Related references
Note: Only part of the references are listed.Clinical Applications and Anticancer Effects of Antimicrobial Peptides: From Bench to Bedside
Ameneh Jafari et al.
FRONTIERS IN ONCOLOGY (2022)
Atomic-Resolution Structures and Mode of Action of Clinically Relevant Antimicrobial Peptides
Surajit Bhattacharjya et al.
INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES (2022)
Analogs of the Cathelicidin-Derived Antimicrobial Peptide PMAP-23 Exhibit Improved Stability and Antibacterial Activity
Yongqing Liu et al.
PROBIOTICS AND ANTIMICROBIAL PROTEINS (2021)
Improved Cell Selectivity of Symmetric α-Helical Peptides Derived From Trp-Rich Antimicrobial Peptides
Hyunhee Lee et al.
BULLETIN OF THE KOREAN CHEMICAL SOCIETY (2020)
Reassessing the Host Defense Peptide Landscape
Evan F. Haney et al.
FRONTIERS IN CHEMISTRY (2019)
Positive Charge Patterning and Hydrophobicity of Membrane-Active Antimicrobial Peptides as Determinants of Activity, Toxicity, and Pharmacokinetic Stability
Tracy A. Stone et al.
JOURNAL OF MEDICINAL CHEMISTRY (2019)
Structural analysis and mode of action of BMAP-27, a cathelicidin-derived antimicrobial peptide
Sungtae Yang et al.
PEPTIDES (2019)
Conjugation of Cell-Penetrating Peptides to Antimicrobial Peptides Enhances Antibacterial Activity
Hyunhee Lee et al.
ACS OMEGA (2019)
Mechanistic Landscape of Membrane-Permeabilizing Peptides
Shantanu Guha et al.
CHEMICAL REVIEWS (2019)
The antimicrobial peptide SAAP-148 combats drug-resistant bacteria and biofilms
Anna de Breij et al.
SCIENCE TRANSLATIONAL MEDICINE (2018)
Antimicrobial Peptides and Nanotechnology, Recent Advances and Challenges
Lubhandwa S. Biswaro et al.
FRONTIERS IN MICROBIOLOGY (2018)
Antimicrobial Peptides: Diversity, Mechanism of Action and Strategies to Improve the Activity and Biocompatibility In Vivo
Prashant Kumar et al.
BIOMOLECULES (2018)
Membrane-active Antimicrobial Peptides as Template Structures for Novel Antibiotic Agents
Karl Lohner
CURRENT TOPICS IN MEDICINAL CHEMISTRY (2017)
Antimicrobial and Immunomodulatory Activity of PMAP-23 Derived Peptides
Edwin J. A. Veldhuizen et al.
PROTEIN AND PEPTIDE LETTERS (2017)
Antimicrobial peptides with selective antitumor mechanisms: prospect for anticancer applications
Berthony Deslouches et al.
ONCOTARGET (2017)
NMR Structures and Interactions of Antimicrobial Peptides with Lipopolysaccharide: Connecting Structures to Functions
Surajit Bhattacharjya
CURRENT TOPICS IN MEDICINAL CHEMISTRY (2016)
Antimicrobial Peptide Structure and Mechanism of Action: A Focus on the Role of Membrane Structure
Tzong-Hsien Lee et al.
CURRENT TOPICS IN MEDICINAL CHEMISTRY (2016)
How Membrane-Active Peptides Get into Lipid Membranes
Marc-Antoine Sani et al.
ACCOUNTS OF CHEMICAL RESEARCH (2016)
Antimicrobial peptides
Ling-juan Zhang et al.
CURRENT BIOLOGY (2016)
GETTING TO THE OUTER LEAFLET: PHYSIOLOGY OF PHOSPHATIDYLSERINE EXPOSURE AT THE PLASMA MEMBRANE
Edouard M. Bevers et al.
PHYSIOLOGICAL REVIEWS (2016)
Antimicrobial Peptides : An Emerging Category of Therapeutic Agents
Margit Mahlapuu et al.
FRONTIERS IN CELLULAR AND INFECTION MICROBIOLOGY (2016)
Immune modulation by multifaceted cationic host defense (antimicrobial) peptides
Ashley L. Hilchie et al.
NATURE CHEMICAL BIOLOGY (2013)
From antimicrobial to anticancer peptides. A review
Diana Gaspar et al.
FRONTIERS IN MICROBIOLOGY (2013)
Cathelicidins: family of antimicrobial peptides. A review
Ewa M. Kosciuczuk et al.
MOLECULAR BIOLOGY REPORTS (2012)
Describing the Mechanism of Antimicrobial Peptide Action with the Interfacial Activity Model
William C. Wimley
ACS CHEMICAL BIOLOGY (2010)
NMR Structure of Pardaxin, a Pore-forming Antimicrobial Peptide, in Lipopolysaccharide Micelles MECHANISM OF OUTER MEMBRANE PERMEABILIZATION
Anirban Bhunia et al.
JOURNAL OF BIOLOGICAL CHEMISTRY (2010)
Structure, Interactions, and Antibacterial Activities of MSI-594 Derived Mutant Peptide MSI-594F5A in Lipopolysaccharide Micelles: Role of the Helical Hairpin Conformation in Outer-Membrane Permeabilization
Prerna N. Domadia et al.
JOURNAL OF THE AMERICAN CHEMICAL SOCIETY (2010)
Effect of dimerization of a β-turn antimicrobial peptide, PST13-RK, on antimicrobial activity and mammalian cell toxicity
Sung-Tae Yang et al.
BIOTECHNOLOGY LETTERS (2009)
Helical Hairpin Structure of a Potent Antimicrobial Peptide MSI-594 in Lipopolysaccharide Micelles by NMR Spectroscopy
Anirban Bhunia et al.
CHEMISTRY-A EUROPEAN JOURNAL (2009)
Different modes in antibiotic action of tritrpticin analogs, cathelicidin-derived Trp-rich and Pro/Arg-rich peptides
Sung-Tae Yang et al.
BIOCHIMICA ET BIOPHYSICA ACTA-BIOMEMBRANES (2006)
Contribution of a central proline in model amphipathic α-helical peptides to self-association, interaction with phospholipids, and antimicrobial mode of action
Sung-Tae Yang et al.
FEBS JOURNAL (2006)
Design of perfectly symmetric Trp-rich peptides with potent and broad-spectrum antimicrobial activities
Sung-Tae Yang et al.
INTERNATIONAL JOURNAL OF ANTIMICROBIAL AGENTS (2006)
Possible role of a PXXP central hinge in the antibacterial activity and membrane interaction of PMAP-23, a member of cathelicidin family
ST Yang et al.
BIOCHEMISTRY (2006)
Structural studies of porcine myeloid antibacterial peptide PMAP-23 and its analogues in DPC micelles by NMR spectroscopy
K Park et al.
BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS (2002)
Interactions of bacterial cationic peptide antibiotics with outer and cytoplasmic membranes of Pseudomonas aeruginosa
LJ Zhang et al.
ANTIMICROBIAL AGENTS AND CHEMOTHERAPY (2000)
Interactions of the novel antimicrobial peptide buforin 2 with lipid bilayers: Proline as a translocation promoting factor
S Kobayashi et al.
BIOCHEMISTRY (2000)
Share Paper
