Open AccessJournal Article
Labile proteins accumulated in damaged hair upon permanent waving and bleaching treatments.
TLDR
It is demonstrated that the amount of soluble proteins internally formed in permed and bleached hair, labile proteins, is a useful index for hair damage assessment and suggests that a portion of the stable proteins in normal hair was transformed intolabile proteins upon permanent waving and bleaching treatments.Abstract:
We previously found that certain hair proteins were soluble by means of a partial extraction method. In this study, we demonstrate that the amount of soluble proteins internally formed in permed and bleached hair, labile proteins, is a useful index for hair damage assessment. Compared to tensile property changes, this index rose in widely dynamic ranges as the time of either permanent waving or bleaching treatments increased. The amount of labile proteins was much larger than that of proteins eluted into perming and bleaching lotions. However, the labile proteins showed electrophoretic profiles similar to those of the eluted proteins. These results suggest that a portion of the stable proteins in normal hair was transformed into labile proteins upon permanent waving and bleaching treatments. Consequently, permed and bleached hair tends to release the resultant labile proteins.read more
Citations
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Book ChapterDOI
Chemical Composition of Different Hair Types
TL;DR: The current state of changes in the amino acids, proteins and lipids of hair by morphological region, chemical and sunlight damage, diet, puberty and menopause, and other factors have been and are being made and are summarized here.
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The cell membrane complex: three related but different cellular cohesion components of mammalian hair fibers.
TL;DR: The structure, chemistry and physical properties of the cell membrane complex (CMC) of keratin fibers are reviewed, highlighting differences in the three types of CMC.
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Comparison of hair shaft damage after UVA and UVB irradiation.
TL;DR: In this paper, the patterns of morphological and biochemical changes in UV-light-induced damage to hair by scanning and transmission electron microscopy and hair protein analysis were found to be significant in UVB-irradiated hairs.
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Identification and analysis of damaged or porous hair
TL;DR: Methods for identifying damaged or porous hair samples using digestion rates of hair in dithiothreitol with and without proteinase K, as well as a protein measurement method applied to dithoethreitol-digested samples are provided.
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A novel purification procedure for keratin-associated proteins and keratin from human hair
TL;DR: Scanning electron microscopy (SEM) showed that hair samples retained fine fibrous structures in the cortex after extracting the KAPs and that the additional extraction of keratin caused the Fibrous structures to disappear, indicating that KAP's may function by surrounding the fibrous Structures and supporting the keratin fibers inThe cortex.
References
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Journal Article
Quantification and prevention of hair damage
Journal Article
A simple and sensitive technique, based on protein loss measurements, to assess surface damage to human hair
TL;DR: With this procedure, significant differences in hair damaged due to bleaching, permanent wave treatments, and Suprox are demonstrated, and hair with exposed cortex was found to be more susceptible to protein loss by surfactants and/or water than hair with intact cuticle.
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A simple and sensitive method using protein loss measurements to evaluate damage to human hair during combing
TL;DR: A simple method to quantify hair damage during combing or brushing is developed and significant differences in protein loss during post-shampoo combing of undamaged and chemically damaged hair previously treated with various shampoos/conditioners are demonstrated.
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Elution of S100A3 from hair fiber : New model for hair damage emphasizing the loss of S100A3 from cuticle
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