Prof. Sailas Benjamin
Title
Cited by
Cited by
Year
The realm of microbial lipases in biotechnology
A Pandey, S Benjamin, CR Soccol, P Nigam, N Krieger, VT Soccol
Biotechnology and applied biochemistry 29 (2), 119-131, 1999
9201999
Candida rugosa lipases: Molecular biology and versatility in biotechnology
S Benjamin, A Pandey
Yeast 14 (12), 1069-1087, 1998
3731998
Conjugated linoleic acids as functional food: an insight into their health benefits
S Benjamin, F Spener
Nutrition & Metabolism 6 (1), 1-13, 2009
3182009
Phthalates impact human health: epidemiological evidences and plausible mechanism of action
S Benjamin, E Masai, N Kamimura, K Takahashi, RC Anderson, PA Faisal
Journal of hazardous materials 340, 360-383, 2017
2082017
Versatility of microbial proteases
NJ Veloorvalappil, BS Robinson, P Selvanesan, S Sasidharan, ...
Advances in enzyme research 2013, 2013
1252013
An overview on fungal cellulases with an industrial perspective
S Sajith, P Priji, S Sreedevi, S Benjamin
J Nutr Food Sci 6 (1), 461, 2016
1222016
A monograph on the remediation of hazardous phthalates
S Benjamin, S Pradeep, MS Josh, S Kumar, E Masai
Journal of Hazardous Materials 298, 58-72, 2015
1122015
Coconut cake – a potent substrate for the production of lipase by Candida rugosa in solid‐state fermentation
S Benjamin, A Pandey
Acta Biotechnologica 17 (3), 241-251, 1997
1031997
Optimization of liquid media for lipase production by Candida rugosa
S Benjamin, A Pandey
Bioresource Technology 55 (2), 167-170, 1996
961996
Isolation and characterization of three distinct forms of lipases from Candida rugosa produced in solid state fermentation
S Benjamin, A Pandey
Brazilian Archives of Biology and Technology 44 (2), 213-221, 2001
822001
Pros and cons of CLA consumption: an insight from clinical evidences
S Benjamin, P Prakasan, S Sreedharan, ADG Wright, F Spener
Nutrition & metabolism 12 (1), 1-21, 2015
792015
Mixed‐solid substrate fermentation. A novel process for enhanced lipase production by Candida rugosa
S Benjamin, A Pandey
Acta Biotechnologica 18 (4), 315-324, 1998
591998
Mycelial fungi completely remediate di (2-ethylhexyl) phthalate, the hazardous plasticizer in PVC blood storage bag
S Pradeep, S Benjamin
Journal of hazardous materials 235, 69-77, 2012
552012
Phthalates efficiently bind to human peroxisome proliferator activated receptor and retinoid X receptor α, β, γ subtypes: an in silico approach
MK Sarath Josh, S Pradeep, KS Vijayalekshmi Amma, S Balachandran, ...
Journal of Applied Toxicology 34 (7), 754-765, 2014
542014
Achromobacter denitrificans strain SP1 efficiently remediates di (2-ethylhexyl) phthalate
S Pradeep, MKS Josh, P Binod, RS Devi, S Balachandran, RC Anderson, ...
Ecotoxicology and environmental safety 112, 114-121, 2015
472015
Enhancement of lipase production during repeated batch culture using immobilised Candida rugosa
S Benjamin, A Pandey
Process Biochemistry 32 (5), 437-440, 1997
451997
Temperature-and solvent-dependent migrations of di (2-ethylhexyl) phthalate, the hazardous plasticizer from commercial PVC blood storage bag
MKS Josh, S Pradeep, S Balachandran, RS Devi, KSV Amma, ...
Journal of Polymer Research 19 (7), 1-9, 2012
372012
Fungal biodegradation of phthalate plasticizer in situ
S Pradeep, P Faseela, MKS Josh, S Balachandran, RS Devi, S Benjamin
Biodegradation 24 (2), 257-267, 2013
362013
A monograph on amylases from Bacillus spp.
S Benjamin, RB Smitha, VN Jisha, S Pradeep, S Sajith, S Sreedevi, P Priji, ...
Scientific Research Publishing, 2013
362013
Candida rugosa and its lipases: A retrospect
S Benjamin, A Pandey
Journal of scientific & industrial research 57 (1), 1-9, 1998
331998
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Articles 1–20