青霉菌Penicillium janthinellum菌株GXCR的高抗重金属盐及其对Cu2+和Zn2+离子吸收的特性

从广西某矿区污泥中分离了一株高抗Cu²⁺的真菌,编号为GXCR,根据形态和5.8SrRNA基因的内转录间隔子区的DNA序列同源性将其鉴定为Penicilliumjanthinellum。GXCR能够耐200mmolL^-1的Cu²⁺,在5mmolL^-1Mn²⁺存在下,可在含800mmolL^-1Cu²⁺的PDA上生长。在PDA培养基上,限制GXCR生长的其它金属盐的最小浓度(mmolL^-1)依次为:Zn²⁺,>1200;Al³⁺,>500;Na⁺,>250;Mn²⁺,>200;Cd²⁺,50;Cr³⁺,>60;Cr⁶⁺,>3;Ni²⁺,20;Pb²⁺,50。对Cu²⁺、Cr⁶⁺、Pb²⁺和Zn²⁺,的抗性是pH依赖性的,在pH37,随着pH的升高,其抗性急剧下降。在含3种金属盐混合物的PDL(未添加琼脂的PDA)中的GXCR生长的正交实验结果表明:金属盐之间存在显著的毒性协同效应;毒性协同效应强度不仅与盐的种类也与组成盐之间的浓度相关;GXCR有较高的抗3种金属盐混合物的能力。原子吸收测定结果表明:在含20mmolL^-1Cu²⁺去离子水溶液中,未经NaOH预处理的自然菌体的Cu2+吸收量为38.1mgg^-1干菌体     

预处理方式对微紫青霉菌吸附Cu2+的影响及其吸附机理

为有效提高青霉菌(Penicillium)对含Cu2+的水溶液中的Cu2+的吸附能力并了解其吸附机制, 研究了8种不同预处理方式对微紫青霉菌(Penicillium janthinellum)菌株GXCR的Cu2+吸附的影响。结果表明, 匀浆化、匀浆+碱化(NaOH) (简称匀浆碱化)、高温(80oC)、匀浆+盐化(NaCl)、匀浆+洗涤剂和匀浆+极化(二甲基亚砜)可显著提高菌体的吸附率, 但是匀浆化+酸化处理会导致菌体的Cu2+吸附能力显著下降。与早期其他研究相比, 本研究发现匀浆化碱化(NaOH)相结合的方式能够显著提高菌体的吸附能力。其中匀浆碱化(NaOH, 0.5 mol/L)处理后菌体的Cu2+的吸附率增加了47.95%; 匀浆碱化菌体吸附符合典型的Langmuir方程, 表明该菌对吸附Cu2+的吸附可能是以表面吸附为主。吸附-解吸循环4次后, 碱化菌体的Cu2+的吸附率仍可达到70.82%。红外光谱分析表明碱化处理主要影响菌体表面分子的-OH、C=O和COOH基团中的C=O, 其中与Cu2+结合的主要基团是-OH。GXCR的对Cu2+的吸附可能是主要基于Cu2+与菌体-OH基团结合的化学吸附为主。     

Cd2+结合肽的筛选及与重金属离子的亲和作用

利用噬菌体随机十二肽库和亲和层析技术对重金属Cd进行亲和筛选,共获得两条Cd结合肽序列。将展示有Cd2 结合肽的噬菌体单克隆扩增物对不同重金属离子(Cd2 、Cr2 、Cu2 、Co2 、Zn2 、Ni2 )螯合的树脂进行亲和测定,结果表明Cu2 、Co2 、Zn2 、Ni2 对结合肽的亲和力高于Cd2 和Cr2 。抑菌解毒试验进一步确认了Cd2 结合肽对大肠杆菌重金属的解毒作用。显微观察可见金属结合肽与金属螯合树脂混合后分散度发生改变。     

微紫青霉菌Penicillium janthinellum菌株GXCR吸附废水中Cd2+的研究

研究了5种不同预处理方式对丝状真菌微紫青霉菌Penicillium janthinellum菌株 GXCR的Cd2+吸附的影响。结果表明,高温（80℃）、去离子水中的匀浆化、匀浆+碱化（NaOH,0.5mol/L）（简称匀浆碱化）和匀浆+30%二甲基亚砜处理均能提高菌体的吸附率,其中匀浆碱化处理后菌体的吸附效果最佳,吸附增量达到117.96%;匀浆+酸化（H2SO4, 0.5mol/L）处理则导致菌体的Cd2+吸附能力显著下降。匀浆碱化菌体吸附符合典型的Langmuir方程,表明该菌对Cd2+的吸附可能是以表面吸附为主的吸附行为。在吸附-解吸附循环4次后匀浆碱化菌体的Cd2+的吸附效率为58.01%。红外光谱分析显示匀浆碱化处理主要影响菌体表面分子的–OH和C=O基团,其中与Cd2+结合的主要基团是–OH。结果也表明,匀浆碱化菌体具有处理电镀废水的潜能。     

盐土粘细菌NUST03的非活性菌体对重金属离子的吸附研究

研究盐土粘细菌NUST03对Cu2+、Cr3+、Ni2+的吸附能力及不同条件下菌体对离子的吸附。实验表明盐土粘细菌NUST03对Cu2+、Cr3+、Ni2+吸附能力为Cu2+>Cr3+>Ni2+,pH值对菌体吸附Cu2+、Ni2+影响较大,氯化钙和氯化镁的存在对菌体吸附Cu2+、Ni2+、Cr3+有一定的抑制作用。     

淡水小球藻清除Cu2+、Cd2+、Zn2+污染能力的研究

用接种密度(n/mL-1)为498 ×104的淡水小球藻对含Cu2+、Cd2+、Zn2+的水体分别处理,观察了藻细胞对上述3种离子的清除能力,并用金鱼存活检测了结果.结果表明(1)淡水小球藻对不同密度的Cu2+、Cd2+、Zn2+都有清除能力,Cu2+的密度在0.094～0.484 mol/L时,清除率为61%～84.5%;Cd2+的密度在0.053～0.32mol/L时,清除率为45.90%～78.20%;Zn2+的密度在0.077～0.466 mol/L时,清除率为61.80%～84.80%.(2)淡水小球藻Cu2+、Cd2+和Zn2+良好工作浓度分别为0.094～0.484 mol/L、0.053～0.32 mol/L和0.077～0.466mol/L.其中,Zn2+的清除能达到国家污染物排放的二级标准.     

微紫青霉菌(Penicillium janthinellum)P-type ATPase及金属硫蛋白相关基因的克隆

本研究以高抗多种重金属盐的微紫青霉菌(Penicillium janthinellum)菌株GXCR为材料构建基因组fosmid文库。其插入片段集中在36～50kb,含13348个克隆,重组率为100%,大约覆盖了GXCR基因组的14.83倍。基于序列特异性和简并引物,利用PCR扩增分析了与酿酒酵母(Saccharomyces cerevisiae)重金属盐抗性相关的CRS5和CUP2基因;基于兼并引物和序列特异性引物,利用PCR扩增分析了GXCR的P-type ATPase基因。通过菌落原位杂交和Southern blot鉴定了一个含铜转运P-type ATPase基因的阳性fosmid克隆,经亚克隆测序分析表明该基因与棒曲霉(Aspergillus clavatus菌株)NRRL1的P-type copper ATPase相似性达97%。没有筛选到与CRS5和CUP2基因同源的克隆,说明GXCR中可能不存在与酿酒酵母CUP2和CRS5高度同源的MT基因,同时也暗示酵母与丝状真菌的重金属盐的抗性机制有本质上的差异或者独特性。     

抗铅锌功能菌生长菌株和干菌体吸附Pb2+、Zn2+性能优化及机理分析

【目的】针对湖南资兴铅锌矿污染问题,筛选本土耐性菌株用作生物修复。【方法】供试菌株J3筛选自湖南资兴铅锌矿区的尾砂矿矿渣,利用正交实验分析其生长菌株及干菌体最佳吸附条件以优化其吸附效果,同时对相关数据进行动力学拟合以探讨其吸附机理,最后结合形态观察和18S rRNA基因序列分析对其进行分类鉴定。【结果】在最佳条件下,J3生长菌株对Pb2+和Zn2+的去除率分别为92.2%和87.7%;干菌体对Pb2+和Zn2+去除率分别为72.6%和23.8%,反应动力学模型研究表明,生长菌株吸附过程中吸附速率受重金属浓度影响,对Zn2+吸附主要为颗粒内扩散作用;干菌体对Pb2+吸附推测为膜扩散和颗粒内扩散作用,而对Zn2+的吸附则由膜扩散控制。根据形态特征和系统发育分析,J3初步鉴定为虫生轮枝菌。【结论】生长菌株吸附效果好于干菌体,二级动力学方程拟合结果可为生物吸附反应器的设计提供理论参考和实践指导。     

Ni2+高效结合肽的筛选与作用研究

利用噬菌体随机十二肽库和金属亲和层析对重金属Ni2 进行结合肽筛选。经4轮生物淘洗、噬菌体扩增和DNA测序,获得一组多肽序列。GenBank Blast分析未发现同源序列,Clustal W多重序列比对也未找到Ni2 金属结合肽结合基序,但可能含有多聚组氨酸(His)2-5。噬菌体单克隆金属离子螯合树脂的亲和力测定和反筛、抑菌解毒试验表明:展示有金属结合肽的噬菌体不仅对Ni2 具有高亲和力,而且对其它金属离子也有作用,Cu2 、Ni2 、Co2 、Zn2 等金属离子对金属结合肽的亲和力显著高于Cd2 和Cr2 ,展示金属结合肽的噬菌体对重金属Ni2 具有一定的耐受和解毒作用。显微形态学观察也显示金属结合肽与金属螯合树脂的作用。对于了解重金属与多肽的相互作用机理以及环境重金属修复等均具有重要意义和价值。     

微紫青霉菌菌株GXCR对低品位黄铜矿中的Cu和Fe的生物淋滤及其淋滤机制

研究了Penicillium janthinellum菌株GXCR对低品位黄铜矿中的Cu和Fe的生物淋滤浸出.结果表明摇浸淋滤效率优于静置浸没淋滤效率,对Cu的淋滤浸出效果最佳;在添加最佳碳源(10%蔗糖,W/V)、氮源(1.5% NaNO3,W/V)、摇浸淋滤和最佳条件组合(淋滤培养基初始pH 6.0,矿石大小200目,矿石浓度5%(W/V)和初始接种菌量3.0×105分生孢子/mL)时,Cu的浸出率达到87.31%(W/W);摇浸淋滤时影响Cu的生物浸出的主要因素是淋滤培养基初始pH(FF0.05);对Cu和Fe淋滤起主要作用的有机酸分别是柠檬酸和草酸;浸没淋滤效率低是与柠檬酸和草酸产量低有关;GXCR的生物淋滤机制有2种:柠檬酸和草酸的生化作用和菌体附着生长所产生机械压力对矿石的破碎作用.     

铜、铅、镉、锌、汞和银离子复合污染对水螅的急性毒性效应

以水螅(Hydrasp)为例,通过单因子静态急性毒性试验方法和等毒性溶液法,分别研究Hg2 、Cu2 、Cd2 、Ag 、Zn2 和Pb2 对其单一和复合毒性效应。单一实验结果表明,它们对水螅毒性大小顺序为Hg2 >Cu2 >Cd2 >Ag >Zn2 >Pb2 。复合毒性实验表明,Zn2 与Cu2 、Hg2 、Pb2 、Ag ;Pb2 与Cu2 ;Hg2 与Ag ;Pb2 与Ag 这些组合对水螅联合急性毒性总体上表现出拮抗作用,Cd2 与Cu2 、Hg2 、Pb2 、Ag 组合总体上则是协同作用,Zn2 与Cd2 、Pb2与Hg2 、Cu2 与Hg2 ,Ag 在不同的浓度水平组合下明显表现出不同的毒性效应。     

Stability of Ca2+-, Cd2+-, Cu2+-[illite-humic] complexes and pH influence

Decomposition of fresh plant residues in soil is expected to produce humic fractions varying in molecular size. It was hypothesized that metal adsorption by soil, to some degree, will depend on humic acid content and molecular size. The latter is expected to vary in number and type of functional groups. In this study, illite-humic complexes were used to evaluate Ca²⁺, Cd²⁺, and Cu²⁺ adsorption and how this adsorption was affected by humic acids, differing in molecular size, under various pH values. Potentiometric titration using ion-selective electrodes with a stop-and-go procedure was employed to evaluate metal-[illite-humic] complex formation. The results showed that illite-humic complexes exhibited at least two types of metal-ion adsorption sites (low and high affinity) and molecular size of humic fractions had a large potential influence on total metal adsorption but a relatively smaller influence on metal-complex stability. Relative strength of metal-ion-[illite-humic] complexes followed the order of Cu²⁺>Cd²⁺>Ca²⁺ and were affected by pH, especially for low metal-ion affinity sites. Magnitude of metal-[illite-humic] stability constants, depending on molecular size of humic fraction and pH, varied on a log-scale from 3.52 to 4.21 for Ca²⁺, 4.38 to 5.18 for Cd²⁺and from 5.23 to 5.83 for Cu²⁺. There was an approximate 5-fold difference in these stability constants between the three different sizes of humic fractions. The larger the humic fraction, the lower the metal-[illite-humic] stability constant. This revised version was published online in June 2006 with corrections to the Cover Date. This revised version was published online in June 2006 with corrections to the Cover Date. This revised version was published online in June 2006 with corrections to the Cover Date.     

可口革囊星虫对Cd2+和Hg2+的富集及其影响

采用原子吸收、原子荧光等分析检测技术,探讨了Cd2+、Hg2+在可口革囊星虫中的富集规律及其对生长与主要营养成分的影响.结果表明:在试验设定的胁迫浓度内,可口革囊星虫体壁肌肉对Cd2+、Hg2+的富集均随胁迫时间的延长而增加,最终达到饱和浓度;环境中Cd2+、Hg2+浓度越高,富集速度越快,达到饱和的时间越短,饱和浓度也越高.可口革囊星虫体质量增长随着重金属胁迫浓度的升高而减慢,且联合胁迫的影响程度大于单一胁迫.体壁肌肉蛋白质含量随重金属胁迫浓度的增加而升高,Cd2+、Hg2+分别在0.05和0.02 mg·L-1胁迫浓度下达到最高,然后开始降低.联合胁迫也呈同样的规律,且影响程度更大.体壁肌肉脂肪含量随重金属胁迫浓度的增加而降低,联合胁迫下降低程度更大.     

重金属镉和铅胁迫对海洋微藻的毒性效应研究

设置不同浓度的重金属Cd2+(0、0.2、0.4、0.6、0.8和1 mg•L-1)和Pb2+(0、0.1、0.2、0. 4、0.8和1.6 mg•L-1)胁迫处理, 检测米氏凯伦藻(Karenia mikimotoi)的生长生理情况, 分析重金属胁迫对海洋微藻生长的毒性效应, 探讨超氧化物歧化酶(SOD)和过氧化氢酶(CAT)等对重金属胁迫的缓解作用。研究结果发现, 重金属Cd2+和Pb2+对米氏凯伦藻具有较强的毒性, 随着重金属浓度的提高, 细胞生长受到毒害作用增强; 而米氏凯伦藻对重金属Cd2+和Pb2+胁迫具有一定的适应性。重金属Cd2+和Pb2+胁迫导致米氏凯伦藻细胞的叶绿素a、叶绿素b含量下降(1.6 mg•L-1 Pb2+胁迫除外), 类胡萝卜素含量提高, 最大光能转化效率(Fv/Fm)下降, 表明重金属胁迫抑制藻的光合作用, 影响藻的生长繁殖。丙二醛(MDA)随着重金属Cd2+和Pb2+浓度提高而升高, 说明重金属引起藻细胞膜透性增加, 藻细胞遭受破坏。SOD活性整体呈现先升高后下降(或与对照持平)的趋势, 提示海洋微藻的抗氧化酶系统在低浓度重金属胁迫下产生应激性反应, 酶活性增强; 而CAT活性上升, 也对藻细胞起到保护作用, 推测两者共同反应, 以缓解藻体遭受的重金属毒害作用。结果可为了解重金属胁迫对海洋微藻的毒性效应提供参考。     

匍茎翦股颖对Cu2+、Zn2+、Cd2+与Pb2+ 胁迫的生长响应与阈限浓度

采用砂培法,研究了匍茎翦股颖对Cu2+、Zn2+、Cd2+与Pb2+胁迫的生长响应及阈限浓度,结果表明:种子萌发率随着4种重金属浓度的增加而下降。对株高的影响是当重金属浓度小于100mg/L时会促进株高生长,高于100mg/L则产生抑制作用。Cu2+显著抑制根系生长,并随浓度的增加抑制效应愈加显著;在Cu2+浓度为600mg/L时匍茎翦股颖的根长比对照下降了93.75%。Cu2+、Zn2+、Pb2+浓度小于200mg/L时会促进地上生物量的增加,但高于200mg/L时,地上生物量会随着3种重金属的增加而减少。Cu2+、Zn2+浓度小于100mg/L或Cd2+、Pb2+浓度小于200mg/L会增加叶绿素的含量,高浓度会降低叶绿素的含量;Cd2+在浓度为600mg/L时显著降低叶绿素含量,与对照相比,下降了43.55%。匍茎翦股颖生长的综合效应分析表明,匍茎翦股颖对Cu2+胁迫最敏感,具有较低的阈限浓度,而Zn2+胁迫对匍茎翦股颖的生长影响最小,阈限浓度相对较高。     

粘盖牛肝菌不同菌株对Zn2+、Cd2+的吸附及其对油松Zn2+、Cd2+的耐受性

为了探讨同一菌根真菌不同菌株对重金属的耐受性,选用采集于内蒙古阴山山脉不同地区的粘盖牛肝菌(Suillus bovinus)的不同菌株进行研究。首先,在不同浓度Zn^2 、Cd^2 液体培养基中培养菌丝体,以了解各菌株菌丝体对重金属的耐受性及吸附能力,采用烘干法和原予吸收法分别测定菌丝体的生物量和菌丝体、培养液中Zn^2 、Cd^2 含量,结果表明：劈柴沟粘盖牛肝菌在Zn^2 、Cd^2 胁迫条件下,生物量、吸附能力约为其余各菌株的1．5～2倍。其次,为了探明油松(Pinus tabulaeformis)形成菌根后对Zn^2 、Cd^2 胁迫的耐受性及其耐受机理,采用一次性定量浇灌不同浓度Zn^2 、Cd^2 溶液的方法,测定了菌根化油松苗地上、地下生物量及Zn^2 、Cd^2 含量的分配,结果表明：菌根形成后能显著促进油松的生长及对Zn^2 、Cd^2 胁迫的耐受性,并且菌根能够帮助油松吸收基质中大量的Zn^2 、Cd^2 ,根中重金属的含量是茎叶中的2～3倍以上,非菌根苗在重金属浓度稍高(Zn^2 400mg／kg;Cd^2 40mg／kg)时就会死亡。经方差分析及多重比较证实,劈柴沟粘盖牛肝菌对Zn^2 、Cd^2 的耐受性及对油松的促生效果与其它各菌株存在显著的差异,这可能是它通过把吸收的Zn^2 、Cd^2 最大限度地输送到根中的同时,也输送到了茎叶中,使重金属在体内得到一定程度的稀释,使自身免受毒害。     

Theoretical study on phthalocyanine,pyrazinoporphyrazine and their complexation with Mg2+ and Zn2+

We have studied the UV–vis absorption spectra of metal-free phthalocyanine (H₂Pc), metal-free pyrazinoporphyrazine (H₂PyzPz) and their complexes with Mg^2 +  and Zn^2 +  using semiempirical Zerners intermediate neglect of differential overlap and time-dependent density functional theory methods. The predicted absorption spectra of H₂Pc and their complexes are in agreement with a previous experiment report. The calculated results show that the Q band absorption peaks of H₂PyzPz and their complexes are blue-shifted by 40 nm as compared with those of H₂Pc and their complexes, respectively. The frontier molecular orbitals (HOMO and LUMO) of H₂Pc, H₂PyzPz and their metal complexes were investigated as well. The nitrogen atoms in the pyrazine rings stabilise the HOMO more than the LUMO, and the deprotonation of the pyrrole rings induced by the metal coordination destabilises the LUMO more than the HOMO. Because of the increased band gap, the absorption bands of H₂PyzPz and the metal-coordinated compounds are blue-shifted.     

Antibacterial combination therapy using Co3+, Cu2+, Zn2+ and Pd2+ complexes: Their calf thymus DNA binding studies

Four Co(III)-, Cu(II)-, Zn(II)-, and Pd(II)-based potent antibacterial complexes of formula K₃[Co(ox)₃].3H₂O (I), [Cu(bpy)₂Cl]Cl.5H₂O (II), [Zn(bpy)₃]Cl₂ (III), and [Pd(bpy)₂](NO₃)₂ (IV) (where ox is oxalate and bpy is 2,2′-bipyridine) were synthesized. They were characterized by elemental analyses, molar conductance measurements, UV–Vis, FTIR, ¹H NMR, and ¹³C NMR spectra. These metal complexes were ordered in three combination series of I + II, I + II + III, and I + II + III + IV. Antibacterial activity was tested for each of these four metal complexes and their combinations against Gram-positive and Gram-negative bacteria. All compounds were more potent antibacterial agents against the Gram-negative than those of the Gram-positive bacteria. The four metal complexes showed antibacterial activity in the order I > II > III > IV and the activity of their combinations followed the order of I + II + III + IV > I + II + III > I + II. CT-DNA binding studies of complex I and its three combinations were carried out using UV–vis spectral titration, displacement of ethidium bromide (EB), and electrophoretic mobility assay. The results obtained from UV–vis studies indicated that all series interact effectively with CT-DNA. Fluorescence titration revealed that the complexes quench DNA-EB strongly through the static quenching procedures. The binding constant (K_b), the Stern–Volmer constant (K_sv), and the number of binding sites (n) were determined at different temperatures of 293, 300, and 310 K, respectively. The calculated thermodynamic parameters supported that hydrogen binding and Van der Waals forces play a major role in association of each series of metal complexes with CT-DNA and follow the above-binding affinity order for the series.     

Mutations in dsbA and dsbB, but not dsbC, lead to an enhanced sensitivity of Escherichia coli to Hg2+ and Cd2+

The Dsb proteins are involved in disulfide bond formation, reduction and isomerisation in a number of Gram-negative bacteria. Mutations in dsbA or dsbB, but not dsbC, increase the proportion of proteins with free thiols in the periplasm compared to wild-type. We investigated the effects of mutations in these genes on the bacterial resistance to mercuric and cadmium salts. Mutations in genes involved primarily in disulfide formation (dsbA and dsbB) generally enhanced the sensitivity to Hg2+ and Cd2+ while a mutation of the dsbC gene (primarily an isomerase of disulfide bonds) had no effect. Mutations of the dsb genes had no effect on the expression of the mercury-resistance determinants of the transposon Tn501.     

Glucuronate complexes with Mg2+, Ca2+, Zn2+ and Cd2+ in aqueous chloride solution: a possible chemical speciation model for biochemical understanding

ABSTRACT

Protonation constants and Na⁺-, Mg²⁺-, Ca²⁺-, Zn²⁺- and Cd²⁺-D-Glucuronate complex formation constants have been determined potentiometrically in different ionic strength conditions. Glucuronate forms a very weak complex species with Na⁺ (K ～ 1 dm³ mol^?1), and weak species with Mg²⁺ and Ca²⁺ (K ～ 10 dm³ mol^?1). When glucuronate interacts with Zn²⁺ and Cd²⁺, two species, M(gluc) and M(gluc)₂ (glue = glucuronate) having a stability intermediate between that of mono and dicarboxylate complexes, are formed. This can be due to the involvement of the ethereal oxygen in the coordination. Medium effects are considered in the light of speciation problems.