| Light modulates the transcriptomic accumulation of anthocyanin biosynthetic pathway genes in red and white grapes |
|
Puspa Raj Poudel
(National Research Institute of Brewing)
Kazuya Koyama (National Research Institute of Brewing) Nami Goto-Yamamoto (National Research Institute of Brewing) |
| 1 | Ageorges A, Fernandez L, Vialet S, Merdinoglu D, Terrier N, Romieu C (2006) Four specific isogenes of the anthocyanin metabolic pathway are systematically co-expressed with the red colour of grape berries. Plant Sci 170:372-383 DOI |
| 2 | Ali A, Strommer J (2003) A simple extraction and chromatographic system for the simultaneous analysis of anthocyanins and stilbenes of Vitis species. J Agric Food Chem 51:7246-7251 DOI |
| 3 | Azuma A, Kobayashi S, Mitani N, Shiraishi M, Yamada M, Ueno T, Kono A, Yakushiji H, Koshita Y (2008) Genomic and genetic analysis of Myb-related genes that regulate anthocyanin biosynthesis in grape berry skin. Theor Appl Genet 117:1009-1019 DOI |
| 4 | Azuma A, Yakushiji H, Koshita Y, Kobayashi S (2012) Flavonoid biosynthgesis-related genes in grape skin are differentially regulated by temperature and light conditions. Planta 236:1067-1080 DOI |
| 5 | Bogs J, Jaffe FW, Takos AM, Walker AR, Robinson SP (2007) The grapevine transcription factor VvMYBPA1 regulates proanthocyanidin synthesis during fruit development. Plant Physiol 143:1347-1361 DOI |
| 6 | Brillante L, Martinez-Luscher J, Kurtural SK (2018) Applied water and mechanical canopy management affect berry and wine phenolic and aroma composition of grapevine (Vitis vinifera L., cv. Syrah) in Central California. Sci Hort 227:261-271 DOI |
| 7 | Czemmel S, Stracke R, Weisshaar B, Cordon N, Harris NN, Walker AR, Robinson SP, Bogs J (2009) The grapevine R2R3-MYB transcription factor VvMYBG1 regulates flavonol synthesis in developing grape berries. Plant Physiol 151:1513-1530 DOI |
| 8 | 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 Physiol 140:499-511 |
| 9 | 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 Physiol 147:2041-2053 DOI |
| 10 | Downey MO, Harvey JS, Robinson SP (2003a) Analysis of tannins in seeds and skins of Shiraz grapes throughout berry development. Austral J Grape Wine Res 9:15-27 DOI |
| 11 | Downey MO, Harvey JS, Robinson SP (2003b) Synthesis of flavonols and expression of flavonol synthase genes in the developing grape berries of Shiraz and Chardonnay (Vitis vinifera L.). Austral J Grape Wine Res 9:110-121 DOI |
| 12 | Huang D, Yuan Y, Tang Z, Huang Y, Kang C, Deng X, Xu Q (2019) Retrotransposon promoter of Ruby1 controls both light - and cold-induced accumulation of anthocyanins in blood orange Plant Cell Environ 1-13 |
| 13 | Kobayashi S, Ishimaru M, Ding CK, Yakushiji H, Goto N (2001) Comparison of UDP-glucose:flavonoid 3-O-glucosyltransferase (UFGT) gene sequences between white grapes (Vitis vinifera) and their sports with red skin. Plant Sci 160:543-550 DOI |
| 14 | Jeong ST, Goto-Yamamoto N, Kobayashi S, Esaka M (2004) Effects of plant hormones and shading on the accumulation of anthocyanins and the expression of anthocyanin biosynthetic genes in grape berry skins. Plant Sci 167:247-252 DOI |
| 15 | Jiang M, Ren L, Lian H, Liu Y, Chen H (2016) Novel insight into the mechanism underlying light-controlled anthocyanin accumulation in eggplant (Solanum melongena L.) Plant Sci 249:46-58 |
| 16 | Kobayashi S, Goto-Yamamto N, Hirochika H (2004) Retrotransposon-induced mutations in grape skin color. Science 34:982 |
| 17 | Goto-Yamamoto N, Mori K, Numata M, Koyama K, Kitayama M (2010) Effects of temperature and water regimes on flavonoid contents and composition in the skin of red-wine grapes. J Int Sci Vigne Vin special issue Macrowine 43:75-80 |
| 18 | Koyama K, Goto-Yamamoto N (2008) Bunch shading during different developmental stages affects the phenolic biosynthesis in berry skins of 'Cabernet Sauvignon' grapes. J Amer Soc Hort Sci 133:743-753 DOI |
| 19 | Koyama K, Numata M, Nakajima I, Goto-Yamamoto N, Matsumura H, Tanaka N (2014) Functional characterization of a new grapevine MYB transcription factor and regulation of proanthocyanidin biosynthesis in grapes. J Exp Bot 65:4433-4449 DOI |
| 20 | Koyama K. Ikeda H, Poudel PR, Goto-Yamamoto N (2012) Light quality affects flavonoid biosynthesis in young berries of Cabernet Sauvignon grape. Phytochem 78:54-64 DOI |
| 21 | Li S, Wang W, Gao J, Yin K, Wang R, Wang C, Petersen M, Mundy J, Qiu JL (2016) MYB75 Phosphorylation by MPK4 is required for light-induced anthocyanin accumulation in Arabidopsis. Plant Cell 28:2866-2883 DOI |
| 22 | Poudel PR, Azuma A, Kobayashi S, Koyama K, Goto-Yamamoto N (2021) VvMYBAs induce expression of a series of anthocyanin biosynthetic pathway genes in red grapes (Vitis vinifera L.). Sci Hortic 383:110121 |
| 23 | Lu Y, Hao S, Liu N, Bu Y, Yang S, Yao Y (2016) Light affects anthocyanin biosynthesis via transcriptional regulation of COP1 in the ever-red leaves of crabapple M.cv. 'Royalty'. Braz. J. Bot 39:659-667 DOI |
| 24 | Mori K, Goto-Yamamoto N, Kitayama M, Hashizume K (2007) Loss of anthocyanins in red-wine grape under high temperature. J Exp Bot 58:1935-1945 DOI |
| 25 | Poudel PR, Azuma A, Kobayashi S, Goto-Yamamoto N (2014) Coordinate induction of anthocyanin biosynthetic pathway genes by VvMYBAs. Acta Hort 1046:329-334 |
| 26 | Poudel PR, Koyama K, Goto-Yamamoto N (2020) Evaluating the influence of temperature on proanthocyanidin biosynthesis in developing grape berries (Vitis vinifera L.). Mol Biol Rep 47:3501-3510 |
| 27 | Poudel PR, Mochioka R, Beppu K, Kataoka I (2009) Influence of temperature on berry composition of interspecific hybrid wine grape 'Kadainou R-1' (Vitis ficifolia var. ganebu × V. vinifera 'Muscat of Alexandria'). J Jap Soc Hort Sci 78:169-174 DOI |
| 28 | Reid KE, Olsson N, Schlosser J, Peng F, Lund ST (2006) An optimized grapevine RNA isolation procedure and statistical determination of reference genes for real-time RT-PCR during berry development. BMC Plant Biol 6:27 |
| 29 | Sun L, Li S, Tang X, Fan X, Zhang Y, Jiang J, Liu J, Liu C (2020) Transcriptome analysis reveal the putative genes involved in light-induced anthocyanin accumulation in grape 'Red Globe' (V. vinifera L.). Gene 728:144284 |
| 30 | Terrier N, Torregrosa L, Ageorges A, Vialet S, Verries C (2009) Ectopic expression of VvMybPA2 promotes proanthocyanidin biosynthesis in grapevine and suggests additional targets in the pathway. Plant Physiol 149:1028-1041 DOI |
| 31 | Yang B, He S, Liu Y, Liu B, Ju Y, Kang D, Sun X, Fang Y (2020) Transcriptomics integrated with metabolomics reveals the effect of regulated deficit irrigation on anthocyanin biosynthesis in Cabernet Sauvignon grape berries. Food Chem 314:126170 |
| 32 | Vezzulli S, Leonardelli L, Malossini U, Stefanini M, Velasco R, Moser C (2012) Pinot blanc and Pinot gris arose as independent somatic mutation of Pinot noir. J Exp Bot 63:6359-6369 DOI |
| 33 | Walker AR, Lee E, Bogs J, McDavid DA, Thomas MR, Robinson SP (2007) White grapes arose through the mutation of two similar and adjacent regulatory genes. Plant J 49:772-785 DOI |
| 34 | Yakushiji H, Kobayashi S, Goto-Yamamoto N, Jeong ST, Mitani N, Azuma A (2006) A skin color mutation of grapevine, from black-skinned Pinot Noir to white-skinned Pinot Blanc, is caused by deletion of the functional VvmbA1 allele. Biosci Biotechnol Biochem. 70:1506-1508 DOI |
 |
Korea Institute of Science and Technology Information
Gwahangno, Yuseong-gu, Daejeon, 305-806, Korea TEL : +82-42-869-1752
Copyright (c) 2009 KISTI. All Rights Reserved. For more information mail to
webmaster
