Yun Yang scite author profile

Contractile injection systems (CISs) are cell-puncturing nanodevices that share ancestry with contractile tail bacteriophages. Photorhabdus virulence cassette (PVC) represents one group of extracellular CISs that are present in both bacteria and archaea. Here, we report the cryo-EM structure of an intact PVC from P. asymbiotica. This over 10-MDa device resembles a simplified T4 phage tail, containing a hexagonal baseplate complex with six fibers and a capped 117-nanometer sheath-tube trunk. One distinct feature of the PVC is the presence of three variants for both tube and sheath proteins, indicating a functional specialization of them during evolution. The terminal hexameric cap docks onto the topmost layer of the inner tube and locks the outer sheath in pre-contraction state with six stretching arms. Our results on the PVC provide a framework for understanding the general mechanism of widespread CISs and pave the way for using them as delivery tools in biological or therapeutic applications.

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Structures of the RNA polymerase-σ ⁵⁴ reveal new and conserved regulatory strategies

Yang

Darbari

Zhang

et al. 2015

Science

103

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Transcription by RNA polymerase in bacteria requires specific promoter recognition by σ factors. The major variant σ factor (σ54) initially forms a transcriptionally silent complex requiring specialised ATP-dependent activators for initiation. Our crystal structure of the 450 kDa RNAP-σ54 holoenzyme at 3.8 Å reveals molecular details of σ54 and its interactions with RNAP. The structure explains how σ54 targets different regions in RNAP to exert its inhibitory function. Although σ54 and the major σ factor, σ70, have similar functional domains and contact similar regions of RNAP, unanticipated differences are observed in their domain arrangement and interactions with RNAP, explaining their distinct properties. Furthermore, we observe evolutionarily conserved regulatory hotspots in RNAPs that can be targeted by a diverse range of mechanisms to fine tune transcription.

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Pathogen-sugar interactions revealed by universal saturation transfer analysis

Buchanan

Gaunt

Harrison

et al. 2022

Science

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Many pathogens exploit host cell-surface glycans. However, precise analyses of glycan ligands binding with heavily-modified pathogen proteins can be confounded by overlapping sugar signals and/or compound with known experimental constraints. ‘Universal saturation transfer analysis’ (uSTA) builds on existing nuclear magnetic resonance spectroscopy to provide an automated workflow for quantitating protein-ligand interactions. uSTA reveals that early-pandemic, B-origin lineage SARS-CoV-2 spike trimer binds sialoside sugars in an ‘end-on’ manner. uSTA-guided modelling and a high-resolution cryo-electron microscopy structure implicate the spike N-terminal domain (NTD) and confirm end-on binding. This finding rationalizes the effect of NTD mutations that abolish sugar-binding in SARS CoV 2 variants of concern. Together with genetic variance analyses in early pandemic patient cohorts, this binding implicates a sialylated polylactosamine motif found on tetraantennary N-linked glycoproteins in deeper human lung as potentially relevant to virulence and/or zoonosis.

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Yun Yang

Genomic and Transcriptomic Landscape of Triple-Negative Breast Cancers: Subtypes and Treatment Strategies

Cryo-EM Structure and Assembly of an Extracellular Contractile Injection System

Structures of the RNA polymerase-σ ⁵⁴ reveal new and conserved regulatory strategies

Pathogen-sugar interactions revealed by universal saturation transfer analysis

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Yun Yang

Genomic and Transcriptomic Landscape of Triple-Negative Breast Cancers: Subtypes and Treatment Strategies

Cryo-EM Structure and Assembly of an Extracellular Contractile Injection System

Structures of the RNA polymerase-σ 54 reveal new and conserved regulatory strategies

Pathogen-sugar interactions revealed by universal saturation transfer analysis

Contact Info

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Resources

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Structures of the RNA polymerase-σ ⁵⁴ reveal new and conserved regulatory strategies