| Literature DB >> 33866332 |
Yingzhen Yang1, José Cuenca1,2, Nian Wang1,3, Zhenchang Liang4, Honghe Sun5, Benjamin Gutierrez6, Xiaojun Xi6,7, Jie Arro6, Yi Wang4,8, Peige Fan4, Jason Londo1, Peter Cousins9, Shaohua Li4, Zhangjun Fei5,10, Gan-Yuan Zhong11.
Abstract
'Concord', the most well-known juice grape with a parentage of the North American grape species Vitis labrusca L., possesses a special 'foxy' aroma predominantly resulted from the accumulation of methyl anthranilate (MA) in berries. This aroma, however, is often perceived as an undesirable attribute by wine consumers and rarely noticeable in the common table and wine grape species V. vinifera. Here we discovered homology-induced promoter indels as a major genetic mechanism for species-specific regulation of a key 'foxy' aroma gene, anthraniloyl-CoA:methanol acyltransferase (AMAT), that is responsible for MA biosynthesis. We found the absence of a 426-bp and/or a 42-bp sequence in AMAT promoters highly associated with high levels of AMAT expression and MA accumulation in 'Concord' and other V. labrusca-derived grapes. These promoter variants, all with direct and inverted repeats, were further confirmed in more than 1,300 Vitis germplasm. Moreover, functional impact of these indels was validated in transgenic Arabidopsis. Superimposed on the promoter regulation, large structural changes including exonic insertion of a retrotransposon were present at the AMAT locus in some V. vinifera grapes. Elucidation of the AMAT genetic regulation advances our understanding of the 'foxy' aroma trait and makes it genetically trackable and amenable in grapevine breeding.Entities:
Year: 2020 PMID: 33866332 DOI: 10.1038/s41438-020-0304-6
Source DB: PubMed Journal: Hortic Res ISSN: 2052-7276 Impact factor: 6.793