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  1. Article: Anion-exchange mechanisms in bacteria.

    Maloney, P C / Ambudkar, S V / Anatharam, V / Sonna, L A / Varadhachary, A

    Microbiological reviews

    1990  Volume 54, Issue 1, Page(s) 1–17

    Abstract: ... affinity, and when it participates in exchange, it is always taken as the monovalent anion. By contrast ... as a single divalent anion. For this reason, exchange stoichiometry moves between limits of 2:1 and 2:2 ... alkaline than external pH. Accordingly, one expects an asymmetric exchange as two monovalent G6P anions ...

    Abstract This article discusses the physiological, biochemical, and molecular properties of bacterial anion-exchange reactions, with a particular focus on a family of phosphate (Pi)-linked antiporters that accept as their primary substrates sugar phosphates such as glucose 6-phosphate (G6P), mannose 6-phosphate, or glycerol 3-phosphate. Pi-linked antiporters may be found in both gram-positive and gram-negative cells. As their name suggests, these exchange proteins accept both inorganic and organic phosphates, but the two classes of substrate interact very differently with the protein. Thus, Pi is always accepted with a relatively low affinity, and when it participates in exchange, it is always taken as the monovalent anion. By contrast, when the high-affinity organic phosphates are used, these same systems fail to discriminate between monovalent and divalent forms. Tests of heterologous exchange (e.g., Pi: G6P) indicate that these proteins have a bifunctional active site that accepts a pair of negative charges, whether as two monovalent anions or as a single divalent anion. For this reason, exchange stoichiometry moves between limits of 2:1 and 2:2, according to the ratio of mono- and divalent substrates at either membrane surface. Since G6P has a pK2 within the physiological range (pK of 6.1), this predicts a novel reaction sequence in vivo because internal pH is more alkaline than external pH. Accordingly, one expects an asymmetric exchange as two monovalent G6P anions from the relatively acidic exterior move against a single divalent G6P from the alkaline interior. In this way an otherwise futile self-exchange of G6P can be biased towards a net inward flux driven (indirectly) by the pH gradient. Despite the biochemical complexity exhibited by Pi-linked antiporters, they resemble all other secondary carriers at a molecular level and show a likely topology in which two sets of six transmembrane alpha-helices are connected by a central hydrophilic loop. Speculations on the derivation of this common form suggest a limited number of structural models to accommodate such proteins. Three such models are presented.
    MeSH term(s) Anions/metabolism ; Bacteria/metabolism ; Biological Transport, Active ; Cell Membrane/metabolism ; Ion Exchange ; Models, Biological
    Chemical Substances Anions
    Language English
    Publishing date 1990-03
    Publishing country United States
    Document type Journal Article ; Research Support, U.S. Gov't, Non-P.H.S. ; Research Support, U.S. Gov't, P.H.S. ; Review
    ZDB-ID 6864-0
    ISSN 0146-0749
    ISSN 0146-0749
    DOI 10.1128/mr.54.1.1-17.1990
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  2. Article ; Online: Fabrication of Dual-Functional Bacterial-Cellulose-Based Composite Anion Exchange Membranes with High Dimensional Stability and Ionic Conductivity.

    Wang, Fei / Qu, Ting / Yang, Huiyu / Yang, Haiyang / Ou, Ying / Zhang, Quanyuan / Cheng, Fan / Hu, Fuqiang / Liu, Hai / Xu, Zushun / Gong, Chunli

    ACS applied materials & interfaces

    2024  Volume 16, Issue 2, Page(s) 2751–2762

    Abstract: Anion exchange membranes (AEMs) are increasingly becoming a popular research area due ... Herein, we adopted a novel strategy of combining filling and cross-linking using functionalized bacterial ... mechanical support for the subsequent filled polymer, thus improving the mechanical properties and ...

    Abstract Anion exchange membranes (AEMs) are increasingly becoming a popular research area due to their ability to function with nonprecious metals in electrochemical devices. Nevertheless, there is a challenge to simultaneously optimize the dimensional stability and ionic conductivity of AEMs due to the "trade-off" effect. Herein, we adopted a novel strategy of combining filling and cross-linking using functionalized bacterial cellulose (PBC) as a dual-functional porous support and brominated poly(phenylene oxide) (Br-PPO) as the cross-linking agent and filler. The PBC nanofiber framework together with cross-linking can provide a reliable mechanical support for the subsequent filled polymer, thus improving the mechanical properties and effectively limiting the size change of the final quaternized-PPO (QPPO)-filled PBC composite membrane. The composite membrane showed a very low swelling ratio of only 10.35%, even at a high water uptake (81.83% at 20 °C). Moreover, the existence of multiple -NR
    Language English
    Publishing date 2024-01-05
    Publishing country United States
    Document type Journal Article
    ISSN 1944-8252
    ISSN (online) 1944-8252
    DOI 10.1021/acsami.3c15643
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  3. Article ; Online: Biocidal activity of multifunctional cuprite-doped anion exchanger – Influence of bacteria type and medium composition

    Jacukowicz-Sobala, Irena / Kociołek-Balawejder, Elżbieta / Stanisławska, Ewa / Seniuk, Alicja / Paluch, Emil / Wiglusz, Rafal J. / Dworniczek, Ewa

    Science of the Total Environment. 2023 Sept., v. 891 p.164667-

    2023  

    Abstract: ... anion exchangers. The synergetic effect of a cuprous oxide deposit and polymeric support with trimethyl ammonium ... for all studied hybrid polymers and bacteria, were similar (64–128 mg/mL). However, depending ... on the medium conditions, due to the copper release into the bulk solution, bacteria were actively killed even at much ...

    Abstract The study presents unconventional, bifunctional, heterogeneous antimicrobial agents – Cu₂O-loaded anion exchangers. The synergetic effect of a cuprous oxide deposit and polymeric support with trimethyl ammonium groups was studied against the reference strains of Enterococcus faecalis ATCC 29212 and Pseudomonas aeruginosa ATCC 27853. Biological testing (minimum bactericidal concentration, MBC), time- and dose-dependent bactericidal effect (under different conditions – medium composition and static/dynamic culture) demonstrated promising antimicrobial activity and confirmed its multimode character. The standard values of MBC, for all studied hybrid polymers and bacteria, were similar (64–128 mg/mL). However, depending on the medium conditions, due to the copper release into the bulk solution, bacteria were actively killed even at much lower doses of the hybrid polymer (25 mg/mL) and low Cu(II) concentrations in solution (0.01 mg/L). Simultaneously, confocal microscopic studies confirmed the effective inhibition of bacterial adhesion and biofilm formation on their surface. The studies conducted under different conditions showed also the influence of the structure and physical properties of studied materials on the biocidal efficacy and an antimicrobial action mechanism was proposed that could be significantly affected by electrostatic interactions and copper release to the solution. Although the antibacterial activity was also dependent on various strategies of bacterial cell resistance to heavy metals present in the aqueous medium, the studied hybrid polymers are versatile and efficient biocidal agents against bacteria of both types, Gram-positive and Gram-negative. Therefore, they can be a convenient alternative for point-of-use water disinfection systems providing water quality in medical devices such as dental units, spa equipment, and aesthetic devices used in the cosmetic sector.
    Keywords Enterococcus faecalis ; Pseudomonas aeruginosa ; aesthetics ; ammonium ; antibacterial properties ; bacteria ; bacterial adhesion ; biofilm ; composite polymers ; cuprous oxide ; disinfection ; dose response ; environment ; equipment ; minimum inhibitory concentration ; synergism ; water quality ; Hybrid ion exchanger ; Antimicrobial agent ; Water disinfection
    Language English
    Dates of publication 2023-09
    Publishing place Elsevier B.V.
    Document type Article ; Online
    ZDB-ID 121506-1
    ISSN 1879-1026 ; 0048-9697
    ISSN (online) 1879-1026
    ISSN 0048-9697
    DOI 10.1016/j.scitotenv.2023.164667
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  4. Article ; Online: Ca2+ efflux facilitated by co-transport of inorganic phosphate anion in the H+/Ca2+ antiporter YfkE

    Wei Niu / Wenchang Zhou / Shuo Lu / Trung Vu / Vasanthi Jayaraman / José D. Faraldo-Gómez / Lei Zheng

    Communications Biology, Vol 6, Iss 1, Pp 1-

    2023  Volume 12

    Abstract: ... in two distinct modes: a low-flux H+/Ca2+ exchange mode and a high-flux mode in which Ca2+ and phosphate ... ions are co-transported (1:1) in exchange for H+. Coupling with phosphate greatly accelerates the Ca2+ ... uncovers a co-transport mechanism within the CAX family that indicates this class of proteins contributes ...

    Abstract Abstract Ca2+ is an important signaling messenger. In microorganisms, fungi, and plants, H+/Ca2+ antiporters (CAX) are known to play key roles in the homeostasis of intracellular Ca2+ by catalyzing its efflux across the cell membrane. Here, we reveal that the bacterial CAX homolog YfkE transports Ca2+ in two distinct modes: a low-flux H+/Ca2+ exchange mode and a high-flux mode in which Ca2+ and phosphate ions are co-transported (1:1) in exchange for H+. Coupling with phosphate greatly accelerates the Ca2+ efflux activity of YfkE. Our studies reveal that Ca2+ and phosphate bind to adjacent sites in a central translocation pathway and lead to mechanistic insights that explain how this CAX alters its conserved alpha-repeat motifs to adopt phosphate as a specific “transport chaperon” for Ca2+ translocation. This finding uncovers a co-transport mechanism within the CAX family that indicates this class of proteins contributes to the cellular homeostasis of both Ca2+ and phosphate.
    Keywords Biology (General) ; QH301-705.5
    Subject code 572
    Language English
    Publishing date 2023-05-01T00:00:00Z
    Publisher Nature Portfolio
    Document type Article ; Online
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  5. Article ; Online: Biomass-Based Anion Exchange Membranes Using Poly (Ionic Liquid) Filled Bacterial Cellulose with Superior Ionic Conductivity and Significantly Improved Strength

    Cao, Mingjie / Nie, Shijun / Wang, Jie / Zhang, Quanyuan / Xu, Zushun / Gong, Chunli / Liu, Hai

    Journal of Natural Fibers. 2023 Apr. 24, v. 20, no. 1 p.2181272-

    2023  

    Abstract: ... facing currently used anion-exchange membranes (AEMs). Here, novel AEMs were prepared using quaternized ... vinylbenzyl) trimethylammonium chloride, PVD) with high ion-exchange capacity through in situ polymerization ... bacterial cellulose (QBC) as a dual-functional substrate and then filled with a polymeric ionic liquid (poly ...

    Abstract How to simultaneously improve the ionic conductivity and mechanical properties is a key problem facing currently used anion-exchange membranes (AEMs). Here, novel AEMs were prepared using quaternized bacterial cellulose (QBC) as a dual-functional substrate and then filled with a polymeric ionic liquid (poly(vinylbenzyl) trimethylammonium chloride, PVD) with high ion-exchange capacity through in situ polymerization and crosslinking. The dense quaternary ammonium groups grafted on the surface of BC nanofibers greatly increased the ionic conductivity, while the special three-dimensional network structure of BC significantly enhanced the tensile strength and chemical stability of the obtained PVD filled quaternized BC (QBC/PVD) membranes. The ionic conductivity of QBC/PVD membrane reached as high as 111 mS cm⁻¹ at 80°C, which was 109% higher than that of the pure BC/PVD membrane (only 53 mS cm⁻¹). Moreover, the QBC/PVD membrane exhibited extremely high dry strength of 72.3 MPa and satisfactory wet strength and flexibility, this membrane can hang a container containing 500 g of water when at fully hydrated state. The alkaline direct methanol fuel cell equipped with QBC/PVD output a peak power density of 64 mW cm⁻², showing its great application potential as an AEM.
    Keywords anion exchange ; cellulose ; chlorides ; crosslinking ; dry strength ; fuel cells ; ion exchange capacity ; ionic liquids ; methanol ; nanofibers ; polymerization ; polymers ; quaternary ammonium compounds ; tensile strength ; wet strength ; Quaternized bacterial cellulose ; porous substrate ; ionic conductivity ; cell performance ; anion exchange membranes
    Language English
    Dates of publication 2023-0424
    Publishing place Taylor & Francis
    Document type Article ; Online
    ZDB-ID 2182715-1
    ISSN 1544-046X ; 1544-0478
    ISSN (online) 1544-046X
    ISSN 1544-0478
    DOI 10.1080/15440478.2023.2181272
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  6. Article ; Online: Biomass-Based Anion Exchange Membranes Using Poly (Ionic Liquid) Filled Bacterial Cellulose with Superior Ionic Conductivity and Significantly Improved Strength

    Mingjie Cao / Shijun Nie / Jie Wang / Quanyuan Zhang / Zushun Xu / Chunli Gong / Hai Liu

    Journal of Natural Fibers, Vol 20, Iss

    2023  Volume 1

    Abstract: ... facing currently used anion-exchange membranes (AEMs). Here, novel AEMs were prepared using quaternized ... vinylbenzyl) trimethylammonium chloride, PVD) with high ion-exchange capacity through in situ polymerization ... bacterial cellulose (QBC) as a dual-functional substrate and then filled with a polymeric ionic liquid (poly ...

    Abstract How to simultaneously improve the ionic conductivity and mechanical properties is a key problem facing currently used anion-exchange membranes (AEMs). Here, novel AEMs were prepared using quaternized bacterial cellulose (QBC) as a dual-functional substrate and then filled with a polymeric ionic liquid (poly(vinylbenzyl) trimethylammonium chloride, PVD) with high ion-exchange capacity through in situ polymerization and crosslinking. The dense quaternary ammonium groups grafted on the surface of BC nanofibers greatly increased the ionic conductivity, while the special three-dimensional network structure of BC significantly enhanced the tensile strength and chemical stability of the obtained PVD filled quaternized BC (QBC/PVD) membranes. The ionic conductivity of QBC/PVD membrane reached as high as 111 mS cm−1 at 80°C, which was 109% higher than that of the pure BC/PVD membrane (only 53 mS cm−1). Moreover, the QBC/PVD membrane exhibited extremely high dry strength of 72.3 MPa and satisfactory wet strength and flexibility, this membrane can hang a container containing 500 g of water when at fully hydrated state. The alkaline direct methanol fuel cell equipped with QBC/PVD output a peak power density of 64 mW cm−2, showing its great application potential as an AEM.
    Keywords quaternized bacterial cellulose ; porous substrate ; ionic conductivity ; cell performance ; anion exchange membranes ; fuel cells ; Science ; Q ; Textile bleaching ; dyeing ; printing ; etc ; TP890-933
    Subject code 660
    Language English
    Publishing date 2023-04-01T00:00:00Z
    Publisher Taylor & Francis Group
    Document type Article ; Online
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  7. Article ; Online: Molecular Basis for Differential Anion Binding and Proton Coupling in the Cl(-)/H(+) Exchanger ClC-ec1.

    Jiang, Tao / Han, Wei / Maduke, Merritt / Tajkhorshid, Emad

    Journal of the American Chemical Society

    2016  Volume 138, Issue 9, Page(s) 3066–3075

    Abstract: ... Although the molecular mechanism of exchange remains unknown, studies on bacterial ClC-ec1 transporter revealed that Cl ... exchange H+ for halides and certain polyatomic anions, but exclude cations, F–, and larger physiological ... provide structural details of anion binding in ClC-ec1 and reveal a putative atomic-level mechanism ...

    Abstract Cl–/H+ transporters of the CLC superfamily form a ubiquitous class of membrane proteins that catalyze stoichiometrically coupled exchange of Cl– and H+ across biological membranes. CLC transporters exchange H+ for halides and certain polyatomic anions, but exclude cations, F–, and larger physiological anions, such as PO43– and SO42–. Despite comparable transport rates of different anions, the H+ coupling in CLC transporters varies significantly depending on the chemical nature of the transported anion. Although the molecular mechanism of exchange remains unknown, studies on bacterial ClC-ec1 transporter revealed that Cl– binding to the central anion-binding site (Scen) is crucial for the anion-coupled H+ transport. Here, we show that Cl–, F–, NO3–, and SCN– display distinct binding coordinations at the Scen site and are hydrated in different manners. Consistent with the observation of differential bindings, ClC-ec1 exhibits markedly variable ability to support the formation of the transient water wires, which are necessary to support the connection of the two H+ transfer sites (Gluin and Gluex), in the presence of different anions. While continuous water wires are frequently observed in the presence of physiologically transported Cl–, binding of F– or NO3– leads to the formation of pseudo-water-wires that are substantially different from the wires formed with Cl–. Binding of SCN–, however, eliminates the water wires altogether. These findings provide structural details of anion binding in ClC-ec1 and reveal a putative atomic-level mechanism for the decoupling of H+ transport to the transport of anions other than Cl–.
    MeSH term(s) Antiporters/chemistry ; Antiporters/metabolism ; Escherichia coli Proteins/chemistry ; Escherichia coli Proteins/metabolism ; Molecular Dynamics Simulation ; Water/chemistry ; Water/metabolism
    Chemical Substances Antiporters ; CLC-ec1 protein, E coli ; Escherichia coli Proteins ; hydrogen-chloride symporter ; Water (059QF0KO0R)
    Language English
    Publishing date 2016-02-26
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, U.S. Gov't, Non-P.H.S.
    ZDB-ID 3155-0
    ISSN 1520-5126 ; 0002-7863
    ISSN (online) 1520-5126
    ISSN 0002-7863
    DOI 10.1021/jacs.5b12062
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  8. Article ; Online: Kinetics and mechanism of exogenous anion exchange in FeFbpA-NTA: significance of periplasmic anion lability and anion binding activity of ferric binding protein A.

    Heymann, Jared J / Gabricević, Mario / Mietzner, Timothy A / Crumbliss, Alvin L

    Journal of biological inorganic chemistry : JBIC : a publication of the Society of Biological Inorganic Chemistry

    2009  Volume 15, Issue 2, Page(s) 237–248

    Abstract: ... physicochemical properties of iron-bound FbpA (FeFbpA). Here we address the kinetics and mechanism of anion exchange ... dependent on the identity of both the entering anion and the leaving anion. The exchange mechanism ... chelator. The kinetic data are consistent with an anion-exchange process that occurs in multiple steps ...

    Abstract The bacterial transferrin ferric binding protein A (FbpA) requires an exogenous anion to facilitate iron sequestration, and subsequently to shuttle the metal across the periplasm to the cytoplasmic membrane. In the diverse conditions of the periplasm, numerous anions are known to be present. Prior in vitro experiments have demonstrated the ability of multiple anions to fulfill the synergistic iron-binding requirement, and the identity of the bound anion has been shown to modulate important physicochemical properties of iron-bound FbpA (FeFbpA). Here we address the kinetics and mechanism of anion exchange for the FeFbpA-nitrilotriacetate (NTA) assembly with several biologically relevant anions (citrate, oxalate, phosphate, and pyrophosphate), with nonphysiologic NTA serving as a representative synergistic anion/chelator. The kinetic data are consistent with an anion-exchange process that occurs in multiple steps, dependent on the identity of both the entering anion and the leaving anion. The exchange mechanism may proceed either as a direct substitution or through an intermediate FeFbpA-X* assembly based on anion (X) identity. Our kinetic results further develop an understanding of exogenous anion lability in the periplasm, as well as address the final step of the iron-free FbpA (apo-FbpA)/Fe(3+) sequestration mechanism. Our results highlight the kinetic significance of the FbpA anion binding site, demonstrating a correlation between apo-FbpA/anion affinity and the FeFbpA rate of anion exchange, further supporting the requirement of an exogenous anion to complete tight sequestration of iron by FbpA, and developing a mechanism for anion exchange within FeFbpA that is dependent on the identity of both the entering anion and the leaving anion.
    MeSH term(s) Anions/chemistry ; Bacterial Outer Membrane Proteins ; Bacterial Proteins/chemistry ; Binding Sites ; Chromatography, Ion Exchange ; Citric Acid/chemistry ; Iron-Binding Proteins ; Kinetics ; Neisseria gonorrhoeae/chemistry ; Nitrilotriacetic Acid/chemistry ; Oxalates/chemistry ; Periplasm/chemistry ; Periplasmic Binding Proteins ; Phosphates/chemistry
    Chemical Substances Anions ; Bacterial Outer Membrane Proteins ; Bacterial Proteins ; Iron-Binding Proteins ; Oxalates ; Periplasmic Binding Proteins ; Phosphates ; Citric Acid (2968PHW8QP) ; Nitrilotriacetic Acid (KA90006V9D)
    Language English
    Publishing date 2009-10-08
    Publishing country Germany
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 1464026-0
    ISSN 1432-1327 ; 0949-8257
    ISSN (online) 1432-1327
    ISSN 0949-8257
    DOI 10.1007/s00775-009-0589-2
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  9. Article: Evaluating the effect of in-process material on the binding mechanisms of surrogate viral particles to a multi-modal anion exchange resin

    Brown, Matthew R / David J. Roush / Kurt A. Brorson / Michael S. Burnham / Sarah A. Johnson / Scott C. Lute

    Journal of biotechnology. 2018 Feb. 10, v. 267

    2018  

    Abstract: Bacteriophage binding mechanisms to multi-modal anion exchange resin may include both anion ... exchange and hydrophobic interactions, or the mechanism can be dominated by a single moiety ... However, previous studies have reported binding mechanisms defined for simple solutions containing only buffer and ...

    Abstract Bacteriophage binding mechanisms to multi-modal anion exchange resin may include both anion exchange and hydrophobic interactions, or the mechanism can be dominated by a single moiety. However, previous studies have reported binding mechanisms defined for simple solutions containing only buffer and a surrogate viral spike (i.e. bacteriophage ΦX174, PR772, and PP7). We employed phage spiked in-process monoclonal antibody (mAb) pools to model binding under bioprocessing conditions. These experiments allow the individual contributions of the mAb, in-process impurities, and buffer composition on mechanistic removal of phages to be studied. PP7 and PR772 use synergetic binding by the positively charged quaternary amine and the hydrophobic aromatic phenyl group to bind multi-modal resin. ΦX174′s binding mechanism remains inconclusive due to operating conditions.
    Keywords anion exchange ; anion exchange resins ; bacteriophages ; bioprocessing ; hydrophobic bonding ; hydrophobicity ; models ; moieties ; monoclonal antibodies ; virion
    Language English
    Dates of publication 2018-0210
    Size p. 29-35.
    Publishing place Elsevier B.V.
    Document type Article
    ZDB-ID 843647-2
    ISSN 1873-4863 ; 0168-1656 ; 1389-0352
    ISSN (online) 1873-4863
    ISSN 0168-1656 ; 1389-0352
    DOI 10.1016/j.jbiotec.2017.12.018
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  10. Article ; Online: Anion-selective transport activities of tetrameric sterol-spermine conjugates.

    Chen, Wen-Hua / Zhou, Jia / Wang, Yong-Min

    Bioorganic & medicinal chemistry letters

    2012  Volume 22, Issue 12, Page(s) 4010–4013

    Abstract: ... an anion-exchange mechanism. Of the three conjugates, the one that was derived from deoxycholic acid showed ... the highest activity. Such anion transporting properties may provide molecular basis for the antibacterial ... via the formation of anion-selective pores or channels. ...

    Abstract Three tetrameric sterol-spermine conjugates were shown to be capable of mediating chloride transport across 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphatidylcholine (POPC)-based liposomal membranes via an anion-exchange mechanism. Of the three conjugates, the one that was derived from deoxycholic acid showed the highest activity. Such anion transporting properties may provide molecular basis for the antibacterial activities of these sterol-spermine tetramers. In other words, they function as antibiotics, most probably via the formation of anion-selective pores or channels.
    MeSH term(s) Anti-Bacterial Agents/chemical synthesis ; Chlorides/chemistry ; Deoxycholic Acid/chemistry ; Hydrogen-Ion Concentration ; Ion Transport ; Kinetics ; Liposomes/chemistry ; Permeability ; Phosphatidylcholines/chemistry ; Spermine/chemistry ; Sterols/chemistry
    Chemical Substances Anti-Bacterial Agents ; Chlorides ; Liposomes ; Phosphatidylcholines ; Sterols ; Deoxycholic Acid (005990WHZZ) ; Spermine (2FZ7Y3VOQX) ; 1-palmitoyl-2-oleoylphosphatidylcholine (TE895536Y5)
    Language English
    Publishing date 2012-06-15
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 1063195-1
    ISSN 1464-3405 ; 0960-894X
    ISSN (online) 1464-3405
    ISSN 0960-894X
    DOI 10.1016/j.bmcl.2012.04.089
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