Isolation of alkylated rat hemoglobin adducts using metal-affinity chromatography

Metal-affinity chromatography with Cu²⁺ containing sorbent was used for separation of globin peptides alkylated by sulfur mustard. It was shown that matrix-assisted laser desorption/ionization time-of-flight mass spectrometry allowed isolating peptides alkylated by sulfur mustard (HD) at cysteine-126, -94 and glutamic acid-27 with MH⁺ of 1444.62, 1561.66, 1676.78 Da, respectively, from rat globin tryptic digest incubated with 60 μM of HD. An alkylated peptide with MH⁺ of 1444.63 Da was isolated from globin hydrolyzate incubated with 3 μM of HD.     

Biochemical manipulation of intracellular glutathione levels influences cytotoxicity to isolated human lymphocytes by sulfur mustard

Glutathione (GSH) is the major nonprotein thiol that can protect cells from damage due to electrophilic alkylating agents by forming conjugates with the agent. Sulfur mustard (HD) is an electrophilic alkylating agent that has potent mutagenic, carcinogenic, cytotoxic, and vesicant properties. Compounds that elevate or reduce intracellular levels of GSH may produce changes in cytotoxicity induced by sulfur mustard. Pretreatment of human peripheral blood lymphocytes (PBL) for 72 hr with 1 mM buthionine sulfoximine (BSO), which reduces intracellular GSH content to approximately 26% of control, appears to sensitize these in vitro cells to the cytotoxic effects of 10 M HD but not to higher HD concentrations. Pretreatment of PBL for 48 hr with 10 mM N-acetyl cysteine (NAC), which elevates intracellular glutathione levels to 122% of control, appears to partially protect these in vitro cells from the cytotoxic effects of 10 M HD but not to higher HD concentrations. Augmentation of intracellular levels of glutathione may provide partial protection against cytotoxicity of sulfur mustard.Abbreviations BSO L-buthionine (S,R)-sulfoximine - GSH glutathione - HD sulfur mustard - NAC N-acetyl-L-cysteine - PBL peripheral blood lymphocytes The opinions or assertions contained herein are the private views of the authors and are not to be construed as official or as reflecting the views of the Department of the Army or the Department of Defense.     

In vitro plant regeneration of Arachis correntina (Leguminosae) through somatic embryogenesis and organogenesis

In vitro protocols for plant regeneration of Arachis correntina through both somatic embryogenesis and organogenesis were developed using immature leaves as explants. Morphologically normal somatic embryos were obtained on culture media composed of 20.70 or 41.41 μM picloram (PIC) with the addition of 0.044 μM 6-benzylaminopurine (BA), resulting in a 33 and 24% of conversion into plants, respectively. The source of explants and the developmental stage of the leaves had a marked effect on somatic embryogenesis. The second folded immature leaves from in vitro growing plants were the most responsive producing up to 30% embryogenesis in MS+41.41 μM PIC. Embryos converted into plants after transfer to MS medium devoid of growth regulators and these plants were successfully acclimatised. Adventitious shoots were obtained on culture media supplemented with 2,4-dichlorophenoxyacetic acid (2,4-D) or naphthaleneacetic acid (NAA) with or without 0.044 μM BA, achieving plant regeneration in the induction media. The highest percentage of bud formation was obtained on culture medium composed of␣MS+10.74 μM NAA+0.044 μM BA (12.5%). Roots were formed on all culture media tested. Regenerated plants were transferred to pots and grew well under greenhouse conditions.     

Improvement of in vitro propagation of apricot cultivar ‘Bebecou’

Factors affecting successful establishment in vitro, rapid proliferation and rooting of apricot cultivar ‘Bebecou’ were studied. Ethanol and NaOCl were applied in several combinations for disinfection; chilling, plant growth regulators BA, IAA and GA₃, antibiotics, different culture vessels and systems of subculture were evaluated for the optimization of shoot proliferation and the auxins NAA and IBA were assessed for root induction. The highest number of new microshoots/explant (18.7) was obtained in a culture medium supplemented with 2.2 μM BA+0.57 μM IAA after 300 h of chilling. The effect of GA₃ (11.4 μM) on shoot proliferation was positive in combination with 4.4 or 8.9 μM BA. Shoot length and productivity were highest at 2.2 μM BA+11.4 μM GA₃+0.57 μM IAA and at 2.2 μM BA+0.57 μM IAA, respectively and decreased as cytokinin concentration increased. The antibiotic ‘Na-cefotaxime’ had a minimal impact on shoot growth when used at the lowest concentration (250 mg l⁻¹). Subculture every 2 weeks in a medium supplemented with 2.2 μM BA and 0.57 μM IAA was more efficient for shoot induction than alternation of 20 days culture in a propagation medium supplemented with 2.2 μM BA and 10 days culture in an elongation medium supplemented with 1.1 μM BA and 5.71 μM IAA. The highest number of roots/shoot (8.1) was recorded at 19.6 μM IBA.     

Modulation of sulfur mustard induced cell death in human epidermal keratinocytes using IL-10 and TNF-alpha

We compared the effects of overexpressing a tightly regulated anti-inflammatory cytokine, interleukin 10 (IL-10), and the pro-inflammatory cytokine tumor necrosis factor-alpha (TNF-alpha) on sulfur mustard induced cytotoxicity in human epidermal keratinocytes. Both cytokines were overexpressed when compared with the cells transfected with the empty vector as determined by quantitative ELISA. Cells overexpressing interleukin 10 suppressed the pro-inflammatory cytokines interleukin 8 and interleukin 6 following exposure to 50-300 microM sulfur mustard. These cells exhibited delayed onset of sulfur mustard induced cell death. On the other hand, cells overexpressing tumor necrosis factor alpha induced a sustained elevation in both interleukin 6 and 8 expression following exposure to 50-300 microM sulfur mustard. These cells were sensitized to the effects of sulfur mustard that resulted in an increased sulfur mustard induced cell death. Normal human epidermal keratinocytes treated with sulfur mustard exhibited elevated levels of tumor necrosis factor alpha expression and increased activity of nuclear factor kappa B. Gene array data indicated that cells overexpressing interleukin 10 induced several genes that are involved in growth promotion and cell-fate determination. We, therefore, identify IL-10 and TNF-alpha signal transduction pathways and their components as possible candidates for early therapeutic intervention against sulfur mustard induced cell injury.     

Effects of specific inhibitors of cellular functions on sulfur mustard-induced cell death

This study was conducted to determine whether inhibitors of normal cellular functions can reduce cytotoxicity induced by sulfur mustard (HD). The compounds examined include inhibitors ofpoly(ADP-ribose) polymerase (PADPRP), inhibitors of mono(ADP-ribose) transferase (MADPRT), inhibitors of lipidperoxidation, and an inhibitor ofprotein synthesis. To determine the effects of these compounds on HD-induced cell death, human lymphocyte preparations were treated with known concentrations (0.1 M to 1000 M) of an inhibitor and exposed to an estimated 87% effect concentration (EC₈₇) of HD (170 M) for loss in cell viability. Cell viability was determined at 24–26hr post-exposure to HD using a dye (propidium iodide) exclusion assay and a flow cytometer. All of the selected PADPRP inhibitors were found to be effective at reducing the cytotoxic effects of HD. These inhibitors were rank-ordered based on the concentration that gives 50% (EC₅₀) reduction ofHD-induced cell death.A signijicant correlation (r=0.94) was observed between the compounds' ability to inhibit PADPRP and the compounds' ability to reduce HD- induced cell death, suggesting that PADPRP plays a role in HD-induced cell death. Inhibitors of MADPRT, lipid peroxidation, and protein synthesis were not effective at reducing HD-induced cell death.Abbreviations ATP adenosine triphosphate - DNA deoxyribonucleic acid - EC₅₀ concentration which gives 50% of maximum effect - GSH glutathione - HD sulfur mustard (,-dichloroethyl sulfide) - HEPA high efficiency particulate adsorbing - HEGA high efficiency gas adsorbing - IC₅₀ concentration that inhibits 50% of enzyme activity - MADPRT mono(ADP-ribose) transferase - NAD nicotinamide adenine dinucleotide - PADPRP poly(ADP-ribose) polymerase     

Indirect organogenesis and plant regeneration in Helicteres isora L., an important medicinal plant

Abstract    Helicteres isora is a medicinal plant effective against asthma, diabetes, hypolipidemia, HIV, polio besides a good source of diosgenin. Seed dormancy and low natural fruit production rate make this plant a perfect candidate for developing an in vitro regeneration method. However, to date, no such work has been procured in this plant. An efficient method for plant regeneration via shoot organogenesis from callus cultures has been developed using nodal explants in H. isora. Murashige and Skoog (MS) media counting 2,4-Dichlorophenoxyacetic acid (2,4-D, 2.26 to 13.57 μM), Indole-3-acetic acid (IAA, 2.85 to 17.13 μM), Indole-3-butyric acid (IBA, 2.46 to 14.70 μM), 6-Benzylaminopurine (BA, 2.22 to 13.32 μM) and Kinetin (Kin, 2.32 to 13.92 μM) either singly or in the following combinations (IAA + BA; IAA + Kin, and BA + Kin) produced granular callus except BA + Kin which resulted in compact, hard, greenish-white (CHGW) callus. The optimum CHGW callus (2.62 g fresh weight/ explant) was produced on MS media with 13.32 μM BA + 2.32 μM Kin with over 93% callus induction frequency. Optimum shoot organogenesis (67% frequency) was achieved in CHGW callus with lower level of BA (2.22 μM) and Kin (2.32 μM) and produced 3.2 shoots/0.5 g callus within 35 d of culture. Microshoots were rooted successfully (62% frequency) after 35 d of culture on 1/2MS containing 4.90 μM IBA and hardened off. Antioxidant enzymes such as catalase, peroxidase, polyphenol oxidase, and biochemical parameters viz. hydrogen peroxide, reducing and nonreducing sugars, starch, proteins, phenols, and proline contents were studied in regenerating and nonregenerating CHGW calluses to establish a correlation between these parameters and shoot morphogenesis. All the enzyme activities and biochemical parameters were found more in regenerating callus than in nonregenerating except phenols.     

Neuroprotective Effects of Chalcones from <Emphasis Type="Italic">Myracrodruon urundeuva</Emphasis> on 6-Hydroxydopamine-Induced Cytotoxicity in Rat Mesencephalic Cells

In the present work, we showed that a chalcone-enriched fraction (CEF) isolated from the stem bark of a Brazilian medicinal plant, Myracrodruon urundeuva, presents neuroprotective actions on 6-hydroxydopamine (6-OHDA)-induced neuronal cell death, in rat mesencephalic cells. In the MTT [3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyl tetrazolium] assay, which is an index of cell viability, CEF (1–100 μg/ml) reversed in a concentration-dependent manner the 6-OHDA-induced cell death. While cells exposed to 6-OHDA (40 μM) showed an increased concentration of thiobarbituric acid reactive substances (TBARS), the pretreatment with CEF (10–100 μg/ml) significantly decreased the 6-OHDA-induced TBARS formation, indicative of a neuroprotection against lipoperoxidation. Furthermore, the drastic increase of nitrite levels induced by 6-OHDA, indicative of nitric oxide formation and free radicals production, was prevented by CEF. Double staining with acridine orange/ethidium bromide showed that cultures exposed to 6-OHDA (40 and 200 μM) presented an increase of apoptotic and necrotic cell numbers in a concentration-dependent manner. CEF (100 μg/ml) protected cells from apoptosis and necrosis and increased number of cells presenting a normal morphology. The immunohistochemical analysis for tyrosine hydroxylase (TH) positive neurons indicated that 6-OHDA (40 and 200 μM) caused a concentration-dependent loss of TH+ and TH− neurons. CEF protected both cells types from 6-OHDA-induced cell death. All together, our results demonstrated neuroprotective effects of chalcones, which are able to reduce oxidative stress and apoptotic injury caused by 6-OHDA. Our findings suggest that chalcones could provide benefits, along with other therapies, in neurodegenerative injuries, such as Parkinson’s disease.     

Dynamics of zinc uptake and accumulation in the hyperaccumulating and non-hyperaccumulating ecotypes of Sedum alfredii Hance

Sedum alfredii Hance has been identified as a Zn-hyperaccumulating plant species native to China. The characteristics of Zn uptake and accumulation in the hyperaccumulating ecotype (HE) and non-hyperaccumulating ecotype (NHE) of S. alfredii were investigated under nutrient solution and soil culture conditions. The growth of HE was normal up to 1000 μM Zn in nutrient solution, and 1600 mg Zn kg⁻¹ soil in a Zn-amended soil. Growth of the NHE was inhibited at Zn levels ≥250 μM in nutrient solution. Zinc concentrations in the leaves and stems increased with increasing Zn supply levels, peaking at 500 and 250 μM Zn in nutrient solution for the HE and the NHE, respectively, and then gradually decreased or leveled off with further increase in solution Zn. Minimal increases in root Zn were noted at Zn levels up to 50 μM; root Zn sharply increased at higher Zn supply. The maximum Zn concentration in the shoots of the HE reached 20,000 and 29,000 mg kg⁻¹ in the nutrient solution and soil experiments, respectively, approximately 20 times greater than those of the NHE. Root Zn concentrations were higher in the NHE than in the HE when plants were grown at Zn levels ≥50 μM. The time-course of Zn uptake and accumulation exhibited a hyperbolic saturation curve: a rapid linear increase during the first 6 days in the long-term and 60 min in the short-term studies; followed by a slower increase or leveling off with time. More than 80% of Zn accumulated in the shoots of the HE at half time (day 16) of the long-term uptake in 500 μM Zn, and also at half time (120 min) of the short-term uptake in 10 μM ⁶⁵Zn²⁺. These results indicate that Zn uptake and accumulation in the shoots of S. alfredii exhibited a down-regulation by internal Zn accumulated in roots or leaves under both nutrient solution and soil conditions. An altered Zn transport system and increased metal sequestration capacity in the shoot tissues, especially in the stems, may be the factors that allow increased Zn accumulation in the hyperaccumulating ecotype of S. alfredii. Section Editor: F. J. Zhao     

Inhibition of ribonuclease and protease activities in germinating rice seeds exposed to nickel

When the seeds of two rice cvs. Malviya-36 and Pant-12 were germinated up to 120 h in the presence of 200 and 400 μM NiSO₄, a significant reduction in the germination of seeds occurred. Seeds germinating in the presence of 400 μM NiSO₄ showed about 12–20% decline in germination percent, about 20–53% decline in lengths and about 8–34% decline in fresh weights of roots and shoots at 120 h of germination. Ni²⁺ exposure of germinating seeds resulted in apparent increased levels of RNA, soluble proteins, and free amino acids in endosperms as well as embryo axes. A 400 μM Ni²⁺ treatment led to about 58–101% increase in the level of soluble proteins and about 39–107% increase in the level of free amino acids in embryo axes at 96 h of germination. Activities of ribonuclease and protease declined significantly with increasing levels of Ni²⁺ treatment. Isoenzyme profile of RNase as revealed by activity staining indicated decline in the intensities of 3–4 preexisting enzyme isoforms in embryo axes of both the rice cultivars and disappearance of one of the two isoforms in endosperms of cv. Pant-12 due to 400 μM Ni²⁺ treatment. Results suggest that the presence of high level of Ni²⁺ in the medium of germinating rice seeds serves as a stress factor resulting in decreased hydrolysis as well as delayed mobilization of endospermic RNA and protein reserves and causing imbalance in the level of biomolecules like RNA, proteins, and amino acids in growing embryo axes. These events would ultimately contribute to decreased germination of rice seeds in high Ni²⁺ containing environment.     

Effects of Metal Combinations on the Production of Phytochelatins and Glutathione by the Marine Diatom Phaeodactylum tricornutum

Copper, Cd and Zn can be found at elevated concentrations in contaminated estuarine and coastal waters and have potential toxic effects on phytoplankton species. In this study, the effects of these metals on the intracellular production of the polypeptides phytochelatin and glutathione by the marine diatom Phaeodactylum tricornutum were examined in laboratory cultures. Single additions of Cu and Cd (0.4 μM Cu² and 0.45 μM Cd²⁺) to the culture medium induced the production of short-chained phytochelatins ((γ-Glu-Cys)_n-Gly where n = 2–5), whereas a single addition of Zn (2.2 μM Zn²⁺) did not stimulate phytochelatin production. Combination of Zn with Cu resulted in a similar phytochelatin production compared with a single Cu addition. The simultaneous exposure to Zn and Cd led to an antagonistic effect on phytochelatin production, which was probably caused by metal competition for cellular binding sites. Glutathione concentrations were affected only upon exposure to Cd (85% increase) or the combination of Cd with Zn (65% decrease), relative to the control experiment. Ratios of phytochelatins to glutathione indicated a pronounced metal stress in response to exposures to Cu or Cd combined with Zn. This study indicates that variabilities in phytochelatin and glutathione production in the field can be explained in part by metal competition for cellular binding sites.     

Micropropagation of Salix pseudolasiogyne from nodal explants

The effect of phytohormones on the breaking of dormancy of axillary buds in Salix pseudolasiogyne and their subsequent proliferation from nodal explants were examined. Nodal explants obtained from a 20–year-old S. pseudolasiogyne tree were cultured either on woody plant basal medium (WPM) or WPM supplemented with benzyladenine (BA, 2.2/4.4 μM), zeatin (1.1/2.2 μM), gibberillic acid (GA₃, 2.9 and 14.5 μM), and GA₃ + BA (2.9 + 4.4 μM). Although axillary shoots developed in all the media, a higher percentage bud break occurred on BA supplemented media. To corroborate the results, endogenous levels of cytokinins [Cks, N ⁶-isopentenyladenine (iP), zeatin riboside (t-ZR), dihydrozeatinriboside (DHZR)] and abscisic acid (ABA) were determined. On BA supplemented media, the levels of zeatin type (Z-type) of Cks were higher than those of isopentenyladenine type of Ck in the explants, while the ABA level was low. Axillary shoots did not grow well and became necrotic upon subculture to fresh basal WPM. In order to improve shoot growth, they were subcultured twice at a 4-week interval on to WPM supplemented with BA (2.2/4.4 μM), GA₃ (1.4 μM), or GA₃ + BA (1.4 + 4.4/2.9 + 4.4 μM). Maximal shoot growth (93%) was achieved on WPM supplemented with 2.2 μM BA. Comparative analyses of endogenous Cks revealed that higher Cks (Z-type Cks) were present in actively growing shoots. Rooting was readily achieved when the shoots were subcultured to WPM without phytohormones. The rooted plants were acclimatized well upon transplantation.     

Plant regeneration from protoplasts of <Emphasis Type="Italic">Musa acuminata</Emphasis> cv. Mas (AA) via somatic embryogenesis

A protocol for plant regeneration from protoplasts of Musa acuminata cv. Mas (AA) via somatic embryogenesis was developed. Viable protoplasts were isolated from embryogenic cell suspensions at a yield of 1.2 × 10⁷ protoplasts/ml packed cell volume (PCV). Liquid and feeder layer culture systems with medium-A and medium-B were used for protoplast culture. In liquid culture system, medium-B was more efficient for inducing cell division (17.5% at 14 days) and colony formation (6.7% at 28 days) than medium-A. However, all protoplast-derived cell colonies (PDCC) obtained from liquid culture system could not develop further. In feeder layer culture system, there was no significant difference between medium-A and medium-B on cell division and colony formation of the cultured protoplasts, and the cell division frequency at 14 days and colony formation frequency at 28 days were 24.5% and 11.2%, respectively, in medium-B. Comparative study on the effects of BAP (2.2 μM, 4.4 μM, 8.8 μM), zeatin (0.4 μM, 0.8 μM, 1.2 μM) and TDZ (0.2 μM, 0.4 μM, 0.6 μM) on embryo formation of PDCC from feeder-layer culture indicated that TDZ was best. TDZ at 0.4 μM induced 7906 mature embryos per ml PCV PDCC, which was 4-fold the frequency as with BAP at 4.4 μM, 7.5-fold as with zeatin at 0.8 μM and 150-fold as control medium (no mentioned cytokinins) after 45 days on M3 medium. About 44% of the mature embryos were converted into plantlets with poor root system after subculture on M4 medium. Root further development of regenerated plantlets was promoted by addition of activated charcoal (AC) to MS basal medium.     

Isolation,characterization, and in vitro culture of larval and adult epidermal cells of the frogXenopus laevis

Summary Methods for the isolation and in vitro culture of larval and adultXenopus laevis epidermal cells have been developed. Epidermal cells of stage 52–54 tadpoles and adult epidermal cells were enzymatically dissociated and purified (98%) by Percoll-density centrifugation and unit-gravity sedimentation. Both cell types attached on fibronectin-coated dishes and proliferated for 1 wk when the proper medium was used. There were four significant differences between larval and adult cells: a) Adult cells had a greater buoyant density than larval cells. b) Keratin synthesis patterns were markedly different. c) A combination of medium F12 and Eagle's minimum essential medium was optimal for growth of larval cells whereas MCDB151 medium was optimal for adult cells. d) Adult cells needed fetal bovine serum (>5%) whereas larval cells grew without fetal bovine serum. In contrast to these differences, larval and adult cells had two similar properties: a) Insulin had a potent effect on the growth of both cells, and b) The optimal Ca⁺⁺ concentration for cell growth was quite low for both cell types; 0,1 mM for larval cells and below 0.05 mM for adult cells. These results suggest that low Ca⁺⁺ levels are essential for both cornifying (adult) and uncornifying (larval) amphibian keratinocytes. The culture techniques described herein for larval and adult epidermal cells provide a new in vitro model for analyzing development of the epidermis during amphibian metamorphosis. This study was supported by grant (HD 24438) from the National Institutes of Health, Bethesda, MD.     

Glutathione reductase fromSaccharomyces cerevisiae undergoes redox interconversionin situ andin vivo

Redox interconversion of glutathione reductase was studiedin situ withS. cerevisiae. The enzyme was more sensitive to redox inactivation in 24 hour-starved cells than in freshly-grown ones. While 5 μM NADPH or 100 μM NADH caused 50% inactivation in normal cells in 30 min, 0.75 μM NADPH or 50 μM NADH promoted a similar effect in starved cells. GSSG reactivated the enzyme previously inactivated by NADPH, ascertaining that the enzyme was subjected to redox interconversion. Low EDTA concentrations fully protected the enzyme from NADPH inactivation, thus confirming the participation of metals in such a process. Extensive inactivation was obtained in permeabilized cells incubated with glucose-6-phosphate or 6-phosphogluconate, in agreement with the very high specific activities of the corresponding dehydrogenases. Some inactivation was also observed with malate, L-lactate, gluconate or isocitrate in the presence of low NADP⁺ concentrations. The inactivation of yeast glutathione reductase has also been studiedin vivo. The activity decreased to 75% after 2 hours of growth with glucono-δ-lactone as carbon source, while NADPH rose to 144% and NADP⁺ fell to 86% of their initial values. Greater changes were observed in the presence of 1.5 μM rotenone: enzymatic activity descended to 23% of the control value, while the NADH/NAD⁺ and NADPH/NADP⁺ ratios rose to 171% and 262% of their initial values, respectively. Such results indicate that the lowered redox potential of the pyridine nucleotide pool existing when glucono-δ-lactone is oxidized promotesin vivo inactivation of glutathione reductase.     

High frequency shoot regeneration from immature embryo explants of Hungarian vetch

An in vitro propagation protocol has been developed from mature trees of Pittosporum napaulensis. The best bud proliferation (83.1%), shoot number (21 axillary shoots/ explant) and shoot length (5.5 cm) was achieved in Murashige and Skoog (MS) medium supplemented with 5.0 μM N⁻⁶ benzyladenine and 0.1 μM α- naphthalene acetic acid. Of the three cytokinins tested (N⁻⁶ benzyladenine, kinetin and thidiazuron), N⁻⁶ benzyladenine proved to be the best for shoot induction. Shoot regeneration potential varied among genotypes. Regenerated shoots rooted after 48 hours treatment on half-strength MS liquid medium supplemented with 20 μM indole-3-butyric acid. Rooted shoots transferred to 120 g (w/v) soilrite + sand + soil (1:1:1) mixture showed 70% survival. Twenty-one plantlets are growing well in green house conditions. This revised version was published online in August 2006 with corrections to the Cover Date.     

In vitro Plant Regeneration of Melia azedarach L.: Shoot Organogenesis from Leaf Explants

In vitro regeneration of Melia azedarach L. was studied. Shoots were regenerated from calli initiated from leaflets of in vitro growing plants. The best medium for establishment of cultures was Murashige and Skoog (MS) medium with 4.44 μM benzylaminopurine (BAP) + 0.46 μM kinetin (KIN) + 16.29 μM adenine sulphate (ADE). Regenerated shoots were multiplied in MS + 0.44 μM BAP + 0.37 μM KIN + 3.26 μM ADE. Maximal rooting of 89 % was achieved by culture of regenerated shoots in MS + 12.26 μM indole-3-butyric acid for 3 d and subsequently in MS lacking growth regulators for 27 d. Rooted shoots were acclimatized and successfully transferred to soil. This revised version was published online in July 2006 with corrections to the Cover Date.     

Cadmium-induced stress on the seed germination and seedling growth of <Emphasis Type="Italic">Brassica napus</Emphasis> L., and its alleviation through exogenous plant growth regulators

Because of its prolific growth, oilseed rape (Brassica napus L.) can be grown advantageously for phytoremediation of the lands contaminated by industrial wastes. Therefore, toxic effect of cadmium on the germination of oilseed rape, the capability of plants for cadmium phytoextraction, and the effect of exogenous application of plant growth regulators to mitigate phytotoxicity of cadmium were investigated. For the lab study of seedlings at early stage, seeds were grown on filter papers soaked in different solutions of Cd²⁺ (0, 10, 50, 100, 200 and 400 μM). In greenhouse study, seedlings were grown in soil for 8 weeks, transferred to hydroponic pots for another 6 weeks growth, and then treated with plant growth regulators and cadmium. Four plant growth regulators viz. jasmonic acid (12.5 μM), abscisic acid (10 μM), gibberellin (50 μM) and salicylic acid (50 μM); and three levels of Cd²⁺ (0, 50 and 100 μM) were applied. Data indicated that lower concentration of Cd²⁺ (10 μM) promoted the root growth, whereas the severe stresses (200 or 400 μM) had negative effect on the establishment of germinating seedlings. Plants treated with any of the tested plant growth regulators alleviated cadmium toxicity symptoms, which were reflected by more fresh weight, less malondialdehyde concentration in leaves and lower antioxidant enzyme activities. The application of abscisic acid to the plants cultivated in the medium containing 100 μM Cd²⁺ resulted in significantly lower plant internal cadmium accumulation. Huabing Meng and Shujin Hua contributed equally to this paper.     

Micropropagation of Chokecherry and Pincherry cultivars

In vitro culture establishment, shoot proliferation and ex vitro rooting responses of chokecherry (Prunus virginiana L.), `Garrington', and pincherry (P. pensylvanica L.f), `Mary Liss' and `Jumping Pound', were examined using various combinations of growth regulators. Dormant winter buds were used as explants. MSMO medium supplemented with 0.49 μM IBA and either 4.44 or 8.87 μM BA was found to be optimal for culture initiation of both species and cultivars. GA₃ (28.89 μM) significantly reduced (p=0.0001) the number of successfully established cultures. BA concentrations 8.87–12.82 μM gave optimal shoot proliferation in chokecherry and 4.44 μM BA in both cultivars of pincherry. Auxin treatments were required for ex vitro rooting of approximately 10 mm long shoots in peat/perlite (1:1 v/v) mixture, at 25 °C, under mist. The best rooting (84%) was obtained with IBA/NAA (9.80/2.69 μM). A commercial rooting powder, Rootone F, containing IBA/NAA (0.057/0.067%) mixture, was also effective (75%). The ex vitro rooted plantlets did not require any additional acclimatization prior to transplanting to the regular greenhouse conditions. This revised version was published online in August 2006 with corrections to the Cover Date.     

Heavy metal resistant <Emphasis Type="Italic">Distigma proteus</Emphasis> (Euglenophyta) isolated from industrial effluents and its possible role in bioremediation of contaminated wastewaters

Summary The alga, Distigma proteus, isolated from industrial wastewater showed tolerance against Cd²⁺ (8.0 μg/ml), Cr⁶⁺ (12 μg/ml), Pb²⁺ (15 μg/ml) and Cu²⁺ (10 μg/ml). The metal ions slowed down the growth of the organism after 4–5 days of exposure. The reduction in cell population was 90% for Cu²⁺, 84% for Cd²⁺, 71% for Cr⁶⁺, and 63% for Pb²⁺ after 8 days of metal stress. The order of resistance to heavy metal, in terms of reduction in the cellular population, was Cu²⁺ > Cd²⁺ > Cr⁶⁺ > Pb²⁺. Chromium- and cadmium-processing capabilities of the alga were worked out for its potential use as a bioremediator of wastewater. The reduction in the amount of Cr⁶⁺ after 2, 4, 6 and 8 days of algal culture containing 5.0 μg Cr⁶⁺ ml⁻¹ of culture medium was 77, 85, 92 and 97%, respectively. Distigma could also remove 48% Cd²⁺after 2 days, 68% after 4 days, 80% after 6 days and 90% after 8 days from the medium. The heavy metal uptake ability of Distigma can be exploited for metal detoxification and environmental clean-up operations.