Evaluating tilt angles of membrane-associated helices: comparison of computational and NMR techniques. - Wikidata - awgldk - TriplyDB

Evaluating tilt angles of membrane-associated helices: comparison of computational and NMR techniques.

Evaluating tilt angles of membrane-associated helices: comparison of computational and NMR techniques.

http://www.wikidata.org/entity/Q42155185

about

Peptide nanopores and lipid bilayers: interactions by coarse-grained molecular-dynamics simulations.Viruses: incredible nanomachines. New advances with filamentous phages.Effects of clinically relevant MPL mutations in the transmembrane domain revealed at the atomic level through computational modeling.Transferring the PRIMO Coarse-Grained Force Field to the Membrane Environment: Simulations of Membrane Proteins and Helix-Helix Association.A comparative study on the ability of two implicit solvent lipid models to predict transmembrane helix tilt angles.Beyond modeling: all-atom olfactory receptor model simulations.Probing the orientational distribution of dyes in membranes through multiphoton microscopy.More than the sum of its parts: coarse-grained peptide-lipid interactions from a simple cross-parametrization.Engineering monolayer poration for rapid exfoliation of microbial membranes.Molecular understanding of a potential functional link between antimicrobial and amyloid peptides.Free-energy profiles of membrane insertion of the M2 transmembrane peptide from influenza A virus.A generalized born implicit-membrane representation compared to experimental insertion free energies.Knowledge-based potential for positioning membrane-associated structures and assessing residue-specific energetic contributions Self-assembly of a simple membrane protein: coarse-grained molecular dynamics simulations of the influenza M2 channel.Inter-helical interactions in membrane proteins: analysis based on the local backbone geometry and the side chain interactions.CGDB: a database of membrane protein/lipid interactions by coarse-grained molecular dynamics simulations.Biological applications of classical electrostatics methods Tuneable poration: host defense peptides as sequence probes for antimicrobial mechanisms Peptide Folding in Translocon-Like Pores

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P2860

Evaluating tilt angles of membrane-associated helices: comparison of computational and NMR techniques.

http://www.wikidata.org/entity/Q42155185

description

2005 nî lūn-bûn

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2005年の論文

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2005年學術文章

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Evaluating tilt angles of memb ...... putational and NMR techniques.

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Evaluating tilt angles of memb ...... putational and NMR techniques.

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Evaluating tilt angles of memb ...... putational and NMR techniques.

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Evaluating tilt angles of memb ...... putational and NMR techniques.

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Evaluating tilt angles of memb ...... putational and NMR techniques.

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Evaluating tilt angles of memb ...... putational and NMR techniques.

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BIOPHYSJ.105.065367

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Biophysical Journal

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Evaluating tilt angles of memb ...... mputational and NMR techniques

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Alfredo Di Nola

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Martin B Ulmschneider

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P2860

The Structure of the Potassium Channel: Molecular Basis of K+ Conduction and Selectivity

An implicit membrane generalized born theory for the study of structure, stability, and interactions of membrane proteins.

Structure and topology of a peptide segment of the 6th transmembrane domain of the Saccharomyces cerevisae alpha-factor receptor in phospholipid bilayers

Structures of the M2 channel-lining segments from nicotinic acetylcholine and NMDA receptors by NMR spectroscopy

Role of the hinge region and the tryptophan residue in the synthetic antimicrobial peptides, cecropin A(1-8)-magainin 2(1-12) and its analogues, on their antibiotic activities and structures

Structure of the transmembrane region of the M2 protein H+ channel

Impact of single-residue mutations on the structure and function of ovispirin/novispirin antimicrobial peptides

Simultaneous assignment and structure determination of a membrane protein from NMR orientational restraints

Three-dimensional structure of the channel-forming trans-membrane domain of virus protein "u" (Vpu) from HIV-1

X-ray structure of a protein-conducting channel

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1650-1660

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10.1529/BIOPHYSJ.105.065367

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Mark S.P. Sansom

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2005-12-09T00:00:00Z

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