Isolation and kinetic properties of phosphorylase from Yellow Yam Tuber (Dioscorea cayenensis)

Two forms of α-glucan phosphorylase were isolated fromDioscorea cayenensis by ammonium sulphate gradient solubilization and further purified using starch adsorption and ion exchange chromatography on DEAE-Sephadex A-25 colunm. Fraction DC₁was purified 80 fold with specific activity of 400 umol min⁻¹ mg⁻¹ protein, while fraction DC₂showed 60 fold purification with specific activity of 300 umol min⁻¹ mg⁻¹ protein. Both enzyme forms were activated by AMP, magnesium, calcium and inhibited by ATP, ADP, ADP-glucose and sodium sulphate. They showed absolute primer requirement and obeyed Michaelis-Menten kinetics. The two forms have different Km values and different pH optima. The presence of amino acids and intermediates of glycolysis had no effect on the activities of the enzymes. There are no unusual properties of the enzymes which suggest that they function primarily in starch biosynthesis inD. cayenensis tuber.     

Culture requirements for optimal expression of 1α,25-dihydroxyvitamin D3-enhanced thyrotropin secretion

Summary An effect of the hormone, 1α,25-dihydroxyvitamin D₃ [1,25(OH)₂D₃] on hormone secretion by normal rat pituitary cells was investigated in vitro. Based on previous findings using GH₄C₁ cells, dispersed anterior pituitary cell cultures were prepared and maintained in serum-free conditions for up to 6 d. Under these circumstances, there was no effect of 1,25(OH)₂D₃ to alter medium or cell-associated levels of thyrotropin (TSH), prolactin (PRL), or growth hormone (GH). Cultures maintained under these conditions had lower medium and cell-associated hormone levels and lesser responses to agonists than cultures maintained in serum-supplemented medium. In the presence of 10% charcoal-treated fetal bovine serum, treatment with 10⁻⁸ M 1,25(OH)₂D₃ for 24 h selectively increased TRH (10⁻¹⁰ to 10⁻⁷ M)-induced TSH secretion (P<0.001), with maximal enhancement observed at 10⁻⁹ M TSH-releasing hormone (TRH). Enhancement of TSH secretion by 1,25(OH)₂D₃ was detected after 15 min exposure to TRH. There was no effect on agonist-induced PRL or GH secretion or on cell-associated hormone levels. The effect was evident after 24 h treatment with 1,25(OH)₂D₃, and decreased thereafter. Several other steroid hormones had no effect on 10⁻⁹ M TRH-induced TSH secretion. These data contrast with the effect of 1,25(OH)₂D₃ in GH cells. They suggest that 1,25(OH)₂D₃ may act selectively in the normal pituitary to modulate TSH secretion.     

Light and growth temperature alter carbon isotope discrimination and estimated bundle sheath leakiness in C<Subscript>4</Subscript> grasses and dicots

We combined measurements of short-term (during gas exchange) and long-term (from plant dry matter) carbon isotope discrimination to estimate CO₂ leakiness from bundle sheath cells in six C₄ species (three grasses and three dicots) as a function of leaf insertion level, growth temperature and short-term irradiance. The two methods for determining leakiness yielded similar results (P > 0.05) for all species except Setaria macrostachya, which may be explained by the leaf of this species not being accommodating to gas exchange. Leaf insertion level had no effect on leakiness. At the highest growth temperature (36°C) leakiness was lower than at the two lower growth temperatures (16°C and 26°C), between which no differences in leakiness were apparent. Higher irradiance decreased leakiness in three species, while it had no significant effect on the others (there was an opposite trend in two species). The inverse response to increasing irradiance was most marked in the two NAD-ME dicots (both Amaranthus species), which both showed almost 50% leakiness at low light (300 μmol quanta m⁻² s⁻¹) compared to about 30% at high light (1,600 μmol quanta m⁻² s⁻¹). NADP-ME subtype grasses had lower leakiness than NAD-ME dicots. Although there were exceptions, particularly in the effect of irradiance on leakiness in Sorghum and Boerhavia, we conclude that conditions favourable to C₄ photosynthesis (high temperature and high light) lead to a reduction in leakiness.     

Ponderosa Pine Responses to Elevated CO2and Nitrogen Fertilization

The effects of elevated CO₂ (ambient, +175, and +350 μl l⁻¹) and nitrogen fertilization (0, 100, and 200 kg N ha⁻¹ yr⁻¹ as ammonium sulfate) on C and N accumulations in biomass and soils planted with ponderosa pine (Pinus ponderosa Laws) over a 6-year study period are reported. Both nitrogen fertilization and elevated CO₂ caused increases in C and N contents of vegetation over the study period. The pattern of responses varied over time. Responses to CO₂ decreased in the +175 μl l⁻¹ and increased in the +350 μl l⁻¹ after the first year, whereas responses to N decreased after the first year and became non-significant by year six. Foliar N concentrations were lower and tree C:N ratios were higher with elevated CO₂ in the early years, but this was offset by the increases in biomass, resulting in substantial increases in N uptake with elevated CO₂. Nitrogen budget estimates showed that the major source of the N for unfertilized trees, with or without elevated CO₂, was likely the soil organic N pool. There were no effects of elevated CO₂ on soil C, but a significant decrease in soil N and an increase in soil C:N ratio in year six. Nitrogen fertilization had no significant effect on tree C:N ratios, foliar N concentrations, soil C content, soil N content, or soil C:N ratios. There were no significant interactions between CO₂ and N treatments, indicating that N fertilization had no effect on responses to CO₂ and that CO₂ treatments had no effect on responses to N fertilization. These results illustrate the importance of long-term studies involving more than one level of treatment to assess the effects of elevated CO₂.     

Construction of an Aspergillus nidulans multicopy transformant for the xlnB gene and its use in purifying the minor X24 xylanase

 Using recombinant DNA techniques, an Aspergillus nidulans multicopy transformant for the gene xlnB coding for the minor X₂₄ xylanase has been constructed. When grown on glucose as sole carbon source this transformant secretes 114 U of xylanase (mg protein)^-1. In this culture condition, X₂₄ is the only xylanase secreted and the predominant protein in the culture filtrate. This strategy has been used to purify the X₂₄ enzyme to homogeneity. The purified xylanase showed a single band on sodium dodecyl sulphate/ polyacrylamide gel electrophoresis with a molecular mass of 24 kDa and had an isoelectric point of approximately 3.5. The enzyme was a non-debranching endo-1,4-β-xylan xylanohydrolase highly specific for xylans and showed optimal activity at pH 5.5 and 52°C. The X₂₄ xylanase had a Michaelis constant, K _m, of 12.43 mg oat spelt xylan ml^-1 and a V _max of 1639 μmol min^-1 (mg protein)^-1. Received: 17 May 1995/Received last revision: 25 September 1995/Accepted: 29 September 1995     

Characterization of the Lactose Transport System in the Strain Bifidobacterium bifidum DSM 20082

Lactose was fermented but not assimilated by the strain Bifidobacterium bifidum DSM 20082. The sugar uptake was measured with lactose ¹⁴C. K _m and V _max values were respectively 2.6 mM and 12.11 nmol/min/mg of cell protein. The lactose transport system and the β-D-galactosidase were stimulated when the cells were grown with lactose, but isopropyl-β-D-thiogalactopyranoside had no effect. Lactose uptake was inhibited by compounds which interfered with proton and metal ionophore. Na⁺, Li⁺, or K⁺ did not affect incorporation of lactose. Furthermore, the lactose uptake decreased when an inhibitor of ATP synthesis was used. From the results of this study, the strain contained an active lactose transport system, probably a proton symport as described for Escherichia coli but with a different regulation system.     

Characterization of Active Lentinula edodes Glucoamylase Expressed and Secreted by Saccharomyces cerevisiae

The gene encoding Lentinula edodes glucoamylase (GLA) was cloned into Saccharomyces cerevisiae, expressed constitutively and secreted in an active form. The enzyme was purified to homogeneity by (NH₄)₂SO₄ fractionation, anion exchange and affinity chromatography. The protein had a correct N-terminal sequence of WAQSSVIDAYVAS, indicating that the signal peptide was efficiently cleaved. The recombinant enzyme was glycosylated with a 2.4% carbohydrate content. It had a pH optimum of 4.6 and a pH 3.4–6.4 stability range. The temperature optimum was 50°C with stability ≤50°C. The enzyme showed considerable loss of activity when incubated with glucose (44%), glucosamine (68%), galactose (22%), and xylose (64%). The addition of Mn⁺⁺ activated the enzyme by 45%, while Li⁺, Zn⁺⁺, Mg⁺⁺, Cu⁺, Ca⁺⁺, and EDTA had no effect. The enzyme hydrolyzed amylopectin at rates 1.5 and 8.0 times that of soluble starch and amylose, respectively. Soluble starch was hydrolyzed 16 and 29 times faster than wheat and corn starch granules, respectively, with the hydrolysis of starch granules using 10× the amount of GLA. Apparent K_m and V_max for soluble starch were estimated to be 3.0 mg/ml and 0.13 mg/ml/min (40°C, pH 5.3), with an apparent k_cat of 2.9×10⁵ min⁻¹.     

N2O emission from soil following combined application of fertiliser-N and ground weed residues

Emissions of N₂O and CO₂ were measured following combined applications of ¹⁵N-labelled fertiliser (100 μg N g⁻¹; 10 atom % excess ¹⁵N) and organic olive crop weed residues (Avena sativa, Ononis viscosa, Ridolfia segetum and Olea europea; 100 μg N g⁻¹) to a silt loam soil under controlled environment conditions. The objective was to determine the effect of varying combinations of inorganic fertiliser and plant residues on these emissions and soil mineral N dynamics. Emissions were generally increased following application of residues alone, with 23 ng N₂O–N g⁻¹ soil (2 ng N₂O–N g⁻¹ soil mg⁻¹ biomass) and 389 μg CO₂–C g⁻¹ soil (39 μg CO₂–C g⁻¹ soil mg⁻¹ biomass) emitted over 28 days after addition of the Ridolfia residues in the absence of fertiliser-N. N₂O emissions from these residue-only treatments were strongly negatively correlated with residue lignin content (r = −0.91; P < 0.05), total carbon content (r = −0.90; P < 0.05) and (lignin + polyphenol)-to-N ratio (r = −0.70; P < 0.1). However, changes in the net input of these compounds through application of 25:75, 50:50 and 75:25 proportional mixtures of Avena and Ononis residues had no effect on emissions compared to their single (0:100 or 100:0) applications. Addition of fertiliser-N increased emissions (by up to 30 ng N₂O–N g⁻¹ 28 days⁻¹; 123%), particularly from the low residue-N treatments (Avena and Ridolfia) where a greater quantity of biomass was applied, resulting in emissions above that of the sum from the unfertilised residue and fertilised control treatments. In contrast, fertiliser application had no impact on emissions from the Olea treatment with the highest polyphenol (2%) and lignin (11%) contents due to strong immobilisation of soil N, and the ¹⁵N–N₂O data indicated that residue quality had no effect on the denitrification of applied fertiliser-N. Such apparent inconsistencies mean that before the potential for manipulating N input (organic + inorganic) to lower gaseous N losses can be realised, first the nature and extent of interactions between the different N sources and any interactions with other compounds released from the residues need to be better understood.     

Cardiovascular control via angiotensin II and circulating catecholamines in the spiny dogfish, Squalus acanthias

The contributions of circulating angiotensin II (Ang II) and catecholamines to cardiovascular control in the spiny dogfish were investigated by monitoring the effects of exogenous and endogenous dogfish [Asn¹, Pro³, Ile⁵]-Ang II (dfAng II) on plasma catecholamine levels and blood pressure regulation. Bolus intravenous injections of dfAng II (30–1200 pmol kg⁻¹) elicited dose-dependent increases in plasma adrenaline and noradrenaline concentrations, caudal artery pressure (P _CA), and systemic vascular resistance (R _S), and a decrease in cardiac output (Q). Similar injections of Ang II in dogfish pre-treated with the α-adrenoceptor antagonist yohimbine (4 mg kg⁻¹) also elicited dose-dependent increases in plasma catecholamine levels yet the cardiovascular effects were abolished. Dogfish treated with yohimbine were hypotensive and had elevated levels of plasma Ang II and catecholamines. Intravenous injection of the smooth muscle relaxant papaverine (10 mg kg⁻¹) elicited a transient decrease in P _CA and R _S, and increases in plasma Ang II and catecholamine levels. In dogfish first treated with lisinopril (10⁻⁴ mol kg⁻¹), an angiotensin converting enzyme inhibitor, papaverine treatment caused a more prolonged and greater decrease in P _CA and R _S, an attenuated increase in plasma catecholamines, and no change in plasma Ang II. By itself, lisinopril treatment had little effect on P _CA, and no effect on R _S, plasma Ang II or catecholamines. In yohimbine-treated dogfish, papaverine treatment elicited marked decreases in P _CA, R _S, and Q, and increases in plasma Ang II and catecholamines. Among the three papaverine treatments, there was a positive linear relationship between plasma Ang II and catecholamine concentrations, and the cardiovascular and hormonal changes were most pronounced in the yohimbine + papaverine treatment. Therefore, under resting normotensive conditions, while Ang II does not appear to be involved in cardiovascular control, catecholamines play an important role. However, during a hypotensive stress elicited by vascular smooth muscle relaxation, Ang II indirectly contributes to cardiovascular control by dose-dependently stimulating catecholamine release. Accepted: 24 February 1999     

Effects of spironolactone and RU486 on gene expression and cell proliferation after freshwater transfer in the euryhaline killifish

We have explored the possible mechanisms by which mineralocorticoid (MR) and glucocorticoid (GR) receptors regulate the response to freshwater transfer in the gills of the euryhaline killifish Fundulus heteroclitus. Killifish were implanted with RU486 (GR antagonist) or spironolactone (MR antagonist) at doses of 0.1–1.0 mg g⁻¹, and subsequently transferred from 10‰ brackish water to freshwater. Compared to brackish water sham fish, mRNA expression of CFTR and NKCC1 decreased in the gills of sham fish transferred to freshwater, whereas Na⁺,K⁺–ATPase α_1a mRNA expression and α protein abundance, as well as cell proliferation (detected using BrdU) increased. Spironolactone inhibited the normal increase in cell proliferation and Na⁺,K⁺-ATPase expression after freshwater transfer. RU486 increased plasma cortisol levels and may have slightly inhibited Na⁺,K⁺–ATPase activity, but did not change α _1a expression. RU486 had no effect on cell proliferation in the non-lamellar region of the gills, but increased proliferation in the lamellar region. Neither antagonist inhibited the suppression of CFTR or NKCC1 expression after freshwater transfer. Glucocorticoid receptor expression was reduced in all sham and antagonist treatments compared to untreated controls, but no other consistent differences were observed. The effects of spironolactone suggest that MR is important for regulating ion transport in killifish gills after freshwater transfer.     

The relevance of seed size in modulating leaf physiology and early plant performance in two tree species

The size of seeds and the microsite of seed dispersal may affect the early establishment of seedlings through different physiological processes. Here, we examined the effects of seed size and light availability on seedling growth and survival, and whether such effects were mediated by water use efficiency. Acorns of Quercus petraea and the more drought-tolerant Quercus pyrenaica were sowed within and around a tree canopy gap in a sub-Mediterranean forest stand. We monitored seedling emergence and measured predawn leaf water potential (Ψ_pd), leaf nitrogen per unit area (N_a), leaf mass per area, leaf carbon isotope composition (δ¹³C) and plant growth at the end of the first summer. Survival was measured on the next year. Path analysis revealed a consistent pattern in both species of higher δ¹³C as Ψ_pd decreased and higher δ¹³C as seedlings emerged later in the season, indicating an increase in ¹³C as the growing season is shorter and drier. There was a direct positive effect of seed size on δ¹³C in Q. petraea that was absent in Q. pyrenaica. Leaf δ¹³C had no effect on growth but the probability of surviving until the second year was higher for those seedlings of Q. pyrenaica that had lower δ¹³C on the first year. In conclusion, leaf δ¹³C is affected by seed size, seedling emergence time and the availability of light and water, however, leaf δ¹³C is irrelevant for first year growth, which is directly dependent on the amount of seed reserves.     

Inhibition of lymphocyte growth by spermidine in medium containing fetal bovine serum

Summary The effect of spermidine and fetal bovine serum on DNA, RNA, and protein synthesis in phytohemagglutinin-stimulated human lymphocytes was investigated. At 10⁻⁴ M spermidine, DNA, RNA, and protein synthesis ceased and 70% of the original cell population died within 62 hr. Lower spermidine concentrations had no significant effect on DNA and protein synthesis, but caused an early, unexplained increase in the rate of RNA synthesis. Heating at 56°C for 30 min had no effect on the plasma amine oxidase activity in fetal bovine and horse sera but abolished the activity in human plasma. It is concluded that low amounts of aminoaldehydes and acrolein produced by plasma amine oxidase at spermidine concentrations below 10⁻⁴ M do not noticeably alter lymphocyte metabolism. However, the aminoaldehydes and acrolein produced become abruptly cytotoxic at 10⁻⁴ M spermidine. This work was supported in part by the Cystic Fibrosis Foundation.     

Effect of phytohormones and tungsten on light-induced and nitrate-induced nitrate reductase activity of mustard cotyledons

Mustard (Brassica juncea Coss cv. T-59 ‘Varuna’) seedlings pretreated with gibberellic acid (GA) and kinetin (KiN) were grown in light. In vivo nitrate reductase (NR) activity was estimated and effect of tungsten on light-induced and NO ₃ ^su− -induced NR activity was investigated. Different concentrations of GA did not show any effect on induction of light-induced NR; addition of nitrate promoted in vivo NR activity but no concentration effect of GA was evident. Light-induced NR was promoted by KiN and like in GA treatment, addition of nitrate increased NR activity. Addition of Na-tungstate inhibited NO ₃ ⁻ induced NR while light-induced NR was not much affected in both GA and KiN treated seedlings. The two forms of NRs were further characterized by studying the decay kinetics using Na-tungstate. In light-induced NR, tungstate did not affect NR activity up to 11 h, while at later periods, a slight decay was observed. On the other hand, NO ₃ ⁻ -induced NR activity increased up to 4 h and subsequently a rapid fall was observed. It was therefore apparent that light-induced NR had a very low turnover rate as compared to NO ₃ ⁻ -induced NR. These results further support the earlier conclusion that in mustard seedlings two distinct types of NR enzyme exist and that nitrate requirement for NR induction is not absolute.     

Cl− Channels in Basolateral TAL Membranes XV. Molecular Heterogeneity Between Cortical and Medullary Channels

We have isolated two new and highly homologous cDNAs, mmClC-Ka from mouse outer medulla and mcClC-Ka from mouse cortex. In both cases, mRNA was obtained from the indicated region and subjected to RT-PCR using primers from the nucleotide sequence of rbClC-Ka, which encodes basolateral Cl⁻ channels (termed rbClC-Ka) in rabbit MTAL. The predicted protein products of mmClC-Ka and mcClC-Ka, mmClC-Ka and mcClC-Ka, respectively, were 85% homologous and had predicted molecular weights of 75 kDa. The predicted protein sequences for mmClC-Ka and rbClC-Ka had three cytosolic sites—threonine 185, threonine 187 and serine 270—which were absent in mcClC-Ka. These three moieties represent potential sites for phosphorylation of mmClC-Ka and rbClC-Ka, but not of mcClC-Ka, and may account for the failure of (ATP + PKA) to increase the open time probability P _o in basolateral CTAL Cl⁻ channels. We prepared antisense oligonucleotides specific for nonhomologous regions of these two cDNAs, mmAntisense for mmClC-Ka and mcAntisense for mcClC-Ka. Using anti-rbClC-Ka, a polyclonal antibody to rbClC-Ka, we found that, when transfected into cultured mouse MTAL and CTAL cells, mmAntisense suppressed the appearance of the 75 kDa band by 50% in vesicles from MTAL but not CTAL cells, while transfection of MTAL and CTAL cells with mcAntisense suppressed appearance of the 75 kDa band in vesicles from CTAL but not MTAL cells. mmAntisense transfection also prolonged the half-time (T_1/2, sec) for ³⁶Cl⁻ efflux in cultured MTAL cells from 82.4 ± 6.8 sec (sem) to 187.8 ± 9.5 sec (n= 5; P= 0.0001) while mcAntisense transfection had no such effect. Conversely, in cultured CTAL cells, mcAntisense transfection prolonged the T_1/2 for ³⁶Cl⁻ efflux from 80.9 ± 6.3 sec to 191.8 ± 6.5 sec (n= 5; P= 0.00005), while mmAntisense had no such effect. We conclude that mmClC-Ka and mcClC-Ka may encode the basolateral Cl⁻ channels mediating net Cl⁻ absorption in mouse MTAL and CTAL, respectively. Received: 16 May 2000/Revised: 30 June 2000     

Selective Inhibition of Glucose-Stimulated β-Cell Activity by an Anion Channel Inhibitor

4,4′-dithiocyanatostilbene-2,2′-disulfonic acid (DIDS), an inhibitor of the volume-sensitive anion channel, was used to investigate the role of this channel in the stimulation of rat pancreatic β-cells by glucose and by tolbutamide. Glucose-stimulated electrical activity in β-cells was markedly and reversibly inhibited by DIDS. The increase in cytosolic [Ca²⁺] and stimulated insulin release evoked by glucose were also inhibited by DIDS. In contrast to its inhibitory effect on glucose-induced β-cell activity, DIDS had no effect on electrical activity, the rise in [Ca²⁺] _i or insulin release induced by tolbutamide. DIDS failed to increase β-cell input conductance, an index of whole-cell K _ATP channel activity, or the rate of efflux of ⁸⁶Rb⁺ from perifused islets, a measure of net K⁺ permeability. Furthermore, DIDS had no effect on intracellular pH or on regulatory volume increase following exposure of cells to hypertonic solutions, indicating that the effects of DIDS were not the result of inhibition of Cl⁻ transport systems. It is suggested that the DIDS-induced repolarization is caused by inactivation of the volume-sensitive anion channel. The stimulation of β-cell electrical and secretory activity by glucose, but not tolbutamide, may therefore involve activation of the anion channel. Received: 30 November 1999/Revised: 23 June 2000     

Additive coclastogenicity of sodium selenite and caffeine in CHO cells treated withN-methyl-N′-Nitro-N-Nitrosoguanidine

The clastogenic effect ofN-methyl-N′-nitro-N-nitrosoguanidine (MNNG) in Chinese hamster ovary (CHO) cells and its modulation by Na₂SeO₃ and caffeine were studied by metaphase analysis of chromosome aberrations (CA) as well as by measuring the formation and repair of single-strand (ss) DNA breaks employing hydroxylapatite chromatography. Treatment of CHO cells with MNNG (1.25 or 2.5 × 10-5M) for 3 h caused CA in 11 and 19% of metaphases scored, respectively. Pretreatment of cells with Na₂SeO₃ (1–5 μg/mL) or caffeine (0.2–2.0 mg/mL) for 2 h resulted in a 2–3.5-fold increase of CA frequency. Addition of both modulators during the mutagen exposure tended to cause a slight inhibition of clastogenic activity of MNNG (1.25 × 10⁻⁵ M) or had no effect on CA number when MNNG was used at a concentration of 2.5 × 10−5M. Posttreatment of CHO cells with Na₂SeO₃ for 20 h after MNNG was ineffective in influencing the number of metaphases with CA, whereas, at these conditions, caffeine enhanced up to 6-7-fold the clastogenic activity of MNNG. Addition of both modulators during the whole experiment, 2 h pretreatment included, resulted in a further significant increase of CA frequency up to the total pulverization of chromosomes in all metaphases scored. The coclastogenic effect of caffeine was greater in this case. The enhancement of chromosome-damaging activity of MNNG by selenite and caffeine was better expressed when this carcinogen was applied at the higher concentration used. An additive coclastogenic effect was observed in CHO cells treated simultaneously with Na₂SeO₃ and caffeine plus MNNG. In addition, the treatment of CHO cells with MNNG (5 × 10⁻⁶ M) caused a rapid increase of ssDNA breaks number reaching maximal values after 30–45 min. However, up to 50–60% of MNNG-induced ssDNA breaks were repaired during the first 60–150 min after the mutagen exposure. The 2 h pretreatment of CHO cells with Na₂SeO₃ (2 μg/mL) or the addition of this trace element after MNNG had no effect on formation and repair of MNNG-induced ssDNA breaks. The coclastogenic effect of Na₂SeO₃ in CHO cells treated with MNNG was not directly linked to the induction and disappearance of ssDNA breaks measured by hydroxylapatite chromatography.     

Elevated [CO2] and increased N supply reduce leaf disease and related photosynthetic impacts on Solidago rigida

To evaluate whether leaf spot disease and related effects on photosynthesis are influenced by increased nitrogen (N) input and elevated atmospheric CO₂ concentration ([CO₂]), we examined disease incidence and photosynthetic rate of Solidago rigida grown in monoculture under ambient or elevated (560 μmol mol⁻¹) [CO₂] and ambient or elevated (+4 g N m⁻² year⁻¹) N conditions in a field experiment in Minnesota, USA. Disease incidence was lower in plots with either elevated [CO₂] or enriched N (−57 and −37%, respectively) than in plots with ambient conditions. Elevated [CO₂] had no significant effect on total plant biomass, or on photosynthetic rate, but reduced tissue%N by 13%. In contrast, N fertilization increased both biomass and total plant N by 70%, and as a consequence tissue%N was unaffected and photosynthetic rate was lower on N fertilized plants than on unfertilized plants. Regardless of treatment, photosynthetic rate was reduced on leaves with disease symptoms. On average across all treatments, asymptomatic leaf tissue on diseased leaves had 53% lower photosynthetic rate than non-diseased leaves, indicating that the negative effect from the disease extended beyond the visual lesion area. Our results show that, in this instance, indirect effects from elevated [CO₂], i.e., lower disease incidence, had a stronger effect on realized photosynthetic rate than the direct effect of higher [CO₂].     

The role of an NAD-independent lactate dehydrogenase and acetate in the utilization of lactate byClostridium acetobutylicum strain P262

Clostridium acetobutylicum strain P262 utilized lactate at a rapid rate [600 nmol min^–1 (mg protein)^–1], but lactate could not serve as the sole energy source. When acetate was provided as a co-substrate, the growth rate was 0.05 h^–1. Butyrate, carbon dioxide and hydrogen were the end products of lactate and acetate utilization, and the stoichiometry was 1 lactate + 0.4 acetate → 0.7 butyrate + 0.6 H₂ + 1 CO₂. Lactate-grown cells had twofold lower hydrogenase than glucose-grown cells, and the lactate-grown cells used acetate as an alternative electron acceptor. The cells had a poor affinity for lactate (K_s = 1.1 mM), and there was no evidence for active transport. Lactate utilization was catabolyzed by an inducible NAD-independent lactate dehydrogenase (iLDH) that had a pH optimum of 7.5. The iLDH was fivefold more active with d-lactate than l-lactate, and the K _m for d-lactate was 3.2 mM. Lactate-grown cells had little butyraldehyde dehydrogenase activity, and this defect did not allow the conversion of lactate to butanol. Received: 17 October 1994 / Accepted: 30 January 1995     

D-Glucosamine as inhibitor of early processes of transformation inBacillus subtilis 168trp 2 −

Glucosamine added to a transformation medium (TM2) after a 30-min cultivation of cells exhibited the highest inhibitory effect on the transformation process inBacillus subtilis 168trp ₂ ⁻ . The recipient culture was least sensitive to glucosamine added after 50 min. Glucosamine had no inhibitory effect when added 10 min after the addition of transformation DNA.     

Identification and properties of steroid-binding proteins in nesting Chelonia mydas plasma

We report for the first time the presence of a sex steroid-binding protein in the plasma of green sea turtles Chelonia mydas, which provides an insight into reproductive status. A high affinity, low capacity sex hormone steroid-binding protein was identified in nesting C. mydas and its thermal profile was established. In nesting C. mydas testosterone and oestradiol bind at 4°C with high affinity (K _a = 1.49 ± 0.09 × 10⁹ M⁻¹; 0.17 ± 0.02 × 10⁷ M⁻¹) and low binding capacity (B _max = 3.24 ± 0.84 × 10⁻⁵ M; 0.33 ± 0.06 × 10⁻⁴ M). The binding affinity and capacity of testosterone at 23 and 36°C, respectively were similar to those determined at 4°C. However, oestradiol showed no binding activity at 36°C. With competition studies we showed that oestradiol and oestrone do not compete for binding sites. Furthermore, in nesting C. mydas plasma no high-affinity binding was observed for adrenocortical steroids (cortisol and corticosterone) and progesterone. Our results indicate that in nesting C. mydas plasma temperature has a minimal effect on the high-affinity binding of testosterone to sex steroid-binding protein, however, the high affinity binding of oestradiol to sex steroid-binding protein is abolished at a hypothetically high (36°C) sea/ambient/body temperature. This suggests that at high core body temperatures most of the oestradiol becomes biologically available to the tissues rather than remaining bound to a high-affinity carrier.