The human salivary peptide histatin 5 exerts its antifungal activity through the formation of reactive oxygen species.
about
Synergistic activity of the N-terminal peptide of human lactoferrin and fluconazole against Candida speciesReactive oxygen species-inducing antifungal agents and their activity against fungal biofilmsThe antimicrobial peptide histatin-5 causes a spatially restricted disruption on the Candida albicans surface, allowing rapid entry of the peptide into the cytoplasmAntifungal Activity and Action Mechanism of Histatin 5-Halocidin Hybrid Peptides against Candida sspCandida albicans Ssa1/2p is the cell envelope binding protein for human salivary histatin 5Context mediates antimicrobial efficacy of kinocidin congener peptide RP-1MUC7 20-Mer: investigation of antimicrobial activity, secondary structure, and possible mechanism of antifungal actionHydroethidine- and MitoSOX-derived red fluorescence is not a reliable indicator of intracellular superoxide formation: another inconvenient truthImproved bioactivity of antimicrobial peptides by addition of amino-terminal copper and nickel (ATCUN) binding motifsInternalisation and degradation of histatin 5 by Candida albicans.A novel immune evasion strategy of candida albicans: proteolytic cleavage of a salivary antimicrobial peptide.Novel cathelicidin-derived antimicrobial peptides from Equus asinus.Apoptosis induced by environmental stresses and amphotericin B in Candida albicans.Hydrogen peroxide acts on sensitive mitochondrial proteins to induce death of a fungal pathogen revealed by proteomic analysis.Bis(2,3-dibromo-4,5-dihydroxybenzyl) ether, a marine algae derived bromophenol, inhibits the growth of Botrytis cinerea and interacts with DNA molecules.Salivary histatin 5 internalization by translocation, but not endocytosis, is required for fungicidal activity in Candida albicans.The mechanism of antifungal action of essential oil from dill (Anethum graveolens L.) on Aspergillus flavus.Influence of histatin 5 on Candida albicans mitochondrial protein expression assessed by quantitative mass spectrometry.Histatin 5 resistance of Candida glabrata can be reversed by insertion of Candida albicans polyamine transporter-encoding genes DUR3 and DUR31.Identification and mechanism of action of the plant defensin NaD1 as a new member of the antifungal drug arsenal against Candida albicans.Human salivary histatin 5 fungicidal action does not induce programmed cell death pathways in Candida albicans.Histatin 5-derived peptide with improved fungicidal properties enhances human immunodeficiency virus type 1 replication by promoting viral entryHistatins: antimicrobial peptides with therapeutic potential.Immunopathogenesis of oropharyngeal candidiasis in human immunodeficiency virus infection.Histatin 5 initiates osmotic stress response in Candida albicans via activation of the Hog1 mitogen-activated protein kinase pathway.Antimicrobial chemokines.A study on β-defensin-2 and histatin-5 as a diagnostic marker of early childhood caries progressionEffects of histatin-1 peptide on human corneal epithelial cells.Peptide antimicrobial agents.Human lactoferrin induces apoptosis-like cell death in Candida albicans: critical role of K+-channel-mediated K+ effluxAntimicrobial Activity of Mesenchymal Stem Cells: Current Status and New Perspectives of Antimicrobial Peptide-Based TherapiesAntimicrobial peptides: to membranes and beyond.How does it kill?: understanding the candidacidal mechanism of salivary histatin 5.Interplay between Candida albicans and the antimicrobial peptide armory.Immunotherapy of Fungal Infections.Sequential and Structural Aspects of Antifungal Peptides from Animals, Bacteria and Fungi Based on Bioinformatics Tools.Transcriptome analysis of Streptococcus pneumoniae treated with the designed antimicrobial peptides, DM3.Human Antimicrobial Peptides in Bodily Fluids: Current Knowledge and Therapeutic Perspectives in the Postantibiotic Era.The synthetic killer peptide KP impairs Candida albicans biofilm in vitro.Antifungal activity in vitro and in vivo of a salmon protamine peptide and its derived cyclic peptide against Candida albicans.
P2860
Q24549843-CB9CD232-6ED1-4CB5-A3DB-D33E342877DBQ26861656-120FB41A-5925-4792-AA45-5B13177220FDQ27318386-3A9F67A7-A108-41E7-BC2A-02530F276CE5Q27320076-275CCFE5-3F62-4C6F-A120-FEA6EA4501E3Q28205819-8ABEBF32-FDF7-4372-80C2-ECA27E53EE27Q28477816-1E3F273D-574C-4636-984E-F72F1DE2C557Q29871517-EEAC478F-2833-4DCF-A549-BA3687A785B3Q30457642-E9CDF1D2-414D-4010-82D3-1235D4CC8DDBQ30651387-1DDC1DA2-F6D7-49ED-9893-BBAD5481EC05Q30911101-BC538928-E1FD-43A3-9BE8-8B8E41545ED3Q33427799-14331F60-BADB-47C2-A807-84C094316EE2Q33566187-B89678D3-8D67-4162-9870-D3E896491684Q33716986-C9449405-C705-446A-9C68-266D9937DD75Q33960340-1A5CC4B9-3F36-415E-95BD-F1B8055DC671Q33963493-75051760-7803-4DD1-A4D1-A2B917AEC0B8Q34017572-844E3839-38F2-4216-AC07-0453BF8E763BQ34137499-B9E1E930-A445-414C-B6FF-389086E8F81FQ34553406-BC231BA9-1AF8-492E-8198-C54C85EA4CE4Q34684434-DD5F13F7-D133-424B-B9A2-4143F5D90661Q34729481-59F207DB-D39E-4839-AB38-00229B69BB6CQ35006531-703BE935-E306-4587-9128-3564E55B8944Q35024210-0686C471-5A43-4EA9-A21D-8E5CF9591368Q35693395-D1DBD75E-D9C8-4969-8012-54FBCB3EC43DQ35920633-66AC8A93-0304-45EB-B169-50DFED95EF60Q36095359-31E1853E-5E16-4600-84D8-480B2DDC4317Q36224086-AFE9727D-2CE5-4EB5-9DE3-A64D990159E9Q36235152-4D2FB527-2536-4251-B9B5-EA0EFFDACF73Q36380592-9094BDE0-CA91-4226-A245-62CA099CE7E8Q36538861-88FC5AE3-B955-4459-8F85-5378DAB9CF94Q36949508-1894318C-86C9-49C5-B629-8E615220F6E3Q37727501-AF3A0EA8-16F7-4C77-94C3-3597B76700BEQ38089201-5965836F-DB55-4658-9DC9-048A5C822FACQ38222086-C8C74AEC-0CC6-4DA0-85A7-6F4DFFF01EFFQ38222087-B8F1FA13-DEB3-44C2-94BB-50DA402B23B9Q38635409-4A8F9335-52C4-4007-8B98-57E6DDEE7258Q38802524-DF1F7F07-2907-4E51-B9BE-28E9AF921C9EQ38862531-A9F0F75F-2027-4E45-BF42-6924FBF99902Q39091774-EE341F20-80DC-4AC4-BC07-3CCB1598567DQ40136133-FA739B40-FAE5-4ACC-B6D1-22BA2398E27BQ40424835-FDA37423-0C29-4BC8-ADFA-BCB7CF7807E3
P2860
The human salivary peptide histatin 5 exerts its antifungal activity through the formation of reactive oxygen species.
description
2001 nî lūn-bûn
@nan
2001 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2001 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2001年の論文
@ja
2001年論文
@yue
2001年論文
@zh-hant
2001年論文
@zh-hk
2001年論文
@zh-mo
2001年論文
@zh-tw
2001年论文
@wuu
name
The human salivary peptide his ...... on of reactive oxygen species.
@ast
The human salivary peptide his ...... on of reactive oxygen species.
@en
type
label
The human salivary peptide his ...... on of reactive oxygen species.
@ast
The human salivary peptide his ...... on of reactive oxygen species.
@en
prefLabel
The human salivary peptide his ...... on of reactive oxygen species.
@ast
The human salivary peptide his ...... on of reactive oxygen species.
@en
P2093
P2860
P356
P1476
The human salivary peptide his ...... on of reactive oxygen species.
@en
P2093
E J Helmerhorst
F G Oppenheim
R F Troxler
P2860
P304
14637-14642
P356
10.1073/PNAS.141366998
P407
P577
2001-11-20T00:00:00Z