| scholarly article | Q13442814 |
| P50 | author | Matthew A Coleman | Q56441435 |
| P2093 | author name string | Brett A Chromy | |
| Kenneth J Rothschild | |||
| Joel M Kralj | |||
| Federico Katzen | |||
| Todd C Peterson | |||
| Angela K Hinz | |||
| Craig D Blanchette | |||
| Todd A Sulchek | |||
| Graham Bench | |||
| Jenny A Cappuccio | |||
| Brent W Segelke | |||
| Edward A Kuhn | |||
| Paul D Hoeprich | |||
| Julia E Fletcher | |||
| Erin S Arroyo | |||
| Wieslaw A Kudlicki | |||
| P2860 | cites work | Isolation of the cell membrane of Halobacterium halobium and its fractionation into red and purple membrane | Q28241677 |
| Principles of chaperone-assisted protein folding: differences between in vitro and in vivo mechanisms | Q28279173 | ||
| Structural Changes in Bacteriorhodopsin during the Photocycle Measured by Time-Resolved Polarized Fourier Transform Infrared Spectroscopy | Q28365218 | ||
| Evaluation of detergents for the soluble expression of alpha-helical and beta-barrel-type integral membrane proteins by a preparative scale individual cell-free expression system | Q30160050 | ||
| Laboratory scale structural genomics. | Q30342332 | ||
| Comparison of the dynamics of the primary events of bacteriorhodopsin in its trimeric and monomeric states | Q31105953 | ||
| High-throughput, fluorescence-based screening for soluble protein expression. | Q31119551 | ||
| Transducin activation by nanoscale lipid bilayers containing one and two rhodopsins | Q34613826 | ||
| Nanodiscs separate chemoreceptor oligomeric states and reveal their signaling properties | Q34984384 | ||
| Nanodiscs unravel the interaction between the SecYEG channel and its cytosolic partner SecA. | Q35752748 | ||
| A monomeric G protein-coupled receptor isolated in a high-density lipoprotein particle efficiently activates its G protein | Q35778121 | ||
| The past, present and future of cell-free protein synthesis | Q36056165 | ||
| Combination of cell-free expression and NMR spectroscopy as a new approach for structural investigation of membrane proteins | Q36529909 | ||
| Preparative scale cell-free expression systems: new tools for the large scale preparation of integral membrane proteins for functional and structural studies | Q36580045 | ||
| Self‐assembly of single integral membrane proteins into soluble nanoscale phospholipid bilayers | Q36631413 | ||
| Efficient coupling of transducin to monomeric rhodopsin in a phospholipid bilayer | Q37118269 | ||
| Cell-free translation and thyroxine induction of carbamyl phosphate synthetase I messenger RNA in tadpole liver | Q37335730 | ||
| Novel fluorescence labeling and high-throughput assay technologies for in vitro analysis of protein interactions | Q38291543 | ||
| Stability of bacteriorhodopsin alpha-helices and loops analyzed by single-molecule force spectroscopy | Q40220193 | ||
| Functional reconstitution of Beta2-adrenergic receptors utilizing self-assembling Nanodisc technology | Q40278356 | ||
| Following the formation of supported lipid bilayers on mica: a study combining AFM, QCM-D, and ellipsometry | Q40329377 | ||
| Anomalous amide I infrared absorption of purple membrane | Q41521439 | ||
| Different apolipoproteins impact nanolipoprotein particle formation | Q42031558 | ||
| Mechanism of the phosphatase component of Clostridium thermocellum polynucleotide kinase-phosphatase | Q43207496 | ||
| High level cell-free expression and specific labeling of integral membrane proteins | Q44731897 | ||
| Rapid expression and purification of 100 nmol quantities of active protein using cell-free protein synthesis | Q44756349 | ||
| Quantifying size distributions of nanolipoprotein particles with single-particle analysis and molecular dynamic simulations | Q46651802 | ||
| Protonation state of Glu142 differs in the green- and blue-absorbing variants of proteorhodopsin. | Q46745885 | ||
| Direct preparation of giant proteo-liposomes by in vitro membrane protein synthesis | Q46977758 | ||
| Reconstitution and imaging of a membrane protein in a nanometer-size phospholipid bilayer | Q47279890 | ||
| Cell-free production of G protein-coupled receptors for functional and structural studies | Q54445463 | ||
| A bilayer cell-free protein synthesis system for high-throughput screening of gene products. | Q54548735 | ||
| Cell-free synthesis, functional refolding, and spectroscopic characterization of bacteriorhodopsin, an integral membrane protein | Q57971572 | ||
| Formation of Supported Phospholipid Bilayers from Unilamellar Vesicles Investigated by Atomic Force Microscopy | Q58029891 | ||
| Defined apolipoprotein A-I conformations in reconstituted high density lipoprotein discs | Q69182756 | ||
| Reconstitution of high-density lipoproteins | Q69553551 | ||
| Vibrational spectroscopy of bacteriorhodopsin mutants: light-driven proton transport involves protonation changes of aspartic acid residues 85, 96, and 212 | Q69847863 | ||
| Primary photochemistry of bacteriorhodopsin: comparison of Fourier transform infrared difference spectra with resonance Raman spectra | Q70722316 | ||
| Conformational changes of bacteriorhodopsin detected by Fourier transform infrared difference spectroscopy | Q71081445 | ||
| Photochemical cycle and light-dark adaptation of monomeric and aggregated bacteriorhodopsin in various lipid environments | Q71702375 | ||
| Formation of supported membranes from vesicles | Q74321708 | ||
| [Large-scale protein preparation using the cell-free synthesis] | Q77326970 | ||
| Fluctuation analysis of tension-controlled undulation forces between giant vesicles and solid substrates | Q78069323 | ||
| Kinetic properties of recombinant MAO-A on incorporation into phospholipid nanodisks | Q80059408 | ||
| Functional cell-free synthesis of a seven helix membrane protein: in situ insertion of bacteriorhodopsin into liposomes | Q80515596 | ||
| Assembly of single bacteriorhodopsin trimers in bilayer nanodiscs | Q83167921 | ||
| P4510 | describes a project that uses | ImageJ | Q1659584 |
| P433 | issue | 11 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | membrane protein | Q423042 |
| P304 | page(s) | 2246-2253 | |
| P577 | publication date | 2008-07-04 | |
| P1433 | published in | Molecular & Cellular Proteomics | Q6895932 |
| P1476 | title | Cell-free co-expression of functional membrane proteins and apolipoprotein, forming soluble nanolipoprotein particles | |
| P478 | volume | 7 |
| Q38753496 | A cell-free method for expressing and reconstituting membrane proteins enables functional characterization of the plant receptor-like protein kinase FERONIA. |
| Q47311227 | A cell-free platform for rapid synthesis and testing of active oligosaccharyltransferases |
| Q30364689 | Advances in the use of nanoscale bilayers to study membrane protein structure and function. |
| Q26866558 | Cell Surface and Membrane Engineering: Emerging Technologies and Applications |
| Q92105345 | Cell-Free Co-Translational Approaches for Producing Mammalian Receptors: Expanding the Cell-Free Expression Toolbox Using Nanolipoproteins |
| Q54263131 | Cell-Free Expression of G Protein-Coupled Receptors |
| Q41224711 | Cell-free expressed bacteriorhodopsin in different soluble membrane mimetics: biophysical properties and NMR accessibility. |
| Q57903669 | Cell-free expression and stable isotope labelling strategies for membrane proteins |
| Q37057676 | Cell-free expression of functional receptor tyrosine kinases |
| Q37833759 | Cell-free production of a functional oligomeric form of a chlamydia major outer membrane protein (MOMP) for vaccine development. |
| Q42778160 | Cell-free synthesis of a functional G protein-coupled receptor complexed with nanometer scale bilayer discs |
| Q37335401 | Characterization and purification of polydisperse reconstituted lipoproteins and nanolipoprotein particles. |
| Q28484130 | Characterization of de novo synthesized GPCRs supported in nanolipoprotein discs |
| Q34622963 | Characterizing diffusion dynamics of a membrane protein associated with nanolipoproteins using fluorescence correlation spectroscopy |
| Q38076193 | Close allies in membrane protein research: Cell-free synthesis and nanotechnology |
| Q34282941 | Co-translational association of cell-free expressed membrane proteins with supplied lipid bilayers |
| Q34053031 | Conjugation to nickel-chelating nanolipoprotein particles increases the potency and efficacy of subunit vaccines to prevent West Nile encephalitis |
| Q37319872 | Controlling the diameter, monodispersity, and solubility of ApoA1 nanolipoprotein particles using telodendrimer chemistry |
| Q33920542 | Crowding-Induced Mixing Behavior of Lipid Bilayers: Examination of Mixing Energy, Phase, Packing Geometry, and Reversibility |
| Q28477699 | Drosophila photoreceptor cells exploited for the production of eukaryotic membrane proteins: receptors, transporters and channels |
| Q89550640 | Escherichia coli Extract-Based Cell-Free Expression System as an Alternative for Difficult-to-Obtain Protein Biosynthesis |
| Q30425362 | Evaluation of cell‐free protein synthesis for the crystallization of membrane proteins – a case study on a member of the glutamate transporter family from Staphylothermus marinus |
| Q28541661 | Evaluation of nanolipoprotein particles (NLPs) as an in vivo delivery platform |
| Q58118817 | Expanding Biological Applications Using Cell-free Metabolic Engineering: An Overview |
| Q50877385 | Exploiting Leishmania tarentolae cell-free extracts for the synthesis of human solute carriers |
| Q35970485 | Expression and Association of the Yersinia pestis Translocon Proteins, YopB and YopD, Are Facilitated by Nanolipoprotein Particles |
| Q52726716 | Extracellular vesicles as a platform for membrane-associated therapeutic protein delivery |
| Q54346375 | Functional analysis of membranous Fo-a subunit of F1Fo-ATP synthase by in vitro protein synthesis. |
| Q41205806 | Functional characterization of p7 viroporin from hepatitis C virus produced in a cell-free expression system. |
| Q90312422 | Generating Recombinant Antibodies to Membrane Proteins through Phage Display |
| Q33822760 | Helix insertion into bilayers and the evolution of membrane proteins |
| Q57903621 | Hydrophobic supplements in cell-free systems: Designing artificial environments for membrane proteins |
| Q35236697 | Improved cell-free RNA and protein synthesis system |
| Q28474859 | Isolation, characterization, and stability of discretely-sized nanolipoprotein particles assembled with apolipophorin-III |
| Q92814425 | Lipid and Protein Transfer between Nanolipoprotein Particles and Supported Lipid Bilayers |
| Q47621471 | MEERCAT: Multiplexed Efficient Cell Free Expression of Recombinant QconCATs For Large Scale Absolute Proteome Quantification. |
| Q35008328 | Membrane protein assembly into Nanodiscs |
| Q36039000 | Multiplexed in vivo His-tagging of enzyme pathways for in vitro single-pot multienzyme catalysis |
| Q28536953 | Nanodiscs allow phage display selection for ligands to non-linear epitopes on membrane proteins |
| Q36598805 | Near-IR resonance Raman spectroscopy of archaerhodopsin 3: effects of transmembrane potential |
| Q34086382 | Nonmicellar systems for solution NMR spectroscopy of membrane proteins |
| Q36498324 | One-pot system for synthesis, assembly, and display of functional single-span membrane proteins on oil-water interfaces |
| Q42691298 | Production of functional bacteriorhodopsin by an Escherichia coli cell-free protein synthesis system supplemented with steroid detergent and lipid |
| Q59792199 | Protein structural biology using cell-free platform from wheat germ |
| Q50453275 | Protein synthesis yield increased 72 times in the cell-free PURE system. |
| Q33890598 | Recombinant expression and functional analysis of proteases from Streptococcus pneumoniae, Bacillus anthracis, and Yersinia pestis |
| Q42596274 | Reconstitution of Mitochondrial Membrane Proteins into Nanodiscs by Cell-Free Expression |
| Q37274732 | Revolutionizing membrane protein overexpression in bacteria |
| Q88096131 | Single-Molecule Fluorescence Detection of the Epidermal Growth Factor Receptor in Membrane Discs |
| Q47266019 | Small-angle X-ray and neutron scattering demonstrates that cell-free expression produces properly formed disc-shaped nanolipoprotein particles. |
| Q37488263 | The nanodisc: a novel tool for membrane protein studies |
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