A Basic Peroxidase Isoenzyme, Marker of Resistance Against Plasmopara viticola in Grapevines, is Induced by an Elicitor from Trichoderma viride in Susceptible Grapevines

The constitutive expression of basic peroxidase isoenzymes in the Plasmopara viticola -resistant ( Vitis vinifera × Vitis rupestris) × Vitis riparia crossing and in the P. viticola -susceptible V. vinifera parent species was studied. The results illustrate that both leaves and stems of the ( V. vinifera × V. rupestris) × V. riparia crossing showed the differential expression of a basic peroxidase isoenzyme B₃ (pl = 8.9), this being almost completely absent from the P. viticola -susceptible V. vinifera parent species. To test whether the basic peroxidase isoenzyme B₃ may be considered as a molecular marker of disease resistance in Vitis spp., suspension cell cultures derived from the P. viticola -susceptible V. vinifera parent species were treated with an elicitor (cellulase Onoztika R-10) from the soil fungus Trichoderma viride , a specific and well-known elicitor of disease resistance reactions in grapevines. The results showed that treatment with the elicitor induces, simultaneously with the activation of the disease resistance mechanism, the appearance of B₃ in the cell cultures. These results suggest that the basic peroxidase isoenzyme B₃ may be considered as a marker of disease resistance in Vitis species since it is present in the P. viticola -resistant ( V. vinifera × V. rupestris) × V. riparia hybrid and is induced by the elicitor Onozuka R-10 in cell cultures of the P. viticola -susceptible Vitis vinifera parent species. This conclusion is supported by the presence of this isoenzyme in other resistant and its absence in other susceptible Vitis spp.     

Chloroplast microsatellite polymorphisms in Vitis species.

The use of consensus chloroplast microsatellites primers for dicotyledonous chloroplast genomes revealed the existence of intra and interspecific length variation within the genus Vitis. Three chloroplast microsatellite loci were found to be polymorphic in samples of Vitis vinifera, Vitis berlandieri, Vitis riparia, and Vitis rupestris out of a total of 10 consensus primer pairs tested. These polymorphisms were always due to a variable number of mononucleotide residues within A and (or) T stretches in the amplified regions. Chloroplast microsatellite polymorphisms were used to demonstrate the maternal inheritance of chloroplast in V. vinifera and to characterise the chloroplast haplotypes present in wine grape cultivars of this species grown in Spain and Greece. The different distribution of haplotype frequencies in the two ends of the Mediterranean growth area suggests the existence of independent domestication events for grapevine.     

Adaptative response of Vitis root to anoxia

The effect of anoxia on the energy economy of root cells was studied by measuring heat production, ethanol and ATP production, K(+) fluxes and electrical activity in two Vitis species, V. riparia and V. rupestris, that differ in their tolerance to anoxia. Anoxia triggered a marked decrease of metabolic activity (measured by microcalorimetry) and of ATP levels in both species. In V. riparia after the first 2 h of anoxia, the decrease in the rate of heat production was not associated with a further significant decrease in ATP content, whereas in V. rupestris the ATP level continued to decrease until very low values were reached. The concomitant increase in the rate of ethanol production did not compensate for the decreased aerobic ATP supply. In V. rupestris, anoxia typically led to energy deficit and ATP imbalance, together with the subsequent disruption of ion homeostasis and cell death. In V. riparia, the strong decrease in K(+) membrane permeability together with the fast down-regulation of the electrical signals allowed the cells to avoid severe ion imbalances during prolonged anoxic episodes.     

Identification of microsatellite sequences in Vitis riparia and their applicability for genotyping of different Vitis species.

A Vitis riparia genomic library was screened for the presence of (GA)n simple sequence repeats (SSR) and 18 primer pairs yielding amplification products of the expected size were designed. Heterologous amplification with the primer pairs in related species (V. rupestris, V. berlandieri, V. labrusca, V. cinerea, V. aestivalis, V. vinifera, and interspecific hybrids) was successful in most primer-species combinations. Therefore, the new markers are applicable to the genotyping of a range of Vitis species. Variations in the SSR flanking sequence were detected between and within the species. The degree of polymorphism and performance of the markers were determined in up to 120 individuals of V. vinifera. Four of fifteen alleles per locus were detected and expected heterozygosity ranged between 0.37 and 0.88. Null alleles were shown to be present at two loci by a lack of heterozygous individuals and by transmission of the null alleles in a controlled cross. Regular Mendelian inheritance is indicated for all but one loci by a preliminary segregation analysis in 36 offspring. Thirteen of the markers were found suitable for the genotyping of grapevines (V. vinifera).     

Performance of Hungarian phylloxera strains on Vitis riparia rootstocks

Abstract: Vitis riparia and other rootstocks were used in excised root- and plantlet culture-bioassays to test the performance of Hungarian colonies of phylloxera. Phylloxera colonies from America and Germany were used as comparisons. The Hungarian colonies had a higher level of performance on V. riparia in contrast with the American and German colonies. Plantlet assays found the performance of a Hungarian strain on V. riparia equivalent to that on Vitis vinifera , AXR#1 and 41B root types. In contrast, the American colonies did not survive on V. riparia . Collections of Hungarian gallicole colonies from cultivated and escaped rootstock leaves were assayed using excised roots of the rootstock Teleki 5C. Results indicated that performance of phylloxera collected from feral rootstocks was higher than performance of colonies collected from cultivated rootstock leaves. Lastly, when the attached roots of field-grown V. riparia vines were damaged by girdling, phylloxera performance was much higher than on undamaged roots, suggesting cultural conditions can increase the risk of related vine damage. These laboratory and field results show that V. riparia is capable of supporting phylloxera on its roots. Escaped, feral vines may select for phylloxera with increased virulence on roots. This is of significance in regions such as Hungary where feral rootstock is common.     

Effect of hypoxic acclimation on anoxia tolerance in Vitis roots: response of metabolic activity and K+ fluxes

The effect of a hypoxic pre-treatment (HPT) on improving tolerance to prolonged anoxia conditions in two contrasting Vitis species (V. riparia, anoxia tolerant; V. rupestris, anoxia sensitive) was evaluated. The energy economy of root cells was studied by measuring heat production, the activity of pyruvate decarboxylase (PDC) and alcohol dehdrogenase (ADH), ethanol and ATP production, and K(+) fluxes. The results showed that HPT is an effective tool in order to maintain a sustainable metabolic performance in both the species under anoxia conditions, especially in sensitive species such as V. rupestris. Our results showed that the improved tolerance was mainly driven by: (i) an enhanced activity of key enzymes in alcohol fermentation (ADC and PDC); (ii) the capability to maintain a higher level of respiration, evidenced by a lesser decrease in heat development and ATP production; and (iii) the maintenance of a better ion homeostasis (highlighted by measurement of K(+) fluxes) and K(+) channel functionality.     

Genetic Diversity in Wild Grapes Native to China Based on Randomly Amplified Polymorphic DNA (RAPD) Analysis

The use of the RAPD technique was investigated on a set of 73 genotypes of 18 wild grape species native to China, and one interspecific hybrid, seven Vitis vinifera L. cultivars, one rootstock cultivar and one strain of V. riparia L. Genetic diversity among these grapes was investigated based on RAPD analysis. The screening of 280 decamer oligonucleotides allowed the selection of 20 primers used for the analysis. A total of 191 RAPD markers were produced from the 20 selected primers. Relationships among the 83 clones or accessions based on their genetic distances were clustered using unweighted pair-group method arithmetic average (UPGMA) analysis in a dendrogram. Twenty-two clusters which fortunately adapted to 22 grape species level were clearly resolved on the dendrogram. The 18 wild grape species native to China were grouped into ten subclusters. The largest distance was found between V. riparia L., V. vinifera L., interspecific hybrid ( V. vinifera L.× V. larbrusca L.) and the wild grapes native to China. Among the wild grapes native to China, the largest distance was found between V. hancockii Hance and the other wild species. V. qinlingensis P.C.He was the second. Large genetic variation occurred among the different flower-type clones in one species.     

Consequences of insect herbivory on grape fine root systems with different growth rates

Herbivory tolerance has been linked to plant growth rate where plants with fast growth rates are hypothesized to be more tolerant of herbivory than slower-growing plants. Evidence supporting this theory has been taken primarily from observations of aboveground organs but rarely from roots. Grapevines differing in overall rates of new root production, were studied in Napa Valley, California over two growing seasons in an established vineyard infested with the sucking insect, grape phylloxera (Daktulosphaira vitifoliae Fitch). The experimental vineyard allowed for the comparison of two root systems that differed in rates of new root tip production (a 'fast grower', Vitis berlandieri x Vitis rupestris cv. 1103P, and a slower-growing stock, Vitis riparia x Vitis rupestris cv. 101-14 Mgt). Each root system was grafted with a genetically identical shoot system (Vitis vinifera cv. Merlot). Using minirhizotrons, we did not observe any evidence of spatial or temporal avoidance of insect populations by root growth. Insect infestations were abundant throughout the soil profile, and seasonal peaks in phylloxera populations generally closely followed peaks in new root production. Our data supported the hypothesis that insect infestation was proportional to the number of growing tips, as indicated by similar per cent infestation in spite of a threefold difference in root tip production. In addition, infested roots of the fast-growing rootstock exhibited somewhat shorter median lifespans (60 d) than the slower-growing rootstock (85 d). Lifespans of uninfested roots were similar for the two rootstocks (200 d). As a consequence of greater root mortality of younger roots, infested root populations in the fast-growing rootstock had an older age structure. While there does not seem to be a trade-off between potential growth rate and relative rate of root infestation in these cultivars, our study indicates that a fast-growing root system may more readily shed infested roots that are presumably less effective in water and nutrient uptake. Thus, differences in root tip production may be linked to differences in the way plants cope with roots that are infested by sucking insects.     

葡萄初级核心种质资源MybA基因型分析

探究MybA类基因在不同类型葡萄品种中的分布,可为葡萄品种鉴定,以及有色葡萄育种的亲本选择提供依据。本研究以欧亚种、欧美杂种、法美杂种、山欧杂种以及美洲种在内的118个葡萄初级核心种质为材料,对其MybA基因型进行分析。结果表明:欧亚种及其杂种普遍具有VvmybA1基因的等位基因VvmybA1a,仅10个欧亚种及其杂种品种中没有检测到VvmybA1a基因;欧亚种、欧美杂种以及法美杂种中普遍同时具有VvmybA1、VvmybA2和VvmybA3基因,仅少数品种未检测到VvmybA2或VvmybA3基因;山欧杂种中北玫、公酿1号和熊岳白葡萄同时具有VvmybA1、VvmybA2和VvmybA3基因,北醇和北红中仅检测到VvmybA1和VvmybA3基因;仅在具有美洲种血缘的葡萄品种中检测到VlmybA2基因,而5个认为是美洲种的品种未检测到VlmybA2基因,且检测到了欧亚种特有的VvmybA1a等位基因,推测它们为含美洲种血缘较多的欧美杂种,而非纯美洲种。     

Morphological, physiological and dormancy responses of three Vitis genotypes to short photoperiod

Dormancy is initiated by decreasing photoperiod or temperature in many woody species. We investigated the effect of photoperiod on the induction of dormancy in Vitis . Three genotypes ( Vitis riparia, Vitis spp. cv. Seyval Blanc and a F₁ hybrid [ V. riparia ×'Seyval Blanc']) were monitored for morphological and physiological dormancy responses during 6 weeks of short (8 h, SD) and long (15 h, LD) photoperiod treatments. V. riparia became dormant after 4 weeks of SD as indicated by several morphologic changes. Cane elongation ceased, terminal meristems began to abscise, and primary dormant buds failed to grow after pruning and returning to LD. There was also a pronounced decrease in bud water content in response to SD. 'Seyval Blanc', in contrast, maintained actively growing meristems with no terminal abscission throughout SD treatment, and little delay in budbreak after pruning and returning to LD. Moderate decreases in bud water content were observed after 6 weeks of SD treatment in 'Seyval Blanc'. F₁ plants displayed intermediate responses to SD treatment, but more closely paralleled that of the V. riparia parent. Growth cessation, terminal meristem abscission and absence of budbreak occurred in the F₁ after 6 weeks of SD. Ten percent discontinuous SDS-PAGE protein profiles demonstrated SD-induced changes in polypeptide accumulation. A 19-kDa polypeptide increased 2–3-fold in response to SD in all genotypes. A 17-kDa polypeptide appeared at 4 weeks of SD, and represented 2.5–5% of all proteins visualized on the gels by 6 weeks of SD. These increases in polypeptides appear to be a general response to SD. This experimental system with heritable morphological and physiological variations in SD responsiveness will be valuable for studying dormancy initiation and maintenance in Vitis .     

Rapid decline in nitrate uptake and respiration with age in fine lateral roots of grape: implications for root efficiency and competitive effectiveness

Changes in function as an individual root ages has important implications for understanding resource acquisition, competitive ability and optimal lifespan. Both nitrate uptake and respiration rates of differently aged fine roots of grape (Vitis rupestris x V. riparia cv. 3309 C) were measured. The resulting data were then used to simulate nitrate uptake efficiency and nutrient depletion as a function of root age. Both nitrate uptake and root respiration declined remarkably quickly with increasing root age. The decline in both N uptake and root respiration corresponded with a strong decline in root N concentration, suggesting translocation of nitrogen out of the roots. For simulations where no nutrient depletion occurs at the root surface, daily uptake efficiency was maximal at root birth and lifetime nitrate uptake efficiency slowly increased as the roots aged. Simulations of growth of roots into unoccupied soil using a solute transport model indicated the advantage of high uptake capacity in new roots under competitive conditions where nitrate availability is very transitory.     

Molecular genetic diversity of the French-American grapevine hybrids cultivated in North America.

French-American hybrid grapevines are most popular in eastern and mid-western North America: they are hardy cultivars derived from crosses between the European Vitis vinifera and American wild vines. The aim of this study was to characterize their genetic background using 6 microsatellite (SSR) markers and a set of 33 diagnostic RAPD markers. The latter were reproducible with different PCR thermal cyclers. Two SSR loci were found to be synonymous, VrZAG47 and VVMD27. The DNA profile frequencies estimated for each cultivar were much lower with multi-locus SSR data than that obtained from multi-fragment RAPD data. There was no significant correlation between the multi-locus DNA profile frequencies derived from SSRs and those from RAPDs. Estimates of genetic diversity derived from SSRs were generally higher and the average similarity between cultivars was generally lower than values reported for subgroups of V. vinifera, in accordance with expectations for hybrid cultivars. The phenetic relationships depicted by UPGMA (unweighted pair-group method with arithmetic averaging) and neighbor-joining analyses of microsatellite data were congruent and, to a large extent, in agreement with the known pedigree or history of each cultivar. A major dichotomy was observed between one group where the known genetic background was dominated by the North American Vitis riparia and Vitis labrusca, and another one where the genetic background was dominated by the European V. vinifera. Two Kulhmann varieties thought to be synonymous were found to be different, though closely related.     

Importance of internal hydraulic redistribution for prolonging the lifespan of roots in dry soil

Redistribution of water within plants could mitigate drought stress of roots in zones of low soil moisture. Plant internal redistribution of water from regions of high soil moisture to roots in dry soil occurs during periods of low evaporative demand. Using minirhizotrons, we observed similar lifespans of roots in wet and dry soil for the grapevine 'Merlot' (Vitis vinifera) on the rootstock 101-14 Millardet de Gramanet (Vitis riparia x Vitis rupestris) in a Napa County, California vineyard. We hypothesized that hydraulic redistribution would prevent an appreciable reduction in root water potential and would contribute to prolonged root survivorship in dry soil zones. In a greenhouse study that tested this hypothesis, grapevine root systems were divided using split pots and were grown for 6 months. With thermocouple psychrometers, we measured water potentials of roots of the same plant in both wet and dry soil under three treatments: control (C), 24 h light + supplemental water (LW) and 24 h light only (L). Similar to the field results, roots in the dry side of split pots had similar survivorship as roots in the wet side of the split pots (P = 0.136) in the C treatment. In contrast, reduced root survivorship was directly associated with plants in which hydraulic redistribution was experimentally reduced by 24 h light. Dry-side roots of plants in the LW treatment lived half as long as the roots in the wet soil despite being provided with supplemental water (P < 0.0004). Additionally, pre-dawn water potentials of roots in dry soil under 24 h of illumination (L and LW) exhibited values nearly twice as negative as those of C plants (P = 0.034). Estimates of root membrane integrity using electrolyte leakage were consistent with patterns of root survivorship. Plants in which nocturnal hydraulic redistribution was reduced exhibited more than twice the amount of electrolyte leakage in dry roots compared to those in wet soil of the same plant. Our study demonstrates that besides a number of ecological advantages to protecting tissues against desiccation, internal hydraulic redistribution of water is a mechanism consistent with extended root survivorship in dry soils.     

葡萄属植物叶片显微和超微结构观察

利用光学显微镜和透射电镜,对葡萄属(Vitis L.)15种、1亚种和4栽培品种植物的叶片显微和超微结构进行了观察研究。结果显示:(1)东亚种群中桦叶葡萄的叶片总厚度和各组织厚度最大;北美种群的河岸葡萄和沙地葡葡叶片总厚度、上表皮厚度、栅栏组织厚度、海绵组织厚度和下表皮厚度较大,但叶片组织紧密度最小。(2)各种类间栅栏组织中叶绿体数目均多于海绵组织,且刺葡萄、桦叶葡萄、葛藟葡萄和秋葡萄叶肉细胞中叶绿体数目最多,北红、蘡薁、网脉葡萄和菱叶葡萄叶片中叶绿体数目最少,巨峰和桦叶葡萄叶绿体中含有大量的淀粉粒,桦叶葡萄、网脉葡萄、秋葡萄、葛藟葡萄、刺葡萄和华东葡萄含有较多的嗜锇颗粒。研究表明,中国野生葡萄的许多种类在叶片组织紧密度、叶绿体数量、淀粉粒数量、嗜锇颗粒数量方面均高于北美种群的河岸葡萄和沙地葡萄,具有更高的结构抗性基础。     

Microelectrode ion and O2 fluxes measurements reveal differential sensitivity of barley root tissues to hypoxia

Hypoxia-induced changes in net H+, K+ and O2 fluxes across the plasma membrane (PM) of epidermal root cells were measured using the non-invasive microelectrode ion flux measurement (MIFE) system in elongation, meristem and mature root zones of two barley (Hordeum vulgare L.) varieties contrasting in their waterlogging (WL) tolerance. The ultimate goal of this study was to shed light on the mechanisms underlying effects of WL on plant nutrient acquisition and mechanisms of WL tolerance in barley. Our measurements revealed that functionally different barley root zones have rather different O2 requirements, with the highest O2 influx being in the elongation zone of the root at about 1 mm from the tip. Oxygen deprivation has qualitatively different effects on the activity of PM ion transporters in mature and elongation zones. In the mature zone, hypoxic treatment caused a very sharp decline in K+ uptake in the WL sensitive variety Naso Nijo, but did not reduce K+ influx in the WL tolerant TX9425 variety. In the elongation zone, onset of hypoxia enhanced K+ uptake from roots of both cultivars. Pharmacological experiments suggested that hypoxia-induced K+ flux responses are likely to be mediated by both K(+) -inward- (KIR) and non-selective cation channels (NSCC) in the elongation zone, while in the mature zone K(+) -outward- (KOR) channels are the key contributors. Overall, our results suggest that oxygen deprivation has an immediate and substantial effect on root ion flux patterns, and that this effect is different in WL-sensitive and WL-tolerant cultivars. To what extent this difference in ion flux response to hypoxia is a factor conferring WL tolerance in barley remains to be answered in future studies.