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Alan Finkelstein
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23
Collier, Robert
13
Jakes, Karen
13
Slatin, Stephen
9
Blaustein, Robert
8
Kienker, Paul
7
Huynh, PD
4
Cohen, Fredric
4
Oh, KJ
4
Senzel, L
3
Gordon, M
3
Kagan, Bruce
3
Zhang, Sen
2
Krantz, Bryan
2
Zhan, H
2
Colombini, Marco
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All Publications
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2009: Basilio Daniel; Juris Stephen J; Collier R John; Finkelstein Alan
Evidence for a proton-protein symport mechanism in the anthrax toxin channel.
The Journal of general physiology 2009;133(3):307-14.
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2009: Janowiak Blythe E; Finkelstein Alan; Collier R John
An approach to characterizing single-subunit mutations in multimeric prepores and pores of anthrax protective antigen.
Protein science : a publication of the Protein Society 2009;18(2):348-58.
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2009: Finkelstein Alan
Proton-coupled protein transport through the anthrax toxin channel.
Philosophical transactions of the Royal Society of London. Series B, Biological sciences 2009;364(1514):209-15.
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2008: Kienker Paul K; Jakes Karen S; Finkelstein Alan
Identification of channel-lining amino acid residues in the hydrophobic segment of colicin Ia.
The Journal of general physiology 2008;132(6):693-707.
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2008: Slatin Stephen L; Finkelstein Alan; Kienker Paul K
Anomalous proton selectivity in a large channel: colicin A.
Biochemistry 2008;47(6):1778-88.
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2006: Wu Zhengyan; Jakes Karen S; Samelson-Jones Ben S; Lai Bing; Zhao Gang; London Erwin; Finkelstein Alan
Protein translocation by bacterial toxin channels: a comparison of diphtheria toxin and colicin Ia.
Biophysical journal 2006;91(9):3249-56.
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2006: Krantz Bryan A; Finkelstein Alan; Collier R John
Protein translocation through the anthrax toxin transmembrane pore is driven by a proton gradient.
Journal of molecular biology 2006;355(5):968-79.
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2005: Krantz Bryan A; Melnyk Roman A; Zhang Sen; Juris Stephen J; Lacy D Borden; Wu Zhengyan; Finkelstein Alan; Collier R John
A phenylalanine clamp catalyzes protein translocation through the anthrax toxin pore.
Science (New York, N.Y.) 2005;309(5735):777-81.
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2004: Zhang Sen; Udho Eshwar; Wu Zhengyan; Collier R John; Finkelstein Alan
Protein translocation through anthrax toxin channels formed in planar lipid bilayers.
Biophysical journal 2004;87(6):3842-9.
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2004: Zhang Sen; Finkelstein Alan; Collier R John
Evidence that translocation of anthrax toxin's lethal factor is initiated by entry of its N terminus into the protective antigen channel.
Proceedings of the National Academy of Sciences of the United States of America 2004;101(48):16756-61.
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2003: Kienker Paul K; Jakes Karen S; Blaustein Robert O; Miller Christopher; Finkelstein Alan
Sizing the protein translocation pathway of colicin Ia channels.
The Journal of general physiology 2003;122(2):161-76.
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2002: Nassi Shilla; Collier R John; Finkelstein Alan
PA63 channel of anthrax toxin: an extended beta-barrel.
Biochemistry 2002;41(5):1445-50.
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2001: Gordon M; Finkelstein A
The number of subunits comprising the channel formed by the T domain of diphtheria toxin.
The Journal of general physiology 2001;118(5):471-80.
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2000: Finkelstein A; Oh K J; Senzel L; Gordon M; Blaustein R O; Collier R J
The diphtheria toxin channel-forming T-domain translocates its own NH2-terminal region and the catalytic domain across planar phospholipid bilayers.
International journal of medical microbiology : IJMM 2000;290(4-5):435-40.
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2000: Kienker P K; Jakes K S; Finkelstein A
Protein translocation across planar bilayers by the colicin Ia channel-forming domain: where will it end?
The Journal of general physiology 2000;116(4):587-98.
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2000: Senzel L; Gordon M; Blaustein R O; Oh K J; Collier R J; Finkelstein A
Topography of diphtheria Toxin's T domain in the open channel state.
The Journal of general physiology 2000;115(4):421-34.
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1999: Oh K J; Senzel L; Collier R J; Finkelstein A
Translocation of the catalytic domain of diphtheria toxin across planar phospholipid bilayers by its own T domain.
Proceedings of the National Academy of Sciences of the United States of America 1999;96(15):8467-70.
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1999: Jakes K S; Kienker P K; Finkelstein A
Channel-forming colicins: translocation (and other deviant behaviour) associated with colicin Ia channel gating.
Quarterly reviews of biophysics 1999;32(2):189-205.
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1999: Zhan H; Elliott J L; Shen W H; Huynh P D; Finkelstein A; Collier R J
Effects of mutations in proline 345 on insertion of diphtheria toxin into model membranes.
The Journal of membrane biology 1999;167(2):173-81.
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1998: Senzel L; Huynh P D; Jakes K S; Collier R J; Finkelstein A
The diphtheria toxin channel-forming T domain translocates its own NH2-terminal region across planar bilayers.
The Journal of general physiology 1998;112(3):317-24.
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1998: Jakes K S; Kienker P K; Slatin S L; Finkelstein A
Translocation of inserted foreign epitopes by a channel-forming protein.
Proceedings of the National Academy of Sciences of the United States of America 1998;95(8):4321-6.
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1998: Benson E L; Huynh P D; Finkelstein A; Collier R J
Identification of residues lining the anthrax protective antigen channel.
Biochemistry 1998;37(11):3941-8.
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1997: Huynh P D; Cui C; Zhan H; Oh K J; Collier R J; Finkelstein A
Probing the structure of the diphtheria toxin channel. Reactivity in planar lipid bilayer membranes of cysteine-substituted mutant channels with methanethiosulfonate derivatives.
The Journal of general physiology 1997;110(3):229-42.
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1997: Kienker P K; Qiu X; Slatin S L; Finkelstein A; Jakes K S
Transmembrane insertion of the colicin Ia hydrophobic hairpin.
The Journal of membrane biology 1997;157(1):27-37.
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1996: Kaul P; Silverman J; Shen W H; Blanke S R; Huynh P D; Finkelstein A; Collier R J
Roles of Glu 349 and Asp 352 in membrane insertion and translocation by diphtheria toxin.
Protein science : a publication of the Protein Society 1996;5(4):687-92.
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1996: Qiu X Q; Jakes K S; Kienker P K; Finkelstein A; Slatin S L
Major transmembrane movement associated with colicin Ia channel gating.
The Journal of general physiology 1996;107(3):313-28.
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1994: Zhan H; Choe S; Huynh P D; Finkelstein A; Eisenberg D; Collier R J
Dynamic transitions of the transmembrane domain of diphtheria toxin: disulfide trapping and fluorescence proximity studies.
Biochemistry 1994;33(37):11254-63.
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1994: Silverman J A; Mindell J A; Finkelstein A; Shen W H; Collier R J
Mutational analysis of the helical hairpin region of diphtheria toxin transmembrane domain.
The Journal of biological chemistry 1994;269(36):22524-32.
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1994: Slatin S L; Qiu X Q; Jakes K S; Finkelstein A
Identification of a translocated protein segment in a voltage-dependent channel.
Nature 1994;371(6493):158-61.
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1994: Mindell J A; Zhan H; Huynh P D; Collier R J; Finkelstein A
Reaction of diphtheria toxin channels with sulfhydryl-specific reagents: observation of chemical reactions at the single molecule level.
Proceedings of the National Academy of Sciences of the United States of America 1994;91(12):5272-6.
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1994: Qiu X Q; Jakes K S; Finkelstein A; Slatin S L
Site-specific biotinylation of colicin Ia. A probe for protein conformation in the membrane.
The Journal of biological chemistry 1994;269(10):7483-8.
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1994: Finkelstein A
The channel formed in planar lipid bilayers by the protective antigen component of anthrax toxin.
Toxicology 1994;87(1-3):29-41.
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1994: Mindell J A; Silverman J A; Collier R J; Finkelstein A
Structure-function relationships in diphtheria toxin channels: III. Residues which affect the cis pH dependence of channel conductance.
The Journal of membrane biology 1994;137(1):45-57.
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1994: Mindell J A; Silverman J A; Collier R J; Finkelstein A
Structure function relationships in diphtheria toxin channels: II. A residue responsible for the channel's dependence on trans pH.
The Journal of membrane biology 1994;137(1):29-44.
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1994: Silverman J A; Mindell J A; Zhan H; Finkelstein A; Collier R J
Structure-function relationships in diphtheria toxin channels: I. Determining a minimal channel-forming domain.
The Journal of membrane biology 1994;137(1):17-28.
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1993: vanderSpek J C; Mindell J A; Finkelstein A; Murphy J R
Structure/function analysis of the transmembrane domain of DAB389-interleukin-2, an interleukin-2 receptor-targeted fusion toxin. The amphipathic helical region of the transmembrane domain is essential for the efficient delivery of the catalytic domain to the cytosol of target cells.
The Journal of biological chemistry 1993;268(16):12077-82.
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1992: Mindell J A; Silverman J A; Collier R J; Finkelstein A
Locating a residue in the diphtheria toxin channel.
Biophysical journal 1992;62(1):41-4.
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1991: Abrams C K; Jakes K S; Finkelstein A; Slatin S L
Identification of a translocated gating charge in a voltage-dependent channel. Colicin E1 channels in planar phospholipid bilayer membranes.
The Journal of general physiology 1991;98(1):77-93.
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1990: Blaustein R O; Finkelstein A
Diffusion limitation in the block by symmetric tetraalkylammonium ions of anthrax toxin channels in planar phospholipid bilayer membranes.
The Journal of general physiology 1990;96(5):943-57.
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1990: Blaustein R O; Lea E J; Finkelstein A
Voltage-dependent block of anthrax toxin channels in planar phospholipid bilayer membranes by symmetric tetraalkylammonium ions. Single-channel analysis.
The Journal of general physiology 1990;96(5):921-42.
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1990: Blaustein R O; Finkelstein A
Voltage-dependent block of anthrax toxin channels in planar phospholipid bilayer membranes by symmetric tetraalkylammonium ions. Effects on macroscopic conductance.
The Journal of general physiology 1990;96(5):905-19.
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1990: Jakes K S; Abrams C K; Finkelstein A; Slatin S L
Alteration of the pH-dependent ion selectivity of the colicin E1 channel by site-directed mutagenesis.
The Journal of biological chemistry 1990;265(12):6984-91.
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1990: Finkelstein A
Channels formed in phospholipid bilayer membranes by diphtheria, tetanus, botulinum and anthrax toxin.
Journal de physiologie 1990;84(2):188-90.
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1989: Blaustein R O; Koehler T M; Collier R J; Finkelstein A
Anthrax toxin: channel-forming activity of protective antigen in planar phospholipid bilayers.
Proceedings of the National Academy of Sciences of the United States of America 1989;86(7):2209-13.
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1989: Finkelstein A
Water movement: does thermodynamic interpretation distort reality?
The American journal of physiology 1989;256(3 Pt 1):C699.
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1989: Niles W D; Cohen F S; Finkelstein A
Hydrostatic pressures developed by osmotically swelling vesicles bound to planar membranes.
The Journal of general physiology 1989;93(2):211-44.
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1988: Blaustein R O; Finkelstein A
A hydroxide ion carrier in planar phospholipid bilayer membranes: (C6F5)2Hg (dipentafluorophenylmercury).
Biochimica et biophysica acta 1988;946(2):221-6.
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1987: Blaustein R O; Germann W J; Finkelstein A; DasGupta B R
The N-terminal half of the heavy chain of botulinum type A neurotoxin forms channels in planar phospholipid bilayers.
FEBS letters 1987;226(1):115-20.
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1986: Liu Q R; Crozel V; Levinthal F; Slatin S; Finkelstein A; Levinthal C
A very short peptide makes a voltage-dependent ion channel: the critical length of the channel domain of colicin E1.
Proteins 1986;1(3):218-29.
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1986: Raymond L; Slatin S L; Finkelstein A; Liu Q R; Levinthal C
Gating of a voltage-dependent channel (colicin E1) in planar lipid bilayers: translocation of regions outside the channel-forming domain.
The Journal of membrane biology 1986;92(3):255-68.
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1986: Slatin S L; Raymond L; Finkelstein A
Gating of a voltage-dependent channel (colicin E1) in planar lipid bilayers: the role of protein translocation.
The Journal of membrane biology 1986;92(3):247-54.
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1986: Finkelstein A; Zimmerberg J; Cohen F S
Osmotic swelling of vesicles: its role in the fusion of vesicles with planar phospholipid bilayer membranes and its possible role in exocytosis.
Annual review of physiology 1986;48():163-74.
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1985: Hoch D H; Romero-Mira M; Ehrlich B E; Finkelstein A; DasGupta B R; Simpson L L
Channels formed by botulinum, tetanus, and diphtheria toxins in planar lipid bilayers: relevance to translocation of proteins across membranes.
Proceedings of the National Academy of Sciences of the United States of America 1985;82(6):1692-6.
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1985: Raymond L; Slatin S L; Finkelstein A
Channels formed by colicin E1 in planar lipid bilayers are large and exhibit pH-dependent ion selectivity.
The Journal of membrane biology 1985;84(2):173-81.
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1985: Hoch D H; Finkelstein A
Gating of large toxin channels by pH.
Annals of the New York Academy of Sciences 1985;456():33-5.
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1985: Finkelstein A
The ubiquitous presence of channels with wide lumens and their gating by voltage.
Annals of the New York Academy of Sciences 1985;456():26-32.
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1984: Finkelstein A; Peskin C S
Some unexpected consequences of a simple physical mechanism for voltage-dependent gating in biological membranes.
Biophysical journal 1984;46(5):549-58.
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1984: Ehrlich B E; Finkelstein A; Forte M; Kung C
Voltage-dependent calcium channels from Paramecium cilia incorporated into planar lipid bilayers.
Science (New York, N.Y.) 1984;225(4660):427-8.
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1984: Levine S D; Jacoby M; Finkelstein A
The water permeability of toad urinary bladder. II. The value of Pf/Pd(w) for the antidiuretic hormone-induced water permeation pathway.
The Journal of general physiology 1984;83(4):543-61.
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1984: Levine S D; Jacoby M; Finkelstein A
The water permeability of toad urinary bladder. I. Permeability of barriers in series with the luminal membrane.
The Journal of general physiology 1984;83(4):529-41.
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1984: Akabas M H; Cohen F S; Finkelstein A
Separation of the osmotically driven fusion event from vesicle-planar membrane attachment in a model system for exocytosis.
The Journal of cell biology 1984;98(3):1063-71.
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1984: Cohen F S; Akabas M H; Zimmerberg J; Finkelstein A
Parameters affecting the fusion of unilamellar phospholipid vesicles with planar bilayer membranes.
The Journal of cell biology 1984;98(3):1054-62.
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1984: Kleinberg M E; Finkelstein A
Single-length and double-length channels formed by nystatin in lipid bilayer membranes.
The Journal of membrane biology 1984;80(3):257-69.
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1983: Cleveland M V; Slatin S; Finkelstein A; Levinthal C
Structure-function relationships for a voltage-dependent ion channel: properties of COOH-terminal fragments of colicin E1.
Proceedings of the National Academy of Sciences of the United States of America 1983;80(12):3706-10.
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1982: Cohen F S; Akabas M H; Finkelstein A
Osmotic swelling of phospholipid vesicles causes them to fuse with a planar phospholipid bilayer membrane.
Science (New York, N.Y.) 1982;217(4558):458-60.
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1981: Kachadorian W A; Muller J; Finkelstein A
Role of osmotic forces in exocytosis: studies of ADH-induced fusion in toad urinary bladder.
The Journal of cell biology 1981;91(2 Pt 1):584-8.
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1981: Kagan B L; Finkelstein A; Colombini M
Diphtheria toxin fragment forms large pores in phospholipid bilayer membranes.
Proceedings of the National Academy of Sciences of the United States of America 1981;78(8):4950-4.
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1981: Weaver C A; Kagan B L; Finkelstein A; Konisky J
Mode of action of colicin ib: formation of ion-permeable membrane channels.
Biochimica et biophysica acta 1981;645(1):137-42.
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1981: Finkelstein A; Andersen O S
The gramicidin A channel: a review of its permeability characteristics with special reference to the single-file aspect of transport.
The Journal of membrane biology 1981;59(3):155-71.
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1980: Zimmerberg J; Cohen F S; Finkelstein A
Micromolar Ca2+ stimulates fusion of lipid vesicles with planar bilayers containing a calcium-binding protein.
Science (New York, N.Y.) 1980;210(4472):906-8.
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1980: Varanda W; Finkelstein A
Ion and nonelectrolyte permeability properties of channels formed in planar lipid bilayer membranes by the cytolytic toxin from the sea anemone, Stoichactis helianthus.
The Journal of membrane biology 1980;55(3):203-11.
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1980: Orbach E; Finkelstein A
The nonelectrolyte permeability of planar lipid bilayer membranes.
The Journal of general physiology 1980;75(4):427-36.
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1980: Cohen F S; Zimmerberg J; Finkelstein A
Fusion of phospholipid vesicles with planar phospholipid bilayer membranes. II. Incorporation of a vesicular membrane marker into the planar membrane.
The Journal of general physiology 1980;75(3):251-70.
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1980: Zimmerberg J; Cohen F S; Finkelstein A
Fusion of phospholipid vesicles with planar phospholipid bilayer membranes. I. Discharge of vesicular contents across the planar membrane.
The Journal of general physiology 1980;75(3):241-50.
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1978: Schein S J; Kagan B L; Finkelstein A
Colicin K acts by forming voltage-dependent channels in phospholipid bilayer membranes.
Nature 1978;276(5684):159-63.
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1978: Rosenberg P A; Finkelstein A
Water permeability of gramicidin A-treated lipid bilayer membranes.
The Journal of general physiology 1978;72(3):341-50.
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1978: Rosenberg P A; Finkelstein A
Interaction of ions and water in gramicidin A channels: streaming potentials across lipid bilayer membranes.
The Journal of general physiology 1978;72(3):327-40.
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1976: Schein S J; Colombini M; Finkelstein A
Reconstitution in planar lipid bilayers of a voltage-dependent anion-selective channel obtained from paramecium mitochondria.
The Journal of membrane biology 1976;30(2):99-120.
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1976: FINKELSTEIN A; Rubin L L; Tzeng M C
Black widow spider venom: effect of purified toxin on lipid bilayer membranes.
Science (New York, N.Y.) 1976;193(4257):1009-11.
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1976: Finkelstein A
Nature of the water permeability increase induced by antidiuretic hormone (ADH) in toad urinary bladder and related tissues.
The Journal of general physiology 1976;68(2):137-43.
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1976: Finkelstein A
Water and nonelectrolyte permeability of lipid bilayer membranes.
The Journal of general physiology 1976;68(2):127-35.
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1976: Andersen O S; Finkelstein A; Katz I; Cass A
Effect of phloretin on the permeability of thin lipid membranes.
The Journal of general physiology 1976;67(6):749-71.
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1976: Heyer R J; Muller R U; Finkelstein A
Inactivation of monazomycin-induced voltage-dependent conductance in thin lipid membranes. II. Inactivation produced by monazomycin transport through the membrane.
The Journal of general physiology 1976;67(6):731-48.
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1976: Heyer E J; Muller R U; Finkelstein A
Inactivation of monazomycin-induced voltage-dependent conductance in thin lipid membranes. I. Inactivation produced by long chain quaternary ammonium ions.
The Journal of general physiology 1976;67(6):703-29.
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1975: Finkelstein A
Membrane channels and conductance. Discussion paper.
Annals of the New York Academy of Sciences 1975;264():244-6.
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1975: Marty A; Finkelstein A
Pores formed in lipid bilayer membranes by nystatin, Differences in its one-sided and two-sided action.
The Journal of general physiology 1975;65(4):515-26.
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1974: Muller R U; Finkelstein A
The electrostatic basis of Mg++ inhibition of transmitter release.
Proceedings of the National Academy of Sciences of the United States of America 1974;71(3):923-6.
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1974: Finkelstein A
Bilayers: formation, measurements, and incorporation of components.
Methods in enzymology 1974;32(Part B):489-501.
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1973: Finkelstein A; Holz R
Aqueous pores created in thin lipid membranes by the polyene antibiotics nystatin and amphotericin B.
Membranes 1973;2():377-408.
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1972: Muller R U; Finkelstein A
The effect of surface charge on the voltage-dependent conductance induced in thin lipid membranes by monazomycin.
The Journal of general physiology 1972;60(3):285-306.
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1972: Muller R U; Finkelstein A
Voltage-dependent conductance induced in thin lipid membranes by monazomycin.
The Journal of general physiology 1972;60(3):263-84.
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1972: Finkelstein A
Thin lipid membranes. A model for cell membranes.
Archives of internal medicine 1972;129(2):229-40.
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1970: Holz R; Finkelstein A
The water and nonelectrolyte permeability induced in thin lipid membranes by the polyene antibiotics nystatin and amphotericin B.
The Journal of general physiology 1970;56(1):125-45.
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1970: Cass A; Finkelstein A; Krespi V
The ion permeability induced in thin lipid membranes by the polyene antibiotics nystatin and amphotericin B.
The Journal of general physiology 1970;56(1):100-24.
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1970: Finkelstein A
Weak-acid uncouplers of oxidative phosphorylation. Mechanism of action on thin lipid membranes.
Biochimica et biophysica acta 1970;205(1):1-6.
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1968: Finkelstein A; Cass A
Permeability and electrical properties of thin lipid membranes.
The Journal of general physiology 1968;52(1):145Suppl+.
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1968: Rothfield L; Finkelstein A
Membrane biochemistry.
Annual review of biochemistry 1968;37():463-96.
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1967: Finkelstein A; Cass A
Effect of cholesterol on the water permeability of thin lipid membranes.
Nature 1967;216(5116):717-8.
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1967: Cass A; Finkelstein A
Water permeability of thin lipid membranes.
The Journal of general physiology 1967;50(6):1765-84.
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1964: FINKELSTEIN A
CARRIER MODEL FOR ACTIVE TRANSPORT OF IONS ACROSS A MOSAIC MEMBRANE.
Biophysical journal 1964;4():421-40.
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1964: FINKELSTEIN A
ELECTRICAL EXCITABILITY OF ISOLATED FROG SKIN AND TOAD BLADDER.
The Journal of general physiology 1964;47():545-65.
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1961: FINKELSTEIN A
Lithium-induced oscillations of potential and resistance in isolated frog skin.
The Journal of general physiology 1961;44():1165-76.
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