Molecular mechanisms of membrane perturbation by antimicrobial peptides and the use of biophysical studies in the design of novel peptide antibiotics.
about
Bioactive Molecules Released in Food by Lactic Acid Bacteria: Encrypted Peptides and Biogenic AminesAntimicrobial Activity of Lactoferrin-Related Peptides and Applications in Human and Veterinary MedicineStructural basis for antimicrobial activity of lasiocepsinAntimicrobial Peptides Targeting Gram-Positive BacteriaBactericidal and membrane disruption activities of the eosinophil cationic protein are largely retained in an N-terminal fragmentHighly selective end-tagged antimicrobial peptides derived from PRELPA theoretical approach to spot active regions in antimicrobial proteins.Comparison of interactions between beta-hairpin decapeptides and SDS/DPC micelles from experimental and simulation data.Effects of cationic antimicrobial peptides on liquid-preserved boar spermatozoa.A Fourier transformation based method to mine peptide space for antimicrobial activity.Antimicrobial activity of human prion protein is mediated by its N-terminal region.Reversible liposome association induced by LAH4: a peptide with potent antimicrobial and nucleic acid transfection activities.Influence of First-Line Antibiotics on the Antibacterial Activities of Acetone Stem Bark Extract of Acacia mearnsii De Wild. against Drug-Resistant Bacterial Isolates.C-terminal peptides of tissue factor pathway inhibitor are novel host defense molecules.Transposon disruption of the complex I NADH oxidoreductase gene (snoD) in Staphylococcus aureus is associated with reduced susceptibility to the microbicidal activity of thrombin-induced platelet microbicidal protein 1.Structural features governing the activity of lactoferricin-derived peptides that act in synergy with antibiotics against Pseudomonas aeruginosa in vitro and in vivoThe front line of enteric host defense against unwelcome intrusion of harmful microorganisms: mucins, antimicrobial peptides, and microbiotaDifferential scanning calorimetry: An invaluable tool for a detailed thermodynamic characterization of macromolecules and their interactionsInteraction of antimicrobial peptide temporin L with lipopolysaccharide in vitro and in experimental rat models of septic shock caused by gram-negative bacteria.Low-level resistance of Staphylococcus aureus to thrombin-induced platelet microbicidal protein 1 in vitro associated with qacA gene carriage is independent of multidrug efflux pump activityHost defense peptides as effector molecules of the innate immune response: a sledgehammer for drug resistance?Studies on lactoferricin-derived Escherichia coli membrane-active peptides reveal differences in the mechanism of N-acylated versus nonacylated peptides.N-acylated peptides derived from human lactoferricin perturb organization of cardiolipin and phosphatidylethanolamine in cell membranes and induce defects in Escherichia coli cell division.Antiplasmodial properties of acyl-lysyl oligomers in culture and animal models of malaria.DAMPD: a manually curated antimicrobial peptide database.Ultrashort peptide bioconjugates are exclusively antifungal agents and synergize with cyclodextrin and amphotericin B.Infectious Disease: Connecting Innate Immunity to Biocidal Polymers.Crabrolin, a natural antimicrobial peptide: structural properties.A quantitative model for the all-or-none permeabilization of phospholipid vesicles by the antimicrobial peptide cecropin A.Synthetic lipopeptides: a novel class of anti-infectives.Membrane thickening by the antimicrobial peptide PGLa.Comparative analysis of selected methods for the assessment of antimicrobial and membrane-permeabilizing activity: a case study for lactoferricin derived peptides.Human antimicrobial proteins effectors of innate immunity.Membrane-active host defense peptides--challenges and perspectives for the development of novel anticancer drugs.Use of X-ray scattering to aid the design and delivery of membrane-active drugs.Pore-forming bacterial toxins and antimicrobial peptides as modulators of ADAM function.Ribosomally synthesized peptides from natural sources.Cationic amphipathic peptides accumulate sialylated proteins and lipids in the plasma membrane of eukaryotic host cells.In search of a novel target - phosphatidylserine exposed by non-apoptotic tumor cells and metastases of malignancies with poor treatment efficacyInteraction of LL-37 with model membrane systems of different complexity: influence of the lipid matrix.
P2860
Q26745047-53E2D958-3D8A-448B-805A-6D466B70C7A5Q26746324-7C773A06-551F-41E3-AB60-91A2C8664AC7Q27687976-7CC93DA9-41B2-40EB-9E2D-1CE6C3CDB42FQ28077888-225FB1D6-644F-4A9C-AB24-D062F1209CDDQ28245370-DC54D2B0-CE9D-4029-A2EE-46B508DE002BQ28476835-731F6398-B581-4681-AC37-9FF87318096DQ30882053-54FE0860-E2A0-4FE7-9E69-07BA129C73FBQ31119012-EA3D68CA-F838-43C3-A086-E4CA5B539537Q31166292-EA75E77F-A276-43E7-9C7D-24C0E09DB90CQ33264200-D6F77719-AF6B-481C-85DE-795D520A9846Q33509013-25C4D046-85DA-4193-A708-AB4EFA715E4AQ33880337-B609EA55-083E-4866-906E-96A6C17419C8Q33914695-9E74DC7B-3516-46D6-AF4A-D64458666C3FQ34107512-8DF790AA-4AE5-4C65-BFEA-3AC9D0BCD212Q34233206-1457CA8E-D7DF-412F-BA60-2F84BCA25104Q34483627-D7C8DFEE-8AF1-4DBB-98B3-6AC962A9F96DQ34647328-261E93F0-7409-4087-8221-AE0CA9BA5169Q34648464-0C70EB50-46DE-400D-BFD8-8D0A90C68F7CQ34721515-F7BA1255-3283-4110-B9ED-0ADA9E855345Q34721784-FF0B3B2E-BF38-4C17-9A3D-8C8DE053648AQ35010044-FC79CE72-20A8-40A6-A3CD-5711F8532CDEQ35065154-783F5B5E-6B57-4405-87CE-63FFAAB4C1A7Q35111141-5644C2D7-1C83-457C-91CC-33EF37098682Q35139434-8693B541-8B6E-4519-B952-FF7D5F6C5B78Q35630683-98CFD28D-0B9D-4D01-ADE6-D4EE6C45EF06Q35666408-8E4C422F-0C7A-41AA-ADE4-0726C9C88F7AQ36298207-A6F91BCC-8926-40E5-A376-B13A2C5EEB37Q36392529-D50A6F00-7CEB-4252-B997-7A27662E0CD3Q36459114-DED2AC5E-9A9F-4F17-BCE5-B26EB574D9FEQ36904839-EF773F39-24ED-4A99-976E-2E0FA33881B3Q37008171-26F474BA-DD0C-447A-8808-2C8725154871Q37041432-6EA50B8E-8557-4E26-83E3-66FDE2C6F367Q37053332-DB245E63-ADB9-4698-85E9-7614843D6FE4Q37938364-E9040A9C-E48C-4ADC-BBFD-1E8E159A3F9CQ38015717-D58D6F9C-416D-419F-8C47-95B5608B0DCEQ38042836-A0A4CA45-FFB0-4F2F-B637-A932E81FAD01Q38187207-57C8949C-A7BC-4BF4-9714-48A8BE2F1554Q38258695-3721A8E1-5132-4B27-B993-E735CF8626E3Q38491362-3646931E-3671-43F2-BF59-6630472AD2B1Q38630326-A00F9B5B-D6CC-4BA9-9B2E-6049A1BD59A4
P2860
Molecular mechanisms of membrane perturbation by antimicrobial peptides and the use of biophysical studies in the design of novel peptide antibiotics.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
2005年论文
@zh
2005年论文
@zh-cn
name
Molecular mechanisms of membra ...... of novel peptide antibiotics.
@ast
Molecular mechanisms of membra ...... of novel peptide antibiotics.
@en
type
label
Molecular mechanisms of membra ...... of novel peptide antibiotics.
@ast
Molecular mechanisms of membra ...... of novel peptide antibiotics.
@en
prefLabel
Molecular mechanisms of membra ...... of novel peptide antibiotics.
@ast
Molecular mechanisms of membra ...... of novel peptide antibiotics.
@en
P356
P1476
Molecular mechanisms of membra ...... of novel peptide antibiotics.
@en
P2093
Blondelle SE
P304
P356
10.2174/1386207053764576
P577
2005-05-01T00:00:00Z