Calendula officinalis Linn. (CO) is a popular medicinal plant from the plant kingdom’s Asteraceae family that has been used for millennia. This plant contains flavonoids, triterpenoids, glycosides, saponins, carotenoids, volatile oil, amino acids, steroids, sterols, and quinines. These chemical constituents confer multifaceted biological effects such as anti-inflammatory, anti-cancer, antihelminthic, antidiabetes, wound healing, hepatoprotective, and antioxidant activities. Additionally, it is employed in cases of certain burns and gastrointestinal, gynecological, ocular, and skin conditions. In this review, we have discussed recent research from the last five years on the therapeutic applications of CO and emphasized its myriad capabilities as a traditional medicine. We have also elucidated CO’s molecular mechanisms and recent clinical studies. Overall, this review intends to summarize, fill in the gaps in the existing research, and provide a wealth of possibilities for researchers working to validate traditional claims and advance the safe and effective use of CO in treating various ailments.
SummaryConsumers worldwide want to improve their diets by consuming nutritional and eco‐friendly products in their food. The demand for plant‐based meat analogues (PBMA) has increased due to the adverse effects on animals, people, and the environment. "Meat analogue" means to use a substitute for meat as the primary element. The rising desire for "good for you" and "good for the planet" is driving the demand for plant‐based meat alternatives. This manuscript describes the methods and orientation used to create meat analogues that mimic meat. The term "bottom‐up approach" describes putting together a structure from the ground up. By systematically structuring proteins through the assembly of individual structural pieces, bottom‐up processes can approach the design of the meat. The top‐down method is more efficient and scalable, but it can only generate the required shape at massive scales. Therefore, this review discussed various production methods and their processing consequences on PBMAs proposed for creating sustainable foods to enhance their structural and techno‐functionality.
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