Abstract is: Sarah Coulthurst a molecular bacteriologist and Professor of Microbial Interactions at the University of Dundee, UK. Her research focuses increasing understanding of how bacteria can cause disease, and how this information can eventually lead to new medical treatments.
| human | Q5 |
| P2671 | Google Knowledge Graph ID | /g/11gfmqkf4l |
| P496 | ORCID iD | 0000-0002-0808-1875 |
| P1153 | Scopus author ID | 6507340356 |
| P735 | given name | Sarah | Q18201513 |
| Sarah | Q18201513 | ||
| P106 | occupation | researcher | Q1650915 |
| P21 | sex or gender | female | Q6581072 |
| Q91619428 | A family of Type VI secretion system effector proteins that form ion-selective pores |
| Q30605980 | A holin and an endopeptidase are essential for chitinolytic protein secretion in Serratia marcescens |
| Q54350969 | A multi-repeat adhesin of the phytopathogen, Pectobacterium atrosepticum, is secreted by a Type I pathway and is subject to complex regulation involving a non-canonical diguanylate cyclase. |
| Q37222719 | A new way out: protein localization on the bacterial cell surface via Tat and a novel Type II secretion system |
| Q37332251 | A synthetic system for expression of components of a bacterial microcompartment |
| Q38628417 | Aim, Load, Fire: The Type VI Secretion System, a Bacterial Nanoweapon. |
| Q41253912 | Biochemical analysis of TssK, a core component of the bacterial Type VI secretion system, reveals distinct oligomeric states of TssK and identifies a TssK-TssFG subcomplex |
| Q44036523 | Can boron get bacteria talking? |
| Q27676944 | Conserved Signal Peptide Recognition Systems across the Prokaryotic Domains |
| Q48548764 | Genetic and proteomic analysis of the role of luxS in the enteric phytopathogen, Erwinia carotovora. |
| Q96306888 | Interview with Dr Sarah Coulthurst |
| Q30943932 | Intraspecies Competition in Serratia marcescens Is Mediated by Type VI-Secreted Rhs Effectors and a Conserved Effector-Associated Accessory Protein |
| Q57412200 | Killing with proficiency: Integrated post-translational regulation of an offensive Type VI secretion system |
| Q48086445 | Metabolic and regulatory engineering of Serratia marcescens: mimicking phage-mediated horizontal acquisition of antibiotic biosynthesis and quorum-sensing capacities |
| Q59137930 | N-Acetylglucosamine-dependent biofilm formation in Pectobacterium atrosepticum is cryptic and activated by elevated c-di-GMP levels |
| Q27672680 | New secreted toxins and immunity proteins encoded within the Type VI secretion system gene cluster ofSerratia marcescens |
| Q51816587 | Nurturing scientific mutualism: a report from the 'Young Microbiologists Mini-Symposium on microbe signalling, organisation and pathogenesis'. |
| Q37214662 | Proteomic identification of novel secreted antibacterial toxins of the Serratia marcescens type VI secretion system. |
| Q33345234 | Quorum sensing coordinates brute force and stealth modes of infection in the plant pathogen Pectobacterium atrosepticum |
| Q35867591 | Quorum sensing has an unexpected role in virulence in the model pathogen Citrobacter rodentium. |
| Q36732535 | Quorum sensing, virulence and secondary metabolite production in plant soft-rotting bacteria |
| Q36066988 | Regulation and biosynthesis of carbapenem antibiotics in bacteria. |
| Q46442642 | Remnant signal peptides on non-exported enzymes: implications for the evolution of prokaryotic respiratory chains |
| Q46862039 | Signal peptide etiquette during assembly of a complex respiratory enzyme |
| Q50915665 | Socializing, networking and development: a report from the second 'Young Microbiologists Symposium on Microbe Signalling, Organization and Pathogenesis'. |
| Q38601965 | Stable-isotope labeling with amino acids in nematodes. |
| Q46624350 | Structure-activity relationships of Erwinia carotovora quorum sensing signaling molecules |
| Q34336071 | The Type VI secretion system - a widespread and versatile cell targeting system. |
| Q53150338 | The archetype Pseudomonas aeruginosa proteins TssB and TagJ form a novel subcomplex in the bacterial type VI secretion system. |
| Q114092921 | The ecological impact of a bacterial weapon: microbial interactions and the Type VI secretion system |
| Q125874401 | The genus Serratia revisited by genomics |
| Q28483853 | The insect pathogen Serratia marcescens Db10 uses a hybrid non-ribosomal peptide synthetase-polyketide synthase to produce the antibiotic althiomycin |
| Q38724722 | The opportunistic pathogen Serratia marcescens utilizes type VI secretion to target bacterial competitors. |
| Q27675845 | The structure ofSerratia marcescensLip, a membrane-bound component of the type VI secretion system |
| Q57840409 | The type VI secretion system deploys antifungal effectors against microbial competitors |
| Q59137937 | Two mobilePectobacterium atrosepticumprophages modulate virulence |
| Q96768111 | Type VI secretion system effector proteins: effective weapons for bacterial competitiveness |
| Q28552230 | VgrG and PAAR Proteins Define Distinct Versions of a Functional Type VI Secretion System |
| Sarah Coulthurst | wikipedia |
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