Chemiluminescent assay of alkaline phosphatase using dihydroxyacetone phosphate as substrate detected with lucigenin

A sensitive and simple chemiluminescent assay (CL) for alkaline phosphatase (ALP) using dihydroxyacetone phosphate or its ketal (DHAP or DHAP‐ketal) was developed. New substrates were transformed to dihydroxyacetone (DHA) after they were hydrolysed by ALP, which reacts with lucigenin and produces strong chemiluminescence. Under the optimum assay condition, the detection limits were 3.8 × 10^?19 and 1.5 × 10^?18 moles of ALP, respectively. The coefficients of variation (CV) at each points on the standard curve were 0.8–5.4% and 1.8–7.1% (n = 6), respectively. The mechanism of lucigenin CL with DHA was investigated by ESR spectrometry using the spin‐trapping method. The mechanism was speculated as follows: the O₂^? generated by the reaction of DHA and O₂ in alkaline solution reacts with lucigenin, and then emit light. The proposed CL assay was applied to the enzyme immunoassay of 17β‐oestradiol, using ALP as a label enzyme. The measurable range of 17β‐oestradiol was 15–4000 pg/mL, and the proposed method was four times more sensitive than the colorimetric assay for ALP by using 4‐nitrophenyl phosphate as substrate. Copyright © 2002 John Wiley & Sons, Ltd.     

Chemiluminescence of lucigenin by electrogenerated superoxide ions in aqueous solutions

The chemiluminescence reaction of lucigenin (Luc²⁺?2NO₃^?, N,N′‐dimethyl‐9,9′‐biacridinium dinitrate) at gold electrodes in dioxygen‐saturated alkaline aqueous solutions (pH 10) was investigated in detail by the use of electrochemical emission spectroscopy. We noted that both O₂ and Luc²⁺ are reduced on a gold electrode in aqueous solution of pH 10 in almost the same potential region. From this fact, we expected chemiluminescence based on a radical–radical coupling reaction of superoxide ion (O₂·^?) and one‐electron reduced form of Luc²⁺ (Luc·⁺, a radical cation). Chemiluminescence was actually observed in the potential range where O₂ and Luc²⁺ were simultaneously reduced at the electrodes. The effects were examined upon addition of enzymes, i.e. superoxide dismutase (SOD) and catalase, into the solution and the substitution of heavy water (D₂O) for light water (H₂O) as a solvent on the chemiluminescence. In the presence of native and active SOD, chemiluminescence was completely absent. On the other hand, chemiluminescence was observed, unchanged in the presence of either denatured and inert SOD or catalase. In addition, the amount of chemiluminescence in D₂O solution was about three times greater than that in H₂O solution. These results, together with cyclic voltammetric results, suggest that O₂·^? participates directly in the chemiluminescence but H₂O₂ does not, and the chemiluminescence results from the coupling reaction between O₂·^? and Luc^·+ under the present experimental conditions. These chemically unstable species, O₂·^? and Luc·⁺, are produced during the simultaneous electroreduction of O₂ and Luc²⁺. The coupling reaction between those radical species would lead to the formation of a dioxetane‐type intermediate and, finally, to chemiluminescence. The chemiluminescence reaction mechanism is discussed. Copyright © 2002 John Wiley & Sons, Ltd.     

Myeloperoxidase-Based Chemiluminescence of Polymorphonuclear Leukocytes and Monocytes

Luminol and lucigenin chemiluminescence (CL) responses produced by separated human blood polymorphonuclear leukocytes (pmn) and monocytes (mono) have been studied following stimulation with the surface-receptor agonist fMLP (a synthetic chemotactic peptide) and the protein kinase C activator phorbol myristate acetate (PMA). Pmn produced two- to threefold the luminol CL and superoxide anion (O₂⁻) levels of mono; lucigenin CL was similar for both cell-types. The myeloperoxidase (MPO) inhibitor salicylhydroxamic acid (SHA) abrogated luminol but not lucigenin CL in both cell types, but did not further inhibit the already grossly subnormal luminol CL responses seen with MPO-deficient cells which produced normal lucigenin CL. SHA also profoundly inhibited the luminol CL response in a cell-free MPO–H₂O₂ system. Mono lucigenin CL does not appear to specifically measure O₂⁻ production. These data show that luminol CL provides a useful measure of pmn and also mono MPO activity. However, analysis of the effects of various reactive oxygen species (ROS) scavengers, assessed on phagocyte and cell-free CL systems (both MPO–H₂O₂ and superoxide generating) suggest that the luminol CL signal is not entirely dependent on MPO activity.     

Chemiluminescence from luminol solution after illumination of a 355 nm pulse laser

Chemiluminescence (CL) on the time scale of microseconds to milliseconds from luminol solution after illumination of a 355 nm pulse laser is reported. It was found that the CL is the emission from 3‐aminophthalate ion (AP*). In CL decay after the pulse laser illumination, a peak was observed from about 200 to 30 µs depending on the laser power and the luminol concentration. It seemed that there was a fast and slow decay process; their kinetics were greatly dependent on the laser power and the luminol concentration. Dissolved oxygen was involved in the CL and played the same role on the whole time scale of microseconds to milliseconds. Involvement of reactive oxygen species such as H₂O₂, ¹O₂, O₂^?? and OH in the CL was examined by adding their scavengers. Experimental results suggested that the possibility of involvement of H₂O₂ and ¹O₂ in the CL was low. The CL in time periods less than 50 µs might be related to ?OH. The ^?O₂^??‐induced CL increased with time after 50 µs and became dominant on the time scale of milliseconds. The CL was considered to be caused by both the photoionization and type I reaction mechanisms. Copyright © 2009 John Wiley & Sons, Ltd.     

Turn‐off–on chemiluminescence determination of cyanide

A flow injection chemiluminescence (FI–CL) method was developed for the determination of cyanide (CN⁻) based on the recovered CL signal by Cu²⁺ inhibiting a glutathione (GSH)‐capped CdTe quantum dot (QD) and hydrogen peroxide system. In an alkaline medium, strong CL signals were observed from the reaction of CdTe QDs and H₂O₂, and addition of Cu²⁺ could cause significant CL inhibition of the CdTe QDs–H₂O₂ system. In the presence of CN⁻, Cu²⁺ can be removed from the surface of CdTe QDs via the formation of particularly stable [Cu(CN)_n]^(n‐1)– species, and the CL signal of the CdTe QDs–H₂O₂ system was efficiently recovered. Thus, the CL signals of CdTe QDs–H₂O₂ system were turned off and turned on by the addition of Cu²⁺ and CN⁻, respectively. Further, the results showed that among the tested ions, only CN⁻ could recover the CL signal, which suggested that the CdTe QDs–H₂O₂–Cu²⁺ CL system had highly selectivity for CN⁻. Under optimum conditions, the CL intensity and the concentration of CN⁻ show a good linear relationship in the range 0.0–650.0 ng/mL (R² = 0.9996). The limit of detection for CN⁻ was 6.0 ng/mL (3σ). This method has been applied to detect CN⁻ in river water and industrial wastewater with satisfactory results. Copyright © 2014 John Wiley & Sons, Ltd.     

Monoamine-dependent Production of Reactive Oxygen Species Catalyzed by Pseudoperoxidase Activity of Human Hemoglobin

Hemoglobin (Hb) solution-based blood substitutes are being developed as oxygen-carrying agents for the prevention of ischemic tissue damage and low blood volume-shock. However, the cell-free Hb molecule has intrinsic toxicity to the tissue since harmful reactive oxygen species (ROS) are readily produced during autoxidation of Hb from the ferrous state to the ferric state, and the cell-free Hb also causes distortion in the oxidant/antioxidant balance in the tissues. There may be further hindering dangers in the use of free Hb as a blood substitute. It has been reported that Hb has peroxidase-like activity oxidizing peroxidase substrates such as aromatic amines. Here we observed the Hb-catalyzed ROS production coupled to oxidation of a neurotransmitter precursor, β-phenylethylamine (PEA). Addition of PEA to Hb solution resulted in generation of superoxide anion (O₂^??). We also observed that PEA increases the Hb-catalyzed monovalent oxidation of ascorbate to ascorbate free radicals (Asc^?). The O₂^?? generation and Asc^? formation were detected by O₂^??-specific chemiluminescence of the Cypridina lucigenin analog and electron spin resonance spectroscopy, respectively. PEA-dependent O₂^?? production and monovalent oxidation of ascorbate in the Hb solution occurred without addition of H₂O₂, but a trace of H₂O₂ added to the system greatly increased the production of both O₂^?? and Asc^?. Addition of GSH completely inhibited the PEA-dependent production of O₂^?? and Asc^? in Hb solution. We propose that the O₂^?? generation and Asc^? formation in the Hb solution are due to the pseudoperoxidase activity-dependent oxidation of PEA and resultant ROS may damage tissues rich in monoamines, if the Hb-based blood substitutes were circulated without addition of ROS scavengers such as thiols.     

Comparison of oxidative stress induced by ciprofloxacin and pyoverdin in bacteria and in leukocytes to evaluate toxicity

Oxidative stress induced by ciprofloxacin and pyoverdin, a leukotoxic pigment, was studied by comparing their effect in bacteria and leukocytes. Chemiluminescence (CL) assays with lucigenin or luminol were adapted to measure the stimuli of superoxide anion (O₂^?) and other reactive species of oxygen (ROS) in bacteria. Ciprofloxacin principally induced the production of O₂^? in the three species studied: Staphylococcus aureus, Enterococcus faecalis and Escherichia coli. Lucigenin CL assay showed high oxidative stress in S. aureus due to its low superoxide dismutase (SOD) activity, whereas E. coli exhibited important SOD activity, responsible for little production of O₂^? in absence or presence of ciprofloxacin. Reduction of nitroblue of tetrazolium (NBT) was applied. This assay indicated that there was higher oxidative stress in S. aureus and E. faecalis than in E. coli. The comparison of oxidative stress generated in bacteria and leukocytes was used to check the selective toxicity of ciprofloxacin in comparison with pyoverdin. Ciprofloxacin did not generate significant stimuli of O₂^? in neutrophils, while pyoverdin duplicated the production of O₂^?. CL and NBT were useful to study the leukotoxicity of ciprofloxacin. Oxidative stress caused by the antibiotic and the leukotoxic pigment was similar in bacteria. Copyright © 2003 John Wiley & Sons, Ltd.     

Glycerol metabolism in the methylotrophic yeast Hansenula polymorpha: phosphorylation as the initial step

In hansenula polymorpha glycerol is metabolized via glycerol kinase and NAD(P)-independent glycerol-3-phosphate (G3P) dehydrogenase, enzymes which hitherto were reported to be absent in this methylotrophic yeast. Activity of glycerol kinase was readily detectable when cell-free extracts were incubated at pH 7–8 with glycerol/ATP/Mg²⁺ and a discontinuous assay for G3P formation was used. This glycerol kinase activity could be separated from dihydroxyacetone (DHA) kinase activity by ion exchange chromatography. Glycerol kinase showed relatively low affinities for glycerol (apparent K _m=1.0 mM) and ATP (apparent K _m=0.5 mM) and was not active with other substrates tested. No inhibition by fructose-1,6-bisphosphate (FBP) was observed. Both NAD-dependent and NAD(P)-independent G3P dehydrogenases were present. The latter enzyme could be assayed with PMS/MTT and cosedimented with the mitochondrial fraction. Glucose partly repressed synthesis of glycerol kinase and NAD(P)-independent G3P dehydrogenase, but compared to several other non-repressing carbon sources no clear induction of these enzymes by glycerol was apparent. Amongst glycerolnegative mutants of H. polymorpha strain 17B (a DHA kinase-negative mutant), strains blocked in either glycerol kinase or membrane-bound G3P dehydrogenase were identified. Crosses between representatives of the latter mutants and wild type resulted in the isolation of, amongst others, segregants which had regained DHA kinase but were still blocked in the membrane-bound G3P dehydrogenase. These strains, employing the oxidative pathway, were only able to grow very slowly in glycerol mineral medium.Abbreviations DHA dihydroxyacetone - G3P glycerol-3-phosphate - EMS ethyl methanesulphonate - MTT 3-(4,5-dimethyl-thiazolyl-2)-2,5-diphenyl tetrazolium bromide - PMS phenazine methosulphate - FBP fructose-1,6-bisphosphate     

Immobilization of glycerol dehydrogenase on magnetic silica nanoparticles for conversion of glycerol to value-added 1,3-dihydroxyacetone

Abstract

Glycerol dehydrogenase (GlyDH) which oxidizes glycerol to the value-added chemical, 1,3-dihydroxyacetone, is of interest due to the oversupply of glycerol as a by-product of the biodiesel industry. To exploit the enzymatic oxidation of glycerol industrially, silica coated magnetic Fe₃O₄ nanoparticles were prepared and then activated with an amino-silane reagent for covalent immobilization of GlyDH via a glutaraldehyde linkage. At the optimal glutaraldehyde concentration of 0.05% (v/v), an enzyme loading of up to 57.5 mg/g-nanoparticles was achieved with 81.1% of the original activity retained. Reaction kinetic analysis indicated that the immobilized GlyDH had almost the same Michaelis-Menten constants for both NAD⁺ and glycerol as the free GlyDH did. However, after immobilization the turnover number k_cat of the GlyDH decreased from 164 s^?1 to 113 s^?1, and the reaction was 1.3-fold less sensitive to inhibition by DHA, which could compensate the decrease in k_cat. The immobilized GlyDH was also less sensitive to changes in pH and temperature, and showed a 5.3-fold improvement in thermal stability at 50^°C. Furthermore, excellent reusability was observed such that 10 cycles of re-use only led to 9% loss of enzyme activity.     

Salicylic acid antagonism of EDS1‐driven cell death is important for immune and oxidative stress responses in Arabidopsis

Reactive oxygen species (ROS) have emerged as signals in the responses of plants to stress. Arabidopsis Enhanced Disease Susceptibility1 (EDS1) regulates defense and cell death against biotrophic pathogens and controls cell death propagation in response to chloroplast‐derived ROS. Arabidopsis Nudix hydrolase7 (nudt7) mutants are sensitized to photo‐oxidative stress and display EDS1‐dependent enhanced resistance, salicylic acid (SA) accumulation and initiation of cell death. Here we explored the relationship between EDS1, EDS1‐regulated SA and ROS by examining gene expression profiles, photo‐oxidative stress and resistance phenotypes of nudt7 mutants in combination with eds1 and the SA‐biosynthetic mutant, sid2. We establish that EDS1 controls steps downstream of chloroplast‐derived O₂^?? that lead to SA‐assisted H₂O₂ accumulation as part of a mechanism limiting cell death. A combination of EDS1‐regulated SA‐antagonized and SA‐promoted processes is necessary for resistance to host‐adapted pathogens and for a balanced response to photo‐oxidative stress. In contrast to SA, the apoplastic ROS‐producing enzyme NADPH oxidase RbohD promotes initiation of cell death during photo‐oxidative stress. Thus, chloroplastic O₂^?? signals are processed by EDS1 to produce counter‐balancing activities of SA and RbohD in the control of cell death. Our data strengthen the idea that EDS1 responds to the status of O₂^?? or O₂^??‐generated molecules to coordinate cell death and defense outputs. This activity may enable the plant to respond flexibly to different biotic and abiotic stresses in the environment.     

Rapid determination of rice seed vigour by spontaneous chemiluminescence and singlet oxygen generation during early imbibition

Using a highly sensitive single photon counter, a spontaneous chemiluminescence (CL) study on rice (Oryza sativa L.) seeds stored in different years was carried out. We first observed that the degree of ageing in rice seeds was related to the intensity of spontaneous CL during early imbibition (0–30 min). Rice seeds stored for a shorter time had a stronger intensity of CL in early imbibition. The germination rate of rice seeds showed an obvious positive correlation with the intensity of spontaneous CL. Singlet oxygen (¹O₂) in rice seeds during early imbibition was investigated by a CL method using a cypridina luciferin analogue, 2‐methyl‐6‐(p‐methoxyphenyl)‐3,7‐dihydroimidazo [1,2α] pyrazin‐3‐one (MCLA), as a selective CL probe. Additional experimental evidence for the formation of ¹O₂ came from the quenching effect of sodium azide (NaN₃) on MCLA‐mediated rice seeds' CL. Analysis based on the experimental results demonstrated that spontaneous CL in rice seeds during early imbibition was mainly contributed by singlet oxygen (¹O₂). Copyright © 2002 John Wiley & Sons, Ltd.     

Pyrophosphate as substrate for alkaline phosphatase activity: A convenient flow‐injection chemiluminescence assay

A sensitive and convenient flow‐injection chemiluminescence (FI‐CL) turn‐on assay for alkaline phosphatase (ALP) activity without any label and synthesis is developed. Cu²⁺ can catalyze the luminol–H₂O₂ CL reaction. Pyrophosphate (PPi) can chelate Cu²⁺ and therefore the Cu²⁺‐mediated luminol‐H₂O₂ CL reaction is inhibited. The addition of ALP can catalyze the hydrolysis of PPi into phosphate ions, Cu²⁺ is released and the chemiluminescence recovers. A detection limit of 1 mU/mL ALP is obtained.     

Regulation of glycerol metabolism in Zygosaccharomyces rouxii in response to osmotic stress

Summary Enzyme analyses indicated that the metabolism of glycerol by Zygosaccharomyces rouxii occurred via either glycerol-3-phosphate (G3P) or dihydroxyacetone (DHA). The route via DHA is significant in osmoregulation. The specific activities of glycerol dehydrogenase (GDHG) and DHA kinase, which metabolize glycerol via DHA, increased nine- and fourfold respectively during osmotic stress [0.960 water activity (a_w) adjusted with NaCl] when compared to non-stressed conditions (0.998 a_w). Both pathways are under metabolic regulation. Glycerol kinase, mitochondrial G3P dehydrogenase and DHA kinase are induced by glycerol while the latter is also repressed by glucose. Cells treated with cycloheximide prior to osmotic upshock showed significantly lower DHA kinase and GDHG levels and lower intracellular glycerol concentrations when compared to untreated control cells. Thus protein synthesis is essential for osmotic adaptation. Offprint requests to: B. A. Prior     

Flow injection methods for the determination of retinol and α‐tocopherol using lucigenin‐enhanced chemiluminescence

Flow injection (FI) methods are reported to determine retinol and α‐tocopherol based on its enhancement affect of lucigenin chemiluminescence (CL) in alkaline medium. Surfactants including Brij‐35, Triton X‐100, cetyltrimethyl ammonium bromide (CTAB) and sodium dodecyl sulfate have been reported for the first time to enhance lucigenin CL intensity in the presence of retinol and α‐tocopherol. With Brij‐35, the CL intensity was enhanced by 67% for retinol and 58% for α‐tocopherol. CTAB was found to enhance the CL intensity by 16% for retinol whereas for α‐tocopherol, the CL intensity was quenched up to 95%. Retinol could be determined specifically in the presence of α‐tocopherol using CTAB. The calibration graphs were found to be linear up to 1.43 mg/L (R² = 0.9985, n = 8) with a detection limit (3s) of 1.43 × 10^?3 mg/L for retinol and 2.15 mg/L (R² = 0.9989; n = 8) with a detection limit (3s) of 4.31 × 10^?4 mg/L for α‐tocopherol. An injection throughput of 120/h, and relative standard deviations of 0.9–2.8% (n = 4) were achieved in the concentration range studied. The influence of common ions, excipients in pharmaceutical formulations and related organic compounds on the determination of retinol and α‐tocopherol individually was studied. The proposed methods were applied to determine retinol and α‐tocopherol in pharmaceutical formulations and human blood serum. The results did not differ significantly from the CL method and HPLC reference method at 95% confidence level. Copyright © 2010 John Wiley & Sons, Ltd.     

Scavenging of reactive oxygen species by N‐substituted indole‐2 and 3‐carboxamides

Indole‐2 and 3‐carboxamides (IDs) are proposed to be selective cyclooxygenase inhibitors. Since cyclooxygenase‐1 may be involved in reactive oxygen species (ROS) production, we hypothesize that these indole derivatives have antioxidative properties. We have employed chemiluminescence (CL) and electron spin resonance (ESR) spin trapping to examine this hypothesis. We report here the results of a study of reactivity of 10 selected indole derivatives towards ROS. The following generators of ROS were applied: potassium superoxide (KO₂) as a source of superoxide radicals (O₂^·?), the Fenton reaction (Co‐EDTA/H₂O₂) for hydroxyl radicals (HO^·), and a mixture of alkaline aqueous H₂O₂ and acetonitrile for singlet oxygen (¹O₂). Hydroxyl radicals were detected as 5,5‐dimethyl‐1‐pyrroline‐N‐oxide (DMPO) spin adduct, whereas 2,2,6,6‐tetramethyl‐piperidine (TEMP) was used as a detector of ¹O₂. Using the Fenton reaction, 0.5 mmol/L IDs were found to inhibit DMPO‐?H radical formation in the range 7–37%. Furthermore the tested compounds containing the thiazolyl group also inhibited the ¹O₂‐dependent TEMPO radical, generated in the acetonitrile + H₂O₂ system. About 20% inhibition was obtained in the presence of 0.5 mmol/L IDs. 1 mmol/L IDs caused an approximately 13–70% decrease in the CL sum from the O₂^·? generating system (1 mmol/L). The aim of this paper is to evaluate these indole derivatives as antioxidants and their abilities to scavenge ROS. Copyright © 2004 John Wiley & Sons, Ltd.     

Superoxide Generation in Chemically Activated Resistance of Barley in Response to Inoculation with the Powdery Mildew Fungus

In a previous work, a phenotype-specific accumulation of superoxide radical anions (O^??₂) after attack of the powdery mildew fungus (Blumeria [syn. Erysiphe] graminis f.sp. hordei) in near-isogenic barley (Hordeum vulgare L.) lines bearing different Mlx genes for resistance was described (Hückelhoven and Kogel, 1998). We have now a histochemical study of the pathogenesis-related O^??₂ generation in the systemic activated resistance (SAR) response induced in barley cv Pallas by the plant activator 2,6-dichloroisonicotinic acid (DCINA). SAR-specific defence was conducted prevalently characterized by penetration resistance. Fungal arrest was observed before haustorium formation by a highly localized cell wall reinforcement (effective papillae) and, in most cases, by a subsequent hypersensitive cell death (HR). No O^??₂ generation was found in association with these plant defence responses. However, a strong O^??₂ burst in the attacked epidermal cells was detected in the control plants which were not activated by DCINA. This burst coincided with cell wall penetration and subsequent contact of the pathogen with the host plasma membrane. A strong SAR-related O^??₂ burst was induced in the mesophyll tissue beneath the attacked and hypersensitively reacting epidermal cells in plants treated with DCINA. The accumulation of O^??₂ was confined to chloroplasts. The remarkable burst in mesophyll tissue was not followed by mesophyll-HR indicating that chloroplastic O^??₂ generation is not sufficient for the hypersensitive cell death. Since the same pattern of pathogenesis-related O^??₂ accumulation was identified for race-specific response mediated by the Mlg gene for powdery mildew resistance, the present data are consistent with the hypothesis that the SAR phenotype is a phenocopy of the Mlg-type resistance (Kogel et al., 1994).     

Flow‐injection chemiluminescence determination of acetylsalicylic acid based on its enhancing effect on the lucigenin–hydrogen peroxide system

A sensitive flow‐injection chemiluminescence method for the determination of acetylsalicylic acid is described. It is based on the enhanced chemiluminescent emission of the alkaline lucigenin–H₂O₂ system by acetylsalicylic acid. The difference in chemiluminescent intensity of alkaline lucigenin–H₂O₂ in the presence of acetylsalicylic acid from that in the absence of acetylsalicylic acid was linear at acetylsalicylic acid concentrations in the range of 0.0029–47.37 µg/mL, with detection and quantification limits of 0.0011 and 0.0029 µg/mL_, respectively. The correlation coefficient of the working curve was 0.9983. The relative standard deviation (n = 10) for 25 µg/mL acetylsalicylic acid is 1.95%. All experimental parameters were optimized. The method was successfully applied to the determination of acetylsalicylic acid in pharmaceutical preparations. The recovery results obtained by the method were satisfactory. Copyright © 2013 John Wiley & Sons, Ltd.     

ANTIOXIDANT ENZYME RESPONSE AND REACTIVE OXYGEN SPECIES PRODUCTION IN MARINE RAPHIDOPHYTES1

Raphidophytes (class Raphidophyceae) produce high levels of reactive oxygen species (ROS), yet little is known regarding cellular scavenging mechanisms needed for protection against these radicals. Enzymatic activities of the antioxidants superoxide dismutase (SOD) and catalase (CAT) were measured in conjunction with the production of superoxide (O₂^??) and hydrogen peroxide (H₂O₂) in batch cultures of five different raphidophytes species during early exponential, late‐exponential, and stationary growth phases. The greatest concentrations of O₂^?? per cell were detected during exponential growth with reduced levels in stationary phases in raphidophytes Heterosigma akashiwo (Hada) Hada ex Y. Hara et Chihara, Chattonella marina (Subrahman.) Y. Hara et Chihara, and Chattonella antiqua (Hada) Ono (strain 18). Decreasing trends from exponential to stationary phases for SOD activity and H₂O₂ per cell were observed in all species tested. Significant correlations between O₂^?? per cell and SOD activity per cell over growth phase were only observed in three raphidophytes (Heterosigma akashiwo, Chattonella marina, and Chattonella antiqua strain 18), likely due to different cellular locations of externally released O₂^?? radicals and intracellular SOD enzymes measured in this study. CAT activity was greatest at early exponential phase for several raphidophytes, but correlations between H₂O₂ per cell and CAT activity per cell were only observed for Fibrocapsa japonica Toriumi et Takano, Chattonella antiqua (strain 18), and Chattonella subsalsa Biecheler. Our results suggest that SOD and CAT play important protective roles against ROS during exponential growth of several raphidophytes, while other antioxidant pathways may play a larger role for scavenging ROS during later growth.     

Benthic microbial respiration in Appalachian Mountain, Piedmont, and Coastal Plains streams of the eastern U.S.A.

1. Benthic microbial respiration was measured in 214 streams in the Appalachian Mountain, Piedmont, and Coastal Plains regions of the eastern United States in summer 1997 and 1998. 2. Respiration was measured as both O₂ consumption in sealed microcosms and as dehydrogenase activity (DHA) of the sediments contained within the microcosms. 3. Benthic microbial respiration in streams of the eastern U.S., as O₂ consumption, was 0.37 ± 0.03 mg O₂ m^–2 day^–1. Respiration as DHA averaged 1.21 ± 0.08 mg O₂ m^–2 day^–1 4. No significant differences in O₂ consumption or DHA were found among geographical provinces or stream size classes, nor among catchment basins for O₂ consumption, but DHA was significantly higher in the other Atlantic (non‐Chesapeake Bay) catchment basins. 5. Canonical correlation analyses generated two environmental axes. The stronger canonical axis (W₁) represented a chemical disturbance gradient that was negatively correlated with signatures of anthropogenic impacts (ANC, Cl^–, pH, SO₄²), and positively correlated with riparian canopy cover and stream water dissolved organic carbon concentration (DOC). A weaker canonical axis (W₂) was postively correlated with pH, riparian zone agriculture, and stream depth, and negatively correlated with DOC and elevation of the stream. Oxygen consumption was significantly correlated with W₂ whereas DHA was significantly correlated with W₁. 6. The strengths of the correlations of DHA with environmental variables, particularly those that are proven indicators of catchment disturbances and with the canonical axis, suggest that DHA is a more responsive measure of benthic microbial activity than is O₂ consumption.