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Journal Abstract Search

551 related items for PubMed ID: 24359633

  • 1. Both methylerythritol phosphate and mevalonate pathways contribute to biosynthesis of each of the major isoprenoid classes in young cotton seedlings.
    Opitz S, Nes WD, Gershenzon J.
    Phytochemistry; 2014 Feb; 98():110-9. PubMed ID: 24359633
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  • 2. Tracing the biosynthetic origin of limonoids and their functional groups through stable isotope labeling and inhibition in neem tree (Azadirachta indica) cell suspension.
    Aarthy T, Mulani FA, Pandreka A, Kumar A, Nandikol SS, Haldar S, Thulasiram HV.
    BMC Plant Biol; 2018 Oct 11; 18(1):230. PubMed ID: 30314459
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  • 4. Methylerythritol and mevalonate pathway contributions to biosynthesis of mono-, sesqui-, and diterpenes in glandular trichomes and leaves of Stevia rebaudiana Bertoni.
    Wölwer-Rieck U, May B, Lankes C, Wüst M.
    J Agric Food Chem; 2014 Mar 19; 62(11):2428-35. PubMed ID: 24579920
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  • 5. Genetic evidence for the role of isopentenyl diphosphate isomerases in the mevalonate pathway and plant development in Arabidopsis.
    Okada K, Kasahara H, Yamaguchi S, Kawaide H, Kamiya Y, Nojiri H, Yamane H.
    Plant Cell Physiol; 2008 Apr 19; 49(4):604-16. PubMed ID: 18303110
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  • 6. Pathways of carotenoid biosynthesis in bacteria and microalgae.
    Paniagua-Michel J, Olmos-Soto J, Ruiz MA.
    Methods Mol Biol; 2012 Apr 19; 892():1-12. PubMed ID: 22623294
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  • 7. Dynamic pathway allocation in early terpenoid biosynthesis of stress-induced lima bean leaves.
    Bartram S, Jux A, Gleixner G, Boland W.
    Phytochemistry; 2006 Aug 19; 67(15):1661-72. PubMed ID: 16580034
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  • 8. Effects of gibberellic acid on primary terpenoids and delta-tetrahydrocannabinol in Cannabis sativa at flowering stage.
    Mansouri H, Asrar Z, Mehrabani M.
    J Integr Plant Biol; 2009 Jun 19; 51(6):553-61. PubMed ID: 19522814
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  • 9. Biosynthesis of mono- and sesquiterpenes in carrot roots and leaves (Daucus carota L.): metabolic cross talk of cytosolic mevalonate and plastidial methylerythritol phosphate pathways.
    Hampel D, Mosandl A, Wüst M.
    Phytochemistry; 2005 Feb 19; 66(3):305-11. PubMed ID: 15680987
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  • 11. THE 1-DEOXY-D-XYLULOSE-5-PHOSPHATE PATHWAY OF ISOPRENOID BIOSYNTHESIS IN PLANTS.
    Lichtenthaler HK.
    Annu Rev Plant Physiol Plant Mol Biol; 1999 Jun 19; 50():47-65. PubMed ID: 15012203
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  • 12. Investigation of the methylerythritol 4-phosphate pathway for microbial terpenoid production through metabolic control analysis.
    Volke DC, Rohwer J, Fischer R, Jennewein S.
    Microb Cell Fact; 2019 Nov 05; 18(1):192. PubMed ID: 31690314
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  • 16. Metabolic plasticity for isoprenoid biosynthesis in bacteria.
    Pérez-Gil J, Rodríguez-Concepción M.
    Biochem J; 2013 May 15; 452(1):19-25. PubMed ID: 23614721
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  • 17. Current development in isoprenoid precursor biosynthesis and regulation.
    Chang WC, Song H, Liu HW, Liu P.
    Curr Opin Chem Biol; 2013 Aug 15; 17(4):571-9. PubMed ID: 23891475
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  • 19. Cross-talk between the cytosolic mevalonate and the plastidial methylerythritol phosphate pathways in tobacco bright yellow-2 cells.
    Hemmerlin A, Hoeffler JF, Meyer O, Tritsch D, Kagan IA, Grosdemange-Billiard C, Rohmer M, Bach TJ.
    J Biol Chem; 2003 Jul 18; 278(29):26666-76. PubMed ID: 12736259
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  • 20. An update on the function and regulation of methylerythritol phosphate and mevalonate pathways and their evolutionary dynamics.
    Pu X, Dong X, Li Q, Chen Z, Liu L.
    J Integr Plant Biol; 2021 Jul 18; 63(7):1211-1226. PubMed ID: 33538411
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