solutions the calcium content of the cell wall was relatively independent of external calcium at concentrations above about 0.1 mol · m^–3. The half-times for exchange of calcium from ⁴⁵Ca-labelled cell walls varied from 45 min at 0.05 mol · m^–3 to less than 2 min at 2 mol · m^–3. The effectiveness of other cations in displacing calcium from cell walls was in the order La > Zn > Co > Ni > Mg. Rinsing of ⁴⁵Ca-labelled cell walls in 2 mol · m^–3 LaCl₃ for 20 min removed more than 99% of the bound ⁴⁵Ca. However, the residual ⁴⁵Ca activity in isolated cell walls following La³⁺ rinsing was similar to that in whole cells. It is concluded that in whole cells ⁴⁵Ca influx cannot normally be distinguished from extracellular binding of calcium. Methods are described for the measurement of ⁴⁵Ca fluxes in charophyte cells by isolation of intracellular ⁴⁵Ca after the uptake period using techniques which avoid contamination from the large amount of tracer bound in the cell wall. At an external calcium concentration of 1 mol · m^–3, the plasmalemma influx was approx. 0.2 nmol · m^–2 · s^–1 of which about half entered the vacuole and half was effluxed back into the external solution. The cytoplasm filled with calcium with a half-time of 40–50 min with an apparent pool size of 50 mmol · m^–3. After 2 h the net flux to the cell was almost the same as the vacuolar flux. The fluxes reported are an order of magnitude lower than previously reported calcium fluxes in plants.Abbreviations APW artificial pond water This work was supported by the Australian Research Council. The authors wish to thank Patrick Kee for his skilful technical assistance and Professor E.A.C. MacRobbie, University of Cambridge, UK, and Dr. M. Tester for helpful discussions.     

Isolation and purification of large quantities of DNA replication intermediates by pH step alkaline elution

The alkaline elution technique has been modified to be used in the isolation of DNA replication intermediates and in the study of the process of DNA replication. In this procedure pulse labeled CHO cells are layered onto a membrane filter, lysed with detergent, and the nascent DNA eluted in step-wise fashion with tetrapropylammonium hydroxide at pH 11.0, 11.3, 11.5 and 12.1. Alkaline sucrose sedimentation of the eluted DNA shows that the pH 11.0 material consists of < 9S fragments consistant with those described by Okazaki and others. DNA eluting at pH 11.3 has a molecular weight of 8–12 million daltons, DNA which elutes at pH 11.5 sediments with a molecular weight of 20–30 million daltons. Two independent lines of evidence suggest that the pH 11.3 material includes DNA sequences synthesized at replicon origins. (1) Exposure of cells to low doses of X-ray prior to pulse labeling reduces the pH 11.3 fraction by 40–50% while there is little change in the other fractions. (2) Synchronization of cells by inhibiting DNA synthesis with FdU, followed by a 2 min pulse label, yields approximately 50% of the incorporated ³H-thymidine in the pH 11.3 fraction. The pH step elution technique has the following advantages: 1. Intermediates of high specific activity can be isolated from 10⁶ cells per filter; 2. By lysing cells on a filter, proteins, nucleases, and other cellular materials are eliminated; 3. DNA in the lysate is never handled, thus eliminating shearing; 4. Eluted DNA may be instantaneously neutralized by collecting into a buffer to protect it from alkaline degradation.     

Initiation of DNA replication in chromosomes of Chinese hamster ovary cells

The initiation of DNA replication and the subsequent chain elongation were studied using Chinese hamster ovary cells synchronized at the beginning of S phase. The cells were synchronized by a combination of mitotic selection and treatment with 5-fluorodeoxyuridine (FdU). The use of this drug at a concentration of 10^–5 M was found to effectively prevent the leakage of cells into S phase. Reversal of the FdU block by supplying thymidine resulted in the synchronous onset of initiation at multiple sites in each cell. The length of the nascent chains, as determined by autoradiography and velocity sedimentation in alkaline gradients, increased linearly with time during the first twenty minutes of S phase after release. — We applied these procedures to study the effects of the length of an FdU block on the number of functional origins per cell, the rate of chain growth, and the rate of DNA synthesis per cell following reversal of the block. Although no change was noted in the rate of DNA synthesis in cells held at the beginning of S phase from 10.5 to 24 h after division, the rate of chain growth decreased from 0.94 to 0.28 microns per min. This decrease indicated that the number of functional origins increased markedly with length of FdU block. The calculated number of utilized origins per cell increased from 1,900 to 5,700. We also presented arguments that 1,900 origins per cell represents the approximate number of origins utilized by any cell held at the beginning of S phase for less than 10.5 h after division.     

Time course of vasopressin-induced formation of microvilli in granular cells of toad urinary bladder

Summary Vasopressin-induced transformation of ridges to microvilli on the surface of granular cells of toad urinary bladder occurs in conjunction with induced alterations in the water permeability of the luminal membrane. This study was designed to establish the relationship between the time course for induction of microvilli and the time course for induction of increased water permeability after vasopressin stimulation. Hemibladders were examined at 2.5, 5, 10, 20 and 30 min following exposure to 20 mU/ml of vasopressin and at 5, 10, 20, 30, 40, 50 and 60 min after washout of vasopressin. Within 2.5 min, vasopressin initiated complete transformation of ridges to microvilli on approximately 13% of the granular cells, while osmotic water flow (Jv) was 0.31±0.10 l·min^–1·cm^–2. Five minutes following vasopressin stimulation, microvilli were present on approximately 30% of granular cells andJv was 2.27±0.13 l·min^–1·cm^–2. At 10 minJv was maximum at 4.03±0.15 l·min^–1·cm^–2 and 50% of the granular cells were covered with microvilli. This percentage increased to 70% at 20 min and was maintained at 30 min, althoughJv decreased to 3.9±0.35 l·min^–1·cm^–2 at 30 min. Five minutes following vasopressin washout, ridges interspersed with microvilli reappeared asJv fell to 1.10±0.30 l·min^–1·cm^–2. At 10 min after vasopressin washout,Jv approached basal levels, but the reversal of microvilli to ridges remained incomplete. At 60 min after vasopressin washout, the granular cells had regained their original ridgelike surface structures. Thus, these studies establish a temporal relationship between the induction and reversibility of vasopressin-induced microvillous formation and alterations in the osmotic water permeability of the apical plasmalemma.     

Efficient Generation of Mucosal and Systemic Antigen-Specific CD8+ T-Cell Responses following Pulmonary DNA Immunization

Although mucosal CD8⁺ T-cell responses are important in combating mucosal infections, the generation of such immune responses by vaccination remains problematic. In the present study, we evaluated the ability of plasmid DNA to induce local and systemic antigen-specific CD8⁺ T-cell responses after pulmonary administration. We show that the pulmonary delivery of plasmid DNA formulated with polyethyleneimine (PEI-DNA) induced robust systemic CD8⁺ T-cell responses that were comparable in magnitude to those generated by intramuscular (i.m.) immunization. Most importantly, we observed that the pulmonary delivery of PEI-DNA elicited a 10-fold-greater antigen-specific CD8⁺ T-cell response in lungs and draining lymph nodes of mice than that of i.m. immunization. The functional evaluation of these pulmonary CD8⁺ T cells revealed that they produced type I cytokines, and pulmonary immunization with PEI-DNA induced lung-associated antigen-specific CD4⁺ T cells that produced higher levels of interleukin-2 than those induced by i.m. immunization. Pulmonary PEI-DNA immunization also induced CD8⁺ T-cell responses in the gut and vaginal mucosa. Finally, pulmonary, but not i.m., plasmid DNA vaccination protected mice from a lethal recombinant vaccinia virus challenge. These findings suggest that pulmonary PEI-DNA immunization might be a useful approach for immunizing against pulmonary pathogens and might also protect against infections initiated at other mucosal sites.Since establishing that antigen-specific CD8⁺ T-cell populations in mucosal sites may confer protection against intracellular pathogens that initiate infections at mucosal surfaces, vaccine strategies have been explored for eliciting cellular immune responses in mucosal tissues (40). Studies have been done to evaluate the immunogenicity of vaccines delivered to a variety of mucosal surfaces, including those of the nose, intestine, rectum, and vagina. These studies have shown that immunization at mucosal sites can induce larger numbers of antigen-specific CD8⁺ T cells in mucosal tissues than parenteral immunization (3).Particular attention has focused on the lungs as a target for mucosal immunization. The lungs are an important mucosal portal of entry for pathogens. They are also a readily accessed mucosal site for the delivery of immunogens that might induce diverse mucosal immune responses. Pulmonary immunization strategies have been shown to generate potent Th1 responses and protective immunity against respiratory challenge with pathogens in several animal models (4, 29, 32, 37, 38).Because of the ease of generating vaccine constructs and the ability to administer repeated inoculations of the same vector, DNA immunization remains a promising vaccination strategy for eliciting cellular immune responses. Only a limited number of studies have been done to evaluate the immunogenicity of DNA vaccines following pulmonary delivery (4, 32). Although the importance of CD8⁺ T lymphocytes in eradicating mucosal infections has been well established, it has not been determined whether pulmonary DNA immunization can induce robust functional CD8⁺ T-cell responses.In the present study, we characterized antigen-specific CD8⁺ T lymphocytes in mice induced by the noninvasive pulmonary administration of plasmid DNA complexed to the cationic polymer polyethyleneimine (PEI). We demonstrate that the delivery of a DNA vaccine to the airways can induce a high frequency of functional antigen-specific CD8⁺ T cells in both systemic and mucosal sites.     

Role of lipids in theNeurospora crassa membrane. I. Influence of fatty acid composition on membrane lipid phase transitions

Summary The relationship between lipid composition and phase transition was investigated by differential scanning calorimetry for intact and membrane phospholipid extracts of wild-type (w/t) and thecel ^– (Tw 40) mutant ofNeurospora crassa. Thecel ^– (Tw 40) mutant (grown on minimal, sucrose medium supplemented with Tween 40 at 34 °C) had approximately twice the saturated fatty acid content ofw/t organisms grown at 22 °C. The gel-liquid crystal phase transitions of ergosterol-free extracts derived fromw/t andcel ^– (Tw 40) occur at –31 and –11 °C, respectively. The heats of transition (H) of these extracts were 1 and 13 cal/g, respectively. The addition of ergosterol (the predominant sterol inNeurospora) to the phospholipid extracts decreased the observed heats of transition, but did not alter the transition temperature. IntactNeurospora, whetherw/t orcel ^– (Tw 40) did not manifest similar gel-liquid crystal phase transitions in the differential scanning calorimeter. However, an endothermic peak at approximately 30 °C was observed in intact cells and extracted phospholipids of bothw/t andcel ^– (Tw 40) organisms. This peak was insensitive to the addition of ergosterol, had a low heat content (H1 cal/g), and was reversible.     

Hydrolysis of soybean isoflavone glucosides by lactic acid bacteria

Lactobacillus delbrueckii subsp. delbrueckii KCTC 1047, grown in de Man, Rogosa and Sharpe (MRS) or soymilk media, completely hydrolyzed the isoflavone glucosides, genistin and daidzin at 50 g ml^–1, into their respective aglycones, genistein and daidzein within 30 min. Other lactic acid bacteria did not produce -glucosidase, the enzyme responsible for the hydrolysis of isoflavone glucosides, when cultured in MRS medium. Glucoside-hydrolyzing activity was induced in some lactic acid bacteria when cultured in soymilk medium. These strains hydrolyzed 70–80% of genistin into genistein and 25–40% of daidzin into daidzein.