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1.
The replacement linker histones H1(0) and H5 are present in frog and chicken erythrocytes, respectively, and their accumulation coincides with cessation of proliferation and compaction of chromatin. These cells have been analyzed for the affinity of linker histones for chromatin with cytochemical and biochemical methods. Our results show a stronger association between linker histones and chromatin in chicken erythrocyte nuclei than in frog erythrocyte nuclei. Analyses of linker histones from chicken erythrocytes using capillary electrophoresis showed H5 to be the subtype strongest associated with chromatin. The corresponding analyses of frog erythrocyte linker histones using reverse-phase high performance liquid chromatography showed that H1(0) dissociated from chromatin at somewhat higher ionic strength than the three additional subtypes present in frog blood but at lower ionic strength than chicken H5. Which of the two H1(0) variants in frog is expressed in erythrocytes has thus far been unknown. Amino acid sequencing showed that H1(0)-2 is the only H1(0) subtype present in frog erythrocytes and that it is 100% acetylated at its N termini. In conclusion, our results show differences between frog and chicken linker histone affinity for chromatin probably caused by the specific subtype composition present in each cell type. Our data also indicate a lack of correlation between linker histone affinity and chromatin condensation.  相似文献   

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A comparative analysis of chromatin from erythrocytes of frog, trout and hen has been performed in correlation with properties of the nucleosomal linker histones of H1 family. In the nucleosomes from frog erythrocytes the linker histone is represented by H1(0)-like variant with amino acid sequence highly homologous to that of the hen histone H5, however the arginine content in the proteins differs (3 mol% in the frog erythrocyte H1 and 12 mol% in the hen erythrocyte H5). On the other hand histone H5 from trout being significantly different in the primary structure from the hen histone H5 is at the same time rich in arginine (9 mol%). The nucleosomal repeat length, estimated by using agarose gel electrophoresis is 201, 213 and 213 b.p. in erythrocyte chromatin from frog, trout and hen, correspondingly. Chromatin packing density in fixed nuclei from erythrocytes of frog, trout and hen as determined using cytophotometric measurements is 0.144, 0.444 and 530 pg/mu 3, correspondingly. The data support the previously made suggestion that the increase in arginine content in nucleosomal linker proteins is connected with the increase of chromatin compaction in the nuclei and elongation of the linker in the nucleosome.  相似文献   

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The complete amino acid sequence (123 residues) of histone H2A from erythrocytes of the marine worm Sipunculus nudus, has been established from data provided by automated sequence analysis of large fragments generated by V8 staphylococcal protease digestion of histone H2A and by limited hydrolysis of the protein with alpha-chymotrypsin and from structural studies of tryptic peptides of the protein. By comparison with calf homologous histone, the sipunculid histone H2A shows 6 deletions and 13 substitutions. Six of the substitutions are non-conservative. Most of the evolutionary changes are mainly observed in the basic amino-terminal and carboxy-terminal regions of the molecule, which are the primary DNA-binding sites. Few conservative point changes are observed in the central region (residues 18-118) which interacts strongly with histone H2B to form the dimer H2A-H2B. 60% of the H2A molecules were found phosphorylated on the amino-terminal residue, N-acetyl-serine. The high content of phosphorylated histone H2A in the sipunculid erythrocyte chromatin could probably be related to smaller repeat length (177 +/- 5 base pairs) of nucleosomal DNA and to nuclear inactivation and chromatin condensation.  相似文献   

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In our previous work (J. Palyga, Genetic polymorphisms of histone H1. b in duck erythrocytes. Hereditas 114, 85-89, 1991) we reported a genetic polymorphism of duck erythrocyte histone H1.b. Here, we screened H1 preparations in a two-dimensional polyacrylamide gel to refine the distribution of allelic forms of H1.b in fifteen duck populations. We have revealed that the frequency of H1.b allelic variants was significantly different among many conservative and breeding duck groups. While b(1) and b(3) were common in all populations screened, the allele b(2), with a slightly lower apparent molecular weight, was confined mainly to brown-feathered ducks (Khaki Campbell and Orpington) and descendent lines.The C- and N-terminal peptides released upon cleavage with N-bromosuccinimide and Staphylococcus aureus protease V8 from duck allelic histones H1. b2 and H1.b3, respectively, migrated differently in the gel, probably as a result of potential amino acid variation in a C-terminal domain.  相似文献   

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Total chicken erythrocyte histones were separated by reversed-phase h.p.l.c. using a multi-step acetonitrile gradient in a very short time (35 min). The proteins were eluted in the following order: H1, H5, H2B, H2A.2, H4, H2A.1 and H3.2. Applying a special gradient system adapted for the separation of very-lysine-rich histones, chicken erythrocyte H5 was resolved into two subfractions. Their electrophoretic mobilities were identical in both SDS and acetic acid/urea/Triton polyacrylamide-gel electrophoresis, but different in free-flow electrophoresis. Amino-acid-sequence analyses revealed that the two components only differ with respect to position 15, one having glutamine in that position and the other arginine. A separation of histones prepared from goose erythrocytes disclosed no H5 subfractionation. Furthermore, histones obtained from anaemic-chicken blood were analysed by the above-mentioned h.p.l.c. conditions. An alteration in the relation of H1 to H5 was detected, but no further differences in the number and quantity of the histones and histone variants were observed as compared with the corresponding proteins processed from normal-chicken blood.  相似文献   

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The synthesis of the nuclear proteins of duck erythroid cells at different stages of maturation has been investigated. Synthesis of histone fractions H1, H2a, H2b, H3, and H4 is restricted to the erythroblasts, while synthesis of H5 can be detected even at later stages of maturation after DNA synthesis has ceased. The synthesis of nonhistone nuclear proteins (NHNP), on the other hand, occurs in cells at all stages of maturation although their rates of synthesis decline as the cells mature. The same size classes of NHNP appear to be synthesized in erythroblasts and in early- and midpolychromatic erythrocytes. In late polychromatic erythrocytes the synthesis of a new group of NHNP of molecular weights ranging from 54,000 to 130,000 was observed. This group of proteins does not accumulate in the mature erythrocyte, indicating that their relative proportions are very small.Turnover of histone-bound phosphate was found to occur mainly at the erythroblast stage, except for histone H2a which was actively phosphorylated even at more advanced stages of maturation. Phosphorylation of most of the histones appears to be coupled to histone (and coordinate DNA) synthesis.Incorporation of radioactive acetate into histones occurs at all stages, but the rate of acetylation decreases four- to fivefold with maturation. Although the RNA synthetic activity of erythroid cells also decreases with age, experiments involving the use of RNA polymerase inhibitors suggest that the mechanisms that control RNA synthesis and histone acetylation are not tightly coupled.  相似文献   

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The amino acid sequences of the two variants (H1a 121 residues and H1b 119 residues) of the sperm-specific histone H1 from the polychaete annelid Platynereis dumerilii have been completely established. Comparison of the sequences of these two variants shows one deletion of two residues in histone H1b and 22 substitents, of which most occur in the globular domain. The two variants differ highly in a sequence of nine residues adjacent to the conservative phenylalanine residue of histone H1 (64-72 in H1a, 62-70 in H1b) which makes H1a less hydrophobic than H1b. The small molecular size of Platynereis H1a and H1b is a unique feature among the histones H1 of which the size ranges between 189 residues (chicken erythrocyte H5) and 248 residues (sea urchin sperm H1). H1a and H1b have short N- and C-terminal basic domains but the size of the globular domain (approximately equal to 80 residues) is similar to that of other H1s. In the globular region the variant H1a exhibits a close relationship with somatic or sperm H1s whereas the variant H1b is more related to H5 histones.  相似文献   

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Histone DNA sequences, were detected in Eco RI fragments of total Xenopus laevis DNA, by hybridization with 32P-labeled h22-DNA, a histone gene repeat unit of the sea urchin Psammechinus miliaris. The about 6 kb-size class, which was found to hybridize, was subsequently integrated into the E. coli plasmid pCR1. A clone was isolated that contains a 5.8 kb EcoRI fragment hybridizing with h22-DNA. A physical map was constructed using the restriction endonucleases BamHI, PstI, HincII, BglII, XbaI, PvuII, XhoI, AvaI, SmaI, HinfI and HpaII. The fragment was not cleaved by KpnI, AvaI, SalI and HindIII. Using this restriction map we were able to determine the gene order by hybridization with purified gene probes derived from h22-DNA. The gene order was found to be H3, H4, H2A and H2B. The localization of the H1 gene was not possible, probably due to its greater evolutionary divergence. Part of the sequence of the H3-gene is presented providing unambiguous evidence on the identity, map position and polarity of this gene.  相似文献   

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Dinucleosome periodicity of DNA fragmentation produced by DNAse I in nuclei of pigeon and trout erythrocytes differing in the content of histones H1 and H5 has been investigated. In spite of differences in the content of histone H5 (H1 to H5 ratio is approximately equal to 0.5 and 2 in pigeon and trout erythrocytes respectively) the double-nucleosome repeat was revealed clearly in pigeon and trout erythrocyte nuclei. To elucidate the role of lysine-rich histones we carried out the selective extraction of histone H1 from erythrocyte nuclei by a solution containing 0.3-0.35 M NaCl (pH 3.0) or cleavage of histones H1 and H5 by mild trypsinization in the presence of Mg2+ ions. It was shown that lysine-rich histones play a principal role in formation and maintenance of the so-called dinucleosomal chromatin structure.  相似文献   

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Histones are vital structural proteins of chromatin that influence its dynamics and function. The tissue-specific expression of histone variants has been shown to regulate the expression of specific genes and genomic stability in animal systems. Here we report on the characterization of five histone H3 variants expressed in Lilium generative cell. The gcH3 and leH3 variants show unique sequence diversity by lacking a conserved lysine residue at position 9 (H3K9). The gH3 shares conserved structural features with centromeric H3 of Arabidopsis. The gH3 variant gene is strongly expressed in generative cells and gH3 histone is incorporated in to generative cell chromatin. The lysine residue of H3 at position 4 (H3K4) is highly methylated in the nuclei of generative cells of mature pollen, while methylation of H3K4 is low in vegetative cell nuclei. Taken together, these results suggest that male gametic cells of Lilium have unique chromatin state and histone H3 variants and their methylation might be involved in gene regulation of male gametic cells.Accession numbers for the sequence data The sequences reported in this paper have been deposited in the DDBJ database gcH3 GC1174 (accession no. AB195644), gH3 GC1008 (accession no. AB195646), leH3 GC1126 (accession no. AB195648), soH3-1 GC0075 (accession no. AB195650), soH3-2 GC1661 (accession no. AB195652), genomic sequence of gcH3 (accession no. AB195645), genomic sequence of gH3 (accession no. AB195647), genomic sequence of leH3 (accession no. AB195649), genomic sequence of soH3-2 (accession no. AB195651), genomic sequence of soH3-2 (accession no. AB195653).  相似文献   

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Lysine-rich histone isolated from different chicken tissues was separated electrophoretically into 4-5 subfractions. The subfrations reffered to as 1, 2, 3, and 4, occur in each the tissue studied, erythrocyte lysine-rich histone containing an additional subfraction 1a. F1 histone from mitotically active tissues (intestinal mucosa, thymus, testes) has a higher content of subfraction 2, while the same histones from mototically inactive tissues (liver, heart, brain) contain an elevated amount of subfraction 3. F1 histone isolated from liver, brain and heart of 21-day embryo has much more of subfraction 2, than the same histone of adult animal. During the chicken development from hatching till maturation the content of subfraction 2 in these organs decreases, and the content of subfraction 3 increases. The rate of this change in liver corresponds to the rate of DNA synthesis. In F1 histone of erythrocytes the content of subfraction 4 falls down during the post hatching ontogenesis.  相似文献   

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Although quantitatively minor replication-independent (replacement) histone variants have been found in a wide variety of organisms, their functions remain unknown. Like the H3.3 replacement variants of vertebrates, hv2, an H3 variant in the ciliated protozoan Tetrahymena thermophila, is synthesized and deposited in nuclei of nongrowing cells. Although hv2 is clearly an H3.3-like replacement variant by its expression, sequence analysis indicates that it evolved independently of the H3.3 variants of multicellular eukaryotes. This suggested that it is the constitutive synthesis, not the particular protein sequence, of these variants that is important in the function of H3 replacement variants. Here, we demonstrate that the gene (HHT3) encoding hv2 or either gene (HHT1 or HHT2) encoding the abundant major H3 can be completely knocked out in Tetrahymena. Surprisingly, when cells lacking hv2 are starved, a major histone H3 mRNA transcribed by the HHT2 gene, which is synthesized little, if at all, in wild-type nongrowing cells, is easily detectable. Both HHT2 and HHT3 knockout strains show no obvious defect during vegetative growth. In addition, a mutant with the double knockout of HHT1 and HHT3 is viable while the HHT2 HHT3 double-knockout mutant is not. These results argue strongly that cells require a constitutively expressed H3 gene but that the particular sequence being expressed is not critical.  相似文献   

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