Poonam Syal scite author profile

A novel bacterial isolate, capable of producing extracellular highly thermostable, halo-alkali-stable and cellulase-free xylanase, was isolated from soil and identified as Bacillus halodurans TSPV1 by polyphasic approach. The Plackett-Burman design identified wheat bran, lactose, tryptone and NaCl as the factors that significantly affect xylanase production, and thus, these were optimized by response surface methodology. The data analysis suggested that optimum levels of wheat bran (15-20 g L(-1)), lactose (1.0-1.5 g L(-1)), tryptone (2-2.5 g L(-1)) and NaCl (7.0-8.0 g L(-1)) support 6.75-fold higher xylanase production than that in the un-optimized medium. The xylanase is optimally active at 90 °C and pH 10, and stable for 4 h at 90 °C (T 1/2 60 h) over a broad range of NaCl concentrations (0-29 %). This is the first report on the isolation of polyextremophilic B. halodurans strain that produces thermo-halo-alkali-stable xylanase in submerged fermentation. This enzyme efficiently saccharifies agro residues like wheat bran and corncobs. Fifty-six percent of hemicellulose of wheat bran could be hydrolyzed by xylanase (100 U g(-1) substrate) along with cellulase (22 U FPase and 50 U CMCase g(-1)). The xylanase, being thermo-alkali stable and cellulase free, can find applications in pre-bleaching of paper pulps and hydrolysis of xylan in agricultural residues.

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Targeted mutations and MD simulations of a methanol-stable lipase YLIP9 from Yarrowia lipolytica MSR80 to develop a biodiesel enzyme

Syal

Verma

Gupta

2017

International Journal of Biological Macromolecules

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Cloning, Expression, and Biochemical Characterization of an Enantioselective Lipase, YLIP9, from Yarrowia lipolytica MSR80

Syal

Gupta

2015

Appl Biochem Biotechnol

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A novel lipase gene, ylip9, of Yarrowia lipolytica MSR80 was cloned and expressed in pEZZ18-HB101 system and was 99% identical to YLIP9 of Y. lipolytica CLIB122. It was purified using IgG-Sepharose as ZZ fused YLIP9 and had specific activity of 0.8 U/mg. ZZ-YLIP9 was most active at pH 8.0 and 70 °C. It was stable over a wide pH range of 3.0-11.0 and 100 % active at 70 °C up to 2 h and had t1/2 of 286.42 min at 80 °C. It showed high specificity toward p-nitrophenyldecanoate with kcat and catalytic efficiency of 30.17 s(-1) and 16.67 mM(-1) s(-1), respectively. It was non-regioselective, but an S-enantioselective lipase and the percentage conversion were enhanced in presence of hexane. ZZ-YLIP9 was stable in all of the organic solvents used, and its activity was enhanced by solvents having logP value less than 2.

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Probiotic attributes of a yeast-like fungus, Geotrichum klebahnii

Syal¹,

Vohra²

2014

Afr. J. Microbiol. Res.

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Geotrichum klebahnii, a filamentous yeast-like fungus, was isolated from a cheese sample. Several in vitro tests were carried out for its probiotic characterization. This isolate showed high survival rate of 100 ± 1.8% at low pH (pH 2) and 100 ± 0.9% at high oxbile concentration (1%) and also grew well at 37°C. It showed an auto-aggregation ability of 100.00 ± 1.5% after 20 h of incubation at 37°C, as well as 36.43 ± 0.70% and 52.13 ± 1.50% cell surface hydrophobicity with xylene and n-hexadecane, respectively. It had inhibitory activity against food-borne pathogens such as Salmonella sp., Vibrio sp. and Staphylococcus aureus. G. klebahnii produced the enzymes phytase and inulinase. It was a producer of vitamin B 12 and exoploysaccharides. It assimilated up to 29.42 ± 2.1% cholesterol after 48 h of incubation at 37°C. The organism did not produce gelatinase and DNase assay, indicating its safety as a probiotic microorganism. This is the first report of the probiotic potential of yeast like fungus, G. klebahnii.

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Heterologous expression of lipases YLIP4, YLIP5, YLIP7, YLIP13, and YLIP15 from Yarrowia lipolytica MSR80 in Escherichia coli: Substrate specificity, kinetic comparison, and enantioselectivity

Syal

Gupta

2017

Biotech and App Biochem

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Five lipase genes, ylip4, ylip5, ylip7, ylip13, and ylip15, from Yarrowia lipolytica MSR80 were cloned and expressed in the pEZZ18-HB101 system. The lipases shared maximum sequence identity with Candida galli lipase, whereas they shared structural similarity with YLIP2 of Y. lipolytica CLIB122. The enzymes, purified using IgG sepharose, had specific activities in the range of 7-25 U mg . Biochemical characteristics of all the lipases varied with respect to thermostability, substrate specificity, and enantioselectivity. All the enzymes were most active at neutral or slightly alkaline pH and were stable in the pH range 3.0-8.0, except YLIP4, which showed 50% stability at pH 10.0. Temperature optima of all the lipases varied from 30 to 50 ºC. YLIP15 and YLIP13 were most thermostable with a t of 138 and 112 Min, respectively, at 60 °C. The lipases exhibited varied substrate specificity on p-nitrophenyl esters ranging from short-chain specificity (YLIP15), mid-chain specificity (YLIP4, YLIP5, YLIP7), and long-chain specificity (YLIP13). Catalytic efficiency on p-nitrophenylcaprate was highest for YLIP13 (67 × 10 mM min ) and lowest for YLIP15 (6.7 × 10 mM min ). YLIP13 was S-enantioselective, and YLIP15 was R-enantioselective with enantiomeric excess of 53 and 36%, respectively. Of all five lipases, YLIP13 and YLIP15 could be considered as industrially important enzymes as they were thermostable and enantioselective.

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Poonam Syal

Molecular and functional diversity of yeast and fungal lipases: Their role in biotechnology and cellular physiology

Probiotic Potential of Yeasts Isolated From Traditional Indian Fermented Foods

Probiotic yeasts in livestock sector

Highly thermo–halo–alkali-stable β-1,4-endoxylanase from a novel polyextremophilic strain of Bacillus halodurans

Targeted mutations and MD simulations of a methanol-stable lipase YLIP9 from Yarrowia lipolytica MSR80 to develop a biodiesel enzyme

Cloning, Expression, and Biochemical Characterization of an Enantioselective Lipase, YLIP9, from Yarrowia lipolytica MSR80

Probiotic attributes of a yeast-like fungus, Geotrichum klebahnii

Heterologous expression of lipases YLIP4, YLIP5, YLIP7, YLIP13, and YLIP15 from Yarrowia lipolytica MSR80 in Escherichia coli: Substrate specificity, kinetic comparison, and enantioselectivity

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