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Marine environments produce several unique natural compounds. Over the past two decades, marine product research, including microorganisms, has grown quickly. Science is growing interested in microbial metabolites, especially those with unique colour pigments, due to their extensive pharmacological activity despite the difficulties of isolating and harvesting marine microbes. Studies on morphology and biochemistry characterised the selected microorganisms. Both Micrococcus sp and Brevibacterium sp were identified. The data showed that Micrococcus sp's pigment was 2-Amino-N-(2 ((3,3- dimethyl…mehr

Produktbeschreibung
Marine environments produce several unique natural compounds. Over the past two decades, marine product research, including microorganisms, has grown quickly. Science is growing interested in microbial metabolites, especially those with unique colour pigments, due to their extensive pharmacological activity despite the difficulties of isolating and harvesting marine microbes. Studies on morphology and biochemistry characterised the selected microorganisms. Both Micrococcus sp and Brevibacterium sp were identified. The data showed that Micrococcus sp's pigment was 2-Amino-N-(2 ((3,3- dimethyl cyclohex-1-enyl) methyl amino)-2-oxo ethyl) acetamide and Brevibacterium sp's was 2,5-Diphenyl-1H-pyrrole. The laboratory-scale growth and pigment generation of pigmented bacteria was also measured utilising one-factor-at-a-time. Crude pigments were tested for anti-microbial, wound-healing, anti-inflammatory, and anticancer properties. Pigments' food colouring and dyeing capability were also assessed.
Autorenporträt
I am Dr. V. Srilekha, Assistant Professor and Head Department of Biotechnology at Chaitanya (Deemed to be University). I have teaching experience of 22 years. The areas of specialization of my research are marine bacterial pigments and their applications.