Effect of Fermentation Response on Biosynthesis of Endopolygalacturonase from a Potent Strain of Bacillus by Utilizing Polymeric Substrates of Agricultural Origin

Endopolygalacturonase (EndoPGase), EC: 3.2.1.15. is one of the crucial pectinases belonging to the class of carbohydrase. The catalytic action of EndoPGase captivates the attention of the production of this extremely valuable catalyst in the industrial sector. The main focus was to ascertain a potential bacterial candidate for endoPGase production. The isolated bacterial strain was further identified by 16S rRNA gene sequencing. The parameters for enzyme biosynthesis were optimized by a single and multiple factor approach at a time. The results of our investigation led to the identification of a potent strain of Bacillus subtilis NR2 [strain 168]. The sequence of 16S rRNA amplified from the isolated bacterium has been submitted to GenBank under accession number ON738697. The strain was found active for pectic enzyme activity under shaking- flask fermentation at pH 5.0 and 50 °C temperature of incubation. Among all monomeric and polymeric substrates (inducer-substrates), citrus pectin, followed by potato starch and pectin (Sigma) were considered the best enzyme inducers at 1% concentration. In comparison, an increased wheat bran concentration at 5% was proved to be ideal for EndoPGase biosynthesis Moreover, an increasing trend in enzyme activity was observed with the increasing concentration of inducer. The combined effect of three variables (pH, inducer-substrates, and inducer-substrate concentration) was explored by response surface methodology (RSM) involving a Box–Behnken design (BBD). Based on the results, we concluded that the soil-isolated B. subtilis can be effectively utilized for commercial-scale pectinase enzyme biosynthesis.

Thermostable and organic solvent-tolerant acid pectinase from Aspergillus terreus FP6: purification, characterization and evaluation of its phytopigment extraction potential

The present study discusses the purification, characterization and application of pectinase from Aspergillus terreus FP6 in fruit pigment extraction. By the four-step purification involving precipitation, dialysis, ion-exchange chromatography, gel filtration chromatography, a 20.85-fold purification of the enzyme to homogeneity was achieved. The apparent molecular mass of the pectinase was 47 kDa, as found by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. The optimum activity of the enzyme was recorded at pH 6.0 and 50 °C. The enzyme retained 80.3% and 79.1% residual activity, respectively at pH 6.0 and 50 °C for 90 min. The pectinase was best functional in the presence of toluene and retained its activity for 30 min. Cu²⁺ and Co²⁺ acted as enzyme activators, while Ca²⁺, β-mercaptoethanol, dimethyl sulfoxide and ethylenediaminetetraacetic acid proved to be the inhibitors. The K _m and V _max values of the pectinase with pectin as substrate were 0.002 mM and 27.39 U/mL, respectively thus indicating the high enzyme affinity towards the substrate. After 30-min treatment of the grape skin with the partially purified enzyme, microscopic observation revealed that a short time of the enzymatic treatment resulted in substantial loss of pigment and shrinkage of the grape skin cells thereby highlighting the high efficiency of the pectinase. The current study implies that the A. terreus FP6 pectinase may be applied as a bio-agent in the food and beverage industries and has the potential to replace harmful solvents by promoting a greener approach to extract plant pigments.

Identification and characterization of thermostable endo-polygalacturonase II B from Aspergillus luchuensis

Endo-polygalacturonase II B (PgaB) from Aspergillus luchuensis was orthologous to endo-polygalacturonase from Aspergillus niger with mutant sites Thr42Ser and Glu52Ala. Mature pgaB gene was cloned from the genomic DNA of A. luchuensis and secreted expressed with over 90% purity in Pichia Pastoris and reached 1.0 g/L after 144 hr culture. The recombinant PgaB was further purified by Ni-NTA chromatography. Using polygalacturonic acid (PGA) as substrate, the optimal condition for PgaB activity was 40°C and pH 4.5, respectively. Km and Vmax of PgaB were 0.19 mmol/l and 103.58 μmol min^-1  mg^-1 , respectively. The relative activity of PgaB remained more than 60% and 40% of maximum activity at 50 and 60°C for 7 hr. PgaB increased the light transmittance by 85% and showed high efficiency in juice clarification. The main product was galacturonic acid oligosaccharides with degrees of polymers (DP) 1-3. The PgaB is a potential pectinolytic enzyme in food industries. PRACTICAL APPLICATIONS: Endo-polygalacturonase II B (PgaB) was identified from Aspergillus luchuensis, a filamentous fungus widely used in food and beverage fermentation in East Asia. PgaB still kept its most activity at 60°C for 7 hr. Polygalacturonic acid (PGA) can be digested effectively by the PgaB and the main products are galacturonic acid oligosaccharides with degrees of polymers (DP) 1-3. PgaB shows high efficiency in juice clarification. The PgaB is a potential pectinolytic enzyme for the applications in food industries.