玉米籽粒重金属铅(Pb2+)含量的QTL定位

铅(Pb²⁺)是现存环境最大量的有毒重金属污染元素,在我国特别是西南地区种植的玉米受重金属Pb²⁺污染日益严重,已严重影响到食物安全。文章利用玉米籽粒Pb²⁺低富集自交系178和籽粒Pb²⁺高富集自交系9782杂交衍生的重组自交系群体为作图群体,利用165对SSR多态性标记,构建了总长度为1499.85 cM、标记间平均距离为9.07 cM的分子遗传图谱,对玉米籽粒Pb²⁺含量性状进行了QTL定位分析,以期为选育籽粒低富集Pb²⁺的玉米新品种提供参考。结果表明,在Pb²⁺浓度为333.32 mg/kg胁迫下,共检测到2个与籽粒Pb²⁺含量相关的QTL,分别位于玉米第1、第4号染色体,其中qPC1位于标记区间umc1661~phi002h之间,表型贡献率为11.13%,加性效应为0.062;qPC4位于umc1117~nc005之间,表型贡献率为5.55%,加性效应为-0.044。性状相关分析结果表明,籽粒中Pb²⁺含量与穗长、穗粗、行粒数、穗重和百粒重等产量性状间均未达到显著水平,表明选育玉米籽粒Pb²⁺低富集的新自交系或杂交种不一定会影响到产量性状,而且籽粒Pb²⁺含量是一个相对独立的遗传性状。     

Process of Pb2 accumulation in Saccharomyces cerevisiae

Most of the Pb2+ taken up by Saccharomyces cerevisae was deposited in the inner part of the cells after 2 h. In the Pb2 accumulation experiments, the time to reach an equilibrium state was significantly shortened from 96 h to 24 h as the cell dry weight increased from 0.56 g/l to 5.18 g/l. The penetration time of Pb2+ to reach on the interacellular region (2 h) was quite different from that on the extracellular region (3 min). In the case of S. cerevisiae, the first step which a Pb2+ binds to cell wall within 3[f]5 min is metabolism-independent and the second step within 24 h is metabolism-dependent followed by the third step which is metabolism-dependent or -independent after 24 h.     

白腐真菌吸附铅的研究

含重金属废水的传统处理方法有化学沉淀法、离子交换法、吸附法、电解法和膜分离法等,它们虽然也能达到一定的净化效果,但因过程繁琐并易造成二次污染而不够理想,尤其是金属离子浓度较低时,往往操作费用和原材料成本相对过高。近年来采用生物吸附法去除废水中的重金属...     

Permeation of Pb2+ through calcium channels: fura-2 measurements of voltage- and dihydropyridine-sensitive Pb2+ entry in isolated bovine chromaffin cells.

Fura-2 was used to monitor Pb2+ entry into isolated bovine chromaffin cells exposed to micromolar concentrations of Pb2+ in media containing basal or high concentrations of K+. The entry of Pb2+ consists of voltage-independent and voltage-dependent (K(+)-stimulated) components. The voltage-dependent Pb2+ entry is enhanced by Ca2+ channel agonist BAY K 8644 and blocked by the channel antagonist nifedipine, suggesting the involvement of the L-type Ca2+ channels. In contrast to the transient, K(+)-depolarization-dependent increase in [Ca2+]i, the increase in [Pb2+]i is sustained over a period of several minutes, suggesting the absence of channel inactivation and/or the saturation of Pb(2+)-buffering capacity of the cell cytosol.     

Removal of Pb2+ by Biomass of Marine Algae

New biosorbent material derived from ubiquitous marine algae has been examined in packed-bed flow for Pb²⁺ removal through sorption columns. Mixed biomass of marine algae has been used, consisting of representative species of the following algae: Ulva lactuca (green algae), Jania rubens (red algae), and Sargassum asperifolium (brown algae). A mixture of these three species showed a promising removal capacity for Pb²⁺ from aqueous solution. Lead uptake up to 281.8 mg/g dry algal mixture was observed. Equilibrium was achieved after 120 min. No significant effect of changing the flow rate on the removal capacity was noticed. It was found that Langmuir model expresses the system at pH 4. Mineral acids exhibited good elution properties (a mean of 93%) for recovery of sorbed biomass ions as compared with the tested alkalies (about 60%). Received: 21 December 1999 / Accepted: 24 April 2000     

Template-directed synthesis of oligoadenylates catalyzed by Pb2+ ions

The Pb2+ ion is an effective catalyst for the template-directed condensation of ImpA on poly(U). This reaction generates up to 35% of oligomers 5 or more units long. Furthermore, the product is predominantly 3'-5'-linked (75%) unlike that from the uncatalyzed reaction which is more than 90% 2'-5'-linked. The significance of metal-ion catalysis for prebiotic polynucleotide formation is discussed.     

Monensin mediates a rapid and selective transport of Pb(2+). Possible application of monensin for the treatment of Pb(2+) intoxication

The carboxylic acid ionophore monensin, known as an electroneutral Na(+) ionophore, an anticoccidial agent, and a growth-promoting feed additive in agriculture, is shown to be highly efficient as an ionophore for Pb(2+) and to be highly selective for Pb(2+) compared with other divalent cations. Monensin transports Pb(2+) by an electroneutral mechanism in which the complex PbMonOH is the transporting species. Electrogenic transport via the species PbMon(+) may also be possible. Monensin catalyzed Pb(2+) transport is little affected by Ca(2+), Mg(2+), or K(+) concentrations that are encountered in living systems. Na(+) is inhibitory, but its effectiveness at 100 mm does not exceed approximately 50%. The poor activity of monensin as an ionophore for divalent cations other than Pb(2+) is consistent with the pattern of complex formation constants observed in the mixed solvent 80% methanol/water. This pattern also explains why Ca(2+), Mg(2+), and K(+) are ineffective as inhibitors of Pb(2+) transport, but it does not fully explain the actions of Na(+), where kinetic features of the transport mechanism may also be important. When given to rats at 100 ppm in feed together with Pb(2+) at 100 ppm in drinking water, monensin reduces Pb accumulation in several organs and tissues. It also accelerates the excretion of Pb that was accumulated previously and produces this effect without depleting the organs of zinc or copper. Monensin, used alone or in combination with other agents, may be useful for the treatment of Pb intoxication.     

新月藻生物吸附Pb2+影响因素的研究

对新月藻生物吸附Pb^2 的影响因素作了初步研究,实验表明,在新月藻的指数生长期和静止期加入Pb^2 时,Pb^2 的去除率较高;当藻细胞密度一定时,随着Pb^2 浓度的增加,其去除率增大,当Pb^2 浓度一定时,随着藻细胞密度的增加,新月藻对Pb^2 的去除率增大;pH对Pb^2 吸附影响不大,在pH5-9的范围内,Pb^2 去除率在60%以上。     

Molecular determinants of Pb2+ interaction with NMDA receptor channels

Lead (Pb2+) is a potent neurotoxin that acts as a non-competitive, voltage-independent antagonist of the NMDA receptor (NR) channel. Pb2+ action partially overlaps with that of zinc (Zn2+), but precise coincidence with Zn2+ binding site is debated. We investigated the site of Pb2+ interaction in NR channels expressed in Xenopus laevis oocytes from the clones zeta1, epsilon1 or epsilon2 and mutated epsilon1 or epsilon2 forms. For each epsilon subunit we chose two mutations that have been identified as 'strong mutations' for Zn2+ binding and examined the effect of Pb2+ on channels that contained those mutations. In epsilon1-containing channels, mutations D102A and H128A caused a decrease of Pb2+ inhibition with a 10-fold (D102A) and four-fold (H128A) shift of IC50. In epsilon2-containing channels, the most effective mutation in removing Pb2+ inhibition was H127A, with a five-fold increase of IC50, while D101A was virtually ineffective. Other mutations, D104A, T103A, and T233A, were less effective. The double mutation D101AH127A, while reducing Zn2+ inhibition by nearly nine-fold, caused a minor (less than two-fold) shift in Pb2+ IC50. Competition experiments showed that increasing doses of Zn2+ reduced the apparent affinity for Pb2+ in epsilon1-containing receptors, but not in epsilon2-containing receptors. In addition the effect of Pb2+ on epsilon2-containing channels was additive with that of ifenprodil, with no competition for the site. Although none of the mutations that we have tested abolished the block by Pb2+, our results indicate that the action of this toxic metal on NR channels is more dependent on the receptor composition than previously thought, because Zn2+ is able to displace Pb2+ from its binding site in epsilon1-containing channels, but not in epsilon2-containing channels.     

Two-dimensional network acquired by Pb(II)-2-aminoethanethiolate

The combination of an equivalent amount of Pb(NO₃)₂ and 2-aminoethanethiol hydrochloride in the presence of a base yielded a two-dimensional network consisting of [PbCl(SCH₂CH₂NH₃)](NO₃) (1) units. The network is further extended to a three-dimensional framework with intermolecular hydrogen bonding involving and Cl⁻. The geometry around Pb in 1 can be best described as distorted pentagonal bipyrimidal with the axial positions occupied by Cl atoms. Due to the presence of a weak PbCl bond, the two-dimensional network can be considered to be formed of PbS₂Cl units with an additional Cl acting as bridging atom.     

Pb2+胁迫对绿球藻(Chlorococcum sp.)的影响研究

研究了不同Pb2 浓度(0.1、1、10、50、100、200、400 mg/L)处理对绿球藻(Chlorococcum sp.)生长、形态结构及生理特性的影响。与对照BG11培养的绿球藻比较,Pb2 浓度≤50 mg/L条件下培养的绿球藻细胞壁无明显增厚,色素变化不大;而暴露到Pb2 浓度>50 mg/L条件下培养,绿球藻细胞壁明显增厚,蛋白核消失。低浓度Pb2 (0.1~10 mg/L)对绿球藻生长基本没有影响;浓度在50 mg/L时,绿球藻仍能维持一定的生长速率;但当Pb2 浓度≥100 mg/L时,绿球藻的生长受到显著抑制。绿球藻的Chl a Chl b以及Chl a含量均随培养基中Pb2 浓度的升高而逐渐减少。绿球藻净光合作用强度随培养基中Pb2 浓度的增大而逐渐降低,Pb2 浓度≥100 mg/L时净光合作用强度检测不到;当Pb2 浓度<50 mg/L时,绿球藻呼吸作用强度逐渐升高,之后呼吸作用强度逐渐降低。在实验的浓度下,绿球藻的丙二醛(MDA)含量、超氧化物歧化酶(SOD)和过氧化物酶(POD)活性都随培养基中Pb2 浓度的升高而逐渐增强;过氧化氢酶(CAT)则随Pb2 浓度的增大酶活性先升高后降低。当Pb2 浓度≤100 mg/L时,绿球藻对Pb2 的去除率都在95%以上;之后逐渐降低,浓度到400 mg/L时仍然达56.7%。结果显示,绿球藻是一种耐受Pb2 胁迫的藻类,对铅的去除率也高,可以应用于含铅污水的处理。     

Efficient catalysis of polycytidylic acid-directed oligoguanylate formation by Pb2+

Pb²⁺ is a very effective catalyst for the template-directed self-condensation of guanosine 5′-phosphorimidazolide on a polycytidylate template. In the presence of 0.01 m-Pb²⁺ at 0 °C, up to 85% of the input ImpG ² is converted to a mixture of oligomers with a mean chain length of up to 17. Substantial amounts of material longer than (pG)₄₀ are formed. About half the ImpG reacts within an hour. The oligomeric products are predominantly (2′–5′)-linked.If poly(C) is incubated with ImpG and an equimolar quantity of the corresponding derivative of adenosine, uridine or cytidine, the “incorrect” nucleotide, is incorporated about 10% as often as G.     

不同污染负荷土壤中镉和铅的吸附－解吸行为

采用一次平衡法,对3种不同污染负荷土壤Cd2 和Pb2 的吸附-解吸行为进行了比较.结果表明,低污染负荷土壤对Cd2 和Pb2 的吸附能力高于高污染负荷土壤.3种土壤对Cd2 的吸附等温线与Freundlich方程有较好的拟合性,Pb2 的等温吸附过程可用Langmuir方程与Freundlich方程来描述.双常数方程是描述这3种不同污染负荷土壤中Cd2 和Pb2 吸附动力学行为的最优模型,其次为Elovich方程,最差模型是一级动力学方程.Pb2 的解吸滞后现象较Cd2 明显.高污染负荷土壤的吸附态Cd2 、Pb2 解吸率高于低污染负荷土壤,Cd2 、Pb2 解吸量与其初始吸附量之间的关系符合二次幂方程.3种土壤Cd2 、Pb2 的解吸速率随重金属初始浓度的增加而增加,随解吸时间的延长而降低.     

发状念珠蓝细菌细胞对Cu2+、Cr2+和Pb2+胁迫的响应

[目的] 对发状念珠蓝细菌细胞进行重金属离子Cu2+(CuSO4)、Cr2+(CrCl2)和Pb2+(PbCl2)胁迫,探讨发状念珠蓝细菌细胞对重金属离子胁迫的响应.[方法] 25℃,80 μmol/(m·s)光照下,BG11培养液培养发状念珠蓝细菌,利用不同浓度(0、0.1、1.0、10、100 mg/L) Cu2+、Cr2+和pb2+胁迫发状念珠蓝细菌细胞,测定其质膜透性、超氧化物歧化酶活性、丙二醛含量、脯氨酸含量、可溶性蛋白含量以及海藻糖含量,分析发状念珠蓝细菌细胞对重金属离子胁迫的响应.[结果] 在Cu2、Cr2和pb2胁迫下,发状念珠蓝细菌细胞的外渗率和丙二醛(malondialdehyde)含量随着重金属离子浓度的升高而升高,相对渗透率和膜脂过氧化水平的变化趋势一致.超氧化物歧化酶(superoxide dismutase)活性随重金属离子浓度的升高先升后降,脯氨酸含量随着重金属离子处理浓度的升高,呈先降后升的趋势,可溶性糖含量随浓度的增大而减少.[结论] 低浓度的重金属离子可以诱导发状念珠蓝细菌细胞产生结构和生理的应激响应,高浓度会导致发状念珠蓝细菌细胞膜结构和功能的严重损害.     

Removal of Cd2+, Pb2+, and Zn2+ from contaminated water using dolomite powder

Dolomite collected from Surat Thani Province in Thailand was investigated for use as a sorbent for the removal of divalent heavy metal cations from an aqueous solution. The sorbent had a surface area of 2.46 m²/g and a pH of zero point charge (pHzpc) of 9.2. Batch sorption was used to examine the effect of the pH (pH 3–7) on the sorption capacity of Cd²⁺, Pb²⁺ and Zn²⁺, alone or together as an equimolar mixture at various concentrations. Alone, each heavy metal cation was adsorbed faster at a higher pH, where the sorption of Cd²⁺ and Pb²⁺ fitted a Langmuir isotherm, but Zn²⁺ sorption best fitted a Freundlich isotherm. Under equimolar competitive sorption, the sorption capacity of each cation was decreased by 75.8% (0.29–0.07 mM/g), 82.8% (0.53–0.09 mM/g), and 95.7% (0.84–0.04 mM/g) for Cd²⁺, Pb²⁺ and Zn²⁺, respectively, compared to that with the respective single cation. Desorption of these heavy metal cations from dolomite was low, with an average desorption level of 0.06–17.4%. Furthermore, since dolomite is readily available and rather cheap, it is potentially suitable for use as an efficient sorbent to sorb Cd²⁺ and Pb²⁺, and perhaps Zn²⁺, from contaminated water.     

铅对绿豆幼苗生长的影响

Effects of Pb^2 on the growth of mung bean(Phaseolus radiatus L.)seedlings were conducted with an experiment.The results showed that the dry weight of roots increased by 13.01%,the dry weight of shoots decreased by 12.80%,the free proline and MDA content in leaves increased specially by 2.07% and 5.82%,the activity of POD decreased by 37.32% compared to control under 0.05mmol/L Pb^2 treatment.Under 0.5mmol/L Pb^2 treatment,the dry weights of roots and shoots decreased specially be 14.45% and 29.36%,the free proline and MDA content in leaves increased specially by 43.55% and 28.50,the activity of POD decreased by 59.37% compared to control.The results indicated that Pb^2 interfered the growth of mung bean seedlings by destroying cell membrane intergrity and decreasing the activity of POD in leaves.     

铅和镉污染对大羽藓生理特性的影响

This paper dealt with the effects of ²⁺,²⁺ and their combined pollution on the contents of chlorophyll,potassium and calcium in Thuidium cymbifolium.The results showed that except at 0.1 mg ²⁺稬^-1,the chlorophyll content decreased with increasing ²⁺ and ²⁺ concentrations,which was 18% of the control at 100 mg ²⁺稬^-1,and decreased by 48.6% at 200 mg ²⁺稬^-1.The potassium and calcium contents also decreased with increasing pollutants concentrations,being decreased by 61.1% at 100 mg ²⁺稬^-1.²⁺ had a stronger toxicity than ²⁺,and the toxicity of their combined pollution was stronger than that of each pollutant.²⁺ could increase the toxicity of ²⁺.     

Effects of Hg2+ and cell conditions on Pb2+ accumulation by Saccharomyces cerevisiae

Pb²⁺ accumulation in Saccharomyces cerevisiae changed by Hg²⁺ and cell conditions. The accumulated Pb²⁺ amounts decreased from 0.22 to 0.02?mmol Pb²⁺/g cell dry weight by the existence of Hg²⁺. But the total metals accumulation (0.42?mmol metal ions/g cell dry weight) was not changed. The order of accumulated Pb²⁺ amounts (mg Pb²⁺/g cell dry weight) according to the cell conditions at an equilibrium state was shown as the original cell (260)?>?5?times autoclaved cell for 15?min (150)?>?grinded cell after drying (100)?>?autoclaved cell for 5?min (30).     

Cation (K+, Mg2+, Ca2+) exchange in Pb2+ accumulation by Saccharomyces cerevisiae

The relationship between Pb²⁺ accumulation and cation (K⁺, Mg²⁺, Ca²⁺) release in Saccharomyces cerevisiae was extensively investigated. As Pb²⁺ accumulation proceeded, the release of cellular metal ions such as K⁺, Mg²⁺ and Ca²⁺ was concomitantly released within 24 h, thereafter Pb²⁺ penetrated into the inner cellular parts and consequently plasmolysis of the cell was observed by TEM analysis. Pb²⁺ accumulation process in S. cerevisiae after 24 h was metabolism-independent because of the absence of cell viability. As the cell storage time was prolonged, the released amount of K⁺ was markedly increased, while the amount of accumulated Pb²⁺ was nearly constant regardless of cell storage time and the time required to reach an equilibrium state was shortened. The autoclaved cells had less Pb²⁺ accumulation capacity than the untreated cells, and the amounts of released K⁺ and Mg²⁺ were very low due to the denaturation of cell surface and cell membrane.