Root transcriptome reveals responses to plastic film mulching and grass cover in wine grape 'Cabernet Sauvignon' root and berry

Rui Wang, Quan Sun, Xu Xing
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引用次数: 3

Abstract

This study was designed to investigate the influence of grass and film mulching on grape (V. vinifera) fruit quality and root transcriptome. The groundcovers (plastic film and seeds of herba portulacae and E. humifusa Willd) were set or sawn on the ground under wine grape plants ('Cabernet Sauvignon'). Test plots in the control group were treated with clean tillage. Properties of plant biochemicals under covers and grape berry quality were determined after two years. RNA-seq was analyzed for grape roots under different treatments. E. humifusa Willd cover increased plant total N and P; and film mulching increased plant total P and decreased plant total K. Herba portulacae cover decreased berry tannin and increased anthocyanin, soluble solid and titratable acid; E. humifusa Willd cover increased anthocyanin, soluble solid and titratable acid. Film mulching increased the contents of berry total phenols, soluble solid, and decreased titratable acid significantly in comparison with clean tillage. Root RNA-seq showed that there were 1, 0, and 42 differently expressed genes (DEGs) in Herba portulacae, E. humifusa Willd and film cover, compared with clean tillage, respectively. Film mulching increased the expression of root high-affinity nitrate transporter 2.1 (NRT2.1), NRT2.4 and glutamine synthetase, which associated with 'Nitrogen metabolism', and decreased the expression of root small class I/II heat shock proteins. Plastic film mulching increased grapple quality properties via activating N metabolism. Film mulching was a more excellent mulching for improving grape quality than grass cover in Ningxia, China.
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根转录组揭示了酿酒葡萄“赤霞珠”根和浆果对塑料薄膜覆盖和草覆盖的反应
本试验旨在研究草膜覆盖对葡萄果实品质和根系转录组的影响。地被物(塑料薄膜和马蹄草和黄毛草的种子)被放置或锯在葡萄酒葡萄植物(赤霞珠)下的地面上。对照组试验田采用净耕处理。两年后测定了植物膜下生化特性和葡萄果实品质。对不同处理下葡萄根系进行RNA-seq分析。葎草野生覆盖增加了植物总氮、总磷;覆盖马齿苋使浆果单宁含量降低,花青素、可溶性固形物和可滴定酸含量增加;野豆豆覆盖花青素、可溶性固体和可滴定酸增加。覆膜较净耕显著提高了果实总酚、可溶性固形物含量,显著降低了可滴定酸含量。根rna测序结果显示,与清洁耕作相比,马齿苋、野生蒿和地膜覆盖分别有1个、0个和42个差异表达基因(deg)。覆膜增加了与氮代谢相关的根高亲和力硝酸盐转运蛋白2.1 (NRT2.1)、NRT2.4和谷氨酰胺合成酶的表达,降低了根小类I/II热休克蛋白的表达。地膜覆盖通过激活氮素代谢提高了葡萄品质。在宁夏,膜覆盖比草覆盖对葡萄品质的改善效果更好。
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