Genotoxicity of municipal landfill leachate on root tips of Vicia faba

The genotoxicity of municipal landfill leachate was studied using the Vicia faba root-tip cytogenetic bioassay. Results show that landfill leachates collected in different seasons decreased the mitotic index (MI) and caused significant increases of micronucleus (MN) frequencies and anaphase aberration (AA) frequencies in a concentration-dependent manner (concentration expressed as ‘chemical oxygen demand’ measured by the method of potassium dichromate oxidation (COD_Cr)). In addition, a seasonal difference in genotoxicity induced by leachate was observed. The results confirm that leachate is a genotoxic agent in plant cells and imply that exposure to leachate in the aquatic environment may pose a potential genotoxic risk to organisms. The results also show that the V. faba cytogenetic bioassay is efficient, simple and reproducible in genotoxicity studies of leachate, and that there is a correlation between the genotoxicity and the chemical measurement (COD_Cr) of leachate.     

Genotoxic activities in vivo of cobaltous chloride and other metal chlorides as assayed in the Drosophila wing spot test

A series of metal chlorides were subjected to the wing spot test of Drosophila melanogaster. In the test, larvae trans-heterozygous for the wing-hair mutations mwh and flr were orally treated at the third instar stage with a test compound and the wings were inspected at the adult stage for spots expressing phenotypes of the markers. CoCl₂, MnCl₂, MoCl₃, NiCl₂ and ZnCl₂ were clearly effective in inducing spots with one or two mutant hairs (small spots). CoCl₂ was clearly effective in inducing spots with three or more mutant hairs (large spots) as well. CrCl₃, FeCl₂ and FeCl₃ were negative under the conditions used. Based on estimated frequencies of small spots induced at the LD₅₀, the genotoxic effectiveness of the positive metal salts were ranked in a sequence of CoCl₂ > ZnCl₂ > MoCl₃ > (MnCl₂, NiCl₂). Since CoCl₂ did not induce large spots in the wings of the mwh/TM3 flies with a suppressed ability of mitotic crossing-over, the large spots induced by this compound in the mwh/flr system were ascertained as mutant clones due to mitotic crossing-overs.     

Detection of genotoxicity of metallic compounds by the bacterial bioluminescence test

Twenty metallic compounds were assayed for their genotoxic mutagenic activity by the bioluminescence test restoration of the luminescence of dark mutant of the luminous bacterium Photobacterium fischeri). The activity of the metals was tested in a liquid medium as well as on a solid medium. K₂Cr₂O₇, MnCl₂, BeCl₂, KH₂AsO₄, ZnCl₂ and Na₂WO₄ showed strong activity in liquid medium while AgNO₃, Cd(OOCCH₃)₂, CoCl₂, CuCl₂, HgCl₂, Na₂SeO₃ and Pb(NO₃)₂ were more active in the solid medium test. BaCl₂, Na₂MoO₄, NaAsO₂, NiSO₄, Na₂SeO₄, RbCl, and SnCl₂ were not active in the bioluminescence test. The correlation between the genotoxic activity of the tested metallic compounds in the bioluminescence test and other bacterial tests for genotoxic agents as well as the correlation between these results and the carcinogenicity of these compounds is discussed.     

Use of HepG2 cell line for direct or indirect mutagens screening: comparative investigation between comet and micronucleus assays

In the present study, DNA-damage and clastogenic or aneugenic effects of genotoxic compounds were examined in a metabolically competent human cell line (HepG2 cells) using the micronucleus and the comet assays. Compounds with various action mechanisms were tested: direct mutagens such as 4-nitroquinoline-N-oxide (4-NQO) and methyl methanesulfonate (MMS) and indirect mutagens requiring biotransformation to be active such as N-nitrosodimethylamine (NDMA), benzo[a]pyrene (B[a]P) and 2-acetylaminofluorene (2-AAF). The compounds were first tested for cytotoxicity by measuring their effects on RNA synthesis inhibition in HepG2 cells. 4-NQO, B[a]P and 2-AAF were the most potent compounds; their IC(50) values were, respectively, 1.9 micro M (4h contact), 3.4 and 112 micro M after 20 h. MMS was mildly cytotoxic (IC(50)=0.9 mM) and NDMA had a weak effect (IC(50)=110 mM) after 4h contact. In the micronucleus and comet assays, concentrations required to obtain a significant genotoxic effect in HepG2 cells varied over a broad range, NDMA being active only at very high concentrations. To compare the sensitivity of the two assays, we measured the so-called FIC(2)-the concentration necessary to induce a 2-fold increase of the measured genotoxicity parameter. The data show that genotoxic effects were consistently observed at lower concentrations in the micronucleus test, except in the case of MMS. The measured FIC(2) values were 0.12 micro M (4-NQO), 0.17 micro M (2-AAF), 0.26 micro M (B[a]P) and 6.4mM (NDMA). MMS had such a weak effect in the HepG2 cells that we could not calculate its FIC(2) value. In the comet assay, FIC(2) values were observed, respectively, at 1.48 micro M (4-NQO), 3.67 micro M (B[a]P), 13.42 micro M (MMS) and 27 mM (NDMA). 2-AAF failed to induce DNA-damage in this assay. The present study shows that HepG2 cells could be a suitable tool for assessing the genotoxicity of direct and indirect mutagens and for establishing the lowest genotoxic concentration.     

The protective effect exerted by ascorbic acid on DNA fragmentation of human leukocytes induced by Lachesis muta muta venom

The objective of this study was to evaluate the genotoxic and mutagenic effects of the toxins present in Lachesis muta muta's venom on human peripheral blood leukocytes and the protective potential of ascorbic acid on DNA fragmentation. The venom of L. muta muta was incubated in different concentrations (1, 2.5, 5, 7.5, 10, 15, 20, 30, 40, 50, 60, and 120 µg/mL) with human blood to evaluate DNA fragmentation using the comet, agarose gel electrophoresis, and micronucleus assays. In these concentrations evaluated, the venom of L. muta muta induced genotoxicity (comet assay and agarose gel electrophoresis) and mutagenicity (micronucleus test), but they were not cytotoxic, as they did not change the rate of cell proliferation after cytokinesis blockade with cytochalasin B. The ascorbic acid significantly inhibited the genotoxicity induced by L. muta muta venom in the proportions evaluated (1:0.1 and 1:0.5, venom/ascorbic acid - w/w). Thus, future studies are needed to elucidate the protective mechanisms of ascorbic acid on the genotoxic effects induced by toxins present in snake venoms.     

Effect of oxygen on ascorbic acid uptake and concentration in embryonic chick brain

The effects of oxygen on ascorbic acid concentration and transport were studied in chick embryo (Gallus gallus domesticus). During normoxic incubations, plasma ascorbic acid concentration peaked on fetal day 12 and then fell, before increasing again on day 20 when pulmonary respiration began. In contrast, cerebral ascorbic acid concentration rose after day 6, was maintained at a relatively high level during days 8–18, and then fell significantly by day 20. Exposure of day 16 embryos for 48 h to 42% ambient O₂ concentration decreased ascorbic acid concentration by four-fifths in plasma and by one-half in brain, compared to values in normoxic (21% O₂) or hypoxic (15% O₂) controls. Hyperoxic preincubation of embryos also inhibited ascorbic acid transport, as evidenced by decreased initial rates of saturable and Na⁺-dependent [¹⁴C]ascorbic acid uptake into isolated brain cells. It may be concluded that changes in ascorbic acid concentration occur in response to oxidative stress, consistent with a role for the vitamin in the detoxification of oxygen radicals in fetal tissues. However, changing O₂ levels have less effect on ascorbic acid concentration in brain than in plasma, indicating regulation of the vitamin by brain cells. Furthermore, the effect of hyperoxia on cerebral vitamin C may result, in part, from inhibition of cellular ascorbic acid transport.     

Elicitation of diosgenin production in <Emphasis Type="Italic">Trigonella foenum</Emphasis>-<Emphasis Type="Italic">graecum</Emphasis> L. seedlings by heavy metals and signaling molecules

Seedlings of Trigonella foenum-graecum were treated with four heavy metal salts (CdCl_2, CoCl₂, K₂Cr₂O₇ and NiCl₂) to study the effect of heavy metals on growth and diosgenin production. It was found that CdCl₂ increased diosgenin production up to 40-fold and CoCl₂ increased diosgenin production up to 41-fold at concentrations which did not affect growth significantly. But K₂Cr₂O₇ and NiCl₂ were toxic to growth and inhibited diosgenin production. Effect of exogenously applied methyl jasmonate (MeJa) and calcium (Ca²⁺) on diosgenin production in seedlings of T. foenum-graecum was also investigated. MeJa enhanced the production of diosgenin. Maximum increase (10.5-fold) was found at 100 μL L^−l concentration of MeJa. To study the role of Ca²⁺ on diosgenin production, seedlings of T. foenum-graecum were treated with a promoter of Ca²⁺ influx (calcium ionophore A23187), calcium depleted medium, Ca²⁺ channel blocker (verapamil) and antagonist (LaCl₃), a divalent cation chelator (EGTA) and modulator of calcium release (caffeine). All the treatments were compared with a control containing 220 mg L^−l concentration of CaCl₂. The results suggest that the increase in cytosolic Ca²⁺ has an inhibitory role on diosgenin production. However, a calcium chelator or Ca²⁺ channel inhibitors could be used to elicit diosgenin production in this plant.     

Curcumin prevents Cr(VI)-induced renal oxidant damage by a mitochondrial pathway

We report the role of mitochondria in the protective effects of curcumin, a well-known direct and indirect antioxidant, against the renal oxidant damage induced by the hexavalent chromium [Cr(VI)] compound potassium dichromate (K₂Cr₂O₇) in rats. Curcumin was given daily by gavage using three different schemes: (1) complete treatment (100, 200, and 400 mg/kg bw 10 days before and 2 days after K₂Cr₂O₇ injection), (2) pretreatment (400 mg/kg bw for 10 days before K₂Cr₂O₇ injection), and (3) posttreatment (400 mg/kg bw 2 days after K₂Cr₂O₇ injection). Rats were sacrificed 48 h later after a single K₂Cr₂O₇ injection (15 mg/kg, sc) to evaluate renal and mitochondrial function and oxidant stress. Curcumin treatment (schemes 1 and 2) attenuated K₂Cr₂O₇-induced renal dysfunction, histological damage, oxidant stress, and the decrease in antioxidant enzyme activity both in kidney tissue and in mitochondria. Curcumin pretreatment attenuated K₂Cr₂O₇-induced mitochondrial dysfunction (alterations in oxygen consumption, ATP content, calcium retention, and mitochondrial membrane potential and decreased activity of complexes I, II, II-III, and V) but was unable to modify renal and mitochondrial Cr(VI) content or to chelate chromium. Curcumin posttreatment was unable to prevent K₂Cr₂O₇-induced renal dysfunction. In further experiments performed in curcumin (400 mg/kg)-pretreated rats it was found that this antioxidant accumulated in kidney and activated Nrf2 at the time when K₂Cr₂O₇ was injected, suggesting that both direct and indirect antioxidant effects are involved in the protective effects of curcumin. These findings suggest that the preservation of mitochondrial function plays a key role in the protective effects of curcumin pretreatment against K₂Cr₂O₇-induced renal oxidant damage.     

The influence of organic solvents on estimates of genotoxicity and antigenotoxicity in the SOS chromotest

In this work, the toxicity and genotoxicity of organic solvents (acetone, carbon tetrachloride, dichloromethane, dimethylsulfoxide, ethanol, ether and methanol) were studied using the SOS chromotest. The influence of these solvents on the direct genotoxicity induced by the mutagens mitomycin C (MMC) and 4-nitroquinoline-1-oxide (4-NQO) were also investigated. None of the solvents were genotoxic in Escherichia coli PQ37. However, based on the inhibition of protein synthesis assessed by constitutive alkaline phosphatase activity, some solvents (carbon tetrachloride, dimethylsulfoxide, ethanol and ether) were toxic and incompatible with the SOS chromotest. Solvents that were neither toxic nor genotoxic to E. coli (acetone, dichloromethane and methanol) significantly reduced the genotoxicity of MMC and 4-NQO. When these solvents were used to dissolve vitamin E they increased the antigenotoxic activity of this compound, possibly through additive or synergistic effects. The relevance of these results is discussed in relation to antigenotoxic studies. These data indicate the need for careful selection of an appropriate diluent for the SOS chromotest since some solvents can modulate genotoxicity and antigenotoxicity.     

Genotoxic activation of 2-phenylbenzotriazole-type compounds by human cytochrome P4501A1 and N-acetyltransferase expressed in Salmonella typhimurium umu strains

Four 2-phenylbenzotriazole (PBTA)-type compounds (PBTA-4, PBTA-6, PBTA-7, and PBTA-8) were identified as major mutagens in blue cotton/rayon-adsorbed substances collected at sites below textile dyeing factories or municipal water treatment plants treating domestic waste and effluents from textile dyeing factories in several rivers in Japan. The main purpose of this study is to understand the basis of the roles of human cytochrome P450 (CYP) and N-acetyltransferases (NATs) in genotoxic activation of PBTA derivatives. We compared the induction of umuC gene expression as a measure of genotoxicity using Salmonella typhimurium TA1535/pSK1002 (parental strain), NM2009 (bacterial O-acetyltransferase-overexpressing strain) established in our laboratories. PBTA-4, PBTA-6, PBTA-7, and PBTA-8 induced the umuC gene expression more strongly in the bacterial O-acetyltransferase-overproducing strain than in the parental strain in the presence of rat S9 mix. We determined the activation of PBTA derivatives by cDNA-based recombinant (Trichoplusia ni) systems expressing human or rat cytochrome P450 enzymes (P450 or CYP) and NADPH-P450 reductase using S. typhimurium NM2009. The results showed that human recombinant CYP1A1 enzyme was much more active than CYP1A2 and CYP3A4 in the genotoxic activation of PBTA-4, PBTA-6, PBTA-7, and PBTA-8. Similarly, rat recombinant CYP1A1 enzyme catalyzed the activation of these chemicals at high rates. α-Naphthoflavone, a known inhibitor of CYP1A1, was found to inhibit genotoxic activation caused by PBTA derivatives. We further determined the activation of PBTA derivatives using S. typhimurium NM6001 (human NAT1-expressing strain), S. typhimurium NM6002 (human NAT2-expressing strain), and S. typhimurium NM6000 (O-AT-deficient parent strain) in the presence of S9 mix. PBTA-4 showed almost similar sensitivity in the NAT1-expressing strain and the NAT2-expressing strain, although NAT2-expressing strain exhibited relatively higher sensitivity to PBTA-6, PBTA-7, and PBTA-8 than NAT1-expressing strain. The results support the view that O-acetylation by human NAT1 and NAT2 enzymes is involved in the genotoxic activation of PBTA compounds. These results demonstrate for the first time that human P4501A1 and NATs (NAT1 and NAT2) contribute significantly to the activation of PBTA-type compounds to genotoxic metabolites that induce umuC gene expression in S. typhimurium tester strains.     

Low levels of oxygen promote internodal elongation in floating rice independently of enhanced ethylene production

Submergence induces rapid elongation of internodes in floating rice(Oryza sativa L. cv. Habiganj Aman II). The initial signalfor such internodal elongation has been considered to be the reduced partialpressure of oxygen in submerged internodal cavities, which promotes theelongation of internodes through the enhancement of ethylene synthesis. Weexamined the relationship between low oxygen pressure and ethylene production inthe rapid elongation of floating rice internodes using ethylene biosynthesisinhibitors, aminooxyacetic acid (AOA) and CoCl₂. When floating ricestem segments were incubated in an atmosphere of low O₂, internodalelongation accelerated and ethylene production increased. However, in stemsegments treated with AOA or CoCl₂, low O₂ stillstimulated the elongation of internodes although the ethylene production by theinternodes was less than by those in control stem segments where internodalelongation was not promoted. These results indicate that low O₂ iscapable of causing rapid elongation of internodes of floating rice independentlyof enhanced production of ethylene. In addition to low O₂,submergence, ethylene and gibberellic acid each enhanced the production ofethylene by internodal tissues, suggesting that enhanced ethylene production isa common phenomenon accompanied by the acceleration of internodal elongation infloating rice.     

Hydrogen peroxide is a product of oxygen consumption byTrichomonas vaginalis

The amitochondriate sexually-transmitted human parasitic protozoanTrichomonas vaginalis (Bushby strain) grown anaerobically on complex medium containing cysteine and ascorbic acid consumed O₂ avidly (6.9 μM min⁻¹ per 10⁶ organisms) with an apparentK _m value of 5.1 μM O₂ : O₂ uptake was inhibited by O₂ > 120 μM. Spectrophotometric assays in the presence of microperoxidase (419-407 nm) indicated that H₂O₂ was produced and that inhibition by high O₂ concentrations was again evident. Hydrogenosomes oxidizing pyruvate in the presence of ADP and succinate showed similar patterns of O₂ consumption, H₂O₂ production (33.5 pmol min⁻¹ per mg protein), and O₂ inhibition. Cytosolic NADH oxidase gave no detectable H₂O₂, whereas the cytosolic NADPH oxidase produced H₂O₂ at a rate (43 pmol min⁻¹ per mg protein) greater than that of hydrogenosomes. These results are discussed in relation to the oxidative stress experienced by the pathogen in its natural habitat.     

毛白杨细胞质抗坏血酸过氧化物酶基因的克隆及表达分析

利用同源克隆技术得到1个毛白杨细胞质抗坏血酸过氧化物酶基因,命名为PcAPX。该基因编码249个氨基酸残基,预测分子量为33.01kD。采用原核表达技术在大肠杆菌中表达并纯化该蛋白并进行酶活性分析,结果表明:重组PcAPX蛋白对抗坏血酸(AsA)和过氧化氢(H2O2)有很高的活性,其对抗坏血酸的米氏常数(Km)和最大反应速度(Vmax)分别为(0.71±0.03)mmol·L-1和(0.41±0.02)mmol·L-1·min-1·mg-1;对过氧化氢的Km和Vmax分别为(0.60±0.21)mmol·L-1和(0.35±0.12)mmol·L-1·min-1·mg-1,表明PcAPX对AsA和H2O2拥有较高的催化底物的能力和催化效率。利用实时定量RT-PCR分析毛白杨PcAPX基因的表达模式,结果表明其在老叶中表达量高于新叶、韧皮部、形成层和根部。该研究结果将进一步促进毛白杨APX基因家族成员参与植物生长调控的研究。     

Potassium transport in Chlamydomonas reinhardtii: isolation and characterization of transport-deficient mutant strains

Putative potassium-transport-deficient mutant strains of Chlamydomonas reinhardtii Dang. were induced by ultra-violet mutagenesis and were identified by their dependence on abnormally high concentrations of potassium for growth. Potassium transport studies employing ⁸⁶Rb as a tracer were carried out with wild-type cells and with three independently isolated KDP (potassium-dependent phenotype) clones. Wildtype cells exhibit two transport activities. Transport activity A was expressed when cells were grown in medium supplemented with 10 mM KCl. The transporter with type-A activity does not discriminate between either Rb⁺ or K⁺ as a substrate and has a K_m for Rb⁺ equal to 1 mM and a V_max equal to 31 nmol Rb⁺ h^-1 10^-6 cells. Transport activity B was expressed when cells were starved of potassium for 24 h. The transporter with type-B activity prefers K⁺ to Rb⁺ as a substrate; it has a K_m for Rb⁺ equal to 2.5 mM and a V_max equal to 210 nmol Rb⁺ h^-1 10^-6 cells. All three mutant clones exhibit transport activity comparable to type-A when grown in 10 mM KCl. When starved of potassium for 24 h, two KDP clones demonstrate no transport activity and the third clone continues to exhibit only type-A activity.Abbreviations CCCP carbonyl cyanide m-chlorophenylhydrazone - DES diethylstilbesterol - KDP potassium-dependent phenotype     

Assessment of the genotoxicity of olive mill waste water (OMWW) with the Vicia faba micronucleus test

The present study concerns the genotoxicity of olive mill waste water (OMWW) generated in mills producing olive oil in Morocco. The Vicia faba micronucleus test was used to evaluate the genotoxicity of OMWW and the six major phenolic compounds identified by HPLC in this effluent. Five dilutions of OMWW were tested: 0.1, 1, 5, 10 and 20%. Maleic hydrazide was used as a positive control. The results showed that OMWW was genotoxic at 10% dilution. In order to investigate the components involved in this genotoxicity, the six major phenols present in this effluent, oleuropein, gallic acid, 4-hydroxyphenyl acetic acid, caffeic acid, paracoumaric acid and veratric acid, were studied at concentrations corresponding to the genotoxic concentration of the OMWW itself. Two phenols, gallic acid and oleuropein induced a significant increase in micronucleus frequency in Vicia faba; the four other phenols had no significant genotoxic effect. These results suggest that under the experimental conditions of our assay, OMWW genotoxicity was associated with gallic acid and oleuropein.     

Increased Antioxidant Activity under Elevated Temperatures: A Mechanism of Heat Stress Tolerance in Wheat Genotypes

An experiment was conducted with three wheat (Triticum aestivum L.) genotypes C 306, HD 2285 and HD 2329 (differently susceptible to water and temperature stress) to study the extent of oxidative injury and activities of antioxidant enzymes in relation to heat stress induced by manipulating dates of sowing. Increase in temperature by late sowing significantly decreased leaf relative water content (RWC), ascorbic acid content, and increased H₂O₂ content and lipid peroxidation in all the genotypes at 8 and 23 d after anthesis. Temperature tolerant genotypes C 306, closely followed by HD 2285 were superior to HD 2329 in maintaining high RWC, ascorbic acid content, and lower H₂O₂ content and lipid peroxidation (malondialdehyde content) under high temperature (late sowing) at the two stages. Activities of superoxide dismutase and catalase were highest in HD 2285 followed by C 306 and minimum in HD 2329 while ascorbate peroxidase activity was highest in C 306.     

Use of ascorbic acid in the51Cr labelling of mouse fibrosarcoma cells

Summary We have studied and discussed the significance of the use of ascorbic acid in⁵¹Cr labelling of cells. The following two advantages seem credible if cells (mouse fibrosarcoma) in culture are incubated for about 2 h in a medium containing Na₂ ⁵¹CrO₄ and then ascorbic acid is added to the medium and incubation continued for ten more minutes:(a) the natural intracellular conversion of Cr⁶⁺ to Cr³⁺ appears to be aided,(b) the incorporation of chromium by cells is higher.     

In vitro genotoxic evaluation of conventional bleached and biobleached softwood pulp mill effluents

The effluents of pulp and paper mills contain about 300 different chemical compounds; many of them are mutagens and clastogens. Genotoxic studies have shown that chlorination stage liquors are significantly more genotoxic, in the Ames Salmonella assay, than the other process of lignin extraction, and that lyophilized effluents are genotoxic in cultured mammalian cells. Since these effluents from conventional bleaching stages are genotoxic, Chilean industries are interested in changing this process to a less toxic one, such as biobleaching using enzymes. In this study, we tested the in vitro genotoxicity of two types of effluents: an effluent obtained from a conventional radiata pine kraft-bleaching process (effluent D) and one derived from a biobleaching process with hemicellulase (effluent B). Both effluents were tested without any concentration or purification steps in the Ames Salmonella assay (TA100) and in the micronuclei (MN) and sister chromatid exchange (SCE) tests in CHO cells. The results showed that neither effluent induced base pair substitution mutations in the Ames Salmonella assay, and neither increased the micronucleus frequency in CHO cells. But, both increased the SCE frequencies in CHO cells, showing that this assay is more sensitive than the other ones, and that the two effluents contained chemical compounds in amounts enough to induce in vitro genotoxicity measured by the SCE induction.     

Oxidative damage induced by chromium (VI) in rat erythrocytes: protective effect of selenium

Excess chromium (Cr) exposure is associated with various pathological conditions including hematological dysfunction. The generation of oxidative stress is one of the plausible mechanisms behind Cr-induced cellular deteriorations. The efficacy of selenium (Se) to combat Cr-induced oxidative damage in the erythrocytes of adult rats was investigated in the current study. Female Wistar rats were randomly divided into four groups of six each: group I served as controls which received standard diet, group II received in drinking water K₂Cr₂O₇ alone (700 ppm), group III received both K₂Cr₂O₇ and Se (0.5 Na₂SeO₃ mg/kg of diet), and group IV received Se (0.5 mg/kg of diet) for 3 weeks. Rats exposed to K₂Cr₂O₇ showed an increase of malondialdehyde and protein carbonyl levels and a decrease of sulfhydryl content, glutathione, non-protein thiol, and vitamin C levels. A decrease of enzyme activities like catalase, glutathione peroxidase, and superoxide dismutase activities was also noted. Co-administration of Se with K₂Cr₂O₇ restored the parameters cited above to near-normal values. Therefore, our investigation revealed that Se was a useful element preventing K₂Cr₂O₇-induced erythrocyte damages.     

The Interaction of Chromium(VI) with Urease in Solution

The interaction between K₂Cr₂O₇ and urease was investigated using fluorescence, UV-vis absorption, and circular dichroism (CD) spectroscopy. The experimental results showed that the fluorescence quenching of urease by K₂Cr₂O₇ was a result of the formation of K₂Cr₂O₇–urease complex. The apparent binding constant K _A between K₂Cr₂O₇ and urease at 295, 302, and 309 K were obtained to be 2.14?×?10⁴, 1.96?×?10⁴, and 1.92?×?10⁴ L mol^?1, respectively. The thermodynamic parameters, ΔH° and ΔS° were estimated to be ?5.90 kJ mol^?1, 43.67 J mol^?1 K^?1 according to the Van’t Hoff equation. The electrostatic interaction played a major role in stabilizing the complex. The distance r between donor (urease) and acceptor (K₂Cr₂O₇) was 5.08 nm. The effect of K₂Cr₂O₇ on the conformation of urease was analyzed using UV-vis absorption, CD, synchronous fluorescence spectroscopy, and three-dimensional fluorescence spectra, the environment around Trp and Tyr residues were altered.