Affinity Chromatography of B-Glucosidase and Endo-B-Glucanase from Aspergillus Niger on Concanavalin A-Sepharose: Implications for Cellulase Component Purification and Immobilization

Affinity chromatography of a commercial preparation of 3-glu-cosidase from Aspergillus niger using concanavalin A-Sepharose (CAS) was employed as a means of purifying this glycoprotein. However, mannose (up to 1.08 M) was ineffective as an eluent of this enzyme from CAS, as were several other sugars and their derivatives, including 0.5 M glucose. Also, washing the CAS:8-glucosidase complex with buffer at pH 3.5 in the absence of MnCl₂ and CaCl₂ (required to preserve the binding activity of concanavalin A below pH 5.0) did not result in elution of this enzyme. On the contrary, endo-glucanase activity present in a crude cellulase complex (A. niger) which bound to CAS could be eluted by mannose (0.5–0.7 M) and was fractionated Into at least two components. The CAS:β-glucosidase complex hydrolyzed cellobiose to glucose and possessed an activity of 2, 158 units/g dry CAS. It could be used, therefore, for continuous cellobiose hydrolysis without leakage of enzyme from the support.     

Isolation, partial purification and characterization of nuclear retinoic acid receptors from chick skin

Nuclear receptors (RARs) for retinoic acid (RA) are considered to be the ultimate mediators of the action of RA in the control of cell differentiation and inhibition of tumorigenesis. We have isolated and partially purified and characterized RAR from a RA-responsive tissue, chick embryo skin. The purification steps included Affi-Gel blue chromatography, ultrafiltration, size exclusion chromatography, and preparative isoelectric focusing. The electrofocusing of RAR-[3H]RA complex in ampholines (pH 3-10) revealed that the receptors have an isoelectric pH of 7.5. Whereas pronase-digested the RAR-[3H]RA complex completely, DNase showed 20-35% and RNase showed negligible digestive action on the complex. The ligand binding to RAR was completely inhibited by a mercury compound. RAR-alpha- and RAR-beta-specific antibodies, on Western blot analysis, immunoreacted with a protein having a molecular weight of 50,000, presumably RAR. Binding affinity studies revealed that biologically active analogs of RA with a free COOH group (e.g., 13-cis-RA, RO-13-7410, Ch 55, and Am 80) showed, like RA, high binding affinity for RAR, whereas biologically ineffective analogs of RA (e.g., furyl and pyridyl) were poor binders. Other groups of retinoids, in which the COOH group was either lacking or blocked, did not bind to RAR whether or not they were biologically active.     

Affinity chromatography of beta-glucosidase and endo-beta-glucanase from Aspergillus niger on concanavalin A-Sepharose: implications for cellulase component purification and immobilization

Affinity chromatography of a commercial preparation of beta-glucosidase from Aspergillus niger using concanavalin A-Sepharose (CAS) was employed as a means of purifying this glycoprotein. However, mannose (up to 1.08 M) was ineffective as an eluent of this enzyme from CAS, as were several other sugars and their derivatives, including 0.5 M glucose. Also, washing the CAS: beta-glucosidase complex with buffer at pH 3.5 in the absence of MnCl2 and CaCl2 (required to preserve the binding activity of concanavalin A below pH 5.0) did not result in elution of this enzyme. On the contrary, endoglucanase activity present in a crude cellulase complex (A. niger) which bound to CAS could be eluted by mannose (0.5-0.7 M) and was fractionated into at least two components. The CAS: beta-glucosidase complex hydrolyzed cellobiose to glucose and possessed an activity of 2,158 units/g dry CAS. It could be used, therefore, for continuous cellobiose hydrolysis without leakage of enzyme from the support.     

Recovery of a monoclonal antibody from hybridoma culture supernatant by affinity precipitation with Eudragit S-100

An IgG₁ monoclonal antibody (MAB) was isolated from hybridoma culture supernatant by affinity precipitation with an Eudragit S-100-based heterobifunctional ligand. Affinity binding was performed in a homogeneous aqueous phase at pH 7.5 followed by precipitation of the bound affinity complex by lowering the pH to 4.8. After two washing steps, elution of specifically bound MAB was achieved by incubating the precipitate with 0.1 M glycine.HCl pH 2.5. The influence of elution volume and time on the recovery of active MAB and the overall purification factor were studied. The best conditions enabled the recovery of 50.2% of active MAB with a purification factor of 6.2. A further dialysis against 50 mM Tris.HCl pH 8.0 increased the activity yield and the purification factor to 68.4% and 8.3, respectively. This result showed that part of the antibody activity loss during affinity precipitation was due to a reversible inactivation process, being easily recovered after a refining dialysis step.     

Fractionation of plasma proteins using dye-ligand chromatography: elution profiles on immobilized green TSK-AF

The fractionation of human plasma by chromatography on immobilized Green TSK-AF was assessed by immunological analysis of the elution profiles of 27 different plasma proteins. A three-step procedure was used to elute proteins from the column. First a low-molarity buffer (30 mM sodium phosphate, pH 7.0, I = 0.053) was applied; then a linear salt gradient (0-1.0 M NaCl in the above buffer) was followed by an additional wash with four bed volumes of 1.0 M NaCl. Tightly bound proteins were finally stripped with 0.5 M NH4SCN. The elution profile of the proteins using this procedure appears to be very reproducible. Comparison with the profile obtained upon chromatography on Cibacron Blue 3GA [Gianazza, E. and Arnaud, P. (1982) Biochem. J. 201, 129-136] indicates significant differences between the binding properties of the two gels. These differences can be used to design a "tandem-chromatography" system which provides an efficient means for the separation of several plasma proteins.     

Titanium dioxide as a chemo-affinity solid phase in offline phosphopeptide chromatography prior to HPLC-MS/MS analysis

We have developed a new offline chromatographic approach for the selective enrichment of phosphorylated peptides that is directly compatible with subsequent analysis by online nano electrospray ionization tandem mass spectrometry. In this technique, a titanium dioxide (TiO2)-packed pipette tip is used as a phosphopeptide trap that acts as an offline first-dimension separation step in a two-dimensional chromatography system. This is followed by online nano reversed-phase high-performance liquid chromatography. Here, we present suitable methods for enrichment, optimized separately for each step: sample loading, washing and elution from the TiO2-filled tips. To increase the trapping selectivity of the TiO2 column, we used the sodium salt of 1-octanesulfonic acid combined with 2,5-dihydroxybenzoic acid as ion-pairing agents and displacers for acidic peptides. These agents also improve the binding of phosphorylated peptides and block the binding of non-phosphorylated ones. This enrichment procedure takes 30 min, followed by a 100-min HPLC program, including washing and an elution gradient.     

Cyclic 3',5'-adenosine monophosphate-dependent kinase and phosphoproteins in human amnion

3',5'-Cyclic adenosine monophosphate (cAMP) modulates prostaglandin production in human amnion membranes. The major effects of cAMP are presumably mediated through the phosphorylation of specific regulatory phosphoproteins following cAMP activation of cAMP-dependent protein kinase. Cyclic AMP-dependent protein kinase and phosphoproteins have not previously been characterized in human amnion. Total homogenates, cytosol, and membrane fractions from human amnion were examined for [3H]cAMP binding activity and cAMP-dependent kinase activity. cAMP-dependent kinase activity was barely detectable in crude amnion fractions. Cytosol was therefore partially purified by DEAE column chromatography for further examination. Two peaks of coincident [3H]cAMP binding and cAMP-dependent kinase activity were demonstrated at 70 and 140 mM NaCl, characteristic of the Type I and Type II cAMP-dependent protein kinase isozymes. [3H]cAMP binding to the material from both peak fractions was saturable and reversible. Scatchard analysis of [3H]cAMP binding to the peak fractions was linear for peak I and curvilinear for peak II. Assuming a one-site model, [3H]cAMP binding to the Type I isozyme showed a KD = 4.17 x 10(-8) M and Bmax = 73 pmole/mg protein; using a two-site model, [3H]cAMP binding to the high-affinity site for the Type II isozyme had a KD = 3.94 x 10(-8) M and Bmax = 6.3 pmole/mg protein. Other cyclic nucleotides competed for these [3H]cAMP binding sites with a potency order of cAMP much greater than cGMP greater than (BU)2cAMP.cAMP caused a dose-dependent increase in cAMP-dependent kinase activity in the peak fractions; half-maximal activation was observed with 5.0 x 10(-8) M cAMP. The ability of cAMP to increase phosphorylation of endogenous proteins in both crude amnion cytosol and cytosol from cultures of amnion epithelial cells was assessed using [32P]ATP, SDS-polyacrylamide gel electrophoresis and autoradiography. cAMP stimulated 32P incorporation into three proteins having Mr = 80,000, 54,000, and 43,000 (P less than .01). Half-maximal 32P incorporation into these proteins occurred at 1.0 x 10(-7) M cAMP. cAMP-dependent kinase is present in human amnion; specific cAMP-enhanced phosphoproteins are also present. Hormones elevating cAMP levels in amnion may exert their effects by activating cAMP-dependent kinase and phosphorylating these phosphoproteins.     

Binding of horse heart cytochrome c to yeast porphyrin cytochrome c peroxidase: a fluorescence quenching study on the ionic strength dependence of the interaction

The binding of horse heart cytochrome c to yeast cytochrome c peroxidase in which the heme group was replaced by protoporphyrin IX was determined by a fluorescence quenching technique. The association between ferricytochrome c and cytochrome c peroxidase was investigated at pH 6.0 in cacodylate/KNO3 buffers. Ionic strength was varied between 3.5 mM and 1.0 M. No binding occurs at 1.0 M ionic strength although there was a substantial decrease in fluorescence intensity due to the inner filter effect. After correcting for the inner filter effect, significant quenching of porphyrin cytochrome c peroxidase fluorescence by ferricytochrome c was observed at 0.1 M ionic strength and below. The quenching could be described by 1:1 complex formation between the two proteins. Values of the equilibrium dissociation constant determined from the fluorescence quenching data are in excellent agreement with those determined previously for the native enzyme-ferricytochrome c complex at pH 6.0 by difference spectrophotometry (J. E. Erman and L. B. Vitello (1980) J. Biol. Chem. 225, 6224-6227). The binding of both ferri- and ferrocytochrome c to cytochrome c peroxidase was investigated at pH 7.5 as functions of ionic strength in phosphate/KNO3 buffers using the fluorescence quenching technique. The binding in independent of the redox state of cytochrome c between 10 and 20 mM ionic strength, but ferricytochrome c binds with greater affinity at 30 mM ionic strength and above.     

DNA polymerase alpha-primase from calf thymus. Determination of the polypeptide responsible for primase activity

Immunoaffinity-purified DNA polymerase alpha-primase complex from calf thymus consists of subunits with molecular weights of 148,000-180,000, 73,000, 59,000, and 48,000 (Nasheuer, H.-P., and Grosse, F. (1987) Biochemistry 26, 8458-8466). Primase activity was separated from the immobilized complex by washing extensively with 2 M KCl or, alternatively, by shifting to pH 11.5 in the presence of 1 M KCl. From both elution procedures, the primase activity was found to be associated with the polypeptides with molecular weights of 59,000 and 48,000. The specific activity, using either elution procedure, was 30,000 units/mg. Both polypeptides sedimented together at 5.7 S upon zonal centrifugation on a sucrose gradient. Primase activity was found in the flow-through fraction after DEAE-cellulose chromatography of the free primase. Analysis of this fraction by sodium dodecyl sulfate gel electrophoresis revealed only one band with a Mr of 48,000. Polyclonal antibodies were raised against the Mr 59,000 and 48,000 polypeptides. The anti-Mr 59,000 antibody affected the primase activity only marginally, whereas the anti-Mr 48,000 antibody inhibited the primase activity nearly completely. UV cross-linking of the DNA polymerase alpha-primase complex with alpha-32P-labeled GTP revealed a binding site at the Mr 48,000 polypeptide, but none at the other subunits of the complex. Taken together, these results suggest that the Mr 48,000 polypeptide bears the active site of the DNA primase activity. The Mr 59,000 polypeptide stabilizes the primase activity.     

Development of an off-line capillary column IMAC phosphopeptide enrichment method for label-free phosphorylation relative quantification

Immobilized metal affinity chromatography (IMAC) and metal oxide type affinity chromatography (MOAC) techniques have been widely used for mass spectrometry-based phosphorylation analysis. Unlike MOAC techniques, IMAC requires rather complete removals of buffering reagents, salts and high concentrations of denaturant prior to sample loading in order for the successful enrichment of phosphopeptides. In this study, a simple off-line capillary column-based IMAC phosphopeptide enrichment method can shorten sample preparation time by eliminating the speed-vac step from the desalting process. Tryptic digest peptide samples containing 2M urea can be directly processed and the entire IMAC procedure can be completed within 6 h. When tryptic digest peptide samples prepared from mouse whole brain tissues were analyzed using our method, an average of 249 phosphoproteins and 463 unique phosphopeptides were identified from single 2-h RPLC-MS/MS analysis (~88% specificity). An additional advantage of this method is the significantly improved reproducibility of the phosphopeptide enrichment results. When four independent phosphopeptide enrichment experiments were carried out, the peak areas of phosphopeptides identified among four enrichment experiments were relatively similar (less than 16.2% relative standard dev.). Because of this increased reproducibility, relative phosphorylation quantification analysis of major phosphoproteins appears to be feasible without the need for stable isotope labeling techniques.     

A 54 kDa cysteine protease purified from the crude extract of Neodiplostomum seoulense adult worms

As a preliminary study for the explanation of pathobiology of Neodiplostomum seoulense infection, a 54 kDa protease was purified from the crude extract of adult worms by sequential chromatographic methods. The crude extract was subjected to DEAE-Sepharose Fast Flow column, and protein was eluted using 25 mM Tris-HCl (pH 7.4) containing 0.05, 0.1, 0.2 and 0.4 M NaCl in stepwise elution. The 0.2 M NaCl fraction was further purified by Q-Sepharose chromatography and protein was eluted using 20 mM sodium acetate (pH 6.4) containing 0.05, 0.1, 0.2 and 0.3 M NaCl, respectively. The 0.1M NaCl fraction showed a single protein band on SDS-PAGE carried out on a 7.5-15% gradient gel. The proteolytic activities of the purified enzyme were specifically inhibited by L-trans-epoxy-succinylleucylamide (4-guanidino) butane (E-64) and iodoacetic acid. The enzyme, cysteine protease, showed the maximum proteolytic activity at pH 6.0 in 0.1 M buffer, and degraded extracellular matrix proteins such as collagen and fibronectin with different activities. It is suggested that the cysteine protease may play a role in the nutrient uptake of N. seoulense from the host intestine.     

一种适用于双向电泳的水稻磷酸化蛋白富集方法——酚提取法结合固相金属离子亲和层析法

磷蛋白在植物信号传导和胁迫响应中有着非常重要的作用,磷蛋白质组学研究已经成为蛋白质组学研究领域中备受瞩目的一个部分．本研究用酚提取法以水稻日本晴苗期叶片为材料提取叶片总蛋白,提取率达3.5%;用固相金属离子亲和层析柱纯化富集磷蛋白,得到磷蛋白占总蛋白约6.4%．对过柱洗涤液、不同阶段洗脱液等各个组分进行SDS-PAGE,粗略检测其蛋白含量,并根据单向SDS PAGE结果对总蛋白、高峰段磷蛋白、非高峰段磷蛋白以及富集后再纯化的总磷蛋白进行双向电泳,比较其中的蛋白差异．本研究提出的方法和程序可在7 cm聚丙烯酰胺凝胶上检测到多达856个磷蛋白,是一种非常有效的磷蛋白富集、纯化和分离鉴定的方法．     

Structural differences between the glucocorticoid, dioxin and oxysterol receptors from rat liver cytosol

The rat hepatic glucocorticoid, dioxin and oxysterol receptors were subjected to high performance liquid chromatography on size-exclusion and anion-exchange columns. Both the glucocorticoid receptor and the dioxin receptor had a Stokes radius Rs approximately 7.5 nm, expected value for heteromeric complexes containing a dimer of the Mr approximately 90,000 heat shock protein, hsp90 (Rs approximately 7.0 nm). The oxysterol receptor represented a much smaller entity (Rs approximately 6.0 nm). When analyzed on a Mono Q anion-exchange column, the molybdate-stabilized glucocorticoid receptor and dioxin receptor eluted as single peaks at approximately 0.30 M and 0.26-0.28 M NaCl, respectively, whereas the oxysterol receptor represented a less negatively charged species (0.11-0.14 M NaCl). Following washing of the Mono Q column with molybdate-free buffer, the activated monomeric glucocorticoid receptor was detected (0.10-0.12 M NaCl). In contrast, no modification in the elution pattern of the dioxin receptor and the oxysterol receptor was observed. These data demonstrate differences in the physico-chemical properties of the glucocorticoid, dioxin and oxysterol receptors, respectively, which might reflect structural differences.     

Nuclear proteins. VI. Fractionation of chromosomal non-histone proteins using hydrophobic chromatography.

Mouse liver non-histone proteins, isolated by hydroxyapatite chromatography, were fractionated by hydrophobic chromatography using omega-amino-decyl-agarose omega-amino butyl-agarose, decyl-agarose, butyl-agarose, phenyl-Sepharose, and CPAD-Sepharose. Two column loading techniques were used. In the 0.35 M NaCl technique, the proteins were dialized into 0.35 M NaCl, applied to the column and initially eluted with 0.35 M NaCl. In the 40% (NH4)2SO4 technique, the non-histone proteins were mixed with the hydrophobic agarose, dialized against 40% (NH4)2SO4, and initially eluted with 40% (NH4)2SO4. In both cases the columns were subsequently eluted with 10 mM Tris-HCl, pH 7.5, 0.35, 1.0 and 5.0 M LiBr, and finally with 1% sodium dodecyl sulfate. The 0.35 M NaCl technique, using decyl-agarose and phenyl-Sepharose, resulted in a single step marked enrichment of the major hnRNA proteins (1 M LiBr fraction). The 40% (NH4)2SO4 technique resulted in a single step isolation of a pair of 15-20 000 dalton polypeptides.     

Characterization of HIV-1 p24 self-association using analytical affinity chromatography.

Analytical affinity chromatography (AAC) was used to detect and quantitate the self-association of p24gag, the major structural capsid protein of human immunodeficiency virus (HIV-1). p24gag was immobilized on a hydrophilic polymer (methacrylate) chromatographic support. The resulting affinity column was able to interact with soluble p24, as judged by the chromatographic retardation of the soluble protein upon isocratic elution under nonchaotropic binding conditions. The variation of elution volume with soluble protein concentration fit to a monomer-dimer model for self-association. The soluble p24-immobilized p24 association process was observed using both frontal and zonal elution AAC at varying pH values; the dissociation constant was 3-4 x 10(-5) M at pH 7. That p24 monomer associates to dimers was determined in solution using analytical ultracentrifugation. The solution Kd was 1.3 x 10(-5) M at pH 7. AAC in the zonal elution mode provides a simple and rapid means to screen for other HIV-1 macromolecules that may interact with p24 as well as for modulators, including antagonists, of HIV p24 protein assembly.     

Purification of transferrins and lactoferrin using DEAE affi-gel blue

1. A simple method for purifying transferrins and lactoferrin is described. 2. The method consists of a preliminary step of dye-ligand chromatography using DEAE Affi-Gel Blue as the gel matrix at pH 7.5. In this chromatographic step, the transferrins and lactoferrin were readily separated from the bulk of the other proteins by start buffer elution. 3. Differences in the chromatographic behaviour of the various serum transferrins (monkey, human, rabbit, pig, chicken and duck) and ovotransferrin upon DEAE Affi-Gel Blue chromatography can be attributed to differences in the anionic charge of the transferrins in 0.02 M potassium phosphate buffer, pH 7.5, thus resulting in the differential retardation of these protein molecules by the gel matrix. 4. The result of DEAE Affi-Gel Blue chromatography of human lactoferrin is different from that for the transferrins. This may possibly reflect the differences in the strength of interaction between lactoferrin and transferrin with this gel matrix.     

A structural basis for four distinct elution profiles on concanavalin A--Sepharose affinity chromatography of glycopeptides.

Twelve 14C-acetylated glycopeptides have been subjected to affinity chromatography on concanvalin A (Con A)--Sepharose at pH 7.5. The elution profiles could be classified into four distinct patterns. The first pattern showed no retardation of glycopeptide on the column and was elicited with a glycopeptide having three peripheral oligosaccharide chains: (abstract:see text). Such glycopeptides have only a single mannose residue capable of interacting with Con A--Sepharose; an interacting mannose residue is either an alpha-linked nonreducing terminal residue or an alpha-linked 2-O-substituted residue. The second type of profile showed a retarded elution of glycopeptide with buffer lacking methyl alpha-D-glucopyranoside (indicative of weak interaction with the column) and was given by glycopeptides with the structures: (abstract: see text) where R1 is either H or a sialyl residue. The third profile type showed tight binding of glycopeptide to Con A--Sepharose and elution as a sharp peak with 0.1 M methyl alpha-D-glucopyranoside; glycopeptides giving this pattern had the structures: (abstract: see text) where R2 is either H, glcNAc, Gal-beta 1,4-GlcNAc, or sialyl-Gal-beta 1,4-GlcNAc. These glycopeptides all have two interacting mannose residues, the mimimum required for binding to the column; one of these mannose residues must, however, be a terminal residue to obtain tight binding and sharp elution. The fourth profile type showed tight binding of glycopeptide to the column but elution with 0.1 M methyl alpha-D-glucopyranoside resulted in a broad peak indicating very tight binding; glycopeptides showing this behaviour had the structures: (abstract: see text) where R3 is either GlcNAc,Gal-beta 1,4-GlcNAc, or sialyl-Gal-beta 1,4-GlcNAc.Therefore it can be concluded that although a minimum of two interacting mannose residues is required for binding to Con A--Sepharose, the residues linked to these mannoses can either strengthen or weaken binding to the column.     

Design of affinity tags for one-step protein purification from immobilized zinc columns

Affinity tags are often used to accomplish recombinant protein purification using immobilized metal affinity chromatography. Success of the tag depends on the chelated metal used and the elution profile of the host cell proteins. Zn(II)-iminodiacetic acid (Zn(II)-IDA) may prove to be superior to either immobilized copper or nickel as a result of its relatively low binding affinity for cellular proteins. For example, almost all Escherichia coli proteins elute from Zn(II)-IDA columns between pH 7.5 and 7.0 with very little cellular protein emerging at pH values lower than 7.0. Thus, a large portion of the Zn(II)-IDA elution profile may be free of contaminant proteins, which can be exploited for one-step purification of a target protein from raw cell extract. In this paper we have identified several fusion tags that can direct the elution of the target protein to the low background region of the Zn(II)-IDA elution profile. These tags allow targeting of proteins to different regions of the elution profile, facilitating purification under mild conditions.     

Optimization of Immobilized Gallium (III) Ion Affinity Chromatography for Selective Binding and Recovery of Phosphopeptides from Protein Digests

Although widely used in proteomics research for the selective enrichment of phosphopeptides from protein digests, immobilized metal-ion affinity chromatography (IMAC) often suffers from low specificity and differential recovery of peptides carrying different numbers of phosphate groups. By systematically evaluating and optimizing different loading, washing, and elution conditions, we have developed an efficient and highly selective procedure for the enrichment of phosphopeptides using a commercially available gallium(III)-IMAC column (PhosphoProfile, Sigma). Phosphopeptide enrichment using the reagents supplied with the column is incomplete and biased toward the recovery and/or detection of smaller, singly phosphorylated peptides. In contrast, elution with base (0.4 M ammonium hydroxide) gives efficient and balanced recovery of both singly and multiply phosphorylated peptides, while loading peptides in a strong acidic solution (1% trifluoracetic acid) further increases selectivity toward phosphopeptides, with minimal carryover of nonphosphorylated peptides. 2,5-Dihydroxybenzoic acid, a matrix commonly used when analyzing phosphopeptides by matrix-assisted laser desorption/ionization mass spectrometry was also evaluated as an additive in loading and eluting solvents. Elution with 50% acetonitrile containing 20 mg/mL dihydroxybenzoic acid and 1% phosphoric acid gave results similar to those obtained using ammonium hydroxide as the eluent, although the latter showed the highest specificity for phosphorylated peptides.     

Separation of ribosomal subunits of Escherichia coli by Sepharose chromatography using reverse salt gradient.

A mixture of 30 S and 50 S subunits quantitatively absorbs on a column of Sepharose--4B from the buffer: 0.02 M Tris--HCl, pH 7.5, containing 1.5 M (NH4)2SO4. During elution by reverse gradient of ammonium sulphate (1.5--0.05 M) the subunits are eluted at different salt concentrations. Complete separation of subunits is attained in the absence of Mg2+ ions. The 30 S subunits prepared from 70 S ribosomes according to this procedure are fully active in the codon--dependent binding of a specific aminoacyl--tRNA. After their reassociation with 50 S subunits isolated by zonal centrifugation, the resulting 70 S ribosomes are active in polypeptide synthesis at the same degree as control 70 S ribosomes in which both types of subunits were prepared by zonal centrifugation. The initial 70 S ribosomes for the chromatographic separation into subunits can be obtained by their pelleting from a crude extract with subsequent washing with concentrated solutions of NH4Cl in the ultracentrifuge, or by salt fractionation of the crude extract according to a slightly modified procedure of Kurland.