Production and Regulation of Lipase Activity from Penicillium restrictum in Submerged and Solid-State Fermentations

Azeredo, Luciana A. I. de; Gomes, Patrícia Moreira; Sant’Anna, Geraldo L.; Castilho, Leda R.; Freire, Denise Maria Guimarães

doi:10.1007/s00284-006-0425-7

Cited by 69 publications

(40 citation statements)

References 24 publications

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“…The process using SF was 78% more expensive (total capital investment) than the one utilizing SSF employing babassu cake as substrate, and resulted in lower catabolic repression. This feature of SSF to overcome catabolic repression due to the difficulty of transferring mass of gases and nutrients has been utilized for the production of several microbial enzymes [15,61]. Therefore, the utilization of solid wastes to produce industrial enzymes not only contributes to cost reduction but also adds value to these wastes.…”

Section: Use Of Solid Waste To Obtain Biocatalystsmentioning

confidence: 99%

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The Protagonism of Biocatalysis in Green Chemistry and Its Environmental Benefits

et al. 2017

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Abstract:The establishment of a bioeconomy era requires not only a change of production pattern, but also a deep modernization of the production processes through the implementation of novel methodologies in current industrial units, where waste materials and byproducts can be utilized as starting materials in the production of commodities such as biofuels and other high added value chemicals. The utilization of renewable raw resources and residues from the agro-industries, and their exploitation through various uses and applications through technologies, particularly solid-state fermentation (SSF), are the main focus of this review. The advocacy for biocatalysis in green chemistry and the environmental benefits of bioproduction are very clear, although this kind of industrial process is still an exception and not the rule. Potential and industrial products, such as biocatalysts, animal feed, fermentation medium, biofuels (biodiesel, lignocelulose ethanol, CH 4 , and H 2 ), pharmaceuticals and chemicals are dealt with in this paper. The focus is the utilization of renewable resources and the important role of enzymatic process to support a sustainable green chemical industry.

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Section: Use Of Solid Waste To Obtain Biocatalystsmentioning

confidence: 99%

“…This process has received attention as a promising alternative for industrial enzyme production [14][15][16][17][18][19], and other products, such as aromas [20][21][22], pigments [23], biopesticides [24][25][26], organic acids [27,28], and other biochemicals.…”

Section: Use Of Solid Waste To Obtain Biocatalystsmentioning

confidence: 99%

The Protagonism of Biocatalysis in Green Chemistry and Its Environmental Benefits

et al. 2017

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“…Lipidic carbon sources seem to be essential for obtaining a high lipase yield. 26,27,28 The effect of lipids added to the medium to induce enzyme production varies from organism to organism. In accordance with this purpose, the addition of some natural oils and OMW was tested to determine their effect on the growth and lipase production of Anoxybacillus sp.…”

Section: Effect Of Carbon and Nitrogen Sources On Lipase Productionmentioning

confidence: 99%

Production and Characterization of an Alkaline Lipase from Thermophilic Anoxybacillus sp. HBB16

Bakir¹

2017

Chem.Biochem.Eng.Q.

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A thermophilic lipase-producing bacterium (Anoxybacillus sp. HBB16) was analyzed using 16S rRNA. The maximum growth rate and intracellular lipase production occurred at 50 °C and pH 6.5. Among the various nitrogen and carbon sources tested, meat extract, olive oil and olive mill wastewater (OMW) were the best sources for lipase production. Enzyme production increased when the strain HBB16 was grown at a 180 rpm shaking speed. The maximum activity of the lipase occurred at 55 °C and pH 9.5. The presence of phenylmethylsulfonyl fluoride (PMSF), N-cyclohexyl-N′-(2-morpholinoethyl) carbodiimidemetho-p-toluenesulfonate (CMC), N-bromosuccinimide (NBS) and sodium dodecyl sulfate (SDS) inhibited enzyme activity. Bivalent metal ions caused a significant inhibition in enzyme activity, whereas univalent metal ions displayed no negative effects.

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“…Agro industrial by-products and in various fields of industries including pharmaceuticals, detergents, cosmetic, oleochemicals and fuel sector for biodiesel synthesis [5][6][7]. microorganisms [8][9][10].…”

Section: Introductionmentioning

confidence: 99%

“…with carbon and nitrogen sources is another important parameter affecting lipase production and efficiency of the Tray Bioreactor Set up: A Plexiglas bioreactor (45 × 35 process [23]. Luciana et al [6] had investigated the effect ×55 cm) with three aluminum trays in series (35 × 25 ×5 cm) of various carbon sources on lipase produced using was constructed. The surface of the top and middle trays Penecillium Restrictum in SSF.…”

Section: Introductionmentioning

confidence: 99%

Lipase Production in Tray-Bioreactor via Solid State Fermentation under Desired Growth Conditions

Vaseghi

Najafpour

Mohseni³

et al. 2012

IJEE

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Lipase was produced under desired growth conditions in a novel tray bioreactor using the fungus strain of Rhizopus oryzae. Several agricultural residues/products including sugarcane bagasse, wheat bran, corn meal, barely bran and equal mixtures of sugarcane bagasse with agricultural residues were applied as solid substrate. Lipase produced from the pure sugarcane bagasse showed higher activities than other substrates; which resulted enzyme activities of 155.76 and 138.37 U/gds for the top and middle trays respectively. Furthermore, the influence of carbon and nitrogen supplements was investigated. Addition of carbon sources as substrate was found to be ineffective, while lipase activity remarkably increased by supplementation of bagasse with adequate amount of nitrogen source. Among the nitrogen supplements, urea as a suitable nitrogen source was considered; as a result the average lipolytic activity of 229.355 U/gds was achieved. In addition, various concentrations of vegetable oils including canola oil, soybean oil, olive oil and castor oil were applied. The inducing effect of vegetable oil on lipase activity was investigated. Among them, olive oil and canola oil increased lipolytic activity of lipase with an average value of 192.26 and 183.57 U/gds, respectively.

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Production and Regulation of Lipase Activity from Penicillium restrictum in Submerged and Solid-State Fermentations

Cited by 69 publications

References 24 publications

The Protagonism of Biocatalysis in Green Chemistry and Its Environmental Benefits

The Protagonism of Biocatalysis in Green Chemistry and Its Environmental Benefits

Production and Characterization of an Alkaline Lipase from Thermophilic Anoxybacillus sp. HBB16

Lipase Production in Tray-Bioreactor via Solid State Fermentation under Desired Growth Conditions

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