Domoic acid production by Pseudo-nitzschia calliantha Lundholm, Moestrup et Hasle (bacillariophyta) isolated from the Black Sea

A species of Pseudo-nitzschia isolated from Sevastopol Bay, Black Sea, was examined for its toxicity. The species was identified as P. calliantha Lundholm, Moestrup et Hasle based on SEM and TEM examination. Domoic acid (DA) was detected in batch culture throughout the growth cycle of P. calliantha. The production of DA by this diatom species was confirmed by fluorenylmethoxycarbonyl (FMOC) derivatization and HPLC-fluorescence method. The cellular DA level was higher in the early exponential phase, with the maximum value of 0.95 pg DA cell⁻¹. In the stationary phase, the cellular DA levels declined. This is the first record of a DA producing diatom isolated from the Black Sea.     

Effects of Arachidonic Acid on Dopamine Synthesis, Spontaneous Release, and Uptake in Striatal Synaptosomes from the Rat

Abstract: Arachidonic acid (AA) markedly stimulated, in a dose-dependent manner, the spontaneous release of [³H]dopamine ([³H]DA) continuously synthesized from [³H]tyrosine in purified synaptosomes from the rat striatum. As estimated by simultaneous measurement of the rate of [³H]H₂O formation (an index of [³H]tyrosine conversion into [³H]DOPA), the AA response was associated with a progressive and dose-dependent reduction of [³H]DA synthesis. In contrast to AA, arachidic acid, oleic acid, and the methyl ester of AA (all at 10⁻⁴ M ) did not modify [³H]DA release. The AA (3 × 10⁻⁵ M )-evoked release of [³H]DA was not affected by inhibiting AA metabolism, with either 5,8,11,14-eicosatetraynoic acid or metyrapone, suggesting that AA acts directly and not through one of its metabolites. AA also inhibited in a dose-dependent manner [³H]DA uptake into synaptosomes, with a complete blockade observed at 10⁻⁴ M . However, AA (10⁻⁴ M ) still stimulated [³H]DA spontaneous release in the presence of either nomifensine or other DA uptake inhibitors, indicating that AA both inhibits DA reuptake and facilitates its release process. Finally, the AA (10⁻⁴ M )-evoked release of [³H]DA was not affected by protein kinase A inhibitors (H-89 or Rp -8-Br-cAMPS) but was markedly reduced in the presence of protein kinase C inhibitors (Ro 31-7549 or chelerythrine).     

PRODUCTION OF 7-DEOXY-OKADAIC ACID BY A NEW CALEDONIAN STRAIN OF PROROCENTRUM LIMA (DINOPHYCEAE)

7-Deoxy-okadaic acid and okadaic acid were identified as the major diarrhetic shellfish poisoning (DSP) toxins produced by a New Caledonian strain of Prorocentrum lima Ehrenberg. Dinophysistoxin-1 was not produced by this strain. The cellular concentrations of 7-deoxy-okadaic acid were about one tenth that of okadaic acid and were maximal (∼1.4 pg·cell ^{− 1}) during the stationary growth phase of batch culture. Autolytic hydrolysis of cell extracts did not increase the concentrations of 7-deoxy-okadaic acid, whereas okadaic acid production increased more than 4-fold, indicating that 7-deoxy-okadaic acid, unlike okadaic acid, is not directly derived from large sulfated precursors. 7-Deoxy-okadaic acid could be detected by liquid chromatography-selected reaction monitoring mass spectrometry, HPLC-fluorescence detection after derivatization with 9-anthryldiazomethane (ADAM), and inhibition of protein phosphatases. The solvent washes currently used for solid-phase clean-up of ADAM-derivatized DSP samples elute derivatized 7-deoxy-okadaic acid, indicating that the current sample clean-up protocol for HPLC-fluorescence detection would miss any contamination by this toxin.     

Photosynthesis and carbon metabolism in photoautotrophic cell suspensions of Chenopodium rubrum from different phases of batch growth

Rapidly dividing photoautotrophic cell suspensions from Chenopodium rubrum L. assimilated about 85 μmol CO₂ (mg chlorophyll)⁻¹ h⁻¹. During the late stationary phase of culture growth, CO₂ fixation rate was reduced to about 60 μmol CO₂ (mg chlorophyll)⁻¹ h⁻¹. Actively dividing cells characteristically incorporated a smaller proportion of ¹⁴C into starch than cells from non-dividing stationary phases. In rapidly dividing cells, [¹⁴C]-turnover from free sugars, sugar-phosphates, organic and amino acids was substantially higher compared to non-dividing cells from stationary growth phase. Higher proportions of photosynthetically fixed carbon were channelled into proteins, lipids and structural components in actively dividing cells than in non-dividing cells. In the latter. ¹⁴C was preferentially channeled into starch, and a striking increase in starch accumulation was observed. The transfer of non-dividing, stationary growth-phase cells into fresh culture medium resulted in an increase in the maximum extractable activities of some enzymes involved in the glycolytic and dark respiratory pathways and in the citric acid cycle. In contrast, the maximum extractable activities of the chloroplastic enzymes, ribulose-1,5-bisphosphate carboxylase (EC 4.1.1.38) and NADP⁺-glyceraldehyde-3-phosphate dehydrogenase (EC 1.2.1.13) were highest after the cells had reached the stationary growth phase.     

Kinetics of photoautotrophic growth of Marchantia polymorpha cells in suspension culture

Chlorophyllous, cultured cells of Marchantia polymorpha L. (HYA-2 cell line) grow actively under photoautotrophic (lithotrophic) conditions. The maximum specific growth rate (μ_cell) was 0.64 day⁻¹ and the doubling time was 1.08 days under optimum conditions (165 μmol m⁻² s⁻¹, 1% carbon dioxide enriched atmosphere, 25^°C). The photosynthetic activity was 1.30 μmol CO₂-fixed (10⁶ cells)⁻¹ h⁻¹ [66 μmol (mg chlorophyll)⁻¹ h⁻¹] in the exponential phase. The growth course has two distinct phases, an exponential and a linear one. The exponential phase is observed as long as the population density is sufficiently low (less than 7.9 × 10⁶ cells ml⁻¹), so that practically all individual cells directly receive the full incident light. The effect of light on the specific growth rate is a linear function of photon flux density. Linear growth occurs after the population density is so high that the incident light is almost completely absorbed by the cell suspension. The growth rate is a logarithmic function of photon flux density, in contrast to the specific growth rate, and saturates at high photon flux densities. The conditions of maximum growth, however, are not wellbalanced between cell mass production and cell division. Therefore, the maximum growth does not continue for a long time.     

GROWTH RATE RELATIONSHIPS TO PHYSIOLOGICAL INDICES OF NUTRIENT STATUS IN MARINE DIATOMS

The growth of two species of marine diatom, Thalassiosira weissflogii (Grunow) and Thalassiosira pseudonana (Hustedt), was followed in batch cultures at four concentrations of dissolved inorganic carbon from N- and C-replete lag phase into N- and/or C-deplete stationary phase. Results describe the relationship between carbon-specific growth rate (μ_C) and chl a :carbon (chl a :C) and glutamine:glutamate (gln:glu) ratios with changes in the cells' nutritional status (N:C), during the utilization of either NO₃ ⁻ or NH₄ ⁺ . The use of the gln:glu ratio as an index of N:C requires further clarification. For both species and N sources, N stress resulted in a decrease in μ_C, chl a :C, and N:C relative to μ_Cmax values, whereas C stress resulted in a decrease in μ_C and an increase in chl a :C and N:C relative to μ_Cmax values. Both species attained a chl a :C ratio of approximately 15 μg·g ^{− 1} at μ_Cmax using either N source. However, this value was not necessarily an indicator of maximal growth rate. NC colimitation resulted in decreased μ_C to values less than 20% of μ_Cmax with only minor changes in chl a :C and N:C relative to μ_Cmax values. Chl a :C results suggest a similarity between the light stress and C stress responses of marine diatoms. The potential for C stress in the marine environment needs to be addressed.     

PRODUCTION OF MUCILAGE BY THE ADRIATIC EPIPELIC DIATOM CYLINDROTHECA CLOSTERIUM (BACILLARIOPHYCEAE) UNDER NUTRIENT LIMITATION

The carbon partitioning of the epipelic diatom Cylindrotheca closterium (Ehrenberg) Reiman and Lewin isolated from the Adriatic Sea was studied in the laboratory under varying scenarios of nutrient limitation. Total number of cells, photosynthesis measured at 695 μmol photons·m ^{− 2}·s ^{− 1} irradiance (P_{695- μ mol}), chlorophyll ( a + c ) content, respiration, extracellular polymeric substances (EPS), total particulate carbohydrate (TPC), and dissolved carbohydrate were evaluated under nitrogen and phosphorus deficiencies in culture. The highest total number of cells was found in the control, whereas the nitrogen-limited treatment showed the lowest value. During the transition phase of growth, photosynthesis in the nitrogen-limited treatment was 3-fold lower than in the phosphorus-limited treatment and 4-fold lower than in the control. Differences in respiration rates and chlorophyll ( a + c ) content were even more marked. Dissolved carbohydrate remained the same in all the treatments, whereas during the transition and stationary phase, EPS presented the highest values under phosphorus limitation and the lowest in the control treatment. The production of EPS was closely linked to the periods of carbon assimilation (transition phase) in the nutrient depleted treatments, especially in the phosphorus-limited treatment. These results point out the relevance of the nutrient imbalance (nitrogen or phosphorus) in the production of EPS by the benthic or resuspended diatoms and suggest that these diatoms play an important role in nutrient-unbalanced systems like sediments or marine snow.     

Demethylation and cleavage of dimethylsulfoniopropionate in marine intertidal sediments

Abstract Demethylation and cleavage of dimethylsulfoniopropionate (DMSP) was measured in three different types of intertidal marine sediments: a cyanobacterial mat, a diatom-covered tidal flat and a carbonate sediment. Consumption rates of added DMSP were highest in cyanobacterial mat slurries (59 μmol DMSP 1⁻¹) and lower in slurries from a diatom mat and a carbonate tidal sediment (24 and 9 μmol DMSP 1⁻¹ h⁻¹, respectively). Dimethyl sulfide (DMS) and 3-mercaptopropionate (MPA) were produced simultaneously during DMSP consumption, indicating that cleavage and demethylation occurred at the same time. Viable counts of DMSP-utilizing bacteria revealed a population of 2 × 10⁷ cells cm⁻³ sediment (90% of these cleaved DMSP to DMS, 10% demethylated DMSP to MPA) in the cyanobacterial mat, 7 × 10⁵ cells cm⁻³ in the diatom mat (23% cleavers, 77% demethylators), and 9 × 10⁴ cells cm⁻³ (20% cleavers and 80% demethylators) in the carbonate sediment. In slurries of the diatom mat, the rate of MPA production from added 3-methiolpropionate (MMPA) was 50% of the rate of MPA formation from DMSP. The presence of a large population of demethylating bacteria and the production of MPA from DMSP suggest that the demethylation pathway, in addition to cleavage, contributes significantly to DMSP consumption in coastal sediments.     

Efficacy of certain disinfectants against infectious pancreatic necrosis virus

The virucidal properties of iodophor, chlorine (sodium hypochlorite), formalin, thimerosal (organic mercurial compound), malachite green, and acriflavine were tested on infectious pancreatic necrosis virus (IPNV). Iodine and chlorine showed good activity, but efficacy depended on the concentration of virus, the presence of organic matter (calf serum), and water _pH. Water hardness (0-300 mg 1⁻¹ as CaCO₃) did not affect virucidal activity. In a 5 min exposure, 4 mg 1⁻¹ available iodine inactivated 10^3.9 TCID₅₀ m1⁻¹ IPNV but 16 mg 1⁻¹ iodine were needed for inactivation of 10^6.3TCID₅₀m1⁻¹. The addition of 0-5% calf serum significantly reduced the iodine concentration and the virucidal activity. In comparison, 4 mg 1⁻¹ chlorine were needed to inactivate 10⁴⁶ TCID₅₀ m1⁻¹ IPNV in 5 min. However, the addition of 0-07 % serum greatly reduced the chlorine concentration and extended the virucidal contact time to 30 min or more. IPNV at 10^6.3 TCID₆₀ m1⁻¹ was not inactivated by exposures for 60 min to 0-2% formalin, 10 min to 0-2% thimerosal, 60 min to 5 mg 1⁻¹ malachite green, or 20 min to 500 mg 1⁻¹ acriflavine. However, acriflavine at 0-5 mg 1⁻¹ in cell culture media prevented the development of cytopathology caused by IPNV and may be useful in the treatment of the disease.     

HALOGENATED MONOTERPENE PRODUCTION IN REGENERATED PLANTLET CULTURES OF OCHTODES SECUNDIRAMEA (RHODOPHYTA, CRYPTONEMIALES)

Three genera of macrophytic red algae ( Ochtodes , Plocamium , and Portieria ) contain novel halogenated monoterpenes. To develop an in vitro system for studying halogenated monoterpene production, a laboratory tissue culture was established for Ochtodes secundiramea (Montagne) Howe (Cryptonemiales, Rhizophyllidaceae). Specifically, callus cells were induced from thallus explants of O. secundiramea plants. Shoot primordia regenerated from callus cells and developed into plantlets that released tetraspores. A sporeling from one of these tetraspores was selected for further culture. Axenic plantlets were cultivated in ESS-enriched natural seawater. Thallus tissue was cut into small pieces before subculture. Each plantlet grew as a symmetrical array of highly branched shoot tissues emanating from a common center, ultimately assuming a spherical shape of 20 mm diameter 4 weeks after subculture. Specific growth rates of over 20% per day were attained in bubble-aerated flask culture at an optimal temperature of 26° C and photosynthetic saturation light intensity of 200 μmol photons·m ^{− 2}·s ^{− 1}. The cultured plantlets contained myrcene and seven halogenated monoterpenes, based on gas chromatography–mass spectroscopy analysis of dichloromethane extracts. Although bromomyrcene was the dominant acyclic halogenated monoterpene, the cyclic halogenated monoterpenes chondrocole C and ochtodene were also produced by the O. secundiramea plantlet cultures. Halogenated monoterpene production at light-saturated growth conditions increased with decreasing nitrogen availability below 1.0 mM medium nitrate concentration (N:P ratios of 1.6:1 to 32:1). The halogenated monoterpene yield was insensitive to medium nitrate concentrations above 1.0 mM (N:P ratios of 32:1 to 320:1), where the bromomyrcene yield was 1700 μg per gram of dry cell mass.     

Identification and characterization of Bacillus anthracis by multiplex PCR analysis of sequences on plasmids pXO1 and pXO2 and chromosomal DNA

Abstract Bacillus anthracis can be identified on the basis of the detection of virulence factor genes located on two plasmids, pXO1 and pXO2. Thus isolates lacking both pXO1 and pXO2 are indistinguishable from closely related B. cereus group bacteria. We developed a multiplex PCR assay for characterization of B. anthracis isolates, and simultaneous confirmation of the species identity independent of plasmid content. The assay amplifies lef, cya, pag (pXO1) and cap (pXO2) genes, and a B. anthracis specific chromosomal marker, giving an easy-to-read profile. This system unambiguously identified virulent (pXO1⁺/2⁺) and avirulent (pXO1⁺/2⁻, pXO1⁻/2⁺ and pXO1⁻/2⁻) strains of B. anthracis and distinguished 'anthrax-like' strains from other B. cereus group bacteria.     

FIRST REPORT OF THE CYANOTOXINS CYLINDROSPERMOPSIN AND DEOXYCYLINDROSPERMOPSIN FROM RAPHIDIOPSIS CURVATA (CYANOBACTERIA)

A strain of Raphidiopsis (Cyanobacteria) isolated from a fish pond in Wuhan, P. R. China was examined for its taxonomy and production of the alkaloidal hepatotoxins cylindrospermopsin (CYN) and deoxy-cylindrospermopsin (deoxy-CYN). Strain HB1 was identified as R. curvata Fritsch et Rich based on morphological examination of the laboratory culture. HB1 produced mainly deoxy-CYN at a concentration of 1.3 mg·g ^{− 1} (dry wt cells) by HPLC and HPLC-MS/MS. CYN was also detected in trace amounts (0.56 μg·g ^{− 1}). A mouse bioassay did not show lethal toxicity when tested at doses up to 1500 mg dry weight cells·kg ^{− 1} body weight within 96 h, demonstrating that production of primarily deoxy-CYN does not lead to significant mouse toxicity by strain HB1. The presence of deoxy-CYN and CYN in R. curvata suggests that Raphidiopsis belongs to the Nostocaceae, but this requires confirmation by molecular systematic studies. Production of these cyanotoxins by Raphidiopsis adds another genus, in addition to Cylindrospermopsis , Aphanizomenon , and Umezakia , now known to produce this group of hepatotoxic cyanotoxins. This is also the first report from China of a CYN and deoxy-CYN producing cyanobacterium.     

Cyclic AMP-Elevating Agents Inhibit Proliferation of Keratinizing Guinea Pig Epidermal Cells

Cultured guinea pig epidermal cells and dermal fibroblasts were chosen as model systems to study possible growth inhibition by cyclic AMP (cAMP)-elevating drugs. The rate of DNA synthesis was used to assay growth rate in control cultures and those treated with agents which increase intracellular cAMP, including dibutyryl cAMP, the phosphodiesterase inhibitors papaverine and theophylline and agents which stimulate adenylate cyclase, iso-proterenol and prostaglandin E₂ methyl ester. Treatment for 24 h with dibutyryl cAMP (10⁻⁴ to 10⁻² M) inhibited cell growth by 50 to 95%, whereas butyrate(10⁻⁴M) showed essentially no effect. This inhibition could not be attributed to decreased precursor transport or to drug toxicity. Papaverine (10⁻⁶ to 10⁻⁴ M) and theophylline (10⁻⁴ to 10⁻³ M) also gave dose-dependent growth inhibition as did isoproterenol and prostaglandinE₂methyl ester. Radioautographic analysis of grain density after dibutyryl cAMP treatment and ³H-thymidine incorporation indicated no S-phase inhibition. Cyclic AMP-elevating drugs appear to inhibit growth of guinea-pig epidermal cells and dermal flbroblasts by blocking the cell cycle in G₋₂, M₁, or G. ₋₁     

THE RELEASE OF COPPER-COMPLEXING LIGANDS BY THE BROWN ALGA FUCUS VESICULOSUS (PHAEOPHYCEAE) IN RESPONSE TO INCREASING TOTAL COPPER LEVELS

The growth of Fucus vesiculosus L. germlings in chemically defined culture media containing a range of Cu concentrations (20–1000 nM) was monitored simultaneously with measurement of the Cu speciation in the media by competitive equilibrium-adsorptive cathodic stripping voltammetry. Fucus vesiculosus germlings were found to exude Cu-complexing ligands with conditional stability constants of the order of 1.6 × 10¹¹. Ligand concentrations increased with increasing total dissolved Cu concentrations (Cu_T) until a concentration of 500–800 neq Cu·L⁻¹ was reached. Concentrations of the ligand exceeded Cu_T in treatments containing 20 and 100 nM Cu, were similar to Cu_T in the 500-nM Cu treatment, but were less than Cu_T in the 1000-nM treatment. Therefore, [Cu²⁺] were calculated to be at concentrations of 10⁻¹¹− 10⁻¹⁰ M in the 20- and 100-nM treatments, 10⁻⁹ M in the 500-nM treatment, and 10⁻⁷ M in the 1000-nM treatment. Growth rates were lowest at Cu²⁺ concentration > 10⁻⁹. These results are discussed within the context of the potential roles for exuded copper-complexing ligands.     

KINETICS OF [3H]ACETYLCHOLINE SYNTHESIS AND RELEASE IN PRIMARY CELL CULTURES FROM MAMMALIAN CNS

Abstract— The present study was undertaken to characterize the cholinergic system of primary cell cultures of mouse and rat CNS.
In confirmation of previous reports, primary cultures were found to contain choline acetyltransferase (ChAc). Furthermore they contain acetylcholine (ACh) as measured by two different bioassays. They also synthesize [³H]ACh from [³H]Choline offered to the cultures.
The formation of [³H]ACh is inhibited in the presence of hemicholinium-3 (10⁻⁶ m ) to 50% or ouabain (10⁻³ m ) to 20% of the values found in untreated cultures. Omission of Na ⁺ from the incubation solution also diminishes the [³H]ACh formation of the cells.
[³H]ACh is released upon depolarisation by K⁺ ions in a concentration dependent manner. The release can be prevented by lack of Ca²⁺ ions in the incubation solution.     

MORPHOLOGICAL CHANGES OF CULTURED MYOCARDIAL CELLS DUE TO CHANGE IN EXTRACELLULAR CALCIUM ION CONCENTRATION

Increase in the extracellular Ca²⁺ concentration from low (≤ 10⁻⁷ M) to normal (10⁻³ M) caused morphological changes of cultured myocardial cells obtained from fetal mouse heart. The extracellular Na⁺ and K⁺ concentrations of the normal medium (10⁻³ M Ca²⁺) did not significantly affect the genesis of these morphological changes. Like Ca²⁺, Ba²⁺ and Sr²⁺, but not Mg²⁺, Co²⁺ or Ni²⁺, could induce morphological changes. Increase in the extracellular Ca²⁺ concentration from 10⁻⁸ M to 10⁻³M also caused excess uptake of ⁴⁵Ca²⁺ by cultured myocardial cells. B–16CW 1 cells, which did not show these morphological changes, did not take up excess ⁴⁵Ca²⁺ on this treatment. Treatments, such as addition of verapamil or incubation at pH 6.3, which reduced the genesis of morphological changes, reduced the rate of ⁴⁵Ca²⁺ uptake by myocardial cells. These facts show that the morphological changes of myocardial cells induced by increasing the extracellular Ca²⁺ concentration from low to normal are due to excess uptake of Ca²⁺ by the myocardial cells.
The morphological changes of cultured myocardial cells induced by increasing the extracellular Ca²⁺ concentration from low to normal were reversed on further incubation of the cells in medium with or without Ca²⁺.     

Regulation of DOPA Decarboxylase Activity in Brain of Living Rat

Abstract: To test the hypothesis that l -DOPA decarboxylase (DDC) is a regulated enzyme in the synthesis of dopamine (DA), we developed a model of the cerebral uptake and metabolism of [³H]DOPA. The unidirectional blood-brain clearance of [³H]DOPA ( K ^D₁) was 0.049 ml g⁻¹ min⁻¹. The relative DDC activity ( k ^D₃) was 0.26 min⁻¹ in striatum, 0.04 min⁻¹ in hypothalamus, and 0.02 min⁻¹ in hippocampus. In striatum, 3,4-[³H]dihydroxyphenylacetic acid ([³H]DOPAC) was formed from [³H]DA with a rate constant of 0.013 min⁻¹, [³H]homovanillic acid ([³H]HVA) was formed from [³H]DOPAC at a rate constant of 0.020 min⁻¹, and [³H]HVA was eliminated from brain at a rate constant of 0.037 min⁻¹. Together, these rate constants predicted the ratios of endogenous DOPAC and HVA to DA in rat striatum. Pargyline, an inhibitor of DA catabolism, substantially reduced the contrast between striatum and cortex, in comparison with the contrast seen in autoradiograms of control rats. At 30 min and at 4 h after pargyline, k ^D₃ was reduced by 50% in striatum and olfactory tubercle but was unaffected in hypothalamus, indicating that DDC activity is reduced in specific brain regions after monoamine oxidase inhibition. Thus, DDC activity may be a regulated step in the synthesis of DA.     

Cytochrome c-mediated caspase-9 activation triggers apoptosis in Streptococcus pyogenes-infected epithelial cells

Epithelial cells are the initial sites of host invasion by group A Streptococcus pyogenes (GAS), and their infection of epithelial cells has been suggested to induce apoptosis. However, the mechanism responsible for bacteria–host interaction and the induction of apoptosis has not been clearly understood. We demonstrate here that human pharyngeal epithelial HEp-2 cells became apoptotic with DNA fragmentation by invasion of GAS strains JRS4 (M6⁺, F1⁺) and JRS145 (M6⁻, F1⁺ mutant of JRS4), whereas apoptotic cellular changes were not observed in SAM1 (M6⁺, F1⁻ mutant) or SAM2 (M6⁻, F1⁻ mutant) infected HEp-2 cells. Confocal microscopy revealed that Bax translocation to mitochondria and cytochrome c release occurred after 4 h of infection. Western blot analyses showed that the amounts of Bcl-2 and Bcl-x_L were decreased in the mitochondria of infected cells. In addition, we demonstrated that the release of nuclear histone from infected cells was prevented by the addition of caspase-9 inhibitor (Ac-LEHD-CHO). We conclude that the internalization of GAS in epithelial cells is necessary and sufficient for the induction of apoptosis, which is initiated by mitochondrial dysfunction, and the mechanism of GAS-induced apoptosis is clearly different from that induced by other intracellular invasive bacteria, e.g. Shigella and Salmonella species.     

The rpoD gene functions as a multicopy suppressor for mutations in the chaperones, CbpA, DnaJ and DnaK, in Escherichia coli

Abstract The CbpA protein is an analog of the DnaJ molecular chaperone of Escherichia coli . The dnaJ ⁻ cbpA ⁻ double-null mutant exhibits severe defects in cell growth, namely, a very narrow temperature range for growth. To gain insight into the functions of CbpA as well as DnaJ, we isolated a multicopy suppressor gene that permits this dnaJ ⁻ cbpA ⁻~ mutant to grow normally at low temperatures. The suppressor gene was identified as rpoD , the gene that encodes the major σ ⁷⁰. The biological implications of this finding are examined and discussed.     

Friend erythroleukemia cell differentiation: induction by retinoids

Abstract. Growth in the presence of retinoids was found to induce erythroid differentiation in Friend murine erythroleukemia (MEL) cells in culture. The program of differentiated functions expressed by retinoid-treated cells was quite similar to that promoted by other inducers of MEL cell differentiation. For example, 70% or more of induced cells synthesized hemoglobin which accumulated to a level of 8 μg–10 μg per 10⁶ cells. The level of acetylcholinesterase activity increased two to five-fold in induced cells, and induction by retinoids, like induction by dimethylsulfoxide (DMSO), promoted the appearance of cell surface lumps or 'blebs'. All-trans retinaldehyde, which promoted maximum hemoglobin and acetylcholinesterase synthesis at a concentration of 5 × 10⁻⁷ M, was found to be a more potent inducer than all-trans retinoic acid or retinol, which both showed maximum induction at 1 × 10⁻⁵ M. Like differentiation promoted by DMSO, retinoid-induced differentiation was inhibited by 10⁻⁷ M dexamethasone.