AI Article Synopsis
- Light influences the regulation of secondary metabolites, including pigments and flavors in fruits from the Solanaceae family, providing insights into their metabolism.
- Researchers analyzed fruit pigmentation and volatile compounds in tomatoes and bell peppers grown in shaded conditions, revealing a reduction in carotenoid and flavonoid levels.
- The study highlights the importance of light in enhancing fruit quality by regulating gene expression involved in pigment and flavor production, with implications for future research on light-dependent mechanisms.
Article Abstract
Light is a major environmental factor affecting the regulation of secondary metabolites, such as pigments and flavor. The Solanaceae plant family has diverse patterns of fruit metabolisms that serve as suitable models to understand the molecular basis of its regulation across species. To investigate light-dependent regulation for fruit pigmentation and volatile flavors, major fruit pigments, their biosynthetic gene expression, and volatiles were analyzed in covered fruits of tomato and bell pepper. Immature covered fruits were found to be ivory in color and no chlorophyll was detected in both plants. The total carotenoid content was found to be reduced in ripe tomato and bell pepper under cover. Naringenin chalcone decreased more than 7-fold in ripe tomato and total flavonoids decreased about 10-fold in immature and ripe pepper fruit under light deficiency. Light positively impacts fruit pigmentation in tomato and bell pepper by regulating gene expression in carotenoid and flavonoid biosynthesis, especially and , respectively. Nineteen volatile flavors were detected, and seven of these exhibited light-dependent regulations for both ripe tomato and pepper. This study will help in improving fruit quality and aid future research works to understand the molecular mechanisms regulating the influence of light-dependency on pigments and flavor volatiles.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7023227 | PMC |
| http://dx.doi.org/10.3390/antiox9010014 | DOI Listing |
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