Origin of the epidermal calcium gradient: regulation by barrier status and role of active vs passive mechanisms.
about
An update of the defensive barrier function of skinGlucocorticoid receptor regulates overlapping and differential gene subsets in developing and adult skinThe epidermal Ca(2+) gradient: Measurement using the phasor representation of fluorescent lifetime imaging.Endoplasmic reticulum Ca2+ depletion activates XBP1 and controls terminal differentiation in keratinocytes and epidermis.Sebaceous gland, hair shaft, and epidermal barrier abnormalities in keratosis pilaris with and without filaggrin deficiencyFilaggrin genotype in ichthyosis vulgaris predicts abnormalities in epidermal structure and functionTowards a quantitative theory of epidermal calcium profile formation in unwounded skin.Regulation of ERK-MAPK signaling in human epidermisElemental analysis of tissue pellets for the differentiation of epidermal lesion and normal skin by laser-induced breakdown spectroscopyHailey-Hailey disease as an orthodisease of PMR1 deficiency in Saccharomyces cerevisiae.Stratum corneum defensive functions: an integrated view.Neuroendocrine system of the skinAcute modulations in permeability barrier function regulate epidermal cornification: role of caspase-14 and the protease-activated receptor type 2Cholinergic control of epidermal cohesion.Altered epidermal lipid processing and calcium distribution in the KID syndrome mouse model Cx26S17F.Acute modulations in stratum corneum permeability barrier function affect claudin expression and epidermal tight junction function via changes of epidermal calcium gradient.Significance of autoimmunity to non-desmoglein targets in pemphigus.The desmosome and pemphigus.Endoplasmic Reticulum Calcium Regulates Epidermal Barrier Response and Desmosomal Structure.Acidic pH-activated Cl Current and Intracellular Ca Response in Human Keratinocytes.Interaction of mineral salts with the skin: a literature survey.Connexins: sensors of epidermal integrity that are therapeutic targets.Extracellular calcium regulates keratinocyte proliferation and HPV 16 E6 RNA expression in vitro.Inverse regulation of melanoma growth and migration by Orai1/STIM2-dependent calcium entry.Cholesterol sulfate and Ca(2+) modulate the mixing properties of lipids in stratum corneum model mixturesProtein kinase D1 deficiency promotes differentiation in epidermal keratinocytes.An evaluation of barrier repair foam on the molecular concentration profiles of intrinsic skin constituents utilizing confocal Raman spectroscopy.Ex vivo calcium percutaneous eggression in normal and tape-stripped human skin.Lowered humidity produces human epidermal equivalents with enhanced barrier propertiesMajor translocation of calcium upon epidermal barrier insult: imaging and quantification via FLIM/Fourier vector analysis.Sequential application of cold and sodium lauryl sulphate decreases irritation and barrier disruption in vivo in humans.The effect of wet-wrap dressing on epidermal barrier in patients with atopic dermatitis.Biophysical effects of repetitive removal of adhesive dressings on peri-ulcer skin.Elevated transglutaminase-2 expression in the epidermis of psoriatic skin and its role in the skin lesion development.Preservation of phenotype in an organotypic cell culture model of a recessive keratinization defect of Norfolk terrier dogs.Skin Barrier and Calcium.
P2860
Q28468651-C7D7C851-BC08-4483-B3C6-AAC4FF996296Q33637198-093F9771-A522-4D86-9954-EC1A7A3B8187Q33696061-E3ED6907-B9D9-4518-B20D-93F2F7EF5916Q34440575-762E59C9-6C08-46F2-82C6-DE028E992511Q34667851-B42D4C98-0D34-4AA0-A9CB-58A69129FE2EQ34838614-C0470669-4CDA-47F9-9DF2-A8AD9DBA395DQ35549914-215568A8-11C0-4C80-BD51-C0DACC79B22DQ35713209-AAD76FED-4D0A-4F7B-B2CF-BC115F42F7CCQ36032083-8AC278E4-195C-4531-B425-A1EEF6D97735Q36089572-B6FF9D77-78CD-46D8-BA52-7CB890F29F8EQ36228049-967BC0EC-9650-445A-83A6-794C5A7846CEQ36276700-47FB2A45-C3E6-4730-A3B8-46BEAA9108E5Q36357354-F36D6628-A2FC-4BA7-B186-9AA437586C62Q36411747-7771A023-10A3-49DF-A17A-2DE88BDB3389Q36543660-02BF6B06-B0BF-4AB4-9AF9-23E62699B5D0Q36620344-024E8E68-BEF7-4BE6-9582-AD3803BDE080Q36652505-ACE89576-72ED-4EE2-BC26-4723466F96C1Q36700065-4EBB9E4D-8272-4EE3-BE53-F064FBE71E2FQ37350637-A565ABD7-F489-42E5-A1A4-A768E17DA53EQ37459023-7EA97A44-7A13-4371-BB62-FA86D65C65C9Q38019960-DCE35781-60F6-4310-99B9-AB60CA61D3B8Q38194341-035EF249-B847-499B-93A8-633D6F6CA923Q38949757-37FC2F9D-97AA-44F4-8FBB-132E6537530BQ39029659-6EFCB4C3-7C01-4388-9F0A-35DF980712BEQ41046842-87E604D4-61CB-42D0-9989-4A45822DFEA2Q41633583-6CDD5439-FB23-4830-B835-50BF6EC72149Q42118187-980F586E-BBC8-4CE4-9F74-620C58183260Q42495579-4B130DD5-A5D1-480C-BE68-6E785EEA6858Q42553440-76A44C52-FDFA-49D4-A420-63E87E0010F0Q42578634-84D68DF9-AD14-40A0-B1C6-E43ECF06ADA3Q46445400-AB8A024E-2D16-4A21-8D25-C72E646F1E0DQ50879028-8C7F8F07-4843-4F6C-9B3F-54FF196015DCQ51198285-8CE14264-9598-4393-9287-0F830CE91861Q54229452-77F48634-1E10-4123-875E-378AEE610FA2Q54659856-DBC50CA7-CF0D-4A72-8B77-961896C1C5ABQ55029705-CA92C0D4-C727-4CB4-A4A5-93DF6F7AE505
P2860
Origin of the epidermal calcium gradient: regulation by barrier status and role of active vs passive mechanisms.
description
2002 nî lūn-bûn
@nan
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
2002年论文
@zh
2002年论文
@zh-cn
name
Origin of the epidermal calciu ...... active vs passive mechanisms.
@en
Origin of the epidermal calciu ...... active vs passive mechanisms.
@nl
type
label
Origin of the epidermal calciu ...... active vs passive mechanisms.
@en
Origin of the epidermal calciu ...... active vs passive mechanisms.
@nl
prefLabel
Origin of the epidermal calciu ...... active vs passive mechanisms.
@en
Origin of the epidermal calciu ...... active vs passive mechanisms.
@nl
P2093
P1476
Origin of the epidermal calciu ...... active vs passive mechanisms.
@en
P2093
BarbaraE Brown
Debra Crumrine
Kenneth R Feingold
PeterM Elias
P304
P356
10.1046/J.1523-1747.2002.19622.X
P407
P577
2002-12-01T00:00:00Z
P5875
P6179
1021869429