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Following the previous determination of the main variant H1b of human spleen histone H1, we have determined the complete amino acid sequence of another variant, H1d. Limited chymotryptic digestion of H1d produced four fragments, I to IV, and one partial fragment I-II, as in the case of H1b. These fragments were aligned with two overlapping peptides, produced by another enzyme from the intact H1d. We also confirmed the C-terminal sequence of H1d by carboxypeptidase digestion. This H1d has an acetylated N-terminal serine, equimolar alanine or valine residue at 17, and is composed of 212 residues. The molecular weight was 21,233 for the alanine variant and 21,261 for the valine variant in the unmodified form. We also deduced the total sequences of H1a and H1c in a similar way, considering the maximum homology with H1b and H1d. Each N-terminal serine residue is acetylated, too. H1a consists of 222 amino acid residues and has a molecular weight of 22,178 in its unmodified form; the H1c consists of 220 residues and has a molecular weight of 22,218 in that form. The human spleen H1 sequences varied to about the same extent in the N-terminal 40 and C-terminal 110 residues. However, the sequences of the about 70 internal residues are well conserved between the variants. The extent of differences among the human H1 variants is similar to, or rather smaller than, those among the mammalian somatic H1 species. The implications of these differences in the sequence for H1 function are discussed from the evolutionary viewpoint.
The complete amino acid sequence of a main variant, H1b, of human spleen histone H1 was determined, following previous determinations of human spleen histones H2B, H2A, H3, and H4. High-performance liquid chromatography on C8 silica of the H1 fraction yielded the homogeneous H1b subfraction; this variant was estimated to account for 60% of the total of the four H1 variants. The sequence determination was performed with four main fragments, I to IV, obtained by limited chymotryptic digestion of H1b. Together with direct sequencing by automated Edman degradation of fragments II, III, and IV, fragment I, blocked at the N-terminal, and fragment IV, the C-terminal half the H1b molecule, were sequenced after further digestion with staphylococcal protease and others. The four fragments were aligned with three overlapping peptides each derived from chymotryptic partial fragments, I-II and I-II-III, and intact H1b. Carboxypeptidase digestion of intact H1b confirmed the C-terminal sequence of the molecule. Thus, the total sequence of H1b was completely determined; it consists of a total of 218 amino acid residues, has a molecular weight of 21,734 in the unmodified form, and is completely acetylated at the N-terminal serine residue and partially methylated at the lysine residue 25. This sequence is compared with two mammalian somatic H1 sequences.
The complete amino acid sequence of a single H1 histone of the protozoan Tetrahymena pyriformis was determined, following previous determinations of the sequences of histones H2B, H2A, H3, and H4. Only a single H1 species was obtained by fractionation of a 0.5 M HClO4-soluble fraction from the whole histone extract and further purification. This starting material for sequencing contained 1.1 mol/mol phosphate and showed a single electrophoretic band after dephosphorylation. The sequence determination was performed by Edman degradation of BrCN fragments, staphylococcal protease peptides, and tryptic peptides, as well as secondary peptides from one BrCN fragment and one staphylococcal protease peptide. Phosphorus analysis of the tryptic peptides, containing serine or threonine, showed that five sites of the sequence were phosphorylated to various extents (5-30%). Thus, the total sequence, consisting of 165 amino acid residues and having a molecular weight of 17,942 in the unmodified form, was completely determined. This unusually small H1 sequence differs substantially from the human spleen H1 sequence of 218 residues, having larger proportions of hydrophilic residues and smaller proportions of hydrophobic residues. Comparison of the distribution pattern of hydrophilic and hydrophobic residues, between the protozoan and human sequences, showed that the protozoan sequence lacks the central hydrophobic domain that is conserved in the known vertebrate and other H1 histones. The implications for the function of H1 are discussed from the evolutionary viewpoint.
This prospective cohort study examined the associations of shoulder dislocations, instability or rotator cuŠ injuries in collegiate rugby union players with potential risk factors recognized in preseason medical screening examinations. The study subjects were 69 elite rugby players from one university rugby club. Basic demographics, injury experience and current physicalˆndings were assessed, and shoulder injuries sustained during two playing seasons were recorded. Risk factors for shoulder injuries were determined using a logistic regression model. Fifteen players sustained shoulder injuries during the two seasons. A history of injury (OR, 6.56; 95%CI, 2.04-20.98; p=0.00), a positive result in the load and shift (LAS) test (OR, 2.55; 95%CI, 0.92-7.06; p=0.07) and the internal/external rotational (IR/ER) muscle strength ratio (OR, 1.39; 95%CI, 1.08-1.77; p=0.00) were associated with shoulder injuries. A history of injury, a positive LAS test result, and the IR/ER muscle strength ratio are important risk factors for injury in collegiate rugby players.
Our previous study showed that the amino acid sequence of Tetrahymena histone H2B has a blocked N-terminal residue followed by 119 amino acid residues, X-Pro-Lys.... [J. Biochem. (1982) 91, 897-904]. Now, X has been found to be N-trimethylalanine by 1H nuclear magnetic resonance spectroscopy of the isolated X-Pro-Lys and X. This identification was supported by mass spectrometry of X-Pro-Lys and by column and paper chromatography of X. This is the first time that N-terminal blocking by methylation has ever been found in histones.
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