Cell growth and <i>Trametes versicolor</i> laccase production in transformed <i>Pichia pastoris</i> cultured by solid‐state or submerged fermentations

López, Marcos; Loera, Octavio; Guerrero-Olazarán, Martha; Viader-Salvadó, José M.; Gallegos-López, Juan A; Fernandez, F; Favela‐Torres, Ernesto; Viniegra‐González, Gustavo

doi:10.1002/jctb.2306

Cited by 23 publications

(22 citation statements)

References 21 publications

(31 reference statements)

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“…Laccase production was increased by recombinant fungal strains; and laccase genes were successfully transferred from the Basidiomycete Tramete hirsuta into the Ascomycete Penicillium canescens for heterologous expression 89. López et al 90. reported the transformation of laccase genes from Trametes versicolor into the methyltrophic yeast Pichia pastoris for heterologous expression.…”

Section: Laccase Production and Availabilitymentioning

confidence: 99%

Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO₂

et al. 2014

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Ionic liquids (ILs) comprised of ammonium cations and anions of naturally occurring amino acids containing an additional amine group (e.g., lysine, histidine, asparagine, and glutamine) were examined as high-capacity absorbents for CO2. An absorption capacity of 2.1 mol CO2 per mol of IL (3.5 mol CO2 per kg IL, 13.1 wt% CO2) was measured for [N66614][Lys] at ambient temperature and about 1 mol CO2 per mol of IL at 808C (under 1 bar of CO2). This demonstrated that desorption is possible under CO2-rich conditions by temperature-swing absorption; three consecutive sorption cycles were performed with the IL. The mechanistic and kinetic study of the absorption process was further substantiated by NMR spectroscopy and in situ attenuated total reflectance FTIR for [N66614][Lys] and the homologous phosphonium-based IL [P66614][Lys]. This study revealed that carbamic acid was formed with CO2 in both ILs by chemisorption; however, the amino acid–carboxyl groups on the anion played an important—but different—catalytic role for the sorption kinetics in the two ILs. The origin of the cationic effect is speculated to be correlated with the strength of the ion interactions in the two ILs.

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Section: Laccase Production and Availabilitymentioning

confidence: 99%

Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO₂

et al. 2014

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“…For laccase production, stock basal medium was inoculated with pellets and incubated for 24 h. After 24 h, the culture medium was removed and replaced with 50 mL fresh SBM for the next cycle without removing the pellets. The procedure was repeated five times and after five cycles the culture filtrate was used as a laccase source …”

Section: Methodsmentioning

confidence: 99%

Influence of the medium conditions on enzymatic oxidation of bisphenol A

et al. 2013

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A multistep response surface methodology (RSM) was successfully applied to optimise the medium conditions for the enzymatic polymerisation of bisphenol A (BPA). The laccase enzyme used as the catalyst was derived from Funalia trogii (ATCC 200800) yeast culture. The enzymatic polymerisation rate of BPA, based on the measurements of the initial dissolved oxygen (DO) consumption rate in a closed batch system, was studied through RSM. Initially the most effective medium factors, which are monomer concentration (mg/L), temperature (°C) and solvent content (% methanol), were determined through Plackett–Burman Design (PBD), then the steepest ascent combined with central composite design (CCD) steps were applied to evaluate the optimal reaction conditions for the enzymatic polymerisation. The optimal conditions were evaluated to be 748.46 mg/L, 32.24°C and 15.92% for monomer concentration, temperature and solvent content, respectively. A quadratic model was developed through RSM to represent DO consumption in the medium. The maximum DO consumption rate was calculated to be 0.093 mg DO/L min. Several repetitions were conducted at the optimal conditions to validate the system performance. The data evaluated from the quadratic model were in good agreement with those measured experimentally. The variations between the values did not exceed 10%. The correlation coefficient, R2, was calculated to be 0.95, which indicates that 95% of results can be explained by model.

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“…(Figura2d, 2e, 2f) (Zhu et al, 1994;Christen et al, 1993), que son utilizados como soporte del crecimiento sin formación de residuos, ya que son reusables, además desde un punto de vista comparativo respecto de los cultivos con los residuos agroindustriales, la composición nutricional del medio liquido con la que se impregna el soporte, es definida permitiendo procesos reproducibles (Oojkaas et al, 2000), así mismo, los costos en separación de estos productos son menores a lo habitual en cultivos con residuos agroindustriales. Particularmente, la espuma de poliuretano que es un material plástico formado por la agregación de burbujas, tiene la ventaja de que a lo largo de los cultivos su geometría no varía, por lo que la trasferencia de calor y masa son constantes, otra característica es que la mayoría de su volumen está ocupado por aire, esta propiedad junto a una relación área volumen de 333 cm -1 resulta en una apropiada difusión de gases (López et al, 2010;Oojkaas et al,2000), permitiendo alcanzar altas densidades celulares mediante un metabolismo respiratorio.…”

Section: Soportes Sólidosunclassified

“…En trabajos previos llevados en medio sumergido específicamente con P. pastoris, las concentraciones de sustrato ya sea glicerol o glucosa están dentro de un rango de entre 10 y 45 g/L con el fin de evitar la represión catabólica (Aizemberg et al, 2011;Hang et al, 2009;Gosalkar et al, 2008), mientras que en los cultivos en medio sólido no se da este fenómeno (Viniegra-González and Favela-Torres, 2006;Favela-Torres et al, 1998).Viniegra-González and Favela-Torres ( 2006) proponen que dentro de soportes sólidos como es el caso de EPU existe la creación de gradientes de concentración de sustrato, así como dentro de los agregados celulares formados (López et al, 2010), creando microambientes con la concentración idónea para el crecimiento celular (5-10g/L) permitiendo alcanzar altas concentraciones de biomasa. A este respecto, López et al (2010) llegaron a producir cultivos de P. pastoris con altas densidades celulares, de hasta 51.6 g/L, empleando glicerol a altas concentraciones (90.4 g/L), por su parte, Núñez (2012) empleando glucosa a concentraciones de 150g/L llegó a obtener producciones celulares de hasta 40 g/L, nivel que pudiera ser considerado como cultivo de alta producción celular.…”

Section: Efecto De La Concentración Del Sustrato Sobre El Crecimientounclassified

Estudio comparativo de la fisiología de crecimiento de Pichia pastoris en cultivo en medio sólido, utilizando glicerol o glucosa como fuente de carbono

Zárate Bonilla

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Cell growth and Trametes versicolor laccase production in transformed Pichia pastoris cultured by solid‐state or submerged fermentations

Abstract: BACKGROUND: Growth kinetics of Pichia pastoris and heterologous expression of Trametes versicolor laccase were compared. This is the first study of its kind between solid-state yeast cultures done on polyurethane foam (PUF) and submerged liquid fermentations (SmF).

Cited by 23 publications

References 21 publications

Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO₂

Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO₂

Influence of the medium conditions on enzymatic oxidation of bisphenol A

Estudio comparativo de la fisiología de crecimiento de Pichia pastoris en cultivo en medio sólido, utilizando glicerol o glucosa como fuente de carbono

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Cell growth and Trametes versicolor laccase production in transformed Pichia pastoris cultured by solid‐state or submerged fermentations

Abstract: BACKGROUND: Growth kinetics of Pichia pastoris and heterologous expression of Trametes versicolor laccase were compared. This is the first study of its kind between solid-state yeast cultures done on polyurethane foam (PUF) and submerged liquid fermentations (SmF).

Cited by 23 publications

References 21 publications

Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO2

Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO2

Influence of the medium conditions on enzymatic oxidation of bisphenol A

Estudio comparativo de la fisiología de crecimiento de Pichia pastoris en cultivo en medio sólido, utilizando glicerol o glucosa como fuente de carbono

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Product

Resources

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Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO₂

Amine‐Functionalized Amino Acid‐based Ionic Liquids as Efficient and High‐Capacity Absorbents for CO₂