Neutron crystallography: opportunities, challenges, and limitations
about
Charting a Path to Success in Virtual ScreeningCarbon-oxygen hydrogen bonding in biological structure and functionA joint x-ray and neutron study on amicyanin reveals the role of protein dynamics in electron transferMetal Ion Roles and the Movement of Hydrogen during Reaction Catalyzed by D-Xylose Isomerase: A Joint X-Ray and Neutron Diffraction StudyReintroducing Electrostatics into Macromolecular Crystallographic Refinement: Application to Neutron Crystallography and DNA HydrationIdentification of the elusive hydronium ion exchanging roles with a proton in an enzyme at lower pH valuesHigh-resolution X-ray study of the effects of deuteration on crystal growth and the crystal structure of proteinase KRapid visualization of hydrogen positions in protein neutron crystallographic structuresImpact of Deuteration on the Assembly Kinetics of Transthyretin Monitored by Native Mass Spectrometry and Implications for AmyloidosesNeutron and X-ray single-crystal diffraction from protein microcrystals via magnetically oriented microcrystal arrays in gelsPreliminary joint X-ray and neutron protein crystallographic studies of ecDHFR complexed with folate and NADP+.Neutrons for biologists: a beginner's guide, or why you should consider using neutrons.Refinement of macromolecular structures against neutron data with SHELXL2013.Crystallization, neutron data collection, initial structure refinement and analysis of a xyloglucan heptamer bound to an engineered carbohydrate-binding module from xylanaseLarge crystal growth by thermal control allows combined X-ray and neutron crystallographic studies to elucidate the protonation states in Aspergillus flavus urate oxidase.Preliminary neutron and X-ray crystallographic studies of equine cyanomethemoglobinDiffraction techniques in structural biologyProtonation states of histidine and other key residues in deoxy normal human adult hemoglobin by neutron protein crystallographyJoint X-ray and neutron refinement with phenix.refine.Macromolecular neutron crystallography at the Protein Crystallography Station (PCS).Structural and Kinetic Studies of the Human Nudix Hydrolase MTH1 Reveal the Mechanism for Its Broad Substrate Specificity.Preliminary joint X-ray and neutron protein crystallographic studies of endoxylanase II from the fungus Trichoderma longibrachiatum.Time-of-flight neutron diffraction study of bovine γ-chymotrypsin at the Protein Crystallography Station.High-resolution neutron crystallographic studies of the hydration of the coenzyme cob(II)alamin.Large-volume protein crystal growth for neutron macromolecular crystallographyThermal green protein, an extremely stable, nonaggregating fluorescent protein created by structure-guided surface engineering.Visualizing the Bohr effect in hemoglobin: neutron structure of equine cyanomethemoglobin in the R state and comparison with human deoxyhemoglobin in the T statePerdeuteration, purification, crystallization and preliminary neutron diffraction of an ocean pout type III antifreeze protein.Macromolecular structure phasing by neutron anomalous diffraction.Preliminary joint neutron and X-ray crystallographic study of human carbonic anhydrase II.Generalized X-ray and neutron crystallographic analysis: more accurate and complete structures for biological macromolecules[(2)H26]-1-epi-Cubenol, a completely deuterated natural product from Streptomyces griseusSeeing the chemistry in biology with neutron crystallography.Structural Biology: A Century-long Journey into an Unseen World.A preliminary neutron crystallographic study of an A-DNA crystal.Neutron fibre diffraction studies of amyloid using H2O/D2O isotopic replacement.Enhancing the volume and the optical quality of hen egg-white lysozyme crystals by coupling the salt concentration gradient crystallization method with a magnetic field.Nitranilic acid hexahydrate, a novel benchmark system of the Zundel cation in an intrinsically asymmetric environment: spectroscopic features and hydrogen bond dynamics characterised by experimental and theoretical methods.pH-dependent random coil (1)H, (13)C, and (15)N chemical shifts of the ionizable amino acids: a guide for protein pK a measurements.Diffraction Techniques in Structural Biology.
P2860
Q26779035-73DB0C8B-0F59-4688-8073-9C2BD0039D86Q26864787-EBBF8DAE-9F45-4D6E-8253-09F89F9CF057Q27660363-8AC949FD-648E-422E-B381-8CA190250A9BQ27662178-D06950D1-B389-4344-B761-F3E265AEAA1AQ27667479-1CF9C880-CA63-4B93-A05B-81C5D244E6C6Q27667951-13BA3A0B-FFB4-4D2F-A0CF-4D129CE6143BQ27675712-756E9B56-F54A-4096-8FB8-5531C6C70213Q27676373-5C9A0732-D67B-4EB9-BB59-35182DBD69DCQ27711326-31CE3746-F53C-49D3-88B0-F636E8DE7085Q27716224-5EE7FAF6-F032-49FB-9CDC-64A1954F0DC2Q30389387-BAF1FC1A-E47C-478D-8B27-2EBCD51C1D93Q30479224-7CFD36B5-809C-479D-AC17-FF4B49280390Q30768905-789E1841-DF42-4A39-9309-87D8B9A472B7Q30985638-C1178753-05A3-4747-9BCC-53B4C3FEA8B8Q33747171-3ED3CD03-8D01-4BCF-A4F5-213B9CA0D0F7Q33780189-9040C3A3-C9C5-445E-A955-C347BCC32FE1Q34049039-F90FF73D-0D37-4E7A-9D99-C4B763A828C9Q34257673-AF6DC3BA-FF5B-4885-A1FE-6F779A1081B4Q34257680-8524A4B9-6D2E-4D13-A5EF-6D9352FBC21EQ34257696-B34D3FC3-24BA-4B2A-AA6E-671E1EA9DDEFQ34548293-8CCE7ED0-EECD-40CA-AC73-C4D143E2DD2FQ34555879-7219058B-D3F1-465B-AC23-BE0554E9B782Q34925621-CF48891D-B286-45E5-950E-67C75E81FF5DQ35021263-4FE4F24A-1C3D-45E5-86BB-BA70C8081ACCQ35299009-7B918CF4-F581-4D66-8325-E1B10B60D96BQ36119188-A20A8671-05AD-4720-B531-E0855A2CC7A2Q37065025-198399D9-EADB-4599-B335-7AC88FFD0397Q37148850-43A06973-9612-4532-BA27-E2CE18BF6A9FQ37166536-314D3E00-FF97-41FB-B9AD-0BFAC98F0AD9Q37175315-9D8A8499-C5F0-47FF-9E80-84249B60487BQ37200953-859245DD-A054-4CF9-817D-72993E2BCDBBQ37406339-35CC43DE-6C21-4D8F-994D-C41BDB939DDEQ37714040-579332F0-D353-4C92-BFEC-00D2874CC0E1Q38560777-2AE1CB32-6FDA-413D-B836-EB360E14D89EQ41916685-E1605E51-FC69-4A15-8E39-E7F32A2FF2AEQ42082239-BCE3D9C4-4688-4DA4-8A51-FE68BD714A59Q42326091-7078FCD6-4FAE-4620-BCD1-3FB1F6C91A1EQ44070762-0E51D263-A8EC-4AA4-ABEE-C40D21E25BFCQ44914553-08FCDFEC-F3FC-4BD9-98AD-97D01559F291Q54166825-2F77E976-E05D-477F-8D80-B7B7E817AF3D
P2860
Neutron crystallography: opportunities, challenges, and limitations
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Neutron crystallography: opportunities, challenges, and limitations
@en
type
label
Neutron crystallography: opportunities, challenges, and limitations
@en
prefLabel
Neutron crystallography: opportunities, challenges, and limitations
@en
P2860
P50
P1476
Neutron crystallography: opportunities, challenges, and limitations
@en
P2093
Nobuo Niimura
P2860
P304
P356
10.1016/J.SBI.2008.06.009
P577
2008-08-07T00:00:00Z