Cyanobacterial Sunscreen Scytonemin: Role in Photoprotection and Biomedical Research

Rastogi, Rajesh P.; Sonani, Ravi R.; Madamwar, Datta

doi:10.1007/s12010-015-1676-1

Cited by 103 publications

(59 citation statements)

References 55 publications

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“…Structurally, in their formation nitrogen substituent of amino acids and cyclohexenimine or cyclohexenone chromophore conjugated with one or two amino acids is involved, having absorption maxima ranging from 310 to 362 nm (Singh et al, 2008; Bhatia et al, 2011). MAAs are produced in several cyanobacteria, rhodophyta, and several other groups of microalgae (Sinha et al, 2007; Carreto and Carignan, 2011; Rastogi et al, 2015; Rastogi and Madamwar, 2016). They have absorption maxima in UV range (Takano et al, 1979; Bhatia et al, 2011; Kannaujiya et al, 2014).…”

Section: An Outlook Of Metabolites: Basically What They Are?mentioning

confidence: 99%

Uncovering Potential Applications of Cyanobacteria and Algal Metabolites in Biology, Agriculture and Medicine: Current Status and Future Prospects

et al. 2017

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Cyanobacteria and algae having complex photosynthetic systems can channelize absorbed solar energy into other forms of energy for production of food and metabolites. In addition, they are promising biocatalysts and can be used in the field of “white biotechnology” for enhancing the sustainable production of food, metabolites, and green energy sources such as biodiesel. In this review, an endeavor has been made to uncover the significance of various metabolites like phenolics, phytoene/terpenoids, phytols, sterols, free fatty acids, photoprotective compounds (MAAs, scytonemin, carotenoids, polysaccharides, halogenated compounds, etc.), phytohormones, cyanotoxins, biocides (algaecides, herbicides, and insecticides) etc. Apart from this, the importance of these metabolites as antibiotics, immunosuppressant, anticancer, antiviral, anti-inflammatory agent has also been discussed. Metabolites obtained from cyanobacteria and algae have several biotechnological, industrial, pharmaceutical, and cosmetic uses which have also been discussed in this review along with the emerging technology of their harvesting for enhancing the production of compounds like bioethanol, biofuel etc. at commercial level. In later sections, we have discussed genetically modified organisms and metabolite production from them. We have also briefly discussed the concept of bioprocessing highlighting the functioning of companies engaged in metabolites production as well as their cost effectiveness and challenges that are being addressed by these companies.

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Section: An Outlook Of Metabolites: Basically What They Are?mentioning

confidence: 99%

Uncovering Potential Applications of Cyanobacteria and Algal Metabolites in Biology, Agriculture and Medicine: Current Status and Future Prospects

et al. 2017

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“…Scytonemin is able to reduce up to 90% of UV-A radiation into the cells due to its excellent absorption in this UV range [78][79][80]. It also absorbs in the UV-B range [81,82].…”

Section: Scytoneminmentioning

confidence: 99%

Applications for Marine Resources in Cosmetics

2017

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Abstract:Marine resources represent an interesting source of active ingredients for the cosmetics industry. Algae (macro and micro) are rich in proteins, amino acids, carbohydrates, vitamins (A, B, and C) and oligo-elements such as copper, iron and zinc. All those active principles play roles in hydration, firming, slimming, shine and protection. Marine organisms inhabit a wide spectrum of habitats. Photo-protective compounds can be obtained from organisms subjected to strong light radiation, such as in tropical systems or in shallow water. In the same way, molecules with antioxidant potential can be obtained from microorganisms inhabiting extreme systems such as hydrothermal vents. For example, marine bacteria collected around deep-sea hydrothermal vents produce complex and innovative polysaccharides in the laboratory which are useful in cosmetics. There are many properties that will be put forward by the cosmetic industries.

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“…Fleming & Castenholz (2008) studied the effects of nitrogen source (N 2 , NO 3 − or NH 4 + ) on scytonemin synthesis in Nostoc punctiforme, showing that this cyanobacterial species synthesized three to seven times more scytonemin while fixing nitrogen than when utilizing nitrate or ammonium. The exact mechanisms of scytonemin induction are unclear but multiple environmental signals may act to determine the level of this pigment in different species of cyanobacteria (Rastogi et al, 2015).…”

Section: Scytoneminmentioning

confidence: 99%

“…Recently, Malla & Sommer (2014) generated the monomer moiety of scytonemin from tryptophan and tyrosine in Escherichia coli and discovered that only three enzymes are required for its in vivo production. The precise mechanism of scytonemin biosynthesis is still ambiguous, however, recent studies indicated that biosynthesis of this pigment in cyanobacteria is a highly conserved process (Rastogi et al, 2015). Wada et al (2013) proposed a pathway for scytonemin synthesis in cyanobacteria in which enzymes ScyA, B and C are assumed to catalyse the synthesis of scytonemin monomers, while ScyC, D and F are assumed to catalyse the dimerization of the subunits (Fig.…”

Section: Scytoneminmentioning

confidence: 99%

“…A photo-protective role of scytonemin has been shown (Garcia-Pichel et al, 1992;Dillon & Castenholz, 1999;Gao &Garcia-Pichel, 2011) andCastenholz (1991) reported that scytonemin prevents up to 90% of solar UV radiation from entering the cell. In addition, scytonemin has antioxidant activity and functions as a radical scavenger to prevent cellular damage resulting from reactive oxygen species produced upon UV-radiation exposure (Matsui et al, 2012;Rastogi et al, 2015). Scytonemin also represses proliferation of T-cell leukaemia Jurkat cells (IC 50 = 7.8 µM) in humans (Singh et al, 2010).…”

Section: Scytoneminmentioning

confidence: 99%

See 1 more Smart Citation

Cyanobacterial metabolites as a source of sunscreens and moisturizers: a comparison with current synthetic compounds

Derikvand

Llewellyn

Purton

2016

European Journal of Phycology

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Cyanobacterial Sunscreen Scytonemin: Role in Photoprotection and Biomedical Research

Cited by 103 publications

References 55 publications

Uncovering Potential Applications of Cyanobacteria and Algal Metabolites in Biology, Agriculture and Medicine: Current Status and Future Prospects

Uncovering Potential Applications of Cyanobacteria and Algal Metabolites in Biology, Agriculture and Medicine: Current Status and Future Prospects

Applications for Marine Resources in Cosmetics

Cyanobacterial metabolites as a source of sunscreens and moisturizers: a comparison with current synthetic compounds

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