G. Sivakumar scite author profile

The global population is expected to increase by approximately 3 billion people by 2050. With this increase in population, industry, transportation the cost of fossil fuels will grow dramatically. New technologies are needed for fuel extraction using feedstocks that do not threaten food security, cause minimal or no loss of natural habitat and soil carbon. At the same time, waste management has to be improved and environmental pollution should be minimized or eliminated. Liquid biofuels such as lignocellulosic‐based ethanol from plant biomass and algal‐based biodiesel are sustainable, alternative biofuels that could stabilize national security and provide clean energy for future generations. Ideally, the technology should also foster recycling of agricultural feedstocks and improve soil fertility and human health. This article provides updated information on the energy potential and breadth of liquid biofuel biotechnology.

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HPLC-MS Screening of the Antioxidant Profile of Italian Olive Cultivars

Sivakumar

Bati

Uccella

2005

Chem Nat Compd

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UDC 547.944 Freeze-dried olive fruits from Italian cultivars such as Carolea, Cassanese, and Coratina were analyzed by HPLC-MS. During different stages of maturation of olive fruits, the biophenolic (antioxidant) composition was examined. Twelve biophenolic compounds, viz. hydroxytyrosol, tyrosol, oleoside 11-methyl ester, demethyloleuropein, verbascoside, demethylligstoside, oleacin, oleuropeindiale, demethyloleuropeindiale, oleuropein, ligstroside, and elenolate were identified by HPLC-MS. Oleuropein, the major olive fruit soluble biophenolic fraction, decreased significantly during fruit maturation and showed significant differences between olive cultivars. Coratina drupes extracted from October month contained a higher amount of biophenols than other mono-cultivar extracted drupes.

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Integrated green algal technology for bioremediation and biofuel

Sivakumar

Thompson

et al. 2012

Bioresource Technology

134

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Production of Biomass and Ginsenosides from Adventitious Roots ofPanax ginseng in Bioreactor Cultures

2005

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Organic nutrients play a central role during Panax ginseng adventitious root culture in bioreactor systems. To understand how the nutrient elements were uptaken during the adventitious root growth as well as the production of biomass and natural ginsenosides, a biotechnological approach to identifying the nutritional physiology of ginseng in a commercial‐scale bioreactor was necessary. Normal MS medium nutrient in the bioreactor culture of adventitious roots resulted in slow growth, low biomass, and Rg and Rb ginsenoside contents. When the ginsenoside production increased to higher levels, a group of regulatory nutritional elements that have the potential to interact with biomass was identified. The effects of the salt strength of the medium, of macroelements, metal elements, the ammonia/nitrate ratio, sucrose concentration, and osmotic agents on the growth, the formation of biomass and the production of ginsenosides from adventitious roots were investigated. Appropriate conditions allowed for a maximum ginsenoide production of up to 12.42 [mg/g DW] to be obtained after 5 weeks of culture. The results demonstrated that the key organic nutrients can be regulated to improve the biomass and growth, and increase the ginsenoside yield in bioreactor cultures of P. ginseng adventitious roots.

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Investigation on effect of Yttria Stabilized Zirconia coated piston crown on performance and emission characteristics of a diesel engine

Sivakumar

Kumar

2014

Alexandria Engineering Journal

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HPLC screening of anti-cancer sulforaphane from important European Brassica species

2007

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Bioreactor technology: A novel industrial tool for high‐tech production of bioactive molecules and biopharmaceuticals from plant roots

Sivakumar

2006

Biotechnology Journal

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Plants are the richest source for different bioactive molecules. Because of the vast number of side effects associated with synthetic pharmaceuticals, medical biotechnologists turned to nature to provide new promising therapeutic molecules from plant biofactories. The large-scale availability of the disease- and pesticide-free raw material is, however, restricted in vivo. Many bioactive plant secondary metabolites are accumulated in roots. Engineered plants can also produce human therapeutic proteins. Vaccines and diagnostic monoclonal antibodies can be won from their roots, so that engineered plants hold immense potential for the biopharmaceutical industry. To obtain sufficient amounts of the plant bioactive molecules for application in human therapy, adventitious and hairy roots have to be cultured in in vitro systems. High-tech pilot-scale bioreactor technology for the establishment of a long-term adventitious root culture from biopharmaceutical plants has recently been established. In this review, I briefly discuss a technology for cultivating bioactive molecule-rich adventitious and hairy roots from plants using a high-tech bioreactor system, as well as the principles and application of genome-restructuring mechanisms for plant-based biopharmaceutical production from roots. High-tech bioreactor-derived bioactive phytomolecules and biopharmaceuticals hold the prospect of providing permanent remedies for improving human well-being.

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G. Sivakumar

Induced biosynthesis of resveratrol and the prenylated stilbenoids arachidin-1 and arachidin-3 in hairy root cultures of peanut: Effects of culture medium and growth stage

Bioethanol and biodiesel: Alternative liquid fuels for future generations

HPLC-MS Screening of the Antioxidant Profile of Italian Olive Cultivars

Integrated green algal technology for bioremediation and biofuel

Production of Biomass and Ginsenosides from Adventitious Roots ofPanax ginseng in Bioreactor Cultures

Investigation on effect of Yttria Stabilized Zirconia coated piston crown on performance and emission characteristics of a diesel engine

HPLC screening of anti-cancer sulforaphane from important European Brassica species

Bioreactor technology: A novel industrial tool for high‐tech production of bioactive molecules and biopharmaceuticals from plant roots

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