Inhibition of the positive inotropic effect of anthopleurin-A (AP-A) by dantrolene

The effect of dantrolene on the positive inotropic effects (PIE) of three cardiotonic agents was assessed on rat and rabbit atria. Dantrolene (10^?5M) had no effect on contractile tension or on the PIE to isoproterenol (10^?10?10^?7M) or ouabain (10^?6?10^?4). The dose-response curve for the PIE of anthopleurin-A (AP-A) was shifted to the right in rat and rabbit atria by dantrolene (10^?4?10^?6M). The maximum effect and the concentration of AP-A required for it remained the same. The results suggest that the PIE of AP-A involves intracellular translocation of calcium, unlike those of isoproterenol and ouabain which require increased transmembrane calcium flux. This conclusion is supported by the observation that the exchange and distribution of the labile calcium involved in excitation-contraction coupling was unaffected by AP-A (10^?8M), by dantrolene (10^?6M) or by the combination. Therefore, AP-A may produce its cardiotonic effect by a action at an intracellular site, a mechanism unlike that of isoproterenol or ouabain.     

Water column oxygen demand and sediment oxygen flux: patterns of oxygen depletion in tidal creeks

Low dissolved oxygen (DO) levels often occur during summer in tidal creeks along the southeastern coast of the USA. We analyzed rates of oxygen loss as water-column biochemical oxygen demand (BOD₅) and sediment oxygen flux (SOF) at selected tidal creek sites monthly over a 1-year period. Ancillary physical, chemical and biological data were collected to identify factors related to oxygen loss. BOD₅ rates ranged from 0.0 mg l^?1 to 7.6 mg l^?1 and were correlated positively with organic suspended solids, total suspended solids, chlorophyll a concentrations, temperature, and dissolved oxygen, and negatively with pH and nitrate + nitrite. SOF rates ranged from 0.0 to 9.3 g O₂ m^?2 d^?1, and were positively correlated with temperature, chlorophyll a, and total suspended solids, but negatively with dissolved oxygen. Both forms of oxygen uptake were seasonally dependent, with BOD₅ elevated in spring and summer and SOF elevated in summer and fall. Average oxygen loss to sediments was greater and more variable than oxygen loss in the water column. Oxygen deficits at three of five locations were significantly related to BOD₅ and SOF, but not at two sites where ground water discharges were observed. Correlation and principal component analyses suggested that BOD₅ and SOF responded to somewhat different suites of environmental variables. BOD₅ was driven by a set of parameters linked to warm season storm water inputs that stimulated organic seston loads, especially chlorophyll a, while SOF behaved less strongly so. Runoff processes that increase loads of organic material and nutrients and ground water discharges low in dissolved oxygen contribute to occurrences of low dissolved oxygen in tidal creeks.     

Technical note phytoremediation of triazophos by Canna indica Linn. in a hydroponic system

The phytoremediation of triazophos (O, O-diethyl-O-(1-phenyl-1, 2, 4-triazole-3-base) sulfur phosphate, TAP) by Canna indica Linn. in a hydroponic system was studied. After 21 d of exposure, the removal kinetic constant (K) of TAP was 0.0229-0.0339 d(-1) and the removal percentage of TAP was 41-55% in the plant system and the K and removal percentage of TAP were about 0.002 d(-1) and 1%, respectively, in darkness and disinfected control. However, the K and removal percentage of TAP were 0.006 d(-1) and approximately 11%, respectively, in the treatment with eluate from the media of constructed wetland. The contribution of plant to the remediation of TAP was 74% and C. indica played the most important role in the hydroponic system. Under the stress of TAP and without inorganic phosphorus nutrient, the activity of phosphatase in the plant system increased and phytodegradation was observed. The production and release of phosphatase is seen as the key mechanism for C. indica to degrade TAP. C. indica, which showed the potential of phytoremediation of TAP, and is commonly used in constructed wetland, so the technique of phytoremediation of TAP from contaminated water can be developed with the combination of constructed wetland.     

Performance of laboratory-scale constructed wetlands coupled with micro-electric field for heavy metal-contaminating wastewater treatment

This study reports the performance of laboratory-scale constructed wetlands coupled with micro-electric field (CWMEF) planted cannas (Canna generalis) for heavy metal-contaminating wastewater treatment. The CWMEF had a better performance for heavy metal (HM) removal from wastewater than did the ordinary constructed wetlands (CWs). Owing to the stimulation of the suitable voltage and electrical exposure time, cannas may grew better and in fact assimilated more metallic ions in CWMEF than in CWs. The environmental conditions in CWMEF, such as the higher pH by electrolysis of water, the presence of aluminum ions by anodizing of aluminum, caused chemical precipitation, physical adsorption and flocculation of metallic ions.     

Thermal analysis and physiological behavior of cellulose/pectin complex from Canna edulis Ker by-product

Water-soluble extract (WSE), chelated-soluble extract (CSE) and acid-soluble extract (ASE) were obtained from Canna edulis Ker by-product, and their thermal characteristics and physiological behavior were studied. Thermal properties of WSE and ASE demonstrated the exiting of cellulose, as main constituents in the extracts. Different from those of WSE and ASE, the thermal characteristics of CSE demonstrated that it was chiefly composed of cellulose and pectin. The three extracts inhibited both gastric pepsin and lipase enzymatic activities to some extent, and tryptic digestion of β-lactoglobulin as well as lipase hydrolysis of tributyrin in vitro. Therefore, the three extracts could be used as additives in the food industry, in view of safety of C. edulis by-product confirmed by animal experiment.     

河南鼠尾草抑制体内外α-糖苷酶活性研究

本文采用96微孔板法,首次对河南鼠尾草抑制酵母和大鼠小肠α-葡萄糖苷酶活性进行研究。河南鼠尾草乙酸乙酯提取物(IC50=28.73μg/mL)和正丁醇提取物(IC50=73.90μg/mL)抑制酵母α-葡萄糖苷酶活性远高于阳性对照Acarbose(IC50=1081.27μg/mL),但只有乙酸乙酯提取物(IC50=366.79μg/mL)具有抑制大鼠小肠α-葡萄糖苷酶活性,阳性对照Acarbose未检测出其IC50。结果表明,河南鼠尾草乙酸乙酯提取物和正丁醇提取物均具有较好的酵母α-葡萄糖苷酶抑制活性,但只有乙酸乙酯提取物具有良好的大鼠小肠α-葡萄糖苷酶抑制活性。     

Interactive effects of N and P on growth but not on resource allocation of Canna indica in wetland microcosms

The interactive effects of three levels of N (mM) (low 0.36, medium 2.1 and high 6.4) and two levels of P (mM) (low 0.10 and high 0.48) on growth and resource allocation of Canna indica Linn. were studied in wetland microcosms. After 91 days of plant growth, there was a significant interactive effect of N and P on plant growth, but not on resource allocation (except for allocation of N to leaves and allocation of P to the stems). The plant growth positively responded to the relatively higher nutrient availability (taller plants with more stems, leaves and flowers), but the growth performance was not significantly different between the medium N-low P and high N-low P treatments. At high P, the total biomass in the high N was about 51% higher than that in the medium N and about 348% higher than that in the low N. The growth performance was related to the physiological responses. The photochemical efficiency (F_v/F_m) increased from 0.843 to 0.855 with an increase in N additions. The photosynthetic rate increased from 13 to 16 μmol m⁻² s⁻¹ in the low P levels and from 14 to 20 μmol m⁻² s⁻¹ in the high P levels with an increase in N applications, but significant difference was only between the low and medium N levels, regardless of the P levels. The tissue concentrations of N increased with an increase in N applications and decreased with an increase in P additions, whereas reverse was true for tissue concentrations of P. The highest concentrations of N and P in leaves were 30.8 g N kg⁻¹ in the high N-low P treatment and 4.9 g P kg⁻¹ in the low N-high P treatment. The percent biomass allocation to aboveground tissues in the high N was nearly twice that in the low N treatments. The N allocation to aboveground tissues was slightly larger in high N than in low N treatments, whereas the P allocation to aboveground tissues increased with an increase in the N addition. Although some patterns of biomass allocation were similar to those of nutrient allocation, they did not totally reflect the nutrient allocation. These results imply that in order to enhance the treatment performance, appropriately high nutrient availability of N and P are required to stimulate the growth of C. indica in constructed wetlands.     

Optimized Shoot Regeneration System for the Commercial Korean Radish ‘Jin Ju Dae Pyong’

We have investigated the usefulness of hypocotyl (cultured on N1B2 medium) and cotyledon explants (on CR medium: Murashige and Skoog (MS) medium, 3% sucrose, 20 μm benzylaminopurine, pH 5.8) for the regeneration of shoots of the Korean radish ‘Jin Ju Dae Pyong’. The importance of ethylene (indirectly), polyamines and gelling agent were studied in both media. Although the addition of ethylene-inhibitors and silver nitrate to the culture media were beneficial towards shoot regeneration and agar-based treatments (0.8% w/v) being superior in shoot production compared to agarose treatments (0.4% w/v), both explants responded differently in culture. Hypocotyls cultured in the presence of silver nitrate or aminoethoxyvinylglycine (AVG) regenerated significantly (p < 0.05) more shoots compared to N1B2 medium alone; supplementation of 20 μM AVG to N1B2 medium gave optimal shoot production (40% of explants regenerating shoots). The addition of 10 μM AVG to CR medium produced maximum shoot regeneration from cotyledon explants (60% producing shoots). Plants derived from 3-month-old cultures produced greater seed weights, larger leaves and greater genetic variability (50–80% of cells having 20–40 chromosomes) compared to seed-derived (85–90% diploid) and plants from 1-month-old cultures (78–88% diploid). Our results show, that if prolonged culture of explants is avoided, a large number of phenotypically-normal plants can be produced, which in turn, could be utilized in the genetic improvement of radish.     

Effects of Cadmium on Chlorophyll Content,Photochemical Efficiency,and Photosynthetic Intensity of Canna indica Linn.

The effects of cadmium (Cd²⁺) on growth status, chlorophyll (Chl) content, photochemical efficiency, and photosynthetic intensity were studied on Canna indica Linn. Plant specimens that were produced from a constructed wetland and precultivated hydroponically in 20 L of 1/10 Hoagland solution under greenhouse conditions for 1 week were exposed to cadmium in concentrations of 0, 0.4, 0.8, 1.6 and 3.2 mg L^―1 Cd²⁺, respectively. The results show that leaves were injured in the Cd²⁺ solution by the third day of exposure and the injury became more serious with an increase in the applied heavy metal. Under 3.2 mg L^―1 Cd²⁺ treatment, growth retardation, the decrease of chlorophyll content from 0.70 to 0.43 mg g^―1 FW, and a decrease in Chl a/b ratio from 2.0 to 1.2 were observed. Chl a was more sensitive than Chl b to Cd²⁺ stress. The decrease was the same with photochemical efficiency. Photosynthetic intensity decreased by 13.3% from 1.5×10⁴ μmol m^―2s^―1 CO₂ in control to 1.3×10⁴ μmol m^―2s^―1 CO₂ in the treatment of 3.2 mg L^―1. Because Canna species are used in heavy metal phytoremediation, these results show that C. indica can tolerate 0.4 to 0.8 mg L^―1 Cd²⁺. Therefore, it is a potential species for phytoremediation of cadmium with some limitations only at higher concentrations.     

In vitro propagation of Stackhousia tryonii Bailey (Stackhousiaceae): a rare and serpentine-endemic species of central Queensland, Australia

Stackhousia tryonii Bailey, a rare species whichhyperaccumulates nickel and with a potential to be exploited inphytoremediation/phytomining, is difficult to propagate via seeds. This studyinvestigated the development of a micropropagation protocol for the productionof large stocks of S. tryonii. Disinfested shoot tips andnodal buds were precultured on Gamborg's (B₅) basal medium toobtain aseptic shoots for the optimisation of the protocol. 6-Benzyl aminopurine(BAP) at 1.0 mg l^–1 produced the highest number ofshoots per explant in B₅ medium. Comparison betweenB₅ and MS media showed similar responses, but with marked influenceof BAP concentration on shoot numbers. Transfer of shoots from MS(multiplication) medium to MS medium supplemented with indole-3-acetic acid(IAA) and indole-3-butyric acid (IBA), individually or in combination, indicatedthat a combination of IAA and IBA (0.75 mg l^–1each) is required to produce roots on young shoots (75%) compared to IBA(15–45%) or IAA (0–10%) alone. This study demonstrated that by usingthis protocol, a high multiplication rate (up to 18 shoots per explant) could be produced within 4 weeks, andthey can be readily hardened (98% survival) in a glasshouse by transplantingthem into a potting mixture of sand and perlite (4:1).