2-Methoxy-3-isobutylpyrazine in grape berries and its dependence on genotype

2-Methoxy-3-isobutylpyrazine (MIBP) contributes a bell pepper aroma to many grape cultivars and has a reported aroma threshold of ～2 ng L(-1) in water. The purpose of this study was twofold: (1) develop a procedure using headspace solid phase micro-extraction combined with GC-MS in the selected ion monitoring mode (HS-SPME-GC-MS-SIM) for analysis of MIBP in grape berries, and (2) determine the location of MIBP biosynthesis in grapevines by approach grafting clusters of Vitis vinifera L. cvs Cabernet Sauvignon and Muscat blanc onto each other. The soluble solids and pH of the grape juice/homogenate matrix from different grape berry developmental stages influenced the method precision; therefore, quantification via the method of standard addition was used. Using our developed method, the limit of detection (LOD) and limit of quantitation (LOQ) of MIBP were 0.1 ng L(-1) and 2 ng L(-1), respectively, measured in a model juice and non-MIBP containing Chardonnay juice. Spiked recoveries averaged between 91% and 112% in Cabernet Sauvignon and Pinot noir homogenates and the overall relative standard deviation was less than 10%. The method was used to analyze MIBP in 29 grape cultivars and in fruit from clusters grafted to Cabernet Sauvignon or Muscat vines. Quantifiable levels were found only in Cabernet franc, Cabernet Sauvignon, Merlot, Sauvignon blanc and Semillon, providing information on the genetic connection for the occurrence of MIBP in grapes. No MIBP was detected in the berries of Muscat blanc clusters grafted onto Cabernet Sauvignon vines when sampled at fruit maturity. MIBP was detected in all berries of Cabernet Sauvignon regardless the graft configuration. The data indicate that MIBP or its precursors originate in the berry and its formation depends upon grape genotype.     

Organ-specific transcription of putative flavonol synthase genes of grapevine and effects of plant hormones and shading on flavonol biosynthesis in grape berry skins

In order to investigate the control mechanism of flavonol biosynthesis of grapevine, we obtained five genomic sequences (FLS1 to FLS5) of putative flavonol synthase genes from Vitis vinifera cv. Cabernet Sauvignon. The mRNA of five FLSs accumulated in flower buds and flowers, while the mRNA of FLS2, FLS4, and FLS5 accumulated in small berry skins and then decreased toward veraison. At the ripening stage, the mRNA of only FLS4 and FLS5 accumulated again. This change in mRNA accumulation did not contradict the flavonol accumulation in the berry skins. Shading of the berries completely inhibited the increase in flavonol content and mRNA accumulation of FLS4, but did not affect the mRNA accumulation of FLS5. The effects of light and plant hormones on flavonol accumulation were different from those on anthocyanin accumulation. Thus flavonol biosynthesis appears to be under a different control system from that of anthocyanin biosynthesis.     

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

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.     

根瘤蚜侵染对不同抗性葡萄品种根系超微结构的影响

【目的】探讨不同抗性葡萄品种对葡萄根瘤蚜Daktulosphaira vitifolia Fitch侵染后的组织结构响应。【方法】以砧木140Ru (Vitis rupestris×V. berlandieri)和栽培品种赤霞珠Vitis vinifera cv. Cabernet Sauvignon离体三级根及140Ru盆栽苗为试材接种根瘤蚜卵, 接种两周后取刺吸位点组织作超薄切片并观察超微结构变化, 取盆栽140Ru不同时期根结测定多酚含量。【结果】超微结构显示, 砧木140Ru根系周皮层最外层细胞壁的厚度（1 031.25 nm）及周皮层细胞层数（6～7层）显著高于赤霞珠品种的周皮层细胞厚度（543.75 nm）及层数（3～4层）, 140Ru根系韧皮部酚类物质含量比赤霞珠高出35％; 侵染后, 砧木140Ru周皮层细胞第3层以内的细胞壁加厚并积聚大量的多酚类物质, 140Ru葡萄新根被根瘤蚜侵染后多酚含量呈升高趋势, 在接种20 d时是对照的2.4倍; 赤霞珠粗根被根瘤蚜侵染后薄壁细胞中细胞质变浓, 出现大量淀粉粒, 线粒体及内质网数量增多。【结论】砧木140Ru的周皮层组织结构较赤霞珠不利于根瘤蚜口针穿刺, 被根瘤蚜侵染后发生了不利于根瘤蚜侵染取食的变化。     

Berry composition and climate: responses and empirical models

Climate is a strong modulator of berry composition. Accordingly, the projected change in climate is expected to impact on the composition of berries and of the resultant wines. However, the direction and extent of climate change impact on fruit composition of winegrape cultivars are not fully known. This study utilised a climate gradient along a 700 km transect, covering all wine regions of Western Australia, to explore and empirically describe influences of climate on anthocyanins, pH and titratable acidity (TA) levels in two or three cultivars of Vitis vinifera (Cabernet Sauvignon, Chardonnay and Shiraz). The results showed that, at a common maturity of 22° Brix total soluble solids, berries from the warmer regions had low levels of anthocyanins and TA as well as high pH compared to berries from the cooler regions. Most of these regional variations in berry composition reflected the prevailing climatic conditions of the regions. Thus, depending on cultivar, 82–87 % of TA, 83 % of anthocyanins and about half of the pH variations across the gradient were explained by climate-variable-based empirical models. Some of the variables that were relevant in describing the variations in berry attributes included: diurnal ranges and ripening period temperature (TA), vapour pressure deficit in October and growing degree days (pH), and ripening period temperatures (anthocyanins). Further, the rates of change in these berry attributes in response to climate variables were cultivar dependent. Based on the observed patterns along the climate gradient, it is concluded that: (1) in a warming climate, all other things being equal, berry anthocyanins and TA levels will decline whereas pH levels will rise; and (2) despite variations in non-climatic factors (e.g. soil type and management) along the sampling transect, variations in TA and anthocyanins were satisfactorily described using climate-variable-based empirical models, indicating the overriding impact of climate on berry composition. The models presented here are useful tools for assessing likely changes in berry TA and anthocyanins in response to changing climate for the wine regions and cultivars covered in this study.     

ABA Initiates Anthocyanin Production in Grape Cell Cultures

Abscisic acid (ABA) has a well-known positive impact on grape ripening, especially color development, but its role in the initiation of anthocyanin synthesis remains unclear. To elucidate this point, ABA treatment was applied to a simple Vitis vinifera model, consisting of Cabernet Sauvignon cell suspensions that do not spontaneously produce anthocyanins under laboratory conditions. Endogenous ABA levels, the expression of some genes in the upstream part of the anthocyanin pathway, and anthocyanin content were determined. Exogenous ABA treatment sharply increased cell ABA content and induced both structural and regulatory genes involved in anthocyanin production. These changes were promptly detected, as early as 6 h after ABA treatment, whereas anthocyanin production was observed only after 4 days in culture. These results demonstrate that ABA promotes anthocyanin synthesis in grape cell culture.     

Preference and performance responses of California grape phylloxera to different Vitis rootstocks

Laboratory experiments on host preference and performance were simultaneously conducted with Cabernet Sauvignon, AXR#1, and 5C Vitis rootstocks for the California biotypes A and B grape phylloxera. Preference bioassays recorded over a 3-day period indicated that phylloxera exhibit differential host choice. AXR#1 is antixenotic to biotype A, and 5C is antixenotic to both phylloxera biotypes. Preferences observed with biotype B for Cabernet Sauvignon and AXR#1 were not statistically different, whereas biotype A had shown a significant preference for Cabernet Sauvignon. On 5C the preferences scored were significantly lower than on either of the other two rootstocks, and there was no significant difference beetween biotypes. Performance bioassays recorded over a 29-day period indicated that survival, development, and reproduction of both biotypes were affected by Vitis rootstock. Both biotypes were unable to survive or develop on 5C suggesting the presence of antibiotic resistance in 5C against these phylloxera biotypes. The antibiotic effects observed with AXR#1 against biotype A were expressed as significant reductions in survival, development, and reproduction. Performance of biotype B on AXR#1 was similar to its performance on Cabernet Sauvignon. For both AXR#1 and 5C rootstocks and both phylloxera biotypes A and B the antibiotic mechanism was considerably stronger than the antixenotic mechanism. This research indicated that host preference and performance are positively correlated in grape phylloxera with the rootstocks and phylloxera biotypes tested.     

Flavonoid biosynthesis-related genes in grape skin are differentially regulated by temperature and light conditions

Temperature and light are important environmental factors that affect flavonoid biosynthesis in grape berry skin. However, the interrelationships between temperature and light effects on flavonoid biosynthesis have not been fully elucidated at the molecular level. Here, we investigated the effects of temperature and light conditions on the biosynthesis of flavonoids (anthocyanins and flavonols) and the expression levels of related genes in an in vitro environmental experiment using detached grape berries. Sufficient anthocyanin accumulation in the grape skin was observed under a low temperature (15?°C) plus light treatment, whereas high temperature (35?°C) or dark treatment severely suppressed anthocyanin accumulation. This indicates that the accumulation of anthocyanins is dependent on both low temperature and light. qRT-PCR analysis showed that the responses of three MYB-related genes (VlMYBA1-3, VlMYBA1-2, and VlMYBA2) to temperature and light differed greatly even though the products of all three genes had the ability to regulate anthocyanin biosynthesis pathway genes. Furthermore, the expression levels of other MYB-related genes and many flavonoid biosynthesis pathway genes were regulated independently by temperature and light. We also found that temperature and light conditions affected the anthocyanin composition in the skin through the regulation of flavonoid biosynthesis pathway genes. Our results suggest that low temperature and light have a synergistic effect on the expression of genes in the flavonoid biosynthesis pathway. These findings provide new information about the relationships between environmental factors and flavonoid accumulation in grape berry skin.     

Influence of UV-B irradiation on the carotenoid content of Vitis vinifera tissues

The carotenoid content was examined in leaf and berry tissues of grapevines (cv. Cabernet Sauvignon) grown either under ambient conditions or under a polyester film to reduce UV light by 98%. Total carotenoids in leaves were less in vines grown under the UV screen. Levels of beta-carotene decreased with berry development around veraison. This effect was more pronounced in vines grown under reduced UV light. The lutein content of berries appeared to remain relatively constant with berry development, but levels were decreased under the UV screen. These observations are important for the wine industry because of the biosynthetic link between carotenoids and wine flavour and aroma compounds.     

Differences in nutritional quality of parts of Vitis vinifera berries affect fitness of the European grapevine moth

The European grapevine moth, Lobesia botrana (Denis & Schiffermüller) (Lepidoptera: Tortricidae), is a major grapevine pest in Europe. The larva is polyphagous and able to develop on more than 25 plant species, several of them being more suitable than Vitaceae for the fitness of L. botrana. Larvae normally eat the pulp of the berry, but may also consume the seeds according to the development stage of the berry and the larval density per bunch. Understanding the effect on individual fitness of such feeding behaviour is important to assess how suitable the different berry tissues are for this insect. We offered to the larvae either entire berries, seeds, or pulp with skin of the variety Vitis vinifera cv. ‘Cabernet Sauvignon’ as larval food in order to assess several life history traits from egg hatching to adult death. Two control groups were raised on semisynthetic diets, offering a low (no plant material) or a higher (with corn flour) nutritive value medium. The larvae performed differently when fed on diets containing different parts of berries. The larvae fed on a diet containing grape berry seeds had a prolonged development time and showed higher mortality. The females emerging from these larvae had a lower fecundity and mating success than the females emerging from larvae fed on diets containing other parts of the berries. However, their longevity was greater in comparison to the other groups. We conclude that seeds of Cabernet Sauvignon are not toxic to larvae but affect the reproductive life history traits in L. botrana.     

单氰胺对葡萄休眠过程中冬芽水分和碳水化合物的影响

以酿酒葡萄品种'赤霞珠'和'霞多丽'为材料,对其冬芽休眠进程和休眠过程中冬芽水分和碳水化合物含量的变化进行分析.结果表明,(1)在陕西杨陵地区气候条件下,'霞多丽'、'赤霞珠'分别在12月20日和1月9日达到深度休眠,随后开始休眠解除阶段.(2)在芽休眠过程中,两个品种冬芽的总水分含量、自由水含量和淀粉含量均随休眠的加深而降低,随休眠的解除而增加,而冬芽的束缚水含量、束缚水/自由水比值、可溶性糖含量均在休眠加深阶段持续上升,在休眠解除阶段逐渐降低.(3)单氰胺处理后,两品种冬芽中自由水含量显著增加,束缚水的比例同时显著降低,且'赤霞珠'的变化幅度大于'霞多丽',但其总水分、可溶性糖和淀粉等含量在休眠过程中无显著变化.(4)葡萄冬芽中的水分含量及存在状态、可溶性糖含量和淀粉含量的变化与其休眠进程密切相关;单氰胺处理能够增加冬芽自由水含量,降低其束缚水含量,从而有效打破葡萄休眠.     

Enzymes of starch metabolism in leaves and berries of Vitis vinifera

Leaves of Vitis vinifera L., cv. Cabernet Sauvignon contained 2.0 mg of starch per g fresh weight, whereas young green berries and maturing grape berries contained less than 0.03 mg of starch, despite the presence of abundant substrates (reducing sugars and sucrose) in berries for starch synthesis. the activities of several enzymes likely to be involved in starch synthesis were determined in extracts of berries and leaves. Fractionation procedures resulted in final recoverable ADPglucose-starch glucosyltransferase activity which was 2–3 times the activity measured in crude extracts of leaves. Compared to leaves, berries contained low activities of ADPglucose-starch glucosyltransferase and ADPglucose pyrophosphorylase. These enzymes increased only 2- to 3-fold from young to maturing berries. ADPglucose-starch glucosyltransferase activity in the absence of added primer was found in leaf extracts but not in berry extracts. The activities of UDP-glucose pyrophosphorylase, phosphorylase and amylase were comparable in both leaves and berries and increased 6- to 7-fold during berry development. The low activities of ADPglucose-starch glucosyltransferase and ADPglucose pyrophosphorylase probably account for the paucity of starch in grape berries.     

Abscisic Acid Sprays Significantly Increase Yield per Plant in Vineyard-Grown Wine Grape (<Emphasis Type="Italic">Vitis vinifera</Emphasis> L.) cv. Cabernet Sauvignon Through Increased Berry Set with No Negative Effects on Anthocyanin Content and Total Polyphenol Index of Both Juice and Wine

In many cultivars of Vitis vinifera periods of mild water stress during ripening are thought to increase grape quality for winemaking, even though yields may be negatively affected. Because abscisic acid (ABA) is involved in the signaling of water stress in plants, we examine the effects of the ABA signal being given without the concomitant water stress. ABA at 250 mg l⁻¹ was sprayed weekly or biweekly from bud-burst until harvest onto the leaves of vineyard-grown plants of cv. Cabernet Sauvignon. For ABA-treated plants berry yield per bunch and per plant was significantly increased (1.5- to 2.0-fold) across three consecutive harvests (2005 through 2007). Number of berries per bunch and per plant was the primary basis for the significant crop increases, although bunches per plant also tended to increase (1.1- to 1.3-fold) across all three harvests. Other parameters assessed included number of internodes, shoot length, leaf area, leaf water potential at midday, photosynthesis, and stomatal conductance. These parameters showed no significant change with ABA treatment, although shoot length tended to be reduced, as was leaf area relative to control plants. The significantly increased fruit yields were thus accomplished without accompanying increases in leaf photosynthesis and leaf areas. Juice at harvest had equal levels of sugars (Brix) and somewhat higher levels of anthocyanins and total polyphenols relative to control values. The two latter trends continued for the resultant wine across two vintage years. In conclusion, three seasons of experimental trials have demonstrated that ABA application can significantly enhance yield per plant in the field-grown grape (cv. Cabernet Sauvignon) by favoring increased berry set without diminishing the quality of the fruit for winemaking use.