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1.
A membrane preparation of calf heart left ventricle has been used to study the effect of radical stress on the β-adrenoceptor complex. To this end the membranes were incubated for 30 minutes with several concentrations of hydrogen peroxide. This resulted in a dose dependent peroxidation of the membrane lipids. Preincubation with hydrogen peroxide in the concentration range 10--7--10--3M caused an increase in specific (—)-[125I]-Iodocyanopindolol binding. possihly due to a decrease in membrane fluidity as a result of lipid peroxidation, thus making the receptor protein more accessible. Higher concentrations H2O2 reduced the specific (—)-[125I]-lodocyanopindolol binding, which is most likely the effect of deterioration of the receptor protein by the more pronounced radical stress induced by these higher concentrations. Also adenylate cyclase activity was affected by radical stress. Basal cyclic-AMP production and cyclic-AMP production induced by NaF (10--2 M) or guanylylimidodiphosphate (10--4 M), was suppressed after pretreatment with concentrations of H2O2 above 10--4 M. This indicates a higher sensitivity of the adenylate cyclase toward radical stress when compared to the receptor protein. Our results show that radical stress can perturb β-adrenoceptor function considerably in the heart.  相似文献   

2.
Of production by homogenates and isolated membranes of E. coli has been examined. Approximately one-fourth of the O2-generated by extracts in the prescence of NAD (P) H is attributable to the membranes. The autoxidizable membrane component is a member of the respiratory chain, since O2-production is NADH-specific, amplified by cyanide, and absent from membranes lacking the respiratory NADH dehyd-rogenase. Other respiratory substrates (succinate, I -phosphoglycerol, D-lactate. and L-lactate) supported Or production at efficiencies between 3 and 30 O2-released per 10.000 electrons transferred, under conditions of substrate saturation.

Membranes from quinoneless mutants quantitatively retain the ability to evolve O2-. indicating that the dehydrogenases are the sites of O2-production. Relative O2-production was greater at low substrate concentrations, probably reflecting the facilitation of unpairing of electrons that may occur when enzymes with multiple redox centers are only partially reduced.

Respiration rate, cell volume, rates of membraneous and cytosolic O2-production, and SOD levels were used to calculate a steady-state concentration of O2-between 10--10 and 10--9 M in well-fed, aerobic, SOD-proficient cells.  相似文献   

3.
The free radical (II) produced by one-electron reduction of adriamycin (I) exists in aqueous solution at pH 7.0 in equilibrium with the parent and the two-electron reduced form (III). Over some hundreds of milliseconds deglycosylation takes place yielding an aglycone (IV) which subsequently rearranges to form a more stable aglycone. 7-deoxyadriamycinone (V). The changes in the optical absorption spectrum accompanying these processes are reported. The rate constant for III + IV is 1.1 s-1 and for IV + V is 1.5 × 10--2 s.-1. At pH 4.0 the two electron reduced form of adriamycin exists predominantly in a different tautomeric form (VII). It is suggested that this deglycosylates via a free radical mechanism involving the acidic form of the semiquinone free radical (VI)  相似文献   

4.
The Reaction of no With Superoxide   总被引:35,自引:0,他引:35  
The rate constant for the reaction of NO with ·O2- was determined to be (6.7 ± 0.9) × 109 1 mol-1 s-1, considerably higher than previously reported. Rate measurements were made from pH 5.6 to 12.5 both by monitoring the loss of ·O2- and the formation of the product -OONO. The decay rate of -OONO, in the presence of 0.1 moll-1 formate, ranges from 1.2s-1 at pH 5 to about 0.2s-1 in strong base, the latter value probably reflecting catalysis by formate.  相似文献   

5.
柽柳(Tamarix chinensis)沙包是塔克拉玛干沙漠特殊的生物地貌景观, 对维持区域生态环境的稳定具有极其重要的作用。该研究采用野外调查与室内分析相结合的方法, 选取且末、阿拉尔、策勒、塔中4个典型区域的柽柳沙包为研究对象, 对柽柳沙包0-500 cm土壤垂直剖面进行采样, 测定土壤pH值、枯落物含量、电导率及HCO3 -、Cl -、SO4 2-、Ca 2+、Mg 2+、K +、Na +含量, 分析柽柳沙包中土壤盐分的空间变化规律及其影响因素。结果表明: 1)从且末、阿拉尔、策勒到塔中, 土壤pH值总体呈升高趋势, 土壤电导率及Na +、Ca 2+、Mg 2+、SO4 2-含量总体呈降低趋势, K +、Cl -、HCO3 -含量没有明显的变化规律。2)盐分在4个样区的垂直分布主要表现为: 且末和策勒样区柽柳沙包的土壤盐分呈表层聚集现象; 阿拉尔和塔中样区柽柳沙包的土壤盐分呈深层聚集现象。随着土层深度的增加, 土壤pH值总体呈升高的趋势, 土壤枯落物含量总体呈降低趋势; 土壤电导率在且末和策勒样区总体呈降低趋势, 阿拉尔样区呈先降低后升高再降低的变化趋势, 而塔中样区呈先升高后降低再升高的变化趋势。3)根据相关性分析和主成分分析, 且末样区土壤枯落物含量、SO4 2-、Na +、K +为影响土壤盐分含量的主要因子, 且土壤盐分以硫酸盐为主; 阿拉尔样区影响土壤盐分组成的主要因子为Cl -、Na +; 策勒样区为Cl -、K +、Na +; 塔中样区为Cl -、Na +、Ca 2+、SO4 2-, 且土壤盐分均以氯化物为主。综合分析表明, 不同区域柽柳沙包中土壤盐分存在空间变异性, 柽柳沙包土壤盐分的变化与干旱沙漠地区强烈的蒸发作用、地表风蚀强度、地下水埋深、土壤中枯落物及柽柳的生物积盐效应等因素密切相关, 是影响不同区域土壤盐分分布的关键因子。  相似文献   

6.
《植物生态学报》2018,42(8):873
柽柳(Tamarix chinensis)沙包是塔克拉玛干沙漠特殊的生物地貌景观, 对维持区域生态环境的稳定具有极其重要的作用。该研究采用野外调查与室内分析相结合的方法, 选取且末、阿拉尔、策勒、塔中4个典型区域的柽柳沙包为研究对象, 对柽柳沙包0-500 cm土壤垂直剖面进行采样, 测定土壤pH值、枯落物含量、电导率及HCO3 -、Cl -、SO4 2-、Ca 2+、Mg 2+、K +、Na +含量, 分析柽柳沙包中土壤盐分的空间变化规律及其影响因素。结果表明: 1)从且末、阿拉尔、策勒到塔中, 土壤pH值总体呈升高趋势, 土壤电导率及Na +、Ca 2+、Mg 2+、SO4 2-含量总体呈降低趋势, K +、Cl -、HCO3 -含量没有明显的变化规律。2)盐分在4个样区的垂直分布主要表现为: 且末和策勒样区柽柳沙包的土壤盐分呈表层聚集现象; 阿拉尔和塔中样区柽柳沙包的土壤盐分呈深层聚集现象。随着土层深度的增加, 土壤pH值总体呈升高的趋势, 土壤枯落物含量总体呈降低趋势; 土壤电导率在且末和策勒样区总体呈降低趋势, 阿拉尔样区呈先降低后升高再降低的变化趋势, 而塔中样区呈先升高后降低再升高的变化趋势。3)根据相关性分析和主成分分析, 且末样区土壤枯落物含量、SO4 2-、Na +、K +为影响土壤盐分含量的主要因子, 且土壤盐分以硫酸盐为主; 阿拉尔样区影响土壤盐分组成的主要因子为Cl -、Na +; 策勒样区为Cl -、K +、Na +; 塔中样区为Cl -、Na +、Ca 2+、SO4 2-, 且土壤盐分均以氯化物为主。综合分析表明, 不同区域柽柳沙包中土壤盐分存在空间变异性, 柽柳沙包土壤盐分的变化与干旱沙漠地区强烈的蒸发作用、地表风蚀强度、地下水埋深、土壤中枯落物及柽柳的生物积盐效应等因素密切相关, 是影响不同区域土壤盐分分布的关键因子。  相似文献   

7.
Tissue blocks 1 cm3 from longissimus (white) and trapezius (red) muscles of adult pigs were fixed in phosphate-buffered 2.5% glutaraldehyde, pH 7.4, for 4 hr at about 25 C; washed 4 hr in running tap water, and immersed in 30% w/v sucrose solution for 16 hr or more. After freezing in liquid N2, cryostat sections were cut and floated into saturated aqueous benzidine containing 0.15% H2O2 at 25 C for 30 min. Stained sections were washed in distilled water and mounted on slides with glycerol jelly. Three distinguishable gradiations of color intensity were found: strong, intermediate, and negative. The trapezius had a greater number of myoglobin-positive fibers than the longissimus muscle. Myoglobin-positive and myoglobin-negative staining occurred in red and white fibers, respectively; intermediates were apparently more closely related to the red than to the white fibers. The NADH2TR reaction showed the same sites as did the benzidine reaction.  相似文献   

8.
Isolated plasma membranes of lactating mouse mammary gland were treated with different concentrations of ascorbate, sodium citrate, sodium bicarbonate, combinations of them (from 16 x 10−10 to 4 x 10−6 moles/L) and studied for the binding of 59Fe2+ and 59Fe3+ at pH 7.4. The results show that the Fe3+ form of iron is under a greater influence of anions used in these experiments. The Fe2+ form of iron is weakly bounded and affected. It is suggested that the form with a greater positive electric charge is more effectively bound to the receptors in plasma membranes.  相似文献   

9.
运用15N稳定性同位素技术,对15N标记的硝酸盐和铵盐在输入小嵩草(Kobresia pygaea C.B.Clarke)草甸11~13个月后的运移规律进行了研究.在经历11~13个月后,进入无机氮库中的15N很少,一般不超过所输入氮素的l%,而较多的1 5N为土壤有机质、土壤微生物和植物所固持.NO3--15N和NH4 -1 5N在小嵩草草甸中的运移规律差异很大.在11、12和13个月后,NO3--15N的总恢复率分别为92.83%、92.64%和79.96%;而NH4 -15N的则分别为49.6%、63.33%和66.22%.两者的差异在土壤有机质、土壤微生物和植物等库之间的分配中更加明显.输入NO3--15N时在11、12个月后植物所固持的15N最多,而土壤微生物和土壤有机质所固持的15N比较接近,而在13个月后,土壤有机质和植物所固持的15N接近,而土壤微生物所固持的15N下降许多;当输入NH4 -15N,土壤有机质所固持的1 5N比植物和土壤微生物所固持的都多,而且植物所固持的15N比较稳定,而土壤微生物所固持的15N则有较大变化.这表明在较长的时间内嵩草草甸对NO3-和NH4 的固持能力是不一样的.  相似文献   

10.
Seed germination of an aurea mutant of tomato ( Lycopersicon esculentum Mill.) is promoted by continuous irradiation with red, far-red or long-wavelength far-red (758 nm) light as well as by cyclic irradiations (5 min red or 5 min far-red/25 min darkness). Far-red light applied immediately after each red does not change the germination behaviour. Seed germination of the isogenic wild-type, cv. UC-105, is promoted by continuous and cyclic red light while it is inhibited by continuous and cyclic far-red light and by continious 758 nm irradiation. Far-red irradiation reverses almost completely the promoting effect of red light. The promoting effect (in the aurea mutant) and the inhibitory effect (in the wild-type) of continuous far-red light do not show photon fluence rate dependency above 20 nmol m−2 s−1. It is concluded that phytochrome controls tomato seed germination throgh low energy responses in both the wild type and the au mutant. The promoting effect of continuous and cyclic far-red light in the au mutant can be attributed to a greater sensitivity to Pfr.  相似文献   

11.
In strictly anaerobic conditions in a culture medium adjusted to pH 5·2 with HCl and incubated at 30°C, inocula containing < 10 vegetative bacteria of Clostridium botulinum ZK3 (type A) multiplied to give > 108 bacteria per ml in 3 d. Growth from an inoculum of between 10 and 100 spores occurred after a delay of 10–20 weeks. Citric acid concentrations of 10–50 mmol/l at pH 5·2 inhibited growth from both vegetative bacteria and spore inocula, a concentration of 50 mmol/l increasing the number of vegetative bacteria or of spores required to produce growth by a factor of approximately 106. The citric acid also reduced the concentration of free Ca2+ in the medium. The inhibitory effect of citric acid on vegetative bacteria at pH 5·2 could be prevented by the addition of Ca2+ or Mg2+ and greatly reduced by Fe2+ and Mn2+. The addition of Ca2+, but not of the remaining divalent metal ions, restored the concentration of free Ca2+ in the medium to that in the citrate-free medium. The inhibitory effect of citric acid on growth from a spore inoculum was only partially prevented by Ca2+. Citric acid (50 mmol/l) did not inhibit growth of strain ZK3 at pH 6 despite the greater chelating activity of citrate at pH 6 than at pH 5·2. The effect of citric acid and Ca2+ at pH 5·2 on vegetative bacteria of strains VL1 (type A) and 2346 and B6 (proteolytic type B) was similar to that on strain ZK3.  相似文献   

12.
The relationship between the apoplastic pH in young sunflower roots ( Helianthus annuus L.) and the plasmalemma ferric chelate reductase (FC-R; EC 1.16.1.7) activity in roots was investigated. The hypothesis was tested that a high apoplastic pH depresses FC-R activity, thereby restricting the uptake of Fe2+ into the cytosol. Until recently, little has been known about this relationship, because pH and redox reaction measurements are difficult to perform within the confines of the root apoplast. We recorded the apoplastic pH by means of the fluorescence ratio in conjunction with video microscopy by covalently tagging fluorescein boronic acid to OH groups of the root cell wall. FeIII reduction was measured using a similar approach by tagging ferrozine diboronic acid with OH groups of the cell wall. Ferrozine forms an Fe2+ complex, thus indicating the reduction of ferric iron. In roots bathing in buffered outer solutions of different pH, a high pH sensitivity of apoplastic FeIII reduction was found, with the highest ferric iron reduction rates at an apoplastic pH of 4.9; above an apoplastic pH of 5.3, no reduction was observed. Nitrate in the bathing solution increased the apoplastic pH and hence depressed the FeIII reduction; ammonium had the reverse effect. Nitrate together with HCO3, a combination which is typical of calcareous soils, had the strongest depressing effect. From the results, it can be concluded that the main reason for the frequently occurring iron deficiency chlorosis of plants grown on calcareous soils is the inhibition of FeIII reduction in the apoplast, and hence Fe2+ uptake into the cytosol.  相似文献   

13.
The capacity of non-illuminated nephrotoxin orellanine ([2,2'-bipyridine]-3,3',4,4'-tetrol-1,1'-dioxide) to induce DNA damage in the presence of ferrous iron and dioxygen has been evaluated. Maximal single-strand breaks in plasmid DNA were obtained with a metal to ligand ratio 1:3. Instantaneous oxidation of Fe2+ in presence of orellanine under air was responsible for oxy-radical production concomitant to a stable ferric complex Fe(III)Or3 formation, leading to oxidative DNA breakage at physiological pH. DNA damage was lowered in the presence of SOD and catalase or DMSO, indicating a set of reactions that leads to oxyradical generation. Iron chelators such as DTPA and EDTA had no protecting effect, Desferal slightly protected. GSH acted as an oxy-radical scavenger, whereas cysteine induced stronger damage.

Closely related bipyridine compounds were also studied in presence of Fe2+ and O2 using a combination of spin-trapping and DNA-nicking experiments, none of which were able to chelate iron and induce damage at pH 7. Both catecholic moieties and aminoxide groups are required for observing breakage at physiological pH.  相似文献   

14.
Tea plants grow in acidic soil, but to date, their intrinsic mechanisms of acidic stress tolerance have not been elucidated. Here, we assessed the tea plant response to growth on NHt4 nutrient media having different p H and iron levels. When grown in standard NHt4 nutrient solution(iron insufficient, 0.35 mg Là1 Fe2t), tea roots exhibited significantly lower nitrogen accumulation, plasma membrane Ht-ATPase activity, and protein levels; net Htefflux was lower at pH 4.0 and 5.0 than at pH 6.0. Addition of30 mg Là1 Fe2t(iron sufficient, mimicking normal soil Fe2tconcentrations) to the NHt4 nutrient solution led to more efficient iron plaque formation on roots and increased root plasma membrane Ht-ATPase levels and activities at p H 4.0 eland 5.0, compared to the p H 6.0 condition. Furthermore,plants grown at pH 4.0 and 5.0, with sufficient iron,exhibited significantly higher nitrogen accumulation than those grown at pH 6.0. Together, these results support the hypothesis that efficient iron plaque formation, on tea roots, is important for acidic stress tolerance. Furthermore,our findings establish that efficient iron plaque formation is linked to increased levels and activities of the tea root plasma membrane Ht-ATPase, under low pH conditions.  相似文献   

15.
Effect of iron concentration on hydrogen fermentation   总被引:11,自引:0,他引:11  
The effect of the iron concentration in the external environment on hydrogen production was studied using sucrose solution and the mixed microorganisms from a soybean-meal silo. The iron concentration ranged from 0 to 4000 mgFeCl2 l−1. The temperature was maintained at 37°C. The maximum specific hydrogen production rate was found to be 24.0 mlg−1 VSSh−1 at 4000 mgFeCl2 l−1. The specific production rate of butyrate increased with increasing iron concentration from 0 to 20 mgFeCl2 l−1, and decreased with increasing iron concentration from 20 to 4000 mgFeCl2 l−1. The maximum specific production rates of ethanol (682 mgg−1 VSSh−1) and butanol (47.0 mgg−1 VSSh−1) were obtained at iron concentrations of 5 and 3 mgFeCl2 l−1, respectively. The maximum hydrogen production yield of 131.9 mlg−1 sucrose was obtained at the iron concentration of 800 mgFeCl2 l−1. The maximum yields of acetate (389.3 mgg−1 sucrose), propionate (37.8 mgg−1 sucrose), and butyrate (196.5 mg g−1 sucros) were obtained at iron concentrations of 3, 200 and 200 mgFeCl2 l−1, respectively. The sucrose degradation efficiencies were close to 1.0 when iron concentrations were between 200 and 800 mgFeCl2 l−1. The maximum biomass production yield was 0.283 gVSSg−1 sucrose at an iron concentration of 3000 mgFeCl2 l−1.  相似文献   

16.
Verticillium agaricinum (Link) Corda, grown in a yeast extract-sucrose medium, conidiated abundantly in darkness after irradiation with near ultraviolet (290–400 nm) for 15 min or blue light (400–550 nm) for 60 min. Few conidia were formed in total darkness. Exposure to 30 min of near ultraviolet light suppressed conidiation. Conidiation was also suppressed by phosphate in excess of 10−4 M irrespective of light condition. After irradiation with near ultraviolet light for more than 30 min, there was a cessation of growth and a change in colony color from yellow to reddish. The color does not appear to be due to a carotenoid because the colonies turned from red to yellow when covered with acid. At pH lower than 6.0 the pigment has an absorption maximum around 390 nm, whereas at higher pH it is around 540 nm. Thus, it appears that irradiation of V. agaricinum with near ultraviolet may cause an increase in pH, which in turn produces the change of colony color from yellow to reddish.  相似文献   

17.
1. The alteration of the Ca2+ requirements of the ATPase activity of fibrils from rabbits and crabs at varying ionic strength, pH and concentration of MgATP (i.e. MgATP2− + MgHATP) was investigated.

2. Under physiological conditions, it was found that the ATPase activity of rabbit and crab fibrils after an initial increase decreased steeply when the Ca2+ concentration is raised above 1×10−4 M. This is a primary effect of the over-optimal Ca2+ concentration and not a secondary one caused by the influence of accompanying ions.

3. The Ca2+ requirements for ATP splitting by rabbit fibrils remain constant at an ionic strength from 0.1 to 0.2 and for a MgATP concentration in the range from 0.5 to 10 mM. At I = 0.05 it is about 5 times smaller than at 0.1. When the pH is decreased from 8 to 7, the Ca2+ requirements are increased some 10 times but only 3 times when the pH is varied between 7 and 6.

4. In crab fibrils, there is no alteration of the Ca2+ requirements when the ionic strength is varied between 0.05 and 0.2, but a reduction of the pH from 8.0 to 6.0 raises the Ca2+ requirements for half activation and for threshold by a factor of 10. Changing the MgATP concentration increases the Ca2+ requirements only in the range from 1 to 5 mM, while the concentration required in 0.5 mM is identical with that at 1 mM, and 10 mM corresponds to 5 mM.

5. It can be deduced from the experimental results that at a pH above 6.0 maximal activation is always obtained if the Ca2+ concentration is 5×10−5 M. By contrast, relaxation is only achieved when the Ca2+ concentration is below 1×10−7 M for pH 7.0 and I > 0.1 or below 1×10−8 for pH > 7.0 or I < 0.1.

6. To achieve complete relaxation, an ethyleneglycoldiaminotetraacetate (EGTA) concentration of 1 mM is sufficient, even when there is a large degree of contamination by Ca2+ as long as the pH stays above 6.5.  相似文献   


18.
Iron containing 3-Hydroxyanthranilate oxidase (3HAO) converts 3-hydroxyanthranilate (3HAA) and dioxygen into a precursor which spontaneously converts to quinolinic acid (QA). 3HAO participates in de novo biosynthesis of NAD in mammalian kidney and liver, and it is present in low concentrations in brain where its function is controversial. However, QA increases in spinal fluid and is associated with convulsions in AIDS dementia, Huntington’s disease, and CNS inflammation. QA is a known N-methyl, D-aspartate receptor agonist and excitotoxin that causes convulsions when injected into the brain. Hyperbaric oxygen (HBO) also causes convulsions and we investigated the interrelationships among the stimulating and toxic effects of oxygen and the role of iron in vitro using rat liver enzyme which is reported to be identical to brain enzyme and is more abundant. 3HAO requires dioxygen as a substrate but it was inactivated approximately 40% by 5.2 atm HBO in vitro in 15 min. The apparent Km was 2.6 × 10−4 M for oxygen and 5 × 10−5 M for 3HAA, and these values did not change for enzyme that was half-inactivated by HBO oxygen. Thus, oxygen-inactivation appears to be all-or-none for individual enzyme molecules. Freshly prepared enzyme was activated about 3-fold by incubation with acidic iron. Iron-staining of 3HAO, separated by gel electrophoresis after partial purification by FPLC, showed that loss of iron and loss of enzyme activity during HBO exposure were correlated. The apparent oxygen Km of 3HAO is far higher than the oxygen concentration in brain cells. Thus, 3HAO is capable of being stimulated initially in animals breathing HBO, and subsequently of being inactivated with potential significance for brain QA and convulsions.  相似文献   

19.
Fresh, undecalcified bone sections can be reproducibly and reliably stained by any of the following procedures: (A) Basic fuchsin, 1% in 30% alcohol, 48 hr, 22°C. (B) AgNO3, 0.033 M, 48 hr, 22°C; washing 48 hr in a large volume of distilled water; exposure to light to develop the color. (C) Metallic sulfides (Co++, Pb++, Hg++, Cu++): the nitrate of the metal, 0.033 M, 48 hr, 22°C; then Na2S, 0.033 M, 48 hr, 22° C. (D) Alizarin Red S, 0.1% solution in distilled water, 48 hr, 22°C; differentiated 48 hr at 22°C in weakly alkaline water, pH about 8. (E) KMnO4: boiling 8-10 min in a 0.1 N, solution. With the exception of D the surface stain must be ground off the section for microscopic examination of its interior. Stain concentration, time and temperature can be altered to suit specific needs.  相似文献   

20.
Acute hyperammonemia, induced by two consecutive injections of ammonium acetate (550 and 450 mg per kg b.wt.), decreased the activity of γ-glutamyl transpeptidase (GGT) in most brain regions of 18- and 30-day-old rats. This decrease in the brain GGT activity was more pronounced in younger than in older rats. After the addition or NH4Cl to the incubation medium, the inhibitory action of NH4+ on this enzyme activity was also demonstrated in crude synaptosomal membranes at pH 7.4, but in a range of NH4+ concentrations many-times higher then those found in the plasma or brains of young hyperammonemic rats. Because similar concentrations of NH4+ stimulated the activity of the purified enzyme from rat kidney (mainly at pH 9.0), the inhibition of GGT activity in the young rat brain is probably mediated indirectly and not by a direct interaction of ammonia with the enzyme molecules.  相似文献   

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