232 research outputs found
Different genetic and morphological outcomes for phages targeted by single or multiple CRISPR-Cas spacers.
CRISPR-Cas systems provide bacteria and archaea with adaptive immunity against genetic invaders, such as bacteriophages. The systems integrate short sequences from the phage genome into the bacterial CRISPR array. These 'spacers' provide sequence-specific immunity but drive natural selection of evolved phage mutants that escape the CRISPR-Cas defence. Spacer acquisition occurs by either naive or primed adaptation. Naive adaptation typically results in the incorporation of a single spacer. By contrast, priming is a positive feedback loop that often results in acquisition of multiple spacers, which occurs when a pre-existing spacer matches the invading phage. We predicted that single and multiple spacers, representative of naive and primed adaptation, respectively, would cause differing outcomes after phage infection. We investigated the response of two phages, ϕTE and ϕM1, to the Pectobacterium atrosepticum type I-F CRISPR-Cas system and observed that escape from single spacers typically occurred via point mutations. Alternatively, phages escaped multiple spacers through deletions, which can occur in genes encoding structural proteins. Cryo-EM analysis of the ϕTE structure revealed shortened tails in escape mutants with tape measure protein deletions. We conclude that CRISPR-Cas systems can drive phage genetic diversity, altering morphology and fitness, through selective pressures arising from naive and primed acquisition events. This article is part of a discussion meeting issue 'The ecology and evolution of prokaryotic CRISPR-Cas adaptive immune systems'.This work was supported by a Rutherford Discovery Fellow- ship from the Royal Society of New Zealand (RSNZ) (to P.C.F.), the Marsden Fund, RSNZ, the Bio-protection Research Centre (Tertiary Education Commission), a University of Otago Doctoral Scholarship (to B.N.J.W.), University of Otago Division of Health Sciences Career Development Post-doctoral Fellowship and a Veni grant (grant no. 016.Veni.171.047) from the The Netherlands Organization for Scienti- fic Research (to R.H.J.S.). G.P.C.S. was supported by the BBSRC, UK
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RsmA, RsmC and FlhDC regulate sdhEygfX in Serratia
SdhE is required for the flavinylation and activation of succinate dehydrogenase and fumarate reductase (FRD). In addition, SdhE is conserved in proteobacteria (α, β and γ) and eukaryotes. Although the function of this recently characterized family of proteins has been determined, almost nothing is known about how their genes are regulated. Here, the RsmA (CsrA) and RsmC (HexY) post-transcriptional and post-translational regulators have been identified and shown to repress sdhEygfX expression in Serratia sp. ATCC 39006. Conversely, the flagella master regulator complex, FlhDC, activated sdhEygfX transcription. To investigate the hierarchy of control, we developed a novel approach that utilized endogenous CRISPR (clustered regularly interspaced short palindromic repeats)-Cas (CRISPR associated) genome-editing by a type I-F system to generate a chromosomal point mutation in flhC. Mutation of flhC alleviated the ability of RsmC to repress sdhEygfX expression, whereas RsmA acted in both an FlhDC-dependent and -independent manner to inhibit sdhEygfX. Mutation of rsmA or rsmC, or overexpression of FlhDC, led to increased prodigiosin, biosurfactant, swimming and swarming. Consistent with the modulation of sdhE by motility regulators, we have demonstrated that SdhE and FRD are required for maximal flagella-dependent swimming. Together, these results demonstrate that regulators of both metabolism and motility (RsmA, RsmC and FlhDC) control the transcription of the sdhEygfX operon.This work was supported by the Marsden Fund, Royal Society of New Zealand (RSNZ) to PCF and a Strategic Grant from the Otago School of Medical Sciences (OSMS) to MB. HGH was supported by a University of Otago Doctoral Scholarship, MBM by a Division of Health Sciences Career Development Post-doctoral Fellowship, BN by a Dean's Prestigious Summer Scholarship from the OSMS and PCF was supported by a Rutherford Discovery Fellowship (RSNZ). NRW and GPCS were supported by Biotechnology and Biological Sciences Research Council (BBSRC), UK awards to the GPCS laboratory. We thank members of the Fineran and Cook laboratories for helpful discussions, Tim Blower for plasmid pTRB32 and for critically reading the manuscript.This is the final version of the article. It first appeared from the Microbiology Society via http://dx.doi.org/10.1099/mic.0.00028
Structural basis for anthrax toxin receptor 1 recognition by Seneca Valley Virus
Recently, the use of oncolytic viruses in cancer therapy has become a realistic therapeutic option. Seneca Valley Virus (SVV) is a newly discovered picornavirus, which has earned a significant reputation as a potent oncolytic agent. Anthrax toxin receptor 1 (ANTXR1), one of the cellular receptors for the protective antigen secreted by Bacillus anthracis, has been identified as the high-affinity cellular receptor for SVV. Here, we report the structure of the SVV-ANTXR1 complex determined by single-particle cryo-electron microscopy analysis at near-atomic resolution. This is an example of a shared receptor structure between a mammalian virus and a bacterial toxin. Our structure shows that ANTXR1 decorates the outer surface of the SVV capsid and interacts with the surface-exposed BC loop and loop II of VP1, "the puff" of VP2 and "the knob" of VP3. Comparison of the receptor-bound capsid structure with the native capsid structure reveals that receptor binding induces minor conformational changes in SVV capsid structure, suggesting the role of ANTXR1 as an attachment receptor. Furthermore, our results demonstrate that the capsid footprint on the receptor is not conserved in anthrax toxin receptor 2 (ANTXR2), thereby providing a molecular mechanism for explaining the exquisite selectivity of SVV for ANTXR1
Genome, proteome and structure of a T7-like bacteriophage of the kiwifruit canker phytopathogen pseudomonas syringae pv. actinidiae
La pseudomonas syringae pv. actinidiae es un patógeno responsable significativo de la afta bacteriana severa del kiwi (Actinidia sp.). Los bacteriófagos infectados de este fitopatógeno tienen potencial como agentes de control biológico como parte de un enfoque integrado de la gestión del cancro bacteriano, y para su uso como herramientas molecular para el estudio de esta bacteria. Una variedad de bacteriófagos fueron previamente aislados, antes de ser infectados con P. syringae pv. Actinidiae; y sus propiedades básicas fueron caracterizadas para proporcionar un marco para la formulación de estos fagos, como agentes de biocontrol. Aquí, hemos examinado con más detalle el φPsa17, un fago con la capacidad de infectar a una amplia gama de cepas P. syringae pv. Actinidiae, único miembro de la Podoviridae en esta colección. La morfología de partículas fue visualizada mediante criomicroscopía electrónica, el genoma fue secuenciado, y sus proteínas estructurales fueron analizados usando shotgun proteomics. Estos estudios demostraron que 40,525 φPsa17 tiene un genoma de BP, es un miembro de género T7likevirus y está estrechamente relacionada con la pseudomonada llamada fágicas φPSA2 y GH-1. Once proteínas estructurales (andamios) fueron detectados por la proteómica y φPsa17 tiene una cápside de aproximadamente 60 nm de diámetro. No fueron identificados genes indicativos de un ciclo de vida lisogénica, sugiriendo que el fago es necesariamente lítico. Estas características indican que φPsa17 pueden ser adecuadas para la formulación como un agente de biocontrol de P. syringae pv. actinidiaePseudomonas syringae pv. actinidiae is an economically significant pathogen responsible for severe bacterial canker of kiwifruit (Actinidia sp.). Bacteriophages infecting this phytopathogen have potential as biocontrol agents as part of an integrated approach to the management of bacterial canker, and for use as molecular tools to study this bacterium. A variety of bacteriophages were previously isolated that infect P. syringae pv. actinidiae, and their basic properties were characterized to provide a framework for formulation of these phages as biocontrol agents. Here, we have examined in more detail φPsa17, a phage with the capacity to infect a broad range of P. syringae pv. actinidiae strains and the only member of the Podoviridae in this collection. Particle morphology was visualized using cryo-electron microscopy, the genome was sequenced, and its structural proteins were analysed using shotgun proteomics. These studies demonstrated that φPsa17 has a 40,525 bp genome, is a member of the T7likevirus genus and is closely related to the pseudomonad phages φPSA2 and gh-1. Eleven structural proteins (one scaffolding) were detected by proteomics and φPsa17 has a capsid of approximately 60 nm in diameter. No genes indicative of a lysogenic lifecycle were identified, suggesting the phage is obligately lytic. These features indicate that φPsa17 may be suitable for formulation as a biocontrol agent of P. syringae pv. actinidiaeTrabajo patrocinado por.
Royal Society. Fellowship Rutherford, para Peter C. Fineran
Otago School of Medical Sciences Summer Research Scholarship, para Danni ChenpeerReviewe
Dynamic control of neurochemical release with ultrasonically-sensitive nanoshell-tethered liposomes
The unique surface plasmon resonance of hollow gold nanoshells can be used to achieve drug release from liposomes upon laser stimulation, and adapted to mimic the intricate dynamics of neurotransmission ex vivo in brain preparations. However, to induce a physiological response in vivo requires the degree of temporal precision afforded by laser stimulation, but with a greater depth of penetration through tissue. Here we report that the attachment of hollow gold nanoshells to the surface of robust liposomes results in a construct that is highly sensitive to ultrasonic stimulation. The resulting construct can be remotely triggered by low intensity, therapeutic ultrasound. To our knowledge, this is the first example of nanoparticle-liposome system that can be activated by both laser and acoustic stimulation. The system is capable of encapsulating the neurochemical dopamine, and repeatedly releasing small amounts on-demand in a circulating environment, allowing for precise spatiotemporal control over the release profile
Recovering the Divide: A Review of Strategy and Tactics in Business and Management
With origins in military history, strategy and tactics is a frequently used conceptual couplet in the business and management literature. This paper reviews how strategy and tactics are portrayed, identifying a dominant ‘pragmatic’ account of strategy as an expression of formal, planned ends achieved through the subordinate means of tactics. Pragmatic distinctions give rise to a range of well-known problems, in particular in strategy implementation stages. We suggest that some of these problems may be avoided when the strategy–tactics relationship is conceived differently. We elaborate two alternative distinctions: a sociological framing of tactics as mechanisms of resistance to formal, controlling strategies; and a processual perspective, which sidesteps fixed distinctions between tactics and strategy, giving rise to more fluid interrelations between both modes. Based on a review of the business and management literature, we identify key examples of each trope and conclude by drawing insights for each account on the basis of these wider discussions
British Women in Occupied Germany : Lived experiences in the British Zone 1945-1949
EThOS - Electronic Theses Online ServiceGBUnited Kingdo
A model of the antecedents of multiple channel usage
The number of companies using multiple channels in the distribution of each of their products is increasing steadily. Despite this popularity, the drivers of these channel strategies remain virtually unknown. This work attempts to deal with this problem by developing a model regarding the circumstances under which companies adopt multiple channel strategies. Data collected from companies in the UK financial services industry provide significant empirical support to the model. The results indicate that product sophistication, market target sophistication, channel conflict, market maturity, scope economies, and competitive strength, are important considerations in the multi-channel move.http://www.sciencedirect.com/science/article/B6VGN-4NJP98K-1/1/ea98826578666796ab0b75015fbd853
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