scholarly article | Q13442814 |
P50 | author | Eisaku Ueta | Q115648977 |
Tokio Osaki | Q115648980 | ||
P2093 | author name string | Tetsuya Yamamoto | |
Tetsuro Okamoto | |||
Benjuan Wei | |||
Toyohiro Tanida | |||
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Identification of the bactericidal domain of lactoferrin | Q24306897 | ||
Human salivary histatin 5 causes disordered volume regulation and cell cycle arrest in Candida albicans | Q24537545 | ||
Human beta-defensin-2 | Q28139532 | ||
Echinocandin antifungal drugs | Q29398696 | ||
Oral manifestations in HIV infection: fungal and bacterial infections, Kaposi's sarcoma | Q31137858 | ||
Antimicrobial peptides as potential new antifungals | Q33949783 | ||
Salivary histatin 5 and human neutrophil defensin 1 kill Candida albicans via shared pathways. | Q33980976 | ||
Lactoferrin peptide increases the survival of Candida albicans-inoculated mice by upregulating neutrophil and macrophage functions, especially in combination with amphotericin B and granulocyte-macrophage colony-stimulating factor | Q34007871 | ||
Antimicrobial peptides from human platelets | Q34258124 | ||
Antimicrobial peptides: therapeutic potential for the treatment of Candida infections | Q34519189 | ||
The superoxide-generating NADPH oxidase: structural aspects and activation mechanism | Q35003216 | ||
Modulation of the in vitro candidacidal activity of human neutrophil defensins by target cell metabolism and divalent cations | Q35589794 | ||
Response and specificity of antibodies for Candida albicans | Q36847565 | ||
Anticandidal activity of major human salivary histatins | Q36966811 | ||
The antifungal echinocandin caspofungin acetate kills growing cells of Aspergillus fumigatus in vitro | Q39652699 | ||
Defensins: a family of antimicrobial and cytotoxic peptides | Q40388073 | ||
Role of reactive oxygen metabolites in murine peritoneal macrophage phagocytosis and phagocytic killing | Q41161960 | ||
Antibacterial spectrum of lactoferricin B, a potent bactericidal peptide derived from the N-terminal region of bovine lactoferrin | Q41504737 | ||
In vitro susceptibility of Candida species to lactoferrin | Q41632849 | ||
Leukocyte-derived antimicrobial proteins | Q41644174 | ||
Human salivary MUC7 mucin peptides: effect of size, charge and cysteine residues on antifungal activity | Q43003137 | ||
A novel bovine lactoferrin peptide, FKCRRWQWRM, suppresses Candida cell growth and activates neutrophils | Q43572569 | ||
Fungicidal effect of human lactoferrin against Candida albicans | Q43646621 | ||
Mechanism of extracellular release of human neutrophil calprotectin complex. | Q43660620 | ||
Activation of phagocytic cell NADPH oxidase by norfloxacin: a potential mechanism to explain its bactericidal action. | Q43871330 | ||
Antifungal mechanism of an antimicrobial peptide, HP (2--20), derived from N-terminus of Helicobacter pylori ribosomal protein L1 against Candida albicans | Q43897391 | ||
The therapeutic effect of bovine lactoferrin in the host infected with Helicobacter pylori | Q43991044 | ||
Extracellular adenosine nucleotides stimulate protein kinase C activity and human neutrophil activation | Q44155899 | ||
Relative contributions of myeloperoxidase and NADPH-oxidase to the early host defense against pulmonary infections with Candida albicans and Aspergillus fumigatus | Q44273945 | ||
Toll-like receptors stimulate human neutrophil function | Q44493366 | ||
Candidemia in women with breast carcinoma treated with high-dose chemotherapy and autologous bone marrow transplantation | Q44496027 | ||
Involvement of the extracellular signal regulated kinase pathway in hydrocarbon-induced reactive oxygen species formation in human neutrophil granulocytes | Q44523627 | ||
The role of toll-like receptor (TLR) 2 and TLR4 in the host defense against disseminated candidiasis | Q44933430 | ||
Effect of granulocyte-macrophage colony-stimulating factor on candidacidal activity of neutrophils, monocytes or monocyte-derived macrophages and synergy with fluconazole. | Q45989457 | ||
In vitro antimicrobial activity of defensins against ocular pathogens | Q46118625 | ||
Neutrophil defensins induce histamine secretion from mast cells: mechanisms of action | Q46305548 | ||
Molecular diagnosis and epidemiology of fungal infections. | Q46485692 | ||
Evaluation of the antimicrobial effect of lactoferrin on Porphyromonas gingivalis, Prevotella intermedia and Prevotella nigrescens | Q47872025 | ||
Salivary histatins in patients with recurrent oral candidiasis. | Q50847666 | ||
The Cellular Target of Histatin 5 onCandida albicansIs the Energized Mitochondrion | Q60314983 | ||
The involvement of nitric oxide in the anti-Candida albicans activity of rat neutrophils | Q71834571 | ||
Cooperative anti-Candida effects of lactoferrin or its peptides in combination with azole antifungal agents | Q71951141 | ||
Cationic amphipathic peptides, derived from bovine and human lactoferrins, with antimicrobial activity against oral pathogens | Q73076636 | ||
Roles of p38 MAPK, PKC and PI3-K in the signaling pathways of NADPH oxidase activation and phagocytosis in bovine polymorphonuclear leukocytes | Q73450461 | ||
CD40/CD40 ligand interactions in the host defense against disseminated Candida albicans infection: the role of macrophage-derived nitric oxide | Q78022357 | ||
P433 | issue | 6 | |
P921 | main subject | amphotericin B | Q412223 |
P304 | page(s) | 1111-1119 | |
P577 | publication date | 2004-11-01 | |
P1433 | published in | Clinical and Vaccine Immunology | Q5133811 |
P1476 | title | Regulation of fungal infection by a combination of amphotericin B and peptide 2, a lactoferrin peptide that activates neutrophils | |
P478 | volume | 11 |
Q46807806 | Antimicrobial peptides enhance the candidacidal activity of antifungal drugs by promoting the efflux of ATP from Candida cells |
Q35045054 | Aspergillus fumigatus and related species |
Q42817490 | Fungicidal activity of human lactoferrin-derived peptides based on the antimicrobial αβ region |
Q48163385 | Host Soluble Mediators: Defying the Immunological Inertness of Aspergillus fumigatus Conidia |
Q33408059 | Inducible expression of beta defensins by human respiratory epithelial cells exposed to Aspergillus fumigatus organisms. |
Q36460651 | Innate Immunity and the Role of Epithelial Barrier During Aspergillus fumigatus Infection. |
Q34043199 | Lactoferrin as a natural immune modulator |
Q46262525 | Lactoferrin, chitosan and Melaleuca alternifolia-natural products that show promise in candidiasis treatment |
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