Structure and function in rhodopsin: a tetracycline-inducible system in stable mammalian cell lines for high-level expression of opsin mutants
about
Insig required for sterol-mediated inhibition of Scap/SREBP binding to COPII proteins in vitroFunction of human Rh based on structure of RhCG at 2.1 ALarge-scale production and protein engineering of G protein-coupled receptors for structural studiesOverexpression of membrane proteins in mammalian cells for structural studiesInducible Expression of Transmembrane Proteins on Bacterial Magnetic Particles in Magnetospirillum magneticum AMB-1Crystal Structure of a Thermally Stable Rhodopsin MutantThe structural basis of agonist-induced activation in constitutively active rhodopsinThe RGD finger of Del-1 is a unique structural feature critical for integrin bindingStudy of bioengineered zebra fish olfactory receptor 131-2: receptor purification and secondary structure analysisProduction of a bioengineered G-protein coupled receptor of human formyl peptide receptor 3Enhancing Protein Expression in HEK-293 Cells by Lowering Culture TemperatureRational design of intercellular adhesion molecule-1 (ICAM-1) variants for antagonizing integrin lymphocyte function-associated antigen-1-dependent adhesionStructure and function in rhodopsin: high-level expression of rhodopsin with restricted and homogeneous N-glycosylation by a tetracycline-inducible N-acetylglucosaminyltransferase I-negative HEK293S stable mammalian cell lineProduction and characterization of monoclonal antibodies sensitive to conformation in the 5HT2c serotonin receptor.High-level expression, single-step immunoaffinity purification and characterization of human tetraspanin membrane protein CD81.Structures of membrane proteins.Vibrational resonance, allostery, and activation in rhodopsin-like G protein-coupled receptors.G-protein-coupled receptor structure, ligand binding and activation as studied by solid-state NMR spectroscopy.Computational analysis of anti-HIV-1 antibody neutralization panel data to identify potential functional epitope residuesStructure and organization of heteromeric AMPA-type glutamate receptorsStudy of a synthetic human olfactory receptor 17-4: expression and purification from an inducible mammalian cell line.Calcium-dependent ligand binding and G-protein signaling of family B GPCR parathyroid hormone 1 receptor purified in nanodiscs.Stability of the neurotensin receptor NTS1 free in detergent solution and immobilized to affinity resinLight-dependent phosphorylation of the carboxy tail of mouse melanopsin.Purification of family B G protein-coupled receptors using nanodiscs: Application to human glucagon-like peptide-1 receptorCrystallization of a mammalian membrane protein overexpressed in Saccharomyces cerevisiaeStructure and function of G protein-coupled receptors using NMR spectroscopy.Heterologous expression of membrane proteins: choosing the appropriate host.Partial enzymatic deglycosylation preserves the structure of cleaved recombinant HIV-1 envelope glycoprotein trimers.Finding and interpreting genetic variations that are important to ophthalmologists.Prime-boost immunization of rabbits with HIV-1 gp120 elicits potent neutralization activity against a primary viral isolate.Transient and stable expression of the neurotensin receptor NTS1: a comparison of the baculovirus-insect cell and the T-REx-293 expression systems.Milligram production and biological activity characterization of the human chemokine receptor CCR3.Location of the retinal chromophore in the activated state of rhodopsin*.Intramolecular N-glycan/polypeptide interactions observed at multiple N-glycan remodeling steps through [(13)C,(15)N]-N-acetylglucosamine labeling of immunoglobulin G1.High-level expression, purification and characterization of a constitutively active thromboxane A2 receptor polymorphic variant.Exoplasmic cysteine Cys384 of the HDL receptor SR-BI is critical for its sensitivity to a small-molecule inhibitor and normal lipid transport activityThermal properties of rhodopsin: insight into the molecular mechanism of dim-light vision.Uncovering the triggers for GPCR activation using solid-state NMR spectroscopy.MiRNA mimic screen for improved expression of functional neurotensin receptor from HEK293 cells
P2860
Q24302444-ED163400-B612-42B5-A707-26D42331ED09Q24606200-86DF6094-FBB4-417F-9E22-7CCE98AA5BB6Q26866010-2B3D2AFB-087B-4F1F-996E-0CF387D6694AQ27027508-381EE48B-2E77-44F4-B58D-FA9FAE1B84F1Q27490921-CD89A631-BFC5-4E3A-83C1-97AF12022EF3Q27647947-A1843BEC-AB7D-4EB6-8B61-94873F6DE833Q27667245-F8090172-FEE1-4F82-A9D5-ACE485A7AE3EQ27679155-BCFA48E3-93A7-4844-9D3A-8BC4EB134BC2Q28476355-7678D5E9-BCCB-48B7-A80F-977B0AF86B29Q28476523-2EA74490-0AE8-4482-AEA2-B6718804E21BQ28546565-4B596144-CC83-41A3-B9F7-CFEF84A9C7B8Q28914750-6F63657A-6861-42CB-A09D-E36C070A8119Q29616392-2D14BA39-CEDE-479A-BE64-9FC4DC00CD29Q30360451-FF5ABE4C-2CC3-4279-BE1F-1867FC04E0ADQ30369731-56009378-76FE-4884-8A8E-DFDC7CE65A24Q30391943-71B63791-84D7-45EE-8D7E-1DF86A634C8AQ30395265-8E5327DD-4E55-4EAE-800B-0F24BA578674Q30427675-B4E7E479-E50B-4870-BB45-144FE0B92951Q30644992-CF8A54DF-CEA5-4285-A570-BDC14522DF44Q30750616-FD468787-3D54-4375-84C1-24B2C0324EBFQ30845679-6A0DC806-A89A-45BE-99CB-232CE770C943Q33588754-0664657E-D984-4BC0-A8E2-0BFD477EBBC2Q33689332-35C0D28A-D5A8-45E1-ABC6-78D40390598DQ33711547-355517FC-3125-48DB-B5B2-901ECCF6C178Q33793135-CBFFE419-0F35-496B-9F28-D721B8922C10Q33920161-6435943F-F634-4B14-B8B5-2C64B13ED41AQ34008693-497D700E-6826-4253-A89E-C0B1A6B0BAABQ34117311-BE99DFA0-556E-4886-8272-3A688778C71BQ34285680-D91AA06A-86B5-4F26-95C5-5C20AC1D5AECQ34331124-6DB1E3B2-EDD5-4A66-8284-BEE6A9C26885Q34551010-D4E51E1F-6A36-4974-AF73-F2A075414AA3Q34733947-1883F50C-2D08-4101-986B-3A1F7666A198Q34766579-B311D766-EC93-40F6-9429-14C49595BA0DQ34931902-464704B4-B918-4514-898B-2B6A48D17084Q34999126-5ED6B8B5-88B2-44CC-B934-CBB0F06F048FQ35006368-F66E37E9-B2C4-4F42-95C5-13968FCB3EC5Q35134086-CF6A813A-D536-4470-BCD1-3BE4E54E065FQ35144987-47F43794-BD9A-4457-A38B-B7E048CBB5F0Q35347156-8C2296C7-ACE7-4FCC-8C00-78B1F410EF98Q35560091-DDE39F68-9848-4CFB-85C4-86626E8A1B0D
P2860
Structure and function in rhodopsin: a tetracycline-inducible system in stable mammalian cell lines for high-level expression of opsin mutants
description
2002 nî lūn-bûn
@nan
2002 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Structure and function in rhod ...... el expression of opsin mutants
@ast
Structure and function in rhod ...... el expression of opsin mutants
@en
Structure and function in rhod ...... el expression of opsin mutants
@nl
type
label
Structure and function in rhod ...... el expression of opsin mutants
@ast
Structure and function in rhod ...... el expression of opsin mutants
@en
Structure and function in rhod ...... el expression of opsin mutants
@nl
prefLabel
Structure and function in rhod ...... el expression of opsin mutants
@ast
Structure and function in rhod ...... el expression of opsin mutants
@en
Structure and function in rhod ...... el expression of opsin mutants
@nl
P2093
P2860
P356
P1476
Structure and function in rhod ...... el expression of opsin mutants
@en
P2093
H Gobind Khorana
Jong-Myoung Kim
Philip J Reeves
P2860
P304
13413-13418
P356
10.1073/PNAS.212519199
P407
P577
2002-10-07T00:00:00Z