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Results 1 to 25 of 52

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RHODOPSIN IN MODEL MEMBRANESMONTAL M.1979; BIOCHIM. BIOPHYS. ACTA; NLD; DA. 1979; VOL. 559; NO 2-3; PP. 231-257; BIBL. 195 REF.Article

EXPERIMENTAL MEMBRANES AND MECHANISMS OF BIOENERGY TRANSDUCTIONS.MONTAL M.1976; ANNU. REV. BIOPHYS. BIOENGNG; U.S.A.; DA. 1976; VOL. 5; PP. 119-175; BIBL. 8 REF.Article

ASYMMETRIC LIPID BILAYERS. REPONSE TO MULTIVALENT IONSMONTAL M.1973; BIOCHIM. BIOPHYS. ACTA; PAYS-BAS; DA. 1973; VOL. 298; NO 3; PP. 750-754; BIBL. 21 REF.Serial Issue

BACTERIORHODOPSIN IN MODEL MEMBRANES: A NEW COMPONENT OF THE DISPLACEMENT PHOTOCURRENT IN THE MICROSECOND TIME SCALEHONG FT; MONTAL M.1979; BIOPHYS. J.; USA; DA. 1979; VOL. 25; NO 3; PP. 465-472; BIBL. 23 REF.Article

FORMATION OF BIMOLECULAR MEMBRANES FROM LIPID MONOLAYERS AND A STUDY OF THEIR ELECTRICAL PROPERTIESMONTAL M; MUELLER P.1972; PROC. NATION. ACAD. SCI.; U.S.A.; DA. 1972; VOL. 69; NO 12; PP. 3561-3566; BIBL. 1 P.Serial Issue

Molecular anatomy and molecular design of channel proteinsMONTAL, M.The FASEB journal. 1990, Vol 4, Num 9, pp 2623-2635, issn 0892-6638, 13 p.Article

TRANSMEMBRANE LIPID MIGRATION IN PLANAR ASYMETRIC BILAYER MEMBRANESSHERWOOD D; MONTAL M.1975; BIOPHYS. J.; U.S.A.; DA. 1975; VOL. 15; NO 5; PP. 417-434; BIBL. 1P.1/2Article

SURFACE POTENTIAL AND ENERGY-COUPLING IN BIOENERGY-CONSERVING MEMBRANE SYSTEMSMONTAL M; GITLER C.1973; J. BIOENERGET.; G.B.; DA. 1973; VOL. 4; NO 3; PP. 363-382; BIBL. 1 P.Serial Issue

INTERACTION OF CALCIUM WITH NEGATIVE LIPIDS IN PLANAR BILAYER MEMBRANES. INFLUENCE OF THE SOLVENT.LACLETTE JP; MONTAL M.1977; BIOPHYS. J.; U.S.A.; DA. 1977; VOL. 19; NO 2; PP. 199-202; BIBL. 17 REF.Article

Synporins : synthetic proteins that emulate the pore structure of biological ionic channelsMONTAL, M; MONTAL, M. S; TOMICH, J. M et al.Proceedings of the National Academy of Sciences of the United States of America. 1990, Vol 87, Num 18, pp 6929-6933, issn 0027-8424, 5 p.Article

FUNCTIONAL EQUIVALENCE OF MONOMERIC AND DIMERIC FORMS OF PURIFIED ACETYLCHOLINE RECEPTORS FROM TORPEDO CALIFORNICA IN RECONSTITUTED LIPID VESSELSANHOLT R; LINDSTROM J; MONTAL M et al.1980; EUR. J. BIOCHEM.; ISSN 0014-2956; DEU; DA. 1980; VOL. 109; NO 2; PP. 481-487; BIBL. 23 REF.Article

INSERTION OF DIPHTHERIA TOXIN INTO AND ACROSS MEMBRANES: ROLE OF PHOSPHAINOSITIDE ASYMMETRYDONOVAN JJ; SIMON MI; MONTAL M et al.1982; NATURE (LONDON); ISSN 0028-0836; GBR; DA. 1982; VOL. 298; NO 5875; PP. 669-672; BIBL. 25 REF.Article

REACTION CENTER-PHOSPHOLIPID COMPLEX IN ORGANIC SOLVENTS: FORMATION AND PROPERTIESSCHONFELD M; MONTAL M; FEHER G et al.1980; BIOCHEMISTRY; USA; DA. 1980; VOL. 19; NO 8; PP. 1535-1542; BIBL. 30 REF.Article

PURIFIED RHODOPSIN-PHOSPHATIDYLCHOLINE COMPLEX IN HEXANE: FORMATION AND CHARACTERIZATIONDARSZON A; BLAIR L; MONTAL M et al.1979; F.E.B.S. LETTERS; NLD; DA. 1979; VOL. 107; NO 1; PP. 213-216; BIBL. 19 REF.Article

STABILIZATION OF ACETYLCHOLINE RECEPTOR CHANNELS BY LIPIDS IN CHOLATE SOLUTION AND DURING RECONSTITUTION IN VESICLESANHOLT R; LINDSTROM J; MONTAL M et al.1981; J. BIOL. CHEM.; ISSN 0021-9258; USA; DA. 1981; VOL. 256; NO 9; PP. 4377-4387; BIBL. 37 REF.Article

FUNCTIONAL RECONSTITUTION OF PHOTOSYNTHETIC REACTION CENTERS IN PLANAR LIPID BILAYERSSCHOENFELD M; MONTAL M; FEHER G et al.1979; PROC. NATION. ACAD. SCI. U.S.A.; USA; DA. 1979; VOL. 76; NO 12; PP. 6351-6355; BIBL. 17 REF.Article

LIGHT INCREASES THE ION AND NON-ELECTROLYTE PERMEABILITY OF RHODOPSIN-PHOSPHOLIPID VESICLES.DARSZON A; MONTAL M; ZARCO J et al.1977; BIOCHEM. BIOPHYS. RES. COMMUNIC.; U.S.A.; DA. 1977; VOL. 76; NO 3; PP. 820-827; BIBL. 25 REF.Article

MODEL TRANSLOCATORS FOR DIVALENT AND MONOVALENT ION TRANSPORT IN PHOSPHOLIPID MEMBRANES. I. THE ION PERMEABILITY INDUCED IN LIPID BILAYERS BY THE ANTIBIOTIC X-537ACELIS H; ESTRADA OS; MONTAL M et al.1974; J. MEMBRANE BIOL.; U.S.A.; DA. 1974; VOL. 18; NO 2; PP. 187-199; BIBL. 2P.Article

Identification of an ion channel-forming motif in the primary structure of tetanus and botulinum neurotoxinsMONTAL, M. S; BLEWITT, R; TOMICH, J. M et al.FEBS letters. 1992, Vol 313, Num 1, pp 12-18, issn 0014-5793Article

Monoclonal antibodies specific to the β and γ subunits of the Torpedo acetylcholine receptor inhibit single-channel activityBLATT, Y; MONTAL, M. S; LINDSTROM, J. M et al.The Journal of neuroscience. 1986, Vol 6, Num 2, pp 481-486, issn 0270-6474Article

Two distinct modalities of NMDA-receptor inactivation induced by calcium influx in cultured rat hippocampal neuronsSCHINDER, A. F; MONTAL, M.FEBS letters. 1993, Vol 332, Num 1-2, pp 44-48, issn 0014-5793Article

Voltage-gated sodium channels expressed in the human cerebellar medulloblastoma cell line TE671GAMBALE, F; MONTAL, M.Brain research. 1990, Vol 7, Num 2, pp 123-129, issn 0006-8993Article

RECONSTITUTION OF PURIFIED ACETYLCHOLINE RECEPTORS WITH FUNCTIONAL ION CHANNELS IN PLANAR LIPID BILAYERSNELSON N; ANHOLT R; LINDSTROM J et al.1980; PROC. NATION. ACAD. SCI. U.S.A.; USA; DA. 1980; VOL. 77; NO 5; PP. 3057-3061; BIBL. 34 REF.Article

MODEL TRANSLOCATORS FOR DIVALENT AND MONOVALENT ION TRANSPORT IN PHOSPHOLIPID MEMBRANES. II. THE EFFECTS OF ION TRANSLOCATOR X-537A ON THE ENERGY-CONSERVING PROPERTIES OF MITOCHONDRIAL MEMBRANESESTRADA OS; CELIS H; CALDERON E et al.1974; J. MEMBRANE BIOL.; U.S.A.; DA. 1974; VOL. 18; NO 3-4; PP. 201-218; BIBL. 2P.1/2Article

CHARGE TRANSFER MEDIATED BY NIGERICIN IN BLACK LIPID MEMBRANES.TORO M; GOMEZ LOJERO C; MONTAL M et al.1976; J. BIOENERGET.; G.B.; DA. 1976; VOL. 8; NO 1; PP. 19-26; BIBL. 37 REF.Article

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