Regulation of biosynthesis of bacilysin byBacillus subtilis

Summary Production of the dipeptide antibiotic bacilysin byBacillus subtilis 168 was growth associated and showed no evidence of repression by glucose or sucrose. Carbohydrates other than glucose and sucrose yielded lower specific titers of bacilysin. Bacilysin production in three such carbon sources (maltose, xylose, ribose) was delayed until growth slowed down. Ammonium salts were poor for bacilysin production when used as the sole nitrogen source. When added to the standard medium containing glutamate, they suppressed antibiotic production. Aspartate was slightly better than glutamate for antibiotic production as sole nitrogen source. No other nitrogen source tested, including inorganic, organic or complex, approached the activity of glutamate or aspartate. When added to glutamate, casamino acids, phenylalanine and alanine (a substrate of bacilysin synthetase) suppressed bacilysin production while stimulating growth. Phosphate provided for optimum growth and production at 7.5 mM and both processes were inhibited at higher concentrations. Ferric citrate stimulated growth and inhibited bacilysin production, the effects being due to both the iron and the citrate components. Elimination of ferric citrate stimulated production as did increasing the concentration of Mn to its optimum concentration of 6.6×10^–4M.     

Regeneration of acetylcholinesterase in clonal neuroblastoma-glioma hybrid NG108-15 cells after soman inhibition: effect of glycyl-l-glutamine

Acetylcholinesterase (AChE) in the clonal NG108-15 cell line has been previously characterized. This cell line represents an in vitro system to study AChE regulation and effects of chemical compounds that may alter AChE activity. Recently, glycyl-L-glutamine (GLG) was demonstrated to function as a neurotrophic factor for maintenance of AChE content in cat denervated superior cervical ganglion cells. In the present study, regeneration of AChE activity in cultures of undifferentiated NG108-15 cells after soman inhibition was investigated in the presence and absence of GLG. Cells were treated with soman (5.5 × 10^–6 M) for 15 min and then washed to remove excess soman. Culture medium containing either GLG (10^–6, 10^–5, or 10^–4M) or glycyl-L-glutamic acid (10^–6 M) was added to cultures after soman treatment and remained in the medium until cell harvest. Cells were physically detached at various times after soman treatment and specific AChE activity was determined. After soman, AChE activity dramatically decreased to less than 1% of untreated cellular activity at 1 hr. AChE activity gradully increased after 5 hr, while untreated cell AChE activity was regained 20 hr after soman. The t_1/2 for AChE regeneration was approximately 10 hr. GLG did not increase the rate of AChE regeneration after soman inhibition. These results indicate that GLG is not a directly acting neurotrophic factor for AChE synthesis in NG108-15 cells after chemical AChE inactivation.Abbreviations AChE acetylcholinesterase - NG108-15 cell neuroblastoma-glioma 108-15 cell - DMEM Dulbecco's modified Eagles minimal essential medium - FBS fetal bovine serum - GLGA glycyl-L-glutamic acid - L-GA L-glutamic acid - GLG glycyl-L-glutamine - GD soman The opinions or assertions contained herein are the private views of the authors and are not to be construed as reflecting the view of the Department of the Army or the Department of the Army or the Department of Defense.     

Properties ofPseudomonas aeruginosa exhibiting self-lysis

Spontaneous lysis leading to the production of turbid, iridescent auto-plaques (AP⁺) was noted in 46 out of 50 strains ofPseudomonas aeruginosa. Strain Pa-1 which is mucoid and is a non-auto-plaque former (M⁺AP^–) on rare occasions lyses; the surviving cells are non-mucoid and always exhibited plaques on itself (M^–AP⁺) as well as on the M⁺AP^– culture. In addition, the non-mucoid culture gave rise to a mucoid, auto-plaque producing variant (M⁺AP⁺). Biochemical characterization of the cultures indicated no other qualitative differences, although AP⁺ cultures were more proteolytic, but less hemolytic than the M⁺AP^– strain. All three cultures synthesized the bacteriocin pyocin, but were immune to both their own and each other's agents. In addition, they exhibited the same lysogenic host range when streaked against 18 other cultures ofP. aeruginosa. Treatment of the auto-plaque forming strains with non-inhibitory levels of penicillin, streptomycin, chloromycetin, or polymyxin, stimulated cultures to produce increased numbers of auto-plaques in proportion to antibiotic concentrations, while no lysis was noted with the non-autolytic strain (M⁺AP^–). However, treatment of the three cultures with varying doses of ultra-violet did not stimulate the production of auto-plaques beyond the normal level of non-irradiated cultures, and in some cases suppressed their appearance. Filtrates obtained from the non-mucoid, auto-plaque producing culture (M^–AP⁺) formed iridescent, turbid plaques on M⁺AP^–, M⁺AP⁺, and M^–AP⁺. Similar results were obtained with the M⁺AP⁺ filtrates.     

Degradation of 3,4-dichloroaniline in synthetic and industrially produced wastewaters by mixed cultures freely suspended and immobilized in a packed-bed reactor

Summary Degradation of 3,4-dichloroaniline (34DCA) in aqueous by undefined cultures of free and immobilized cells was examined. Batch cultures of freely suspended cells and continuous degradation in a packed-bed reactor were studied using both synthetically concocted and industrially produced waste-waters. 34DCA was found to be degraded with a concomitant evolution of chloride ions into the bulk medium. The [acked bed reactor with biomass immobilized on celite diatomaceous earth was found to be capable of degrading over 98% of the 34DCA present in a synthetically concocted inlet stream at a concentration of 250 mg l^–1. Residence times of less than 4 h were employed, giving an overall volumetric degradation rate for the packed bed of 90 mg l^–1 h^–1. The industrially produced wastewater contained, in addition to 34DCA, aniline, 4-chloroaniline, 2,3-dichloroaniline (23DCA) and 3,4-dichloronitrobenzene. The biomass enriched on the synthetic 34DCA waste-water was found to be capable of degrading these compounds in addition to 34DCA with the exception of 23DCA. 34DCA degradation efficiencies of over 95% were obtained for the industrial waste-water at reactor residence times of 4.6 h, giving volumetric degradation rates of 24 mg l^–1 h^–1. Offprint requests to: A. G. Livingston     

High efficiency styrene biodegradation in a biphasic organic/water continuous reactor

Styrene was degraded as sole source of carbon and energy by a selected bacterial community in a two-phase aqueous-organic medium (80%:20%, vol/vol). Silicone oil was used to solubilize styrene, which is sparingly soluble in water and to prevent its toxicity toward microorganisms. Preliminary studies with the mixed population in batch cultures indicate that the specific activity and the maximum growth rate at optimal 3H 6.0 were 46 mg·g^–1·h^–1 and 0.15 h^–1, respectively. In pH-regulated chemostat cultures, styrene was degraded at dilution rates ranging from 0.05 to 0.20 h^–1. Kinetic parameters and the proportion of each strain in the mixed culture were followed. At 0.20 h^–1, only one strain as compared to four initially present, remained in the medium. This strain Pseudomonas aeruginosa, degrades styrene with a specific activity of 293 mg·g^–1·h^–1. Such results could lead to industrial treatment of waste gas or water polluted with styrene. Correspondence to: J,-M. Lebeault     

Induction of trehalase activity on a nitrogen-free medium: a sporulation-specific event in the fission yeast, Schizosaccharomyces pombe

Summary Kinetic experiments with synchronously sporulating cultures of a homothallic h⁹⁰ strain of Schizosaccharomyces pombe showed that trehalase activity abruptly increased in the late sporulation process, coinciding with the appearance of visible spores. Trehalase activity was absent in vegetative cells. A set of strains different in genetic constitution at the mating type loci was tested for induction of trehalase on nitrogen-free sporulation medium. The appearance of trehalase activity on the sporulation medium was observed only in sporulating cultures; cultures of homothallic strains (h⁹⁰) and diploid strains heterozygous for mating type (h⁺/h^–), and mixed cultures of heterothallic h⁺ and h^– strains. Trehalase activity was not induced in nonsporogenic strains: heterothallic haploid strains (h⁺ and h^–), diploid strains homozygous for mating type (h⁺/h⁺ and h^–/h^–) and the homothallic strain harboring the mutation in the mat2 gene, which was unable to undergo the first meiotic division. Trehalose accumulation on the sporulation medium was observed solely in the sporulating cultures. These results led us to conclude that the induction of trehalase activity as well as the accumulation of trehalose in the medium lacking nitrogen sources was a sporulation-specific event under the control of the mating type genes.     

Genetic and physical mapping of an hydrogenase gene cluster from Rhodobacter capsulatus

Summary An hydrogenase-deficient (Hup^–) mutant of Rhodobacter capsulatus was obtained by adventitious insertion of IS21 DNA into an hydrogenase structural gene (hup) of the wild-type strain 1310. The resulting Hup^– mutant, strain JP91, selected by its inability to grow autotrophically (Aut^– phenotype) together with other Hup^– mutant strains obtained by classical ethyl methane sulphonate mutagenesis were used in R plasmid-mediated conjugation experiments to map the hup/aut loci on the chromosome of R. capsulatus. The hup genes tested in this study were found to cluster on the chromosome in the proximity of the his-1 marker. A cluster of hup genes comprising the structural genes was isolated from a gene bank constructed in the cosmid vector pHC79 with 40 kb insert DNA. The clustered hup genes, characterized by hybridization studies and complementation analyses of the R. capsulatus Hup^– mutants, span 15–20 kb of DNA.     

Establishment of Physalis minima hairy roots culture for the production of physalins

This report describes the technique used to induce the hairy roots in Physalis minima (Linn.). Different types of explants obtained from in vitro germinated seedlings were aseptically co-cultivated with A. rhizogenesstrain LBA9402 in different media. Root growth and production of physalins were investigated in various basal media grown under dark and light conditions, and compared to that of normal root cultures. Transformed hairy root cultures grew rapidly and reach stationary phase after 15 days on a B5 medium. HPLC analysis of extracts of hairy root cultures showed that the maximum content of physalin B and F was 1.82 and 4.15 mg g^–1 DW, respectively, when grown under dark conditions. Normal root cultures produced higher physalin B (1.60–1.62 mg g^–1 DW) and F (3.30–3.75 mg g^–1 DW) under the same culture conditions. Physalin F synthesis in light-grown root cultures was reduced significantly.     

Salinity tolerance of the copepod Apocyclops dengizicus (Lepeschkin, 1900), a key food chain organism in the Salton Sea,California

The copepod Apocyclops dengizicus is a key item in the food chain of the Salton Sea where the salinity is currently 45 g 1^–1. The salinity of the Salton Sea may reach 90 g 1 ^–1 within the next 20 years. This study examined the salinity tolerance of this copepod.Large copepodite and adult A. dengizicus were introduced into various salinities with and without acclimation. The 96 h LC₅₀ without acclimation was 101 g 1^–1. Mortality (at 96 h) without acclimation was low at salinities of 90 g 1 ^–1 or less.Copepod cultures were maintained, with successful reproduction of at least one new generation, at salinities of from 0.5 to 68 g 1 ^–1 for at least 120 days. Copepods maintained at higher salinities, up to 79 g 1 ^–1, remained alive up to 90 days, but a new generation was not produced. In laboratory studies of larval production and survivorship, few nauplii were released at salinities of 68 g 1 ^–1 or higher, and none survived to the copepodite stage.     

Ascorbic acid enhancement of organogenesis in tobacco callus

The effect of ascorbic acid on growth and shoot formation in callus cultures of tobacco (Nicotiana tabacum L.) was investigated, using young (4–12 subcultures) and old (more than 30 subcultures) tissue. It was found that ascorbate, at levels of 4–8×10^-4M, enhanced shoot formation in both young and old callus. Treatment with ascorbate also speeded up the shoot-forming process. In addition, ascorbate completely reversed the inhibition of shoot formation by gibberellic acid in young callus, but was less effective in old callus.     

A method for removal of toxic chromium using dialysis-sac cultures of a chromate-reducing strain of Enterobacter cloacae

Summary A method for removal of toxic hexavalent chromium (chlomate: CrO _inf4 ^sup2– ) was developed by use of dialysis-sac cultures of a chromate-reducing strain of Enterobacter cloacae (HO1). E. cloacae strain HO1 cells were put in dialysis (semipermeable membrane) sacs, and the sacs were submerged in water containing toxic CrO _inf4 ^sup2– . The dialysis sacs allowed CrO _inf4 ^sup2– to diffuse into the culture, and CrO _inf4 ^sup2– was reduced anaerobically in the dialysis sacs by the E. cloacae cells. Because reduced chromium readily formed insoluble chromium hydroxides in the dialysis sacs, the greater part of reduced chromium was unable to diffuse out through the semipermeable membrane. Thus the dialysis culture of E. cloacae strain HO1 could successfully remove toxic chromium from the surrounding water. If the initial concentration of CrO _inf4 ^sup2– was less than 4mM (208 ppm as chromium), about 90% of the total chromium could be removed from water by the described method. Offprint requests to: H. Ohtake     

Depressing action of nitroglycerin on voltage-activated calcium current in isolated smooth muscle cells of the guinea pig gut

The effect of nitroglycerin (NG) on inward voltage-activated calcium current (I _Ca) was studied in isolated smooth muscle cells (SMC) of the guinea pigtaenia coli with the voltage clamp technique in an intracellular dialysis mode. Addition of NG (10^–7 to 10^–4 M) to the extracellular solution reduced theI _Ca amplitude and increased theI _Ca inactivation rate. The maximum inhibition ofI _Ca (on the average, by 41.7 ± 4.8%,n=13) was produced by 10^–4 M NG; the inhibition was dose-dependent. No shift of theI _Ca current-voltage curve under the NG influence was observed. Application of dibutyril-cGMP (2·10^–4 M), a membrane-penetrating analog of cyclic 3,5-guanosine monophosphate (cGMP), likewise decreased theI _Ca amplitude and increased its inactivation rate. The results obtained suggest that the NG inhibitory effect onI _Ca is related to a cGMP-dependent modulation of the voltage-activated calcium channels of L-type in the SMC membrane in the guinea pigtaenia coli.Neirofiziologiya/Neurophysiology, Vol. 26, No. 3, pp. 218–222, May–June, 1994.     

The Influence of Lipopolysaccharides and Glucans from Two Rhizobium leguminosarum bv. viciae Strains on the Formation and Efficiency of Their Symbioses with Pea Plants

The influence of lipopolysaccharides (LPS), glucans, and their unseparated complexes on nodulation activity of rhizobia and efficiency of their symbioses with pea plants was studied in vegetation tests. Two Rhizobium leguminosarum bv. viciae strains which differed in their symbiotic properties were used: strain 31 (fix⁺, efficient, moderately virulent, and moderately competitive) and strain 248b (fix^–, inefficient, highly virulent, and highly competitive). Preparations of LPS–glucan complex and the respective LPS from the highly virulent strain 248b increased the nodulation activity of both strains by 10–26%. Analogous preparations from a less virulent strain 31 did not have this ability. Unseparated LPS–glucan complexes from these strains increased the productivity of plants infected with the efficient strain by 18–23% but did not change it in plants inoculated with the other, inefficient strain. No significant influence of LPS preparations on the symbiosis productivity was observed. Glucans from both strains enhanced the nodulation ability of the highly virulent strain by 36–56%. In addition, treatment of pea plants with glucan from strain 248b increased nitrogen fixation by root nodules by 27% in plants inoculated with strain 31. In general, the formation and efficiency of the symbiosis of R. leguminosarum bv. viciae with pea plants was more influenced by preparations from strain 248b, highly virulent but deficient in nitrogen fixation, than by preparations from the nitrogen fixation–proficient but less virulent strain 31.     

Stevioside biosynthesis by callus,root, shoot and rooted-shoot cultures in vitro

Leaf explants of Stevia rebaudiana Bertoni (Compositae), an herb which produces the sweet ent-kaurene glycoside stevioside, were cultured in Murashige and Skoog medium with vitamins, sucrose (30 g l^–1), agar (0.9% w/v) and supplemented with naphthaleneacetic acid (NAA, 0.5 mg l^–1) and benzylaminopurine (BAP, 0.5 mg l^–1). These conditions yielded friable callus cultures. Differentiation of the callus tissue was then achieved by eliminating the agar and modulating the medium's hormone concentrations. Thus, medium containing increased auxin concentration (1.0 mg l^–1) and no cytokinin or increased cytokinin (1.0 mg l^–1) and no auxin yielded root or shoot cultures respectively. Supplementation of the shoot medium with NAA (1.0 mg ml^–1) induced shoot cultures to grow roots thereby differentiating into rooted-shoot cultures. Only the rooted-shoot cultures tasted sweet. Feedings of [2-¹⁴C]acetic acid to callus, shoot or rooted-shoot cultures demonstrated that only the rooted-shoot cultures are capable of de novo biosynthesis of the aglycone moiety of stevioside (steviol). In addition, [methyl-³H(N)steviol feedings to shoot or rooted-shoot cultures illustrated that both types of cultures are capable of the glycosylation reaction. The ability of these tissues to glycosylate steviol to stevioside was also demonstrated employing crude enzyme preparations derived from shoot or rooted-shoot cultures. These results suggest that stevioside biosynthesis is a function of tissue differentiation since both roots and leaves are required for cultured S. rebaudiana to biosynthesize stevioside from acetate, while the final biosynthetic steps can be performed at all levels of differentiation.     

Production of poly(3-hydroxybutyrate-<Emphasis Type="Italic">co</Emphasis>-3-hydroxyhexanoate) with flexible 3-hydroxyhexanoate content in<Emphasis Type="Italic"> Aeromonas hydrophila</Emphasis> CGMCC 0911

Aeromonas hydrophila CGMCC 0911 isolated from lake water was found to be able to synthesize a polyhydroxyalkanoate (PHA) copolymer (PHBHHx) consisting of 3-hydroxybutyrate (HB) and 4–6 mol% 3-hydroxyhexanoate (HHx). The wild-type bacterium accumulated 49% PHBHHx containing 6 mol% HHx in terms of cell dry weight (CDW) when grown on lauric acid for 48 h. When A. hydrophila CGMCC 0911 expressed the Acyl-CoA dehydrogenase gene (yafH) of Escherichia coli, the recombinant strain could accumulate 47% PHBHHx, while the HHx content reached 17.4 mol%. The presence of changing glucose concentration in the culture changed the HHx content both in wild type and recombinant A. hydrophila CGMCC 0911. When 5 g l^–1 glucose was added to a culture containing 5 g l^–1 lauric acid as co-substrate, 45% PHBHHx/CDW consisting of 8.8 mol% HHx was produced by wild-type A. hydrophila CGMCC 0911 compared with only 5% in the absence of glucose. When the recombinant A. hydrophila CGMCC 0911 was grown on a mixed substrate containing lauric acid and 8–10 g l^–1 glucose, the HHx content could be further increased to 35.6 mol%. When the glucose concentration exceeded 10 g l^–1, cell growth, PHA content and mole percentages of HHx in PHBHHx were significantly reduced.     

An isolate of Rhizopus nigricans capable of tolerating and removing pentachlorophenol

Rhizopus nigricans, isolated from an industrial effluent (paper mill), was resistant to pentachlorophenol (PCP) in Petri dishes and in submerged cultures (100 and 25 mg l^–1 respectively). It was shown that this strain of R. nigricans can remove PCP in submerged culture. When 12.5 mg of PCPl^–1 were added at 48 h, this compound had been completely removed by 144h. Results indicated that the fungus did not produce extracellular lignin peroxidase (LiP) and laccase, but extracellular phenoloxidase production was observed. The synthesis of the latter enzyme was stimulated by the presence of PCP and/or tyrosine. These results indicate that this fungus, and probably other filamentous fungi, have an interesting potential to be used in processes for chlorophenol biodegradation.     

Variation in fatty acid composition of <Emphasis Type="BoldItalic">Arthrospira</Emphasis> (Spirulina) strains

A study of the fatty acid composition was made for 35 Arthrospira strains, concentrating on the most abundant fatty acids, the two polyunsaturated C₁₈ acids, linoleic and γ-linolenic acid, and palmitic acid. When grown at 30 ^∘C and low irradiance (10 μmol photon m⁻² s⁻¹), these three acids together formed 88–92% of total fatty acids. There were considerable differences in the composition of the two polyunsaturated acids. Depending on the strain, linoleic acid formed 13.1–31.5% and γ-linolenic acid formed 12.9–29.4% total fatty acids. In contrast, the range for palmitic acid was narrow: 42.3–47.6% of total fatty acids. Repeat experiments on several strains under defined conditions led to closely similar results for any particular environment, suggesting that fatty acid composition can be used as an aid in differentiating between strains. Five additional strains, which had apparently originated from the same original stock cultures as 3 of the 35 in the main study, but from different culture collections, were also assayed. With four strains the results were similar, irrespective of culture source, but with one strain marked differences occurred, especially in the polyunsaturated C₁₈ fatty acid fraction. These differences were independent of the age of the culture. In addition, straight morphotypes derived during repeat subcultures of four strains; each showed a similar fatty acid composition to that of the helical morphotypes of the same strains. A decrease in temperature from 30 to 20 ^∘C, an increase in irradiance (at 30 ^∘C) from 10 to 70 μmol photon m⁻² s⁻¹ and transfer to dark heterotrophy all favoured an increase in polyunsaturated C₁₈ fatty acids. The highest γ-linolenic acid content of any conditions was found for three strains grown heterotrophically on glucose in the dark at 30 ^∘C. A comparative study of six strains of Spirulina confirmed a previous study showing the absence of γ-linolenic acid in all Spirulina strains, thus permitting the separation of these two genera.     

Inhibition of thymidine uptake in asynchronous HeLa cells by nitrobenzylthioinosine

Nitrobenzylthioinosine (NBMPR), an inhibitor of nucleoside transport by human erythrocytes, was found to be a potent inhibitor of thymidine uptake by asynchronous monolayer cultures of HeLa cells. Rates of thymidine uptake by the cultures at 20 °C were constant between 10 and 40 sec after thymidine addition and were assayed during this interval; TTP was the principal metabolite of thymidine and the thymidine phosphates accumulated at constant rates which extrapolated through time zero. The lack of an effect of NBMPR on thymidine kinase activity, or on the relative proportions of thymidine metabolites in cell extracts, indicated that NBMPR inhibited thymidine transport. When mediated entry (transport) was eliminated by 2 μM NBMPR, a significant diffusional component of thymidine entry was apparent. The mediated component of thymidine uptake exhibited Michaelis-Menten kinetics and apparent K_m and V_max values of 0.5 μM and 10–21 pmoles/min/10⁶ cells were obtained. When NBMPR-treated cells were transferred to NBMPR-free medium, inhibition of thymidine uptake persisted, suggesting that NBMPR was firmly bound to the transport inhibitory sites.     

Poly(3-hydroxybutyrate) synthesis in fed-batch culture of Ralstonia eutropha with phosphate limitation under different glucose concentrations

Poly(3-hydroxybutyrate) (PHB) was produced by fed-batch cultures of Ralstonia eutropha with phosphate limitation under different glucose concentrations. When glucose was kept at 2.5 g l^–1, cell growth and PHB synthesis were limited due to the shortage of carbon source but a higher PHB content occurred in the cell-growth stage. This shows that a low glucose concentration is favorable for PHB accumulation in R. eutropha. PHB obtained with glucose at 9 g l^–1 is 1.6 times that obtained with 40 g l^–1. When glucose was in the range of 9 to 40 g l^–1, PHB concentration and productivity decreased significantly with the increase of glucose concentration. The highest PHB productivity was obtained with glucose at 9 g l^–1.     

Energetics of growth of Microbacterium thermosphactum at low temperatures

Microbacterium thermosphactum was grown at 5°C and 9°C in glucose-limited continuous cultures. The end products of glucose metabolism were L-lactate and ethanol, and these compounds accounted for 86–92% of the glucose utilized. With input glucose concentrations less than 3 mM Y _glu ^Max was found to be 40–43, Y _ATP ^Max 20–21 and m _s 0.1–0.2. These values are almost identical to those found previously for cultures at 25°C and show that this psychrotroph grows with a very high energetic efficiency over a wide range of temperatures. With a higher (but still limiting) input glucose concentration of 5.6 mM at 9°C, cellular efficiency declined as there was a marked reduction in Y _glu. This decrease was accounted for in mathematical terms by an increase in m _s to 0.7, whilst Y _glu ^Max and Y _ATP ^Max remained high at 38 and 19 respectively.