Specific degradation of histones H1 and H3

It is shown that acid treated histones H1 and H3 are susceptible to specific degradation by an associated acid resistant protease. Dialysis against distilled water (pH 5.5–6) of the acid treated histones enhances proteolysis. On the other hand, no degradation is observed in nucleohistone either in the presence of Ca⁺⁺ or Na⁺⁺ ions. The conditions required to avoid degradation during nucleohistone and histone manipulation are described.     

Rapid isolation of metaphase chromosomes containing high molecular weight DNA

Normal rat kidney cells were cultured in medium supplemented with normal fetal bovine serum (FBS) or FBS depleted of fibronectin. The cell surface fibronectin of these cultures was visualized by indirect immunofluorescence using species-specific antisera for either rat fibronectin or bovine fibronectin. Anti-rat-fibronectin revealed fibrillar structures on the cells grown in either normal medium or fibronectin-depleted medium. Anti-bovine fibronectin revealed similar fibrillar networks, but only on the cells grown in medium containing bovine fibronectin. Staining in each case was abolished by absorption with the homologous antigen. It appears that exogenous fibronectin was incorporated into the same structures as endogenous fibronectin. This finding suggests that circulating fibronectin may serve as a building block for the assembly of extracellular matrix, possibly by cells which are incapable of synthesizing it.     

Nucleosomes in metaphase chromosomes.

Previous studies of the structure of metaphase chromosomes have relied heavily on electron micrography and have revealed the existence of a 10-nm unit fiber that is thought to generate the native 23-30-nm fiber by higher order folding. The structural relationship of these metaphase fibers to the interphase fiber remains obscure. Recent studies on the digestion of interphase chromatin have revealed the existence of a regularly repeating subunit of DNA and histone, the nucleosome that generates the appearance of 10-nm beads connected by a short fiber of DNA seen on electron micrographs. It was therefore of interest to probe the structure of the metaphase chromosome for the presence of nucleosomal subunits. To this end metaphase chromosomes were prepared from colchicine-arrested cultures of mouse L-cells and were subjected to digestion with stayphylococcal nuclease. Comparison of the early and limit digestion products of metaphase chromosomes with those obtained from interphase nuclei indicates that although significant morphologic changes occur within the chromatin fiber during mitosis, the basic subunit structure of the chromatin fiber is retained by the mitotic chromosome.     

Technique for isolation and purification of metaphase chromosomes of KB cells]

Metaphase chromosomes were isolated from KB cells according to Salzman and Mendelsohn's method. Whole-mount electronic microscopic preparations of chromosomes in situ, after isolation and after purification showed that the morphological patterns of this material are preserved in spite of physical and chemical treatments (pH 3).     

Identification of isolated metaphase chromosomes. II. A comparison with the recognizability of chromosomes in metaphase plates

The metaphase chromosomes (MC) isolated from the Chinese hamster cells were identified with the aid of differential staining (G-bands). It was shown that differences in the relative recognizability of MC in metaphase plates and after their isolation are determined by changes in composition of isolated MC, rather than by those in staining capacity of MC after their isolation. The frequencies of identified MC are constant and independent upon the type of MC preparations and relation between identified and unidentified MC in certain preparations. At allows to apply the described method for the analysis of chromosome fractionation, using changes in frequencies of identified MC as a criterion of efficiency of the fractionation method. Possible ways of increasing the recognizability level of isolated MC are discussed.     

Distribution of the core histones H2A.H2B.H3 and H4 during cell replication.

The distribution of newly synthesized core histones H2A, H2B, H3 and H4 relative to the DNA strand synthesized in the same generation has been examined in replicating Chinese Hamster ovary cells. Cells are grown for one generation in [14C]-lysine and thymidine, and then for one generation in [3H]-lysine and 5-bromodeoxyuridine (BrUdRib) and a further generation in unlabeled lysine and thymidine. This protocol produces equal amounts of unifilarly substituted and unsubstituted DNA. Monomer nucleosomes isolated from chromatin containing these two types of DNA can be distinguished by crosslinking with formaldehyde and banding to equilibrium in CsCl density gradients. The results indicate that the core histones are equally distributed between the two types of DNA. These findings are discussed in terms of current models for chromatin replication; they do not support any long term association of newly replicated histones with either the leading or lagging side of the replication fork.     

Origin of H1 linker histones.

In which taxa did H1 linker histones appear in the course of evolution? Detailed comparative analysis of the histone H1 and histone H1-related sequences available to date suggests that the origin of histone H1 can be traced to bacteria. The data also reveal that the sequence corresponding to the 'winged helix' motif of the globular structural domain, a domain characteristic of all metazoan histone H1 molecules, is evolutionarily conserved and appears separately in several divergent lines of protists. Some protists, however, appear to have only a lysine-rich basic protein, which has compositional similarity to some of the histone H1-like proteins from eubacteria and to the carboxy-terminal domain of the H1 linker histones from animals and plants. No lysine-rich basic proteins have been described in archaebacteria. The data presented in this review provide the surprising conclusion that whereas DNA-condensing H1-related histones may have arisen early in evolution in eubacteria, the appearance of the sequence motif corresponding to the globular domain of metazoan H1s occurred much later in the protists, after and independently of the appearance of the chromosomal core histones in archaebacteria.     

The role of histones H3 and H1 in the formation of thymine-lysine cross-links during UV-irradiation of deoxyribonucleoprotein

The effect of UV light (lambda = 254 nm) on calf thymus DNP at low ionic strengths was studied. It was found that at the irradiation doses used the protein in the DNA-protein complex increases as the irradiation dose rises. Thermal treatment and acid hydrolysis resulted in a predominant release of histones H3 and H1 from the complex. Data from liquid high performance chromatography, amino acid analysis, thin-layer chromatography point to the induction by UV-light of a thymine-lysine bond, whose formation involves DNA thymines and histone lysine residues, predominantly H3 and H1 fractions.     

A high-yield procedure for isolation of metaphase chromosomes from root tips ofVicia faba L.

A new method is described for the isolation of large quantities of Vicia faba metaphase chromosomes. Roots were treated with 2.5 mM hydroxyurea for 18 h to accumulate meristem tip cells at the G₁/S interface. After release from the block, the cells re-entered the cell cycle with a high degree of synchrony. A treatment with 2.5 M amiprophos-methyl (APM) was used to accumulate mitotic cells in metaphase. The highest metaphase index (53.9%) was achieved when, 6 h after the release from the hydroxyurea block, the roots were exposed to APM for 4 h. The chromosomes were released from formaldehyde-fixed root tips by chopping with a scalpel in LB01 lysis buffer. Both the quality and the quantity of isolated chromosomes, examined microscopically and by flow cytometry, depended on the extent of the fixation. The best results were achieved after fixation with 6% formaldehyde for 30 min. Under these conditions, 1 · 10⁶ chromosomes were routinely obtained from 30 root tips. The chromosomes were morphologically intact and suitable both for high-resolution chromosome studies and for flow-cytometric analysis and sorting. After the addition of hexylene glycol, the chromosome suspensions could be stored at 4° C for six months without any signs of deterioration.Abbreviations APM amiprophos-methyl - DAPI 4,6-diamidino-2-phenylindole The authors thank Mrs. Jiina Eliáová for her excellent technical assistance and Dr. Slavomir Ondro for the supply of V. faba seeds. A gift sample of APM from the Mobay Corporation (Agricultural Chemicals Division, Kansas City, Mo., USA) is gratefully acknowledged.     

Proteins of metaphase chromosomes and interphase chromatin.

Metaphase chromosomal and interphase chromatin proteins from cells of two species have been compared by polyacrylamide gel electrophoresis. Consistent, common changes in the quantitative distribution of the nonhistone chromosomal proteins are observed in both species. Proteins of ca. 65,000 and 68,000 MW are enriched in interphase chromatin while proteins of ca. 50,000 and 200,000 are more prominent components of metaphase chromosomes. A group of proteins of 90,000-100,000 are also increased in metaphase chromosomes compared to interphase chromatin. By two dimensional gel analysis, the most abundant proteins from chromosomes of both cell types are similar, suggesting a structural role for these nonhistone proteins (1).     

Isolated metaphase chromosomes. II. Proteins of Chinese hamster chromosomes.

The proteins on metaphase chromosomes theoretically may be distributed ubiquitously throughout the karyotype, may be present uniquely on individual chromosomes or classes of chromosomes, or may exist in any combination of the above. Separation of chromosomes according to size using sucrose velocity gradients in high capacity zonal centrifuge rotors allows sufficient fractionation of the genome to indicate the distribution of proteins within the karyotype. Flow cytometric analysis and direct microscopic analysis were used to evaluate qualitatively the types of chromosomes present in the fractions obtained. This report is the first quantitative evidence that some of the chromosomal proteins are not distributed ubiquitously on all of the chromosomes of the karyotype.     

Dephosphorylation of L-pyruvate kinase during rat liver hepatocyte isolation

In isolated rat liver cells, the inhibition of L-pyruvate kinase (L-PK) by a cyclic AMP-dependent phosphorylation mechanism is involved in the hormonal control of glycolysis and gluconeogenesis. The aim of this study was to ascertain whether or not the in vivo phosphorylation state of the enzyme was maintained during the liver perfusion used to prepare isolated liver cells. When the L-PK phosphorylation state was studied indirectly in liver extracts by kinetic measurement, it was found that, during the perfusion, the S0.5 of phosphoenol pyruvate (PEP) for L-PK was decreased in a time-dependent manner from 1 +/- 0.08 to 0.64 +/- 0.1 mM (P less than 0.01) and 0.58 +/- 0.06 mM in liver cells. This shift was prevented only by the addition of glucagon to the perfusion medium. The extent of phosphorylation of L-PK was also estimated by incubation of the liver extract with [gamma-32P]ATP, protein kinase, and cyclic AMP, and measurement of 32Pi incorporated in L-PK by specific immunoprecipitation. In liver extracts removed at the beginning of the perfusion, 0.4 mol Pi/mol L-PK was incorporated and there was no stimulation by cyclic AMP. In contrast, in the liver extracts removed after 30 min of perfusion, cyclic AMP stimulated 32P incorporation two to threefold, and 1.6 mol Pi/mol L-PK was incorporated. These data suggest that L-PK was activated by a dephosphorylation mechanism during rat liver perfusion. This phenomenon could be involved in the classical inactivation of gluconeogenesis observed in the perfused rat liver model.     

Footprinting of linker histones H5 and H1 on the nucleosome.

DNase I has been used to footprint the linker histones H5 and H1 on the nucleosome of chicken erythrocyte chromatin. Rate constants have been derived for digestion at the principal sites of attack on chromatosome length DNA (168 bp), located about 10 bp apart, and compared with those observed for linker histone-depleted chromatosomes. Complete protection was found for site S7 on the dyad axis and decreasing partial protection seen at symmetrically positioned sites on each side of S7. Strong, but not complete protection was noted at S14, the site corresponding to the end of the core particle, situated less than 1/4 of a turn away from the dyad. Uniform partial protection was observed for sites S2, S3, S4 and S10, S12 on the far side of the chromatosome. The simplest interpretation of these results is that the globular domain of H5/H1 is responsible for the protection at S7, whilst extended N- and C-domains give rise to the partial protection at sites away from the dyad axis.     

Immunoelectronmicroscopy of metaphase chromosomes

Summary A method for the preparation of ultrathin sections of metaphase chromosomes is described. This method was applied to human metaphase chromosomes, which were immunocytochemically stained with anti-DNA and anti-ribonucleoprotein antibodies, derived from patients with auto-immune disease. Conventionally prepared metaphase spreads as well as cytocentrifuge preparations of chromosome suspensions were studied. The results indicate that the ultrastructure of chromosomes and the immunoreactivity of chromosomal constituents are influenced by the applied preparation methods. In comparison with whole mount preparations, ultrathin sections of immunostained chromosomes allow higher resolution and more precise localization of immunoreactive sites within the chromosomal structure.     

Immunoelectronmicroscopy of metaphase chromosomes

A method for the preparation of ultrathin sections of metaphase chromosomes is described. This method was applied to human metaphase chromosomes, which were immunocytochemically stained with anti-DNA and anti-ribonucleoprotein antibodies, derived from patients with auto-immune disease. Conventionally prepared metaphase spreads as well as cytocentrifuge preparations of chromosome suspensions were studied. The results indicate that the ultrastructure of chromosomes and the immunoreactivity of chromosomal constituents are influenced by the applied preparation methods. In comparison with whole mount preparations, ultrathin sections of immunostained chromosomes allow higher resolution and more precise localization of immunoreactive sites within the chromosomal structure.     

Alpha-helix in the carboxy-terminal domains of histones H1 and H5.

Although the carboxy-terminal domains of histones H1 and H5 exist as random-coil in aqueous solution, secondary structure prediction suggests that this region has a high potential for alpha-helix formation. We have measured CD spectra in various conditions known to stabilize alpha-helices, to determine whether this potential can be realized in an appropriate environment. Trifluoroethanol increases the helix contents of H1, H5 and their carboxy-terminal fragments, presumably through promotion of axial hydrogen bonding. Sodium perchlorate is also effective and better than sodium chloride, suggesting stabilization by binding of bulky perchlorate ions rather than simple charge screening. Extrapolating from these measurements in solution, and taking into account the occurrence of proline residues throughout the carboxy-terminal domain, we propose that binding to DNA stabilizes helical segments in the carboxy-terminal domains of histones H1 and H5, and that it is this structured form of the domain that is functionally important in chromatin.     

Phosphorylation of H1 histones

The phosphorylation of H1 histones is reviewed. Consideration is given to phosphorylation reactions which occur in both replicating and nonreplicating cells. The available evidence suggests that H1 histones accept phosphate groups at different sites in response to different stimuli. The tentative location of the acceptor sites is summarized, and the effects of site-specific phosphorylation on the conformation of H1 histones in vitro is discussed. The phosphorylation of H1 histones which occurs during cell replication is reviewed in detail, and it is concluded that there is no clocklike mechanism which couples the phosphorylation of a particular site or region in H1 histones to a set point in the cell cycle. There is both species-and cell-specific variability in the phosphorylation of H1 histones during cell replication. Recent studies are discussed which show that an interspecific somatic cell hybrid of mouse and Chinese hamster can replicate the Chinese hamster genome in a stable manner using only mouse H1 histones and their phosphorylated forms. I speculate that H1 histone phosphorylation is a mechanism for the relaxation of long-term structures needed for differential gene activity in order to attain the short-term goal of genome replication.