Cargando…

Bis(Tryptophan) Amphiphiles Form Ion Conducting Pores and Enhance Antimicrobial Activity against Resistant Bacteria

The compounds referred to as bis(tryptophan)s (BTs) have shown activity as antimicrobials. The hypothesis that the activity of these novel amphiphiles results from insertion in bilayer membranes and transport of cations is supported by planar bilayer voltage-clamp studies reported herein. In additio...

Descripción completa

Detalles Bibliográficos
Autores principales:	Patel, Mohit, Negin, Saeedeh, Meisel, Joseph, Yin, Shanheng, Gokel, Michael, Gill, Hannah, Gokel, George
Formato:	Online Artículo Texto
Lenguaje:	English
Publicado:	MDPI 2021
Materias:	Article
Acceso en línea:	https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8614774/ https://www.ncbi.nlm.nih.gov/pubmed/34827329 http://dx.doi.org/10.3390/antibiotics10111391

Ejemplares similares

Antimicrobial and Adjuvant Potencies of Di-n-alkyl Substituted Diazalariat Ethers
por: Patel, Mohit B., et al.
Publicado: (2023)

Synthetic ionophores as non-resistant antibiotic adjuvants
por: Patel, Mohit B., et al.
Publicado: (2019)

A Simplified Direct Lipid Mixing Lipoplex Preparation: Comparison of Liposomal-, Dimethylsulfoxide-, and Ethanol-Based Methods
por: Meisel, Joseph W., et al.
Publicado: (2016)

Hydraphiles: A Rigorously Studied Class of Synthetic Channel Compounds with In Vivo Activity
por: Negin, Saeedeh, et al.
Publicado: (2013)

Assessment of a host–guest interaction in a bilayer membrane model
por: Kumari, Harshita, et al.
Publicado: (2022)

Is the present classification of discoid meniscus sufficient?
por: Bombaci, Hasan, et al.
Publicado: (2017)

What Can We Do to Improve Patient Satisfactıon in the Emergency Department? A Prospective Study in a Turkish University Hospital
por: Karagun, Ozlem, et al.
Publicado: (2018)

Beyond Amphiphilic Balance: Changing Subunit Stereochemistry Alters the Pore-Forming Activity of Nylon-3 Polymers
por: Liu, Lei, et al.
Publicado: (2021)

Interactions of the amphiphiles arbutin and tryptophan with phosphatidylcholine and phosphatidylethanolamine bilayers in the dry state
por: Popova, Antoaneta V, et al.
Publicado: (2013)

Tryptophan in the Pore of the Mechanosensitive Channel MscS: ASSESSMENT OF PORE CONFORMATIONS BY FLUORESCENCE SPECTROSCOPY
por: Rasmussen, Tim, et al.
Publicado: (2010)

Blocking Pore-open Mutants of CLC-0 by Amphiphilic Blockers
por: Zhang, Xiao-Dong, et al.
Publicado: (2009)

Low self-reported sports activity before stroke predicts poor one-year-functional outcome after first-ever ischemic stroke in a population-based stroke register
por: Urbanek, Christian, et al.
Publicado: (2018)

Prognostic Factors Determining Morbidity and Mortality in Organophosphate Poisoning
por: Acikalin, Ayca, et al.
Publicado: (2017)

Amphiphiles capsaicin and triton X-100 regulate the chemotherapy drug colchicine’s membrane adsorption and ion pore formation potency()
por: Ashrafuzzaman, Md.
Publicado: (2021)

Effects of Propofol and Propofol-Remifentanil Combinations on Haemodynamics, Seizure Duration and Recovery during Electroconvulsive Therapy
por: İkiz, Canan, et al.
Publicado: (2021)

Amphiphilic Blockers Punch through a Mutant CLC-0 Pore
por: Zhang, Xiao-Dong, et al.
Publicado: (2009)

Micelle and Bilayer Formation of Amphiphilic Janus Particles in a Slit-Pore
por: Rosenthal, Gerald, et al.
Publicado: (2012)

Posttranslational isoprenylation of tryptophan in bacteria
por: Okada, Masahiro, et al.
Publicado: (2017)

Commentary Cystic Fibrosis Transmembrane Conductance Regulator : Permeant Ions Find the Pore
por: Dawson, David C., et al.
Publicado: (1997)

Amphiphilic Silver Nanoparticles for Inkjet-Printable Conductive Inks
por: Ivanišević, Irena, et al.
Publicado: (2022)

Properties of the Mechanosensitive Channel MscS Pore Revealed by Tryptophan Scanning Mutagenesis
por: Rasmussen, Tim, et al.
Publicado: (2015)

Photo-Crosslinked Coumarin-Containing Bis-Urea Amphiphile Hydrogels
por: Liu, Jie, et al.
Publicado: (2022)

The exocytotic fusion pore of small granules has a conductance similar to an ion channel
Publicado: (1995)

Unblocking Ion‐occluded Pore Channels in Poly(triazine imide) Framework for Proton Conduction
por: Chi, Heng‐Yu, et al.
Publicado: (2022)

Tom40, the Pore-Forming Component of the Protein-Conducting Tom Channel in the Outer Membrane of Mitochondria
por: Ahting, Uwe, et al.
Publicado: (2001)

Multiwalled Nanotubes Formed by Catanionic Mixtures of Drug Amphiphiles
por: Lin, Yi-An, et al.
Publicado: (2014)

Structure of Supramers Formed by the Amphiphile Biotin‐CMG‐DOPE
por: Zalygin, Anton, et al.
Publicado: (2020)

Data on binding of L-tryptophan and bovine serum albumin by novel gold nanoparticles capped with amphiphilic sulfonatomethylated calixresorcinarenes
por: Shalaeva, Ya V., et al.
Publicado: (2019)

Investigating Ions at Amphiphilic Monolayers with X-ray Fluorescence
por: Brezesinski, Gerald, et al.
Publicado: (2019)

Oxysterols protect bovine endometrial cells against pore-forming toxins from pathogenic bacteria
por: Ormsby, Thomas J. R., et al.
Publicado: (2021)

Glucocorticoids increase tissue cell protection against pore-forming toxins from pathogenic bacteria
por: Ormsby, Thomas J. R., et al.
Publicado: (2023)

Inhibition of Pore-Forming Proteins
por: Omersa, Neža, et al.
Publicado: (2019)

Bacterial pore-forming toxins
por: Ulhuq, Fatima R., et al.
Publicado: (2022)

Peptide Nanovesicles Formed by the Self-Assembly of Branched Amphiphilic Peptides
por: Gudlur, Sushanth, et al.
Publicado: (2012)

Self-assembly of amphiphilic truncated cones to form hollow nanovesicles
por: Wang, Yali, et al.
Publicado: (2018)

A Pore Idea: the ion conduction pathway of TMEM16/ANO proteins is composed partly of lipid
por: Whitlock, Jarred M., et al.
Publicado: (2016)

Tuning of Morphology by Chirality in Self‐Assembled Structures of Bis(Urea) Amphiphiles in Water
por: Tosi, Filippo, et al.
Publicado: (2020)

A family of Type VI secretion system effector proteins that form ion-selective pores
por: Mariano, Giuseppina, et al.
Publicado: (2019)

Designing double-site lipidated peptide amphiphiles as potent antimicrobial biomaterials to combat multidrug-resistant bacteria
por: Lai, Zhenheng, et al.
Publicado: (2022)

The P. aeruginosa effector Tse5 forms membrane pores disrupting the membrane potential of intoxicated bacteria
por: González-Magaña, Amaia, et al.
Publicado: (2022)

Cannot write session to /tmp/vufind_sessions/sess_44urq58e0psrgppk3j1h2uss8o