Microcalorimetric investigation of the toxic action of Cd(2+) on Rhizopus nigricans growth

The microcalorimetric bioassay for acute cellular toxicity is based on metabolic heat production from cultured cells. Microcalorimetry is a quantitative, inexpensive, and versatile method for toxicology research. The biological response to toxicants is the inhibition of the heat production rate in cells and toxicity is expressed as the concentration of toxicant that is 50% effective in this inhibition (IC(50)). In this paper, the effect of Cd(2+) on Rhizopus nigricans growth was investigated at 25 degrees C. The relationship between growth rate constants (k) and concentration of Cd(2+) (C) shows a logarithmic normal distribution, and described as k=1. 2742x10(61)exp[-1.810x10(-3)(C+283.0)(2)], and IC(50) is 0.72 microg/ml. These signals are readily obtained by an LKB 2277-204 heat conduction microcalorimeter.     

Comutagenic and coclastogenic effects of selenium in vitro and in vivo

The comutagenic activity of selenium was investigated using in vitro and in vivo techniques, including the liquid suspension modification of the standard Salmonella/microsome mutagenicity assay, the metaphase analysis of chromosome aberrations in CHO cells and in mouse bone marrow as well as the micronucleus assay in mouse bone marrow. 4 h growth of S. typhimurium TA1535 in a nutrient broth containing 2.9 x 10(-5) M but not 1.16 x 10(-5) M Na2SeO3 caused an up to 10-fold increase of the number of N-methylnitrosourea (MNU, 2.0-2.5 mM)-induced his+ revertants and an up to 2-fold elevation of N-methyl-N'-nitro-N-nitrosoguanidine (MNNG, 1.48 x 10(-5))-induced mutation rate. Pretreatment of bacteria with Na2SeO3 alone had no effect on the spontaneous mutation level. The combined treatment of CHO cells with MNNG (1.25 x 10(-5) M) or tobacco smoke (TS, 2-3 puffs generated by a cigarette inhalation machine) plus Na2SeO3 (0.58-1.16 x 10(-5) M) starting 2 h and 4 h before the MNNG or TS treatment respectively resulted in a 2-3-fold increase in the percent of metaphases with chromosome aberrations. Furthermore, treatment for 7-14 days of male BDF1 (C57Bl x DBA2) or CC57W mice with Na2SeO3, added to the drinking water at a concentration of 10 ppm, potentiated by 2-3 times the chromosome-damaging activity of urethane (0.5-1.0 g/kg, i.p.) in mouse bone marrow, as measured by the formation of micronuclei or chromosome aberrations. In addition, Na2SeO3 increased up to 43.8% the number of micronucleated polychromatic erythrocytes (MNPCE) induced by mitomycin C (MMC, 1.5 mg/kg, i.p.) in BDF1 mouse bone marrow. Treatment of mice with Na2SeO3 alone had no effect on the spontaneous level of MNPCE. All these findings are consistent with a comutagenic and coclastogenic activity of selenium both in prokaryotes and in eukaryotes, in vitro as well as in vivo after pretreatment of target cells with the trace element.     

Synthesis and antioxidant properties of novel N-methyl-1,3,4-thiadiazol-2-amine and 4-methyl-2H-1,2,4-triazole-3(4H)-thione derivatives of benzimidazole class

Some novel 1-methyl-4-(2-(2-substitutedphenyl-1H-benzimidazol-1-yl)acetyl)thiosemicarbazides (16a-20a), 5-[(2-(substitutedphenyl)-1H-benzimidazol-1-yl)methyl]-N-methyl-1,3,4-thiadiazol-2-amines (17b-20b), and 5-[(2-(substitutedphenyl)-1H-benzimidazol-1-yl)methyl-4-methyl-2H-1,2,4-triazole-3(4H)-thiones (16c-20c) were synthesized and tested for antioxidant properties by using various in vitro systems. Compounds 16a-20a were found to be a good scavenger of DPPH radical (IC(50), 26 microM; IC(50), 30 microM; IC(50), 43 microM; IC(50), 55 microM; IC(50), 74 microM, respectively) when compared to BHT (IC(50), 54 microM). Noteworthy results could not be found on superoxide radical. Compound 19b, which is the most active derivative inhibited slightly lipid peroxidation (28%) at 10(-3)M concentration. Compound 17c inhibited the microsomal ethoxyresorufin O-deethylase (EROD) activity with an IC(50)=4.5 x 10(-4)M which is similarly better than the specific inhibitor caffeine IC(50)=5.2 x 10(-4)M.     

Effects of inorganic selenium compounds on oxidative DNA damage

Exposure of Escherichia coli or mammalian cells to H2O2 results in cell death due to iron-mediated DNA damage. Since selenium compounds have been examined for their ability to act as antioxidants to neutralize radical species, and inorganic selenium compounds are used to supplement protein mixes, infant formula, and animal feed, determining the effect of these compounds on DNA damage under conditions of oxidative stress is crucial. In the presence of Fe(II) and H2O2, the effects of Na2SeO4, Na2SeO3, SeO2 (0.5-5000 microM), and Na2Se (0.5-200 microM) on DNA damage were quantified using gel electrophoresis. Both Na2SeO4 and Na2Se have no effect on DNA damage, whereas SeO2 inhibits DNA damage and Na2SeO3 shows antioxidant or pro-oxidant activity depending on H2O2 concentration. Similar electrophoresis experiments with [Fe(EDTA)](2-) (400 microM) and Na2SeO3 or SeO2 show that metal coordination by the selenium compound is required for antioxidant activity. In light of these results, Na2SeO4 may be safer than Na2SeO3 for nutritional supplements.     

Sodium selenite reduces hemoglobin-induced venular leakage in the rat mesentery

Modified Hbs are being developed as "blood substitutes," but intravascular injection of diaspirin cross-linked Hb (DBBF-Hb) can produce venular leakage. Hb toxicity may arise from reactive oxygen species, so the antioxidant sodium selenite (Na(2)SeO(3)) was used in an attempt to reduce leak formation. In anesthetized Sprague-Dawley rats, one-half of which received 2 x 10(-6) g/ml Na(2)SeO(3) in their drinking water for 3 wk, the mesenteric microvasculature was perfused with 2 mg/ml DBBF-Hb (N = 8) for 10 min. Controls (N = 7) received saline. This was followed by perfusion with FITC-albumin for 3 min, fixation, and microscopic examination. In rats given DBBF-Hb, Na(2)SeO(3) significantly reduced leak number, leak area, and mast cell degranulation. Venular leakage was also reduced in rats that only received Na(2)SeO(3) locally during DBBF-Hb perfusion. However, Na(2)SeO(3) did not affect animals receiving cyanomet-DBBF-Hb instead of DBBF-Hb and significantly increased leak number and mast cell degranulation in animals receiving saline. In vitro, Na(2)SeO(3) reduced the oxidation rate of DBBF-Hb while in the presence of oxidants. These results suggest that Na(2)SeO(3) reduces DBBF-Hb-induced microvascular leakage partly by retarding the oxidation of its heme iron.     

硒对红细胞膜稳定作用的浓度依赖性

 Na_2SeO_3对人红细胞膜骨架具有稳定作用,但这种作用依赖于Na_2SeO_3的浓度。在低离子强度下,4℃透析人红细胞膜,实验组加入不同浓度的Na_2SeO_3,对照组不加Na_2SeO_3。结果表明,0.1—0.8ppm Na_2SeO_3的存在比对照组具有较高的Na~+,K~+-ATP酶活性、膜脂流动性。用N-[3-芘]-马来酰胺作探针,反映两者构象也有差异。如果在透析液中加入较高浓度的Na_2SeO_3(>1.0ppm)则会产生与低浓度相反的结果。人红细胞膜~31P-NMR的测试也表明,加入0.4ppm与4.0ppm Na_2SeO_3会产生不同的结果。与对照组相比较,低浓度使化学位移各向异性值(△σ)下降,而高浓度则使△σ增加。     

Oxidation of tetrahydrobiopterin by biological radicals and scavenging of the trihydrobiopterin radical by ascorbate

One-electron oxidation of (6R)-5,6,7,8-tetrahydrobiopterin (H(4)B) by the azide radical generates the radical cation (H(4)B(*)(+)) which rapidly deprotonates at physiological pH to give the neutral trihydrobiopterin radical (H(3)B(*)); pK(a) (H(4)B(*)(+) <==> H(3)B(*) + H(+)) = (5.2 +/- 0.1). In the absence of ascorbate both the H(4)B(*)(+) and H(3)B(*) radicals undergo disproportionation to form quinonoid dihydrobiopterin (qH(2)B) and the parent H(4)B with rate constants k(H(4)B(*)(+) + H(4)B(*)(+)) = 6.5 x 10(3) M(-1) s(-1) and k(H(3)B(*) + H(3)B(*)) = 9.3 x 10(4) M(-1) s(-1), respectively. The H(3)B(*) radical is scavenged by ascorbate (AscH(-)) with an estimated rate constant of k(H(3)B(*) + AscH(-)) similar 1.7 x 10(5) M(-1) s(-1). At physiological pH the pterin rapidly scavenges a range of biological oxidants often associated with cellular oxidative stress and nitric oxide synthase (NOS) dysfunction including hydroxyl ((*)OH), nitrogen dioxide (NO(2)(*)), glutathione thiyl (GS(*)), and carbonate (CO(3)(*-)) radicals. Without exception these radicals react appreciably faster with H(4)B than with AscH(-) with k(*OH + H(4)B) = 8.8 x 10(9) M(-1) s(-1), k(NO(2)(*) + H(4)B) = 9.4 x 10(8) M(-1) s(-1), k(CO(3)(*-) + H(4)B) = 4.6 x 10(9) M(-1) s(-1), and k(GS(*) + H(4)B) = 1.1 x 10(9) M(-1) s(-1), respectively. The glutathione disulfide radical anion (GSSG(*-)) rapidly reduces the pterin to the tetrahydrobiopterin radical anion (H(4)B(*-)) with a rate constant of k(GSSG(*-) + H(4)B) similar 4.5 x 10(8) M(-1) s(-1). The results are discussed in the context of the general antioxidant properties of the pterin and the redox role played by H(4)B in NOS catalysis.     

A facile synthesis of D-glucose-type gem-diamine 1-N-iminosugars: a new family of glucosidase inhibitors.

gem-Diamine 1-N iminosugars of D-glucose-type, a new type of glycosidase inhibitors, have been synthesized from siastatin B, isolated from Streptomyces culture. 2-Trifluoroacetamido-1-N-iminosugar, (2S,3R,4R,5R)-2-trifluoroacetamido-5-hydroxymethylpiperidine -3,4-diol was proved to be a potent inhibitor for alpha-D- and beta-D-glucosidases (IC50 1.9x10(-7) and 4.2x10(-7) M, respectively). 2-Acetamido-1-N-iminosugar, (2S,3R,4R,5R)-2-acetamido-5-hydroxymethylpiperidine-3,4-diol also affected these enzymes (IC50 2.9x10(-6) and 5.4x10(-6) M, respectively).     

Characterisation of the actions of group I metabotropic glutamate receptor subtype selective ligands on excitatory amino acid release and sodium-dependent re-uptake in rat cerebrocortical minislices

In this study we have tested the effects of a wide range of metabotropic glutamate receptor ligands on (i) depolarisation-evoked efflux of pre-accumulated d-[3H]aspartic acid (d-[3H]asp) from rapidly superfused rat cerebrocortical minislices, and (ii) Na+-dependent uptake of d-[3H]asp into cerebrocortical tissue. Transient elevations in extracellular K+ produced concentration-dependent increases in d-[3H]asp efflux. A submaximally effective concentration (50 mm) was used in all subsequent experiments. The broad-spectrum mGlu receptor agonist (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid [(1S,3R)-ACPD; EC50 17.8 microm], the group I mGlu-selective agonist (S)-3,5-dihydroxyphenylglycine [(S)-3,5-DHPG; EC50 0.5 microm] and the mGlu5 receptor subtype-selective agonist (RS)-2-chloro-5-hydroxyphenylglycine [(RS)-CHPG; EC50 7.3 microm] all concentration-dependently potentiated high K+-evoked d-[3H]asp efflux in the absence of effects on basal outflow of radiolabel. At concentrations selective for mGlu1 receptors, the antagonists (RS)-1-aminoindan-1,5-dicarboxylic acid [(RS)-AIDA; 10-300 microm]; (+)-2-methyl-4-carboxyphenylglycine [LY367385; 1-100 microm] and 7-hydroxyiminocyclopropan[b]chromen-1a-carboxylate ethyl ester [CPCCOEt, 1-30 microm] all failed to inhibit responses to (S)-3,5-DHPG. However, the broad-spectrum mGlu receptor antagonist (S)-alpha-methyl-4-carboxyphenylglycine [(S)-MCPG; IC50 88.5 microm] together with the recently described mGlu5-selective antagonists, 2-methyl-6-(phenylethynyl)-pyridine (MPEP; IC50 0.6 microm), 6-methyl-2-(phenyl-azo)-3-pyridinol (SIB-1757; IC50 4.4 microm) and (E)-2-methyl-6-(2-phenylethenyl)pyridine (SIB-1893; IC50 3.1 microm), at mGlu5-selective concentrations, all powerfully and concentration-dependently inhibited (S)-3,5-DHPG-evoked responses. Two selective excitatory amino acid (EAA) uptake inhibitors, l-trans-2,4-pyrrolidine dicarboxylate (l-trans-2,4-PDC; IC50 229 microm) and dl-threo-beta-benzyloxyaspartate (dl-TBOA; IC50 665 microm) both inhibited the Na+-dependent uptake of d-[3H]asp into cerebrocortical minislices. Importantly, none of the mGlu ligands utilized in the present study significantly inhibited d-[3H]asp uptake at concentrations shown to potentiate K+-evoked efflux. These data demonstrate for the first time that mGlu5 ligands modulate extracellular EAA concentrations by a direct effect on mGlu5-type autoreceptors on EAA nerve terminals as they evoke clear changes in EAA release in the absence of any effects on EAA uptake. Selective mGlu5 receptor antagonists that show high potency and good central bioavailability may provide novel classes of neuroprotective agents for the treatment of brain disorders associated with abnormal EAAergic neurotransmission.     

Flunitrazepam binding sites in rat diaphragm. Receptors for direct neuromuscular effects of benzodiazepines?

The evidence for direct muscle relaxant effects of benzodiazepines is controversial. We now show that a crude membrane preparation of rat diaphragm possesses binding sites for [3H]flunitrazepam (FNZ). Scatchard analysis gave a binding site density of 1689 +/- 143 fmol/mg protein (Kd = 25.6 +/- 2.6 nM). These sites are of the "peripheral" type since clonazepam fails to displace [3H]FNZ as effectively as R05-4864 (IC50 values: 7.5 x 10(-6) M and 8 x 10(-9) M, respectively). Diazepam is almost as effective as R05-4864 and potently displaces [3H]FNZ binding (IC50 = 3 x 10(-8) M). We propose that the previously described effects of diazepam on rat diaphragm are mediated through high-affinity binding sites.     

Comparative study of oestrogenic properties of eight phytoestrogens in MCF7 human breast cancer cells

Previous studies have compared the oestrogenic properties of phytoestrogens in a wide variety of disparate assays. Since not all phytoestrogens have been tested in each assay, this makes inter-study comparisons and ranking oestrogenic potency difficult. In this report, we have compared the oestrogen agonist and antagonist activity of eight phytoestrogens (genistein, daidzein, equol, miroestrol, deoxymiroestrol, 8-prenylnaringenin, coumestrol and resveratrol) in a range of assays all based within the same receptor and cellular context of the MCF7 human breast cancer cell line. The relative binding of each phytoestrogen to oestrogen receptor (ER) of MCF7 cytosol was calculated from the molar excess needed for 50% inhibition of 3H]oestradiol binding (IC50), and was in the order coumestrol (35x)/8-prenylnaringenin (45x)/deoxymiroestrol (50x)>miroestrol (260x)>genistein (1000x)>equol (4000x)>daidzein (not achieved: 40% inhibition at 10(4)-fold molar excess)>resveratrol (not achieved: 10% inhibition at 10(5)-fold molar excess). For cell-based assays, the rank order of potency (estimated in terms of the concentration needed to achieve a response equivalent to 50% of that found with 17beta-oestradiol (IC50)) remained very similar for all the assays whether measuring ligand ability to induce a stably transfected oestrogen-responsive ERE-CAT reporter gene, cell growth in terms of proliferation rate after 7 days or cell growth in terms of saturation density after 14 days. The IC50 values for these three assays in order were for 17beta-oestradiol (1 x 10(-11)M, 1 x 10(-11)M, 2 x 10(-11)M), and in rank order of potency for the phytoestrogens, deoxymiroestrol (1 x 10(-10)M, 3 x 10(-11)M, 2 x 10(-11)M)>miroestrol (3 x 10(-10)M, 2 x 10(-10)M, 8 x 10(-11)M)>8-prenylnaringenin (1 x 10(-9)M, 3 x 10(-10)M, 3 x 10(-10)M)>coumestrol (3 x 10(-8)M, 2 x 10(-8)M, 3 x 10(-8)M)>genistein (4 x 10(-8)M, 2 x 10(-8)M, 1 x 10(-8)M)/equol (1 x 10(-7)M, 3 x 10(-8)M, 2 x 10(-8)M)>daidzein (3 x 10(-7)M, 2 x 10(-7)M, 4 x 10(-8)M)>resveratrol (4 x 10(-6)M, not achieved, not achieved). Despite using the same receptor context of the MCF7 cells, this rank order differed from that determined from receptor binding. The most marked difference was for coumestrol and 8-prenylnaringenin which both displayed a relatively potent ability to displace [3H]oestradiol from cytosolic ER compared with their much lower activity in the cell-based assays. Albeit at varying concentrations, seven of the eight phytoestrogens (all except resveratrol) gave similar maximal responses to that given by 17beta-oestradiol in cell-based assays which makes them full oestrogen agonists. We found no evidence for any oestrogen antagonist action of any of these phytoestrogens at concentrations of up to 10(-6)M on either reporter gene induction or on stimulation of cell growth.     

Differential expression of the Na,K-ATPase alpha 1 and alpha 2 subunit genes in a murine myogenic cell line. Induction of the alpha 2 isozyme during myocyte differentiation

Expression of Na,K-ATPase catalytic alpha isoform (alpha 1, alpha 2, and alpha 3) and beta subunit genes in rodent muscle was investigated using the murine C2C12 myogenic cell line. RNA blot analyses of myoblasts revealed expression primarily of the alpha 1 mRNA and low levels of alpha 2 mRNA. Fusion of the proliferating myoblasts to form myotubes was accompanied by an approximate 12-fold induction of the alpha 2 mRNA. In contrast, expression of alpha 1 mRNA remained constant throughout myogenesis. The alpha 3 mRNA was not detected in either myoblasts or myotubes. The beta mRNA abundance also increased 2-3-fold during myotube formation. In rodent tissues, low and high affinity cardiac glycoside (e.g. ouabain) receptors have been shown to be associated with the Na,K-ATPase catalytic alpha 1 and alpha 2 isoform subunits, respectively. The existence of these two functional classes of Na,K-ATPase in myoblasts and myotubes correlated with the biphasic ouabain inhibition of Na,K-ATPase activity. Confluent myoblasts expressed primarily the alpha 1 isozyme (IC50 = 3.6 X 10(-5) M; 95% of total activity) and lesser amounts of the alpha 2 isozyme (IC50 = 1.1 X 10(-7) M; 5% of total activity). In contrast, the myotubes showed significant levels of the alpha 1 isozyme (IC50 = 4.0 X 10(-5) M; 68% of total activity) and, in addition, showed a 6-fold increase in the relative levels of the alpha 2 isozyme (IC50 = 1.1 X 10(-7) M; 32% of total activity). To quantitate further the expression of the high affinity, ouabain-sensitive alpha 2 isozyme, a whole cell [3H]ouabain-binding assay was used. Results revealed that myotubes have an approximately 6-fold greater concentration of [3H]ouabain-binding sites than myoblasts with an apparent dissociation constant (Kd) of 1.4 X 10(-7) M. The results indicate that muscle cells can express multiple isozymes of Na,K-ATPase and that expression of the alpha 2 isozyme is developmentally regulated during myogenesis.     

Kinetics and mechanism of the decomposition of S-nitrosoglutathione by l-ascorbic acid and copper ions in aqueous solution to produce nitric oxide.

S-Nitrosothiols serve as a good source of nitric oxide ((*)NO) mainly due to the ease of cleavage of the S-N bond which consequently produces (*)NO. The reductive decomposition of S-nitrosoglutathione (GSNO) by l-ascorbic acid (vitamin C) yields (*)NO which was monitored both electrochemically (using NO-probe) and spectrophotometrically. The rate of reaction and (*)NO release was found to be pH dependent in a manner which drastically increases with pH demonstrating that the l-ascorbic acid dianion (A(2-)) is by far the most reactive species of l-ascorbic acid (H(2)A). The derived rate expression (measuring the disappearance of the absorption at ca. 336 nm due to GSNO) was established as rate = -d[GSNO](t)/dt = ((k(a)[H(+)](2) + k(b)[H(+)]K(1) + k(c)K(1)K(2))/([H(+)](2) + K(1)[H(+)] + K(1)K(2)))[GSNO](t)[H(2)A](t). k(a), k(b), and k(c) are second-order rate constants via the H(2)A, HA(-), and A(2-) pathways, respectively, while K(1) and K(2) represent the first and second equilibrium dissociation constants of l-ascorbic acid. There is little or no reaction at low pH (below 5.5), where H(2)A is a predominant species, and as a result the rate constant (k(a)) via this route was found to be negligible. At 25 degrees C, k(b) = 5.23 +/- 1.47 x 10(-3) dm(3) mol(-1) s(-1) and k(c) = 1.22 +/- 0.04 x 10(3) dm(3) mol(-1) s(-1), activation parameters DeltaH(double dagger)(b) = 54.4 +/- 4.3 kJ mol(-1), DeltaS(double dagger)(b) = -106 +/- 16 J K(-1) mol(-1), DeltaH(double dagger)(c) = 80.5 +/- 7.5 kJ mol(-1), DeltaS(double dagger)(c) = 84 +/- 7 kJ mol(-1). The experimental rate and activation parameters suggest that this redox process follows an outer-sphere electron transfer mechanism. GSNO is relatively stable in the dark, aqueous medium and even in the presence of trace quantities of Cu(2+). Induced catalytic decomposition of GSNO only becomes significant above ca. 10 microM Cu(2+), but after this it shows linear dependency. To nullify any catalysis by Cu(2+) or any other transition metal ions, EDTA was added to all experimental reactions except those where catalysis by Cu(2+) was studied.     

Aldose reductase inhibitors from the leaves of Myrciaria dubia (H. B. & K.) McVaugh

Ellagic acid (1) and its two derivatives, 4-O-methylellagic acid (2) and 4-(alpha-rhamnopyranosyl)ellagic acid (3) were isolated as inhibitors of aldose reductase (AR) from Myrciaria dubia (H. B. & K.) McVaugh. Compound 2 was the first isolated from the nature. Compound 3 showed the strongest inhibition against human recombinant AR (HRAR) and rat lens AR (RLAR). Inhibitory activity of compound 3 against HRAR (IC50 value = 4.1 x 10(-8) M) was 60 times more than that of quercetin (2.5 x 10(-6) M). The type of inhibition against HRAR was uncompetitive.     

Na_2SeO_3对血影收缩蛋白(spectrin)与肌动蛋白(actin)相互作用的影响

Na_2SeO_3不影响肌动蛋白(actin)的聚合,但它可通过与血影收缩蛋白(spectrin)作用而间接促进actin的聚合。Na_2SeO_3的作用具有浓度依赖性:低浓度(0.5-5.0ppm)可提高actin聚合过程的成核速度及延伸速度,高浓度则产生相反的效应。巯基试剂如N-乙基马来酰亚胺(NEM)可消除硒的效应。因此,推测适量的硒可能导致spectrin构象发生一定变化,增强spectrin与actin的结合,降低actin链解聚的倾向性,从而稳定红细胞膜骨架。     

NaCl和Na2CO3胁迫对桑树幼苗生长和光合特性的影响

以1年生“青龙桑”幼苗为试验材料,研究了中性盐(NaCl)和碱性盐(Na2CO3)胁迫下桑树幼苗的生长和叶片光合特性.结果表明:盐胁迫明显降低了桑树幼苗的株高、叶片数、生物量和叶片的光合能力.随着Na+浓度的增加,桑树叶片的气孔导度、蒸腾速率、净光合速率、实际光化学效率、电子传递速率和光化学猝灭系数明显降低,过剩光能以非光化学猝灭形式耗散的比例增加,桑树叶片的光能转化效率和光合能力下降.在Na+浓度＜150 mmol·L-1时,桑树幼苗的光合能力和生长受到的抑制较小,通过增加根冠比进一步适应盐胁迫,但这种保护机制随着盐浓度的增加逐渐降低.在Na2CO3胁迫下,＞50 mmol·L-1 Na+浓度对桑树的生长和光合能力表现出较强的抑制作用,并随Na+浓度的增加,抑制程度加大.在NaCl＜ 150mmol·L-1时,桑树的光合能力主要依赖植株形态和光合代谢双重途径适应中性盐逆境,而在NaC1浓度＞150 mmol·L-1和碱性盐胁迫下,其主要依赖光合代谢来适应逆境.     

Na_2SeO_3对血影收缩蛋白(spectrin)与肌动蛋白(actin)相互作用的影响

Na_2SeO_3不影响肌动蛋白(actin)的聚合,但它可通过与血影收缩蛋白(spectrin)作用而间接促进actin的聚合。Na_2SeO_3的作用具有浓度依赖性:低浓度(0.5-5.0ppm)可提高actin聚合过程的成核速度及延伸速度,高浓度则产生相反的效应。巯基试剂如N-乙基马来酰亚胺(NEM)可消除硒的效应。因此,推测适量的硒可能导致spectrin构象发生一定变化,增强spectrin与actin的结合,降低actin链解聚的倾向性,从而稳定红细胞膜骨架。     

Pre-steady-state kinetic studies on cytoplasmic sheep liver aldehyde dehydrogenase

Stopped-flow experiments in which sheep liver cytoplasmic aldehyde dehydrogenase (EC 1.2.1.3) was rapidly mixed with NAD(+) and aldehyde showed a burst of NADH formation, followed by a slower steady-state turnover. The kinetic data obtained when the relative concentrations and orders of mixing of NAD(+) and propionaldehyde with the enzyme were varied were fitted to the following mechanism: [Formula: see text] where the release of NADH is slow. By monitoring the quenching of protein fluorescence on the binding of NAD(+), estimates of 2x10(5) litre.mol(-1).s(-1) and 2s(-1) were obtained for k(+1) and k(-1) respectively. Although k(+3) could be determined from the dependence of the burst rate constant on the concentration of propionaldehyde to be 11s(-1), k(+2) and k(-2) could not be determined uniquely, but could be related by the equation: (k(-2)+k(+3))/k(+2) =50x10(-6)mol.litre(-1). No significant isotope effect was observed when [1-(2)H]propionaldehyde was used as substrate. The burst rate constant was pH-dependent, with the greatest rate constants occurring at high pH. Similar data were obtained by using acetaldehyde, where for this substrate (k(-2)+k(+3))/k(+2)=2.3x10 (-3)mol.litre(-1) and k(+3) is 23s(-1). When [1,2,2,2-(2)H]acetaldehyde was used, no isotope effect was observed on k(+3), but there was a significant effect on k(+2) and k(-2). A burst of NADH production has also been observed with furfuraldehyde, trans-4-(NN-dimethylamino)cinnamaldehyde, formaldehyde, benzaldehyde, 4-(imidazol-2-ylazo)benzaldehyde, p-methoxybenzaldehyde and p-methylbenzaldehyde as substrates, but not with p-nitrobenzaldehyde.     

Rate-determining folding and association reactions on the reconstitution pathway of porcine skeletal muscle lactic dehydrogenase after denaturation by guanidine hydrochloride

Reactivation of tetrameric porcine skeletal muscle lactic dehydrogenase after dissociation and extensive unfolding of the monomers by 6 M guanidine hydrochloride (Gdn . HCl) is characterized by sigmoidal kinetics, indicating a complex mechanism involving rate-limiting folding and association steps. For analysis of the association reactions, chemical cross-linking with glutaraldehyde may be used [Hermann, R., Jaenicke, R., & Rudolph, R. (1981) Biochemistry 20, 2195-2201]. The data clearly show that the formation of a dimeric intermediate is determined by a first-order folding reaction of the monomers with k1 = (8.0 +/- 0.1) x 10(-4) s-1. The rate constant of the association of dimers to tetramers which represents the second rate-limiting step on the pathway of reconstitution after guanidine denaturation, was then determined by reactivation and cross-linking experiments after dissociation in 0.1 M H3PO4 containing 1 M Na2SO4. The rate constant for the dimer association (which is the only rate-limiting step after acid dissociation) was k2 = (3.0 +/- 0.5) x 10(4) M-1 s-1. On the basis of the given two rate constants, the complete reassociation pattern of porcine lactic dehydrogenase after dissociation and denaturation in 6 M Gdn . HCl can be described by the kinetic model (formula: see text).     

Kinetics of beta-lactam interactions with penicillin-susceptible and -resistant penicillin-binding protein 2x proteins from Streptococcus pneumoniae. Involvement of acylation and deacylation in beta-lactam resistance.

Kinetic interactions of beta-lactam antibiotics such as penicillin-G and cefotaxime with normal, penicillin-susceptible PBP2x from Streptococcus pneumoniae and a penicillin-resistant PBP2x (PBP2x(R)) from a resistant clinical isolate (CS109) of the bacterium have been extensively characterized using electrospray mass spectrometry coupled with a fast reaction (quench flow) technique. Kinetic evidence for a two-step acylation of PBP2x by penicillin-G has been demonstrated, and the dissociation constant, K(d) of 0.9 mm, and the acylation rate constant, k(2) of 180 s(-1), have been determined for the first time. The millimolar range K(d) implies that the beta-lactam fits to the active site pocket of the penicillin-sensitive PBP rather poorly, whereas the extremely fast k(2) value indicates that this step contributes most of the binding affinity of the beta-lactam. The values of K(d) (4 mm) and k(2) (0.56 s(-1)) were also determined for PBP2x(R). The combined value of k(2)/K(d), known as overall binding efficiency, for PBP2x(R) (137 m(-1) s(-1)) was over 1000-fold slower than that for PBP2x (200,000 m(-1) s(-1)), indicating that a major part is played by the acylation steps in penicillin resistance. Most of the decreased binding efficiency of PBP2x(R) comes from the decreased ( approximately 300-fold) k(2). Kinetic studies of cefotaxime acylation of the two PBP2x proteins confirmed all of the above findings. Deacylation rate constants (k(3)) for the third step of the interactions were determined to be 8 x 10(-6) s(-1) for penicilloyl-PBP2x and 5.7 x 10(-4) s(-1) for penicilloyl-PBP2x(R), corresponding to over 70-fold increase of the deacylation rate for the resistant PBP2x(R). Similarly, over 80-fold enhancement of the deacylation rate was found for cefotaxime-PBP2x(R) complex (k(3) = 3 x 10(-4) s(-1)) as compared with that of cefotaxime-PBP2x complex (3.5 x 10(-6) s(-1)). This is the first time that such a significant increase of k(3) values was found for a beta-lactam-resistant penicillin-binding protein. These data indicate that the deacylation step also plays a role, which is much more important than previously thought, in PBP2x(R) resistance to beta-lactams.