Abstract
Bud sports are infrequent changes in phenotype affecting shoots of woody perennials but the molecular basis of these mutations has rarely been identified. In this report, we show that the bronze-coloured berries of the Malian cultivar, a documented bud sport of the wine grape Cabernet Sauvignon (Vitis vinifera L.), lack anthocyanins in the subepidermal cells compared to the red/black berried Cabernet Sauvignon in which both the epidermis and several subepidermal cell layers contain anthocyanin. The Malian phenotype is correlated with an alteration in the genome indicated by a reduction of hybridisation signal using a MYBA probe. In Shalistin, a white-berried bud sport of Malian, the red allele at the berry colour locus appears to have been deleted completely. These data suggest that Malian could be a L1/L2 periclinal chimera, which gave rise to Shalistin by an invasion of epidermal cells (L1) by the mutated subepidermal cells (L2). The red grape Pinot Noir has given rise to a number of pale coloured sports, although the provenance of the extant sports is not known. We show that a clone of Pinot Blanc (white-berried) does not have a deletion of the red allele of the same dimensions as that in Shalistin, though a small deletion is a likely explanation for the altered phenotype. However, the mechanism of deletion of the red allele of the berry colour locus is a possible means by which other red to white clonal mutations of grapevines have occurred.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Aradhya MK, Dangl GS, Prins BH, Boursiquot JM, Walker MA, Meredith CP, Simon CJ (2003) Genetic structure and differentiation in cultivated grape, Vitis vinifera L. Genet Res 81:179–192
Barceló AR, Calderón AA, Zapata JM, Muñoz R (1994) The histochemical-localization of Anthocyanins in seeded and seedless grapes (Vitis vinifera). Sci Horticult 57:265–268
Barker CL, Donald T, Pauquet J, Ratnaparkhe MB, Bouquet A, Adam-Blondon AF, Thomas MR, Dry I (2005) Genetic and physical mapping of the grapevine powdery mildew resistance gene, Run1, using a bacterial artificial chromosome library. Theor Appl Genet 111:370–377
Boss PK, Thomas MR (2002) Association of dwarfism and floral induction with a grape ‘green revolution’ mutation. Nature 416:847–850
Boss PK, Davies C, Robinson SP (1996) Anthocyanin composition and anthocyanin pathway gene expression in grapevine sports differing in berry skin colour. Aust J Grape Wine Res 2:163–170
Bowers JE, Meredith CP (1997) The parentage of a classic wine grape, Cabernet Sauvignon. Nat Genet 16:84–87
Clegg MT, Durbin ML (2000) Flower color variation: a model for the experimental study of evolution. Proc Natl Acad Sci USA 97:7016–7023
Cleggett MD (2002) Malian. Plant Var J 15:85–86
Cleggett MD (2003) Variety: ‘Shalistin’. Plant Var J 16:64–65
Derman H (1947) Histogenesis of some bud sports and variegations. Am Soc Horticult Sci 50:51–73
Dickinson JP, White AG (1986) Red color distribution in the skin of Gala apple and some of its sports. New Zealand J␣Agricult Res 29:695–698
Franks T, Botta R, Thomas MR (2002) Chimerism in grapevines: implications for cultivar identity, ancestry and genetic improvement. Theor Appl Genet 104:192–199
Hocquigny S, Pelsy F, Dumas V, Kindt S, Heloir MC, Merdinoglu D (2004) Diversification within grapevine cultivars goes through chimeric states. Genome 47:579–589
Kenis K, Keulemans J (2005) Genetic linkage maps of two apple cultivars (Malus x domestica Borkh.) based on AFLP and microsatellite markers. Mol Breed 15:205–219
Kidner C, Sundaresan V, Roberts K, Dolan L (2000) Clonal analysis of the Arabidopsis root confirms that position, not lineage, determines cell fate. Planta 211:191–199
Kobayashi S, Ishimaru M, Hiraoka K, Honda C (2002) Myb-related genes of the Kyoho grape (Vitis labruscana) regulate anthocyanin biosynthesis. Planta 215:924–933
Kobayashi S, Goto-Yamamoto N, Hirochika H (2004) Retrotransposon-induced mutations in grape skin color. Science 304:982–982
Kobayashi S, Yamamoto NG, Hirochika H (2005) Association of VvmybA1 gene expression with anthocyanin production in grape (Vitis vinifera) skin—color mutants. J Jpn Soc Horticult Sci 74:196–203
Koes R, Verweij W, Quattrocchio F (2005) Flavonoids: a colorful model for the regulation and evolution of biochemical pathways. Trends Plant Sci 10:236–242
Marcotrigiano M (1997) Chimeras and variegation: patterns of deceit. Hortscience 32:773–784
McClintock B (1951) Chromosome organisation and genic expression. Cold Spring Harbor Sympos Quant Biol 16:13–47
Müller-Stoll WR (1950) Mutant colour changes in wine grapes. Der Züchter 20:288–291
Olmo HP (1976) Grapes. In: Simmonds NW (ed) Evolution of crop plants. Longman, London, pp 294–298
Regner F, Stadlbauer A, Eisenheld C, Kaserer H (2000) Genetic relationships among Pinots and related cultivars. Am J Enol Viticult 51:7–14
Schuermann D, Molinier J, Fritsch O, Hohn B (2005) The dual nature of homologous recombination in plants. Trends Genet 21:172–181
Slinkard KW, Singleton VL (1984) Phenol content of grape skins and the loss of ability to make anthocyanins by mutation. Vitis 23:175–178
Thomas MR, Scott NS (1993) Microsatellite repeats in grapevine reveal DNA polymorphisms when analyzed as Sequence-Tagged Sites (STSs). Theor Appl Genet 86:985–990
Thompson MM, Olmo HP (1963) Cytohistological studies of cytochimeric and tetraploid grapes. Am J Bot 50:901–906
Tuteja N, Singh MB, Misra MK, Bhalla PL, Tuteja R (2001) Molecular mechanisms of DNA damage and repair: progress in plants. Crit Rev Biochem Mol Biol 36:337–397
van Houwelingen A, Souer E, Spelt K, Kloos D, Mol J, Koes R (1998) Analysis of flower pigmentation mutants generated by random transposon mutagenesis in Petunia hybrida. Plant J 13:39–50
Ye GN, Soylemezoglu G, Weeden NF, Lamboy WF, Pool RM, Reisch BI (1998) Analysis of the relationship between grapevine cultivars, sports and clones via DNA fingerprinting. Vitis 37:33–38
Zykov KI (2000) Variations of flower coloration in garden rose sports. Biol Bull 27:462–470
Acknowledgements
We thank Malcolm Cleggett and Anne McLennan from Cleggett Wines, Langhorne Creek, South Australia for their careful observation and giving us the opportunity to study the Cabernet sports. We are grateful to the following CSIRO Plant Industry colleagues: Karin Sefton for technical support and Natalia Tikhomirov for help with the PFGE; Tamzin Donald, Pat Iocco and Ian Dry, who constructed the Cabernet Sauvignon BAC library; and Claire Barker for the BAC primers. This research was funded by CSIRO Plant Industry and the Grape and Wine Research and Development Corporation. The photographs in Fig. 1C and D were taken by Sole Ramazzotti. This project was supported by the Commonwealth Cooperative Research Centres Program and conducted by CSIRO and the CRC for Viticulture.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Walker, A.R., Lee, E. & Robinson, S.P. Two new grape cultivars, bud sports of Cabernet Sauvignon bearing pale-coloured berries, are the result of deletion of two regulatory genes of the berry colour locus. Plant Mol Biol 62, 623–635 (2006). https://doi.org/10.1007/s11103-006-9043-9
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11103-006-9043-9