Temperature and nutrient availability control growth rate and fatty acid composition of facultatively psychrophilic <Emphasis Type="Italic">Cobetia marina</Emphasis> strain L-2

A facultative psychrophilic bacterium, strain L-2, that grows at 0 and 5°C as minimum growth temperatures in complex and defined media, respectively, was isolated. On the basis of taxonomic studies, strain L-2 was identified as Cobetia marina. The adaptability of strain L-2 to cold temperature was higher than that of the type strain and of other reported strains of the same species. When the bacterium was grown at 5–15°C in a defined medium, it produced a high amount of trans-unsaturated fatty acids. By contrast, in a complex medium in the same temperature range it produced a low amount of trans-unsaturated fatty acids. In the complex medium at 5°C, the bacterium exhibited a three-fold higher growth rate than that obtained in the defined medium. Following a temperature shift from 11 to 5°C, strain L-2 grew better in complex than in defined medium. Furthermore, when the growth temperature was shifted from 0 to 5°C both the growth rate and the yield of strain L-2 growing in complex medium was markedly enhanced. These phenomena suggest that an upshift of the growth temperature had a positive effect on metabolism. The effects of adding complex medium components to the defined medium on bacterial growth rate and fatty acid composition at 5°C were also studied. The addition of yeast extract followed by peptone was effective in promoting rapid growth, while glutamate addition was less effective, resulting in a cis-unsaturated fatty acid ratio similar to that of cells grown in the complex medium. These results suggest that the rapid growth of strain L-2 at low temperatures requires a high content of various amino acids rather than the presence of a high ratio of cis-unsaturated fatty acids in the cell membrane.     

Effect of temperature on vegetative growth among isolates of Metarhizium anisopliae and M. flavoviride

Effects of temperature on vegetative growth on a semi-synthetic medium of 22 isolates of Metarhizium anisopliae and 14 isolates of M. flavoviride were determined. The majority of isolates of both species grew between 11 and 32°C; several isolates grew at 8 and 37 °C. None of the isolates grew at 40 °C. Relative growth rate, calculated from the maximum growth rate for each isolate, was significantly affected by temperature and isolate, with significant isolate * temperature interactions. The maximum absolute growth rates among the isolates ranged from 2.5 mm to 5.9 mm/day. Optimal temperatures were generally between 25 and 32 °C with several isolates exhibiting optimal growth at temperatures as high as 32 °C. Overall, relative growth rates were greater in isolates of M. anisopliae than M. flavoviride at temperatures of 25 °C or lower; conversely mean relative growth rates were greater in M. flavoviride than M. anisopliae at temperatures higher than 25 °C. However, the two most cold tolerant isolates at 8 °C were M. flavoviride and the three most heat tolerant at 35 °C were M. anisopliae. Since temperature growth responses varied considerably between isolates, strain selection according to thermal tolerance may be warranted when choosing a strain for development as a microbial control agent.This revised version was published online in October 2005 with corrections to the Cover Date.     

Isolation and characterization of thymidylate synthetase mutants of Xanthomonas maltophilia

Thymidylate synthetase mutants of Xanthomonas maltophilia ATCC 13270 were isolated on a solid minimal medium containing 50 mg/l thymidine and a high concentration of trimethoprim (500 mg/l). It was found that a high concentration of trimethoprim was required to prevent background growth of the wild-type strain. The isolated mutants could grow on thymidine or dTMP at a concentration of 50 mg/l while they were unable to grow on 1000 mg/l thymine or 50 mg/l deoxyridine. Thymidylate synthetase activity was assayed in the wild-type cells and in the mutant cells but only the wild-type cells contained measurable enzyme activity.     

Low Temperature Stimulates Cell Enlargement and Intracellular Calcification of Coccolithophorids

Temperature effect on growth, cell size, calcium uptake activity, coccolith production was studied in coccolith-producing haptophytes, Emiliania huxleyi (Lohmann) Hay & Mohler (strain EH2) and Gephyrocapsa oceanica Kamptner (strain GO1) (Coccolithophorales, Prymnesiophyceae). E. huxleyi grew at a wider temperature range (10°–25°C), while G. oceanica growth was limited to warmer temperatures (20°–25°C). Cell size was inversely correlated with temperature. At low temperature, the enlargement of chloroplasts and cells and the stimulation of coccolith production were morphologically confirmed under fluorescent and polarization microscopes, respectively. ⁴⁵ Ca uptake by E. huxleyi at 10°C was greatly increased after a 5-day lag and exceeded that at 20°C. These results clearly showed that low temperature suppressed coccolithophorid growth but induced cell enlargement and as stimulated the intracellular calcification that produces coccoliths.     

Regulation of histidine biosynthetic enzymes in a mutant of Escherichia coli with an altered histidyl-tRNA synthetase

Summary A mutant of Escherichia coli was isolated that grew at a normal rate in minimal medium at 26°C, grew at a normal rate in minimal medium at 37°C only if exogenous histidine was supplied, and grew more slowly than normal at 42°C even in the presence of histidine. In very rich media the growth rate of the mutant was normal at 26°C and 30°C, but not at 37°C or 42°C. It may be described as a temperature-conditional histidine bradytroph with a decreased ceiling to its growth rate.The histidyl-tRNA synthetase of the mutant was found to be abnormal; in crude extracts the enzyme activity was less stable and had approximately a tenfold higher apparent K _Mfor histidine than normal.Under many growth conditions the histidine biosynthetic enzymes in the mutant were derepressed several hundred fold compared to the wild strain, even in the presence of exogenous genous histidine. In general, the degree of derepression in the mutant was proportional to the difference in growth rate between the mutant and normal strains; this relationship, however, did not hold below 30°C or above 37°C.The properties of the mutant could be related to the properties of its histidyl-tRNA synthetase by assuming that the enzyme participates both in protein synthesis and in histidine biosynthetic enzyme regulation and that at low temperature it functions relatively more effectively in protein synthesis than in repression, while at high temperature it functions relatively more effectively in repression.Abbreviations used tRNA transfer RNA - AICAR aminoimidazole carboxamide ribose-5-phosphate     

Isolation and characterization of a thermophilic acetotrophic strain of Methanothrix

An enrichment culture which converted acetate to methane at 60°C was obtained from a thermophilic anaerobic bioreactor. The predominant morphotype in the enrichment was a sheathed gas-vacuolated rod with marked resemblence to the mesophile Methanothrix soehngenii. This organism was isolated using vancomycin treatments and serial dilutions and was named Methanothrix sp. strain CALS-1. Strain CALS-1 grew as filaments typically 2–5 cells long, and cultures showed opalescent turbidity rather than macroscopic clumps. The cells were enclosed in a striated subunit-type sheath and there were distinct cross-walls between the cells, similar to M. soehngenii. The gas vesicles in cells were typically 70 nm in diameter and up to 0.5 m long, and were collapsed by pressures over 3 atm (ca. 300 kPa). Stationary-phase cells tended to have a higher vesicle content than did growing cells, and occasionally bands of cells were seen floating at the top of the liquid in stationary-phase cultures. Acetate was the only substrate of those tested which was used for methanogenesis by strain CALS-1, and acetate was decarboxylated by the aceticlastic reaction. The optimum temperature for growth of strain CALS-1 was near 60°C (doubling time=24–26 h), with no growth occurring at 70°C and 37°C. The optimum pH value for growth was near 6.5 in bicarbonate/CO₂ buffered medium and no growth occurred at pH 5.5 or pH 8.4. No growth was obtained below pH 7 when the medium was buffered with 20 mM phosphate. Strain CALS-1 grew in a chemically defined medium and required biotin. Sulfide concentrations over 1 mM were inhibitory to the culture, and growth was more rapid with 1 mM 2-mercaptoethane sulfonate (coenzyme M) or 1 mM titanium citrate as an accessory reductant than with 1 mM cysteine. It is likely that strain CALS-1 represents a new species in the genus Methanothrix.     

Isolation and Characterization of Thymineless Mutants from Ultraviolet-Sensitive Bacillus subtilis Strains

Thymineless mutants of Bacillus subtilis 168 ind, hcr-9 were isolated by using trimethoprim. These and other Thy⁻ strains differed drastically from Thy⁺ ones in their patterns of [³H]thymidine uptake and growth in trimethoprim-containing medium. Transformation was negligible between most mutants derived from the ultraviolet-sensitive strain 168 ind, hcr-9 but significant between 168 ind, thy and these mutants. The latter and these new mutants all grow in the presence of trimethoprim plus thymidine or thymine and fail to grow if thymine or thymidine is omitted.     

Preferential uptake of thymidine by thymineless enterobacteria: its significance in DNA labelling.

Minimum satisfactory concentrations of thymine and thymidine were determined for the growth of a high thymine-requirng (thy) mutant to Escherichia coli strain J5-3. Cultures were then grown in the presence of these concentrations of non-radioactive ('cold') pyrimidine together with 5 microCi/ml [methyl-3H)thymine, or [methyl-3H)thymidine (specific activities 5 Ci/m mole), and the uptake of radioactivity into ice cold trichloroacetic acid insoluble material determined. By far the most efficient labelling system was obtained if the label was supplied as radioactive thymidine and growth requirements satisfied by thymine alone. The addition of deoxyadenosine to the labelled thymidine/unlabelled thymine system dramatically reduced uptake of label. The addition of radioactive thymine with either thymine or thymidine to ensure satisfactory growth gave poor labelling. Using the [methyl-3H] thymidine/thymine system it was possible to increase the concentration of thymine from 8 to 64 microgram/ml with only a 25% reduction in label uptake after a 2 h period. The same system was also shown to be most efficient for labelling a thy derivative of another K12 strain, a thymine low-requiring (tir) K12 strain, a thy mutant of Klebsiella aerogenes 418 and a tir derivative of Salmonella typhimurium LT2.     

Initiation of chromosomal DNA replication which is stimulated without oversupply of DnaA protein in Escherichia coli

Summary The temperature-sensitive dnaA46 mutation in Escherichia coli can be phenotypically suppressed at 42° C by oversupply of GroELS proteins, and the suppressed cells grow extremely slowly at 30° C. We found that the phenotype of dnaA46 showing this cold sensitivity was dominant over the phenotype of dnaA ⁺, and could not be rescued by introduction of oriC-independent replication systems. These results suggest that the cold sensitivity was not caused by a simple defect in replication. When a growing culture of a dnaA46 strain with a GroELS-overproducing plasmid was shifted from 42° to 30° C in the presence of chloramphenicol, the chromosomal DNA replicated excessively. Initiation of replication occurred at the site of oriC repeatedly four or five times during a 4 h incubation period without concomitant protein synthesis, indicating an excessive capacity for initiation. Such overreplication did not take place at 42° C in the suppressed dnaA46 strain, or at either temperature in GroELS-oversupplied dnaA ⁺ cells. No significant difference was detected between the cellular content of DnaA protein in suppressed cells where the initiation capacity was abnormally high, and that in wild-type cells in which the initiation capacity was normal. Thus, DnaA protein might function in vivo through some phase control mechanism for initiation, apart from a simple regulation by its total amount. A possible mechanism is proposed based on the participation of GroELS proteins in protein folding.A preliminary account of this work was presented at the Annual Meeting of the Molecular Biology Society of Japan in 1989.     

Characterization of a combined DNA initiation and cell division mutant of Bacillus subtilis.

Summary The temperature-sensitive mutation in Bacillus subtilis 168-134ts, a conditional lethal DNA initiation mutant, was transferred to the minicell producing strain, CU 403 div IV-B1, to study he relationship of DNA synthesis to cell division. Markers in the combined mutant were verified by transduction. DNA replication kinetics, genome location by autoradiography, and clonal analysis of cell division patterns during spore outgrowths were investigated. Growth of the double mutant at the restrictive temperature results in an impressive reduction of the percentage cell length covered by DNA grain clusters (60.2% at 30° C compared to 8.6% after 2 h at 45° C). The probability of a minicell producing division in double mutant clones is essentially the same at 30° C and during the initial 2–3 h growth at 45° C at which time lysis begins. Residual division at 45° C is attributable to processes initiated at 30° C. The CU 403 div IV-B1, 134ts, double mutant divides about 25% as frequently relative to growth as do wild type CU 403 clones when incubated at permissive temperature. This is approximately 15% greater division suppression than previously found in the CU 403 div IV-B1 mutant strain, and is presumably due to interactions of the mutant gene products both of which affect DNA.     

A comparison of the utilization of thymine and thymidine for the synthesis of DNA-thymine in novikoff hepatoma cells

A comparison was made between the utilization of thymine and thymidine for the synthesis of DNA in Novikoff hepatoma cells growing in suspension culture. When the cell cultures were switched from exponential growth to a relatively non-growing condition, by resuspending them in culture media minus serum for 18 h, there was an 85% decrease in the rate of thymidine incorporation but only a 15% decrease in the rate of thymine incorporation. Exposure to an alkylating agent (methyl methane sulfonate) resulted in a 79% decrease in thymidine incorporation, while thymine incorporation was decreased only 35%. Thymidine at a concentration equal to its Km for incorporation into DNA (4 × 10⁻⁷ M) had virtually no effect on thymine incorporation. It was not until a thymidine concentration of ten times the K_m was employed that appreciable (40%) decreases in the rate of thymine incorporation were observed. Examination of total cellular DNA or nuclear DNA gave similar results. These studies are interpreted as indicating the presence of multiple precursor pools for the synthesis of DNA-thymine in Novikoff hepatoma cells.     

Effect of glycine betaine on the sucrose catabolism of an l-lysine producing mutant of Brevibacterium lactofermentum

Summary Effect of exogenous betaine on the growth of an l-lysine-producing mutant of Brevibacterium lactofermentum was examined in a medium containing different carbon sources such as glucose, fructose, or sucrose. The growth rate decreased significantly with a rise in temperature when sucrose was the carbon source. Both the specific sucrose consumption rate and the invertase activity of the mutant decreased with the culture period when the cultivation temperature was 35°C. The addition of betaine restored both growth and invertase activity on medium containing sucrose as the carbon source at 35°C. Betaine protected the invertase activity against the inactivating effects of high temperature in vitro. Furthermore, the addition of exogenous invertase into production medium at 35°C restored the growth rate to that at 32°C. These results indicated that growth decreased on medium containing sucrose at 35°C due to a decrease in invertase activity, and that addition of betaine was an effective way to enhance growth on this medium at a higher temperature. Offprint requests to: Y. Kawahara     

Effects of temperature on the cytokinin requirement of tobacco calluses

A cytokinin-nonrequiring strain (T22) was isolated from a cytokinin-requiringcallus strain T2 of tobacco (Nicotiana tabacum var. Bright Yellow). Strain T22 grew rapidly on the medium without added kinetinat 26?C. But its growth was completely suppressed at 16?C. Thisgrowth suppression at 16?C was partially recoverable by supplyingkinetin. Benzyladenine, geranylaminopurine and 2-methyl-8-benzylamino-s-triazolo[l,5-a]pyrazinewere also effective in removing growth suppression at 16?C.Adenine, which was unable to remove growth suppression of T22at 16?C, promoted the growth of T2 at 26?C, but not at 16?C.Physiological differences between cytokinin-requiring and -nonrequiringcalluses are discussed. ¹Part II in the series "Studies, on Plant Tissue Cultures";for Part I, See Plant & Cell Physiol. 9: 103–114 (1968). (Received May 29, 1970; )     

Effects of Acetaldehyde on Growth and Biosynthesis in an Algal Flagellate Polytomella caeca*

SYNOPSIS. Eight mM acetaldehyde prevented growth of Polytomella caeca in acetate medium and differentially changed the labeling by acetate-2-¹⁴C of chromatographically separated RNA hydrolysate products. Four mM acetaldehyde also prevented growth in acetate medium unless uridine, thymidine, guanosine, uracil, thymine or quanine were present; then growth was delayed by 2 or 4 days. Orotidine, orotic acid, dihydroortic acid, cytosine, cytidine, adenosine and adenine had no effect on growth in acetate medium containing 4 mM acetaldehyde. One mM acetaldehyde promoted growth in acetate medium and also could serve as a sole carbon source. One mM propionaldehyde, but not butyraldehyde, was also an adequate carbon source. Four mM acetaldehyde, as a sole carbon source, supported growth only when uridine was present.     

Thermoactive extracellular proteases of <Emphasis Type="Italic">Geobacillus caldoproteolyticus</Emphasis>, sp. nov., from sewage sludge

A proteolytic thermophilic bacterial strain, designated as strain SF03, was isolated from sewage sludge in Singapore. Strain SF03 is a strictly aerobic, Gram stain-positive, catalase-positive, oxidase-positive, and endospore-forming rod. It grows at temperatures ranging from 35 to 65°C, pH ranging from 6.0 to 9.0, and salinities ranging from 0 to 2.5%. Phylogenetic analyses revealed that strain SF03 was most similar to Saccharococcus thermophilus, Geobacillus caldoxylosilyticus, and G. thermoglucosidasius, with 16S rRNA gene sequence identities of 97.6, 97.5 and 97.2%, respectively. Based on taxonomic and 16S rRNA analyses, strain SF03 was named G. caldoproteolyticus sp. nov. Production of extracellular protease from strain SF03 was observed on a basal peptone medium supplemented with different carbon and nitrogen sources. Protease production was repressed by glucose, lactose, and casamino acids but was enhanced by sucrose and NH₄Cl. The cell growth and protease production were significantly improved when strain SF03 was cultivated on a 10% skim-milk culture medium, suggesting that the presence of protein induced the synthesis of protease. The protease produced by strain SF03 remained active over a pH range of 6.0–11.0 and a temperature range of 40–90°C, with an optimal pH of 8.0–9.0 and an optimal temperature of 70–80°C, respectively. The protease was stable over the temperature range of 40–70°C and retained 57 and 38% of its activity at 80 and 90°C, respectively, after 1 h.     

Studies on the growth and encystment ofPolytomella agilis

Summary Changes in cell population density, cell protein and cell carbohydrate levels of the flagellatePolytomella agilis during growth in batch cultures on a complex medium at 25° C, 18° C and 9° C were examined. At 25° C, cell protein and carbohydrate levels fell markedly during exponential population growth. At 18° C, cell protein values remained fairly constant, while cell carbohydrate increased. During growth at 9° C, both cell protein and carbohydrate increased. Changes in these cellular parameters were related to marked differences in the rates of population growth at these temperatures. The cellular locus of changes observed at 25° C was examined by centrifugal fractionation of disrupted cells on density gradients.Encystment was studied in cultures grown at 25° C. The maximum number of cysts produced was 5–10 per cent of the peak population density; the rate and degree of encystment were not increased by growth on conditioned medium or starvation. Cysts isolated from mixed populations by a centrifugal procedure remained viable, even after storage at —5° C for several weeks. The soluble proteins of separately disrupted motile and encysted forms ofP. agilis were examined and compared by disc electrophoresis.This investigation was supported by U.S.P.H.S. Grant AI-07926-02.     

Enhanced production and characterization of a highly thermostable alkaline protease from Bacillus sp. P-2

An obligatory alkalophilic Bacillus sp. P-2, which produced a thermostable alkaline protease was isolated by selective screening from water samples. Protease production at 30 °C in static conditions was highest (66 U/ml) when glucose (1% w/v) was used with combination of yeast extract and peptone (0.25% w/v, each), in the basal medium. Protease production by Bacillus sp. P-2 was suppressed up to 90% when inorganic nitrogen sources were supplemented in the production medium. Among the various agro-byproducts used in different growth systems (solid state, submerged fermentation and biphasic system), wheat bran was found to be the best in terms of maximum enhancement of protease yield as compared to rice bran and sunflower seed cake. The protease was optimally active at pH 9.6, retaining more than 80% of its activity in the pH range of 7–10. The optimum temperature for maximum protease activity was 90 °C. The enzyme was stable at 90 °C for more than 1h and retained 95 and 37% of its activity at 99 °C and 121 °C, respectively, after 1 h. The half-life of protease at 121 °C was 47 min.     

Growth characteristics and salt requirement ofDeleya halophila in a defined medium

Growth characteristics ofDeleya halophila (CCM 3662^T), were determined using a defined medium.Deleya halophila presented its optimal growth at 7.5% (wt/vol) total salts when it was grwon at incubation temperatures of 32° and 42°C; when the temperature was lowered to 22°C, it had optimal growth at 5% (wt/vol) total salts. This bacterium had an absolute requirement for the Na⁺ cation; it could not be replaced by other cations. NaBr, Na₂SO₄, or Na₂S₂O₃ could be substituted for NaCl in the growth medium, but, when MgCl₂, KCl, LiCl, NaI, NaF, or NaNO₃ was substituted for NaCl, the medium did not support growth. Growth rates of the strain were diverse when NaCl was partially replaced by other sodium salts. Finally,D. halophila suffered loss of viability when the culture was diluted into different low NaCl concentrations (0, 0.5%, and 1%, wt/vol) at various incubation temperatures.     

A halotolerantPlanococcus from Antarctic Dry Valley soil

A halotolerantPlanococcus (strain A4a) was isolated from saline Antarctic Dry Valley soil.Planococcus strain A4a grew over wide ranges of temperature (0°C–40°C) and NaCl concentrations (0–2.0M). When the NaCl concentration of the growth medium was increased, the total intracellular free amino acid concentration increased; however, the intracellular potassium concentration did not increase. This result suggested that intracellular free amino acids functioned as compatible solutes for growth ofPlanococcus strain A4a at elevated NaCl concentrations. The halotolerant and psychrotolerant nature ofPlanococcus strain A4a would appear to provide it with the capacity for growth in the saline Antarctic Dry Valley soil environment from which it was isolated.     

Production of extracellular lactase fromFusarium moniliforme

Summary A strain ofFusarium moniliforme, previously used for microbial protein production, excreted lactase (-D-galactosidase, EC.3.2.1 23) when cultivated either in a whey liquid medium or on a wheat bran solid medium. The enzyme produced in both media had pH and temperature optima of 4–5 and 50–60°C respectively and was particularly suitable for processing acid whey.In the whey culture, maximum lactase yield was observed after 95 h of growth at 30°C and whey lactose concentration of 9%. The addition of ammonium, potassium and sodium ions to the growth medium considerably enhanced lactase production. A maximum enzyme yield corresponding to hydrolysis of 3 nmoles o-nitrophenyl--D-galactopyranoside sec^–1 ml^–1 of growth medium, at pH 5 and 60°C, was obtained.In the wheat bran culture, the maximum enzyme yield was obtained after 140 h of growth at 28–30°C. A marked increase in the enzyme production was observed when nitrate or phosphate was added to the growth medium. Also, the addition of certain agricultural by-products (molasses, whey) enhanced lactase production. The observed maximum yield corresponding to the hydrolysis of 182 nmoles of ONPG sec^–1 g^–1 of wheat bran, at pH 5 and 60°C, is comparable to that reported for certain microorganisms used commercially for lactase production.