SEARCH

SEARCH BY CITATION

References

  • Aaby K, Mazur S, Nes A, Skrede G. 2012. Phenolic compounds in strawberry (Fragaria × ananassa Duch.) fruits: composition in 27 cultivars and changes during ripening. Food Chemistry 132: 8697.
  • Abrahams S, Lee E, Walker AR, Tanner GJ, Larkin PJ, Ashton AR. 2003. The Arabidopsis TDS4 gene encodes leucoanthocyanidin dioxygenase (LDOX) and is essential for proanthocyanidin synthesis and vacuole development. Plant Journal 35: 624636.
  • Aharoni A, De Vos CH, Wein M, Sun Z, Greco R, Kroon A, Mol JN, O'Connell AP. 2001. The strawberry FaMYB1 transcription factor suppresses anthocyanin and flavonol accumulation in transgenic tobacco. Plant Journal 28: 319332.
  • Akagi T, Ikegami A, Tsujimoto T, Kobayashi S, Sato A, Kono A, Yonemori K. 2009. DkMyb4 is a Myb transcription factor involved in proanthocyanidin biosynthesis in persimmon fruit. Plant Physiology 151: 20282045.
  • Akagi T, Tsujimoto T, Ikegami A, Yonemori K. 2011. Effects of seasonal temperature changes on DkMyb4 expression involved in proanthocyanidin regulation in two genotypes of persimmon (Diospyros kaki Thunb.) fruit. Planta 233: 883894.
  • Albert NW, Lewis DH, Zhang H, Schwinn KE, Jameson PE, Davies KM. 2011. Members of an R2R3-MYB transcription factor family in Petunia are developmentally and environmentally regulated to control complex floral and vegetative pigmentation patterning. Plant Journal 65: 771784.
  • Almeida JRM, D'Amico E, Preuss A, Carbone F, de Vos CHR, Deiml B, Mourgues F, Perrotta G, Fischer TC, Bovy AG et al. 2007. Characterization of major enzymes and genes involved in flavonoid and proanthocyanidin biosynthesis during fruit development in strawberry (Fragaria × ananassa). Archives of Biochemistry and Biophysics 465: 6171.
  • Battino M, Jules B, Beatrice D-R, Laimer M, McDougall GJ, Bruno M. 2009. Bioactive compounds in berries relevant to human health. Nutrition Reviews 67: S145S150.
  • Baudry A, Caboche M, Lepiniec L. 2006. TT8 controls its own expression in a feedback regulation involving TTG1 and homologous MYB and bHLH factors, allowing a strong and cell-specific accumulation of flavonoids in Arabidopsis thaliana. Plant Journal 46: 768779.
  • Baudry A, Heim MA, Dubreucq B, Caboche M, Weisshaar B, Lepiniec L. 2004. TT2, TT8, and TTG1 synergistically specify the expression of BANYULS and proanthocyanidin biosynthesis in Arabidopsis thaliana. Plant Journal 39: 366380.
  • Bogs J, Jaffe FW, Takos AM, Walker AR, Robinson SP. 2007. The grapevine transcription factor VvMYBPA1 regulates proanthocyanidin synthesis during fruit development. Plant Physiology 143: 13471361.
  • Bombarely A, Merchante C, Csukasi F, Cruz-Rus E, Caballero JL, Medina-Escobar N, Blanco-Portales R, Botella MA, Munoz-Blanco J, Sanchez-Sevilla JF et al. 2010. Generation and analysis of ESTs from strawberry (Fragaria × ananassa) fruits and evaluation of their utility in genetic and molecular studies. BMC Genomics 11: 503.
  • Buendia B, Gil MI, Tudela JA, Gady AL, Medina JJ, Soria C, Lopez JM, Tomas-Barberan FA. 2010. HPLC-MS analysis of proanthocyanidin oligomers and otherphenolics in 15 strawberry cultivars. Journal of Agricultural and Food Chemistry 58: 39163926.
  • Burbulis IE, Winkel-Shirley B. 1999. Interactions among enzymes of the Arabidopsis flavonoid biosynthetic pathway. Proceedings of the National Academy of Sciences, USA 96: 1292912934.
  • Burr FA, Burr B, Scheffler BE, Blewitt M, Wienand U, Matz EC. 1996. The maize repressor-like gene intensifier1 shares homology with the r1/b1 multigene family of transcription factors and exhibits missplicing. Plant Cell 8: 12491259.
  • Carbone F, Preuss A, de Vos RCH, D'Amico E, Perrotta G, Bovy AG, Martens S, Rosati C. 2009. Developmental, genetic and environmental factors affect the expression of flavonoid genes, enzymes and metabolites in strawberry fruits. Plant, Cell & Environment 32: 11171131.
  • Chalfun A, Franken J, Mes JJ, Marsch-Martinez N, Pereira A, Angenent GC. 2005. ASYMMETRIC LEAVES2-LIKE1 gene, a member of the AS2/LOB family, controls proximal-distal patterning in Arabidopsis petals. Plant Molecular Biology 57: 559575.
  • Curtis MD, Grossniklaus U. 2003. A gateway cloning vector set for high-throughput functional analysis of genes in planta. Plant Physiology 133: 462469.
  • Deluc L, Barrieu F, Marchive C, Lauvergeat V, Decendit A, Richard T, Carde JP, Merillon JM, Hamdi S. 2006. Characterization of a grapevine R2R3-MYB transcription factor that regulates the phenylpropanoid pathway. Plant Physiology 140: 499511.
  • Deluc L, Bogs J, Walker AR, Ferrier T, Decendit A, Merillon JM, Robinson SP, Barrieu F. 2008. The transcription factor VvMYB5b contributes to the regulation of anthocyanin and proanthocyanidin biosynthesis in developing grape berries. Plant Physiology 147: 20412053.
  • Dubos C, Le Gourrierec J, Baudry A, Huep G, Lanet E, Debeaujon I, Routaboul JM, Alboresi A, Weisshaar B, Lepiniec L. 2008. MYBL2 is a new regulator of flavonoid biosynthesis in Arabidopsis thaliana. Plant Journal 55: 940953.
  • Dubos C, Stracke R, Grotewold E, Weisshaar B, Martin C, Lepiniec L. 2010. MYB transcription factors in Arabidopsis. Trends in Plant Science 15: 573581.
  • Feller A, Hernandez JM, Grotewold E. 2006. An ACT-like domain participates in the dimerization of several plant basic-helix-loop-helix transcription factors. Journal of Chemical Biology 281: 2896428974.
  • de Folter S, Immink RG, Kieffer M, Parenicova L, Henz SR, Weigel D, Busscher M, Kooiker M, Colombo L, Kater MM et al. 2005. Comprehensive interaction map of the Arabidopsis MADS Box transcription factors. Plant Cell 17: 14241433.
  • Gonzalez A, Mendenhall J, Huo Y, Lloyd A. 2009. TTG1 complex MYBs, MYB5 and TT2, control outer seed coat differentiation. Developmental Biology 325: 412421.
  • Heim MA, Jakoby M, Werber M, Martin C, Weisshaar B, Bailey PC. 2003. The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity. Molecular Biology and Evolution 20: 735747.
  • Hichri I, Barrieu F, Bogs J, Kappel C, Delrot S, Lauvergeat V. 2011. Recent advances in the transcriptional regulation of the flavonoid biosynthetic pathway. Journal of Experimental Botany 62: 24652483.
  • Immink RG, Angenent GC. 2002. Transcription factors do it together: the hows and whys of studying protein-protein interactions. Trends in Plant Science 7: 531534.
  • James P, Halladay J, Craig EA. 1996. Genomic libraries and a host strain designed for highly efficient two-hybrid selection in yeast. Genetics 144: 14251436.
  • Kennedy JA, Jones GP. 2001. Analysis of proanthocyanidin cleavage products following acid-catalysis in the presence of excess phloroglucinol. Journal of Agricultural and Food Chemistry 49: 17401746.
  • Lazo GR, Stein PA, Ludwig RA. 1991. A DNA transformation-competent Arabidopsis genomic library in Agrobacterium. Biotechnology 9: 963967.
  • Lepiniec L, Debeaujon I, Routaboul JM, Baudry A, Pourcel L, Nesi N, Caboche M. 2006. Genetics and biochemistry of seed flavonoids. Annual Review of Plant Biology 57: 405430.
  • Li SF, Milliken ON, Pham H, Seyit R, Napoli R, Preston J, Koltunow AM, Parish RW. 2009. The Arabidopsis MYB5 transcription factor regulates mucilage synthesis, seed coat development, and trichome morphogenesis. Plant Cell 21: 7289.
  • Matsui K, Umemura Y, Ohme-Takagi M. 2008. AtMYBL2, a protein with a single MYB domain, acts as a negative regulator of anthocyanin biosynthesis in Arabidopsis. Plant Journal 55: 954967.
  • Moco S, Bino RJ, Vorst O, Verhoeven HA, de Groot J, van Beek TA, Vervoort J, de Vos RCH. 2006. A liquid chromatography-mass spectrometry-based metabolome database for tomato. Plant Physiology 141: 12051218.
  • Nesi N, Debeaujon I, Jond C, Pelletier G, Caboche M, Lepiniec L. 2000. The TT8 gene encodes a basic helix-loop-helix domain protein required for expression of DFR and BAN genes in Arabidopsis siliques. Plant Cell 12: 18631878.
  • Nesi N, Jond C, Debeaujon I, Caboche M, Lepiniec L. 2001. The Arabidopsis TT2 gene encodes an R2R3 MYB domain protein that acts as a key determinant for proanthocyanidin accumulation in developing seed. Plant Cell 13: 20992114.
  • Nijveldt RJ, Nood E, van Hoorn DEC, van Boelens PG, van Norren K, van Leeuwen PAM. 2001. Flavonoids: a review of probable mechanisms of action and potential applications. The American Journal of Clinical Nutrition 74: 418425.
  • Oosumi T, Ruiz-Rojas JJ, Veilleux RE, Dickerman A, Shulaev V. 2010. Implementing reverse genetics in Rosaceae: analysis of T-DNA flanking sequences of insertional mutant lines in the diploid strawberry, Fragaria vesca. Physiologia Plantarum 140: 19.
  • Quattrocchio F, Verweij W, Kroon A, Spelt C, Mol J, Koes R. 2006. PH4 of Petunia is an R2R3 MYB protein that activates vacuolar acidification through interactions with basic-helix-loop-helix transcription factors of the anthocyanin pathway. Plant Cell 18: 12741291.
  • Routaboul JM, Kerhoas L, Debeaujon I, Pourcel L, Caboche M, Einhorn J, Lepiniec L. 2006. Flavonoid diversity and biosynthesis in seed of Arabidopsis thaliana. Planta 224: 96107.
  • Schaart JG, Salentijn EMJ, Krens FA. 2002. Tissue-specific expression of the beta-glucuronidase reporter gene in transgenic strawberry (Fragaria × ananassa) plants. Plant Cell Reports 21: 313319.
  • Shulaev V, Sargent DJ, Crowhurst RN, Mockler TC, Folkerts O, Delcher AL, Jaiswal P, Mockaitis K, Liston A, Mane, et al. 2011. The genome of woodland strawberry (Fragaria vesca). Nature Genetics 43: 109116.
  • Tamura K, Peterson D, Peterson N, Stecher G, Nei M, Kumar S. 2011. MEGA5: molecular evolutionary genetics analysis using Maximum Likelihood, Evolutionary Distance, and Maximum Parsimony methods. Molecular Biology and Evolution 28: 27312739.
  • Terrier N, Torregrosa L, Ageorges A, Vialet S, Verries C, Cheynier V, Romieu C. 2009. Ectopic expression of VvMybPA2 promotes proanthocyanidin biosynthesis in grapevine and suggests additional targets in the pathway. Plant Physiology 149: 10281041.
  • Thevenin J, Dubos C, Xu W, Le Gourrierec J, Kelemen Z, Charlot F, Nogue F, Lepiniec L, Dubreucq B. 2012. A new system for fast and quantitative analysis of heterologous gene expression in plants. New Phytologist 193: 504512.
  • Vilo J, Kapushesky M, Kemmeren P, Sarkans U, Brazma A. 2003. Expression profiler. In: Parmigiani G, Garrett ES, Irizarry R, Zeger SL, eds. The analysis of gene expression data: methods and software. New York, USA: Springer Verlag, 142162.
  • Walker AR, Davison PA, Bolognesi-Winfield AC, James CM, Srinivasan N, Blundell TL, Esch JJ, Marks MD, Gray JC. 1999. The TRANSPARENT TESTA GLABRA1 locus, which regulates trichome differentiation and anthocyanin biosynthesis in Arabidopsis, encodes a WD40 repeat protein. Plant Cell 11: 13371349.
  • Xie DY, Sharma SB, Paiva NL, Ferreira D, Dixon RA. 2003. Role of anthocyanidin reductase, encoded by BANYULS in plant flavonoid biosynthesis. Science 299: 396399.
  • Zhu HF, Fitzsimmons K, Khandelwal A, Kranz RG. 2009. CPC, a single-repeat R3 MYB, is a negative regulator of anthocyanin biosynthesis in Arabidopsis. Molecular Plant 2: 790802.
  • Zimmermann IM, Heim MA, Weisshaar B, Uhrig JF. 2004. Comprehensive identification of Arabidopsis thaliana MYB transcription factors interacting with R/B-like BHLH proteins. Plant Journal 40: 2234.