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Bioprospecting of Omega 3 Fatty Acid from Silkworm Pupal Oil: From Molecular Mechanism to Biological Activities

Bioprospecting of Omega 3 Fatty Acid from Silkworm Pupal Oil: From Molecular Mechanism to... Abstract Omega-3 fatty acids including α-linolenic acid, eicosapentaenoic acid, and docosahexaenoic acids have progressively become the buzzwords in the field of cardio health and brain function related research, due to their amazing dietary supplements with an ability to curb the number of fatal diseases. Omega- 3 fatty acids have been identified in both plant and animal sources and a new addition is insect source. In recent days, the silkworm pupal oil is gaining significant attention due to the presence of Alpha-linolenic acid with a substantial amount. Here we, elucidate that how the molecular mechanism of omega-3 fatty acids can be engineered for the improvement of metabolic pathways and the beneficial effects of omega- 3 fatty acids present in silkworm pupal oil and their biological activities have also been discussed. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Biologically Active Products from Nature Taylor & Francis

Bioprospecting of Omega 3 Fatty Acid from Silkworm Pupal Oil: From Molecular Mechanism to Biological Activities

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Bioprospecting of Omega 3 Fatty Acid from Silkworm Pupal Oil: From Molecular Mechanism to Biological Activities

Venkatesh Kumar, R.; Srivastava, Devika; Kumar, Umesh; Kumar, Mukesh; Singh, Prashant
Journal of Biologically Active Products from Nature , Volume 10 (6): 12 – Nov 1, 2020

Abstract

Abstract Omega-3 fatty acids including α-linolenic acid, eicosapentaenoic acid, and docosahexaenoic acids have progressively become the buzzwords in the field of cardio health and brain function related research, due to their amazing dietary supplements with an ability to curb the number of fatal diseases. Omega- 3 fatty acids have been identified in both plant and animal sources and a new addition is insect source. In recent days, the silkworm pupal oil is gaining significant attention due to the presence of Alpha-linolenic acid with a substantial amount. Here we, elucidate that how the molecular mechanism of omega-3 fatty acids can be engineered for the improvement of metabolic pathways and the beneficial effects of omega- 3 fatty acids present in silkworm pupal oil and their biological activities have also been discussed.

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Publisher
Taylor & Francis
Copyright
© 2020 Har Krishan Bhalla & Sons
ISSN
2231-1874
eISSN
2231-1866
DOI
10.1080/22311866.2020.1862704
Publisher site
See Article on Publisher Site

Abstract

Abstract Omega-3 fatty acids including α-linolenic acid, eicosapentaenoic acid, and docosahexaenoic acids have progressively become the buzzwords in the field of cardio health and brain function related research, due to their amazing dietary supplements with an ability to curb the number of fatal diseases. Omega- 3 fatty acids have been identified in both plant and animal sources and a new addition is insect source. In recent days, the silkworm pupal oil is gaining significant attention due to the presence of Alpha-linolenic acid with a substantial amount. Here we, elucidate that how the molecular mechanism of omega-3 fatty acids can be engineered for the improvement of metabolic pathways and the beneficial effects of omega- 3 fatty acids present in silkworm pupal oil and their biological activities have also been discussed.

Journal

Journal of Biologically Active Products from NatureTaylor & Francis

Published: Nov 1, 2020

Keywords: Omega-3 fatty acids; biological activities; molecular mechanism; silkworm pupal oil

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