Rhizopus oryzae Lipase, a Promising Industrial Enzyme: Biochemical Characteristics, Production and Biocatalytic Applications

López-Fernández, Josu; Benaiges, M. Dolors; Valero, Francisco

doi:10.3390/catal10111277

Cited by 48 publications

(31 citation statements)

References 289 publications

(442 reference statements)

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“…R. oryzae lipase is a 1,3‐specific lipase and the maximum conversion achieved (about 70%) is close to the theoretical maximum percentage (66%), without considering acyl migration from the sn‐2 position to the sn‐1 or sn‐3 positions, as described by López‐Fernández et al (2020). On the other hand, R. miehei lipase is also 1–3 positional specific lipase and as it was suggested in R. miehei results, different lipase pools were presented in the DFS.…”

Section: Resultssupporting

confidence: 79%

Development of a green integrated process for biodiesel esters production: Use of fermented macaúba cake as biocatalyst for macaúba acid oil transesterification

Ávila

Collaço

Greco-Duarte

et al. 2021

J Americ Oil Chem Soc

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In this study, a new green integrated process for biodiesel ester production was developed, consisting of the enzymatic transesterification of acid oil from macaúba palm tree (Acrocomia aculeata) catalyzed by dry fermented solid (DFS) with lipase activity, which was obtained from solid‐state fermentation (SSF) of macaúba cake. Analysis of statistical experimental designs showed that nitrogen supplementation of macaúba cake improved production of lipases displaying esterification capacity by Rhizomucor miehei. The conditions chosen to produce R. miehei DFS were cake supplementation with 2 wt% urea, 60 wt% of initial moisture during 48 h of fermentation at 40°C. DFS showed, by zymography assays, at least one enzyme that was different from those that are present in the commercial lipase of R. miehei. Furthermore, DFS was used in transesterification reactions between macaúba acid oil and alcohol (methanol or ethanol), and the ester content obtained was 92%. This is the first time that this integrated process using low‐cost biocatalysts and a low‐value oil derived from the processing of the same fruit was used for biodiesel ester production, reducing costs and logistic constraints, and optimizing the raw material utilization.

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Section: Resultssupporting

confidence: 79%

Development of a green integrated process for biodiesel esters production: Use of fermented macaúba cake as biocatalyst for macaúba acid oil transesterification

Ávila

Collaço

Greco-Duarte

et al. 2021

J Americ Oil Chem Soc

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“…Rhizopus oryaze are characterized by their platform’s highly secondary metabolites such as chemicals (fumaric acid, lactic acid, and ethanol), enzymes, fermentative compounds, and a wide range of by-products [ 44 , 45 ]. This wide range of metabolites increases the possibilities of R. oryaze to incorporate into various biomedical and biotechnological applications.…”

Section: Resultsmentioning

confidence: 99%

Rhizopus oryzae-Mediated Green Synthesis of Magnesium Oxide Nanoparticles (MgO-NPs): A Promising Tool for Antimicrobial, Mosquitocidal Action, and Tanning Effluent Treatment

Hassan

Fouda

Saied

et al. 2021

JoF

113

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The metabolites of the fungal strain Rhizopus oryaze were used as a biocatalyst for the green-synthesis of magnesium oxide nanoparticles (MgO-NPs). The production methodology was optimized to attain the maximum productivity as follows: 4 mM of precursor, at pH 8, incubation temperature of 35 °C, and reaction time of 36 h between metabolites and precursor. The as-formed MgO-NPs were characterized by UV-Vis spectroscopy, TEM, SEM-EDX, XRD, DLS, FT-IR, and XPS analyses. These analytical techniques proved to gain crystalline, homogenous, and well-dispersed spherical MgO-NPs with an average size of 20.38 ± 9.9 nm. The potentiality of MgO-NPs was dose- and time-dependent. The biogenic MgO-NPs was found to be a promising antimicrobial agent against the pathogens including Staphylococcus aureus, Bacillus subtilis, Pseudomonas aeruginosa, Escherichia coli, and Candida albicans with inhibition zones of 10.6 ± 0.4, 11.5 ± 0.5, 13.7 ± 0.5, 14.3 ± 0.7, and 14.7 ± 0.6 mm, respectively, at 200 μg mL–1. Moreover, MgO-NPs manifested larvicidal and adult repellence activity against Culex pipiens at very low concentrations. The highest decolorization percentages of tanning effluents were 95.6 ± 1.6% at 100 µg/ 100 mL after 180 min. At this condition, the physicochemical parameters of tannery effluents, including TSS, TDS, BOD, COD, and conductivity were reduced with percentages of 97.9%, 98.2%, 87.8%, 95.9%, and 97.3%, respectively. Moreover, the chromium ion was adsorbed with percentages of 98.2% at optimum experimental conditions.

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“…However, even if the soluble and active production of lipases was achieved, the fact that the enzymes were intracellularly produced-therefore requiring further purification steps-as well as the lack of protein processing mechanisms, since the lipase that contained the complete prosequence was not properly hydrolyzed, promoted the assessment of the yeasts S. cerevisiae and K. phaffii as potential sources for this enzyme. The different proteolytic processing imposed by Kex2-like protease in S. cerevisiae enabled the production of two lipase forms by the gene encoding the whole prosequence linked to the mature sequence (w-proROLgene), unlike observed with E. coli; however, no activity was detected when only the mature sequence gene (rROL-gene) was expressed, which highlights the importance of the prosequence for efficient production of the lipase [5]. With the methylotrophic yeast K. phaffii, only the cleaved form of ROL was obtained after w-proROL-gene expression, which underlies the increased activity of Kex2-like protease in this microorganism [23].…”

Section: Introductionmentioning

confidence: 99%

“…3.1.1.3), which are the most widely used biocatalysts after proteases and amylases, catalyze a wide range of industrially interesting reactions including esterification, transesterification and interesterification [3,4]. Specifically, Rhizopus oryzae lipase (ROL) has been the subject of much study on account of a number of favorable traits such as 1,3-regioespecificity, high thermostability, tolerance of organic solvents, and the ability to produce flavors, biodiesel and structured lipids [5]. All lipases from the genus Rhizopus are synthesized as precursor forms sharing a common structure.…”

Section: Introductionmentioning

confidence: 99%

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Constitutive Expression in Komagataella phaffii of Mature Rhizopus oryzae Lipase Jointly with Its Truncated Prosequence Improves Production and the Biocatalyst Operational Stability

2021

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Rhizopus oryzae lipase (ROL) containing 28 C-terminal amino acids of the prosequence fused to the N-terminal mature sequence in ROL (proROL) was successfully expressed in the methylotrophic yeast Komagataella phaffii (Pichia pastoris) under the constitutive glyceraldehyde-3-phosphate dehydrogenase promoter (PGAP). Although the sequence encoding the mature lipase (rROL) was also transformed, no clones were obtained after three transformation cycles, which highlights the importance of the truncated prosequence to obtain viable transformed clones. Batch cultures of the K. phaffii strain constitutively expressing proROL scarcely influenced growth rate and exhibited a final activity and volumetric productivity more than six times higher than those obtained with proROL from K. phaffii under the methanol-inducible alcohol oxidase 1 promoter (PAOX1). The previous differences were less marked in fed-batch cultures. N-terminal analysis confirmed the presence of the 28 amino acids in proROL. In addition, immobilized proROL exhibited increased tolerance of organic solvents and an operational stability 0.25 and 3 times higher than that of immobilized rROL in biodiesel and ethyl butyrate production, respectively. Therefore, the truncated prosequence enables constitutive proROL production, boosts bioprocess performance and provides a more stable biocatalyst in two reactions in which lipases are mostly used at industrial level, esterification (ethyl butyrate) and transesterification (biodiesel).

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Rhizopus oryzae Lipase, a Promising Industrial Enzyme: Biochemical Characteristics, Production and Biocatalytic Applications

Cited by 48 publications

References 289 publications

Development of a green integrated process for biodiesel esters production: Use of fermented macaúba cake as biocatalyst for macaúba acid oil transesterification

Development of a green integrated process for biodiesel esters production: Use of fermented macaúba cake as biocatalyst for macaúba acid oil transesterification

Rhizopus oryzae-Mediated Green Synthesis of Magnesium Oxide Nanoparticles (MgO-NPs): A Promising Tool for Antimicrobial, Mosquitocidal Action, and Tanning Effluent Treatment

Constitutive Expression in Komagataella phaffii of Mature Rhizopus oryzae Lipase Jointly with Its Truncated Prosequence Improves Production and the Biocatalyst Operational Stability

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