Topology and Structure/Function Correlation of Ring- and Gate-forming Domains in the Dynamic Secretin Complex of Thermus thermophilus

Salzer, Ralf; D’Imprima, Edoardo; Gold, Vicki A. M.; Rose, Ilona; Drechsler, Moritz; Vonck, Janet; Averhoff, Beate

doi:10.1074/jbc.m116.724153

Cited by 16 publications

(17 citation statements)

References 43 publications

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“…The N3 domain abuts the periplasmic base of the inner β-barrel formed by GATE1 and GATE2 (Figs. 4 , 5 ) and has been demonstrated through mutagenesis to be essential for secretin oligomerization 35 , 40 , 41 . N3 belongs to the family of small mixed α/β domains we previously termed ring building motifs 4 (RBMs) which have been observed in numerous ring forming components from different secretion systems.…”

Section: Resultsmentioning

confidence: 99%

Cryo-EM analysis of the T3S injectisome reveals the structure of the needle and open secretin

et al. 2018

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The bacterial type III secretion system, or injectisome, is a syringe shaped nanomachine essential for the virulence of many disease causing Gram-negative bacteria. At the core of the injectisome structure is the needle complex, a continuous channel formed by the highly oligomerized inner and outer membrane hollow rings and a polymerized helical needle filament which spans through and projects into the infected host cell. Here we present the near-atomic resolution structure of a needle complex from the prototypical Salmonella Typhimurium SPI-1 type III secretion system, with local masking protocols allowing for model building and refinement of the major membrane spanning components of the needle complex base in addition to an isolated needle filament. This work provides significant insight into injectisome structure and assembly and importantly captures the molecular basis for substrate induced gating in the giant outer membrane secretin portal family.

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Section: Resultsmentioning

confidence: 99%

Cryo-EM analysis of the T3S injectisome reveals the structure of the needle and open secretin

et al. 2018

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“…The particle images on the grid and the 2D class averages ( Figure 1 ) show the typical rod shape of T. thermophilus PilQ ( Burkhardt et al, 2011 ; Salzer et al, 2016 ). The complex has a C-terminal secretin domain, which inserts into the OM, and six N-terminal domains that form six stacked rings N0 to N5, which were found to extend deeply into the periplasm ( Burkhardt et al, 2011 ; Gold et al, 2015 ).…”

Section: Resultsmentioning

confidence: 99%

“…In previous studies we discovered a unique secretin (PilQ) complex in the thermophilic bacterium Thermus thermophilus, which is essential for natural transformation and extrusion of type IV pili ( Friedrich et al, 2002 ; Schwarzenlander et al, 2009 ). We showed that T. thermophilus PilQ contains a thermostable C-terminal secretin domain and an exceptionally long N-terminal tail of six stacked rings (N0-N5) ( Burkhardt et al, 2011 ; 2012 ; Salzer et al, 2016 ). Furthermore, we determined the in situ structure of the entire T4PS machinery by cryo-electron tomography (cryo-ET) in the piliated and unpiliated state, revealing conformational changes of the N-terminal ring-forming domains ( Gold et al, 2015 ).…”

Section: Introductionmentioning

confidence: 99%

Cryo-EM structure of the bifunctional secretin complex of Thermus thermophilus

D’Imprima

Salzer

Bhaskara

et al. 2017

eLife

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Secretins form multimeric channels across the outer membrane of Gram-negative bacteria that mediate the import or export of substrates and/or extrusion of type IV pili. The secretin complex of Thermus thermophilus is an oligomer of the 757-residue PilQ protein, essential for DNA uptake and pilus extrusion. Here, we present the cryo-EM structure of this bifunctional complex at a resolution of ~7 Å using a new reconstruction protocol. Thirteen protomers form a large periplasmic domain of six stacked rings and a secretin domain in the outer membrane. A homology model of the PilQ protein was fitted into the cryo-EM map. A crown-like structure outside the outer membrane capping the secretin was found not to be part of PilQ. Mutations in the secretin domain disrupted the crown and abolished DNA uptake, suggesting a central role of the crown in natural transformation.

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“…for pilus extrusion and function but are dispensable for natural transformation (Burkhardt et al, 2012;Salzer et al, 2016a). The structural features together with the unprecedented length (34 nm) of the secretin complex suggests that the PilQ complex spans the entire cell periphery, thereby mediating DNA transport across the OM and periplasmic space in a single step, which might be beneficial for DNA uptake in high temperature environments.…”

Section: Natural Competencementioning

confidence: 99%

Horizontal Gene Transfer in Thermus spp.

Blesa¹,

Averhoff²,

Berenguer³

2018

Current Issues in Molecular Biology

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The small amount of genetic content in thermophiles generally limits their adaptability to environmental changes. In Thermus spp., very active horizontal gene transfer (HGT) mechanisms allow the rapid spread of strain-specific adaptive gene modules among the entire population. Constitutive expression of a rather particular and highly efficient DNA transport apparatus (DTA) is at the center of this HGT-mediated enhanced adaptability. The function of the DTA is dependent on the integrity and longevity of the extracellular DNA (eDNA) being transformed, which can be improved by the production of extracellular vesicles (EV) through lysis of a fraction of the population. The DTA must also contend with the recipient cell's defensive barriers, namely restriction enzymes, a panoply of CRISPR-Cas systems, and the argonaute-like protein TtAgo, which may be bypassed by transjugation, a new class of bidirectional transformation-dependent conjugation. Efficient transjugation depends on the presence of the ICETh1, an integrative and conjugative element which promotes simultaneous, generalized DNA transfer from several points in the genome. Transjugation shows preference for genes located within a megaplasmid replicon, where the main strain-specific adaptive modules are located. Contribution of transformation, vesicle-mediated eDNAs, and transjugation to HGT in this genus is discussed.

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Topology and Structure/Function Correlation of Ring- and Gate-forming Domains in the Dynamic Secretin Complex of Thermus thermophilus

Cited by 16 publications

References 43 publications

Cryo-EM analysis of the T3S injectisome reveals the structure of the needle and open secretin

Cryo-EM analysis of the T3S injectisome reveals the structure of the needle and open secretin

Cryo-EM structure of the bifunctional secretin complex of Thermus thermophilus

Horizontal Gene Transfer in Thermus spp.

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