Background and Aims:Water deficit is known to influence berry development as well as flavonoid metabolism. The aim of this study was to investigate the influence of pre-and post-veraison water stress on the proanthocyanidin and anthocyanin accumulation on berry samples selected at comparable physiological maturity, especially after veraison while avoiding sugar influence. Methods and Results: Three irrigation treatments were applied by a drip irrigation system on three rows of 30 vines from an experimental Shiraz vineyard. Pre-veraison water stress had no effect on total proanthocyanidin accumulation but increased accumulation of all anthocyanins except malvidin and p-coumaroylated derivatives, whereas post-veraison water stress enhanced the overall anthocyanin biosynthesis, particularly malvidin and p-coumaroylated derivatives. Conclusions: Pre-and post-veraison water stress affected the anthocyanin composition differently, suggesting a differential regulation of the genes involved in the last steps of anthocyanin biosynthesis pathway.
Significance of the Study:The study identifies the effect of pre-and post-veraison water stress while avoiding sugar influence on anthocyanin accumulation which could be maximised since both stresses differently impacted hydroxylation and methylation of anthocyanins.
Optimization of polyphenol extraction from grape skin, seed, and pulp was performed on Vitis vinifera L. cv. Pinot Noir, by response surface methodology using a Doehlert design. An acidified mixture of acetone/water/methanol was the best solvent for simultaneous extraction of major polyphenol groups from all berry parts, while optimum extraction times and solid-to-liquid ratios varied according to the part. The determined composition from the model agreed with independent experimental results. Analysis of the three Champagne grape varieties showed that proanthocyanidins were the major phenolic compounds in each part (60-93%). The total berry proanthocyanidin content was highest in Pinot Meunier (11 g kg(-1)) and lowest in Chardonnay (5 g kg(-1)), but Pinot Meunier pulp contained lower amounts of proanthocyanidins and phenolic acids (210 and 127 mg kg(-1) berry, respectively) than that of the other two varieties. The berry anthocyanin content was equivalent in both Pinot Noir and Pinot Meunier (632 and 602 mg kg(-1), respectively).
An extraction method on grape berry was optimized for the total flavan-3-ol content measurement with regard to the nature of the sample and the duration of its extraction. This extraction was performed for the first time on the whole pericarp. Flavan-3-ol extractions were achieved on Shiraz ripe samples of pericarp versus skin within different durations: the best results were obtained for the whole pericarp and 1 h duration. Therefore, this more convenient protocol was used to investigate the flavan-3-ol content at different stages through berry development, in parallel with the abundance of transcripts involved in their biosynthesis. Furthermore, flavan-3-ol extractions on pericarp analysis confirmed their presence in both pulp and skin. For the first time, the flavan-3-ol biosynthesis in pulp was demonstrated with both biochemical and transcriptomic analyses since the presence of leucoanthocyanidin reductase (LAR2) and anthocyanin reductase (ANR) transcripts was revealed by real-time PCR. In addition, the percentage of epigallocatechin was different in pulp and skin.
Free and glycosidically linked volatile components of four mango
cultivars of polyembryonic
(M'Bingué and Tête de Chat) and monoembryonic
(Amélie and Palmer) seed origins were examined.
Eighty-five free volatile components were identified in the four
cultivars, of which 33 are newly
described as mango volatile compounds. Terpene hydrocarbons (104,
139, 26, and 35 mg/kg of fresh
pulp, respectively) were the major volatiles of all four cultivars
(>90% of the total volatiles), the
dominant terpenes being (Z,E)-ocimenes (70%) in
Amélie and car-3-ene (80%) in the other cultivars.
Free oxygenated volatiles, mainly represented by monoterpenoids,
and C13 norisoprenoids were
present in all cultivars, the African Tête de Chat cultivar being
by far the richest (12.3 mg/kg). Of
the 29 aglycons characterized, 12 were identified for the first time as
mango bound volatiles. Again,
the Tête de Chat cultivar was the richest (2.1 mg/kg) with
monoterpenoids and C13 norisoprenoids
as the main glycosidically linked volatile compounds.
Keywords: Mango; Mangifera indica L.; volatile; polyembryonic cultivars;
monoembryonic cultivars
Mature green fruits from monoembryonic (Amélie and Palmer) and
polyembryonic (M'Bingue and
Tête de Chat) mango cultivars were initiated to ripen with
ethylene (10 ppm, 24 h) and then left to
reach full ripeness (6 days). After elimination of skin and
kernel, pulp was added with HEPES
(1/5, w/w) and centrifuged. Soluble polysaccharides were obtained
from the supernatant by
precipitation with ethanol and freeze-drying. Cell wall material
(CWM) was isolated from the pellet
by the buffered phenol procedure and further enzymatically destarched.
Soluble polysaccharides
(∼0.5−0.8%/pulp fresh weight) were essentially highly esterified
pectic substances (uronic acids
content ∼50−60%; degree of methyl esterification ∼89−97%) and
their molecular weights were
higher in the polyembryonic cvs. CWM, ∼1%/pulp fresh weight,
was mainly built of cellulose (∼20%)
and highly esterified pectic substances (uronic acids ∼13−24%;
degree of esterification ∼63−73%).
Hemicellulosic glucans were more abundant in the monoembryonic
(∼9%) than in the polyembryonic
(∼4%) cultivars.
Keywords: Mango; Mangifera indica L.; cultivars; pulp; soluble
polysaccharides; cell wall material
Flavor compounds from ripe mango puree were studied upon cross-flow microfiltration on microporous alumina membrane and subsequent concentration of the permeate by reverse osmosis. Terpene hydrocarbons, the major (~98%) volatiles of the puree, were qualitatively and quantitatively recovered in the pulpy microfiltration retentate. The more polar volatiles (~2%) were diversely affected. Most of the oxygenated terpene derivatives were also retained in the microfiltration retentate. C 13 norisoprenoids and phenols increased, likely by chemical degradation of carotenoids and phenolic acids, respectively.
The volatile compounds from leaves and peels of an interspecific citrus somatic hybrid, Citrus aurantifolia (Christm.) Swing. C Citrus paradisi Macfayden, obtained by fusion of protoplasts from lime, Citrus aurantifolia (cv. Mexican Lime) and grapefruit, Citrus paradisi (cv. Star Ruby), were extracted by pentane : ether (1 : 1) from liquid nitrogen ball-milled leaves and flavedo and examined by GC-MS in comparison to those of its parents. The hybrid quantitatively retained the ability of the lime parent to synthesize in its leaves the major monoterpene aldehydes (neral, geranial) the monoterpene alcohols (nerol, geraniol), and their acetates, and also the capacity of the grapefruit parent to produce a sesquiterpene aldehyde (ˇ-sinensal) in its leaves and nootkatone in its peel. Conversely, synthesis of most sesquiterpene hydrocarbons and long chain aliphatic aldehydes, which are present in the lime parent leaves and peel, was strongly inhibited in the hybrid, as in the grapefruit parent. In comparison to its parents, the hybrid overproduced citronellal in its leaves and˛-sinensal andˇ-sinensal in its peel. Based on these results, the future prospects for a better understanding of the inheritance mechanisms with regards to aroma biosynthesis in citrus leaves and peels are discussed.
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