Structure of hibernating ribosomes studied by cryoelectron tomography in vitro and in situ
about
Noise contributions in an inducible genetic switch: a whole-cell simulation studyHow Hibernation Factors RMF, HPF, and YfiA Turn Off Protein SynthesisCryo-electron tomography: the challenge of doing structural biology in situElectron tomography of cellsLactococcus lactis YfiA is necessary and sufficient for ribosome dimerizationThree distinct ribosome assemblies modulated by translation are the building blocks of polysomes.Organization of ribosomes and nucleoids in Escherichia coli cells during growth and in quiescence.Putting structure into context: fitting of atomic models into electron microscopic and electron tomographic reconstructions.Chromosome Replication in Escherichia coli: Life on the Scales.The bacterial translation stress response.Conformational States of macromolecular assemblies explored by integrative structure calculation.Toroidal surface complexes of bacteriophage ϕ12 are responsible for host-cell attachmentSingle-molecule investigations of the stringent response machinery in living bacterial cells.Assembly and breakdown of microtubules within the midbodyCharacterization of hibernating ribosomes in mammalian cells.The VrrA sRNA controls a stationary phase survival factor Vrp of Vibrio cholerae.Long-term survival of Borrelia burgdorferi lacking the hibernation promotion factor homolog in the unfed tick vector.Structure of the Bacillus subtilis hibernating 100S ribosome reveals the basis for 70S dimerization.Ribosome hibernation factor promotes Staphylococcal survival and differentially represses translationLimiting factors in single particle cryo electron tomography.Cryo-electron microscopy of ribosomal complexes in cotranslational folding, targeting, and translocation.The advent of structural biology in situ by single particle cryo-electron tomography.A general mechanism of ribosome dimerization revealed by single-particle cryo-electron microscopyThe cryo-EM structure of hibernating 100S ribosome dimer from pathogenic Staphylococcus aureusStructures and dynamics of hibernating ribosomes from Staphylococcus aureus mediated by intermolecular interactions of HPF.A single missense mutation in a coiled-coil domain of Escherichia coli ribosomal protein S2 confers a thermosensitive phenotype that can be suppressed by ribosomal protein S1.Disassembly of the Staphylococcus aureus hibernating 100S ribosome by an evolutionarily conserved GTPase.Conservation of two distinct types of 100S ribosome in bacteria.NMR assignments of the N-terminal domain of Staphylococcus aureus hibernation promoting factor (SaHPF).Dissection of epitope-specific mechanisms of neutralization of influenza virus by intact IgG and Fab fragments.Survival of the drowsiest: the hibernating 100S ribosome in bacterial stress management.Ribosomal protein L31 in Escherichia coli contributes to ribosome subunit association and translation, whereas short L31 cleaved by protease 7 reduces both activities.The 100S ribosome: ribosomal hibernation induced by stress.Survivor: Ribosome Edition.Cryo-EM structure of the hibernating Thermus thermophilus 100S ribosome reveals a protein-mediated dimerization mechanismStructure Determination by Single Particle Cryo-electron Tomography70 Three-dimensional arrangements of ribosomes inside fast growingE. colicells
P2860
Q27333733-BA69E07A-73CA-438E-90B2-441B8B1D8D3BQ27679167-858410A3-6840-4C70-86A8-444725DB1306Q27690657-AA855CD4-5C5E-44A1-8277-AFD17493EDA3Q28252959-7455B153-975C-4695-A186-6A9DF6002FEDQ28302827-E0D9F889-F0C0-42A4-8DE8-E0641D6537D1Q30624184-42E94800-8E9B-49B8-93C6-2469B4EAFD08Q31153623-D7062F10-2E6E-4884-9898-79300277BD4FQ34095154-F91D45DA-3F04-4A97-8380-99479DACA813Q34295716-E1C93BD0-4546-4756-A236-4A7607FDDB33Q34490409-2A00486B-4CBA-455F-8895-9E429E2EB1ACQ34980210-F09E3041-EE91-4AF6-96F0-43AFE7AA1976Q34984646-D381F0F0-2F3C-49F1-ABDC-F3272FBD1237Q35149470-58FE3C62-349A-4979-AB61-76C7B1174689Q35475698-DDE04F62-C6D3-4585-B03F-7FDF92E24F29Q35559950-8D6FDD5B-2EFA-4ABE-AD54-79016234D17BQ36191630-E45AB439-62C1-409E-B09F-9E38CB4B4E0EQ36281269-BAB18475-2BC3-4402-9C07-6369E2FB4F5EQ36362507-21C372C2-6BFA-474D-B177-4E06600E8526Q36959053-56CC8F7F-F9D8-4194-B56D-98BBC1E2EDC7Q37654911-FD3FA0E6-62CA-4B24-BEBF-0D30F3BEBF59Q37957800-C2889CE5-4836-4711-9D24-1CE2F87C83B1Q41051422-0762ADA3-42B8-44F7-87E6-571A98E9ABC9Q41596245-EE3541E4-EA84-4CAC-8223-A05C203AFD52Q41596253-9A67BF15-DC29-43A3-96A0-31C5B1698D6FQ41597449-8A877B39-7CDA-4ED4-9DED-62AF87B2DF5CQ41932638-E7E38B45-2631-45B7-B2B9-2048A1DC1B18Q42284102-2D17D8A7-A8F7-4681-874C-644378369FDCQ44349002-B5AE72BE-2A0F-44BD-898B-CDDD56C65C78Q46294454-636E36A5-420A-4A97-869A-F523F0DCBE1AQ47562645-ABF63609-3948-45DA-B422-8FC6CE10C3E8Q48113261-9D755E94-0C6A-483F-8DCF-5EC3E31C0744Q48292142-E6D71FF8-2403-481D-9130-074B51151066Q51073774-F4174D55-AB01-4AA4-8BA8-7C97A0E48BD6Q53181466-3BE7EA06-2536-4F90-A952-896978FA6D04Q57291551-342956D6-30FA-4F5A-91D6-C4DE87210116Q57792812-97C4F9EE-A2A0-47F5-B8C3-8661C31AD6F8Q58767974-329E6123-F4E6-496D-A91E-C9AEB45BDF60
P2860
Structure of hibernating ribosomes studied by cryoelectron tomography in vitro and in situ
description
2010 nî lūn-bûn
@nan
2010 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年学术文章
@wuu
2010年学术文章
@zh-cn
2010年学术文章
@zh-hans
2010年学术文章
@zh-my
2010年学术文章
@zh-sg
2010年學術文章
@yue
name
Structure of hibernating ribos ...... omography in vitro and in situ
@ast
Structure of hibernating ribos ...... omography in vitro and in situ
@en
Structure of hibernating ribos ...... omography in vitro and in situ
@nl
type
label
Structure of hibernating ribos ...... omography in vitro and in situ
@ast
Structure of hibernating ribos ...... omography in vitro and in situ
@en
Structure of hibernating ribos ...... omography in vitro and in situ
@nl
prefLabel
Structure of hibernating ribos ...... omography in vitro and in situ
@ast
Structure of hibernating ribos ...... omography in vitro and in situ
@en
Structure of hibernating ribos ...... omography in vitro and in situ
@nl
P2093
P2860
P50
P3181
P356
P1476
Structure of hibernating ribos ...... omography in vitro and in situ
@en
P2093
Florian Brandt
Lau Sennels
Matthias Eibauer
Sjors H W Scheres
Valério R F Matias
Wolfgang Baumeister
P2860
P304
P3181
P356
10.1083/JCB.201005007
P407
P577
2010-08-23T00:00:00Z