Sanjeev Kumar scite author profile

Depleting fossil fuel, soaring prices, growing demand, and global climate change concerns have driven the research for finding an alternative source of sustainable fuel. Microalgae have emerged as a potential feedstock for biofuel production as many strains accumulate higher amounts of lipid, with faster biomass growth and higher photosynthetic yield than their land plant counterparts. In addition to this, microalgae can be cultured without needing agricultural land or ecological landscapes and offer opportunities for mitigating global climate change, allowing waste water treatment and carbon dioxide sequestration. Despite these benefits, microalgae pose many challenges, including low lipid yield under limiting growth conditions and slow growth in high lipid content strains. Biotechnological interventions can make major advances in strain improvement for the commercial scale production of biofuel. We discuss various strategies, including efficient transformation toolbox, to increase lipid accumulation and its quality through the regulation of key enzymes involved in lipid production, by blocking the competing pathways, pyramiding genes, enabling high cell biomass under nutrient-deprived conditions and other environmental stresses, and controlling the upstream regulators of targets, the transcription factors, and microRNAs. We highlight the opportunities emerging from the current progress in the application of genome editing in microalgae for accelerating the strain improvement program.

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Profiling of heavy metal and pesticide residues in medicinal plants

Kumar

Kulsoom

Shukla

et al. 2018

Environ Sci Pollut Res

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Application of medicinal plant to cure ailments has been practiced by several civilizations. Nowadays, contamination of heavy metals and pesticide residues in medicinal plant is a serious concern, due to toxic effects on human health. The present study was designed with an aim to quantify the heavy metals and pesticide residues in the 20 medicinal herbs, frequently sold in the local market as raw material without any quality assurance. The concentrations of the elements are as follows: copper (2.42-19.14 μgg), cadmium (0.01-2.10 μgg), chromium (17.63-58.63 μgg), iron (7.61-322.6 μgg), and lead (13.00-54.47 μgg), whereas total metal concentration ranged between 44.73 and 385.15 μgg. Among the organic pesticides, HCH (1.63-6.44 μgg) and DDT (0.63-7.14 μgg) isomers were found to be present in medicinal plant material. Result showed that lead and chromium concentrations in the herbs were above the permissible limits set by WHO. These herbs should be regularly checked for quality assurance before using raw or as a herbal formulation to avoid chronic exposure of metal and pesticides to human being.

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Sanjeev Kumar

Sustainable green solvents and techniques for lipid extraction from microalgae: A review

Current understanding of the influence of environmental factors on SARS-CoV-2 transmission, persistence, and infectivity

Tailoring Microalgae for Efficient Biofuel Production

Profiling of heavy metal and pesticide residues in medicinal plants

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