scholarly article | Q13442814 |
P50 | author | Pietro Roversi | Q28039121 |
Steven Johnson | Q42425350 | ||
Susan M. Lea | Q42425353 | ||
Janet E Deane | Q57065012 | ||
Morgan Beeby | Q59676471 | ||
P2093 | author name string | Marta Vergara-Irigaray | |
Grant J Jensen | |||
David R Hendrixson | |||
Christoph M Tang | |||
Miriam E Friede | |||
Patrizia Abrusci | |||
P2860 | cites work | Three-dimensional reconstruction of the Shigella T3SS transmembrane regions reveals 12-fold symmetry and novel features throughout | Q24644829 |
Structural similarity between the flagellar type III ATPase FliI and F1-ATPase subunits | Q27641045 | ||
Structural analysis of a prototypical ATPase from the type III secretion system | Q27643589 | ||
A conserved structural motif mediates formation of the periplasmic rings in the type III secretion system | Q27655277 | ||
Structure of the cytoplasmic domain of FlhA and implication for flagellar type III protein export | Q27660101 | ||
Crystal structure of the C-terminal domain of the Salmonella type III secretion system export apparatus protein InvA | Q27660301 | ||
Structure of the Cytoplasmic Domain of the Flagellar Secretion Apparatus Component FlhA from Helicobacter pylori | Q27661313 | ||
A conserved domain in type III secretion links the cytoplasmic domain of InvA to elements of the basal body | Q27662091 | ||
FlhA provides the adaptor for coordinated delivery of late flagella building blocks to the type III secretion system | Q27662152 | ||
Structure of the torque ring of the flagellar motor and the molecular basis for rotational switching | Q27663763 | ||
Directional proton transfer in membrane proteins achieved through protonated protein-bound water molecules: a proton diode | Q27663829 | ||
Common architecture of the flagellar type III protein export apparatus and F- and V-type ATPases | Q27666617 | ||
Three-dimensional model of Salmonella's needle complex at subnanometer resolution | Q27666889 | ||
Refinement of severely incomplete structures with maximum likelihood in BUSTER-TNT | Q27860590 | ||
Features and development of Coot | Q27861079 | ||
The CCP4 suite: programs for protein crystallography | Q27861090 | ||
Structure and composition of the Shigella flexneri "needle complex", a part of its type III secreton | Q28199735 | ||
Chaperone release and unfolding of substrates in type III secretion | Q28275782 | ||
Analysis of the cytoplasmic domains of Salmonella FlhA and interactions with components of the flagellar export machinery | Q28770106 | ||
Over-production of proteins in Escherichia coli: mutant hosts that allow synthesis of some membrane proteins and globular proteins at high levels | Q29547813 | ||
Intact flagellar motor of Borrelia burgdorferi revealed by cryo-electron tomography: evidence for stator ring curvature and rotor/C-ring assembly flexion. | Q30489481 | ||
Deciphering the assembly of the Yersinia type III secretion injectisome | Q30494891 | ||
Structural characterization of the molecular platform for type III secretion system assembly. | Q33216321 | ||
Fast tomographic reconstruction on multicore computers | Q33776510 | ||
Genetic characterization of conserved charged residues in the bacterial flagellar type III export protein FlhA | Q33979924 | ||
Structural symmetry and protein function | Q34001342 | ||
Interactions of the transmembrane polymeric rings of the Salmonella enterica serovar Typhimurium type III secretion system | Q34100072 | ||
Bacterial nanomachines: the flagellum and type III injectisome. | Q34142106 | ||
Organization and coordinated assembly of the type III secretion export apparatus | Q34200197 | ||
Evolutionary links between FliH/YscL-like proteins from bacterial type III secretion systems and second-stalk components of the FoF1 and vacuolar ATPases | Q34500271 | ||
In situ structure of the complete Treponema primitia flagellar motor | Q34553794 | ||
Mechanisms of type III protein export for bacterial flagellar assembly. | Q34860251 | ||
The rotary motor of bacterial flagella | Q35034069 | ||
Structural diversity of bacterial flagellar motors | Q35177207 | ||
An energy transduction mechanism used in bacterial flagellar type III protein export | Q35367067 | ||
Manipulation of the host actin cytoskeleton by Salmonella--all in the name of entry | Q36032340 | ||
What's the point of the type III secretion system needle? | Q36638746 | ||
Docking of cytosolic chaperone-substrate complexes at the membrane ATPase during flagellar type III protein export | Q37095412 | ||
Genetic reductionist approach for dissecting individual roles of GGDEF proteins within the c-di-GMP signaling network in Salmonella | Q37194825 | ||
Molecular motors of the bacterial flagella | Q37291882 | ||
Type III secretion systems shape up as they ship out. | Q37656668 | ||
Timing is everything: the regulation of type III secretion | Q37665331 | ||
The type III secretion injectisome, a complex nanomachine for intracellular 'toxin' delivery | Q37756149 | ||
Shigella deploy multiple countermeasures against host innate immune responses. | Q37799075 | ||
Structural overview of the bacterial injectisome | Q37812889 | ||
The three-dimensional structure of the flagellar rotor from a clockwise-locked mutant of Salmonella enterica serovar Typhimurium | Q39110183 | ||
mxiA of Shigella flexneri 2a, which facilitates export of invasion plasmid antigens, encodes a homolog of the low-calcium-response protein, LcrD, of Yersinia pestis | Q40147587 | ||
Yersinia enterocolitica type III secretion depends on the proton motive force but not on the flagellar motor components MotA and MotB | Q40936347 | ||
The assembly of the export apparatus (YscR,S,T,U,V) of the Yersinia type III secretion apparatus occurs independently of other structural components and involves the formation of an YscV oligomer. | Q41425944 | ||
Roles of the extreme N-terminal region of FliH for efficient localization of the FliH-FliI complex to the bacterial flagellar type III export apparatus. | Q42462440 | ||
Modulation of Shigella virulence in response to available oxygen in vivo | Q42563797 | ||
Interactions among membrane and soluble components of the flagellar export apparatus of Salmonella | Q44075139 | ||
Assembly and stability of flagellar motor in Escherichia coli | Q44474595 | ||
Energy source of flagellar type III secretion | Q46793602 | ||
Distinct roles of the FliI ATPase and proton motive force in bacterial flagellar protein export | Q46793605 | ||
[12] Reductive alkylation of lysine residues to alter crystallization properties of proteins | Q47681547 | ||
Interaction between FliI ATPase and a flagellar chaperone FliT during bacterial flagellar protein export | Q50034341 | ||
The molecular architecture of axonemes revealed by cryoelectron tomography. | Q52009536 | ||
delta mu H+ is required for flagellar growth in Escherichia coli | Q71619100 | ||
Transcription of σ54‐dependent but not σ28‐dependent flagellar genes in Campylobacter jejuni is associated with formation of the flagellar secretory apparatus | Q79293770 | ||
The needle component of the type III secreton of Shigella regulates the activity of the secretion apparatus | Q81355843 | ||
Interaction of a bacterial flagellar chaperone FlgN with FlhA is required for efficient export of its cognate substrates | Q83203901 | ||
Reductive alkylation of lysine residues to alter crystallization properties of proteins | Q95793946 | ||
xia2: an expert system for macromolecular crystallography data reduction | Q97667323 | ||
P433 | issue | 1 | |
P921 | main subject | structural biology | Q908902 |
P304 | page(s) | 99-104 | |
P577 | publication date | 2012-12-09 | |
P1433 | published in | Nature Structural & Molecular Biology | Q1071739 |
P1476 | title | Architecture of the major component of the type III secretion system export apparatus | |
P478 | volume | 20 |
Q41359807 | A Novel Mechanism for Protein Delivery by the Type 3 Secretion System for Extracellularly Secreted Proteins |
Q35100513 | A Salmonella type three secretion effector/chaperone complex adopts a hexameric ring-like structure |
Q42791250 | A chain mechanism for flagellum growth. |
Q58799635 | A coevolution-guided model for the rotor of the bacterial flagellar motor |
Q41006822 | A dynamic and adaptive network of cytosolic interactions governs protein export by the T3SS injectisome |
Q40108388 | A flagellum-specific chaperone facilitates assembly of the core type III export apparatus of the bacterial flagellum |
Q35398859 | A gatekeeper chaperone complex directs translocator secretion during type three secretion |
Q38753457 | A new view into prokaryotic cell biology from electron cryotomography. |
Q37659614 | A tale of two machines: a review of the BLAST meeting, Tucson, AZ, 20-24 January 2013. |
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Q40108405 | Assembly and stoichiometry of the core structure of the bacterial flagellar type III export gate complex. |
Q30588899 | Assembly dynamics and the roles of FliI ATPase of the bacterial flagellar export apparatus. |
Q38183945 | Assembly of the bacterial type III secretion machinery. |
Q39230405 | Assembly, structure, function and regulation of type III secretion systems. |
Q58792122 | Bacterial type III secretion systems: a complex device for the delivery of bacterial effector proteins into eukaryotic host cells |
Q27028058 | Bacterial type III secretion systems: specialized nanomachines for protein delivery into target cells |
Q38224001 | Building a flagellum outside the bacterial cell |
Q38202459 | Building a secreting nanomachine: a structural overview of the T3SS. |
Q42450071 | Common and distinct structural features of Salmonella injectisome and flagellar basal body |
Q112349192 | Control of membrane barrier during bacterial type-III protein secretion |
Q33627041 | Control of type III secretion activity and substrate specificity by the cytoplasmic regulator PcrG. |
Q30840072 | Cronobacter sakazakii ATCC 29544 Autoaggregation Requires FliC Flagellation, Not Motility. |
Q89857578 | Cryo-EM structure of the Shigella type III needle complex |
Q58569777 | Cryo-electron tomography of periplasmic flagella in Borrelia burgdorferi reveals a distinct cytoplasmic ATPase complex |
Q41995741 | Crystallization and preliminary X-ray analysis of the periplasmic domain of FliP, an integral membrane component of the bacterial flagellar type III protein-export apparatus |
Q40782943 | Determination of the Stoichiometry of the Complete Bacterial Type III Secretion Needle Complex Using a Combined Quantitative Proteomic Approach |
Q92479544 | Diversification of Campylobacter jejuni Flagellar C-Ring Composition Impacts Its Structure and Function in Motility, Flagellar Assembly, and Cellular Processes |
Q64082350 | Electron Cryotomography of Bacterial Secretion Systems |
Q40600401 | EscO, a functional and structural analog of the flagellar FliJ protein, is a positive regulator of EscN ATPase activity of the enteropathogenic Escherichia coli injectisome |
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Q28080733 | Fueling type III secretion |
Q49972596 | Function of the conserved FHIPEP domain of the flagellar type III export apparatus, protein FlhA. |
Q40710120 | Genome Sequence of the Fish Pathogen Yersinia ruckeri SC09 Provides Insights into Niche Adaptation and Pathogenic Mechanism |
Q47434181 | Hierarchical protein targeting and secretion is controlled by an affinity switch in the type III secretion system of enteropathogenic Escherichia coli. |
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Q28537818 | Impact of dynasore an inhibitor of dynamin II on Shigella flexneri infection |
Q38699039 | In Situ Imaging of Bacterial Secretion Systems by Electron Cryotomography. |
Q40298917 | In Situ Molecular Architecture of the Salmonella Type III Secretion Machine |
Q55385008 | In Vitro Reconstitution of Functional Type III Protein Export and Insights into Flagellar Assembly. |
Q27679340 | In situ structural analysis of the Yersinia enterocolitica injectisome |
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Q40364421 | Mechanism of type-III protein secretion: Regulation of FlhA conformation by a functionally critical charged-residue cluster. |
Q36195044 | Molecular Models for the Core Components of the Flagellar Type-III Secretion Complex. |
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Q42512675 | Morphology of the archaellar motor and associated cytoplasmic cone in Thermococcus kodakaraensis |
Q36015449 | MxiA, MxiC and IpaD Regulate Substrate Selection and Secretion Mode in the T3SS of Shigella flexneri |
Q90170341 | On the road to structure-based development of anti-virulence therapeutics targeting the type III secretion system injectisome |
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Q38482854 | Secretion systems in Gram-negative bacteria: structural and mechanistic insights. |
Q40413291 | Spa47 is an oligomerization-activated type three secretion system (T3SS) ATPase from Shigella flexneri |
Q41744347 | SptP106-136 plays a role in the complex formation with SptP-specific chaperone SicP. |
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Q38783540 | Strategies to Block Bacterial Pathogenesis by Interference with Motility and Chemotaxis |
Q28555062 | Structural and Functional Characterization of the Bacterial Type III Secretion Export Apparatus |
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Q37014297 | Structure and biophysics of type III secretion in bacteria |
Q35163744 | Structure of Salmonella FlhE, conserved member of a flagellar type III secretion operon |
Q27340227 | Structure of a bacterial type III secretion system in contact with a host membrane in situ |
Q42237643 | Structure of a pathogenic type 3 secretion system in action |
Q57843586 | Structure of the core of the type III secretion system export apparatus |
Q55021669 | Structures of chaperone-substrate complexes docked onto the export gate in a type III secretion system. |
Q57073743 | Switching and Torque Generation in Swarming |
Q91874790 | Symmetry mismatch in the MS-ring of the bacterial flagellar rotor explains the structural coordination of secretion and rotation |
Q92710291 | T3S injectisome needle complex structures in four distinct states reveal the basis of membrane coupling and assembly |
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Q38160403 | The Yersinia pestis type III secretion system: expression, assembly and role in the evasion of host defenses |
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