Lipid-dissolved γ-carotene, β-carotene, and lycopene in globular chromoplasts of peach palm (Bactris gasipaes Kunth) fruits

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• 作者：Judith Hempel (1)
  Evelyn Amrehn (2)
  Silvia Quesada (3)
  Patricia Esquivel (4)
  Víctor M. Jiménez (5)
  Annerose Heller (2)
  Reinhold Carle (1) (6)
  Ralf M. Schweiggert (1)
  
• 关键词：Absorption ; Bioavailability ; Carotenoids ; Chromoplast ultrastructure ; Peach palm ; Vitamin A
• 刊名：Planta
• 出版年：2014
• 出版时间：November 2014
• 年：2014
• 卷：240
• 期：5
• 页码：1037-1050
• 全文大小：1,162 KB
• 参考文献：1. Bauernfeind JC (1972) Carotenoid vitamin A precursors and analogs in foods and feeds. J Agric Food Chem 20:456-73 CrossRef
  2. Ben-Amotz A, Lers A, Avron M (1988) Stereoisomers of β-carotene and phytoene in the alga / Dunaliella / bardawil. Plant Physiol 86:1286-291 CrossRef
  3. Boehm V, Puspitasari-Nienaber NL, Ferruzzi MG, Schwartz SJ (2002) Trolox equivalent antioxidant capacity of different geometrical isomers of α-carotene, β-carotene, lycopene, and zeaxanthin. J Agric Food Chem 50:221-26 CrossRef
  4. Borel P (2012) Genetic variations involved in interindividual variability in carotenoid status. Mol Nutr Food Res 56:228-40 CrossRef
  5. Borel P, Grolier P, Armand M, Partier A, Lafont H, Lairon D, Azais-Braesco V (1996) Carotenoids in biological emulsions: solubility, surface-to-core distribution, and release from lipid droplets. J Lipid Res 37:250-61
  6. Britton G (1995) UV/visible spectroscopy. In: Britton G, Liaaen-Jensen S, Pfander H (eds) Carotenoids, vol 1b., spectroscopy.?Birkh?user Verlag, Basel, Boston, Berlin, pp 13-2
  7. Britton G (1998) Overview of carotenoid biosynthesis. In: Britton G, Liaaen-Jensen S, Pfander H (eds) Carotenoids, vol 3., Biosynthesis and metabolism.?Birkh?user Verlag, Basel, Boston, Berlin, pp 13-47
  8. Brown MJ, Ferruzzi MG, Nguyen ML, Cooper DA, Eldridge AL, Schwartz SJ, White WS (2004) Carotenoid bioavailability is higher from salads ingested with full-fat than with fat-reduced salad dressings as measured with electrochemical detection. Am J Clin Nutr 80:396-03
  9. Burns J, Fraser PD, Bramley PM (2003) Identification and quantification of carotenoids, tocopherols and chlorophylls in commonly consumed fruits and vegetables. Phytochemistry 62:939-47 CrossRef
  10. Castenmiller JJM, West CE (1998) Bioavailability and bioconversion of carotenoids. Annu Rev Nutr 18:19-8 CrossRef
  11. De Rosso VV, Mercadante AZ (2007) Identification and quantification of carotenoids, by HPLC-PDA-MS/MS, from Amazonian fruits. J Agric Food Chem 55:5062-072 CrossRef
  12. Deruere J, Romer S, d’Harlingue A, Backhaus RA, Kuntz M, Camara B (1994) Fibril assembly and carotenoid overaccumulation in chromoplasts: a model for supramolecular lipoprotein structures. Plant Cell 6:119-33 CrossRef
  13. Devitt LC, Fanning K, Dietzgen RG, Holton TA (2010) Isolation and functional characterization of a lycopene β-cyclase gene that controls fruit colour of papaya ( / Carica papaya L.). J Exp Bot 61:33-9 CrossRef
  14. Dias MG, Cam?es MFGFC, Oliveira L (2009) Carotenoids in traditional Portuguese fruits and vegetables. Food Chem 113:808-15 CrossRef
  15. FAO/WHO (2001) Vitamin A. Human vitamin and mineral requirements. FAO, Rome, pp 87-01
  16. Ferruzzi MG, Nguyen ML, Sander LC, Rock CL, Schwartz SJ (2001) Analysis of lycopene geometrical isomers in biological microsamples by liquid chromatography with coulometric array detection. J Chromatogr B Biomed Sci Appl 760:289-99 CrossRef
  17. Gamlieli-Bonshtein I, Korin E, Cohen S (2002) Selective separation of cis-trans geometrical isomers of β-carotene via CO₂ supercritical fluid extraction. Biotechnol Bioeng 80:169-74 CrossRef
  18. Garti N, Shevachman M, Shani A (2004) Solubilization of lycopene in jojoba oil microemulsion. JAOCS J Am Oil Chem Soc 81:873-77 CrossRef
  19. Hansmann P, Sitte P (1982) Composition and molecular struc
• 作者单位：Judith Hempel (1)
  Evelyn Amrehn (2)
  Silvia Quesada (3)
  Patricia Esquivel (4)
  Víctor M. Jiménez (5)
  Annerose Heller (2)
  Reinhold Carle (1) (6)
  Ralf M. Schweiggert (1)
  
  1. Institute of Food Science and Biotechnology, Hohenheim University, 70599, Stuttgart, Germany
  2. Institute of Botany, Hohenheim University, 70599, Stuttgart, Germany
  3. Department of Biochemistry, School of Medicine, University of Costa Rica, 2060, San Pedro, Costa Rica
  4. School of Food Technology, University of Costa Rica, 2060, San Pedro, Costa Rica
  5. CIGRAS, University of Costa Rica, 2060, San Pedro, Costa Rica
  6. Biological Science Department, King Abdulaziz University, P. O. Box 80257, Jeddah, 21589, Saudi Arabia
  
• ISSN：1432-2048

文摘

Main conclusion High levels of β-carotene, lycopene, and the rare γ-carotene occur predominantly lipid-dissolved in the chromoplasts of peach palm fruits. First proof of their absorption from these fruits is reported. The structural diversity, the physical deposition state in planta, and the human bioavailability of carotenoids from the edible fruits of diverse orange and yellow-colored peach palm (Bactris gasipaes Kunth) varieties were investigated. HPLC–PDA–MSn revealed a broad range of carotenes, reaching total carotenoid levels from 0.7 to 13.9?mg/100?g FW. Besides the predominant (all-E)-β-carotene (0.4-.4?mg/100?g FW), two (Z)-isomers of γ-carotene (0.1-.9?mg/100?g FW), and one (Z)-lycopene isomer (0.04-.83?mg/100?g FW) prevailed. Approximately 89-4?% of total carotenoid content pertained to provitamin A carotenoids with retinol activity equivalents ranging from 37 to 609?μg/100?g FW. The physical deposition state of these carotenoids in planta was investigated using light, transmission electron, and scanning electron microscopy. The plastids found in both orange and yellow-colored fruit mesocarps were amylo-chromoplasts of the globular type, containing carotenoids predominantly in a lipid-dissolved form. The hypothesis of lipid-dissolved carotenoids was supported by simple solubility estimations based on carotenoid and lipid contents of the fruit mesocarp. In our study, we report first results on the human bioavailability of γ-carotene, β-carotene, and lycopene from peach palm fruit, particularly proving the post-prandial absorption of the rarely occurring γ-carotene. Since the physical state of carotenoid deposition has been shown to be decisive for carotenoid bioavailability, lipid-dissolved carotenoids in peach palm fruits are expected to be highly bioavailable, however, further studies are required.