Beta-lactamase of Lysobacter enzymogenes: induction, purification and characterization

Lysobacter enzymogenes produces an inducible beta-lactamase and induction with 100 micrograms ampicillin ml-1 resulted in an increase of more than 100-fold in enzyme activity. Various other beta-lactam antibiotics also served as effective inducers. The enzyme was obtained from cells by osmotic shocking to release periplasmic components and it was purified primarily by ion-exchange chromatography and PAGE. The beta-lactamase consists of one polypeptide with a molecular mass of about 28 kDa and an isoelectric point greater than 9.6. It is strongly inhibited by p-chloromercuribenzoate and clavulanic acid but not by EDTA. The enzyme readily hydrolyses several penicillins and cephalosporins, but not oxacillin or cloxacillin. The enzyme therefore belongs to group 2b of the bacterial beta-lactamases.     

Uptake of Cadmium by Hydroponically Grown,Mature Eucalyptus Camaldulensis Saplings and the Effect of Organic Ligands

The potential suitability of Eucalyptus camaldulensis for Cd phytoextraction was tested in a hydroponic study. Saplings were exposed to 4.5 and 89 μM Cd for one month, with and without EDTA and s,s-EDDS at 0.1, 1, and 5 mM. The saplings’ growth was not affected at the 4.5 μM Cd concentration, yet it decreased 3-fold at 89 μM, and almost all the Cd taken up was immobilized in the roots, reaching 360 and 5300 mg Cd kg^?1, respectively (approximately 75% of which was non-washable in acid). The respective Cd root-to-shoot translocation factors were 0.14 and ≈5*10^?4. At 0.1 mM concentration, EDTA and EDDS had no effect or even a positive effect on the saplings growth. This was reversed at 1 mM, and the chelants became lethal at the 5 mM concentration. At 89 μM Cd in the growth medium, 0.1 mM EDTA increased Cd translocation into the shoots by almost 10-fold, however it strongly reduced Cd content inside the roots. This hydroponic study indicates the feasibility of E. camaldulensis use for cleanup Cd-contaminated soils at environmental concentrations, both for site stabilization (phytostabilization) and gradual remediation (phytoextraction). EDTA was shown to be much more efficient in enhancing Cd translocation than s,s-EDDS.     

Partial purification of human parathyroid hormone 1-84 as a thioredoxin fusion form in recombinant Escherichia coli by thermoosmotic shock

A modified purification method, thermoosmotic shock (osmotic shock coupled with heat-treatment) for heat-stable proteins, was devised in the purification of Trx-hPTH (1-84) (human parathyroid hormone coupled with thioredoxin as a fusion partner) from E. coli. Thermoosmotic shock can integrate the functions of extraction and crude separation of fusion protein Trx-hPTH (1-84). To improve the purification efficiency, thermoosmotic shock conditions were optimized and achieved as follows: the optimized high osmotic solution containing 20mM Tris-HCl buffer (pH 8.0), 1mM EDTA, and 25% sucrose; the low osmotic solution containing 20mM Tris-HCl buffer (pH 8.0), 1mM EDTA, and the heat-treatment temperature of 100 degrees C for 10 min. Using this method, the purity of Trx-hPTH (1-84) was up to 73% and the yield was up to 72%, respectively. In addition, the two separation methods of both thermoosmotic shock and affinity chromatography have been compared, indicating that thermoosmotic shock is an economical and feasible way for the fusion protein separation. Besides, the thermoosmotic shock method may be used for the purification of some proteins of thermal stability without N-terminal His-tag.     

Extracellular production of cloned alpha-amylase by Escherichia coli

Overexpression of Bacillus stearothermophilus gene coding for thermostable alpha-amylase in Escherichia coli was shown to cause outer-membrane damage leading to extracellular location of periplasmic proteins. Prolonged high expression of the alpha-amylase gene under lacZpo control eventually also lysed cells. Surprisingly, expression controlled by the pL promoter of phage lambda allowed specific release of periplasmic proteins into the growth medium without total cell lysis. Accumulation of alpha-amylase in the growth medium continued for at least 24 h under lambda pL control, whereas beta-lactamase activity ceased to increase beyond the exponential growth phase. The extent of outer membrane damage caused by alpha-amylase expression was monitored by following growth kinetics in the presence of lysozyme and by electron microscopy of the cells. Supplementing growth medium with Mg2+ restored the normal growth kinetics. It is suggested that periplasmic protein release caused by alpha-amylase overexpression is a stress response of the cell. A role for induced autolytic activity of the cell as a final effector of protein release is also proposed.     

Optimization of osmotic shock process variables for enhancement of the release of periplasmic interferon-α2b from Escherichia coli using response surface method

The osmotic shock process for the release of periplasmic recombinant human interferon-α2b from Escherichia coli was optimized using response surface method (RSM). The process parameters such as pH, buffer concentration and sucrose concentration in hypertonic solution, cell concentration to hypertonic solution, contact time of cells with hypertonic solution, temperature of hypertonic solution, cell concentration to hypotonic solution, contact time of cells with hypotonic solution and temperature of hypotonic solution were initially screened using Plackett Burman design. Further optimization was carried out using central composite design (one of the design in RSM) for sucrose concentration in hypertonic solution as well as cell concentration to hypertonic and hypotonic solutions. The optimal cell concentration was 0.05 g/mL in hypertonic solution and 0.2 g/mL in hypotonic solution. The use of hypertonic solution containing 18% sucrose with a combination of 100 mM Tris and 2.5 mM EDTA buffer (pH 8.0 and 25 °C) and cold water (4 °C) as a hypotonic solution gave the optimum release of interferon-α2b. Increased product concentration in the final solution resulted from the optimized process would reduce the downstream steps during purification. The concept of reuse of hypertonic solution was also demonstrated.     

Localization of DnaK (chaperone 70) from Escherichia coli in an osmotic-shock-sensitive compartment of the cytoplasm.

The chaperone DnaK can be released (up to 40%) by osmotic shock, a procedure which is known to release the periplasmic proteins and a select group of cytoplasmic proteins (including thioredoxin and elongation factor Tu) possibly associated with the inner face of the inner membrane. As distinct from periplasmic proteins, DnaK is retained within spheroplasts prepared with lysozyme and EDTA. The ability to isolate DnaK with a membrane fraction prepared under gentle lysis conditions supports a peripheral association between DnaK and the cytoplasmic membrane. Furthermore, heat shock transiently increases the localization of DnaK in the osmotic-shock-sensitive compartment of the cytoplasm. We conclude that DnaK belongs to the select group of cytoplasmic proteins released by osmotic shock, which are possibly located at Bayer adhesion sites, where the inner and outer membranes are contiguous.     

Osmotic shock: a mechanosensitive channel blocker can prevent release of cytoplasmic but not periplasmic proteins

When over-expressed in the cytoplasm of Escherichia coli, carboxylesterase Est55 of Geobacillus stearothermophilus was found to be released from cells upon osmotic shock. Comparing two osmotic shock protocols showed that release of Est55 was abolished in the absence of mechanosensitive channel MscL by one method but not the other. The discrepancy extended to several previously reported cytoplasmic proteins released by osmotic shock, including: EF-Tu, thioredoxin, and DnaK in E. coli. Stepwise analyses of parameters between these two protocols revealed that the use of mechanical pipetting instead of gentle dilution of cells prior to exposure to hypotonic solution abolished the effect of MscL. Furthermore, while this phenomenon of release of certain cytoplasmic proteins was sustained in all three wild type strains of E. coli, presence of gadolinium was able to serve as an MscL channel blocker and prevented release of Est55 and EF-Tu in the process. An optimized protocol of osmotic shock was developed from this study to provide a more reliable assessment of location of proteins in E. coli. This method allowed release of authentic periplasmic MalE and beta-lactamase proteins comparable to that by EDTA-lysozyme treatment.     

Two-dimensional zymography in detection of proteolytic enzymes in wheat leaves

Proteolytic enzymes in wheat leaves were studied using zymographic detection of enzyme activities on one-way (1D) SDS-polyacrylamide gels and two-dimensional (2D) ones, on which protein samples were isoelectrofocused prior to PAGE separation. Gelatin of concentration 0.1 %, copolymerized into SDS-PAGE gels, digested by active proteinases enabled detection of those enzymes. On 1D gels, seven bands were seen and assigned to particular families through the use of specific inhibitors. Metalloproteinases inhibited by 20 mM EDTA were detected as 150 kDa band; aspartic proteinases were assigned to 115–118 kDa double band by using 25 mM pepstatin; 10 mM phenylmethylsulfonyl fluoride used for detection of serine proteinases pointed to band of 70 kDa and finally due to 10 μM E-64 inhibitor, cysteine proteinases of 37 and 40 kDa were detected. On 2D gels, additional separation according to protein isoelectric points enabled detection of proteinase isoforms. In the range of 4.5–6 pI, six metalloproteinases as well as ten aspartic proteinases were visible, ten serine- isoforms of pI 4.5–6.8 and four cysteine proteinases of 4.5–5.0 pI were found. Presented results were detected as reproducible results observed at least in four independent biological replications.     

Optimization of Intracellular Product Release from Neisseria denitrificans Using Microfluidizer

Disruption of Neisseria denitrificans cells by microfluidizer was optimized using a factorial experiments design. The pH, pretreatment time, cell concentration, NaCl, ethylenediamine tetraacetic acid (EDTA) and Triton X-100 concentrations showed significant impact on disruption process and the process was optimized using central composite design and response surface methodology (RSM). Investigation revealed optimum conditions: 90 min pretreatment at pH 9.0 containing 110 g L^?1 cells (dry cell weight), 50 mM NaCl, 10 mM EDTA, and 0.2% Triton X-100. At optimized conditions, the disruption rate increased twofold, up to 5.62 ± 0.27 × 10^?3 MPa^-a; meanwhile, yield of intracellular content was increased by 26%, with 1 g of cells resulting in 113.2 ± 8.2 mg proteins, 12.1 ± 0.7 mg nucleic acids, 21.0 ± 1.2 mg polysaccharides, 0.99 ± 0.08 kU glucose-6-phosphate dehydrogenase (G6PD), and 10,100 ± 110 kU restriction endonuclease NdeI endonuclease. Particle size distribution analysis revealed nearly twofold larger cell lysate particles with diameter of 120 nm. For optimal release of intracellular content, 9200 J/g of energy was needed (95% confidence), yielding 6900 J/g energy savings. Model equations generated from RSM on cell disruption of N. denitrificans were found adequate to determine significant factors and its interaction. The results showed that optimized combination of known pretreatment and disruption methods could considerably improve cell disruption efficiency.     

Ammonium-induced proline and sucrose accumulation, and their significance in antioxidative activity and osmotic adjustment

Excess of ammonia generates oxidative and osmotic stress, and results in an accumulation of compatible solutes. The aim of this study was to investigate the physiological significance of excess ammonium-induced proline and sucrose accumulation on antioxidative activity and osmotic adjustment. The detached leaves of white clover (Trifolium repense L.) were fed with 0, 10, 50, 100, and 200 mM NH₄Cl, and the contribution of proline and sucrose to osmotic adjustment and their relationship with antioxidative enzymes activity were assessed. A gradual decline of relative water content and osmotic potential (Ψ_π) with increasing NH₄Cl feeding level was accompanied by an increase in ammonia concentration. Significant accumulation of proline and sucrose was observed when NH₄Cl was fed over 100 mM compared with control (0 mM NH₄Cl). The increase in enzyme activity was significant only at 200 mM for ascorbate peroxidase (APOD) and over 100 mM NH₄Cl for guaiacol peroxidase (GPOD) and catalase (CAT). The contribution of proline and sucrose to osmotic adjustment over 100 mM, where proline and sucrose accumulation was more important, maintained at control levels or significantly decreased. The content of proline and sucrose as affected by NH₄Cl feeding level was positively related with the activity of APOD, GPOD, and CAT. These results suggest that proline and sucrose accumulation induced by the excess of ammonium has a more influential role in antioxidative activity rather than osmotic adjustment.     

Salt impacts on organic carbon and nitrogen leaching from senesced vegetation

Senesced vegetation is exposed to a wide range of salt concentrations in surface waters resulting from human activities which include deicing salts and irrigation water chemistry. Both dissolved organic carbon (DOC) and salt concentrations are rising in northern hemisphere watersheds, yet there has been little investigation of sodium as a potential mechanism for DOC increases. The objective of this study was to investigate the impact of solution sodicity and salinity on DOC and dissolved organic nitrogen (DON) leaching from five types of senesced and cut vegetation. Vegetation was soaked for 24 h in a series of sodium chloride (NaCl)–calcium chloride (CaCl₂) solutions with sodium adsorption ratios (SAR) of 2, 10, or 30 and electrical conductivities of 0.1 dS m^?1 through 3.0 dS m^?1. Vegetation was also soaked in a sodium bicarbonate (NaHCO₃) solution at SAR = 30 and stream water from local watersheds with a range of sodicity and salinity. The mass of both DOC and DON released increased as SAR increased in the NaCl solutions, but the total salinity had inconsistent effects on DOC and DON release. NaHCO₃ leached similar amounts of DOC and DON as NaCl. The SAR of the stream water solutions was able to explain 88 % of the variability in DOC leached from vegetation (p < 0.05). The results indicated that sodicity, quantified by SAR, had a significant impact on DOC and DON leaching from senesced vegetation and could be a potential mechanism to explain the observed increases in surface water DOC.     

Improving the production of E. coli beta-lactamase in Bacillus subtilis: the effect of glucose, pH and temperature on the production level.

Bacillus subtilis has been considered a promising host for the production of foreign proteins. However, proteases released by the host organism can often cause rapid breakdown of secreted heterologous proteins. Here we report that the addition of 6% glucose and 100 mM potassium phosphate to the growth medium significantly reduces the degradation of E. coli TEM beta-lactamase secreted from B. subtilis, when applying an expression system based on B. amyloliquefaciens alpha-amylase. The yield of beta-lactamase was increased 10-20-fold when compared to the yield in Luria medium. The promoter of B. amyloliquefaciens alpha-amylase gene is repressed by glucose. However, here we show that the repression does not take place in a multicopy plasmid, thus enabling our approach to efficiently reduce the protease action by catabolite repression. We have also studied the role of pH and temperature on the beta-lactamase production in laboratory scale bioreactors. Low temperature and low pH are both favorable for a high level beta-lactamase production by the high copy plasmid construction.     

Release of outer membrane fragments from wild-type Escherichia coli and from several E. coli lipopolysaccharide mutants by EDTA and heat shock treatments.

EDTA-induced outer membrane losses from whole cells of wild-type Escherichia coli (O111:B4) and several lipopolysaccharide (LPS) mutants derived from E. coli K-12 D21 were analyzed. EDTA treatment induced losses of LPS (up to 40%), outer membrane proteins OmpA, OmpF/C, and lipoprotein, periplasmic proteins, and phosphatidylethanolamine. The extent of these releases was strain specific. Successively more EDTA was necessary to induce these losses from strains containing LPS with increasing polysaccharide chain length. An additional heat shock immediately following the EDTA treatment had no effect on LPS release, but it decreased the release of outer membrane proteins and reduced the leakage of periplasmic proteins, suggesting that the temporary increase in outer membrane "permeability" caused by Ca2+-EDTA treatment was rapidly reversed by the redistribution of outer membrane components, a process which is favored by a mild heat shock. The fact that the material released from E. coli C600 showed a constant ratio of lipoprotein, OmpA, and phosphatidylethanolamine at all EDTA concentrations tested suggests that the material is lost as specific outer membrane patches. The envelope alterations caused by EDTA did not result in cell lysis.     

Abnormal fractionation of beta-lactamase in Escherichia coli: evidence for an interaction with the inner membrane in the absence of a leader peptide.

beta-Lactamase with the -20 to -1 region of the leader peptide deleted (almost complete deletion of the leader peptide) [delta(-20,-1) beta-lactamase] was released from Escherichia coli cells by osmotic shock. Fractionation of the cells by conversion to spheroplasts and protease accessibility experiments further indicated that a portion of the protein may be bound to the cytoplasmic membrane and be partially exposed in the periplasmic space. Expression of delta(-20,-1) beta-lactamase conferred a 25-fold increase in the 50% lethal dose for ampicillin relative to that for controls, thus confirming that a small amount (about 2%) of the active protein is completely exported from the cytoplasm. These results suggest that even in the absence of a leader peptide, mature beta-lactamase is able to interact with the cytoplasmic membrane and be translocated into the periplasmic space, albeit with a low efficiency.     

Recovery of a foreign protein from the periplasm of Escherichia coli by chemical permeabilization.

We have applied the technique of protein release by chemical permeabilization to recover a foreign protein in active form from the periplasm of a recombinant strain of Escherichia coli. The two agents used in our chemical permeabilization scheme, guanidine hydrochloride and Triton X-100, have different modes of action, allowing selectivity in protein release based on intracellular location under different treatment conditions. Specifically, treatment of E. coli C600-1 cells by guanidine alone resulted in 40-fold purification of recombinant beta-lactamase, which is periplasmically expressed in this host. Achieving such high purification in the cell disruption stage could alleviate some of the problems associated with recovery of intracellular products, such as low expression or the need to solubilize cytoplasmic inclusion bodies. Recovery of periplasmic proteins by chemical permeabilization is simpler than by osmotic shock and is less expensive than using enzymatic digestion.     

Biogenesis of endoplasmic reticulum membrane in rat liver cells. III. Biosynthesis of NADPH-cytochrome c reductase and cytochrome b5 by loosely-bound ribosomes.

Membrane-bound ribosomes were separated into two distinct classes (loosely-bound and tightly-bound ribosomes) by treatment with 0.6 M KCl, 1 mM puromycin, 0.05% DOC, or 10 mM EDTA. It was also confirmed that any one of these reagents except for EDTA dissociated the same class of ribosomes from the membrane. A population of lighter microsomal vesicles was formed from rough microsomes upon the dissociation of loosely-bound ribosomes by treatment with these chemicals. Rough microsomes were subfractionated into lighter and heavier fractions, L-rMs and H-rMs, by centrifugation using a discontinuous gradient of sucrose consisting of 1.3 M, 1.5 M, and 2.1 M solutions. It was found that L-rMs was rich in loosely-bound ribosomes, whereas H-rMs contained a high proportion of tightly-bound ribosomes. It is likely that loosely-bound and tightly-bound ribosomes are heterogeneously distributed among rough microsomal vesicles. Loosely-bound ribosomes and tightly-bound ribosomes synthesize different kinds of proteins. Two microsomal membrane proteins, NADPH-cytochrome c reductase and cytochrome b5, were exclusively synthesized by loosely-bound ribosomes, whereas serum albumin, which is a major component of the secretory proteins of hepatocytes, was synthesized only by tightly-bound ribosomes. Since the nascent peptides of NADPH-cytochrome c reductase and cytochrome b5 are released from bound ribosomes to the cytoplasmic surface of endoplasmic reticulum, while those of secretory proteins are discharged into the lumen across the membrane, the strength of the association between ribosomes and microsomal membrane seems to be correlated with the direction of release of nascent peptides.     

Protein release in recombinant Escherichia coli using bacteriocin release protein.

The effect of induction level of the bacteriocin release protein (BRP) on cell growth characteristics, protein expression, and protein release in a recombinant strain of Escherichia coli RR1 was investigated. Mitomycin C, the inducing agent, when added to the growth medium in moderate amounts (up to 200 ng/mL) was observed to enhance the release of periplasmic proteins from the cell to the fermentation broth substantially. The percentages of release of the proteins alpha-amylase and beta-lactamase were increased by factors of about 7 and 3, respectively, upon induction of the BRP. The percentage of alpha-amylase released into the broth increased from only about 5% to almost 50% with the aid of BRP. The cell growth curve and low extracellular activity of the cytoplasmic protein beta-galactosidase were indicative that cell lysis did not occur in an appreciable amount at a low induction level, with a mitomycin C concentration of less than 300 ng/mL.     

抗VEGF单克隆抗体Fab片段在E.coli中的分泌表达

目的：在大肠杆菌中构建、表达和纯化抗血管内皮生长因子（VEGF）的Fab片段（兰尼单抗,ranibizumab）,通过发酵条件的控制实现其在大肠杆菌周质和胞外的高效分泌表达,并检测其抗VEGF的活性。方法：以pET30a为质粒载体,构建了Fd链和L链前都含有OmpA信号肽、SD序列和T7 promoter的克隆载体pET30a（+）-LC-HC,转化BL21（DE3）表达菌株,并进行了培养基、温度和IPTG诱导浓度的条件优化。结果：确定Fab片段在大肠杆菌分泌表达摇瓶发酵最佳条件为：在含有1.5% Tryptone,1% Yeast Extract,0.5% Glucose,0.15% NaCl,0.1% NH₄Cl,0.08% MgCl₂·6H₂O的1L培养基的摇瓶中,按照10%的接种量,37℃摇床培养至对数生长后期（OD₆₀₀为2左右）,添加0.1mmol/L IPTG诱导剂,于16℃条件下诱导表达过夜（16h左右）。用周质破菌提取分泌至大肠杆菌周质腔的Fab片段,同时用中空纤维柱浓缩发酵培养基,最后用ProteinG亲和层析柱一步纯化洗脱,经SDS-PAGE检测分析和Brandford法测蛋白浓度得出纯化的Fab抗体片段纯度在90%以上,分泌表达纯化量为0.4mg/L。以VEGF165作为结合抗原,间接ELISA分析纯化后的Fab抗体EC50=30ng/ml。继续用该培养基在3.7L体积发酵罐中进行2L体积的发酵,获得最终的菌体产率为30g/L,可亲和纯化Fab抗体量为1.94mg/L。结论：成功实现了Fab抗体片段在大肠杆菌中的高效分泌表达,且具有很高的活性,为规模化制备Fab抗体片段提供了研究依据。     

Compartmentalization of mammalian proteins produced in Escherichia coli

We have examined the patterns of compartmentalization of several mammalian proteins in Escherichia coli which do not have signal peptides or functional signal peptide equivalents. These proteins include (i) human proapolipoprotein A-I (proapoA-I), a 249-residue protein which contains a hexapeptide NH2-terminal prosegment plus a mature domain of 243 residues comprised of tandemly arrayed, docosapeptide repeats with predicted amphipathic alpha-helical structure; (ii) the mature apoA-I molecule without its prosegment; (iii) mouse interleukin-1 beta (IL-1 beta), a 17-kDa protein which is composed of 12 beta strands that form a tetrahedral structure; and (iv) the 31-kDa precursor of IL-1 beta, proIL-1 beta. Efficient expression of these proteins in E. coli was achieved using a plasmid that contains the nalidixic acid-inducible recA promoter and ribosome binding site from the gene 10 leader of bacteriophage T7. In induced cultures the mammalian proteins represented up to 20% of the total bacterial protein mass. Surprisingly, cell fractionation using cold (osmotic) shock indicated that proapoA-I, apoA-I, and IL-1 beta, but not its 31-kDa precursor, were segregated into the periplasmic space with high efficiency: the ratio of periplasmic space/spheroplast distribution ranged from 0.6 to 1.1 in cells harvested 60-180 min after nalidixic acid induction. Not only was this compartmentalization efficient but it was also selective: analysis of the osmotic shock fractions revealed that the periplasmic space preparations were not contaminated with cytoplasmic proteins (e.g. phosphoglycerate dehydrogenase). Sequential Edman degradation showed that these proteins had not undergone any NH2-terminal proteolytic processing. The mammalian proteins did not affect the export of a prototypic bacterial preprotein, beta-lactamase. Together the data suggest that osmotic shock fractionation of E. coli may facilitate the purification of functional foreign proteins produced in this prokaryote. They also raise the possibility that structural elements in these proteins other than conventional signal peptides may effect periplasmic targeting in E. coli.     

Experimental Assessment of Using Soluble Humic Substances for Remediation of Heavy Metal Polluted Soils

Since heavy metals are nondegradable and strongly bonded in soils, remediation of heavy metal polluted soils by extraction is difficult and current extraction techniques require harsh chemicals such as ethylenediaminetetraacetic acid (EDTA). However, use of EDTA is environmentally problematic because of costs, persistence, toxicity and deterioration of soil structure. Therefore, the potential of soluble natural humic substances (HS) to extract heavy metals from contaminated soils is tested as an environmentally friendly substitute for EDTA. A strongly polluted, calcareous urban soil (CRC soil) and a moderately polluted agricultural soil (CUP soil) were extracted at neutral pH in batch mode by three HS solutions from beech and Norway spruce litter (Beech-HS and Spruce-HS) and processed cow slurry (Bio-HS), all containing 25 mM dissolved organic carbon (DOC). After 10 extractions with a solution to soil ratio of 5:1 (L/kg), 8% to 39% of the total Cd, Cu, Ni and Pb soil contents, lowest for Ni and highest for Cu/Pb, were extracted. Natural and processed HS samples had comparable capacities to extract the heavy metals. A comparison of 100 mM DOC of Bio-HS and EDTA as extractants for Cu from the CRC soil showed extraction of 67% by EDTA and 41% by Bio-HS, indicating somewhat higher efficiency of EDTA than of HS. Sequential extraction of the CRC soil after Bio-HS and EDTA extraction showed removal of exchangeable, carbonate- and metal oxide-bound Cu but also of some residual Cu. It is therefore concluded that HS appears to be an attractive and promising alternative to EDTA as remediation agent for heavy metal polluted soils provided cheap HS of good quality is easily available.