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Journal Abstract Search

247 related items for PubMed ID: 24306494

  • 1. Increase in transcript accumulation of Psy1 and e-Lcy genes in grain development is associated with differences in seed carotenoid content between durum wheat and tritordeum.
    Rodríguez-Suárez C, Mellado-Ortega E, Hornero-Méndez D, Atienza SG.
    Plant Mol Biol; 2014 Apr; 84(6):659-73. PubMed ID: 24306494
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  • 3. Genetic variability of carotenoid concentration and degree of esterification among tritordeum (xTritordeum Ascherson et Graebner) and durum wheat accessions.
    Atienza SG, Ballesteros J, Martín A, Hornero-Méndez D.
    J Agric Food Chem; 2007 May 16; 55(10):4244-51. PubMed ID: 17439153
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  • 4. Effect of long-term storage on the free and esterified carotenoids in durum wheat (Triticum turgidum conv. durum) and tritordeum (×Tritordeum Ascherson et Graebner) grains.
    Mellado-Ortega E, Hornero-Méndez D.
    Food Res Int; 2017 Sep 16; 99(Pt 2):877-890. PubMed ID: 28847425
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  • 7. Allelic variation, alternative splicing and expression analysis of Psy1 gene in Hordeum chilense Roem. et Schult.
    Rodríguez-Suárez C, Atienza SG, Pistón F.
    PLoS One; 2011 Sep 16; 6(5):e19885. PubMed ID: 21603624
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  • 8. Insight into durum wheat Lpx-B1: a small gene family coding for the lipoxygenase responsible for carotenoid bleaching in mature grains.
    Verlotta A, De Simone V, Mastrangelo AM, Cattivelli L, Papa R, Trono D.
    BMC Plant Biol; 2010 Nov 26; 10():263. PubMed ID: 21110856
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  • 9. Mediation of a GDSL Esterase/Lipase in Carotenoid Esterification in Tritordeum Suggests a Common Mechanism of Carotenoid Esterification in Triticeae Species.
    Requena-Ramírez MD, Atienza SG, Hornero-Méndez D, Rodríguez-Suárez C.
    Front Plant Sci; 2020 Nov 26; 11():592515. PubMed ID: 33746990
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  • 12. Cloning and comparative analysis of carotenoid β-hydroxylase genes provides new insights into carotenoid metabolism in tetraploid (Triticum turgidum ssp. durum) and hexaploid (Triticum aestivum) wheat grains.
    Qin X, Zhang W, Dubcovsky J, Tian L.
    Plant Mol Biol; 2012 Dec 26; 80(6):631-46. PubMed ID: 23015203
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  • 13. Free and esterified carotenoids in pigmented wheat, tritordeum and barley grains.
    Paznocht L, Kotíková Z, Šulc M, Lachman J, Orsák M, Eliášová M, Martinek P.
    Food Chem; 2018 Feb 01; 240():670-678. PubMed ID: 28946328
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  • 14. Lutein ester profile in wheat and tritordeum can be modulated by temperature: Evidences for regioselectivity and fatty acid preferential of enzymes encoded by genes on chromosomes 7D and 7Hch.
    Mattera MG, Hornero-Méndez D, Atienza SG.
    Food Chem; 2017 Mar 15; 219():199-206. PubMed ID: 27765217
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  • 17. Timing and biosynthetic potential for carotenoid accumulation in genetically diverse germplasm of maize.
    Vallabhaneni R, Wurtzel ET.
    Plant Physiol; 2009 Jun 15; 150(2):562-72. PubMed ID: 19346441
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  • 18. High-throughput genotyping of wheat-barley amphiploids utilising diversity array technology (DArT).
    Castillo A, Ramírez MC, Martín AC, Kilian A, Martín A, Atienza SG.
    BMC Plant Biol; 2013 Jun 03; 13():87. PubMed ID: 23725040
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  • 19. Potential of Start Codon Targeted (SCoT) markers for DNA fingerprinting of newly synthesized tritordeums and their respective parents.
    Cabo S, Ferreira L, Carvalho A, Martins-Lopes P, Martín A, Lima-Brito JE.
    J Appl Genet; 2014 Aug 03; 55(3):307-12. PubMed ID: 24733248
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  • 20. Effects of reciprocal crosses on agronomic performance of tritordeum.
    Atienza SG, Ramírez MC, Martín A, Ballesteros J.
    Genetika; 2007 Aug 03; 43(8):1046-9. PubMed ID: 17958303
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