Residues flanking the COOH-terminal C-region of a model eukaryotic signal peptide influence the site of its cleavage by signal peptidase and the extent of coupling of its co-translational translocation and proteolytic processing in vitro

The polar, COOH-terminal c-region of signal peptides has been considered to be most important for influencing the efficiency and fidelity of signal peptidase cleavage while the hydrophobic core or h-region appears indispensable for initiating translocation. To identify structural features of residues flanking the c-region that influence the fidelity and efficiency of signal peptidase cleavage as well as co-translational translocation, we introduced six amino acid substitutions into the COOH terminus of the hydrophobic core and seven substitutions at the NH2 terminus of the mature region (the +1 position) of a model eukaryotic preprotein-human pre(delta pro)apoA-II. This preprotein contains several potential sites for signal peptidase cleavage. The functional consequences of these mutations were assayed using an in vitro co-translational translocation/processing system and by post-translational cleavage with purified, detergent-solubilized, hen oviduct signal peptidase. The efficiency of translocation could be correlated with the hydrophobic character of the residue introduced at the COOH terminus of the h-region. Some h/c boundary mutants underwent co-translational translocation across the microsomal membrane with only minimal cleavage yet they were cleaved post-translationally by hen oviduct signal peptidase more efficiently than other mutants which exhibited a high degree of coupling of co-translational translocation and cleavage. These data suggest that features at the COOH terminus of the h-domain can influence "presentation" of the cleavage site to signal peptidase. The +1 residue substitutions had minor effects on the extent of co-translational translocation and processing. However, these +1, as well as h/c boundary mutations, had dramatic effects on the site of cleavage chosen by signal peptidase, indicating that residues flanking the c-region of this prototypic eukaryotic signal peptide can affect the fidelity of its proteolytic processing. The site(s) selected by canine microsomal and purified hen oviduct signal peptidase were very similar, suggesting that "intrinsic" structural features of this prepeptide can influence the selectivity of eukaryotic signal peptidase cleavage, independent of the microsomal membrane and associated translocation apparatus.     

Hen oviduct signal peptidase is an integral membrane protein

Membrane preparations from rough endoplasmic reticulum of hen oviduct resemble those of dog pancreas in their capacity to translocate nascent secretory proteins into membrane vesicles present during cell-free protein synthesis. As with the dog membranes, the precursor form of human placental lactogen is transported into the vesicles and processed to the native secretory form by an associated "signal peptidase." The oviduct microsomal membranes glycosylate nascent ovomucoid and ovalbumin in vitro. Attempts to extract the signal peptidase from these membrane vesicles revealed that it is one of the least easily solubilized proteins. A protocol for enrichment of signal peptidase was developed that took advantage of its tight association with these vesicles. These studies indicate that the enzyme has the characteristics of an integral membrane protein which remains active in membrane vesicles even after extraction with low concentrations of detergent that do not dissolve the lipid bilayer or after disruption of membrane vesicles in ice-cold 0.1 M Na2CO3, pH 11.5 (Fujiki, Y., Hubbard, A. L., Fowler, S., and Lazarow, P.B. (1982) J. Cell Biol. 93, 97-102), which releases the majority of membrane-associated proteins. Solubilization requires concentrations of nondenaturing detergents that totally dissolve the lipid bilayer. The detergent-solubilized enzyme retains the activity and the characteristic specificity of the membrane-bound form.     

牛脑中神经特异性S-100蛋白的纯化及鉴定

牛脑充分匀浆后经三次硫酸铵分级沉淀,再通过一次DEAE-Sepharose CL-6B层析柱,线性梯度洗脱后共收集4个峰洗脱液。PAGE分析(7.5％凝胶)显示第3峰为单一区带;免疫双扩散证实该洗脱液中蛋白为S-100蛋白。SDS-PAG E分析显示S-100蛋白分子量约为10kD;非还原条件下,凝胶过滤(Sephadex G-75)显示S-100蛋白位于MW为20kD区域。认为该纯化方法简便、快速,可获得较高纯度的S-100蛋白,活性高达1∶128以上,完全能满足进一步研究之用。     

Synthetic substrate for eukaryotic signal peptidase. Cleavage of a synthetic peptide analog of the precursor region of preproparathyroid hormone

A synthetic peptide analog of the precursor region of preproparathyroid hormone has been shown to be a specific substrate for hen oviduct signal peptidase. The sequence of the 31-residue peptide is Ser-Ala-Lys-Asp-norleucine (Nle)-Val-Lys-Val-Nle-Ile-Val-Nle-Leu-Ala-Ile-Ala-Phe-Leu-Ala-Arg-Ser-As p-Gly-Lys-Ser-Val-Lys-Lys-Arg-D-Tyr-amide (Caulfield, M. P., Duong, L. T., O'Brien, R., Majzoub, J. A., and Rosenblatt, M. (1988) Mol. Endocrinol. 2, 452-458). This sulfur-free signal peptide analog can be labeled with 125I on the C-terminal D-tyrosine and is cleaved by purified hen oviduct signal peptidase between Gly and Lys, the correct site of cleavage of preproparathyroid hormone in vivo. Amino acid sequence analysis of the cleavage product released 125I at the seventh cycle of Edman degradation, confirming that enzymatic cleavage occurs at the physiological site. Synthetic peptide analogs of the substrate with Lys, Pro, or Asp substituted for Nle-18 were poor substrates for the enzyme and were also poor competitive inhibitors of catalysis, suggesting that modifications at position -18, 12 amino acids from the site of cleavage, directly influence binding by the enzyme. Analysis of the reactivity of signal peptidase with these synthetic peptides provides insight into the cleavage specificity requirements of this eukaryotic signal peptidase.     

Purification and characterization of microsomal triglyceride and cholesteryl ester transfer protein from bovine liver microsomes

A lipid transfer protein was isolated from bovine liver. Following the release of soluble proteins from liver microsomes, the transfer protein was purified 75-fold to near homogeneity by a combination of DEAE-cellulose ion exchange, Sephadex G-200 gel permeation, and hydroxylapatite chromatography. About 7% of the original activity was recovered. The purified fraction promoted the transfer of triglyceride, cholesteryl ester, phosphatidylcholine, and phosphatidylethanolamine. When the fractional rates of lipid transfer were compared, the transfer of apolar lipids was over 10 times faster than that of phospholipid. The purified transfer complex contained less than 5% lipid. No carbohydrate was detected. Electrophoresis of the purified protein on polyacrylamide gels under non-denaturing conditions showed a single band. Elution of protein from slices of unstained gels showed that lipid transfer activities coincided with the position of the protein band on the stained gel. When the purified protein was electrophoresed in the presence of SDS, two bands, accounting for more than 95% of the staining density, were observed with molecular weights at 58 000 and 88 000. The purified transfer protein eluted from a Sephadex G-200 column at a position corresponding to a protein with a molecular weight of 220 000, which probably represents a complex of two or more polypeptides. The purified transfer protein was activated by increasing NaCl concentrations up to about 100 mM. At higher NaCl concentrations the transfer activity decreased. Maximal transfer activities were observed at pH 7. The protein was inactivated by heating above 50 degrees C. The transfer rates were not greatly increased by changing the assay temperatures between 20 degrees C and 50 degrees C. These activity characteristics of the transfer protein were the same whether triglyceride or cholesteryl ester transfer activities were measured.     

Isolation and partial characterization of a cystine-rich basic heparin-binding protein from bovine platelets

We report the isolation and partial characterization of a so far unidentified basic platelet protein. Delipidated bovine platelets were extracted at pH 2.1. The extract was subjected to differential precipitation at pH 5.4-5.5 and by ammonium sulfate, then it was further purified by ion exchange chromatography on DEAE and CM cellulose columns in an urea containing medium. The major protein peak eluted from the CM cellulose column by NaCl gradient contained a protein in electrophoretically homogeneous form. It consists of a single polypeptide chain with an Mr of 28,000 as estimated by SDS PAGE. It was shown to be extremely rich in lysine and cystine and possessed a highly basic character (pI 9.8-10.1). On this basis the term cystine-rich basic protein (CRBP) was proposed for the new protein. Unlike some other low Mr basic proteins it did not bind calmodulin and troponin C, however, it showed significant heparin neutralizing activity.     

Purification of several bacteriolytic enzymes by affinity chromatography on lysozyme-lysate of Micrococcus lysodeikticus cell wall coupled with sepharose.

Using lysozyme-lysate of Micrococcus lysodeikticus cell wall coupled with Sepharose, several bacteriolytic enzymes were purified from crude preparations of animal and microbial origin. Quail egg-white, human milk and salivary lysozymes [EC 3.2.1.17] were adsorbed onto the adsorbent at pH 5-7 and eluted with 2M NaCl at pH 10. By means of these treatments, lysozymes were purified 20-250 fold with activity recoveries of 60-80%, and the quail lysozyme thus purified was shown to be discelectrophoretically homogeneous. Some bacteriolytic enzymes of microbial origin were also highly purified by using this affinity adsorbent. A bacterial lysozyme from Bacillus sp. ML-208 showed high affinity for the ligand and was not eluted under the conditions mentioned above, but was recovered by elution with 2M guanidine-HCl at pH 5.8, resulting in a 500-fold increase in the specific activity. A Pseudomonas-lytic enzyme from Streptomyces sp. P-51 was easily released from the adsorbent by elution with 0.5M NaCl at pH 5.0. A staphylolytic F2 enzyme from S. griseus S-35 and a chitinase [EC 3.2.1.14] from yam, both of which were completely inert toward M. lysodeikticus cell wall, passed through the adsorbent column. A modified ligand, in which muramic acid and glucosamine residues were N,O-acetylated, failed to adsorb any of these animal and bacterial lysozymes. Some of the enzymatic properties and bacteriolytic action spectra of these purified enzymes are also described in this paper in comparison with those of hen egg-white lysozyme.     

Parallel effects of signal peptide hydrophobic core modifications on co-translational translocation and post-translational cleavage by purified signal peptidase

The length of the hydrophobic core of the bovine parathyroid hormone signal peptide was modified by in vitro mutagenesis. Extension of the hydrophobic core by three amino acids at the NH2-terminal end had little effect on the proteolytic processing of the signal peptide by microsomal membranes. Deletion of 6 of the 12 amino acids in the core eliminated translocation and processing of the modified protein. Deletion of pairs of amino acids across the core resulted in position-dependent inhibition of signal activity unrelated to hydrophobicity but inversely related to the hydrophobic moments of the modified cores. Deletions in the NH2-terminal region of the core were strongly inhibitory for proteolytic processing whereas deletions in the COOH-terminal region had no effect or increased processing when assessed either co-translationally with microsomal membranes or post-translationally with purified hen oviduct signal peptidase. Deletion of cysteine 18 and alanine 19 increased processing, but deletion of cysteine alone or substitution of leucine for cysteine did not increase processing more than deletion of both residues at 18 and 19. Translations of the translocation-defective mutants with pairs of amino acids deleted in a wheat germ system were inhibited by addition of exogenous signal recognition particle suggesting that interactions of the modified signal peptides with signal recognition particle were normal. The position-dependent effects of the hydrophobic core modifications indicate that structural properties of the core in addition to hydrophobicity are important for signal activity. The parallel effects of the modifications on co-translational translocation and post-translational processing by purified signal peptidase suggest that proteins in the signal peptidase complex might be part of, or intimately associated with, membrane proteins involved in the translocation. A model is proposed in which the NH2-terminal region of the hydrophobic core binds to one subunit of the signal peptidase while the other subunit catalyzes the cleavage.     

Preparation and characterization of polyclonal and monoclonal antibodies against human aromatase cytochrome P-450 (P-450AROM), and their use in its purification

Aromatase cytochrome P-450 (P-450AROM) was partially purified from human placental microsomes by hydrophobic affinity chromatography using Phenyl-Sepharose and ion-exchange chromatography on DEAE-cellulose. The resulting preparation had a specific activity of 2 nmol/mg protein with respect to cytochrome P-450 content and displayed a type I difference spectrum upon addition of the substrate androstenedione. When the cytochrome P-450-enriched fractions were subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis and stained with Coomassie blue, there was an enrichment of two proteins having apparent molecular weights of 50,000 and 55,000. The bands containing these proteins were removed from unstained polyacrylamide gels and injected separately or together into three rabbits. An aliquot of the serum or an immunoglobulin (IgG) fraction prepared from the serum of the rabbit injected with the 55-kDa band or with both the 50- and 55-kDa bands inhibited aromatase activity of human placental microsomes by 80%; this IgG had no effect on 17 alpha-hydroxylase or 21-hydroxylase activities of human fetal adrenal microsomes. In contrast, the serum of the rabbit injected with the 50-kDa band had little capacity to inhibit placental aromatase activity. By immunoblot analysis, it was found that the IgG from the serum of the rabbit immunized with the 55-kDa protein bound specifically to a protein of 55 kDa in human placental microsomes. Monoclonal antibodies were prepared from a hybridoma cell line derived from the spleen cells of mice immunized against the 55-kDa protein. The monoclonal IgG was covalently linked to a Sepharose 4B column and was used for immunoaffinity chromatography of cytochrome P-450AROM. The finding that cytochrome P-450 and the 55-kDa protein were selectively retained by the affinity column and eluted with NaCl (2 M) and glycine (0.2 M, pH 3.0) and that this fraction contained aromatase activity upon reconstitution with purified NADPH-cytochrome P-450 reductase and phospholipid, is indicative that the 55-kDa protein is indeed cytochrome P-450AROM. These findings are also indicative that both the monoclonal and polyclonal IgGs are specific for human cytochrome P-450AROM.     

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.     

Rapid assay and purification of a unique signal peptidase that processes the prolipoprotein from Escherichia coli B

A simple and accurate assay for prolipoprotein signal peptidase activity has been described that is based on the solubility of the signal peptide in 80% acetone. The unprocessed precursor and the mature form of the lipoprotein are quantitatively recovered in the precipitate. The signal peptide, from the acetone supernatant utilizing the purified signal peptidase, contains labeled methionine at its NH2 terminus and has Mr = 2200 (S.E. = 69). A specific signal peptidase that processes the modified form of Braun's prolipoprotein to its correct mature form has been purified. This enzyme is globomycin sensitive and has been purified 35,000-fold from the membranes of Escherichia coli by extraction at pH 4.0 with 2% Triton X-100 and heating, followed by conventional column chromatography at room temperature. This prolipoprotein signal peptidase has a pH optimum at 6.0, is not inhibited by EDTA, and requires 1 mM dithiothreitol for stability. The monomer molecular weight of this specific signal peptidase is 17,800 (S.E. = 900) as determined by sodium dodecyl sulfate-gel electrophoresis.     

Chromatographic Separation and Purification of Secretory IgA from Human Milk

Defatted and decaseinated human milk was concentrated and was fractionated on a preparative DEAE cellulose column. Elution with various concentrations of sodium chloride in Tris-HCl buffer (pH 8.0, 0.01 M) resulted in fractions that were rich in either secretory immunoglobulin A (SIgA) (0.1 M Nad) or free secretory component (SC) (0.05 M NaCl). The fractions, which were eluted with 0.10 M NaCl from the preparative column, were further fractionated on a G-200 Sephadex column. Repeated fractionation on this column resulted in a single purified fraction, which contained very high SIgA activity and showed immunological cross-reaction with both SC and serum IgA. Additional studies indicated that this fraction was homogeneous as shown by immunoprecipitin and disc gel electrophoresis. Injection of this purified SIgA into rabbits resulted in the production of monospecific antiscil.     

Isolation and Purification of ABA Binding Protein from Abaxial Epiderm of Vicia faba Leaf

Abscisic acid (ABA) was efficiently cross-linked to Sepharose 4B (6 ~8 mmol ABA/L gel) by an ann of 10-atom carbon chain. Solubilized ABA-BP (ABA binding protein) was allowed to bind to the gel, while unrelated proteins were removed by washing with a gradient of NaC1 buffer. The ABA-BP was eluted with 1 mmol/L ABA. Since ABA at high concemration can interfere with both the binding activity assay and protein analysis, the fractions eluted with ABA were passed through a Sephadex G-25 column to remove the ABA. Fractions containing the binding activity were pooled, concentrated with uhm-fihration. The maximum binding capacity (BMAX) of the purified ABA-BP was 58.33 nmol/g protein, and the Kd was 21 nmol/L, with an approximately 112 folds increase of purity. SDS-PAGE identification of the purified ABA-BP revealed a major protein band with a molecular weight of about 44.2 kD, and a purity of approximately 90 %.     

Mammalian signal peptidase: partial purification and general characterization of the signal peptidase from microsomal membranes of porcine pancreas

Signal peptidase has been enriched extensively from microsomal membranes of porcine pancreas. Microsomal membranes were washed with 1 M KCl and Brij 35, and then solubilized with 1% Nonidet P-40. The solubilized signal peptidase was purified by DEAE-cellulose chromatography and Sepharose CL-6B filtration. Cleavage of pre-human placental lactogen with the partially purified enzyme gave the mature form, whose NH2-terminus was identified as valine. The signal peptidase is heat-labile and approximately 90% of the enzymatic activity was lost at 60 degrees C within 1 min. The pH optimum of the activity was 7 to 8. Chymostatin and o-phenanthroline at concentrations of 2.5 mM inhibited the signal peptidase activity by 62% and 30%, respectively.     

Purification of phospholipase C from Bacillus cereus by hydrophobic chromatography on palmitoyl cellulose.

Phospholipase C (phosphatidylcholine choline-phosphohydrolase, EC 3.1.4.E) from Bacillus cereus (IAM-1208) was adsorbed to palmitoyl cellulose from a crude enzyme solution at pH 5--9. The adsorption was not influenced by ionic strength up to 2 M NaCl. The adsorbed enzyme was eluted almost completely by washing the cellulose with a suitable detergent, such as Triton X-100, Adekatol SO-120, Cation DT-205, or sodium deoxycholate. The enzyme was then purified by column chromatography on a palmitoylated textile (palmitoylated gauze) with an overall recovery of 91% and a 467-fold increase in specific activity over that of enzyme in the crude culture supernatant. Subsequent fractionation with acetone and chromatography on a Sephadex G-75 column separated two nearly homogeneous phospholipase C's. The enzyme adsorbed on palmitoyl cellulose was active, although its activity was about one-fourth that of free phospholipase C. Therefore, the enzyme appeared to be adsorbed to the cellulose through a hydrophobic site that was distinct from the catalytic site on the enzyme molecule.     

Improved Method for Prufication of 2'',3''-Cyclic Nucleotide 3''-Phosphohydrolase from Bovine Cerebral White Matter

Abstract: An improved procedure of the solubilization and purification of 2′,3′-cyclic nucleotide 3′-phosphohydrolase (CNPase) from bovine cerebral white matter is reported. To remove easily extractable protein, the tissue was homogenised in 10 vol. of 0.5 M-ammonium acetate containing 10 mM-Tris. HCI, pH 6.9, at 4°C and centrifuged at 105,000 g for 60 min. The precipitate was extracted with 10 vol. of 0.5% Triton X-100 containing 10 mM-Tris. HCI, pH 6.9, and centrifuged, By this extraction, over 70% soluble protein could be removed in the supernatant and most CNPase activity was kept in the precipitate. The precipitate was extracted with 10 vol. of 1% Triton X-100 and 1 M-ammonium acetate mixture containing 10 mM-Tris.HCI, pH 8.2, and centrifuged at 105,000 g for 60 min. The extract contained 54% of CNPase and the specific activity was fivefold that of the original homogenate. Subsequently, the extractions were carried out with 2% Triton X-100-2 M-ammonium acetate and 4% Triton X-100-4 M-ammonium acetate at pH 8.2. The recovery of CNPase was found to be nearly 90% from the original homogenate, without loss of enzyme activity during extraction, while much CNPase activity was lost when guanidinium chloride was used as the extraction medium. Using the Triton X-100-ammonium acetate extract, several column chromatography techniques were applied to purify the enzyme. In the first step, Phenyl-Sepharose CL-4B column chromatography was performed by eluting with a double-linear gradient of ammonium acetate and Triton X-100. In the second step, the fraction containing CNPase after Phenyl-Sepharose CL-4B column chromatography was applied to a Sepharose 6B column and the enzyme was eluted with 1% Triton X-100- I M-ammonium acetate, pH 8.2. The peak containing CNPase was applied to CM-Sepharose CL-6B column chromatography in the final step. The enzyme was eluted with a linear gradient of KCI. In this step, CNPase eluted as a sharp peak and the specific activity was approximately 2300 pmol 2′-AMP formed/min/mg protein. The recovery of CNPase from the original homogenate was about 50%. By the isoelectrofocusing technique, the pI of CNPase was found to be 8.6. When Reisfeld polyacrylamide gel electrophoresis and SDS-polyacrylamide gel electrophoresis were carried out on the purified CNPase, only one protein band, corresponding to CNPase activity, was detected. Its molecular weight was estimated to be approximately 51,000 as the active enzyme form. K, value of the purified enzyme for 2′,3′-CAMP calculated from a Lineweaver-Burk plot was 3.13 mM.     

Multiple aflatoxin B1 binding proteins exist in rat liver cytosol

The in vitro binding of aflatoxin B1 to rat liver cytosolic proteins was investigated. Aflatoxin B1 binding activity was assayed with protein purified by gel permeation chromatography, ammonium sulfate fractionation, and DEAE-cellulose chromatography. Twenty-five percent of the total binding activity was associated with proteins eluted by 0 and 0.1 M NaCl. Over 50% of the total binding activity was associated with protein present in the 0.2 M NaCl fraction. Glutathione S-transferase activity was also monitored and found only in the low salt (less than 0.2 M NaCl) fractions. The proteins eluted by 0.2 M NaCl were further purified by hydroxylapatite column chromatography and binding was found predominantly in a single fraction. The protein purification steps resulted in a 20-fold increase in the specific binding activity over that initially observed in the cytosol. These results indicate that multiple proteins are capable of binding aflatoxin B1 in rat liver cytosol.     

极端嗜热古菌——芝田硫化叶菌DNA解旋酶的分离纯化和性质研究

采用Qsepharose离子交换层析、磷酸纤维素P1 1吸附层析、肝素琼脂糖吸附层析、Su perdex 2 0 0凝胶过滤和PhenylSuperose疏水层析等步骤 ,从嗜酸热芝田硫化叶菌细胞裂解液中分离纯化了一个DNA解旋酶。该解旋酶具有受DNA激活的ATP酶活性。根据SDS PAGE测定结果 ,该酶的分子质量约为 63kD。芝田硫化叶菌DNA解旋酶可以解开底物上 70bp的双链区 ,其解旋活性依赖于双链区旁的单链分叉。该解旋酶的活性依赖于Mg2 + 和ATP的水解 ,在NaCl浓度超过 2 0 0mmol L时受到抑制。该酶的最适pH为 6 7。该酶在 40℃～ 80℃之间均有活性 ,70℃时活性最高。芝田硫化叶菌DNA解旋酶是从古菌中分离得到的第一个天然DNA解旋酶。     

Is phospholipid a required cofactor for the activity of mammalian signal peptidase?

To determine whether phospholipid is required for the activity of mammalian signal peptidase, the enzyme was partially purified from porcine pancreas and then extensively freed of phospholipid by SP-Sephadex C-50 chromatography. The delipidated enzyme showed signal peptidase activity, with a low concentration of detergent. Phospholipid was found to release the enzyme from the inhibition due to excess detergent.     

Effects of histone acetylation on nucleosome properties as evaluated by polyacrylamide gel electrophoresis and hydroxylapatite dissociation chromatography

The release of acetylated histones from chick oviduct chromatin was analyzed by hydroxylapatite column chromatography. By raising of the NaCl concentration, acetylated histones were eluted from hydroxylapatite-bound chromatin depending on their release from nucleosomal DNA. Electrophoresis on acid-urea gel showed that hyperacetylated forms of histone H4 were eluted at a lower NaCl concentration than non-acetylated or hypoacetylated H4, suggesting that hyperacetylated H4 has decreased stability in nucleosomes. However, under milder ionic conditions which do not induce dissociation between histones and DNA, polyacrylamide gel electrophoresis of purified nucleosome cores showed no evidence for their unfolding or for increased accessibility by high mobility group protein-17.