Yanli Feng scite author profile

Monascus pigments (MPs) as natural food colorants have been widely utilized in food industries in the world, especially in China and Japan. Moreover, MPs possess a range of biological activities, such as anti-mutagenic and anticancer properties, antimicrobial activities, potential anti-obesity activities, and so on. So, in the past two decades, more and more attention has been paid to MPs. Up to now, more than 50 MPs have been identified and studied. However, there have been some reviews about red fermented rice and the secondary metabolites produced by Monascus, but no monograph or review of MPs has been published. This review covers the categories and structures, biosynthetic pathway, production, properties, detection methods, functions, and molecular biology of MPs.

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Edible Filamentous Fungi from the Species Monascus: Early Traditional Fermentations, Modern Molecular Biology, and Future Genomics

Chen

Zhou

et al. 2015

Comp Rev Food Sci Food Safe

199

154

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Monascus spp. are filamentous fungi famous for their fermented products, especially red mold rice (RMR), a traditional fermented food in East Asian areas with a very long edible history documented back to the Han dynasty (BC 202-AD 220) in China. Nowadays, RMR and its related products involve a very large industry from artisanal traditional fermentations to food companies to medicine manufacturers, which are distributed worldwide. Modern studies have shown that Monascus spp. are able to produce abundant beneficial secondary metabolites, such as monacolins (cholesterollowering agents), γ -amino butyric acid (an antihypertensive substance), dimerumic acid (an antioxidant), and pigments (food-grade colorants), and some strains can also secrete citrinin, a nephrotoxic metabolite. Monascus-related studies have received much attention because of their wide applications. However, to our knowledge, no systematic review on the progress of Monascus research has ever been published. In this review, the progress of research on Monascus is summarized into 3 stages: Monascus fermentation, Monascus molecular biology, and Monascus genomics. This review covers the past history, current status, and future direction of Monascus research, contributing to a comprehensive understanding of Monascus research progress.

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Nature and nurture: confluence of pathway determinism with metabolic and chemical serendipity diversifiesMonascusazaphilone pigments

et al. 2019

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Next step of photochromic switches?

2008

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A multiple switching bisthienylethene and its photochromic fluorescent organogelator

et al. 2006

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Yanli Feng

Monascus pigments

Edible Filamentous Fungi from the Species Monascus: Early Traditional Fermentations, Modern Molecular Biology, and Future Genomics

Nature and nurture: confluence of pathway determinism with metabolic and chemical serendipity diversifiesMonascusazaphilone pigments

Next step of photochromic switches?

A multiple switching bisthienylethene and its photochromic fluorescent organogelator

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