sameAs
The 2011 report on dietary reference intakes for calcium and vitamin D from the Institute of Medicine: what clinicians need to knowCommensal bacteria regulate Toll-like receptor 3-dependent inflammation after skin injuryCytosolic DNA triggers inflammasome activation in keratinocytes in psoriatic lesionsAntimicrobial property of lauric acid against Propionibacterium acnes: its therapeutic potential for inflammatory acne vulgarisAntimicrobial peptides and the skin immune defense systemPorphyrin metabolisms in human skin commensal Propionibacterium acnes bacteria: potential application to monitor human radiation riskRosacea as a disease of cathelicidins and skin innate immunityStructure, Dynamics, and Antimicrobial and Immune Modulatory Activities of Human LL-23 and Its Single-Residue Variants Mutated on the Basis of Homologous Primate CathelicidinsThe response of human skin commensal bacteria as a reflection of UV radiation: UV-B decreases porphyrin productionThe antimicrobial protein REG3A regulates keratinocyte proliferation and differentiation after skin injuryPropionibacterium acnes CAMP factor and host acid sphingomyelinase contribute to bacterial virulence: potential targets for inflammatory acne treatmentExogenous addition of a C-xylopyranoside derivative stimulates keratinocyte dermatan sulfate synthesis and promotes migrationPR-39, a syndecan-inducing antimicrobial peptide, binds and affects p130(Cas).Neutrophil differentiation into a unique hybrid population exhibiting dual phenotype and functionality of neutrophils and dendritic cellsThe host defense peptide cathelicidin is required for NK cell-mediated suppression of tumor growthA peptide with a ProGln C terminus in the human saliva peptidome exerts bactericidal activity against Propionibacterium acnes.Mast cell cathelicidin antimicrobial peptide prevents invasive group A Streptococcus infection of the skin.Staphylococcus epidermidis antimicrobial delta-toxin (phenol-soluble modulin-gamma) cooperates with host antimicrobial peptides to kill group A Streptococcus.IOM committee members respond to Endocrine Society vitamin D guidelineCathelicidin host defence peptide augments clearance of pulmonary Pseudomonas aeruginosa infection by its influence on neutrophil function in vivo.M1T1 group A streptococcal pili promote epithelial colonization but diminish systemic virulence through neutrophil extracellular entrapment.Vaccination targeting surface FomA of Fusobacterium nucleatum against bacterial co-aggregation: Implication for treatment of periodontal infection and halitosis.Expression and activity of a novel cathelicidin from domestic cats.The essentiality of alpha-2-macroglobulin in human salivary innate immunity against new H1N1 swine origin influenza A virus.Neuroendocrine nicotinic receptor activation increases susceptibility to bacterial infections by suppressing antimicrobial peptide productionClpX contributes to innate defense peptide resistance and virulence phenotypes of Bacillus anthracis.Genetic variants in thymic stromal lymphopoietin are associated with atopic dermatitis and eczema herpeticum.M protein and hyaluronic acid capsule are essential for in vivo selection of covRS mutations characteristic of invasive serotype M1T1 group A Streptococcus.Hyaluronan breakdown contributes to immune defense against group A StreptococcusDistinct innate immune gene expression profiles in non-melanoma skin cancer of immunocompetent and immunosuppressed patientsMast cells are key mediators of cathelicidin-initiated skin inflammation in rosaceaNovel role of the antimicrobial peptide LL-37 in the protection of neutrophil extracellular traps against degradation by bacterial nucleases.Functions of the skin microbiota in health and disease.A bacterial pathogen co-opts host plasmin to resist killing by cathelicidin antimicrobial peptidesDevelopment of atopic dermatitis-like skin disease from the chronic loss of epidermal caspase-8Dermatan sulfate released after injury is a potent promoter of fibroblast growth factor-2 function.Mechanism for 193-nm laser radiation-induced effects on mammalian cells.Phenotype of atopic dermatitis subjects with a history of eczema herpeticum.Staphylococcus aureus hijacks a skin commensal to intensify its virulence: immunization targeting β-hemolysin and CAMP factor.Sebum free fatty acids enhance the innate immune defense of human sebocytes by upregulating beta-defensin-2 expression
P50
Q22306208-884F5CC2-8F10-446F-934F-371D13DE79F9Q24600221-045C9A88-730A-4A18-B243-6A1355AF5009Q24629755-E4A95BCB-0DA4-46FA-8657-F4203CCC4676Q24645431-4B30319D-EE19-4AF1-8512-80990E586C2DQ24654981-2A59C7C9-8054-44A7-A961-8AE7FBD540FDQ26865128-C5D85BE9-12B5-4815-A1C3-5F4B4AC0A2EFQ27025543-8EED7757-DC3E-4762-A433-7454D9276695Q27676333-804C4DCF-8C0F-44F6-80EE-D596C2100E57Q28484643-09DCA799-0359-4474-9986-05F94F5C0C33Q28507522-295FBC6D-4E42-4253-88AC-7FFB69B343CBQ28741201-187C4CB1-ACB2-4469-AB9D-B4C65F946224Q28744232-92A66595-BFA2-43A6-AE31-FC38415A21CCQ30176010-1B243D46-52A0-4B5A-824D-C7E6C3B19596Q30537302-9A9FEE15-CE9E-4E1E-BDFE-1C0A8E3C51D9Q30933550-D05162EA-0622-4EAA-91DB-2501CB6C04C4Q33320408-DFD3694F-F97A-468D-8FAB-354A6AB87BE8Q33336048-6941326A-FF82-4846-B60D-E2035C165FB3Q33522202-1A8DF7EC-A838-4404-89B0-2F6F432AD075Q33569932-B9C0419A-FFD2-4480-8AAE-5A3F4415A2ABQ33700171-4EFA5B54-5945-401E-861B-A41D9140C445Q33746669-5A7AE015-C82A-4019-8535-36CC23CD1A01Q33794543-844D0685-6D49-4FC1-8691-E20726FB1BD1Q33886915-A1D55056-1755-4EE2-8176-FC1DE590A429Q33931352-74E1F8C9-CCED-446A-9D59-1EE559EFBA84Q34044895-91278D1A-7453-426A-BFA9-A27C2BCE5D46Q34061669-830CB502-48DA-4790-9739-CE22AE5B1FDAQ34078819-981C2699-92D0-4E7C-A31A-97075EA3CA89Q34107122-7176CC9E-CD99-4235-B370-4BDA611A5986Q34245010-9E7D11B1-635A-48F4-892B-961B581E71DAQ34342371-E6402B2F-9ABB-40C8-AFAA-9ABBD6E65264Q34353391-C79A1A50-8F7D-4819-B461-2C4A209395F9Q34364187-C295A1A4-8D82-42E3-B328-359DC6B2D4C9Q34387284-955C81B8-EFE3-41C6-8575-74BFFC305A95Q34434420-EBCFA7C7-5D83-4B56-A8FA-100071909B5CQ34438460-A4100C39-60A1-4CE9-AE6F-D5A7A3B16CBEQ34475404-2CF23C23-C19F-406E-8AA8-80EF8BD0E2F4Q34567898-D0EEC50C-9354-47A7-87FD-D2203DB06DFEQ34663953-B5B6C669-E18E-4971-B7E6-675A22146826Q34670475-29E4C719-8501-447B-9ECC-5EBFCE9E78F5Q34670614-857FF067-36A0-4F4E-9F39-9089C8168951
P50
description
American dermatologist
@en
dermatoloog
@nl
dermatólogo estadounidense
@es
name
Richard Gallo
@ast
Richard Gallo
@de
Richard Gallo
@en
Richard Gallo
@es
Richard Gallo
@fr
Richard Gallo
@it
Richard Gallo
@nl
理查德·加洛
@zh
type
label
Richard Gallo
@ast
Richard Gallo
@de
Richard Gallo
@en
Richard Gallo
@es
Richard Gallo
@fr
Richard Gallo
@it
Richard Gallo
@nl
理查德·加洛
@zh
altLabel
Richard L Gallo
@en
Richard L Gallo
@fr
Richard L. Gallo
@en
prefLabel
Richard Gallo
@ast
Richard Gallo
@de
Richard Gallo
@en
Richard Gallo
@es
Richard Gallo
@fr
Richard Gallo
@it
Richard Gallo
@nl
理查德·加洛
@zh
P106
P1153
7201433211
P21
P31
P496
0000-0002-1401-7861