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1.
A survey of lead and flower anthocyanins in a representative sample (28 spp./10 genera) of the Commelinaceae has shown that the dominant anthocyanin is cyanidin 3,7,3′-triglucoside, acylated with caffeic acid. Acylation with other hydroxycinnamic acids also occurs. As a flower pigment, this anthocyanin is stabilized at the pH of the cell sap by the presence of the three acyl substituents attached through glucose. In Gibasis, the related delphinidin triglucoside is also present. By contrast, the genus Commelina is distinguished by uniformly containing p-coumaroyl-delphinidin 3,5-diglucoside, which is stabilized in flowers as a copigment complex with glycoflavone. There are thus two distinctive sources of blue flower colour in the family. Furthermore, the presence of these rare acylated glucosides clearly separates the Commelinaceae from all other monocotyledonous groups. 相似文献
2.
Grapevine MATE-Type Proteins Act as Vacuolar H+-Dependent Acylated Anthocyanin Transporters 下载免费PDF全文
Camila Gomez Nancy Terrier Laurent Torregrosa Sandrine Vialet Alexandre Fournier-Level Clotilde Verris Jean-Marc Souquet Jean-Paul Mazauric Markus Klein Vronique Cheynier Agns Ageorges 《Plant physiology》2009,150(1):402-415
In grapevine (Vitis vinifera), anthocyanins are responsible for most of the red, blue, and purple pigmentation found in the skin of berries. In cells, anthocyanins are synthesized in the cytoplasm and accumulated into the vacuole. However, little is known about the transport of these compounds through the tonoplast. Recently, the sequencing of the grapevine genome allowed us to identify genes encoding proteins with high sequence similarity to the Multidrug And Toxic Extrusion (MATE) family. Among them, we selected two genes as anthocyanin transporter candidates and named them anthoMATE1 (AM1) and AM3. The expression of both genes was mainly fruit specific and concomitant with the accumulation of anthocyanin pigment. Subcellular localization assays in grapevine hairy roots stably transformed with AM1 or AM3green fluorescent protein fusion protein revealed that AM1 and AM3 are primarily localized to the tonoplast. Yeast vesicles expressing anthoMATEs transported acylated anthocyanins in the presence of MgATP. Inhibitor studies demonstrated that AM1 and AM3 proteins act in vitro as vacuolar H+-dependent acylated anthocyanin transporters. By contrast, under our experimental conditions, anthoMATEs could not transport malvidin 3-O-glucoside or cyanidin 3-O-glucoside, suggesting that the acyl conjugation was essential for the uptake. Taken together, these results provide evidence that in vitro the two grapevine AM1 and AM3 proteins mediate specifically acylated anthocyanin transport. 相似文献
3.
Axillary shoot proliferation of blue honeysuckle 总被引:2,自引:0,他引:2
Callus cultures of Ajuga reptans flowers produced a complex mixture of cyanidin- and delphinidin-based pigments, of which
more than 90% were acylated. The anthocyanin composition varied little during one growth period. During a time span of 5 years
no new anthocyanin classes appeared. Quantitative differences in anthocyanin composition between the callus lines and during
a 5 year time span were more pronounced. In general, the accumulation of delphinidin-based anthocyanins decreased. The percentage
of acylated anthocyanins was stable in time. The accumulation of metabolically evolved anthocyanins (5′-substituted and acylated)
decreased during passage from solid culture to liquid culture. The accumulation of acylated anthocyanins was influenced by
the type of aeration in liquid cultures.
This revised version was published online in June 2006 with corrections to the Cover Date. 相似文献
4.
Raymond Brouillard 《Phytochemistry》1981,20(1):143-145
The exceptional colour stability near neutrality of the Zebrina anthocyanin is related both to a high value of the acidity constant and to the total absence of formation of the colourless pseudobase and chalcone. The aromatic residues of the acylated groups (caffeic and ferulic) probably interact with the positively charged pyrylium nucleus. This intramolecular effect prevents further addition of nucleophiles to the pyrylium ring; in particular, addition of water is largely disfavoured compared to ordinary anthocyanins. 相似文献
5.
Six acylated anthocyanins have been isolated from the flowers of Ipomoea congesta R. Brown. One has been previously described as an acylated peonidin derivative. Three others are isomers, derived from peonidin-3-(caffeylsophoroside)-5-glucoside. The fifth was characterised as peonidin-3-(p-coumarylcaffeylsophoroside)-5-glucoside and the last as peonidin-3-(coumarylsophoroside)-5-glucoside. It is noteworthy that the anthocyanins found in this species have the same glycosidic pattern, 3-sophoroside-5-glucoside, as those reported for the cyanidin derivatives in Ipomoea cairica flowers. Acylated anthocyanin occurrence in Tubiflorae order is of chemotaxonomical value. 相似文献
6.
Anthocyanic vacuolar inclusions (AVIs) appear as dark red-to-purple spheres of various sizes in vacuoles of grapevine (Vitis vinifera L.) cell suspension culture due to their interaction with anthocyanins. AVIs were purified and the bound anthocyanins extracted and analysed by HPLC from two lines of V. vinifera isolated from the same callus accumulating anthocyanin in the dark, yet varying in their anthocyanin profiles and accumulation. An intermediate-pigmented line (FU-1) with a 1.3:1 ratio of acylated:non-acylated anthocyanins, a colour value of 0.84 units and cyanidin and peonidin as the dominant species was compared with a high-pigmented line (FU-2) with a 1.2:1 ratio of acylated:non-acylated anthocyanins, a colour value of 3.72 units and malvidin predominating. The profile of AVI-bound anthocyanins showed an increase in acylated anthocyanins in both lines of approx. 28–29%, with no apparent preference for anthocyanin species. This resulted in a ratio of acylated:non-acylated anthocyanins of 6.2:1 for FU-1 and 4.9:1 for FU-2. The reasons for the selectivity of the AVIs for acylated (specifically p-coumaroylated) species compared with the whole cell profile are discussed. 相似文献
7.
Xue‐Qin Zeng Wah Soon Chow Li‐Juan Su Xin‐Xiang Peng Chang‐Lian Peng 《Physiologia plantarum》2010,138(2):215-225
Ten anthocyanin components have been detected in roots of purple sweet potato (Ipomoea batatas Lam.) by high‐performance liquid chromatography coupled to diode array detection and electrospray ionization tandem mass spectrometry. All the anthocyanins were exclusively cyanidins or peonidin 3‐sophoroside‐5‐glucosides and their acylated derivatives. The total anthocyanin content in purple sweet potato powder obtained by solid‐phase extraction was 66 mg g?1. A strong capacity of purple sweet potato anthocyanins (PSPA) to scavenge reactive oxygen species (superoxide, hydroxyl radical) and the stable 1,1‐diphenyl‐2‐picrylhydrazyl organic free radical was found in vitro using the electron spin resonance technique. To determine the functional roles of anthocyanins in leaves in vivo, for the first time, supplemental anthocyanins were infiltrated into leaves of Arabidopsis thaliana double mutant of the ecotype Landsberg erecta (tt3tt4) deficient in anthocyanin biosynthesis. Chlorophyll fluorescence imaging showed that anthocyanins significantly ameliorated the inactivation of photosystems II during prolonged high‐light (1300 µmol m?2 s?1) exposure. Comet assay of DNA revealed an obvious role of supplemental PSPA in alleviating DNA damage by high light in leaves. Our results suggest that anthocyanins could function in vitro and in vivo to alleviate the direct or indirect oxidative damage of the photosynthetic apparatus and DNA in plants caused by high‐light stress. 相似文献
8.
Anthocyanins present in eggplant were decolorized by anthocyanase from flesh of eggplant. The anthocyanins consisted of at least three different anthocyanins containing delphinidin as common aglycone, and that a main component of those was nasunin, delphinidin-3-diglucoside acylated with p-coumaric acid.Using the anthocyanin as substrate, the anthocyanase action was optimal at pH 6.0 and 35°C, and was inhibited by potassium cyanide, thiourea, and sodium chloride. The data obtained so far show that anthocyanase acts on the following anthocyanidin derivatives in order of increasing rate of decolorization; pelargonidin-=peonidin-<cyanidin-<delphinidin-<delphinidin-glucoside acylated with p-coumaric acid. 相似文献
9.
《Biochemical Systematics and Ecology》2005,33(8):789-798
Nine taxa of Corydalis were surveyed for their floral anthocyanins. Five cyanidin glycosides: cyanidin 3-glucoside, cyanidin 3-sambubioside, cyanidin 3-rutinoside, cyanidin 3-(2G-xylosylrutinoside) and cyanidin 3-(2G-xylosylrutinoside)-7-glucoside were isolated from these taxa and identified by chemical and spectroscopic techniques. A novel anthocyanin was found in the flowers of Corydalis elata and Corydalis flexuosa cultivars, and identified to be cyanidin 3-(2G-xylosylrutinoside)-7-glucoside. Two anthocyanins, cyanidin 3-sambubioside and cyanidin 3-(2G-xylosylrutinoside), were also found for the first time in Corydalis flowers. Furthermore, the major anthocyanin constituent of the flowers was cyanidin 3-sambubioside in the outer petals of Corydalis ambigua and Corydalis lineariloba, and cyanidin 3-rutinoside in those of Corydalis decumbens, Corydalis curvicalcarata and Corydalis speciosa. Similarly, Corydalis incisa contained cyanidin 3-(2G-xylosylrutinoside), and C. flexuosa ‘China Blue’ and ‘Blue Panda’, and C. elata contained the most complex structural pigment, cyanidin 3-(2G-xylosylrutinoside)-7-glucoside, as their dominant anthocyanin in their outer petals. According to the results of anthocyanin analyses, these nine plants were classified into four groups: groups A (three taxa), B (two taxa), C (one taxa) and D (three taxa). On the other hand, the anthocyanin constituent of their inner petals was composed of cyanidin 3-rutinoside as only one dominant anthocyanin. 相似文献
10.
该研究以7个品种铁筷子(Helleborus thibetanus Franch.)为试验材料,借助目视测色、RHSCC比色卡、色差仪进行花色表型的测定,采用高效液相色谱法-光电二极管阵列检测方法(HPLC-DAD)及高效液相色谱-电喷雾离子化-质谱联用技术(HPLC-ESI-MS)测定分析铁筷子花瓣中花青素苷成分及含量,以探究不同品种铁筷子的花色与花青素苷成分及含量之间的关系。结果显示:(1)紫色系品种花瓣的a*值最高b*值最低,黄色系品种花瓣的b*值最高a*值最低,不同品种的铁筷子花色越深L*值越低。(2)从5个有花青素苷积累的铁筷子品种中检测出11种花青素苷成分,分别为6种矢车菊素苷,4种飞燕草素苷,1种矮牵牛素苷;供试的铁筷子材料中红色系2个品种的花青素苷含量最高,紫色系品种次之;矢车菊素苷与飞燕草素苷为影响铁筷子花瓣呈色的主要色素物质。(3)不同种类的花青素和修饰基团的差异,导致铁筷子花瓣呈现不同的色彩,含有多种酰基化修饰的飞燕草素苷使铁筷子花色蓝移进而使花色加深。(4)相关分析表明,铁筷子花瓣的L*值与a*值呈显著负相关关系,与b*值呈显著的正相关关系;L*值与总花青素苷含量呈显著负相关关系,且随着花青素苷含量的累积a*值增加,花色红移。研究表明,花青素苷的成分及含量是导致铁筷子花瓣呈现不同颜色的主要原因,矢车菊素苷和飞燕草素苷的互作以及酰基化的修饰使铁筷子呈现不同程度的紫色,花青素苷的不同累积量影响了花瓣颜色的明暗变化,从而使铁筷子花瓣颜色丰富。 相似文献
11.
《Biochemical Systematics and Ecology》2002,30(9):855-864
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. 相似文献
12.
Manipulating anthocyanin composition in Vitis vinifera suspension cultures by elicitation with jasmonic acid and light irradiation 总被引:2,自引:0,他引:2
Jasmonic acid altered the accumulation of major anthocyanins in Vitis vinifera cell culture. Peonidin 3-glucoside content at day three was increased from 0.3 to 1.7 mg g–1 dry cell wt while other major anthocyanins were increased by smaller increments. By day 14, the content of methylated and acylated anthocyanins (peonidin 3-p-coumaroylglucoside and malvidin 3-p-coumaroylglucoside) was 6.3 mg g–1 DCW, in response to treatment with jasmonic acid, and comprising 45% (w/w) of total anthocyanins. In comparison, the untreated control culture contained 1.2 mg g–1 DCW which made up 32% (w/w) of total anthocyanins. Light further enhanced anthocyanin accumulation induced by jasmonic acid elicitation. The content of peonidin 3-glucoside at day 3 was 6.6 mg g–1 DCW, 22-fold higher than control cultures while the content in response to light irradiation alone was 0.6 mg g–1 DCW. When a highly pigmented cell line was elicited with jasmonic acid total anthocyanins increased from 9.2 to 20.7 mg g–1 DCW, but there was no change in the anthocyanin composition. 相似文献
13.
Anthocyanins were the main polyphenol components in extracts of fresh and pickled red cabbage. The composition of anthocyanins in red cabbage was studied using liquid chromatography mass-spectrometry. Eleven major peaks absorbing at 520 nm were discerned, which represented 18 different anthocyanin structures. Another five minor anthocyanin components could be identified by searching at their respective m/z values but only in anthocyanin-enriched concentrates produced by sorption to solid phase extraction matrices. The predominant anthocyanins were constructed of cyanidin-3-diglucoside-5-glucoside "cores" which were non-acylated, mono-acylated or di-acylated with p-coumaric, caffeic, ferulic and sinapic acids. Pelargonidin-3-glucoside and novel forms of cyanidin-3-O-triglucoside-5-O-glucoside di-acylated with hydroxycinnamic acids were also detected in extracts of raw red cabbage, commercially pickled red cabbage and anthocyanin-enriched concentrates. The stability of the anthocyanins to simulated gastrointestinal digestion was assessed. The anthocyanins were effectively stable in the acidic gastric digestion conditions but the total recovery after simulated pancreatic digestion was around 25% compared to around 100% recovery of phenol content. As anthocyanins make up the majority of red cabbage polyphenols, this suggested that anthocyanins broke down to form new phenolic components. The recovery of the individual anthocyanins was monitored by LC-MS(n). All of the anthocyanins were reduced in content after pancreatic digestion but acylated forms were notably more stable than non-acylated forms. There was also a relationship between the type of acylated hydroxycinnamic acid and stability to pancreatic digestion. 相似文献
14.
15.
16.
In flower extracts of defined genotypes of Matthiola incana, an enzyme was demonstrated which catalyzes the transfer of the glucosyl moiety of uridine 5-diphosphoglucose (UDPGlc) to the 5-hydroxyl group of pelargonidin and cyanidin 3-glycosides and acylated derivatives. The best substrate for 5-glucosylation is the 3-xylosylglucoside acylated with p-coumarate, followed by the 3-xylosylglucoside and by the acylated (p-coumarate) 3-glucoside. The 3-glucoside itself is a very poor substrate. Besides UDPGlc, thymine 5-diphosphoglucose is a suitable glucosyl-donor, but with a reduced reaction rate (42%). The anthocyanin 5-O-glucosyltransferase exhibits a pH optimum at 7.5 and is generally inhibited by divalent ions and by ethylenediaminetetraacetic acid and p-chloromercuribenzoate. Investigations on different genotypes showed that the 5-O-glucosyltransferase activity is clearly controlled by the gene l. In confirmation of earlier chemogenetic work, enzyme activity is only present in lines with the wild-type allele l+. The anthocyanin 5-O-glucosyltransferase activity is strictly correlated with the formation of 5-glucosylated anthocyanins during bud development.Abbreviations Cg
3,5-T-cyanidin 3-sambubioside-5-glucoside
- EDTA
ethylene diaminetetraacetic acid
- 5GT
UDP-glucose: anthocyanin 5-O-glucosyltransferase
- 3GT
UDP-glucose: anthocyanidin/flavonol 3-O-glucosyltransferase
- HPLC
high-performance liquid chromatography
- TLC
thin-layer chromatography
- UDPGlc
uridine 5-diphospho-glucose 相似文献
17.
18.
Identification of key amino acids for the evolution of promoter target specificity of anthocyanin and proanthocyanidin regulating MYB factors 总被引:1,自引:0,他引:1
Simon C. Heppel Felix W. Jaffé Adam M. Takos Swen Schellmann Thomas Rausch Amanda R. Walker Jochen Bogs 《Plant molecular biology》2013,82(4-5):457-471
19.
Not all anthocyanins are born equal: distinct patterns induced by stress in Arabidopsis 总被引:1,自引:0,他引:1
Nik Kovinich Gilbert Kayanja Alexandra Chanoca Ken Riedl Marisa S. Otegui Erich Grotewold 《Planta》2014,240(5):931-940
Main Conclusion
Different abiotic stress conditions induce distinct sets of anthocyanins, indicating that anthocyanins have different biological functions, or that decoration patterns of each anthocyanin are used for unique purposes during stress. The induction of anthocyanin accumulation in vegetative tissues is often considered to be a response of plants to biotic or abiotic stress conditions. Arabidopsis thaliana (Arabidopsis) accumulates over 20 anthocyanins derived from the anthocyanidin cyanidin in an organ-specific manner during development, but the anthocyanin chemical diversity for their alleged stress protective functions remains unclear. We show here that, when grown in various abiotic stress conditions, Arabidopsis not only often accumulates significantly higher levels of total anthocyanins, but different stress conditions also favor the accumulation of different sets of anthocyanins. For example, the anthocyanin patterns of seedlings grown at pH 3.3 or in media lacking phosphate are very similar and characterized by relatively high levels of the anthocyanins A8 and A11. In contrast, anthocyanin inductive conditions (AIC) provided by high sucrose media are characterized by high accumulation of A9* and A5 relative to other stress conditions. The modifications present in each condition correlate reasonably well with the induction of the respective anthocyanin modification enzymes. Taken together, our results suggest that Arabidopsis anthocyanin profiles provide ‘fingerprints’ that reflect the stress status of the plants. 相似文献20.
Anthocyanic vacuolar inclusions (AVIs) are intra-vacuolar structures capable of concentrating anthocyanins and are present
in over 50 of the highest anthocyanin-accumulating plant species. Presence of AVIs alters pigment intensity, total anthocyanin
levels, pigment hue and causes bathochromic shifts in a spatio-temporal manner within various flowers, vegetables and fruits.
A year-long study on Vitis vinifera cell suspension cultures found a strong correlation between AVI prevalence and anthocyanin content, but not the number of
pigmented cells, growth rate or stilbene content. Furthermore, enhancement of the prevalence of AVIs and anthocyanins was
achieved by treatment of V. vinifera cell suspension cultures with sucrose, jasmonic acid and white light. A unique autofluorescence of anthocyanins was used
to demonstrate microscopically that AVIs proceed from the cytosol across the tonoplast and were able to coalesce intravacuolarly,
with fewer, larger AVIs predominating as cells mature. Purification and characterisation of these bodies were performed, showing
that they were dense, highly organic structures, with a lipid component indicative of membrane-encasement. These purified
AVIs were also shown to comprise long-chain tannins and possessed an increased affinity for binding acylated anthocyanins,
though no unique protein component was detected. 相似文献