Metabolomics methods for the synthetic biology of secondary metabolism

Nguyễn, Quốc Thái; Merlo, Maria Elena; Medema, Marnix H.; Jankevics, Andris; Breitling, Rainer; Takano, Eriko

doi:10.1016/j.febslet.2012.02.008

Cited by 68 publications

(50 citation statements)

References 106 publications

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“…In this regard, rigorous evaluation of prebiotic and probiotic outcomes (149) and establishment of realistic production benchmarks are mandatory before there will be further adoption by industry. Alternatively, the engineering of intestinal microorganisms, such as chimeric live vaccines (150,151), CRISPR-based genome editing (152), and synthetic biology of secondary metabolism (153), holds vast potential and may ultimately transform how food is produced in the future.…”

Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

Polysaccharide Utilization Loci: Fueling Microbial Communities

et al. 2017

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The complex carbohydrates of terrestrial and marine biomass represent a rich nutrient source for free-living and mutualistic microbes alike. The enzymatic saccharification of these diverse substrates is of critical importance for fueling a variety of complex microbial communities, including marine, soil, ruminant, and monogastric microbiota. Consequently, highly specific carbohydrate-active enzymes, recognition proteins, and transporters are enriched in the genomes of certain species and are of critical importance in competitive environments. In Bacteroidetes bacteria, these systems are organized as polysaccharide utilization loci (PULs), which are strictly regulated, colocalized gene clusters that encode enzyme and protein ensembles required for the saccharification of complex carbohydrates. This review provides historical perspectives and summarizes key findings in the study of these systems, highlighting a critical shift from sequence-based PUL discovery to systems-based analyses combining reverse genetics, biochemistry, enzymology, and structural biology to precisely illuminate the molecular mechanisms underpinning PUL function. The ecological implications of dynamic PUL deployment by key species in the human gastrointestinal tract are explored, as well as the wider distribution of these systems in other gut, terrestrial, and marine environments.

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Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

Polysaccharide Utilization Loci: Fueling Microbial Communities

et al. 2017

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“…Among these options, large-scale production of drugs from microbial fermentation has been the basis of industrial production for many years (Olano et al 2008). The application of different Bomics^techniques, along with the intervention of synthetic biological approaches, provides new opportunities for the optimal production of desired secondary metabolites (Medema et al 2011;Chaudhary et al 2013;Nguyen et al 2012). …”

Section: Illustration Of Biosynthetic Mechanism Of Herboxidiene In Comentioning

confidence: 99%

Herboxidiene biosynthesis, production, and structural modifications: prospect for hybrids with related polyketide

Pokhrel

Dhakal

Jha

et al. 2015

Appl Microbiol Biotechnol

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Herboxidiene is a polyketide with a diverse range of activities, including herbicidal, anti-cholesterol, and pre-mRNA splicing inhibitory effects. Thus, production of the compound on the industrial scale is in high demand, and various rational metabolic engineering approaches have been employed to enhance the yield. Directing the precursors and cofactors pool toward the production of polyketide compounds provides a rationale for developing a good host for polyketide production. Due to multiple promising biological activities, the production of a number of herboxidiene derivatives has been attempted in recent years in a search for the key to improve its potency and to introduce new activities. Structural diversification through combinatorial biosynthesis was attempted, utilizing the heterologous expression of substrate-flexible glucosyltransferase (GT) and cytochrome P450 in Streptomyces chromofuscus to generate structurally and functionally diverse derivatives of herboxidiene. The successful attempt confirmed that the strain was amenable to heterologous expression of foreign polyketide synthase (PKS) or post-PKS modification genes, providing the foundation for generating novel or hybrid polyketides.

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“…Computational modeling, at the level of individual building blocks such as RNA devices [110,111] or enzymes [112,113], or on the whole-pathway and whole-cell scale [114][115][116], also play a major role in driving the rational engineering of biosynthetic systems for antibiotics production [39]. These allow the design of new building blocks with desirable (or necessary) functionality from scratch, their assembly into novel pathways using retrosynthesis concepts [117], as well as the in silico identification of biosynthetic bottlenecks or unwanted side reactions, in particular when combined with diagnostic debugging tools such as metabolomics [118,119].…”

Section: Tools For the Futurementioning

confidence: 99%