Literature DB >> 21908633

Generalized schemes for high-throughput manipulation of the Desulfovibrio vulgaris genome.

S R Chhabra1, G Butland, D A Elias, J-M Chandonia, O-Y Fok, T R Juba, A Gorur, S Allen, C M Leung, K L Keller, S Reveco, G M Zane, E Semkiw, R Prathapam, B Gold, M Singer, M Ouellet, E D Szakal, D Jorgens, M N Price, H E Witkowska, H R Beller, A P Arkin, T C Hazen, M D Biggin, M Auer, J D Wall, J D Keasling.   

Abstract

The ability to conduct advanced functional genomic studies of the thousands of sequenced bacteria has been hampered by the lack of available tools for making high-throughput chromosomal manipulations in a systematic manner that can be applied across diverse species. In this work, we highlight the use of synthetic biological tools to assemble custom suicide vectors with reusable and interchangeable DNA "parts" to facilitate chromosomal modification at designated loci. These constructs enable an array of downstream applications, including gene replacement and the creation of gene fusions with affinity purification or localization tags. We employed this approach to engineer chromosomal modifications in a bacterium that has previously proven difficult to manipulate genetically, Desulfovibrio vulgaris Hildenborough, to generate a library of over 700 strains. Furthermore, we demonstrate how these modifications can be used for examining metabolic pathways, protein-protein interactions, and protein localization. The ubiquity of suicide constructs in gene replacement throughout biology suggests that this approach can be applied to engineer a broad range of species for a diverse array of systems biological applications and is amenable to high-throughput implementation.

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Year:  2011        PMID: 21908633      PMCID: PMC3209177          DOI: 10.1128/AEM.05495-11

Source DB:  PubMed          Journal:  Appl Environ Microbiol        ISSN: 0099-2240            Impact factor:   4.792


  50 in total

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5.  A rapid and sensitive method for the quantitation of microgram quantities of protein utilizing the principle of protein-dye binding.

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7.  Topology and subcellular localization of FtsH protein in Escherichia coli.

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  8 in total

1.  Rapid transposon liquid enrichment sequencing (TnLE-seq) for gene fitness evaluation in underdeveloped bacterial systems.

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2.  Bacterial Interactomes: Interacting Protein Partners Share Similar Function and Are Validated in Independent Assays More Frequently Than Previously Reported.

Authors:  Maxim Shatsky; Simon Allen; Barbara L Gold; Nancy L Liu; Thomas R Juba; Sonia A Reveco; Dwayne A Elias; Ramadevi Prathapam; Jennifer He; Wenhong Yang; Evelin D Szakal; Haichuan Liu; Mary E Singer; Jil T Geller; Bonita R Lam; Avneesh Saini; Valentine V Trotter; Steven C Hall; Susan J Fisher; Steven E Brenner; Swapnil R Chhabra; Terry C Hazen; Judy D Wall; H Ewa Witkowska; Mark D Biggin; John-Marc Chandonia; Gareth Butland
Journal:  Mol Cell Proteomics       Date:  2016-02-12       Impact factor: 5.911

3.  The Membrane QmoABC Complex Interacts Directly with the Dissimilatory Adenosine 5'-Phosphosulfate Reductase in Sulfate Reducing Bacteria.

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4.  Functional genomics with a comprehensive library of transposon mutants for the sulfate-reducing bacterium Desulfovibrio alaskensis G20.

Authors:  Jennifer V Kuehl; Morgan N Price; Jayashree Ray; Kelly M Wetmore; Zuelma Esquivel; Alexey E Kazakov; Michelle Nguyen; Raquel Kuehn; Ronald W Davis; Terry C Hazen; Adam P Arkin; Adam Deutschbauer
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5.  The lethal cargo of Myxococcus xanthus outer membrane vesicles.

Authors:  James E Berleman; Simon Allen; Megan A Danielewicz; Jonathan P Remis; Amita Gorur; Jack Cunha; Masood Z Hadi; David R Zusman; Trent R Northen; H Ewa Witkowska; Manfred Auer
Journal:  Front Microbiol       Date:  2014-09-09       Impact factor: 5.640

6.  Deletion Mutants, Archived Transposon Library, and Tagged Protein Constructs of the Model Sulfate-Reducing Bacterium Desulfovibrio vulgaris Hildenborough.

Authors:  Judy D Wall; Grant M Zane; Thomas R Juba; Jennifer V Kuehl; Jayashree Ray; Swapnil R Chhabra; Valentine V Trotter; Maxim Shatsky; Kara B De León; Kimberly L Keller; Kelly S Bender; Gareth Butland; Adam P Arkin; Adam M Deutschbauer
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7.  Iterative correction of Hi-C data reveals hallmarks of chromosome organization.

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8.  IHF is required for the transcriptional regulation of the Desulfovibrio vulgaris Hildenborough orp operons.

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  8 in total

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