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[
Comp Biochem Physiol B,
1983]
The histones of Caenorhabditis elegans (Nematoda) have been identified by correlating criteria of electrophoresis and amino acid composition with the five main histones from calf thymus. C. elegans H1(1) consists of at least two subtypes with approximate molecular weights of 20,000 and 18,500 daltons as resolved by SDS polyacrylamide gel electrophoresis. They are some 10% smaller than the two subtypes of calf histone H1. The differences are also corrobated by the amino acid composition of the nematode and calf H1 complements. Nematode H2A resembles calf H2A in chromatographic and electrophoretic properties and in the amino acid composition, although it lacks histidine, which seems to be replaced by lysine. Like calf H2A, it is dimorphic as shown by Triton/acid/urea polyacrylamide gel electrophoresis. The H2B complement from C. elegans consists of two proteins with a molecular weight of approximately 12,500. They can be separated by ion-exchange chromatography, but they are very analogous to each other and to calf H2B in amino acid composition. Each form is also resolved into two more subtypes by Triton/acid/urea polyacrylamide gel electrophoresis. Nematode H3 resembles calf thymus H3 in its electrophoretic behaviour; three subfractions can be distinguished in Triton/acid/urea gels. C. elegans H4 is very similar to calf H4 in its chromatographic, electrophoretic and solubility properties, but differs significantly in composition. The meaning of this difference is discussed with regard to the generally observed stringent conservation of H4 sequences between distantly related species.
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[
Biochem J,
1987]
The complete primary structure of histone H2A from the nematode Caenorhabditis elegans was determined. The amino acid chain consists of 126 amino acid residues and has a blocked N-terminus. By comparison with calf thymus histone H2A, the nematode protein shows five deletions, two insertions and 16 substitutions. Most of the changes occur in the N- and C-terminal regions of the molecule, whereas the central part covering the residues 21-120 is quite well conserved. The lysine residues 5, 8 and 10 were found to be partially acetylated.
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[
FEBS Lett,
1987]
The complete amino acid sequence of histone H3 (135 residues) from the nematode Caenorhabditis elegans has been established. Microheterogeneity occurs at positions 96 and 100 of the chain. The sequences of the nematode H3 isoforms are very similar to the major chain of calf thymus H3 with which they show 4 substitutions in total. The major variant has cysteine in position 96. This is the first report of cysteine in this position in H3 from non-mammalian tissue. An exceptional methylation site has been detected at position 79. Various other sites of secondary modification are of a conservative nature.
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[
Biochem J,
1988]
The complete primary structure of the major isoform (H1.1) of histone H1 from the nematode Caenorhabditis elegans was determined. The amino acid chain consists of 207 amino acids and has a blocked N-terminus. The nematode histone shows rather little sequence identity when compared with proteins of the H1 family derived from other organisms. However, the main characteristic features of H1 molecules have been well conserved: a tripartite domain structure consisting of a central hydrophobic core of about 80 residues, flanked by an N-terminal domain which is somewhat acidic at the very N-terminus, but very basic further on, and a long C-terminal domain very rich in lysine, alanine and proline. Several repeat structures, including a twice (with modification)-repeated and well-conserved phosphorylation site, can be recognized in this region. The presence of O-phosphoserine at these sites could not be demonstrated, however.
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[
Comp Biochem Physiol B,
1987]
1. The complete amino acid sequence of histone H4 from the nematode Caenorhabditis elegans has been established. 2. The polypeptide chain consists of 102 amino acids and has a completely alpha-N-blocked serine at residue 1. 3. The sequence differs from vertebrate H4 in position 73 by substitution of cysteine for threonine. 4. Lysine in position 20 is monomethylated.
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[
FEBS Lett,
1989]
The nematode Caenorhabditis elegans expresses one species of H2A and one species of H4 molecules, at least two species of H1 (H1.1, H1.2), two species of H2B (H2B.1, H2B.2) and 2-4 species of H3 (H3.1 and H3.3 and an unassigned Ile/Leu microheterogeneity in H3). The study of their primary structures has been completed now and all of them, with the exception of the Ile/Leu microheterogeneity in H3, have been assigned to protein spots on two-dimensional gels. One spot, previously designated H3.2, probably represents C-terminally cleaved H3.1. The relative abundance of the isohistones was essentially the same when derived from either eggs, gravid adults or postreproductive, senescent worms. The degree of post-translational modification, however, particularly acetylation of H2A, H2B and H3 histone species, was reduced at old age.
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[
Biochem J,
1987]
The nematode worm Caenorhabditis elegans is known to undergo characteristic morphological as well as physiological signs of senescence. Two-dimensional gel electrophoresis shows that alterations also occur in the pattern of the nuclear proteins as a function of age. Non-histone proteins whose level exhibits a steep fall with age are egg-specific and not involved in senescence. However, a distinct set of non-histones accumulates with age and can be considered as senescence markers. Some of these are glycoproteins, as shown by their concanavalin A-binding properties. One age-specific polypeptide, called 'protein S-28', was further characterized by peptide mapping and determination of its N-terminal amino acid sequence.
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[
Biochemistry,
1987]
The major intestinal esterase from the nematode Caenorhabditis elegans has been purified to essential homogeneity. Starting from whole worms, the overall purification is 9000-fold with a 10% recovery of activity. The esterase is a single polypeptide chain of Mr 60,000 and is stoichiometrically inhibited by organophosphates. Substrate preferences and inhibition patterns classify the enzyme as a carboxylesterase (EC 3.1.1.1), but the physiological function is unknown. The sequence of 13 amino acid residues at the esterase N- terminus has been determined. This partial sequence shows a surprisingly high degree of similarity to the N-terminal sequence of two carboxylesterases recently isolated from Drosophila mojavensis [Pen, J., van Beeumen, J., & Beintema, J. J. (1986) Biochem. J. 238, 691-699].
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[
Biochem J,
1986]
The complete amino acid sequence of histone H2B from the nematode Caenorhabditis elegans was determined. The protein as obtained by us is a mixture of multiple forms. Approx. 90% of the molecules consist of a polypeptide chain of 122 amino acids with alanine as N-terminal residue and proline at the second position. In the remaining 10% alanine is lacking and the chain starts with proline. In addition to the heterogeneity of chain length, polymorphism occurs at the positions 7 (Ala/Lys), 14 (Ala/Lys) and 72 (Ala/Ser) of the major chain and at position 6 (Ala/Lys) of the shorter chain. In the N- terminal third of the molecule there is a high degree of sequence homology to the corresponding region in H2B from Drosophila (insect), Patella (mollusc) and Asterias (starfish). In contrast, this part of the molecule differs considerably from mammalian histone H2B.
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[
Biochem J,
1990]
The complete amino acid sequence of cytochrome c from the nematode Caenorhabditis elegans was determined. The native protein displays the same spectral properties in the oxidized and reduced states as horse heart cytochrome c. The apoprotein consists of 110 amino acid residues and differs from human cytochrome c by 44 substitutions, one internal deletion, five N-terminal additions and two C-terminal additions. One of the substitutions is the replacement of an 'invariant' phenylalanine residue at position 15 by tyrosine. The N-terminal sequence extension contains a short peptide motif, which is highly homologous with a peptide fragment present at the N-terminus of annelid and insect cytochrome c sequences. From the number of amino acid changes and the evolutionary rate of cytochrome c it would appear that nematodes diverged from a line leading to man about 1.4 billion years ago. When similar data based on the amino acid sequences of the histones H1, H2A, H2B and H3 are taken into account, the average estimate is 1.1 +/- 0.1 billion years.