Extraction and purification of violacein from <i>Yarrowia lipolytica</i> cells using aqueous solutions of surfactants

Kholany, Mariam; Trébulle, Pauline; Martins, Margarida; Ventura, Sónia P. M.; Nicaud, Jean‐Marc; Coutinho, João A. P.

doi:10.1002/jctb.6297

Cited by 22 publications

(21 citation statements)

References 53 publications

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“…The surfactants tested were pre-selected considering previous works that identified them to be efficient in the extraction of biomolecules, namely carotenoids. 37,38,46 Table S1 in the ESI† reports the ability of the surface-active compounds tested (30 in total) to extract bacterioruberin. Fig.…”

Section: Resultsmentioning

confidence: 99%

Recovery of bacterioruberin and proteins using aqueous solutions of surface-active compounds

et al. 2022

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Section: Resultsmentioning

confidence: 99%

Recovery of bacterioruberin and proteins using aqueous solutions of surface-active compounds

et al. 2022

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“…We chose to focus on Violacein (Fig. 5A), a purple pigment formed by the condensation of two tryptophan molecules 37 which is commonly used to demonstrate biosynthesis optimization 38 . The violacein biosynthetic pathway contains five enzymes, VioABCDE, each under the control of a different promoter and spanning approximately 8kb of DNA (Fig.…”

Section: Resultsmentioning

confidence: 99%

A plasmid system with tunable copy number

Rouches

Cortes

et al. 2022

Nat Commun

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Plasmids are one of the most commonly used platforms for genetic engineering and recombinant gene expression in bacteria. The range of available copy numbers for cloning vectors is largely restricted to the handful of Origins of Replication (ORIs) that have been isolated from plasmids found in nature. Here, we introduce two systems that allow for the continuous, finely-tuned control of plasmid copy number between 1 and 800 copies per cell: a plasmid with an anhydrotetracycline-controlled copy number, and a parallelized assay that is used to generate a continuous spectrum of 1194 ColE1-based copy number variants. Using these systems, we investigate the effects of plasmid copy number on cellular growth rates, gene expression, biosynthesis, and genetic circuit performance. We perform single-cell timelapse measurements to characterize plasmid loss, runaway plasmid replication, and quantify the impact of plasmid copy number on the variability of gene expression. Using our assay, we find that each plasmid imposes a 0.063% linear metabolic burden on their hosts, hinting at a simple relationship between metabolic burdens and plasmid DNA synthesis. Our systems enable the precise control of gene expression, and our results highlight the importance of tuning plasmid copy number as a powerful tool for the optimization of synthetic biological systems.

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“…Our chassis strains can therefore be used as tools for producing a wide range of AAA derivatives by introducing heterologous pathways for biobased aromatic compounds. Such molecules like naringenin, resveratrol or even violacein have recently been successfully produced in Y. lipolytica, showing that the expression of these heterologous pathways is efficient in this yeast (Lv et al, 2019;Kholany et al, 2019;Palmer et al, 2020;S aez-S aez et al, 2020;Gu et al, 2020a). S aez-S aez and colleagues observed that glucose performed better than glycerol for the production of resveratrol (S aez-S aez et al, 2020).…”

Section: Discussionmentioning

confidence: 99%

“…Similarly, our TRP chassis strain resulted in PVA production in the absence of precursors supplementation, while violacein is usually generated using TRP‐supplemented media. For example, Wong and colleagues produced violacein in Y. lipolytica with a CSM medium containing TRP (Wong et al ., 2017 ), whereas Kholany and colleagues utilized a minimal or rich medium containing TRP (25 mg l −1 ) (Kholany et al ., 2019 ).…”

Section: Discussionmentioning

confidence: 99%

Yarrowia lipolyticachassis strains engineered to produce aromatic amino acids via the shikimate pathway

Larroude

Nicaud

Rossignol

2020

Microbial Biotechnology

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Yarrowia lipolytica is widely used as a microbial producer of lipids and lipid derivatives. Here, we exploited this yeast's potential to generate aromatic amino acids by developing chassis strains optimized for the production of phenylalanine, tyrosine and tryptophan. We engineered the shikimate pathway to overexpress a combination of Y. lipolytica and heterologous feedback-insensitive enzyme variants. Our best chassis strain displayed high levels of de novo Ehrlich metabolite production (up to 0.14 g l À1 in minimal growth medium), which represented a 93fold increase compared to the wild-type strain (0.0015 g l À1 ). Production was further boosted to 0.48 g l À1 when glycerol, a low-cost carbon source, was used, concomitantly to high secretion of phenylalanine precursor (1 g l À1 ). Among these metabolites, 2-phenylethanol is of particular interest due to its rose-like flavour. We also established a production pathway for generating protodeoxyviolaceinic acid, a dye derived from tryptophan, in a chassis strain optimized for chorismate, the precursor of tryptophan. We have thus demonstrated that Y. lipolytica can serve as a platform for the sustainable de novo bioproduction of high-value aromatic compounds, and we have greatly improved our understanding of the potential feedback-based regulation of the shikimate pathway in this yeast.

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Extraction and purification of violacein from Yarrowia lipolytica cells using aqueous solutions of surfactants

Cited by 22 publications

References 53 publications

Recovery of bacterioruberin and proteins using aqueous solutions of surface-active compounds

Recovery of bacterioruberin and proteins using aqueous solutions of surface-active compounds

A plasmid system with tunable copy number

Yarrowia lipolyticachassis strains engineered to produce aromatic amino acids via the shikimate pathway

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