A new isolate of thermophilic and organic solvent tolerant bacteria for lipase production using basal medium of palm kernel cake 80-87

@#Aims: This research focused on the selection of potential strains especially bacteria that can grow effectively in palm kernel cake (PKC) and produce high amount of thermostable and solvent tolerant (TS-OST) lipase. The work involved the exploration of renewable PKC as potential fermentation medium for discovery to novel TS-OST lipase that would have excellent tolerance and activity in presence of organic solvents with high temperatures for industrial applications.Methodology and results: Using palm kernel cake (PKC) as source of thermophilic bacteria, 53 bacterial strains were found survived at temperature 65 °C. However, after subcultured several times, only 17 strains were found as pure thermophilic strains. Preliminary screening both qualitative and quantitative was performed to all 17 potential thermophilic bacterial strains and showed that only 11 purified thermophilic strains are lipase producer. Strain PKC-P1 produced highest enzyme activity (11.13 U/g), followed by PKC-P13 and PKC-C9. The lowest enzymeactivity was lipase produced byPKC-C10 (0.76U/g). Strain PKC-P1 has been classified as Gram negative bacteria and identified as Bacillus smithiistrain PKC_P1.Conclusion, significance and impact of study: PKC as a by-product of oil palm industry consistsof many nutrients that can give benefits towards industry and can be utilized in order to produce enzymes like lipases. From these results, it could be concluded that this lipase stable at temperature 65 °C and pH 7 and may be a potential candidate to be used in a variety of biotechnological applications. This finding revealed that a bacterial strain obtained from oil-rich environment which is PKC through isolation process has potential as a source of more economical enzyme to be applied in biotechnology industr

Production of α-galactosidase from Aspergillus foetidus MTCC 6322 by solid state fermentation and its application in soymilk hydrolysis.

The production of α-galactosidase from the wild fungal strain Aspergillus foetidus MTCC 6322 using solid state fermentation (SSF), its characterization, and its efficacy in the hydrolysis of soymilk using response surface methodology were studied. The optimum conditions for production of α-galactosidase by SSF were: wheat bran (10 g), moisture content (64%), inoculum volume (1.0 mL; 6 × 107 spores/mL) with a yield of 4.1 × 103 units per gram dry substrate (U/gds) at 96 h. The enzyme showed optimum activity at pH 6.0, temperature 40°C, pH stability between 5.0-8.0, and temperature stability between 30-40°C. The enzyme was stable in the presence of trypsin, lipase, and collagenase and it showed susceptibility of the substrates such as raffinose, melibiose, guar gum and soymilk to hydrolysis in varying degrees. The optimized conditions for soymilk hydrolysis were: soymilk (10 mL) from defatted soybean meal (1.5%), α-galactosidase (0.15 UmL-1) at 30°C, pH 6.0 and duration of 1 h.

Evaluación de las enzimas celulolíticas producidas por hongosnativos mediante fermentación en estado sólido (SSF) utilizando residuos de cosecha de caña de azúcar / Evaluation of cellulolytic enzymes produced by native fungi through solid state fermentation (SSF) using sugarcane harvesting residues

Los residuos agrícolas de cosecha de caña de azúcar (RAC), se constituyen en una materia prima alternativa para la producción de etanol carburante, dado su contenido de celulosa próximo al 40%. El aprovechamiento de la celulosa depende de la aplicación de tratamientos fisicoquímicos o bioquímicos, que permitan la liberación de la glucosa y su posterior utilización en procesos fermentativos. La hidrólisis enzimática de estos residuos requiere un complejo celulolítico producido por microorganismos, comprendido por tres actividades enzimáticas: Endoglucanasas, Exoglucanasas y β-Glucosidasas. En el presente estudio, se evaluaron las enzimas celulolíticas producidas por dos hongos nativos del género Aspergillus spp., CH 2016 y CH 2001, mediante procesos de fermentación en estado sólido utilizando como sustrato RAC pre-tratados con organosolventes (deslignificado) y sin este pre-tratamiento. La cepa CH 2016 presentó la mayor actividad endoglucanasa 11,0773 U/mL en el sustrato sin pre-tratar el día siete de fermentación; esta misma cepa, en el sustrato deslignificado presentó la mayor actividad exoglucanasa (0,042 U/mL) y celulasa total (0,287 UPF/mL) en el día cinco de fermentación. La cepa CH 2001 presentó la mayor actividad β-glucosidasa (0,1778 U/mL) en el sustrato sin pre-tratar el día cinco de fermentación. Se observó que las variables sustrato y tiempo de fermentación, inciden en la expresión de las enzimas celulolíticas obteniendo en este trabajo extractos enzimáticos que pueden llevar a cabo una acción hidrolítica sinérgica sobre la celulosa.

Sugarcane harvesting residues are considered as a raw material for fuel ethanol production due its high content of cellulose, around 40% DS. The use of cellulose depends of the application of physicochemical or biochemical treatments that allow the release of glucose and its subsequent uses in fermentation processes. The enzymatic hydrolysis of these residues requires a cellulolytic complex produced by microorganisms, including three enzymatic activities: Endoglucanases, β-Glucosidases and Exoglucanases. In the present study, cellulolytic enzymes produced by two native fungi Aspergillus spp., CH 2016 and CH 2001 was assessment, through of solid-state fermentation processes using as raw substrate RAC and pre-treated with organosolvents (delignified). Strain CH 2016 had the highest endoglucanase activity 11.0773 U/mL in the raw substrate on day seven of fermentation, the same strain, in the delignified substrate showed the highest activity exoglucanasa (0.042 U/mL ) and total cellulase (0.287 UPF/mL) on day five of fermentation. Strain CH 2001 got the highest β-glucosidase activity (0.1778 U/mL) in the substrate without pre-treatment on day 5 of fermentation. It was observed that the variables as substrate and fermentation time affected the expression of cellulolytic enzymes.

Xylanase production by Aspergillus awamori under solid state fermentation conditions on tomato pomace

In this work, tomato pomace, a waste abundantly available in the Mediterranean and other temperate climates agro-food industries, has been used as raw material for the production of some hydrolytic enzymes, including xylanase, exo-polygalacturonase (exo-PG), cellulase (CMCase) and ¥á-amylase. The principal step of the process is the solid state fermentation (SSF) of this residue by Aspergillus awamori. In several laboratory experiments, maximum xylanase and exo-PG activities were measured during the first days of culture, reaching values around 100 and 80 IU/gds (international units of enzyme activity per gram of dried solid), respectively. For CMCase and ¥á-amylase production remained almost constant along fermentation, with average values of 19 and 21.5 IU/gds, respectively. Experiments carried out in a plate-type bioreactor at lab scale showed a clear positive effect of aeration on xylanase and CMCase, while the opposite was observed for exo-PG and ¥á-amylase. In general, xylanase was the enzyme produced in higher levels, thus the optimum conditions for the determination of the enzyme activity was characterized. The xylanase activity shows an optimum pH of 5 and an optimum temperature of 50 ¨¬C. The enzyme is activated by Mg2+, but strongly inhibited by Hg2+ and Cu2+. The enzymatic activity remains quite high if the extract is preserved in a range of pH from 3 to 10 and a temperature between 30 ¨¬C to 40 ¨¬C.