Consequences of two different amino-acid substitutions at the same codon in KRT14 indicate definitive roles of structural distortion in epidermolysis bullosa simplex pathogenesis.

Numerous inherited diseases develop due to missense mutations, leading to an amino-acid substitution. Whether an amino-acid change is pathogenic depends on the level of deleterious effects caused by the amino-acid alteration. We show an example of different structural and phenotypic consequences caused by two individual amino-acid changes at the same position.

A different conformation for linker L12 in IF molecules in the molecular and filamentous forms: an hypothesis.

The rod domain of IF molecules has been characterized as four alpha-helical coiled-coil segments (1A, 1B, 2A and 2B), three linkers (L1, L12 and L2) and a stutter at the centre of segment 2B. Two of these breaks in coiled-coil continuity (L2 and stutter) have been modelled on the basis of structural data obtained from related proteins. Subsequently, X-ray crystallographic studies on fragments of IF molecules have shown that both models were correct.

Three-dimensional modelling of interchain sequence similarities and differences in the coiled-coil segments of keratin intermediate filament heterodimers highlight features important in assembly.

Using structural data derived from crystal fragments of vimentin, three-dimensional models have been constructed for the major coiled-coil segments (1A, 1B and 2B) in epidermal and hair keratin intermediate filament molecules. Similarity and difference distributions arising from the heterodimer nature of the keratin molecules have been calculated, colour-coded for ease of observation and represented as movie clips. This approach has enabled the spatial distributions of the charged and apolar residues to be visualized along the seam between the chains and on the surface of the molecule, thus providing new insights into the features of the IF molecule that are important in assembly.

Sequence analyses of Type I and Type II chains in human hair and epithelial keratin intermediate filaments: promiscuous obligate heterodimers, Type II template for molecule formation and a rationale for heterodimer formation.

Sequence comparisons have been undertaken for all hair and epithelial keratin IF chains from a single species--human. The results lead to several new proposals. First, it is clear that not only is the chain structure of the molecule an obligate heterodimer but promiscuous association of Type I and Type II chains must occur in vivo.

Human hair keratin-associated proteins: sequence regularities and structural implications.

In this paper, we undertake a sequence analysis of the human keratin-associated proteins (KAP). This analysis has revealed two fundamental pentapeptide quasi-repeats (A and B) of the form C-C-X-P-X and C-C-X-S/T-S/T, respectively. The A repeats are also commonly found in two subforms A1 and A2, -C-C-Q-P-X and C-C-R-P-X, respectively-similar to those found in sheep wool 30-40 years previously.

Modeling effects of mutations in coiled-coil structures: case study using epidermolysis bullosa simplex mutations in segment 1a of K5/K14 intermediate filaments.

The sequence of a protein chain determines both its conformation and its function in vivo. An attempt is made to gain an understanding of the classes of deformations that can arise in an important structural motif, the alpha-helical coiled coil, as a consequence of mutations occurring in its underlying heptad substructure. In order to do so we consider the model structure of segment 1A in intermediate filaments and then investigate the structures arising from each of the 22 mutations observed in cytokeratin K5/K14 molecules that lead to variants of epidermolysis bullosa simplex.

An unusual Ala12Thr polymorphism in the 1A alpha-helical segment of the companion layer-specific keratin K6hf: evidence for a risk factor in the etiology of the common hair disorder pseudofolliculitis barbae.

Pseudofolliculitis barbae (PFB) is a common hair disorder characterized by a pustular foreign body inflammatory reaction that is induced by ingrown hairs of the facial and submental (barbea) regions after regular shaving. It occurs predominantly in black males, while it is rather rare and usually far less severe in Caucasian males. Black individuals have a higher propensity of developing PFB due to their genetic predisposition for curly hair which inherently possesses a much higher risk of growing back into the skin than straight or wavy hair.

Alpha-helical coiled-coil oligomerization domains are almost ubiquitous in the collagen superfamily.

Alpha-helical coiled-coils are widely occurring protein oligomerization motifs. Here we show that most members of the collagen superfamily contain short, repeating heptad sequences typical of coiled coils. Such sequences are found at the N-terminal ends of the C-propeptide domains in all fibrillar procollagens.

Modeling alpha-helical coiled-coil interactions: the axial and azimuthal alignment of 1B segments from vimentin intermediate filaments.

Attempts at predicting the relative axial alignments of fibrous protein molecules in filamentous structures have relied upon representing the (multichain) molecular structure by a one-dimensional sequence of amino acids. Potential intermolecular ionic and apolar interactions were counted and determined as a function of the relative axial stagger between the molecules. No attempts were made to consider the azimuthal aspect of the interacting molecules and neither were apolar or ionic energy terms used.

Sequence comparisons of intermediate filament chains: evidence of a unique functional/structural role for coiled-coil segment 1A and linker L1.

A comprehensive analysis of the sequences of all types of intermediate filament chains has been undertaken with a particular emphasis on those of segment 1A and linker L1. This has been done to assess whether structural characteristics can be recognized in the sequences that would be consistent with the role of each region in the recently proposed "swinging head" hypothesis. The analyses show that linker L1 is the most flexible rod domain region, that it is the most elongated structure (on a per residue basis), and that it is the most variable region as regards sequence and length.

A role for the 1A and L1 rod domain segments in head domain organization and function of intermediate filaments: structural analysis of trichocyte keratin.

A dynamic model is proposed to explain how the 1A and linker L1 segments of the rod domain in intermediate filament (IF) proteins affect the head domain organization and vice versa. We have shown in oxidized trichocyte IF that the head domain sequences fold back over and interact with the rod domain. This phenomenon may occur widely in reduced IF as well.