BIOMAT Database Logo BIOMAT Database Logo

Isolation and characterization of the membraneous fraction in human stratum corneum. 1981

M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa

UI MeSH Term Description Entries
D007633 Keratins A class of fibrous proteins or scleroproteins that represents the principal constituent of EPIDERMIS; HAIR; NAILS; horny tissues, and the organic matrix of tooth ENAMEL. Two major conformational groups have been characterized, alpha-keratin, whose peptide backbone forms a coiled-coil alpha helical structure consisting of TYPE I KERATIN and a TYPE II KERATIN, and beta-keratin, whose backbone forms a zigzag or pleated sheet structure. alpha-Keratins have been classified into at least 20 subtypes. In addition multiple isoforms of subtypes have been found which may be due to GENE DUPLICATION. Cytokeratin,Keratin Associated Protein,Keratin,Keratin-Associated Proteins,alpha-Keratin,Associated Protein, Keratin,Keratin Associated Proteins,Protein, Keratin Associated,alpha Keratin
D008565 Membrane Proteins Proteins which are found in membranes including cellular and intracellular membranes. They consist of two types, peripheral and integral proteins. They include most membrane-associated enzymes, antigenic proteins, transport proteins, and drug, hormone, and lectin receptors. Cell Membrane Protein,Cell Membrane Proteins,Cell Surface Protein,Cell Surface Proteins,Integral Membrane Proteins,Membrane-Associated Protein,Surface Protein,Surface Proteins,Integral Membrane Protein,Membrane Protein,Membrane-Associated Proteins,Membrane Associated Protein,Membrane Associated Proteins,Membrane Protein, Cell,Membrane Protein, Integral,Membrane Proteins, Integral,Protein, Cell Membrane,Protein, Cell Surface,Protein, Integral Membrane,Protein, Membrane,Protein, Membrane-Associated,Protein, Surface,Proteins, Cell Membrane,Proteins, Cell Surface,Proteins, Integral Membrane,Proteins, Membrane,Proteins, Membrane-Associated,Proteins, Surface,Surface Protein, Cell
D008854 Microscopy, Electron Microscopy using an electron beam, instead of light, to visualize the sample, thereby allowing much greater magnification. The interactions of ELECTRONS with specimens are used to provide information about the fine structure of that specimen. In TRANSMISSION ELECTRON MICROSCOPY the reactions of the electrons that are transmitted through the specimen are imaged. In SCANNING ELECTRON MICROSCOPY an electron beam falls at a non-normal angle on the specimen and the image is derived from the reactions occurring above the plane of the specimen. Electron Microscopy
D002462 Cell Membrane The lipid- and protein-containing, selectively permeable membrane that surrounds the cytoplasm in prokaryotic and eukaryotic cells. Plasma Membrane,Cytoplasmic Membrane,Cell Membranes,Cytoplasmic Membranes,Membrane, Cell,Membrane, Cytoplasmic,Membrane, Plasma,Membranes, Cell,Membranes, Cytoplasmic,Membranes, Plasma,Plasma Membranes
D003553 Cystine A covalently linked dimeric nonessential amino acid formed by the oxidation of CYSTEINE. Two molecules of cysteine are joined together by a disulfide bridge to form cystine. Copper Cystinate,L-Cystine,L Cystine
D004817 Epidermis The external, nonvascular layer of the skin. It is made up, from within outward, of five layers of EPITHELIUM: (1) basal layer (stratum basale epidermidis); (2) spinous layer (stratum spinosum epidermidis); (3) granular layer (stratum granulosum epidermidis); (4) clear layer (stratum lucidum epidermidis); and (5) horny layer (stratum corneum epidermidis).
D006801 Humans Members of the species Homo sapiens. Homo sapiens,Man (Taxonomy),Human,Man, Modern,Modern Man
D000596 Amino Acids Organic compounds that generally contain an amino (-NH2) and a carboxyl (-COOH) group. Twenty alpha-amino acids are the subunits which are polymerized to form proteins. Amino Acid,Acid, Amino,Acids, Amino

Related Publications

M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Isolation and characterization of a 30 kDa membrane glycoprotein from human stratum corneum.
May 1986, Biochimica et biophysica acta,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Human stratum corneum lipids: characterization and regional variations.
February 1983, Journal of lipid research,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Characterization of Water Self-Diffusion in Human Stratum Corneum.
April 2018, Journal of pharmaceutical sciences,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Characterization of overall ceramide species in human stratum corneum.
July 2008, Journal of lipid research,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Fractionation and characterization of the human epidermal stratum corneum in keratinization disorders.
June 1982, The Journal of dermatology,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Studies on human tonsillar lymphocyte membranes. I. Isolation and characterization of a membraneous glycoprotein fraction from human lymphocytes.
January 1977, Acta biochimica et biophysica; Academiae Scientiarum Hungaricae,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Ultrastructure of the human stratum corneum.
January 2001, Skin pharmacology and applied skin physiology,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Immunological characterization of fibrous protein isolated from human stratum corneum.
January 1980, Archives of dermatological research,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Preparation and characterization of the nonionic detergent-soluble proteins of human stratum corneum.
November 1982, The Journal of investigative dermatology,
M Manabe, and T Hirotani, and M Negi, and M Hattori, and H Ogawa
Sorption properties of the human stratum corneum.
January 2011, Skin pharmacology and physiology,
Copied contents to your clipboard!