Influence of inorganic microelements on the production of camptothecin with suspension cultures of <Emphasis Type="Italic">Camptotheca acuminata</Emphasis>

The effects of eight microelements (I^–, BO₃ ^3–, MoO₄ ^2–, Co²⁺, Cu²⁺, Mn²⁺, Fe²⁺, Zn²⁺) on the biosynthesis of camptothecin and the growth of suspension cultures of Camptotheca acuminata were studied. The increase of I^– to 25 M l^–1, Cu²⁺ to 1 M l^–1, Co²⁺ to 2 M l^–1 and MoO₄ ^2– to 10 M l^–1 in Murashige and Skoog (MS) medium resulted in 1.66, 2.84, 2.53 and 2.04 times higher of camptothecin yield than that in standard MS medium respectively. Combined treatment of I^– (25 M l^–1), Cu²⁺ (1 M l^–1), Co²⁺ (2 M l^–1) and MoO₄ ^2– (10 M l^–1) lead to improve cell dry weight, camptothecin content, and camptothecin yield to 30.56 g l^–1, 0.0299%, and 9.15 mg l^–1, respectively, which were 20.2, 208.9 and 273.8% increment respectively when compared with those of control.     

Involvement of Ca2+-stimulated adenosine 5′-triphosphatase in the Ca2+ releasing mechanism of rat liver nuclei

The regulatory role of Ca²⁺-stimulated adenosine 5-triphosphatase (Ca²⁺-ATPase) in Ca²⁺ transport system of rat liver nuclei was investigated. Ca²⁺ uptake and release were determined with a Ca²⁺ electrode. Ca²⁺-ATPase activity was calculated by subtracting Mg²⁺-ATPase activity from (Ca²⁺–Mg²⁺)-ATPase activity. The release of Ca²⁺ from the Ca²⁺-loaded nuclei was evoked progressively after Ca²⁺ uptake with 1.0 mM ATP addition, while it was only slightly in the case of 2.0 mM ATP addition, indicating that the consumption of ATP causes a leak of Ca²⁺ from the Ca²⁺-loaded nuclei. The presence of N-ethylmaleimide (NEM; 0.1 mM) caused an inhibition of nuclear Ca²⁺ uptake and induced a promotion of Ca²⁺ release from the Ca²⁺-loaded nuclei. NEM (0.1 and 0.2 mM) markedly inhibited nuclear Ca²⁺-ATPase activity. This inhibition was completely blocked by the presence of dithiothreitol (DTT; 0.1 and 0.5 mM). Also, DTT inhibited the effect of NEM (0.1 mM) on nuclear Ca²⁺ uptake and release. Meanwhile, verapamil and diltiazem (10 M), a blocker of Ca²⁺ channels, did not prevent the NAD⁺ (1.0 and 2.0 mM), zinc sulfate (1.0 and 2.5 M) and arachidonic acid (10 M)-induced increase in nuclear Ca²⁺ release, suggesting that Ca²⁺ channels do not involve on Ca²⁺ release from the nuclei. These results indicates that an inhibition of nuclear Ca²⁺-ATPase activity causes the decrease in nuclear Ca²⁺ uptake and the release of Ca²⁺ from the Ca²⁺-loaded nuclei. The present finding suggests that Ca²⁺-ATPase plays a critical role in the regulatory mechanism of Ca²⁺ uptake and release in rat liver nuclei.     

Response of Rhizobium leguminosarum to nickel stress

Rhizobium leguminosarum strain P-5 biovar viciae was sensitive to Ni²⁺ (MIC, 75 M) and showed concentration-dependent Ni²⁺ uptake in a wide concentration range (50–500 M). Ni²⁺ uptake up to a certain threshold limit also increased thiol content (66 nmol mg^–1 protein), proline content (10.85 nmol mg^–1 protein) and urease specific activity (500 nmol min^–1 mg^–1 protein) maximum corresponding to 100 M Ni²⁺ as the external concentration or 151 nmol Ni²⁺ mg^–1 protein as the intracellular buildup. Proline synthesis was stimulated most even at much lower Ni²⁺ concentration (25 M). Higher intracellular Ni²⁺ load neither favoured thiol nor proline biosynthesis nor urease activity. Ni²⁺ requirement of urease was ascertained by using EDTA-grown cells and the addition of bicarbonate (NaHCO₃, 100 mM) to the crude extract. The induction of thiol or proline by Ni²⁺, therefore, reflects the possible strategies adopted by bacterial cells to overcome the environmental stress.     

Neurotoxic effects of copper: Inhibition of glycolysis and glycolytic enzymes

The effects of Cu²⁺ on glycolysis and several glycolytic enzymes were studied in rat brain extracts in vitro. At concentrations reportedly found in Wilson's disease, Cu²⁺ significantly inhibited lactate production from glucose or glucose-6-phosphate in rat brain postnuclear supernatant with an IC₅₀ of about 3 M. Cu²⁺ also inhibited several glycolytic enzymes. Amongst the latter, Cu²⁺ was most effective in inhibiting hexokinase (IC₅₀ for Cu²⁺=7 M), moderately effective in inhibiting pyruvate kinase (IC₅₀ for Cu²⁺=56 M), but least effective in inhibiting lactate dehydrogenase (IC₅₀ for Cu²⁺=300 M). These results suggest that inhibition of brain glycolysis may have pathophysiological importance in copper poisoning and in Wilson's disease.     

Reduction of chromate by microorganisms isolated from metal contaminated sites of Karachi, Pakistan

Three bacterial strains, two identified as Pseudomonas stutzeri and one as a strain of cucurbit yellow vine disease bacterium, isolated from a foundry soil and a tannery, respectively, in Pakistan, were resistant to up to 1 mM chromate and anaerobically reduced Cr(VI) up to 100 M. The highest removal was by P. stutzeri CMG463: 88 mol l^–1 (88% of that supplied; specific rate was 3.0 nmol mg^–1 protein h^–1), while 58 and 76 mol l^–1 (58% and 76%) were removed by P. stutzeri CMG462 and cucurbit yellow vine disease bacterium CMG480, respectively. These isolates were compared to strains isolated from an uncontaminated coastal site in the UK and designated as K2 (Pseudomonas synxantha) K3 (Bacillus sp.), and J3 (unidentified Gram-positive strain). Strain K3 was Cr-sensitive, partially lysed by Cr(VI), but had the highest removal of chromate anaerobically: 92 mol l^–1 (92% of that supplied) at a specific rate of 71 nmol mg^–1 protein h^–1. Analysis of cell sections using transmission electron microscopy with energy dispersive X-ray analysis showed intracellular chromium in P. stutzeri but the cucurbit yellow vine disease bacterium and the Bacillus sp. precipitated chromium extracellularly. The isolates from the Cr-contaminated sites did not remove more Cr(VI), overall, than Cr-unstressed bacteria, but their tolerance to Cr(VI) is potentially useful for bioremediation, particularly since other studies have shown that the two P. stutzeri strains can bioaccumulate Cu²⁺.     

Comparison of Ni-sensitive and Ni-resistant strains of Nostoc muscorum

A wild-type Ni-sensitive (Ni^s) strain of Nostoc muscorum ISU spontaneously yielded mutants resistant to inhibition by 40 M Ni with a frequency of about 10^-7. A Ni-resistant (Ni^r) mutant was deficient in the activities of urease and uptake hydrogenase. Cellular Ni uptake in the Ni^s strain was dependent on concentration (40 to 120 M) and time (0 to 30 min) (V_max=0.51 nmol/g protein.min; K_m=92 M). The Ni bioconcentration factor for such cells ranged between 0.95×10³ and 1.89×10³. Ni uptake in spheroplast preparations from Ni^s cells followed almost the same trend as intact cells except that the bioconcentration factor was slightly less [(0.82 to 1.39)×10³]. In contrast, Ni uptake in the Ni^r intact cells was not concentration dependent and also the uptake was saturated, even at 40 M, within 10 min. Spheroplasts from the Ni^r strain showed a Ni bioconcentration factor of 1.19×10³ compared with 4.41×10³ for intact cells. The invariably lower Ni uptake by spheroplasts was attributed to altered membrane transport properties.R.K. Asthana, A.L. Singh and S.P. Singh are with the Algal Research Laboratory, Centre of Advanced Study in Botany, Banaras Hindu University, Varanasi-221 005, India.     

Factors affecting the growth form of Aspergillus terreus NRRL 1960 in relation to itaconic acid fermentation

The effect of medium composition on the growth form of Aspergillus terreus NRRL 1960 in relation to itaconic acid fermentation has been studied. Four types of mycelial pellets were obtained under the conditions used and may be classified as (a) frayed and loose with 0.1–0.5 mm diameter (b) compact with 0.1–0.5 mm diameter (c) loose with 0.5–2.0 mm diameter and (d) compact with 0.5–2.0 mm diameter. Their respective maximum specific rates of formation and yields of itaconic acid, based on 100 g sucrose supplied, were (a) 1.25 mol mg^–1h^–1 and 55–59 g, (b) 0.27–0.43 mol mg^–1 h^–1 and 26–38 g, (c) 0.75–0.90 mol mg^–1 h^–1 and 45–51 g and (d) 0.12 mol mg^–1 h^–1 and 10 g. The presence of Ca²⁺, Zn²⁺ and Fe²⁺ in the basal medium at concentrations of 23.3 mg/100 ml, 0.01 mg/100 ml and 0.006 mg/100 ml respectively were found to be adequate and crucial in obtaining the desired outgrowth for both high production rates and consistent yields of itaconic acid. The further addition of either commercial plaster of Paris or analytical-reagent-grade CaSO₄, especially when activated by heating to 530°C and present in excess of solubility, results in small and frayed pellets, which lead to itaconic acid yields of 55–59 g acid/100 g sugar supplied.     

Interactive cytotoxicities of selected organic and inorganic substances to brown cells ofMercenaria mercenaria

Toxicities of binary mixtures of Cu²⁺, Cd²⁺, benzo(a)pyrene [B(a)P] andN-ethylmaleimide (NEM) were screened using thein vitro neutral red (NR) assay to test the hypothesis that combined toxicity is more than or less than additive relative to the influence of each mixture constituent on toxicant uptake and brown cell lysosomal membrane stability. Significant cytotoxicity was observed at 25 mol/L Cu²⁺, 500 mol/L Cd²⁺ and 25 mol/L NEM. B(a)P at 12 mol/L exerted no toxicity under the conditions of the assay. Interactions between Cu²⁺ and NEM, between Cd²⁺ and NEM, and between Cd²⁺ and B(a)P significantly influenced brown cell survival. Comparison of observed joint toxicity with estimates made using a model of independent joint action indicates that interactive effects are less than additive in character. The 3-way interaction involving Cu²⁺, B(a)P, and NEM also affected brown cell survival to a statistically significant degree. However, the interactive cytotoxicity of this mixture is attributable mainly to the combined effect of Cu²⁺ and NEM. Results also indicate that new. hypotheses and additional experimentation are needed to understand the interactive toxicity of mixture constituents.Abbreviations PAH polyaromatic hydrocarbon - NEM N-ethylmaleimide - NR neutral red - B(a)P benzo(a)pyrene     

Effects of Zn2+ and Cu2+ on growth,lignin degradation and ligninolytic enzymes in Phanerochaete chrysosporium

The influence of Zn²⁺ (6.0 × 10^–3 –18.0 × 10^–3 M) and Cu²⁺ (4 × 10^–4 –1.2 × 10^–4 M) in the basal medium on mycelial growth (dry weight), activities of lignin peroxidase (Lip), manganese peroxidase (Mnp), solubilization, and mineralization (¹⁴CO₂ evolution) of lignin during a period of 3 weeks was studied in Phanerochaete chrysosporium strain MTCC-787. Highest mycelial growth was obtained at 0.6 M Zn²⁺ and 0.4 M Cu²⁺ levels. Enzyme activities were found to increase up to the highest levels of both the trace elements. However, Zn²⁺ had a relatively more stimulatory effect on Lip production and the reverse was true in case of Cu²⁺. [¹⁴C]Lignin solubilization was also promoted by higher levels of both trace elements. Mineralization of [¹⁴C]lignin was optimal at 6.0 M Zn²⁺ and 1.2 M Cu²⁺. The stimulatory effect of Zn²⁺ on Lip production was correlated with higher rates of [¹⁴C]lignin mineralization.     

Cadmium-mediated resistance to metals and antibiotics in a cyanobacterium

Summary Cadmium-resistant strains of the cyanobacterium Nostoc calcicola were isolated through the step-wise transfer of the organism to higher levels of the metal. One of the Cd-resistant strains (Cd^r–10) showed cross-resistance to antibiotics like neomycin (1 g/ml), chloramphenicol (3 g/ml) but not to streptomycin. The Cd-resistant strain also tolerated elevated levels of metals such as zinc (20 ppm) and mercury (1 ppm). The stability of the metal-resistance required the presence of Cd²⁺ ions in the growth medium. It is suggested that metal resistance may also be determined by gene(s) on the antibiotic resistance plasmids in cyanobacteria.     

Extracellular polysaccharides of a copper-sensitive and a copper-resistant Pseudomonas aeruginosa strain: synthesis,chemical nature and copper binding

Extracellular polysaccharides (EPS) of a copper-sensitive (Cu^s) and a copper-resistant (Cu^r) Pseudomonas aeruginosa strain were investigated in terms of their production, chemical nature and response towards copper exposure. The extent of EPS synthesis by the resistant strain (4.78 mg mg^–1 cell dry wt.) was considerably higher over its sensitive counterpart (2.78 mg mg^–1 dry wt.). FTIR-spectroscopy and gas chromatography revealed that both the polymers were acidic in nature, containing alginate as the major component along with various neutral- and amino-sugars. Acid content in the Cu^r EPS (480.54 mg g^–1) was greater than that in the Cu^s EPS (442.0 mg g^–1). Presence of Cu²⁺ in the growth medium caused a dramatic stimulation (approximately 4-fold) in EPS synthesis by the Cu^r strain, while in a similar condition, the Cu^s failed to exhibit such response. The polymer of the resistant strain showed elevated Cu²⁺ binding (320 mg g^–1 EPS) compared to that of the sensitive type (270 mg g^–1). The overall observations show the potential of the Cu^r EPS for its deployment in metal bioremediation.     

Effect of sulfur supply on sulfate uptake,and alkaline sulfatase activity in free-living and symbiotic bradyrhizobia

The effect of sulfur limitation on sulfate transport and metabolism was studied in four bradyrhizobia strains using sulfur-limited and sulfur-excess chemostat cultures. Characteristics of bradyrhizobia associated with sulfurlimitation were determined and these parameters used to bioassay the sulfur status of bacteroids in nodules on sulfur adequate or sulfur deficient soybean and peanut plants. Sulfur-limited cells took up sulfate 16- to 100-fold faster than sulfur-rich cells. The sulfate-uptake system appeared similar in all strains with apparent K _m values ranging from 3.1 M to 20 M sulfate with maximum activities between 1.6 and 10 nmol·min^-1·mg^-1 protein of cells. Sulfate-limited cells of all strains derepressed the enzyme alkaline sulfatase in parallel with the derepression of the sulfate transport system. Similarly, the initial enzyme of sulfate assimilation (ATP sulfurylase) was fully derepressed in sulfur-limited cultures. Bacteroids isolated from sulfur adequate and sulfur deficient soybean and peanut possessed very limited sulfate uptake activity and low levels of activity of ATP sulfurylase as well as lacking alkaline sulfatase activity. These results indicate bacteriods have access to adequate sulfur to meet their requirements even when the host plant is sulfur-deficient.Abbreviations CCCP Carbonyl cyanide m-chlorophenylhydrazone - DCCD N,N-dicyclohexyl carbodiimide     

Simultaneous use of 14C and 3H to determine autotrophic production and bacterial protein production in periphyton

A method of simultaneously quantifying photoautotrophic (algae and cyanobacteria) and bacterial production in periphyton communities by ¹⁴C-bicarbonate and ³H-leucine incorporation was investigated and applied to communities subjected to specific intensities of photosynthetically active radiation (400–700 nm). Maximum photosynthetic output (2.23 ± 0.29 (SE) g C cm^-2 h^-1) and bacterial production (0.07 ± 0.006 g C cm^-2 h^-1) occurred at the highest photon flux density (400 mol m^-2 s^-1). Over a photon flux density range of 20–400 mol m^-2 s^-1, bacterial and autotroph productivity were significantly and positively correlated (r = 0.89). Furthermore, application of 3-(3,4-dichlorophenyl)-1,1-dimethyl urea, a photosystem 11 inhibitor, to periphyton films reduced bacterial production by 46%, but it had no such effect on bacteria-only cultures. Therefore, the magnitude of bacterial production in periphyton was coupled to the photosynthesis/metabolism of algae and/or cyanobacteria.     

Changes in glycine and leucine transport during red cell maturation in the rat

Both glycine and leucine transport in rat red blood cells have been studied. The glycine uptake showed two different components, one sodium-dependent and another diffusion-like process. In contrast, leucine uptake was sodium independent. Both, Na⁺-dependent glycine and the overall leucine uptake in red blood cells showed a saturable pattern. Kinetic parameters in reticulocytes were: i) glycine: apparent Km 0.16 mM; V_max 100.2 nmol/ml ICW/min; ii) leucine: apparent Km 2.11 mM; V_max 3.88 mol/ml ICW/min. The erythrocytes kinetic parameters were: i) glycine: apparent Km 0.17 mM; V_max 9.47 nmol/ml ICW/min; leucine; apparent Km 4.77 mM; V_max 7.42 mol/ml ICW/min. The Kd values (sodium independent glycine uptake) were similar in both kind of cells, but the importance of this component in total glycine uptake in erythrocytes was much higher than in reticulocytes. Our results confirm that rat red blood cells have both saturable leucine and Na⁺-dependent glycine uptake, but some important changes occur during cell maturation.     

Bradyrhizobium japonicum subspecies (USDA 110 and 26) characterized by fixed-nitrogen uptake and symbiotic indoleacetic acid production

Two dissimilar subspecies ofBradyrhizobium japonicum (USDA 110 and 26) differ in ammonia (NH₃) assimilation and symbiotic indoleacetic acid (IAA) production. Free-living cultures of type-strain USDA 26 grow on NH₃ as a sole N source and take up an NH₃ analog, methylamine, whereas USDA strain 110 does neither. Although both strains nodulate soybean effectively, root nodules infected with symbiont 26 contain 0.3–1.1 g IAA per gram fresh weight. Nodules infected by tryptophan catabolic variants 4b and 20d, derived from strain 26, also elicit an increased IAA content, two- to fourfold (2.0–3.9 g · g^–1). In contrast, nodules infected with the dissimilar subspecies (strains 110 and 123) contain significantly less IAA.     

Parameters not influenced by vesamicol: Membrane potential,calcium uptake,and internal calcium concentration of synaptosomes

In our previous study vesamicol, an inhibitor of the acetylcholine transporter of the cholinergic vesicles, inhibited veratridine-evoked external Ca²⁺-dependent acetylcholine release from striatal slices but did not influence acetylcholine release observed in Ca²⁺-free medium (4). Here we examined if the effect of veratridine on membrane potential, Ca²⁺ uptake, and intracellular Ca²⁺ concentration of synaptosomes was altered by vesamicol in parallel with the inhibition of acetylcholine release. The depolarizing effect of 10 M veratridine (from 67±2.3 mV resting membrane potential to 50.7±2.5 mV) was not significantly influenced by vesamicol (1–20 M). Vesamicol (1–20 M) had no effect on either the overall curve of the veratridine-evoked⁴⁵Ca²⁺ uptake or the amount of Ca²⁺ taken up by synaptosomes. Veratridine caused a rise in intrasynaptosomal Ca²⁺ concentration as measured by Fura2 fluorescence, and the same increase both in characteristics and in magnitude was observed in the presence of vesamicol (20 M). The K⁺-evoked (40 mM) increase of Ca²⁺ uptake and of intracellular calcium concentration were also unaltered by vesamicol. In high concentration (50 M) vesamicol inhibited both the fall in membrane potential and the elevated Ca²⁺ uptake by veratridine, indicating a possible nonspecific effect on potential-dependent Na⁺ channels at this concentration. Vesamicol, in lower concentration (20 M) when neither of the above parameters was changed, completely prevented veratridine-evoked increase of [¹⁴C]acetylcholine release. This was observed only when vesamicol was present in the media throughout the experiment after loading the preparation with [¹⁴C]choline. The results suggest that vesamicol does not interfere with veratridine-induced changes in isolated nerve terminals other than with the release of acetylcholine, thus further supporting the involvement of a vesamicol-sensitive vesicular transmitter pool in Ca²⁺-dependent veratridine-elicited acetylcholine release.     

Comparative study of the growth of two strains ofNitrobacter in batch and continuous culture

Growth kinetics of 2Nitrobacter strains (N.w. and L) coexisting in the same soil are studied in batch and continuous culture. Monod's parameters are estimated numerically from experimental data in the case of the batch experiment, and from steady-state equations in the case of the chemostat. In both cases, the 2 strains show different values for their growth parameters. N.w. may be characterized by its high _max-K_s values, relative to strain L. But for each strain, _max is significantly lowered between batch and continuous culture. In this latter case, at N-NO₂ ^– concentrations less than 1.5g·ml^–1, the 2 strains exhibit similar growth rates showing that for concentrations of the limiting substrate prevailing in the soil, they may compete for this substrate.     

Production of thermostable α-galactosidase from thermophilic fungusHumicola sp

The thermophilic fungus,Humicola sp isolated from soil, secreted extracellular -galactosidase in a medium cotaining wheat bran extract and yeast extract. Maximum enzyme production was found in a medium containing 5% wheat bran extract as a carbon source and 0.5% beef extract as a carbon and nitrogen source. Enzyme secretion was strongly inhibited by the presence of Cu²⁺, Ni²⁺ and Hg²⁺ (1mM) in the fermentation medium. Production of enzyme under stationary conditions resulted in 10-fold higher activity than under shaking conditions. The temperature range for production of the enzyme was 37° C to 55°C, with maximum activity (5.54 U ml^–1) at 45°C. Optimum pH and temperature for enzyme activity were 5.0 and 60° C respectively. One hundred per cent of the original activity was retained after heating the enzyme at 60°C for 1 h. At 5mM Hg²⁺ strongly inhibited enzyme activity. TheK _m andV _max forp-nitrophenyl--d-galactopyranoside were 60M and 33.6 mol min^–1 mg^–1, respectively, while for raffinose those values were 10.52 mM and 1.8 mol min^–1 mg^–1, respectively.     

Expression and regulation of insulin-like growth factor binding protein-1 in the rat uterus throughout estrous cycle

The role of Ca²⁺-stimulated adenosine 5-triphosphatase (Ca²⁺-ATPase) in Ca²⁺ sequestering of rat liver nuclei was investigated. Ca²⁺-ATPase activity was calculated by subtracting Mg²⁺-ATPase activity from (Ca²⁺–Mg²⁺)-ATPase activity. Ca²⁺ uptake and release were determined with a Ca²⁺ electrode. Nuclear Ca²⁺-ATPase activity increased linearly in the range of 10–40 M Ca²⁺ addition. With those concentrations, Ca²⁺ was completely taken up by the nuclei dependently on ATP (2 mM). Nuclear Ca²⁺-ATPase activity was decreased significantly by the presence of arachidonic acid (25 and 50 M), nicotinamide-adenine dinucleotide (NAD⁺; 2 mM) and zinc sulfate (2.5 and 5.0 M). These reagents caused a significant decrease in the nuclear Ca²⁺ uptake and a corresponding elevation in Ca²⁺ release from the nuclei. Moreover, calmodulin (10 g/ml) increased significantly nuclear Ca²⁺-ATPase activity, and this increase was not seen in the presence of trifluoperazine (10 M), an antogonist of calmodulin. The present findings suggest that Ca²⁺-ATPase plays a role in Ca²⁺ sequestering by rat liver nuclei, and that calmodulin is an activator. Moreover, the inhibition of Ca²⁺-ATPase may evoke Ca²⁺ release from the Ca²⁺-loaded nuclei.     

Characterization of an exopolysaccharide mutant of Nostoc spongiaeforme: Zn2+-sorption and uptake

Exposure of the exopolysaccharide (EPS)-synthesizing cyanobacterium Nostoc spongiaeforme to Zn²⁺ (20 M) transformed the biomass into white debris. However, a few blue–green pin-heads emerged after 2 weeks in the same Zn²⁺-containing medium and formed less mucoid microcolonies (1–2 mm) relative to the protruding colonies (2–4 mm) of the parent strain on nutrient agar. One of such survivors (designated as Zn₂₀) that was stable through 10 successive transfers in Zn²⁺-lacking medium has been adopted for further characterization. The parent strain retained almost 88% of the total EPS synthesized, the rest being released into the ambient medium, while for Zn₂₀, the EPS retained approximated to 74%. Although the Zn²⁺-sensitivity of the mutant was comparable with that of the parent (LD₅₀, 7 M), Zn²⁺ uptake was still 5-fold higher in the former (2 g mg^–1 biomass dry wt., 20 M, external concentration). Also, both the strains showed insignificant difference in Zn²⁺-sorption onto their isolated EPS. The mutant was characterized by having higher cell carbohydrate content (642.8 g mg^–1 dry wt.) than its parent (513.6 g). The X-ray diffraction pattern revealed Zn²⁺ deposition on EPS from the parent mainly as zinc hypophosphite monohydrate [Zn(H₂PO₂)₂·H₂O], whereas there was a lack of distinct peaks in similar samples from Zn₂₀, thus confirming the amorphous nature. There was participation in Zn²⁺ binding of only COO^–, N=O, NO₂, SO₂ groups in the parent while participation of P—O and C=O groups in mutant EPS was evident in IR spectra. The observations suggest that the mutant could be deployed to achieve sustained EPS synthesis, its release and metal sorption/desorption in repeated cycles.