Role of external calcium in sodium and chloride transport in the gills of seawater-adaptedMugil capito

Summary When the mulletMugil capito is transferred to medium lacking Ca⁺⁺ (either Ca⁺⁺-free seawater or distilled water) the passive permeability of the gill to Na⁺ and Cl^– is increased and the activating effect of external K⁺ on the Na⁺ and Cl^– effluxes in hyposaline media is inhibited. The permeability of the gill increases progressively in proportion to the time of Ca⁺⁺ deprivation; it declines when Ca⁺⁺ is added again to the external medium. The active mechanisms for ion excretion are not reversible. At external Ca⁺⁺ concentrations from 0.1 to 10 mM the Na⁺ permeability is constant but the activation of Na⁺ efflux by K⁺ shows a maximum at a Ca⁺⁺ concentration of about 1 mM. For activation of Cl^– efflux external bicarbonate must be present, in addition to Ca⁺⁺, suggesting the existence of a Cl^–/HCO ₃ ^– exchange. The mechanism by which Ca⁺⁺ controls the passive branchial permeability is thus probably different from that involved in K⁺ activation of ion excretion. The Ca⁺⁺ effect on the K⁺ sensitive ionic excretory mechanisms seems to be related to intracellular Ca⁺⁺ movements. Thus, on the one hand, substances such as Ruthenium Red and La⁺⁺⁺ which both inhibit Ca⁺⁺ exchange, in media containing Ca⁺⁺ and HCO ₃ ^– also inhibit K⁺ activation of Na⁺ and Cl^– effluxes; on the other hand, the ionophore A 23187, a stimulator of Ca⁺⁺ exchange, when added to these media, activates the Na⁺ and Cl^– effluxes; its maximal effect on the Na⁺ flux occurs at 2 mM Ca⁺⁺.Abbreviations ASW-Ca artificial seawater minus calcium - DW deionised water - DWCa deionised water with 1 mM Ca⁺⁺ added - DWCaHCO ₃ DW with calcium plus bicarbonate - DWHCO ₃ DW with 1 mM sodium bicarbonate added - FW freshwater (tap water) - FWK freshwater with K⁺ added - P. D. potential difference - SW seawater The experiments reported in this paper were done with Jean Maetz who tragically died in August 1977. It is the last report about several years of friendly collaboration     

Components in the inoculum determine the kinetics of Azotobacter vinelandii cultures and the molecular weight of its alginate

In cultures of Azotobacter vinelandii inoculated using washed cells (avoiding exhausted broth components) alginates of a higher molecular weight (1200 kDa) than those obtained in cultures conventionally inoculated (350 kDa), were produced. Also, when comparing conventionally inoculated cultures with those inoculated with washed-cells, the alginate lyase activity was delayed and the final polymer concentration decreased from 4.8 to 3.5 g l^–1. This suggests that components in the exhausted inoculum broth play important regulatory roles in alginate biosynthesis and needs to be taken into account when describing polymer biosynthesis.     

Improvement of indole alkaloid production in Catharanthus roseus cell cultures by osmotic shock

Catharanthine production in Catharanthus roseussuspension cell cultures was increased by about 4-fold to 28 mg l^–1, 23 mg l^–1and 24 mg l^–1by adding sodium alginate, mannitol or polyvinyl pyrrolidone, respectively. Sodium alginate and polyvinyl pyrrolidone also enhanced ajmalicine production to 28 mg l^–1and 31 mg l^–1, respectively. Up to 55–70% of the total alkaloids were released into the medium. These treatments could stimulate higher alkaloid production in C. roseuscell cultures than NaCl and KCl stresses. The possible mechanisms for these treatment effects are discussed.     

Establishment of Orthosiphon stamineus Cell Suspension Culture for Cell Growth

Callus of Orthosiphon stamineus could be induced successfully from petiole, leaf and stem tissues but not roots when cultured on MS medium containing different concentration of NAA (0–4.0 mg l^–1) and 2,4-D (0–2.0 mg l^–1). Highest fresh weight callus production was obtained from leaf explants and those with best friability were obtained on MS medium plus 1.0 mg l^–1 2,4-D plus 1.0 mg l^–1 NAA. Cell suspension cultures were established from these cultures. The appropriate cell inoculum size for the best cell growth was 0.75 g of cells in 20 ml culture medium. Cell suspension culture using MS medium supplemented with 1.0 mg l^–1 2,4-D promoted the best cell growth with maximum biomass of 8.609 g fresh weight and 0.309 g dry weight 24 days after inoculation. Cells that grew in MS medium supplemented with 1.0 mg l^–1 2,4-D reached the stationary growth phase in 15 days as compared to the cells that grew in MS medium supplemented with 1.0 mg l^–1 2,4-D + 1.0 mg l^–1 NAA reached the stationary phase in 24 days. MS medium supplemented with 1.0 mg l^–1 2,4-D was considered as the maintenance medium for maintaining the optimum cell growth of O. stamineus in the cell suspension cultures with 2-week interval subculture.     

PTH release stimulated by high extracellular potassium is associated with a decrease in cytosolic calcium in bovine parathyroid cells

We employed the calcium (Ca⁺⁺)-sensitive, intracellular dye QUIN-2 to examine the role of cytosolic Ca⁺⁺ in the stimulation of PTH release by high extracellular potassium (K⁺) concentrations. Addition of 55 mM KCl to cells incubated with 115 mM NaCl and 5 mM KCl lowered cytosolic Ca⁺⁺ at either low (0.5 mM) extracellular Ca⁺⁺ (from 194±14 to 159±9 nM, p<.01, N=6) or high (1.5 mM) extracellular calcium (from 465±38 to 293±20 nM, p<.01, N=10). This reduction in cytosolic Ca⁺⁺ was due to high K⁺$\text{per}\text{se}$ and not to changes in tonicity since addition of 55 mM NaCl was without effect while a similar decrease in cytosolic Ca⁺⁺ occurred when cells were resuspended in 60 mM NaCl and 60 mM KCl. PTH release was significantly (p<.01) greater at 0.5 and 1.5 mM Ca⁺⁺ in QUIN-2-loaded cells incubated with 60 mM NaCl and 60 mM KCl than in those exposed to 115 mM NaCl and 5 mM KCl. In contrast to most secretory cells, therefore, stimulation of PTH release by high K⁺ is associated with a decrease rather than an increase in cytosolic Ca⁺⁺.     

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.     

Invertase and phosphatase of yeast in a phosphate-limited continuous culture

Summary Deficiency of inorganic phosphate caused the hyper production of invertase and the derepression of acid phosphatase in a continuous culture ofSaccharomyces carlsbergensis. The specific invertase activity was 40,000 enzyme units per g dry cell weight at a dilution rate lower than 0.05 h^–1 with a synthetic glucose medium of which the molecular ratio of KH₂PO₄ to glucose was less than 0.006. This activity is eight fold higher than in a batch growth and 1.5 fold as much as the highest enzyme activity observed so far in a glucose-limited continuous culture.For the hyper production of invertase, it is necessary to culture the yeast continuously by keeping the Nyholm's conservative inorganic phosphate concentration at less than 0.2 m mole per g dry weight cell. The derepression of acid phosphatase brought about by phosphate deficiency, was similar in both batch and continuous cultures.Nomenclature D dilution rate of continuous culture (h^–1) - E_i invertase concentration in culture (enzyme unit l^–1) - E_p acid phosphatase concentration in culture (enzyme unit l^–1) - P inorganic phosphate concentration in culture (mM) - S glucose concentration in culture (mM) - X cell concentration in culture (g dry weight cell l^–1) Greek Letter specific rate of growth (h^–1) Suffix f feed - 0 initial value     

Effects of Cd++ on short-circuit current across epithelial membranes

Summary Cadmium ion (Cd⁺⁺) significantly increased potential difference (PD) and short-circuit current (SCC) across isolated frog skin when added to the outside Ringer's solution at 10^–4, 10^–3 and 5×10^–3 m concentration. Resistance was reduced by 10^–4 m Cd⁺⁺ but not significantly changed by the higher concentrations. When SCC was first stimulated by vasopressin, 10^–4 and 10^–3 m Cd⁺⁺ produced additive stimulation which was reversible by washing with Cd⁺⁺-free Ringer's. If SCC was first stimulated by Cd⁺⁺, further stimulation by vasopressin was additive with 10^–4 m Cd⁺⁺ but completely inhibited by 10^–3 m Cd⁺⁺. Elevating the calcium ion (Ca⁺⁺) concentration of the outer Ringer's from 10^–3 m to 5×10^–3 m or 10^–2 m prior to Cd⁺⁺ treatment did not reduce the magnitude of SCC stimulation by Cd⁺⁺. Removal of Ca⁺⁺ from the outside Ringer's with 2×10^–3 m EDTA increased SCC as predicted. Subsequent addition of 5×10^–3 m Cd⁺⁺ drastically reduced SCC below control levels while equimolar concentrations of Cd⁺⁺ and EDTA reduced SCC only to control levels. These results suggest that Cd⁺⁺ interacts with the components of the apical plasma membranes of epithelial cells which are associated with the stimulation of SCC by vasopressin and Ca⁺⁺ removal and may be a useful probe for elucidating these components.     

Mixed-acid fermentation and polysaccharide production by Lactobacillus helveticus in milk cultures

Lactobacillus helveticus grown in milk with pH control at 6.2 had a slower growth rate (=0.27 h^–1) and produced less exopolysaccharide (49 mg l^–1) but increased lactic acid production (425 mM) compared to cultures without pH control (=0.5 h^–1, 380 mg exopolysaccharide l^–1, and 210 mM lactate), respectively. Both cultures displayed a mixed-acid fermentation with formation of acetate, which is linked not only to citrate metabolism, but also to alternative pathways from pyruvate.     

Chiroptical characterisation of polysaccharide secondary structures in the presence of interfering chromophores: Chain conformation of inter-junction sequences in calcium alginate gels

The changes in chain conformation which accompany Ca²⁺-induced gelation of alginate have been investigated by a combined circular dichroism (c.d.) and optical rotatory dispersion (o.r.d.) approach. C.d. changes in the carboxyl n→π^* spectral region, arising predominantly from formation of calcium poly-l-guluronate junctions, were monitored for three alginates of widely differing block composition. The corresponding o.r.d. changes, calculated by Kronig-Kramers trnasform, were subtracted from the observed changes in o.r.d. on gelation, to “unmask” the changes in optical activity of the conformation-sensitive electronic transitions of the polysaccharide backbone. Contributions to the “residual” o.r.d. difference spectra from poly-l-guluronate, poly-d-mannuronate, and heteropolymeric chain-sequences were calculated by solution of simultaneous equations at each wavelength. Results for poly-guluronate sequences are in agreement with previous studies of alginate films by vacuum ultraviolet c.d., and with observed c.d. and o.r.d. changes on addition of calcium ions to homopolyguluronate segments in solution. The much greater changes in backbone optical activity calculated for polymannuronate and heteropolymeric chain-sequences, however, have no counterpart in the behaviour of these sequences in isolation. An explanation is proposed in terms of stretching of interconnecting sequences between calcium polyguluronate junctions in alginate gels, to give a more-extended chain conformation than in free solution.     

Muscle Calcium Metabolic Effects of Hypokinesia in Physically Healthy Subjects

The incompleteness of electrolyte deposition during hypokinesia (HK; diminished movement) is the defining factor of electrolyte metabolic changes, yet the effect of prolonged HK upon electrolyte deposition is poorly understood. The objective of this investigation was to determine the effect of muscle calcium (Ca⁺⁺) changes upon Ca⁺⁺ losses during prolonged HK. Studies were conducted on 20 physically healthy male volunteers during a pre-experimental period of 30 days and an experimental period of 364 days. Subjects were equally divided in two groups: control subjects (CS) and experimental subjects (ES). The CS group ran average distances of 9.2?±?1.2 km day^?l, and the ES group walked average distances of 2.3?±?0.2 km day^?l. Muscle Ca⁺⁺ contents, plasma Ca⁺⁺ concentrations, and Ca⁺⁺ losses in urine and feces were measured in the experimental and control groups of subjects. The muscle Ca⁺⁺ contents decreased (p?<?0.05), and plasma Ca⁺⁺ levels and Ca⁺⁺ losses in the urine and feces increased (p?<?0.05) in the ES group compared with their pre-experimental levels and the values in their respective CS group. Muscle Ca⁺⁺ contents and plasma Ca⁺⁺ levels and urinary and fecal Ca⁺⁺ losses did not change in the CS group compared to their pre-experimental levels. It is concluded that prolonged HK increase plasma Ca⁺⁺ concentrations and Ca⁺⁺ losses in Ca⁺⁺ deficient muscle indicating decreased Ca⁺⁺ deposition.     

Two calcium currents in the somatic membrane of mollusc neurons

Two new types of calcium channels were discovered during research in ionic currents in the somatic membrane ofHelix pomatia neurons, using an intracellular perfusion technique. Apart from the principal calcium current described in the literature with a holding potential of about –110 mV, an additional calcium current was observed activated at depolarizations of –40 to –80 mV and was not reduced when the cell was perfused with solutions containing fluoride anions. The kinetics of this current were well described in the context of the Hodgkin and Huxley model with a time constant of activation of 6–8 msec and of inactivation of 300–600 msec. It increased in amplitude as the Ca⁺⁺ rose in the cellular environment but was reduced by extracellular addition of the Ca⁺⁺ antagonists Co⁺⁺, Ni⁺⁺, and Cd⁺⁺, and the organic blockers nifedipine and verapamil. The association constants of these substances with corresponding channels determined from the maximum of the current-voltage relationship were 2 (Ca⁺⁺), 3 (Co⁺⁺), 0.06 (nifedipine), and 0.2 mM (verapamil). The properties detected in this component of calcium conductance are compared with those of calcium channels in other excitatory formations and its possible functional role is discussed.A. A. Bogomolets Institute of Physiology, Academy of Sciences of the Ukrainian SSR, Kiev. Translated from Neirofiziologiya, Vol. 17, No. 5, pp. 627–633, September–October, 1985.     

Ca2+ transport by opercular epithelium of the fresh water adapted euryhaline teleost,Fundulus heteroclitus

We examined transepithelial transport of Ca²⁺ across the isolated opercular epithelium of the euryhaline killifish adapted to fresh water. The opercular epithelium, mounted in vitro with saline on the serosal side and fresh water (0.1 mmol·l^–1 Ca²⁺) bathing the mucosal side, actively transported Ca²⁺ in the uptake direction; net flux averaged 20–30 nmol·cm^–2·h^–1. The rate of Ca²⁺ uptake varied linearly with the density of mitochondria-rich cells in the preparations. Ca²⁺ uptake was saturable, apparent K _1/2 of 0.348 mmol·l^–1, indicative of a multistep transcellular pathway. Ca²⁺ uptake was inhibited partially by apically added 0.1 mmol·l^–1 La³⁺ and 1.0 mmol·l^–1 Mg²⁺. Addition of dibutyryl-cyclic adenosine monophosphate (0.5 mmol·l^–1)+0.1 mmol·l^–1 3-isobutyl-l-methylxanthine inhibited Ca²⁺ uptake by 54%, but epinephrine, clonidine and isoproterenol were without effect. Agents that increase intracellular Ca²⁺, thapsigargin (1.0 mol·l^–1, serosal side), ionomycin (1.0 mol·l^–1, serosal side) and the calmodulin blocker trifluoperazine (50 mol·l^–1, mucosal side) all partially inhibited Ca²⁺ uptake. In contrast, apically added ionomycin increased mucosal to serosal unidirectional Ca²⁺ flux, indicating Ca²⁺ entry across the apical membrane is rate limiting in the transport. Verapamil (10–100 mol·l^–1, mucosal side), a Ca²⁺ channel blocker, had no effect. Results are consistent with a model of Ca²⁺ uptake by mitochondria rich cells that involves passive Ca²⁺ entry across the apical membrane via verapamil-insensitive Ca²⁺ channels, intracellular complexing of Ca²⁺ by calmodulin and basolateral exit via an active transport process. Increases in intracellular Ca²⁺ invoke a downregulation of transcellular Ca²⁺ transport, implicating Ca²⁺ as a homeostatic mediator of its own transport.Abbreviations DASPEI 2-(4-dimethylaminostyryl)-N-ethylpyridinium iodide - db-cAMP dibutyryl-cyclic adenosine monophosphate - FW fresh water - G _t transepithelial conductance - I _sc short-circuit current - IBMX 3-isobutyl-1-methylxanthine - SW sea water - TFP trifluoperazine - V _t transepithelial potential     

Technical considerations for assessing alterations in skeletal muscle sarcoplasmic reticulum Ca++-sequestration functionin vitro

A multiple measurement system for assessing sarcoplasmic reticulum (SR) Ca⁺⁺-ATPase activity and Ca⁺⁺-uptake was used to examine the effects of SR fractionation and quick freezing on rat white (WG) and red (RG) gastrocnemius muscle.In vitro measurements were performed on whole muscle homogenates (HOM) and crude microsomal fractions (CM) enriched in SR vesicles before and after quick freezing in liquid nitrogen. Isolation of the CM fraction resulted in protein yields of 0.96±0.1 and 0.99±0.1 mg/g in WG and RG, respectively. The percent Ca⁺⁺-ATPase recovery for CM compared to HOM was 14.5% (WG) and 10.1% (RG). SR Ca⁺⁺-activated Ca⁺⁺-ATPase activity was not affected by quick freezing of HOM or CM, but basal ATPase was reduced (P<0.05) in frozen HOM (5.12±0.18–3.98±0.20 mole/g tissue/min in WG and from 5.39±0.20–4.48±0.24 mole/g tissue/min in RG). Ca⁺⁺-uptake was measured at a range of physiological free [Ca⁺⁺] using the Ca⁺⁺ fluorescent dye Indo-1. Maximum Ca⁺⁺-uptake rates when corrected for initial [Ca⁺⁺]_f were not altered in HOM or CM by quick freezing but uptake between 300 and 400nM free Ca⁺⁺ was reduced (P<0.05) in quick frozen HOM (1.30±0.1–0.66±0.1 mole/g tissue/min in WG and 1.04±0.2–0.60±0.1 mole/g tissue/min in RG). Linear correlations between Ca⁺⁺-uptake and Ca⁺⁺-ATPase activity measured in the presence of the Ca⁺⁺ ionophore A23187 were r=+0.25, (P<0.05) and r=+0.74 (P<0.05) in HOM and CM preparations, respectively, and were not altered by freezing. The linear relationships between HOM and CM maximum Ca⁺⁺-uptake (r=+0.44, P<0.05) and between HOM and CM Ca⁺⁺-ATPase activity (r=+0.34, P<0.05) were also not altered by tissue freezing. These data suggest that alterations in maximal SR Ca⁺⁺-uptake function and maximal Ca⁺⁺-ATPase activity may be measured in both HOM and CM fractions following freezing and short term storage. (Mol Cell Biochem139, 41–52, 1994)     

Growing of potato microplants in the presence of alginate-silverthiosulfate capsules reduces ethylene-induced culture abnormalities during minimal growth conservation in vitro

Alginate capsules containing anionic complex silverthiosulfate (STS) [Ag(S₂O₃)₂ ^3-] were placed in the culture tubes over minimal growth media for studying whether STS could be used at higher concentrations to sustain ethylene-inhibiting effect during conservation of microplants in six potato (Solanum tuberosum L.) genotypes in vitro. Different concentrations of STS (0.1, 0.5, 1.0, 2.0, 3.0 and 4.0 mM) were incorporated into the alginate capsules, and 12 alginate-STS capsules were tested in semisolid (7 g l^–1 agar) minimal growth medium containing 20 g l^–1 mannitol and 40 g l^–1 sucrose. This indirect supplementation of STS through alginate capsules rendered reduced total availability of STS in the minimal growth medium as compared to when it was directly supplemented in the medium at a given concentration. Growing of microplants in the presence of alginate-STS capsules improved the microplant growth and reduced the culture abnormalities over a period of 16 months under minimal growth conditions. Most significant improvement in microplant growth was in terms of green leaf production and leaf senescence. Vitrification, flaccidity and other growth abnormalities, viz., leaf loss, abnormal stem swelling and necrosis were not observed when the microplants were conserved in the presence of alginate-STS capsules. To foster optimum microplant growth and reduce culture abnormalities, potato microplants could favourably be maintained in the presence of 0.5–1.0 mM alginate-STS capsules during minimal growth conservation. Higher concentrations of alginate-STS capsules (>1.0 mM) were in general detrimental to potato microplant growth and survival during prolonged storage in vitro. Release kinetics of STS from the alginate-STS capsules, its distribution in the medium and accumulation of silver in potato microplants were studied using ^110mAg. The release rate of STS from the capsules was found to be directly proportional to the concentrations of alginate-STS capsules. A distinct concentration gradient of ^110mAg in the medium with increasing depth from top to bottom, and its accumulation in the potato microplants may be attributed to the improved anti-ethylene action of STS at higher concentrations through alginate capsules.     

Calcium-dependent phosphatidylinositol phosphorylation in lamellibranch gill lateral cilia

Summary Pure lateral (L) cilia may be separated from the remaining (R) cilia types ofMytilus edulis gill by serotonin activation after hypertonic shock. The two classes of cilia were permeabilized with 0.012% Triton X-100 and incubated with³²P-labeled ATP at low Ca⁺⁺ (10^–7 M), where L cilia beat, or in high Ca⁺⁺ (2–20 M), where L cilia arrest but R cilia are active. The labeled cilia were separated into axoneme and membrane-matrix fractions by detergent extraction, subjected to SDS-PAGE on 5–15% gels, and autoradio-graphed. Neither cilia type undergoes Ca⁺⁺-dependent phosphorylation of specific proteins, suggesting that neither Ca⁺⁺-induced arrest in L cilia nor the Ca⁺⁺ activation of other cilia is phosphorylation-dependent. However, lipid phosphorylation in L cilia is highly Ca⁺⁺-dependent. Identified by thin-layer chromatography, the phospholipid that is phosphorylated in a Ca⁺⁺-dependent manner is phosphatidylinositol 4-phosphate (PIP), yielding the 4,5-bisphosphate (PIP₂). PIP₂ increases at least 3-fold under Ca⁺⁺-arrest conditions.Aequipecten gill lateral cilia, which require higher Ca⁺⁺ levels for arrest, show even more striking changes. In both cases, the effect is maximal at micromolar Ca⁺⁺ levels. Phosphorylation of other lipids is Ca⁺⁺-independent. In the Ca⁺⁺-insensitive or activated R cilia, PIP₂ levels are intermediate, increasing only marginally with increased [Ca⁺⁺]. The formation of PIP₂ in response to Ca⁺⁺, as opposed to its breakdown to form inositol 1,4,5-trisphosphate and diacylglycerol, may be characteristic of a Ca⁺⁺ transport system. Mechanically sensitive, the L cilia arrest as a consequence of an inward flux of Ca⁺⁺ ions, acting directly on the axoneme. After Ca⁺⁺-induced arrest, the formation of PIP₂ may be involved in sequestering Ca⁺⁺ or in augmenting Ca⁺⁺ pump activity, thus reducing Ca⁺⁺ levels so that motility may resume quickly.     

CHARACTERIZATION OF LYMPHOCYTE TRANSFORMATION INDUCED BY ZINC IONS

Lymphocyte cultures from all normal human adults are stimulated by zinc ions to increase DNA and RNA synthesis and undergo blast transformation. Optimal stimulation occurs at 0.1 mM Zn⁺⁺. Examination of the effects of other divalent cations reveals that 0.01 mM Hg⁺⁺ also stimulates lymphocyte DNA synthesis. Ca⁺⁺ and Mg⁺⁺ do not affect DNA synthesis in this culture system, while Mn⁺⁺, Co⁺⁺, Cd⁺⁺, Cu⁺⁺, and Ni⁺⁺ at concentrations of 10^-7–10^-3 M are inhibitory. DNA and RNA synthesis and blast transformation begin to increase after cultures are incubated for 2–3 days with Zn⁺⁺ and these processes reach a maximum rate after 6 days. The increase in Zn⁺⁺-stimulated lymphocyte DNA synthesis is prevented by rendering cells incapable of DNA-dependent RNA synthesis with actinomycin D or by blocking protein synthesis with cycloheximide or puromycin. Zn⁺⁺-stimulated DNA synthesis is also partially inhibited by 5'-AMP and chloramphenicol. Zn⁺⁺ must be present for the entire 6-day culture period to produce maximum stimulation of DNA synthesis. In contrast to its ability to independently stimulate DNA synthesis, 0.1 mM Zn⁺⁺ inhibits DNA synthesis in phytohemagglutinin-stimulated lymphocytes and L1210 lymphoblasts.     

Continuous acetone-butanol fermentation: influence of vitamins on the metabolic activity of Clostridium acetobutylicum

Summary A detailed investigation was undertaken to examine the influence of biotin and paminobenzoic acid (PABA) in chemostat cultures of Clostridium acetobutylicum ATCC 824. Initiation of chemostat cultures with a basic synthetic medium (biotin 0.01 mg l^–1; PABA 1.0 mg l^–1) have resulted in a low biomass together with a low specific rate of solvent production. A different picture emerged on elevating the concentration of both vitamins 8-fold: biomass and specific rates (solvent production, glucose consumption) were increased and a solvent productivity of 2.54 g l^–1 h^–1 at the solvent concentration of 13.1 g l^–1 was achieved. It has also been shown that PABA was the only limiting factor for the metabolism of Clostridium acetobutylicum in the basic synthetic medium and that the optimised concentration was 8 mg l^–1 in the chemostat cultures with the growth conditions employed.     

Production of a hypoglycemic, extracellular polysaccharide from the submerged culture of the mushroom, Phellinus linteus

Mycelial growth and extracellular polysaccharide production of Phellinus linteus were optimal at pH 5 and 25 °C. Maximum biomass production (14.2 g l^–1) was after 15 d of cultivation, whereas, extracellular polysaccharide was maximal (3.5 g l^–1) after 21 d. The hypoglycemic effect of the polysaccharide, investigated in streptozotocin-induced diabetic rats, decreased plasma glucose, total cholesterol and triacylglycerol concentrations by 49%, 32%, and 28%, respectively, and aspartate aminotransferase activity by 20%. The results indicate the potential of this polysaccharide to prevent hyperglycemia in diabetic patients.     

Regeneration of haploid plants from isolated microspores of asparagus (Asparagus officinalis L.)

High percentages of micro-calli and micro-derived embryos were produced from isolated asparagus microspores at late uninucleate stage on MS liquid medium supplemented with 1.0 mg l^–1 2,4-D and 0.5 mg l^–1 BA. Two types of calli, namely compact callus (CC) and loose callus (LC), were found. Plantlets were regenerated via organogenesis, when these calli were transferred onto MS solid medium supplemented with 1.0 mg l^–1 BA and 0.2 mg l^–1 IBA 6 weeks. Embryos were produced from liquid cultured microspores, or from solid cultured micro-calli. The frequencies of haploid plant production from organogenesis and embryogenesis were compared. Effects of plant growth regulators on callus production, plantlet regeneration, and haploid plant production were tested. The combination of BA 1.0 mg l^–1 and IBA 0.2 mg l^–1 resulted the highest precentage of haploid plant production (7.7% from CC, 4.3% from LC).Abbreviations 2,4-D 2,4-dichlorophenoxyacetic acid - IBA 3-indolybutyric acid - BA 6-binzyladinine - NAA naphtalene acetic acid - MS Murashige and Skoog