Optimisation of solid-state fermentation of Aspergillus niger JL-15 for xylanase production and xylooligosaccharides preparation

The production of xylanase (XylA) by Aspergillus niger JL-15 in solid-state fermentation (SSF) on orange peel was optimised by the response surface methodology (RSM). The results revealed that four factors had significant effects on the XylA production (P < 0.05), that is the concentrations of the added glycerin and ammonium sulfate, the moisture content, and fermentation time. Exploying orange peel as the solid substrate, maximum xylanase activity (917.7 U/g dry fermentation product) was obtained at 4.2% glycerin, 3.1% (NH4)2SO4, 61% moisture content, and 73.4-h fermentation, this activity being close to the predicted one and 3.2 times higher than that of the basic medium (218.5 U/g). Optimum temperature and pH for XylA activity were 55°C and pH 5.0, respectively. SDS-PAGE analysis showed that the relative molecular mass of XylA was about 30.0 kDa. XylA exhibited Km and Vmax values of 9.24 mg/ml and 54.05 μmol/min/ml, respectively. XylA liberated mainly xylotriose from birchwood xylan and wheat bran, respectively. XylA was an endo-acting xylanase with transglycosylation activity, with the ability to hydrolyse, xylobiose, xylotriose, xylotetraose, xylopentaose, and xylohexaose.

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Lovastatin Production byAspergillus terreusUsing Agro-Biomass as Substrate in Solid State Fermentation

Journal of Biomedicine and Biotechnology ◽

10.1155/2012/196264 ◽

2012 ◽

Vol 2012 ◽

pp. 1-11 ◽

Cited By ~ 27

Author(s):

Mohammad Faseleh Jahromi ◽

Juan Boo Liang ◽

Yin Wan Ho ◽

Rosfarizan Mohamad ◽

Yong Meng Goh ◽

...

Keyword(s):

Particle Size ◽

Solid State ◽

Moisture Content ◽

Nitrogen Source ◽

Solid State Fermentation ◽

Incubation Temperature ◽

Initial Moisture Content ◽

Fermentation Time ◽

Maximum Production ◽

Additional Nitrogen

Ability of two strains ofAspergillus terreus(ATCC 74135 and ATCC 20542) for production of lovastatin in solid state fermentation (SSF) using rice straw (RS) and oil palm frond (OPF) was investigated. Results showed that RS is a better substrate for production of lovastatin in SSF. Maximum production of lovastatin has been obtained usingA. terreusATCC 74135 and RS as substrate without additional nitrogen source (157.07 mg/kg dry matter (DM)). Although additional nitrogen source has no benefit effect on enhancing the lovastatin production using RS substrate, it improved the lovastatin production using OPF with maximum production of 70.17 and 63.76 mg/kg DM forA. terreusATCC 20542 andA. terreusATCC 74135, respectively (soybean meal as nitrogen source). Incubation temperature, moisture content, and particle size had shown significant effect on lovastatin production (P<0.01) and inoculums size and pH had no significant effect on lovastatin production (P>0.05). Results also have shown that pH 6, 25°C incubation temperature, 1.4 to 2 mm particle size, 50% initial moisture content, and 8 days fermentation time are the best conditions for lovastatin production in SSF. Maximum production of lovastatin using optimized condition was 175.85 and 260.85 mg/kg DM forA. terreusATCC 20542 and ATCC 74135, respectively, using RS as substrate.

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PRODUCTION AND CHARACTERIZATION OF CELLULOLYTIC ENZYMES BY ASPERGILLUS NIGER AND RHIZOPUS SP. BY SOLID STATE FERMENTATION OF PRICKLY PEAR

Revista Caatinga ◽

10.1590/1983-21252016v29n126rc ◽

2016 ◽

Vol 29 (1) ◽

pp. 222-233 ◽

Cited By ~ 15

Author(s):

TAMIRES CARVALHO DOS SANTOS ◽

GEORGE ABREU FILHO ◽

AILA RIANY DE BRITO ◽

AURELIANO JOSÉ VIEIRA PIRES ◽

RENATA CRISTINA FERREIRA BONOMO ◽

...

Keyword(s):

Solid State ◽

Aspergillus Niger ◽

Water Activity ◽

Solid State Fermentation ◽

Cellulase Production ◽

Cellulolytic Enzymes ◽

Optimum Conditions ◽

Thermostable Enzymes ◽

Fermentation Time ◽

Rhizopus Sp

ABSTRACT: Prickly palm cactus husk was used as a solid-state fermentation support substrate for the production of cellulolytic enzymes using Aspergillus niger and Rhizopus sp. A Box-Behnken design was used to evaluate the effects of water activity, fermentation time and temperature on endoglucanase and total cellulase production. Response Surface Methodology showed that optimum conditions for endoglucanase production were achieved at after 70.35 h of fermentation at 29.56°C and a water activity of 0.875 for Aspergillus niger and after 68.12 h at 30.41°C for Rhizopus sp. Optimum conditions for total cellulase production were achieved after 74.27 h of fermentation at 31.22°C for Aspergillus niger and after 72.48 h and 27.86°C for Rhizopus sp. Water activity had a significant effect on Aspergillus niger endoglucanase production only. In industrial applications, enzymatic characterization is important for optimizing variables such as temperature and pH. In this study we showed that endoglucanase and total cellulase had a high level of thermostability and pH stability in all the enzymatic extracts. Enzymatic deactivation kinetic experiments indicated that the enzymes remained active after the freezing of the crude extract. Based on the results, bioconversion of cactus is an excellent alternative for the production of thermostable enzymes.

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OPTIMIZATION AND CHARACTERIZATION OF EXO-POLYGALACTURONASE BY Aspergillus niger CULTURED VIA SOLID STATE FERMENTATION

Jurnal Teknologi ◽

10.11113/jt.v81.12222 ◽

2018 ◽

Vol 81 (1) ◽

Author(s):

Halifah Pagarra ◽

Roshanida A. Rahman ◽

Nur Izyan Wan Azelee ◽

Rosli Md Illias

Keyword(s):

Solid State ◽

Aspergillus Niger ◽

Moisture Content ◽

Solid State Fermentation ◽

Incubation Time ◽

Industrial Applications ◽

Screening Process ◽

Industrial Sectors ◽

Polygalacturonase Production

Polygalacturonases represent an important member of pectinases group of enzymes with immense industrial applications. The activity of exo-polygalacturonase produced by Aspergillus niger was studied in solid state fermentation (SSF) using Nephrolepis biserrata leaves as substrate. Central composite design (CCD) was used to optimize four significant variables resulted from the screening process that has been initially analyzed for the production of exo-polygalacturonase which are incubation time, temperature, concentration of pectin and moisture content. The optimum exo-polygalacturonase production obtained was 54.64 U/g at 120 hours of incubation time, temperature at 340C, 5.0 g/L of pectin concentration and 75.26% of moisture content. For partial characterization of exo-polygalacturonase, the optimum temperature and pH were obtained at 50°C and pH 4.0, respectively. SDS-PAGE analysis showed that molecular weight of exo-polygalacturonase were 35 and 71 kDa. This study has revealed a significant production of exo-polygalacturonase by A. niger under SSF using cheap and easily available substrate and thus could found immense potential application in industrial sectors and biotechnology

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Optimization of productions of cellulolytic enzymes by Aspergillus niger using residue of mango a substrate

Ciência Rural ◽

10.1590/s0103-84782011005000145 ◽

2011 ◽

Vol 41 (12) ◽

pp. 2210-2216 ◽

Cited By ~ 18

Author(s):

Tamires Carvalho dos Santos ◽

Ingrid Souza Cavalcanti ◽

Renata Cristina Ferreira Bonomo ◽

Nivio Batista Santana ◽

Marcelo Franco

Keyword(s):

Solid State ◽

Aspergillus Niger ◽

Water Activity ◽

Solid State Fermentation ◽

Cellulolytic Enzymes ◽

Fermentation Time ◽

Kinetic Activity ◽

Activity Of Enzymes ◽

Activity Variable ◽

Statistical Results

The present paper analyses the effects of water activity (0.88, 0.94 and 0.97) and of fermentation time (24, 48, 72, 96 and 120 hours) on the kinetic activity of enzymes cellulolytic, produced during the solid state fermentation of waste from the improvement of mango, with the aid of fungus species Aspergillus niger. Solid state fermentation was carried out at 35°C inside a bacteriological incubator. The statistical results indicated that the best activity for enzyme CMCase was 7.26U g-1 after 74.51 hours of fermentation, whereas for enzyme FPase was 2.55U g-1 after 98.52 hours, both presenting best results in approximately 0.928 of water activity. Pareto charts have showed that fermentation time has greater effect over the activity of enzyme CMCase, while the water activity variable has greater effect over enzyme FPase activity. During fermentation the fungus synthesized the enzymes without the need of inductors other than mango residue and water.

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Construction of the Starter to Produce Lignocellulases via Solid State Fermentation of Rice Straw

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.356-360.1819 ◽

2011 ◽

Vol 356-360 ◽

pp. 1819-1822

Author(s):

Shan Shan Du ◽

Lu Yang ◽

Jian Zhang Lu ◽

Qing Qing Li ◽

Juan Xu ◽

...

Keyword(s):

Solid State ◽

Aspergillus Niger ◽

Moisture Content ◽

Rice Straw ◽

Solid State Fermentation ◽

Low Cost ◽

Natural Microflora ◽

Special Strain

The study demonstrates the starter construction and its solid state fermentation (SSF) using rice straw as substrate for lignocellulases production. The starter is constructed by natural microflora growing on rice straw additionally reinforced with Aspergillus niger ZJU-RYD1, using the SSF substrate rice straw with 90% moisture content, successfully produced the integrate and high active lignocellulases at about 72 h, i.e. CMCase 12.44 U/g, cellobiase 12.05 U/g, FPAase 3.18 U/g, xylanase 365.61 U/g, lassase 2.48 U/g. In this study the strategy is satisfactorily developed to construct the starter for high effective and low-cost production of lignocellulases using rice straw as substrate, based on natural microflora and additional reinforcing with special strain.

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EFFECT OF FERMENTATION TIME, MOISTURE CONTENT, AND TEMPERATURE ON SORBITOL PRODUCTION VIA SOLID STATE FERMENTATION PROCESS

Journal of Chemical Engineering and Industrial Biotechnology ◽

10.15282/jceib.v1i1.3812 ◽

2017 ◽

Vol 1 (1) ◽

pp. 64-71

Author(s):

Zuriana Sidi Ahmad ◽

Mimi Sakinah Abdul Munaim

Keyword(s):

Solid State ◽

Moisture Content ◽

Solid State Fermentation ◽

Incubation Temperature ◽

Product Yield ◽

High Yield ◽

Time Range ◽

Fermentation Time ◽

Wood Sawdust ◽

Ssf Process

Malaysia is the largest country that has produced many types of waste. One of it is Meranti wood sawdust. These wastes result in a significant environmental problem if not dispose it in the proper manner. The main objective of this article is to produce the high yield of sorbitol by solid state fermentation (SSF) process from pretreated Meranti wood sawdust using bacterium Lactobacillus plantarum (BAA 793; NCIMB 8826). One factorat a time (OFAT) was studied for further process using solid state fermentation (SSF) process and investigated the effect of relevant parameters (fermentation time, range: 2 hours to 14 hours, moisture content, range: 40% to 90%, temperature, range: 25 oC to 45 oC) to the solid-state fermentation (SSF) process in producing high yield of sorbitol. The highest product yield was obtained at 50% moisture content, at 10 hours of fermentation time and 35 oC of incubation temperature where the concentration of sorbitol was 25.68 g/L respectively. This study also showed that the solid state fermentation (SSF) process will produce the high yield of sorbitol production compared to the submerged fermentation and could serve as a-low cost substrate for bioproducts production especially sorbitol

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Solid-State Fermentation in Brewer’s Spent Grains by Fusarium fujikuroi for Gibberellic Acid Production

Biointerface Research in Applied Chemistry ◽

10.33263/briac115.1304213052 ◽

2021 ◽

Vol 11 (5) ◽

pp. 13042-13052

Keyword(s):

Solid State ◽

Moisture Content ◽

Gibberellic Acid ◽

Solid State Fermentation ◽

Production Costs ◽

Fusarium Fujikuroi ◽

New Production ◽

Fermentation Time ◽

Spent Grains ◽

Biotechnological Processes

The search for new production methodologies of gibberellic acid (GA3), such as solid-state fermentation (SSF), and the use of agro-industrial waste are important to lower production costs. Therefore, the aim of this study was GA3 production by Fusarium fujikuroi on SSF mode using brewer’s spent grains (BSG). BSG presents in its composition components that are known to be excellent inducers of metabolite production, showing, this way, its potential to be used as the substrate in biotechnological processes. Optimization of GA3 production was carried out using a 22 central composite design, considering the effects of moisture content, temperature, and fermentation time. The highest mycelial growth and GA3 production (0.82 g.Kg-1) was obtained in the condition of 80% moisture content, 28 °C in 96 hours of fermentation. These results suggest that the SSF using BSG as the medium for the growth of F. fujikuroi is a viable way to GA3 produce.

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Biological Pretreatment by Solid-State Fermentation of Oat Straw to Enhance Physical Quality of Pellets

Journal of Chemistry ◽

10.1155/2020/3060475 ◽

2020 ◽

Vol 2020 ◽

pp. 1-13

Author(s):

Wei Gao ◽

Zhiqiang Lei ◽

Lope G Tabil ◽

Rongfei Zhao

Keyword(s):

Particle Size ◽

Solid State ◽

Moisture Content ◽

Solid State Fermentation ◽

Biological Pretreatment ◽

Fermentation Time ◽

Physical Quality ◽

Fermentation Temperature ◽

Oat Straw

Pelleting can increase the efficiency of handling and transportation of biomass. Pretreatment obtains lignin fragments by disrupting the lignocellulosic structure of biomass and ensures the high-quality compressed pellets. In this study, solid-state fermentation (SSF) is used as a biological method to improve the quality of pellets of oat straw. SSF of oat straw using Trametes versicolor 52J (TV52J) and Phanerochaete chrysosporium (PC) was conducted. Response surface methodology (RSM) was employed by using a four-factor, three-level Box–Behnken design with fermentation time (days), moisture content (%), particle size (mm), and fermentation temperature (°C) as independent parameters. Pellet density, dimensional stability, and tensile strength were the response variables. The optimization options of fermentation time (33.96 and 35 days), moisture content (70%), particle size (150 and 50 mm), and fermentation temperature (22°C) of oat straw pretreated with these two fungal strains were obtained. The microscopic structural changes of oat straw caused by biological pretreatment were investigated by scanning electron microscopy (SEM). Observation results of SEM showed that the connection between single fibers became relatively loose, and this was beneficial to improve the physical quality of the pellets.

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