about
Can Stabilization and Inhibition of Aquaporins Contribute to Future Development of Biomimetic Membranes?Ternary structure reveals mechanism of a membrane diacylglycerol kinaseSolution Nuclear Magnetic Resonance Structure of Membrane-Integral Diacylglycerol KinaseCrystal structure of the integral membrane diacylglycerol kinaseRenaturing Membrane Proteins in the Lipid Cubic Phase, a Nanoporous Membrane MimeticRapid Bioinformatic Identification of Thermostabilizing MutationsInactivation mechanism of the membrane protein diacylglycerol kinase in detergent solutionMembrane protein structure determination using crystallography and lipidic mesophases: recent advances and successes.Host Lipid and Temperature as Important Screening Variables for Crystallizing Integral Membrane Proteins in Lipidic Mesophases. Trials with Diacylglycerol Kinase.A high-throughput assay of membrane protein stability.Crystallization of membrane proteins by vapor diffusion.G-protein-coupled receptor structures were not built in a dayOvercoming barriers to membrane protein structure determination.Naturally evolved G protein-coupled receptors adopt metastable conformations.Elastic coupling of integral membrane protein stability to lipid bilayer forces.How Do Short Chain Nonionic Detergents Destabilize G-Protein-Coupled Receptors?Engineering membrane protein overproduction in Escherichia coli.Characteristics affecting expression and solubilization of yeast membrane proteinsTuning microbial hosts for membrane protein production.Unfolding free energy of a two-domain transmembrane sugar transport protein.Experimental phasing for structure determination using membrane-protein crystals grown by the lipid cubic phase method.Lipid cubic phase as a membrane mimetic for integral membrane protein enzymesHigh-resolution modeling of transmembrane helical protein structures from distant homologuesStabilization of G protein-coupled receptors by point mutations.Solution NMR of membrane proteins in bilayer mimics: small is beautiful, but sometimes bigger is better.Conformational thermostabilization of the beta1-adrenergic receptor in a detergent-resistant form.Co-evolving stability and conformational homogeneity of the human adenosine A2a receptor.Engineering G protein-coupled receptor expression in bacteriaUniformly aligned full-length membrane proteins in liquid crystalline bilayers for structural characterization.Tripod Amphiphiles for Membrane Protein Manipulation.Toward high-resolution computational design of the structure and function of helical membrane proteinsThermostabilization of the neurotensin receptor NTS1.Membrane proteins can have high kinetic stability.Detergent-free mass spectrometry of membrane protein complexes.Prokaryotic diacylglycerol kinase and undecaprenol kinase.Overview of Recent Progress in Protein-Expression Technologies for Small-Molecule Screening.Current trends in α-helical membrane protein crystallization: an update.Stabilization of the human beta2-adrenergic receptor TM4-TM3-TM5 helix interface by mutagenesis of Glu122(3.41), a critical residue in GPCR structure.Documentation of an Imperative To Improve Methods for Predicting Membrane Protein Stability.Functional Detection of TNF Receptor Family Members by Affinity-Labeled Ligands.
P2860
Q26798446-3EA7D0EF-CD82-4113-8B47-871619FEB6B3Q27339878-E966A635-3B7A-458B-A5B5-5440113A9994Q27646327-9DD8EC31-C0A8-42B0-8849-69C6E2E6E9FAQ27678156-D80967CF-65A5-486D-8112-5D5D7BA13F87Q27684799-5C895E54-2292-434F-8886-2A2409B77113Q28268224-D6A8FCCB-7517-4614-91AF-F77E0F02D327Q28361373-F8206325-8A7B-45E9-9462-90866AAD6C14Q30155276-D7A40CF2-BBE2-436B-BE5C-489A4E2545ECQ30352936-7481F56F-87AB-46BC-A3B4-2955A39EF9A7Q30373370-9DEE87AC-9BFC-41AF-A56E-962B165A637BQ30374464-6B21ADDD-FA10-4417-89AE-C5F300AB4997Q30378190-10E84F4C-77D8-4C21-A02C-F86F27AF4192Q30401692-34E55428-A9EE-411B-B466-DB3BF45F045AQ30419814-1397C363-926E-4B2E-BA9D-A407DFE0B44CQ30433035-4819AE8C-DC64-41B1-918F-B6D063F6CDBFQ30831488-390B7E99-F4EE-4483-A9E2-8AF0FBFC8F2FQ30841537-28B5E9C7-9894-46A6-995E-8C58F446694BQ33262383-FE65A91C-866C-4134-92F4-ECFB315ACA5AQ33596003-B9BA87B9-BFA3-4076-B6C7-7A2A17BDDD97Q34276447-E3EB1550-73B2-45BD-A9DE-2E1E82B8CC01Q35006822-7DCA3C4A-BCB0-4E2A-9B4F-A34B4E159BA1Q35008243-62CA55E1-50B9-4BF0-8F13-F4026B86B32DQ35172794-D57FA067-DFC2-47D3-9649-1B7CBE32DA68Q35486811-95E130E3-99AF-426F-9DA9-FF5454ED580BQ36454928-9E2E0B81-68A7-46B6-B691-A73F3B41C92BQ36458843-4468018E-C6D7-45C1-B850-B401E68831B2Q36825295-79E306C1-D1F4-4351-A84F-23E35475E637Q36936993-88BF9584-ACA0-47F2-93C6-5B29EA854230Q36942688-6FB394A8-EF1E-402F-9F32-2D356A5F5010Q36957721-E055E0D0-1634-403F-9AEE-F9D7C72492DDQ37128527-0217DEE4-FD40-4D04-821E-AE922577A026Q37228067-FBC498C5-D4D2-4F8E-8864-613406D37A40Q37340435-05A22CCB-76E2-4CB6-8C37-6ABAF639D628Q37405513-810682A7-E449-41F4-9CF9-3C6BA0406645Q37973760-36CF488D-D876-41D2-8A78-D2297A463D8DQ38187867-43AEB4AB-B02B-4160-8BEF-6528A4F8A87AQ39970371-2EB476EB-8860-4219-9539-4BDE79DA9BF6Q40020328-167E2DE0-4AF3-4EA6-B1E5-5D0A6D5B0AD2Q41101237-26E48A13-8CD5-42E4-A675-ADCE4B93CE0CQ41192295-54C7C1A6-5A31-44B3-B0A0-27D4734719D0
P2860
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
2000年论文
@zh
2000年论文
@zh-cn
name
Building a thermostable membrane protein.
@en
type
label
Building a thermostable membrane protein.
@en
prefLabel
Building a thermostable membrane protein.
@en
P2860
P356
P1476
Building a thermostable membrane protein.
@en
P2860
P304
P356
10.1074/JBC.275.10.6975
P407
P577
2000-03-01T00:00:00Z