Studies on the Role and Mode of Operation of the Very-Lysine-Rich Histones in Eukaryote Chromatin. The Conformation of phi 1 Histones from Marine Invertebrate Sperm

Puigdoménech, Pedro; Cabré, O.; Palau, Jaume; Em, Bradbury; Crane‐Robinson, Colyn

doi:10.1111/j.1432-1033.1975.tb02447.x

Cited by 18 publications

(16 citation statements)

References 13 publications

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“…The aromatic protons are shown in Fig.5. At pH 3, 1 M NaCl, the two histidine C2H protons of G41 and LG41 are at their characteristic shifts of 8.7 and 8.8 ppm as found in intact $1 [13]. Likewise the C-33 protons of the two tyrosine residues are found at characteristic shifts of 6.7 and 6.8 ppm [13].…”

Section: The Conformation Of the Peptide G$lmentioning

confidence: 85%

“…cm2 dmol-l as characteristic of 100% helix [17]. It has previously been shown that at high ionic strength, $1 does not contain p structures [13]. The measured ellipticity of intact $1 at 222 nm was -4700 deg.…”

Section: Secondary Structurementioning

confidence: 99%

“…At pH 3, 1 M NaCl, the two histidine C2H protons of G41 and LG41 are at their characteristic shifts of 8.7 and 8.8 ppm as found in intact $1 [13]. Likewise the C-33 protons of the two tyrosine residues are found at characteristic shifts of 6.7 and 6.8 ppm [13]. From both the upfield and the aromatic spectrum it is concluded that the tertiary structure of intact histone 41 is essentially preserved in both peptides G41 and LG$l.…”

Section: The Conformation Of the Peptide G$lmentioning

confidence: 99%

“…It has previously been demonstrated that at high ionic strength ( % 1 M NaCl), histone 41 folds to form secondary and tertiary structure [13]. The progress of digestion was followed by turbidity and by gel electrophoresis (Fig.1).…”

Section: Trypsin Digestion Of Histone $1 In Free Solutionmentioning

confidence: 99%

“…5(C) was the spectrum after 2 h. By comparing the area of the resonance at 8.48 ppm in Fig. 5 with that of single histidine C-2 protons The composition of & I is taken from our previous work [13]. The number of residues have been calculated in all cases supposing two tyrosines.…”

Section: Peptide Nh Exchange Ratesmentioning

confidence: 99%

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The Structure of Sea‐Urchin‐Sperm Histone φ1 (H1) in Chromatin and in Free Solution

Puigdomènech

Palau

Crane‐Robinson³

1980

European Journal of Biochemistry

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The lysine-rich H1-type histone 41 from the sperm of the sea urchin Arbaciu lixula has been subjected to tryptic digestion in free solution at high ionic strength. Tw trypsin-resistant peptides G41 and LG41 have been isolated, comprising 81 and 93 amino acids respectively, i.e. about a third of the intact histone. Circular dichroism and 270-MHz proton NMR have been used to demonstrate that the smaller peptide G41 contains all the secondary and tertiary structure of intact histone 41. It is concluded that the resistant peptides represent a compact folded portion of the histone 41 chain, whilst the remaining two-thirds is disordered in free solution. Trypsin digestion of Arbacia lixulu nuclei, under conditions where histone 41 remains tightly bound to the chromatin, leads to the same resistant peptide G41. From this it is concluded that in chromatin the chain region corresponding to G41 is likewise folded and inaccessible to trypsin, whilst the remaining exposed residues are located periferally and probably in an extended conformation. The rather unusual H1-type histone 41 from sea urchin sperm thus has a three-domain structure like calf thymus H1 and chicken erythrocyte H5. The present data emphasise the fact that this threedomain structure exists in chromatin and is not merely a free-solution artefact.Considerable progress in the understanding of chromatin structure has been made in recent years through the use of nucleases to probe DNA conformation. The use of proteases to study the conformation of chromosomal proteins has received less attention. Experiments on the trypsin digestion of the core histones in chromatin [1,2] have led to the conclusion that the N-terminal regions of these histones are preferentially digested. Although the structures underlying the high exposure of these parts of the core histones are not known, these results are in accord with the concept of a structural distinction between the N-terminal and C-terminal regions of the histones that has followed from studies of the (H3/H4)2 tetramer and (H2A/H2B)2 dimer in free solution [3 -51. In that work it was shown that the N-terminal regions of the histone complexes are not compacted, but free and mobile in solution. A similar approach has been taken in the study of the conformation of histone H1 in free solution. Tryptic digestion was shown to result in preferential digestion of 35 N-terminal residues and all the C-terminal half of the molecule beyond residue 120 [6]. The remaining central portion of the molecule was shown to contain all the secondary and tertiary structure of intact H1 and moreover to retain this structure after removal of the N-terminal and C-terminal regions. A three-domain structure containing a single central folded region has also been demonstrated for histone H5 in a similar manner [7], although in this case the N-terminal region was 21 residues long, rather than 35 residues.Free solution studies of histone conformation are subject to the uncertainty that since the histone has been removed from the other components wi...

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Section: The Conformation Of the Peptide G$lmentioning

confidence: 85%

Section: Secondary Structurementioning

confidence: 99%

Section: The Conformation Of the Peptide G$lmentioning

confidence: 99%

Section: Trypsin Digestion Of Histone $1 In Free Solutionmentioning

confidence: 99%

Section: Peptide Nh Exchange Ratesmentioning

confidence: 99%

See 3 more Smart Citations

The Structure of Sea‐Urchin‐Sperm Histone φ1 (H1) in Chromatin and in Free Solution

Puigdomènech

Palau

Crane‐Robinson³

1980

European Journal of Biochemistry

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Interaction between domains in chromosomal protein HMG-1.

Carballo¹,

Puigdomènech²,

Tancredi³

et al. 1984

The EMBO Journal

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Peptides corresponding to the N‐terminal, central and central plus C‐terminal domains of high mobility group protein HMG‐1 from calf thymus have been isolated after digestion in solution with protease V8 under structuring conditions (0.35 M NaCl, pH 7.1). The effect of the interaction of these peptides with DNA on the topological properties of the nucleic acid has been studied and compared with the change in superhelicity produced by the whole protein. It appears that the region responsible for this effect is the central domain of HMG‐1. The isolated N‐terminal and central domains of this protein maintain their secondary and tertiary structure as observed by spectroscopic techniques. However, when the central domain is covalently linked only to the acidic C‐terminal part of the molecule, its secondary and tertiary structures are lost as well as its property to alter DNA superhelicity. The results are discussed in relation to the interactions occurring between the different domains and the possible functional interactions of this protein.

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Biological Magnetic Resonance

1978

Biological Magnetic Resonance

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Studies on the Role and Mode of Operation of the Very-Lysine-Rich Histones in Eukaryote Chromatin. The Conformation of phi 1 Histones from Marine Invertebrate Sperm

Cited by 18 publications

References 13 publications

The Structure of Sea‐Urchin‐Sperm Histone φ1 (H1) in Chromatin and in Free Solution

The Structure of Sea‐Urchin‐Sperm Histone φ1 (H1) in Chromatin and in Free Solution

Interaction between domains in chromosomal protein HMG-1.

Biological Magnetic Resonance

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