Reprint

Advances in Anthocyanin Research 2018

Edited by
January 2019
224 pages
  • ISBN978-3-03897-523-6 (Paperback)
  • ISBN978-3-03897-524-3 (PDF)

This is a Reprint of the Special Issue Advances in Anthocyanin Research 2018 that was published in

Chemistry & Materials Science
Medicine & Pharmacology
Summary
Anthocyanins are natural plant pigments, responsible for many of the orange/red/purple/blue colors of many flowers, fruits, and vegetables. These colorants play important roles in plants, such as conferring UV protection and antimicrobial properties, and they are also implicated to have many potential human health-promoting properties. Research works and epidemiological studies have indicated these plant pigments to be beneficial in the reduction of chronic inflammatory diseases, such as type 2 diabetes and cardiovascular disease. For these reasons, there is increasing interest in their incorporation in foods, drugs, cosmetics, and dietary supplements as naturally derived colorants and health-promoting compounds. There is a large natural diversity in the chemical composition of anthocyanin pigments. More than 700 unique anthocyanin structures have been identified, and each has unique colorimetric, reactivity, and health-promoting properties. With such a great number of unique anthocyanins and increasing interest in their use, there is a considerable need to better understand the factors affecting their production and accumulation in plants, the factors affecting their stability and colorimetric properties, and their metabolism and mechanisms for disease alleviation. This Special Issue includes several new research works dedicated to these topics and a review of the current knowledge of anthocyanin chemistry affecting their application in food and nutrition.
Format
  • Paperback
License and Copyright
© 2019 by the authors; CC BY-NC-ND license
Keywords
anthocyanins; antibacterial; antinociceptive; flavonols; Morus; anthocyanin; blackcurrant; estrogen receptor β; phytoestrogen; grape; anthocyanin biosynthesis; VvBZR1; VvHY5; 24-Epibrassinolide; delphinidin; petunidin; natural color; isomers; cis acylation; trans acylation; Solanum melongena L.; Lycium ruthenicum; anthocyanins; pyranoanthocyanins; ascorbic acid; bleaching; condensation; anthocyanin; smooth muscle cells; metabolism; antioxidant; atherosclerosis; rye inbred lines; genes of grain color; anthocyanin identification; comparative genetics; HPLC-MS analysis; encapsulation methods; in vitro digestion; maltodextrin; soy protein isolate; yogurt; total phenolic content; anthocyanin; flavonoid; antioxidant; extract storage; vermicompost; Clinacanthus nutans; roselle; anthocyanins; heat; pH; salinity; anthocyanins; proline; MDA; flavonol; wheat; anthocyanin; lipophilization; time-depending density functional theory; anthocyanin; antioxidant activity; cold storage; ethylene; GC-MS; luminescence; multiplex; ROS; anthocyanin; flavylium; chemistry; interactions; wheat; anthocyanidins; pelargonidin; cyanidin; antioxidants; antioxidant activity