Batul Diwan scite author profile

HighlightsCatastrophe of heavy metal pollution in environment is discussed in terms of remediation through bacterial Exopolysaccharide.Biosynthesis of polymer, mechanism of action and metal remediation through polymer has been expounded deeply.Wide range of bacterial cells and their EPS in diverse forms have been critically analyzed.Challenges that still lie in the path of commercialization has been scrutinized.

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From agro-industrial wastes to single cell oils: a step towards prospective biorefinery

Diwan

Parkhey

Gupta

2018

Folia Microbiol

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The reserves of fossil-based fuels, which currently seem sufficient to meet the global demands, is inevitably on the verge of exhaustion. Contemporary raw material for alternate fuel like biodiesel is usually edible plant commodity oils, whose increasing public consumption rate raises the need of finding a non-edible and fungible alternate oil source. In this quest, single cell oils (SCO) from oleaginous yeasts and fungi can provide a sustainable alternate of not only functional but also valuable (polyunsaturated fatty acids (PUFA)-rich) lipids. Researches are been increasingly driven towards increasing the SCO yield in order to realize its commercial importance. However, bulk requirement of expensive synthetic carbon substrate, which inflates the overall SCO production cost, is the major limitation towards complete acceptance of this technology. Even though substrate cost minimization could make the SCO production profitable is uncertain, it is still essential to identify suitable cheap and abundant substrates in an attempt to potentially reduce the overall process economy. One of the most sought-after in-expensive carbon reservoirs, agro-industrial wastes, can be an attractive replacement to expensive synthetic carbon substrates in this regard. The present review assess these possibilities referring to the current experimental investigations on oleaginous yeasts, and fungi reported for conversion of agro-industrial feedstocks into triacylglycerols (TAGs) and PUFA-rich lipids. Multiple associated factors regulating lipid accumulation utilizing such substrates and impeding challenges has been analyzed. The review infers that production of bulk oil in combination to high-value fatty acids, co-production strategies for SCO and different microbial metabolites, and reutilization and value addition to spent wastes could possibly leverage the high operating costs and help in commencing a successful biorefinery. Rigorous research is nevertheless required whether it is PUFA-rich oil production (for competing with algal omega oils) or neutral bulk oil production (for overcoming yield limitations and managing process economy) to establish this potential source as future resource.

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Platform Study on the Development of a Nondetoxified Rice Straw Hydrolysate to Its Application in Lipid Production from Mortierella alpina

Diwan

Parkhey

Gupta

2017

ACS Sustainable Chem. Eng.

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In the present work, a mild acid saccharification approach for rice (Oryza sativa) straw was developed by response surface optimization. A 2 3 central composite experimental design with variable factors, such as duration (minutes), mild acid concentration percentage (v/v) and minimum solid loading percentage (w/v) was chosen to optimize the hydrolysis process, fixing the operating temperature to a moderate minimum of 121 °C. The study determined a solid loading of 5%, an acid concentration of 0.75%, and a residence duration of 150 min to be optimum, for enhanced reducing sugar release. To compensate for the reduced saccharification efficiency under mild operating conditions, a novel approach of multitier saccharification was implemented under optimal conditions of saccharification. High-performance liquid chromatography (HPLC) analysis revealed the final reducing sugar yield of 0.76 g reducing sugar per gram of straw (47.9 g/L and 35 g/L concentration in two consecutive saccharification cycles) and glucose, galactose, and xylose as major reducing sugars in hydrolysate. On assessing the hydrolysate as a fermentable substrate with and without detoxification for oleaginous strain Mortierella alpina, nondetoxified hydrolysate surpassed detoxified hydrolysate for growth support, sugar consumption, and lipid accumulation. HPLC analysis indicated the complete absence of furfurals and hydroxymethylfurfurals in the nondetoxified hydrolysate. Therefore, the rice straw hydrolysate produced by multitier mild acid saccharification approach was suitable for microbial propagation without requiring detoxification, suggesting it to be a potential fermentable substrate for microbial lipid production, as well as for other prospective bioprocesses.

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Synthesis of MCFA and PUFA rich oils by enzymatic structuring of flax oil with single cell oils

Diwan

Gupta

2020

LWT

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Comprehending the influence of critical cultivation parameters on the oleaginous behaviour of potent rotten fruit yeast isolates

Diwan

Gupta

2018

J Appl Microbiol

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Two potent oleaginous yeast isolates were studied, and this is the only successive report describing oleaginous behaviour of P. kudriavzevii. The cultivation parameters such as C source, concentration and C/N ratio which critically influence the oleaginous behaviour, lipid content, yield and composition have been accessed so as to provide comprehensive understanding on single cell oil production from these isolates. Study progressively contributes to current and upcoming researches in microbial oils and the characteristic fatty acid, and TAG profile provides important leads for their putative applicabilities.

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Batul Diwan

Bacterial Exopolysaccharide mediated heavy metal removal: A Review on biosynthesis, mechanism and remediation strategies

From agro-industrial wastes to single cell oils: a step towards prospective biorefinery

Platform Study on the Development of a Nondetoxified Rice Straw Hydrolysate to Its Application in Lipid Production from Mortierella alpina

Synthesis of MCFA and PUFA rich oils by enzymatic structuring of flax oil with single cell oils

Comprehending the influence of critical cultivation parameters on the oleaginous behaviour of potent rotten fruit yeast isolates

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