Delphinidin accumulation is associated with abnormal flower development in petunias

The relative floral anthocyanidin contents of 195 commercial petunias with floral colours other than white and yellow were determined using HPLC, and the presence of five anthocyanidins (cyanidin, peonidin, delphinidin, petunidin, and malvidin) was confirmed. Pelargonidin was not detected, and delphinidin was not a major component. Using a principal component analysis of the relative anthocyanidin contents, the petunias were classified into three phenotype-groups accumulating cyanidin, peonidin, or malvidin, (plus petunidin) as the major anthocyanidin. A fourth phenotype was segregated in the progeny obtained by self-pollinating an F1 hybrid of the malvidin group; this accumulated delphinidin 3-glucoside in a markedly crumpled corolla-limb (delphinidin group). Such inferior floral traits, associated with the accumulation of delphinidin 3-glucoside, are thought to be the driving force that removed the delphinidin group from commercial petunias. A comparison of flowers of the delphinidin group and those of the other groups may provide a useful tool towards a deeper understanding of how anthocyanin biosynthesis relates to normal development of the corolla.     

Anthocyanin composition of the fruit of Coriaria myrtifolia L

The anthocyanin composition of the fruit of Coriaria myrtifolia L. and the changes which occur during ripening were studied using HPLC-PAD and LC-MS. Ten anthocyanins were detected and identified by their absorption and mass spectra as the 3-glucoside and 3-galactoside derivatives of delphinidin, cyanidin, petunidin, peonidin and malvidin. Fruit ripening was accompanied by substantial changes in the anthocyanin profile, with methoxylated anthocyanins, i.e. malvidin and peonidin, predominating in the final stages of ripening, and the trihydroxylated anthocyanin, delphinidin, during the earlier stages. Furthermore, galactoside derivatives were more abundant than glucosides in the ripe fruit. At full maturity, the fruits of C. myrtifolia were very rich in anthocyanins with a content of 10.7% (on a dry weight basis), a level which is higher than that found in most fruits usually considered to be anthocyanin-rich. The ability to grow C. myrtifolia in damaged and nitrogen poor soils, together with the possibility of using this plant for the extraction of anthocyanin, makes it ideal for consolidating soils and repopulating semi-desert or fire-damaged areas.     

Anthocyanins in the genus Erica

3-Glucosides, 3-galactosides and 3-arabinosides of cyanidin, delphinidin, malvidin, peonidin and pelargonidin have been identified as major floral pigments in Erica (Ericaceae). Unidentified 3-biosides are present as minor pigments in some species. A comparison is made with floral anthocyanins occurring in the related family Epacridaceae.     

Isorhamnetin 3,7-disulphate from Flaveria bidentis

3-Glucosides and 3,5-diglucosides of pelargonidin, cyanidin, peonidin, delphinidin, petunidin and malvidin have been identified as flower pigments in Fuchsia species. These pigments in varying admixture appear to be solely responsible for different flower colours in this genus. Their production and inheritance seems to be under a complex system of genetic control.     

Flavonoids in flowers of 16 Kalanchoë blossfeldiana varieties

Kalancho? blossfeldiana varieties with orange, pink, red and magenta flowers were found to contain 3,5-O-beta-D-diglucosides of pelargonidin, cyanidin, peonidin, delphinidin, petunidin and malvidin. Pink, red and magenta varieties contained relatively high amounts of quercetin based flavonols. Four distinct quercetin flavonols were identified, namely quercetin 3-O-beta-D-glucoside and three that were quercetin 3-O-alpha-L-rhamnoside based, with either glucose, xylose or arabinose attached to position 2 of the rhamnose. In addition, the presence of at least three kaempferol based diglycosides was suggested from LC-MS analyses. Orange varieties contained very low amounts of flavonol co-pigments and of delphinidin derivatives. The flower extracts of the varieties 'Diva' (magenta) and 'Molly' (red) had identical anthocyanin ratios but differed significantly in flavonol content. The magenta variety contained four times as much quercetin relative to anthocyanidin as the red variety. This difference was mainly due to a larger content of quercetin 3-O-(2'-O-beta-D-glucopyranosyl-alpha-L-rhamnopyranoside). Based on pigment and co-pigment analyses, approaches for molecular breeding towards blue flower colour are discussed.     

Monochromatic light increases anthocyanin content during fruit development in bilberry

Background

Light is one of the most significant environmental factors affecting to the accumulation of flavonoids in fruits. The composition of the light spectrum has been shown to affect the production of phenolic compounds during fruit ripening. However, specific information on the biosynthesis of flavonoids in fruits in response to different wavelengths of light is still scarce. In the present study bilberry (Vaccinium myrtillus L.) fruits, which are known to be rich with anthocyanin compounds, were illuminated with blue, red, far-red or white light during the berry ripening process. Following the illumination, the composition of anthocyanins and other phenolic compounds was analysed at the mature ripening stage of fruits.

Results

All the three monochromatic light treatments had significant positive effect on the accumulation of total anthocyanins in ripe fruits compared to treatment with white light or plants kept in darkness. The elevated levels of anthocyanins were mainly due to a significant increase in the accumulation of delphinidin glycosides. A total of 33 anthocyanin compounds were detected in ripe bilberry fruits, of which six are novel in bilberry (cyanidin acetyl-3-O-galactose, malvidin acetyl-3-O-galactose, malvidin coumaroyl-3-O-galactose, malvidin coumaroyl-3-O-glucose, delphinidin coumaroyl-3-O-galactose, delphinidin coumaroyl-3-O-glucose).

Conclusions

Our results indicate that the spectral composition of light during berry development has significant effect on the flavonoid composition of ripe bilberry fruits.

     

Superoxide radical- and peroxynitrite-scavenging activity of anthocyanins; structure-activity relationship and their synergism

Antioxidant activities of 15 purified bilberry anthocyanins together with pelargonidin 3-O-beta-D-glucopyranoside and 4'-O-methyl delphinidin 3-O-beta-D-glucopyranoside (MDp 3-glc), the major metabolite of delphinidin 3-O-beta-D-glucopyranoside (Dp 3-glc), were evaluated in order to study the structure-antioxidant activity relationship and any synergism among them in the mixture. Both aglycone structure and the attached sugar moiety affected the O*2- and ONOO- -scavenging activities, although the effect of the attached sugar moiety was smaller than that of the aglycone structure. The potency of activity toward the superoxide radical was in the following order: delphinidin > petunidin > malvidin =approximately cyanidin>(+)-catechin > peonidin > pelargonidin. The activity toward ONOO- was: delphinidin > cyanidin =approximately petunidin > malvidin =approximately (+)-catechin > peonidin > pelargonidin. It was confirmed that methylation of 4'-OH markedly reduced the antioxidant activity of anthocyanin. Further, it was revealed that synergism occurred in both - and ONOO- -scavenging activities among the anthocyanins in the mixture.     

Distribution pattern of anthocyanins in the polygonaceae

A survey of anthocyanins in the flowers and other organs of thirty-three species of three genera belonging to the Polygonaceae has been carried out. There are thirteen anthocyans. Cyanidin glycosides, especially the 3-glycoside (chrysanthemin), are present most commonly and peonidin glycosides including the arabinosylglucoside are found with low frequency. The distribution of malvidin 3,5-diglucoside (malvin) is confined to the species belonging to the sectionEchinocaulon of the genusPolygonum. It is noted that cyanidin itself occurs in the stems ofPolygonum perfoliatum andP. senticosum.     

Structure and properties of the acylated anthocyanins from Vitis species

The acylated anthocyanins of Ives grapes have been isolated using column chromatography on polyamide and polyvinylpyrrolidone. Controlled hydrolysis with Dowex 50W-X8 ion exchange resin, KOH. peroxide oxidation and speciroscopic characterization revealed their tructure as the 3-(6-O-p-coumarylglucoside)-5-glucosides of cyanidin, peonidin, delphinidin, petunidin, and malvidin and the 3-(6-O-p-coumary lglucoside)s of delphinidin, petunidin and malvidin. On cellulose TLCs in the five solvent systems used, no clear-cut separation of these pigments could be obtained without their preliminary separation on polyamide and polyvinylpyrrolidone columns.     

Phenolic compounds in berries and flowers of a natural hybrid between bilberry and lingonberry (Vaccinium × intermedium Ruthe)

Hybridization between species plays an important role in the evolution of secondary metabolites and in the formation of combinations of existing secondary metabolites in plants. We have investigated the content of phenolic compounds in berries and flowers of Vaccinium × intermedium Ruthe, which is a rare natural hybrid between bilberry (Vaccinium myrtillus L.) and lingonberry (Vaccinium vitis-idaea L.). The berries and flowers of the hybrid showed characteristics inherited from both parent species in the distribution and contents of phenolic compounds. Bilberry is known as one of the richest sources of anthocyanins and to have a profile of 15 major forms combining cyanidin, delphinidin, petunidin, peonidin and malvidin with galactose, glucose and arabinose. Lingonberry contains only cyanidin glycosides. Hybrid berries contained all bilberry anthocyanins with pronounced cyanidin content. With regard to proanthocyanidins and flavonol glycosides, the hybrid inherited diverse profiles combining those of both parental species. The distribution of hydroxycinnamic acids was quite uniform in all studied berries. Of the identified compounds, 30 were detected in lingonberry, 46 in bilberry, 53 in hybrid berries and 38 in hybrid flowers. Hence, compared with the parent species, hybrid berries possess a more diverse profile of phenolic compounds and, therefore, can offer interesting material for breeding purposes.     

Anthocyanins of grasses

The anthocyanin content of 23 grass species (Poaceae) belonging to five subfamilies has been determined. Altogether 11 anthocyanins were identified; the 3-(6″-malonylglucosides) and 3-glucosides of cyanidin, peonidin and delphinidin, the 3-(3″,6″-dimalonylglucoside), 3-(6″-rhamnosylglucoside) and 3-(6″-glucosylglucoside) of cyanidin, in addition to peonidin 3-(dimalonylglucoside) and delphinidin 3-(6″-rhamnosylglucoside). Anthocyanins acylated with one and/or two malonic acid moieties dominated the anthocyanin profiles of all the species in the subfamilies Pooideae and Panicoideae. On the other hand, the 3-glucoside and 3-rutinoside of cyanidin were the major anthocyanins in Sinarundinaria murielae (subfamily Bambusoideae) and Molinia caerulea (subfamily Arundinoideae), while the 3-glucosides of cyanidin and peonidin were the principal anthocyanins in rice, Oryza sativum (subfamily Oryzoideae). Pelargonidin derivatives and free anthocyanidins have previously been reported to occur in several Poaceae species, however, not identified in any of the species included in this survey.     

山樱花品种间花色差异的代谢组学研究

山樱花是世界著名的观花类植物，花色是其最重要的观赏特征。为探究影响山樱花品种间花色差异的代谢通路及关键代谢产物变化，该文利用LC-MS/MS技术对白色、绿色和粉色的山樱花品种进行花青素靶向代谢组学比较分析。结果表明：(1)共检测到42种花青素物质，主要包含矮牵牛素、飞燕草素、黄酮类化合物、锦葵色素、芍药花素、矢车菊素、天竺葵素和原花青素8种物质。(2)差异代谢花青素25种，包括11种下调、14种上调，其中有7种花青素在粉色花瓣中显著富集。(3)KEGG通路注释发现差异代谢物在花青素生物合成通路中显著富集，结合聚类结果发现矮牵牛素-3-O-葡萄糖苷是山樱花品种间花色差异产生的关键代谢物。该研究揭示了山樱花花色差异的代谢机理，为后续山樱花花色分子调控机制研究提供了一定的理论依据，也为新品种花色改良和选育提供了一定的科学参考。     

Survey of bioactive components in Western Canadian berries

Berries native to Western Canada were analyzed for total anthocyanins, total phenolics, and trolox equivalent antioxidant activity (TEAC). Values ranged from 1.60 to 9.55 mmol trolox equivalent per 100 g fresh mass. Anthocyanin content ranged from 41.6 (in red twinberries) to 1081 mg cyanidin-3-glucoside equivalents per 100 g fresh mass (in honeysuckle fruits). Honeysuckle fruits contained the highest amount of total polyphenols, 1111 mg gallic acid equivalents per 100 g, among analyzed fruits. Additionally, anthocyanins in the investigated berries were identified and characterized by HPLC - electrospray ionization - tandem mass spectrometric method coupled with diode array detection. The number of anthocyanins varied from 4 in saskatoon berries (Amelanchier alnifolia Nutt.) to 20 in bilberries (Vaccinum myrtilloides Michx.). In all the samples analyzed, 6 common anthocyanidins:, cyanidin, delphinidin, pelargonidin, petunidin, peonidin, and malvidin, were found. Half the analyzed berries contained acylated anthocyanins, but a significant amount was found only in bilberries. The analyzed berry seed oils contained high amounts of unsaturated fatty acids (over 90%), but only the golden currant seed oil contained gamma-linolenic acid.     

A survey of anthocyanins in fruits of some angiosperms,I

The anthocyanin pigments in the fruits of fifty-two species belonging to seventeen families of angiosperms were investigated paper-chromatographicallly. They were identified as cyanidin 3-monoglucoside, pelargonidin 3-monoglucoside, cyanidin 3-rutinoside, pelargonidin 3-rutinoside, cyanidin 3-xylosylglucoside, cyanidin 3-xylosylgalactoside, delphinidin 3-xylosylglucoside and delphinidin 3-sophorosido-5-monoglucoside. Of those anthocyanins detected, the most common was cyanidin 3-monoglucoside. In general, the plants belonging to a certain genus contained the same anthocyanin.     

中国悬钩子属植物的利用价值概述

主要报道中国悬钩子属植物作为果树种质资源和药用植物的利用价值及果实色素和香味成分的利用潜力。经过十余年的调查１引种栽培和观测评价,发现一些种类可以作为野生小果类果树直接利用,其中２３种４变种是悬钩子类果树选育种的优良种质。据文献记载和民间调查发现。４５种４变种悬钩子植物可以作为中草药治疗多种疾病。对灰白毛莓、高梁泡、蓬、掌叶复盆子和黑莓果实色素的研究结果表明：悬钩子果实色素以醇提法为佳,水提法效果     

兔眼蓝浆果花青素HPLC分析

蓝浆果又名越桔 ,是世界 4种新兴小果树之一。蓝浆果果皮色素鲜艳 ,可作为食品添加剂 ;由于其主要成分花青素有良好的生理活性 ,欧洲把花青素含量≥ 2 4%的色素提取物作为药用。其中欧洲越桔 (ＶａｃｃｉｎｉｕｍｍｙｒｔｉｌｌｕｓＬ .)色素的提取物 (Ｍｙｒｔｏｃｙａｎ)已被意大利、德国等国家的药典收载[1] 。色素作为蓝浆果重要成分 ,除可作为营养指标外 ,还可作为分类特征成分[2 ,3 ] 。不同的种以及不同的品种间 ,不仅花青素含量差异很大 ,而且色素成分的比例也不相同 ,因而可以用不同花青素比例区分染色体倍性不同的蓝浆果[2 ] 。花…     

Studio sulla colorazione da antocianidine in alcune specie della flora italiana

Abstract

Flower colour and anthocyanidin pigments in some species of the Italian flora.—The anthocyanidin pigments, cyanidin and peonidin, of Corydalis cava and C. solida have been identified. The chromatic variation of C. cava is due to quantitative variation of the pigments. Only quantitative differences exist between the two species C. cava and C. solida. The pigments are absent in the white flowers.

The pigments of Pulmonaria visianii in all flower ages are delphinidin, petunidin and malvidin. The blueing of flowers with ageing depends on pH; being 5.6 for red, 6.0 for purple and 6.7 for blue flowers.     

"彩色马铃薯"块茎花色苷分子结构研究进展

“彩色马铃薯”是指块茎的“皮”和／或“肉”为红、紫、蓝或橙色的马铃薯,其块茎“皮”和“肉”变化多端的着色模式源于花色苷的积累,块茎各种颜色在根本上由花色素决定。在“彩色马铃薯”块茎中已发现6种花色素,即矮牵牛色素、花葵素、锦葵色素、芍药色素、花青素和花翠素;不同颜色块茎所含的花色素种类不同,同一颜色块茎所含花色素种类也可能不同;紫色块茎所含的花色素种类最为多样化。“彩色马铃薯”块茎的各种花色素一般在C3位经过氧一糖苷键实现1个芸香糖基取代,在苷元的C5位,要么以氧．糖苷键实现单葡萄糖基取代,要么不发生取代。“彩色马铃薯”块茎花色苷常在花色素C3位二糖取代基上或在C5位的单糖取代基上进一步发生反式单酰基取代,实现酰基取代的酚酸多为对香豆酸,其次为阿魏酸和咖啡酸。“彩色马铃薯”块茎矮牵牛素、锦葵色素、花葵素和芍药色素的对香豆酸酰化衍生物的惯用名分别为“petanin”,“malvanin”,“pelanin”和“peonanin”。本文可以为“彩色马铃薯”块茎颜色呈现的机理探索及其花色苷的分子结构鉴定提供参考。     

Chromosome number and flavonoid synthesis in Briza L. (Gramineae)

Following a recent reidentification of the apigenin C-glycosides in diploid Briza media, the luteolin C-glycosides were reexamined and three acylated derivatives of a luteolin C-glycoside were found. In an attempt to identify the chromosome or group of chromosomes responsible for the change in flavonoid synthesis from 4'-hydroxy- in diploid plants to 3',4'-dihydroxyflavone C-glycosides in autotetraploid plants, leaf flavonoids of artificially produced aneuploids of B. media were examined. Among these plants three different leaf flavonoid profiles were recognized: diploid, tetraploid, and a "modified" tetraploid pattern. All the aneuploids with the normal or "modified" tetraploid pattern were trisomic for one of the small acrocentric chromosomes. Induced polyploids of other Briza species were usually found to have similar flavonoid patterns in the two chromosome races. Flavonoid sulfates were found in three South American species but are absent from all the European species.     

DNA triplex stabilization property of natural anthocyanins

The DNA triplex stabilization property of seven natural anthocyanins (five monoglucosides and two diglucosides) has been measured by the mean of triplex thermal denaturation experiments. We have noticed a difference between the diglucosides that do not modify this melting temperature and the monoglucosides (namely 3-O-beta-D-glucopyranoside of malvidin, peonidin, delphinidin, petunidin and cyanidin) which present a weak but significant stabilizing effect. It appears clearly that the difference between the two series could be due to the supplementary sugar moiety at the 5 position for the diglucosylated compounds, that would make them too crowded to allow interaction with the triplex. Among the monoglucoside series, the most active compounds are the only ones to embody a catechol B-ring in their structure that could be important for such an interaction. The need to have pure and fully characterized compounds to run these measurements, made it possible for us to unambiguously assign the 1H and 13C NMR spectra with the help of 2D NMR experiments. Thus, missing data of compounds not totally described earlier, are provided herein.