Neutron scattering reveals extremely slow cell water in a Dead Sea organism. - Wikidata - awgldk - TriplyDB

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

http://www.wikidata.org/entity/Q35612220

about

Cell water dynamics on multiple time scales Neutrons for biologists: a beginner's guide, or why you should consider using neutrons.New sources and instrumentation for neutrons in biology.Solvation dynamics of biomolecules: modeling and terahertz experiments Water as a biomolecule.Specific and non-specific protein association in solution: computation of solvent effects and prediction of first-encounter modes for efficient configurational bias Monte Carlo simulations.The fluctuating ribosome: thermal molecular dynamics characterized by neutron scattering.Atomic-scale dynamics inside living cells explored by neutron scattering.Biomolecular hydration dynamics: a jump model perspective.Differences in internal dynamics of actin under different structural states detected by neutron scattering.Intracellular water - an overlooked drug target? Cisplatin impact in cancer cells probed by neutrons.Down to atomic-scale intracellular water dynamics.Water Dynamics in the Hydration Shells of Biomolecules.High protein flexibility and reduced hydration water dynamics are key pressure adaptive strategies in prokaryotes.Water-exclusion and liquid-structure forces in implicit solvation.Macromolecular dynamics in red blood cells investigated using neutron spectroscopy Potassium stress growth characteristics and energetics in the haloarchaeon Haloarcula marismortui.Molecular adaptation and salt stress response of Halobacterium salinarum cells revealed by neutron spectroscopy.From shell to cell: neutron scattering studies of biological water dynamics and coupling to activity.Time scales of water dynamics at biological interfaces: peptides, proteins and cells.Dynamic neutron scattering from conformational dynamics. I. Theory and Markov models.Hydration shells with a pinch of salt.Reduced coupling of water molecules near the surface of reverse micelles.Dynamic neutron scattering from conformational dynamics. II. Application using molecular dynamics simulation and Markov modeling.

P2860

Q24653977-D310AEAC-00E9-43C7-B0F2-0AAE2D026EB2 Q30479224-F34D2BF7-8EC6-4BD0-B041-F4C5B1DA28DF Q37039292-02D467F1-98A8-4749-97E7-5843DE143843 Q37104194-89D7375D-591F-49A6-9F4A-F1BEABC78901 Q37294582-1DEE4C83-8C98-4723-ABCB-20B9AB4ADC84 Q37408257-27A9B9BB-0315-475B-92EE-195F4388AC16 Q37416756-7C530CF7-0736-47FC-9FCD-0A32485ACD13 Q37545080-DA3A5246-E6A5-4388-B237-CBA1BC8AD355 Q38101238-6DAF5F37-7429-4539-9C1C-55A19F7C292D Q38630264-41843D40-1341-447B-90A4-A28892C14B4E Q39140230-01AC4330-B021-4004-AD41-73BCEA16F913 Q39143744-32AF0218-9B95-4730-B0CC-E3ECE15C439D Q39156187-55CC7C0E-B28D-437F-A691-95B7F83EF932 Q41017588-33E2EEF7-238C-428E-A3E5-0958C98E054B Q41928427-85596089-7C20-401C-9BEE-C1B54B7161EA Q42701154-993F5F84-CF57-49BA-8386-C45516188600 Q43023609-9A36584C-CAC7-44BE-A63D-FCAB1D788E45 Q43025640-E12DEA1D-80D4-4059-B647-56236627B980 Q43026294-167FA062-93E5-449B-AD0C-FB4ED296096C Q43026298-DB58740D-9282-434E-9D5D-500F4025344A Q44129589-850424FF-F278-4266-BB49-289F58D7D789 Q46038353-B1054C84-66B3-4A90-A1E3-2566A4E34F82 Q50990037-C431E979-D576-49D3-827E-1AFAA8F9EF47 Q54636683-739DAA3F-92AB-44D6-AD6D-FB0E23CFD6DA

P2860

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

http://www.wikidata.org/entity/Q35612220

description

2007 nî lūn-bûn

@nan

2007年の論文

@ja

2007年論文

@yue

2007年論文

@zh-hant

2007年論文

@zh-hk

2007年論文

@zh-mo

2007年論文

@zh-tw

2007年论文

@wuu

2007年论文

@zh

2007年论文

@zh-cn

name

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

@ast

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

@en

type

label

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

@ast

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

@en

prefLabel

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

@ast

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

@en

P1433

Q35612220-E7AD46DC-6DD3-4A81-B91D-AFDAEB8DDDBC

P1476

Q35612220-8B6C6927-1332-4EA0-91C5-F2F54CA21AF0

P2093

Q35612220-0A2C19E7-3A90-4D6B-A2D5-15DB8015F000

Q35612220-0BF8A977-8823-41C5-A459-2FD6FA74EC7E

Q35612220-2FBC2480-CCAC-421E-8370-EE31262CC4B5

Q35612220-4A4FC082-38A0-49DC-9FB6-ADE7AF1A20F1

Q35612220-F2982ADC-7575-45BD-A9F5-5BD9AD8E0C76

Q35612220-FF025E77-19F6-4E6B-8167-77D56A6A48F2

P2860

Q35612220-013F99E3-F27E-4183-B985-73C5205730C8

Q35612220-0410069C-3CAB-4DE7-A4B9-A2866CED0AE7

Q35612220-129AE2D6-2F4A-415A-BA89-EB5D857A6719

Q35612220-18CA1EBB-DAC5-4158-AAE1-6B5E21C321E2

Q35612220-1FA21D13-F16C-4284-9657-BBA0FF885EB4

Q35612220-27F3294D-3001-4856-80CF-32C45CE49404

Q35612220-380BF53E-2713-402F-B0E9-BF6322E1CB34

Q35612220-3FBE3924-411E-4AC3-BDD7-02AE4110ECF1

Q35612220-42F55B90-4467-4887-9B64-501F74503C46

Q35612220-46BBD5AB-A2DF-462C-87E8-F02065F317B1

P304

Q35612220-A7F53873-1F60-453B-BC21-0080F644034B

P31

Q35612220-632AB9F2-16BE-41F5-92A0-886A09149692

P356

Q35612220-01F16D4B-8CE8-455C-800F-71DC6FD832DB

P407

Q35612220-8FA70667-A586-4EAA-A4BA-AC96F9565647

P433

Q35612220-BCC1B8D1-9A38-4F3C-86F9-E06A4ED86192

P478

Q35612220-1B75D407-D7E8-4E2C-BC88-F153217A86F8

P50

Q35612220-774D185B-41B0-4FBE-AB77-E875D5964DCF

Q35612220-7900DD4A-C083-4802-964A-F54E6C0AA033

Q35612220-835E1652-E3E9-4B5E-A250-77405FDABCAA

Q35612220-87A4185A-881C-4E67-A9AA-3B59F9E65B6E

Q35612220-8AEB7E04-722D-4C2E-88A7-956EC5926C20

P577

Q35612220-01A8C5DA-3EBD-431D-BA43-BFA30313BE7B

P5875

Q35612220-9AA5B079-9B16-44CC-B804-6925793E83ED

P698

Q35612220-5506F257-5A1F-49D0-A058-218BE8954495

P932

Q35612220-9543306E-DA06-4C55-BBEF-99CC1792CF1F

P356

PNAS.0601639104

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Neutron scattering reveals extremely slow cell water in a Dead Sea organism.

@en

P2093

Ben-Zion Ginzburg

http://www.w3.org/2001/XMLSchema#string

Bruno Franzetti

http://www.w3.org/2001/XMLSchema#string

Elisa Fabiani

http://www.w3.org/2001/XMLSchema#string

Giuseppe Zaccai

http://www.w3.org/2001/XMLSchema#string

Margaret Ginzburg

http://www.w3.org/2001/XMLSchema#string

Michaela Zamponi

http://www.w3.org/2001/XMLSchema#string

P2860

Halophilic adaptation: novel solvent protein interactions observed in the 2.9 and 2.6 A resolution structures of the wild type and a mutant of malate dehydrogenase from Haloarcula marismortui

The Oligomeric states of Haloarcula marismortui malate dehydrogenase are modulated by solvent components as shown by crystallographic and biochemical studies

Crystal structure of halophilic dodecin: a novel, dodecameric flavin binding protein from Halobacterium salinarum

Insights into protein adaptation to a saturated salt environment from the crystal structure of a halophilic 2Fe-2S ferredoxin

Halophilic adaptation of enzymes

How soft is a protein? A protein dynamics force constant measured by neutron scattering.

Fast dynamics of halophilic malate dehydrogenase and BSA measured by neutron scattering under various solvent conditions influencing protein stability.

Dynamics of protein and peptide hydration.

Hydration dynamics near a model protein surface.

Diffusive properties of water in Artemia cysts as determined from quasi-elastic neutron scattering spectra.

P304

766-771

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1073/PNAS.0601639104

http://www.w3.org/2001/XMLSchema#string

P407

P433

3

http://www.w3.org/2001/XMLSchema#string

P478

104

http://www.w3.org/2001/XMLSchema#string

P50

Dieter Oesterhelt

P577

2007-01-10T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

6586835

http://www.w3.org/2001/XMLSchema#string

P698

17215355

http://www.w3.org/2001/XMLSchema#string

P932

1783388

http://www.w3.org/2001/XMLSchema#string