Your search keyword '"Vanilla chemistry"' showing total 80 results

1. Molecular Aroma Composition of Vanilla Beans from Different Origins.

Author

Tran TKL, Salvatore I, Geller J, Theodoracakis E, Ullrich L, and Chetschik I

Subjects

Olfactometry, Benzaldehydes analysis, Seeds chemistry, Flavoring Agents chemistry, Vanilla chemistry, Vanilla classification, Odorants analysis, Gas Chromatography-Mass Spectrometry, Volatile Organic Compounds chemistry, Volatile Organic Compounds analysis

Abstract

The demand for natural Vanilla has increased rapidly, creating the need for more potential sources of high-quality Vanilla essence. Understanding the geographical influences on the aroma profile of Vanilla is essential. This study demonstrates the first comparative analysis of odorant compositions in the three most important Vanilla varieties: Vanilla planifolia , Vanilla pompona , and Vanilla tahitensis from different origins. Following the screening for odor-active molecules through gas chromatography-olfactometry and aroma extract dilution analysis (GC-O and AEDA), selected compounds were quantified using stable isotope dilution assays (SIDA) and their dose over threshold values (DoTs) were calculated. Vanillin was confirmed as the most important odor-active compound due to its highest DoT value, especially in the V. planifolia sample. Meanwhile, 4-methoxybenzyl alcohol and 4-methoxybenzaldehyde showed higher DoT factors than vanillin in V. pompona and partially in V. tahitensis samples. This indicates their role as discriminative odorants for these varieties. The heightened DoT values of 3-hydroxy-4,5-dimethyl-2(5 H )-furanone in Uganda Vanilla samples unveil geographical influences on the odorant profile within V. planifolia species. Additionally, 2-methyl-3-(methyldithio)furan was identified for the first time in Vanilla samples with diverse DoT values from different species and origins.

Published

2024

2. Chasing the chill: Unveiling the dynamic flavors and textures of ice cream formulations.

Author

Pintor-Jardines A, Luque-Ramírez M, Varela P, Escalona-Buendia H, and Severiano-Pérez P

Subjects

Viscosity, Humans, Flavoring Agents, Agave chemistry, Fructans chemistry, Vanilla chemistry, Ice Cream analysis, Taste

Abstract

In this study, nine commercial ice creams and four prototypes were assessed. For the sensory analysis, quantitative descriptive analysis (QDA), and temporal dominance of sensations (TDS) methodology were used. According to the QDA results, full-composition ice cream showed significantly higher differences (p < .05) in terms such as vanilla and sweet flavors, brightness, creamy texture and appearance, and viscosity, exhibiting longer melting times. Functional ice creams showed significantly higher differences (p < .05) in terms like viscosity, creamy texture, and appearance. On the other hand, agave fructans in prototype ice creams were found to be able to reduce fat, but not fat and sugar simultaneously, showing a significant decrease (p < .05) in terms such as hardness, crystallized texture, gummy texture, and porosity. Based on the PCA results, the analysis accounted for 75.28% of data variability. Full-composition ice creams and one functional ice cream were related to terms such as viscosity, fatty sensation, creamy texture and appearance, dense, gummy, among others. The rest of the commercial ice creams were related to vanilla and caramel flavor and smell, artificial aftertaste, aerated, porosity, among others. Prototype ice creams were related to hard texture, salty and milk flavor, and crystallized texture. Based on the results of the TDS method, all formulations were found to be significantly dominant (5%) in terms such as vanilla flavor and sweet flavor at the beginning of the test. Formulations containing butyric fat and/or vegetable fat, or agave fructans were significantly dominant (5%) in fatty sensation., (© 2024 The Author(s). Journal of Texture Studies published by Wiley Periodicals LLC.)

Published

2024

3. Vanilla from Brazilian Atlantic Forest: In vitro and in silico toxicity assessment and high-resolution metabolomic analysis of Vanilla spp. ethanolic extracts.

Author

de Oliveira RT, da Silva Oliveira JP, da Silva ALM, Carrão Dantas EK, Koblitz MGB, Bello ML, Felzenszwalb I, Araújo-Lima CF, and Macedo AF

Subjects

Brazil, Humans, Forests, Salmonella typhimurium drug effects, Salmonella typhimurium genetics, Mutagenicity Tests, Computer Simulation, Plant Extracts chemistry, Plant Extracts toxicity, Metabolomics, Vanilla chemistry

Abstract

The natural vanilla market, which generates millions annually, is predominantly dependent on Vanilla planifolia, a species characterized by low genetic variability and susceptibility to pathogens. There is an increasing demand for natural vanilla, prized for its complex, authentic, and superior quality compared to artificial counterparts. Therefore, there is a necessity for innovative production alternatives to ensure a consistent and stable supply of vanilla flavors. In this context, vanilla crop wild relatives (WRs) emerge as promising natural sources of the spice. However, these novel species must undergo toxicity assessments to evaluate potential risks and ensure safety for consumption. This study aimed to assess the non-mutagenic and non-carcinogenic properties of ethanolic extracts from V. bahiana, V. chamissonis, V. cribbiana, and V. planifolia through integrated metabolomic profiling, in vitro toxicity assays, and in silico analyses. The integrated approach of metabolomics, in vitro assays, and in silico analyses has highlighted the need for further safety assessments of Vanilla cribbiana ethanolic extract. While the extracts of V. bahiana, V. chamissonis, and V. planifolia generally demonstrated non-mutagenic properties in the Ames assay, V. cribbiana exhibited mutagenicity at high concentrations (5000 μg/plate) in the TA98 strain without metabolic activation. This finding, coupled with the dose-dependent cytotoxicity observed in WST-1 (Water Soluble Tetrazolium) assays, a colorimetric method that assesses the viability of cells exposed to a test substance, underscores the importance of concentration in the safety evaluation of these extracts. Kaempferol and pyrogallol, identified with higher intensity in V. cribbiana, are potential candidates for in vitro mutagenicity. Although the results are not conclusive, they suggest the safety of these extracts at low concentrations. This study emphasizes the value of an integrated approach in providing a nuanced understanding of the safety profiles of natural products, advocating for cautious use and further research into V. cribbiana mutagenicity., Competing Interests: Declaration of competing interest The authors declare no conflicts of interest., (Copyright © 2024 Elsevier Ltd. All rights reserved.)

Published

2024

4. Impact of the Post-Harvest Period on the Chemical and Sensorial Properties of planifolia and pompona Vanillas.

Author

Ravier A, Chalut P, Belarbi S, Santerre C, Vallet N, and Nhouchi Z

Subjects

Sensation, Taste, Smell, Gas Chromatography-Mass Spectrometry, Vanilla chemistry

Abstract

Vanilla production in Guadeloupe is expanding. The main species grown is Vanilla planifolia , but other species such as Vanilla pompona are also present and required by industries. To upgrade the value of vanilla production on this Caribbean Island, this study was performed to evaluate the aromatic specifies of these vanilla species according to the length of the post-harvest period (2 months and 9 months). For this purpose, Vanilla planifolia and Vanilla pompona were compared through scald and scarification transformation processes, as well as two different refining times (T1 and T2). For chemical characterization, 0.1 g of vanilla bean seeds was used for SMPE/GC-MS measurements, while 0.05 g of vanilla samples was subjected to infusion in milk (0.15%) for sensory evaluation. The latter involved generation of terms of aroma through olfaction and gustation sessions. The chemical results showed a significant difference between the two species, where vanillin was mostly present in Vanilla planifolia , unlike Vanilla pompona , where it was mainly rich in 4-methoxybenzyl alcohol. Interestingly, the second refining time was characterized by the appearance of two major components, 1,3-octadien and acetic acid. For sensory analysis, all the vanillas exhibited a high diversity of aromas including " sweet ", " gourmand ", " spicy " flavors and so on. The application of factorial correspondence analysis (FAC) as well as the agglomerative hierarchical clustering (AHC) showed differences between the vanilla samples according to both the species and refining time. The combination of these analyses makes it possible to establish a chemical and organoleptic profile of vanillas. Varietal and processing factors both have a major impact on the aroma profile of vanillas.

Published

2024

5. Identification of a β-Carboline Alkaloid from Chemoselectively Derived Vanilla Bean Extract and Its Prevention of Lipid Droplet Accumulation in Human Hepatocytes (HepG2).

Author

Dibwe DF, Takeishi N, Oba S, Sakurai A, Sakurai T, Tsukui T, Chiba H, and Hui SP

Subjects

Humans, Chromatography, Liquid, Lipid Droplets, Tandem Mass Spectrometry, Plant Extracts pharmacology, Plant Extracts chemistry, Hep G2 Cells, Carbolines pharmacology, Vanilla chemistry, Alkaloids pharmacology

Abstract

Targeting bioactive compounds to prevent lipid droplet accumulation in the liver, we explored an antioxidative extract from vanilla bean ( Vainilla planifolia ) after chemo-selective derivatization through heating and acid modification. The chemical analysis of vanilla bean extract through chemoselective derivatization resulted in the identification of sixteen compounds ( 34 - 50 ) using LC-MS/MS analysis. A β-carboline alkaloid with a piperidine C-ring and a vanillin moiety at C-1 ( 34 ) was identified by molecular networking and diagnostic fragmentation filtering approaches. β-carboline alkaloid 34 exhibited significant inhibitory activity of lipid droplet accumulation (LDAI) in oleic acid-loaded hepatocellular carcinoma HepG2 cells. The LDAI activity was associated with both activation of lipolysis and suppression of lipogenesis in the cells. The study indicates that crude plant extracts, following chemoselective derivatization, may contain bioactive compounds that could be beneficial in preventing hepatosteatosis and could serve as a source of lead compounds for drug development. This approach may be useful to investigate other mixtures of natural products and food resources.

Published

2023

6. Quantitative characterizations of mOR-EG activated by vanilla odorants using advanced statistical physics modeling.

Author

Ben Khemis I, Aouaini F, Bukhari L, Nasr S, and Ben Lamine A

Subjects

Animals, Mice, Benzaldehydes, Physics, Odorants, Vanilla chemistry

Abstract

An advanced monolayer adsorption model of an ideal gas was successfully employed to investigate the adsorption of vanillin, vanillin methyl ether, vanillin ethyl ether, and vanillin acetate odorants on mouse eugenol olfactory receptor mOR-EG. In order to understand the adsorption process putatively introduced in olfactory perception, model parameters were analyzed. Hence, fitting results showed that the studied vanilla odorants were linked in mOR-EG binding pockets with a non-parallel orientation, and their adsorption was a multi-molecular process (n > 1). The adsorption energy values that ranged from 14.021 to 19.193 kJ/mol suggested that the four vanilla odorants were physisorbed on mOR-EG (ΔE a  < 40 kJ/mol) and the adsorption mechanism may be considered as an exothermic mechanism (ΔE a  > 0). The estimated parameters may also be utilized for the quantitative characterization of the interactions of the studied odorants with mOR-EG to determine the corresponding olfactory bands ranging from 8 to 24.5 kJ/mol., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

7. Recovery of flavor compounds from vanilla bagasse by hydrolysis and their identification through UPLC-MS E .

Author

Oliveira JPS, Gomes S, Ladeira KC, Cameron LC, Macedo AF, and Koblitz MGB

Subjects

Chromatography, High Pressure Liquid methods, Chromatography, Liquid, Hydrolysis, Tandem Mass Spectrometry, Vanilla chemistry

Abstract

Vanilla is a globally treasured commodity, and the consequences of its unstable value affect social, environmental, economic, and academic ambits. The extensive range of aroma molecules found in cured vanilla beans is crucial to the complexity of this natural condiment and knowledge about their recovery is of the essence. Many strategies aim on reproducing the chemical intricacies of vanilla flavor, such as biotransformation and de novo biosynthesis. Few studies, however, aim at the exhaustion of the cured pods, of which the bagasse, after the traditional ethanolic extraction, might still bear a highly valued flavor composition. An untargeted liquid chromatography coupled with mass spectrometry (LC-MS E ) approach was applied to elucidate if sequential alkaline-acidic hydrolysis was effective in extracting flavor related molecules and chemical classes from the hydro-ethanolic fraction. Important vanilla flavor related compounds present in the hydro-ethanolic fraction were further extracted from the residue through alkaline hydrolysis, such as vanillin, vanillic acid, 3-methoxybenzaldehyde, 4-vinylphenol, heptanoic acid, and protocatechuic acid. Acid hydrolysis was effective on further extracting features from classes such as phenols, prenol lipids, and organooxygen compounds, though representative molecules remain unknown. Finally, sequential alkaline-acidic hydrolysis rendered natural vanilla's ethanolic extraction residues as an interesting supplier of its own products, which could be used as a food additive, and many other applications., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 Elsevier Ltd. All rights reserved.)

Published

2023

8. Metabolic Engineering of Rice Cells with Vanillin Synthase Gene (VpVAN) to Produce Vanillin.

Author

Arya SS, Mahto BK, Sengar MS, Rookes JE, Cahill DM, and Lenka SK

Subjects

Benzaldehydes metabolism, Metabolic Engineering, Plants, Genetically Modified genetics, Plants, Genetically Modified metabolism, Oryza genetics, Oryza metabolism, Vanilla chemistry, Vanilla genetics, Vanilla metabolism

Abstract

Vanillin production by metabolic engineering of proprietary microbial strains has gained impetus due to increasing consumer demand for naturally derived products. Here, we demonstrate the use of rice cell cultures metabolically engineered with vanillin synthase gene (VpVAN) as a plant-based alternative to microbial vanillin production systems. VpVAN catalyzes the signature step to convert ferulic acid into vanillin in Vanilla planifolia. As ferulic acid is a phenylpropanoid pathway intermediate in plant cells, rice calli cells are ideal platform for in vivo vanillin synthesis due to the availability of its precursor. In this study, rice calli derived from embryonic rice cells were metabolically engineered with a codon-optimized VpVAN gene using Agrobacterium-mediated transformation. The putative transformants were selected based on their proliferation on herbicide-supplemented N6D medium. Expression of the transgenes were confirmed through a β-glucuronidase (GUS) reporter assay and polymerase chain reaction (PCR) analysis provided evidence of genetic transformation. The semiquantitative RT-PCR and real-time (RT)-qPCR revealed expression of VpVAN in six transgenic calli lines. High-performance liquid chromatography identified the biosynthesis of vanillin in transgenic calli lines, with the highest yielding line producing 544.72 (± 102.50) μg of vanillin -g fresh calli. This work serves as a proof-of-concept to produce vanillin using metabolically engineered rice cell cultures., (© 2022. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

9. Rapid Sample Screening Method for Authenticity Controlling of Vanilla Flavours Using Liquid Chromatography with Electrochemical Detection Using Aluminium-Doped Zirconia Nanoparticles-Modified Electrode.

Author

Benmassaoud Y, Murtada K, Salghi R, Zougagh M, and Ríos Á

Subjects

Aluminum, Chromatography, Liquid methods, Electrochemical Techniques, Electrodes, Flavoring Agents analysis, Phenols chemistry, Reproducibility of Results, Zirconium, Nanoparticles analysis, Vanilla chemistry

Abstract

A rapid and sensitive technique for frauds determination in vanilla flavors was developed. The method comprises separation by liquid chromatography followed by an electrochemical detection using a homemade screen-printed carbon electrode modified with aluminium-doped zirconia nanoparticles (Al-ZrO 2 -NPs/SPCE). The prepared nanomaterials (Al-ZrO 2 -NPs) were characterized by using X-ray diffraction (XRD), transmission electron microscopy (TEM) and energy dispersive X-ray (EDX). This method allows for the determination of six phenolic compounds of vanilla flavors, namely, vanillin, p-hydroxybenzoic acid, p-hydroxybenzaldehyde, vanillyl alcohol, vanillic acid and ethyl vanillin in a linear range between 0.5 and 25 µg g -1 , with relative standard deviation values from 2.89 to 4.76%. Meanwhile, the limits of detection and quantification were in the range of 0.10 to 0.14 µg g -1 and 0.33 to 0.48 µg g -1 , respectively. In addition, the Al-ZrO 2 -NPs/SPCE method displayed a good reproducibility, high sensitivity, and good selectivity towards the determination of the vanilla phenolic compounds, making it suitable for the determination of vanilla phenolic compounds in vanilla real extracts products.

Published

2022

10. NMR-based leaf metabolic profiling of V. planifolia and three endemic Vanilla species from the Peruvian Amazon.

Author

Leyva VE, Lopez JM, Zevallos-Ventura A, Cabrera R, Cañari-Chumpitaz C, Toubiana D, and Maruenda H

Subjects

Benzaldehydes metabolism, Multivariate Analysis, Peru, Plant Leaves chemistry, Vanilla chemistry, Magnetic Resonance Spectroscopy methods, Metabolomics methods, Plant Leaves metabolism, Vanilla metabolism

Abstract

The fruit of Vanilla planifolia is broadly preferred by the agroindustry and gourmet markets due to its refined flavor and aroma. Peruvian Vanilla has been proposed as a possible source for genetic improvement of existing Vanilla cultivars, but, little has been done to facilitate comprehensive studies of these and other Vanilla. Here, a nuclear magnetic resonance (NMR) metabolomic platform was developed to profile for the first time the leaves - organ known to accumulate vanillin putative precursors - of V. planifolia and those of Peruvian V. pompona, V. palmarum, and V. ribeiroi, with the aim to determine metabolic differences among them. Analysis of the NMR spectra allowed the identification of thirty-six metabolites, twenty-five of which were quantified. One-way ANOVA and post-hoc Tukey test revealed that these metabolites changed significantly among species, whilst multivariate-analyses allowed the identification of malic and homocitric acids, together with two vanillin precursors, as relevant metabolic markers for species differentiation., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

11. Effect-directed profiling of 32 vanilla products, characterization of multi-potent compounds and quantification of vanillin and ethylvanillin.

Author

Morlock GE, Busso M, Tomeba S, and Sighicelli A

Subjects

Benzaldehydes chemistry, Chromatography, Thin Layer, Benzaldehydes analysis, Plant Extracts chemistry, Plant Extracts isolation & purification, Vanilla chemistry

Abstract

Food testing is of great importance to the food industry and organizations to verify the authenticity claims, to prove the quality of raw materials and products, and to ensure food safety. The market prices of vanilla differed by a factor of about 20 in the last three decades. Therefore the risk of adulteration and counterfeiting of vanilla products is high. Instead of commonly used target analyses and sum parameter assays, a complementary non-target multi-imaging effect-directed screening was developed, which provided a new perspective on the wide range of vanilla product qualities on the market. Planar chromatography was combined with effect-directed assays, and the obtained biological and biochemical profiles of 32 vanilla products from nine different categories revealed a variety of active ingredients. Depending on the region, typical vanilla product profiles and activity patterns were obtained for pods, tinctures, paste (inner part), oleoresin and powders. However, some vanilla products showed additional active compounds and a different intensity pattern. The vanilla product profiles substantially differed from those of vanilla aroma or products containing synthetic vanillin or vanilla-flavored food products. Bioactive compounds of interest were online eluted and further characterized via HPTLC-HRMS, which allowed their tentative assignment. After purchase of the standards, these were successfully confirmed by co-chromatography. Quantification of vanillin across nine different product categories revealed levels ranging from 1 µg/g to 36 mg/g with a mean repeatability of 1.9%. The synthetic ethylvanillin was not detected in the investigated samples in significant concentrations. The assessment of differences in the activity patterns pointed to highly active compounds, which were not detected at UV/Vis/FLD but first via the biological and enzymatic assays. This effect-directed profiling bridges the gap from analytical food chemistry to food toxicology, and thus, makes an important contribution to consumer safety. In the same way, it would accelerate investigations for Registration, Evaluation, Authorisation and Restriction of Chemicals (REACH) according to Regulation (EC) No. 1907/2006., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2021. Published by Elsevier B.V.)

Published

2021

12. New Insights on Volatile Components of Vanilla planifolia Cultivated in Taiwan.

Author

Yeh CH, Chen KY, Chou CY, Liao HY, and Chen HC

Subjects

Agriculture methods, Benzaldehydes chemistry, Benzaldehydes isolation & purification, Chromatography, Gas methods, Flavoring Agents analysis, Gas Chromatography-Mass Spectrometry methods, Plant Extracts analysis, Solid Phase Microextraction methods, Taiwan, Volatile Organic Compounds analysis, Vanilla chemistry, Vanilla metabolism, Volatile Organic Compounds chemistry

Abstract

Vanilla ( Vanilla planifolia ) is a precious natural flavoring that is commonly used throughout the world. In the past, all vanilla used in Taiwan was imported; however, recent breakthroughs in cultivation and processing technology have allowed Taiwan to produce its own supply of vanilla. In this study, headspace solid-phase microextraction (HS-SPME) combined with GC-FID and GC-MS was used to analyze the volatile components of vanilla from different origins produced in Taiwan under different cultivation and processing conditions. The results of our study revealed that when comparing different harvest maturities, the composition diversity and total volatile content were both higher when the pods were matured for more than 38 weeks. When comparing different killing conditions, we observed that the highest vanillin percentage was present after vanilla pods were killed three times in 65 °C treatments for 1 min each. From the experiment examining the addition of different strains, the PCA results revealed that the volatiles of vanilla that was processed with Dekkera bruxellensis and Bacillus subtili s was clearly distinguished from which obtained by processing with the other strains. Vanilla processed with B. subtilis contained 2-ethyl-1-hexanol, and this was not detected in other vanillas. Finally, when comparing the vanillin percentage from seven different regions in Taiwan, vanilla percentage from Taitung and Taoyuan Longtan were the highest.

Published

2021

13. Discrimination of sensory attributes by trained assessors and consumers in semi-sweet hard dough biscuits and their drivers of liking and disliking.

Author

Mello LSS, Almeida EL, and Melo L

Subjects

Adolescent, Adult, Databases, Factual, Female, Hardness, Health Knowledge, Attitudes, Practice, Humans, Male, Middle Aged, Odorants analysis, Sugars analysis, Vanilla chemistry, Young Adult, Choice Behavior, Consumer Behavior, Food Preferences, Taste

Abstract

Descriptive methods are traditionally performed with trained assessors to objectively analyze products, since consumers have long been considered incapable of performing such tests because they are influenced by hedonic evaluations. However, in the last decades, there have been alternative descriptive tests performed by consumers, due to other advantages, such as a rapid sensory profile assessment, reducing cost and time, and Check-all-that-apply (CATA) is an example. Thus, the objective of this work was to compare the performance of trained assessors (n = 15) and consumers using quantitative descriptive analysis (QDA) - traditional method and CATA - alternative method (n = 161 consumers, including acceptance test as well), for 5 samples of semi-sweet hard dough biscuit with different contents of specific ingredients: fructose (0.0 to 6.0%), vanilla aroma (0.0 to 1.2%) and water (9.0 to 13.8%). Results showed that the number of attributes in which trained assessors perceived significant differences was marginally higher (p < .1) than consumers. For smaller formulation differences, trained assessors perceived more (p < .01) attributes presenting significant differences (10) than consumers (2). The sample discrimination presented the same pattern, however trained assessors had greater discriminative power than consumers, i.e., they discriminated samples in more difference levels. The description of the samples was not similar between the methods. The QDA and CATA assessors used different attributes to describe the samples, which reflected in different drivers of liking and disliking if descriptive data come from trained assessors or from consumers. It is concluded that the choice of performing descriptive tests with trained assessors or consumers depends on the purpose of the study., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

14. Vanilla bahiana, a contribution from the Atlantic Forest biodiversity for the production of vanilla: A proteomic approach through high-definition nanoLC/MS.

Author

Lopes EM, Linhares RG, de Oliveira Pires L, Castro RN, Souza GHMF, Koblitz MGB, Cameron LC, and Macedo AF

Subjects

Benzaldehydes, Biodiversity, Food Industry, Forests, Fruit chemistry, Humans, Proteomics methods, Spectrometry, Mass, Electrospray Ionization, Vanilla enzymology, Flavoring Agents analysis, Plant Extracts chemistry, Plant Proteins analysis, Vanilla chemistry

Abstract

Only a few cultivated species of Vanilla are used to produce vanilla, despite the high demand, predatory exploitation, and low genetic variability that threaten the production of natural vanilla. Vanilla bahiana pods from the Atlantic Forest may be an alternative source of natural vanilla. This study applied bottom-up and shotgun proteomics analysis to identify proteins related to flowering, fruiting, and vanilla-flavor production. Extraction solutions, including Tris-HCl buffer, β-mercaptoethanol and SDS, were assayed. SDS proved to be feasible for extraction of Vanilla fruit proteins and could be an alternative to the phenol method of protein extraction. Progenesis QI for Proteomics (QIP) software loaded with an Orchidaceae database identified 2326 proteins in our samples. Among these, 75 were highlighted as useful for the synthesis of compounds related to vanilla flavor, such as vanillin synthase, which was successfully extracted with 1% SDS, which also improved the variety of the extracted proteins. The proteins identified in V. bahiana pods indicate the enzymatic potential of this species, as further validated by quantifying the vanilla in the samples., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

15. Capillary electrophoresis method for the discrimination between natural and artificial vanilla flavor for controlling food frauds.

Author

Lahouidak S, Salghi R, Zougagh M, and Ríos A

Subjects

Benzaldehydes analysis, Chromatography, High Pressure Liquid, Coumarins analysis, Food Quality, Parabens analysis, Electrophoresis, Capillary methods, Flavoring Agents analysis, Vanilla chemistry

Abstract

A capillary electrophoresis method was developed for the determination of coumarin (COUM), ethyl vanillin (EVA), p-hydroxybenzaldehyde (PHB), p-hydroxybenzoic acid (PHBA), vanillin (VAN), vanillic acid (VANA) and vanillic alcohol (VOH) in vanilla products. The measured concentrations are compared to values obtained by liquid chromatography (LC) method. Analytical results, method precision, and accuracy data are presented and limits of detection for the method ranged from 2 to 5 μg/mL. The results obtained are used in monitoring the composition of vanilla flavorings, as well as for confirmation of natural or non-natural origin of vanilla in samples using four selected food samples containing this flavor., (© 2018 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

16. Determination of major aromatic constituents in vanilla using an on-line supercritical fluid extraction coupled with supercritical fluid chromatography.

Author

Liang Y, Liu J, Zhong Q, Shen L, Yao J, Huang T, and Zhou T

Subjects

Chromatography, Supercritical Fluid, Hydrocarbons, Aromatic analysis, Internet, Vanilla chemistry

Abstract

An on-line supercritical fluid extraction coupled with supercritical fluid chromatography method was developed for the determination of four major aromatic constituents in vanilla. The parameters of supercritical fluid extraction were systematically investigated using single factor optimization experiments and response surface methodology by a Box-Behnken design. The modifier ratio, split ratio, and the extraction temperature and pressure were the major parameters which have significant effects on the extraction. While the static extraction time, dynamic extraction time, and recycle time had little influence on the compounds with low polarity. Under the optimized conditions, the relative extraction efficiencies of all the constituents reached 89.0-95.1%. The limits of quantification were in the range of 1.123-4.747 μg. The limits of detection were in the range of 0.3368-1.424 μg. The recoveries of the four analytes were in the range of 76.1-88.9%. The relative standard deviations of intra- and interday precision ranged from 4.2 to 7.6%. Compared with other off-line methods, the present method obtained higher extraction yields for all four aromatic constituents. Finally, this method has been applied to the analysis of vanilla from different sources. On the basis of the results, the on-line supercritical fluid extraction-supercritical fluid chromatography method shows great promise in the analysis of aromatic constituents in natural products., (© 2017 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim.)

Published

2018

17. Sweet Emotion: The Role of Odor-induced Context in the Search Advantage for Happy Facial Expressions.

Author

Damjanovic L, Wilkinson H, and Lloyd J

Subjects

Adolescent, Adult, Animals, Female, Fishes, Humans, Male, Middle Aged, Young Adult, Citrus sinensis chemistry, Facial Expression, Fragaria chemistry, Happiness, Odorants analysis, Vanilla chemistry

Abstract

The current study investigated the extent to which the concurrent presentation of pleasant and unpleasant odors could modulate the perceptual saliency of happy facial expressions in an emotional visual search task. Whilst a search advantage for happy faces was found in the no odor and unpleasant odor conditions, it was abolished under the pleasant odor condition. Furthermore, phasic properties of visual search performance revealed the malleable nature of this happiness advantage. Specifically, attention towards happy faces was optimized at the start of the visual search task for participants presented with pleasant odors, but diminished towards the end. This pattern was reversed for participants in the unpleasant odor condition. These patterns occur through the emotion-inducing capacities of odors and highlight the circumstances in which top-down factors can override perceptually salient facial features in emotional visual search.

Published

2018

18. In vitro magnetic hyperthermia using polyphenol-coated Fe 3 O 4 @γFe 2 O 3 nanoparticles from Cinnamomun verum and Vanilla planifolia: the concert of green synthesis and therapeutic possibilities.

Author

Ramirez-Nuñez AL, Jimenez-Garcia LF, Goya GF, Sanz B, and Santoyo-Salazar J

Subjects

Animals, Cell Line, Mice, Nanoparticles ultrastructure, Spectroscopy, Fourier Transform Infrared, X-Ray Diffraction, Cinnamomum chemistry, Ferric Compounds chemistry, Green Chemistry Technology methods, Hyperthermia, Induced, Magnetics, Nanoparticles chemistry, Polyphenols chemistry, Vanilla chemistry

Published

2018

19. A re-evaluation of the final step of vanillin biosynthesis in the orchid Vanilla planifolia.

Author

Yang H, Barros-Rios J, Kourteva G, Rao X, Chen F, Shen H, Liu C, Podstolski A, Belanger F, Havkin-Frenkel D, and Dixon RA

Subjects

Amino Acid Sequence, Coumaric Acids metabolism, Escherichia coli, Propionates, Vanilla enzymology, Benzaldehydes metabolism, Cysteine Proteases metabolism, Orchidaceae chemistry, Vanilla chemistry

Abstract

A recent publication describes an enzyme from the vanilla orchid Vanilla planifolia with the ability to convert ferulic acid directly to vanillin. The authors propose that this represents the final step in the biosynthesis of vanillin, which is then converted to its storage form, glucovanillin, by glycosylation. The existence of such a "vanillin synthase" could enable biotechnological production of vanillin from ferulic acid using a "natural" vanilla enzyme. The proposed vanillin synthase exhibits high identity to cysteine proteases, and is identical at the protein sequence level to a protein identified in 2003 as being associated with the conversion of 4-coumaric acid to 4-hydroxybenzaldehyde. We here demonstrate that the recombinant cysteine protease-like protein, whether expressed in an in vitro transcription-translation system, E. coli, yeast, or plants, is unable to convert ferulic acid to vanillin. Rather, the protein is a component of an enzyme complex that preferentially converts 4-coumaric acid to 4-hydroxybenzaldehyde, as demonstrated by the purification of this complex and peptide sequencing. Furthermore, RNA sequencing provides evidence that this protein is expressed in many tissues of V. planifolia irrespective of whether or not they produce vanillin. On the basis of our results, V. planifolia does not appear to contain a cysteine protease-like "vanillin synthase" that can, by itself, directly convert ferulic acid to vanillin. The pathway to vanillin in V. planifolia is yet to be conclusively determined., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

20. Novel Creation of a Rum Flavor Lexicon Through the Use of Web-Based Material.

Author

Ickes CM, Lee SY, and Cadwallader KR

Subjects

Humans, Odorants, Taste, Alcoholic Beverages analysis, Flavoring Agents analysis, Fruit chemistry, Internet, Vanilla chemistry

Abstract

Flavor lexicons help both manufacturers and consumers communicate the intricacies of flavor nuances they experience within a product. Lexicon development typically requires the use of a trained sensory panel to evaluate a representative sample set of the product category to generate terms that describe certain product attributes. In the case of rum, there is considerable variation in terms of style, flavor characteristics, and the sheer number of rums produced making it difficult to create a lexicon in this manner. Furthermore, sensory fatigue from the high alcohol content can also hinder lexicon development. This is the first study to create a rum flavor lexicon using web-based material (comprising blogs, company descriptions, and review websites) to minimize the time and cost and to allow for the inclusion of a greater number of rum products. Reviews for over 1000 different rums were utilized, comprising evaluations that described an array of rums, including white, gold, aged, and agricole. Each evaluation was coded for aroma, aroma-by-mouth, and taste attributes using NVivo TM software to amass the sensory terms. Word frequency analysis was conducted on coded attributes. The analysis yielded 147 terms, sorted into 22 different categories. The most prominent terms included vanilla, oak, caramel, fruity, molasses, and baking spices., (© 2017 Institute of Food Technologists®.)

Published

2017

21. Suppression of cancer stem-like phenotypes in NCI-H460 lung cancer cells by vanillin through an Akt-dependent pathway.

Author

Srinual S, Chanvorachote P, and Pongrakhananon V

Subjects

AC133 Antigen metabolism, Aldehyde Dehydrogenase metabolism, Aldehyde Dehydrogenase 1 Family, Cell Line, Tumor, Colony-Forming Units Assay, Humans, Nanog Homeobox Protein metabolism, Octamer Transcription Factor-3 metabolism, Phosphorylcholine analogs & derivatives, Phosphorylcholine pharmacology, Proteasome Endopeptidase Complex metabolism, Proto-Oncogene Proteins c-akt antagonists & inhibitors, Retinal Dehydrogenase, Spheroids, Cellular drug effects, Vanilla chemistry, Benzaldehydes therapeutic use, Carcinoma, Non-Small-Cell Lung drug therapy, Lung Neoplasms drug therapy, Neoplastic Stem Cells drug effects, Proto-Oncogene Proteins c-akt metabolism, Signal Transduction drug effects

Abstract

Cancer stem cells (CSCs) have been reported as a major cause of cancer metastasis and the failure of cancer treatment. Cumulative studies have indicated that protein kinase B (Akt) and its downstream signaling pathway, including CSC markers, play a critical role in the aggressive behavior of this cancer. In this study, we investigated whether vanillin, a major component in Vanilla planifolia seed, could suppress cancer stemness phenotypes and related proteins in the human non-small cell lung cancer NCI‑H460 cell line. A non-toxic concentration of vanillin suppressed spheroid and colony formation, two hallmarks of the cancer stemness phenotype, in vitro in NCI‑H460 cells. Western blot analysis revealed that the CSC markers CD133 and ALDH1A1 and the associated transcription factors, Oct4 and Nanog, were extensively downregulated by vanillin. Vanillin also attenuated the expression and activity of Akt, a transcription regulator upstream of CSCs, an action that was confirmed by treatment with the Akt inhibitor perifosine. Furthermore, the ubiquitination of Akt was elevated in response to vanillin treatment prior to proteasomal degradation. This finding indicates that vanillin can inhibit cancer stem cell-like behavior in NCI‑H460 cells through the induction of Akt-proteasomal degradation and reduction of downstream CSC transcription factors. This inhibitory effect of vanillin may be an alternative approach in the treatment against lung cancer metastasis and its resistance to chemotherapy.

Published

2017

22. On the effects of higher alcohols on red wine aroma.

Author

de-la-Fuente-Blanco A, Sáenz-Navajas MP, and Ferreira V

Subjects

Adult, Butanols analysis, Female, Flavoring Agents analysis, Fruit chemistry, Humans, Male, Pentanols analysis, Phenylethyl Alcohol analysis, Propanols analysis, Sulfides analysis, Vanilla chemistry, Alcohols analysis, Odorants analysis, Smell physiology, Wine analysis

Abstract

This work aims to assess the aromatic sensory contribution of the four most relevant wine higher alcohols (isobutanol, isoamyl alcohol, methionol and β-phenylethanol) on red wine aroma. The four alcohols were added at two levels of concentration, within the natural range of occurrence, to eight different wine models (WM), close reconstitutions of red wines differing in levels of fruity (F), woody (W), animal (A) or humidity (H) notes. Samples were submitted to discriminant and descriptive sensory analysis. Results showed that the contribution of methionol and β-phenylethanol to wine aroma was negligible and confirmed the sensory importance of the pair isobutanol-isoamyl alcohol. Sensory effects were only evident in WM containing intense aromas, demonstrating a strong dependence on the aromatic context. Higher alcohols significantly suppress strawberry/lactic/red fruity, coconut/wood/vanilla and humidity/TCA notes, but not the leather/animal/ink note. The spirit/alcoholic/solvent character generated by higher alcohols has been shown to be wine dependent., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

23. HKUST-1 as a Heterogeneous Catalyst for the Synthesis of Vanillin.

Author

Yépez R, Illescas JF, Gijón P, Sánchez-Sánchez M, González-Zamora E, Santillan R, Álvarez JR, Ibarra IA, and Aguilar-Pliego J

Subjects

Chromatography, High Pressure Liquid, Plant Extracts chemistry, Seeds chemistry, Solvents, Vanilla chemistry, Benzaldehydes chemistry, Catalysis, Coumaric Acids chemistry

Abstract

Vanillin (4-hydoxy-3-methoxybenzaldehyde) is the main component of the extract of vanilla bean. The natural vanilla scent is a mixture of approximately 200 different odorant compounds in addition to vanillin. The natural extraction of vanillin (from the orchid Vanilla planifolia, Vanilla tahitiensis and Vanilla pompon) represents only 1% of the worldwide production and since this process is expensive and very long, the rest of the production of vanillin is synthesized. Many biotechnological approaches can be used for the synthesis of vanillin from lignin, phenolic stilbenes, isoeugenol, eugenol, guaicol, etc., with the disadvantage of harming the environment since these processes use strong oxidizing agents and toxic solvents. Thus, eco-friendly alternatives on the production of vanillin are very desirable and thus, under current investigation. Porous coordination polymers (PCPs) are a new class of highly crystalline materials that recently have been used for catalysis. HKUST-1 (Cu3(BTC)2(H2O)3, BTC = 1,3,5-benzene-tricarboxylate) is a very well known PCP which has been extensively studied as a heterogeneous catalyst. Here, we report a synthetic strategy for the production of vanillin by the oxidation of trans-ferulic acid using HKUST-1 as a catalyst.

Published

2016

24. Not All Flavor Expertise Is Equal: The Language of Wine and Coffee Experts.

Author

Croijmans I and Majid A

Subjects

Flavoring Agents chemistry, Flavoring Agents isolation & purification, Humans, Linguistics, Smell physiology, Vanilla chemistry, Volatile Organic Compounds chemistry, Coffee chemistry, Taste, Taste Perception, Wine analysis

Abstract

People in Western cultures are poor at naming smells and flavors. However, for wine and coffee experts, describing smells and flavors is part of their daily routine. So are experts better than lay people at conveying smells and flavors in language? If smells and flavors are more easily linguistically expressed by experts, or more "codable", then experts should be better than novices at describing smells and flavors. If experts are indeed better, we can also ask how general this advantage is: do experts show higher codability only for smells and flavors they are expert in (i.e., wine experts for wine and coffee experts for coffee) or is their linguistic dexterity more general? To address these questions, wine experts, coffee experts, and novices were asked to describe the smell and flavor of wines, coffees, everyday odors, and basic tastes. The resulting descriptions were compared on a number of measures. We found expertise endows a modest advantage in smell and flavor naming. Wine experts showed more consistency in how they described wine smells and flavors than coffee experts, and novices; but coffee experts were not more consistent for coffee descriptions. Neither expert group was any more accurate at identifying everyday smells or tastes. Interestingly, both wine and coffee experts tended to use more source-based terms (e.g., vanilla) in descriptions of their own area of expertise whereas novices tended to use more evaluative terms (e.g., nice). However, the overall linguistic strategies for both groups were en par. To conclude, experts only have a limited, domain-specific advantage when communicating about smells and flavors. The ability to communicate about smells and flavors is a matter not only of perceptual training, but specific linguistic training too.

Published

2016

25. Volatile composition and sensory properties of Vanilla × tahitensis bring new insights for vanilla quality control.

Author

Brunschwig C, Rochard S, Pierrat A, Rouger A, Senger-Emonnot P, George G, and Raharivelomanana P

Subjects

Anisoles analysis, Cresols analysis, Flavoring Agents analysis, Gas Chromatography-Mass Spectrometry, Guaiacol analysis, Papua New Guinea, Phenols analysis, Plant Extracts chemistry, Polynesia, Quality Control, Smell, Species Specificity, Taste, Sensation, Vanilla chemistry, Vanilla classification, Volatile Organic Compounds analysis

Abstract

Background: Vanilla × tahitensis produced in French Polynesia has a unique flavour among vanilla species. However, data on volatiles and sensory properties remain limited. In this study, the volatile composition and sensory properties of V. × tahitensis from three Polynesian cultivars and two origins (French Polynesia/Papua New Guinea) were determined by gas chromatography-mass spectrometry and quantitative descriptive analysis, respectively, and compared to Vanilla planifolia., Results: Vanilla species, origins and cultivars were differentiated by their volatile and sensory profiles using principal component analysis. The V. × tahitensis flavour from French Polynesia was characterized by a well-balanced sensory profile, having strong anise and caramel notes due to high levels of anisyl compounds. V. × tahitensis from Papua New Guinea was distinct from that of French Polynesia, having strong spicy, fruity, brown rum notes due to p-vinylguaiacol, p-cresol and esters. Vanilla planifolia showed stronger phenolic, woody, smoky notes due to guaiacol, creosol and phenol, which were found to be biomarkers of the species. Vanilla sensory properties were linked by partial least squares regression to key volatile compounds like guaiacol or creosol, which are indicators of lower quality., Conclusion: This study brings new insights to vanilla quality control, with a focus on key volatile compounds, irrespective of origin., (© 2015 Society of Chemical Industry.)

Published

2016

26. Contribution of Bacillus Isolates to the Flavor Profiles of Vanilla Beans Assessed through Aroma Analysis and Chemometrics.

Author

Gu F, Chen Y, Fang Y, Wu G, and Tan L

Subjects

Bacillus metabolism, Bacillus subtilis metabolism, Electronic Nose, Food Technology methods, Gas Chromatography-Mass Spectrometry, Humans, Hydrolysis, Smell physiology, Benzaldehydes analysis, Flavoring Agents analysis, Seeds chemistry, Vanilla chemistry, Volatile Organic Compounds analysis

Abstract

Colonizing Bacillus in vanilla (Vanilla planifolia Andrews) beans is involved in glucovanillin hydrolysis and vanillin formation during conventional curing. The flavor profiles of vanilla beans under Bacillus-assisted curing were analyzed through gas chromatography-mass spectrometry, electronic nose, and quantitative sensory analysis. The flavor profiles were analytically compared among the vanilla beans under Bacillus-assisted curing, conventional curing, and non-microorganism-assisted curing. Vanilla beans added with Bacillus vanillea XY18 and Bacillus subtilis XY20 contained higher vanillin (3.58%±0.05% and 3.48%±0.10%, respectively) than vanilla beans that underwent non-microorganism-assisted curing and conventional curing (3.09%±0.14% and 3.21%±0.15%, respectively). Forty-two volatiles were identified from endogenous vanilla metabolism. Five other compounds were identified from exogenous Bacillus metabolism. Electronic nose data confirmed that vanilla flavors produced through the different curing processes were easily distinguished. Quantitative sensory analysis confirmed that Bacillus-assisted curing increased vanillin production without generating any unpleasant sensory attribute. Partial least squares regression further provided a correlation model of different measurements. Overall, we comparatively analyzed the flavor profiles of vanilla beans under Bacillus-assisted curing, indirectly demonstrated the mechanism of vanilla flavor formation by microbes.

Published

2015

27. Involvement of Colonizing Bacillus Isolates in Glucovanillin Hydrolysis during the Curing of Vanilla planifolia Andrews.

Author

Chen Y, Gu F, Li J, He S, Xu F, and Fang Y

Subjects

Bacillus enzymology, Cluster Analysis, DNA, Ribosomal chemistry, DNA, Ribosomal genetics, Hydrolysis, Molecular Sequence Data, Phylogeny, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Bacillus metabolism, Benzaldehydes metabolism, Vanilla chemistry, Vanilla microbiology, beta-Glucosidase metabolism

Abstract

Vanilla beans were analyzed using biochemical methods, which revealed that glucovanillin disperses from the inner part to the outer part of the vanilla bean during the curing process and is simultaneously hydrolyzed by β-d-glucosidase. Enzymatic hydrolysis was found to occur on the surface of the vanilla beans. Transcripts of the β-d-glucosidase gene (bgl) of colonizing microorganisms were detected. The results directly indicate that colonizing microorganisms are involved in glucovanillin hydrolysis. Phylogenetic analysis based on 16S rRNA gene sequences showed that the colonizing microorganisms mainly belonged to the Bacillus genus. bgl was detected in all the isolates and presented clustering similar to that of the isolate taxonomy. Furthermore, inoculation of green fluorescent protein-tagged isolates showed that the Bacillus isolates can colonize vanilla beans. Glucovanillin was metabolized as the sole source of carbon in a culture of the isolates within 24 h. These isolates presented unique glucovanillin degradation capabilities. Vanillin was the major volatile compound in the culture. Other compounds, such as α-cubebene, β-pinene, and guaiacol, were detected in some isolate cultures. Colonizing Bacillus isolates were found to hydrolyze glucovanillin in culture, indirectly demonstrating the involvement of colonizing Bacillus isolates in glucovanillin hydrolysis during the vanilla curing process. Based on these results, we conclude that colonizing Bacillus isolates produce β-d-glucosidase, which mediates glucovanillin hydrolysis and influences flavor formation., (Copyright © 2015, American Society for Microbiology. All Rights Reserved.)

Published

2015

28. Comment on Authenticity and traceability of vanilla flavors by analysis of stable isotopes of carbon and hydrogen.

Author

Greule M, Mosandl A, Hamilton JT, and Keppler F

Subjects

Flavoring Agents analysis, Food Contamination analysis, Plant Extracts analysis, Vanilla chemistry

Published

2015

29. Rebuttal to Comment on Authenticity and traceability of vanilla flavors by analysis of stable isotopes of carbon and hydrogen.

Author

Hansen AM, Fromberg A, and Frandsen HL

Subjects

Flavoring Agents analysis, Food Contamination analysis, Plant Extracts analysis, Vanilla chemistry

Published

2015

30. Easy Extraction Method To Evaluate δ13C Vanillin by Liquid Chromatography-Isotopic Ratio Mass Spectrometry in Chocolate Bars and Chocolate Snack Foods.

Author

Bononi M, Quaglia G, and Tateo F

Subjects

Carbon Isotopes chemistry, Chromatography, High Pressure Liquid instrumentation, Chromatography, High Pressure Liquid methods, Mass Spectrometry methods, Plant Extracts chemistry, Snacks, Benzaldehydes analysis, Benzaldehydes isolation & purification, Cacao chemistry, Chemical Fractionation methods, Flavoring Agents analysis, Flavoring Agents isolation & purification, Plant Extracts isolation & purification, Vanilla chemistry

Abstract

An easy extraction method that permits the use of a liquid chromatography-isotopic ratio mass spectrometry (LC-IRMS) system to evaluate δ(13)C of vanillin in chocolate products and industrial flavorings is presented. The method applies the determination of stable isotopes of carbon to discriminate between natural vanillin from vanilla beans and vanillin from other sources (mixtures from beans, synthesis, or biotechnology). A series of 13 chocolate bars and chocolate snack foods available on the Italian market and 8 vanilla flavorings derived from industrial quality control processes were analyzed. Only 30% of products considered in this work that declared "vanilla" on the label showed data that permitted the declaration "vanilla" according to European Union (EU) Regulation 1334/2008. All samples not citing "vanilla" or "natural flavoring" on the label gave the correct declaration. The extraction method is presented with data useful for statistical evaluation.

Published

2015

31. Secondary metabolite localization by autofluorescence in living plant cells.

Author

Talamond P, Verdeil JL, and Conéjéro G

Subjects

Fruit chemistry, Image Processing, Computer-Assisted, Phenols analysis, Plant Leaves chemistry, Coffea chemistry, Microscopy, Fluorescence, Multiphoton methods, Plant Cells chemistry, Secondary Metabolism, Vanilla chemistry

Abstract

Autofluorescent molecules are abundant in plant cells and spectral images offer means for analyzing their spectra, yielding information on their accumulation and function. Based on their fluorescence characteristics, an imaging approach using multiphoton microscopy was designed to assess localization of the endogenous fluorophores in living plant cells. This method, which requires no previous treatment, provides an effective experimental tool for discriminating between multiple naturally-occurring fluorophores in living-tissues. Combined with advanced Linear Unmixing, the spectral analysis extends the possibilities and enables the simultaneous detection of fluorescent molecules reliably separating overlapping emission spectra. However, as with any technology, the possibility for artifactual results does exist. This methodological article presents an overview of the applications of tissular and intra-cellular localization of these intrinsic fluorophores in leaves and fruits (here for coffee and vanilla). This method will provide new opportunities for studying cellular environments and the behavior of endogenous fluorophores in the intracellular environment.

Published

2015

32. Efficiency of vanilla, patchouli and ylang ylang essential oils stabilized by iron oxide@C14 nanostructures against bacterial adherence and biofilms formed by Staphylococcus aureus and Klebsiella pneumoniae clinical strains.

Author

Bilcu M, Grumezescu AM, Oprea AE, Popescu RC, Mogoșanu GD, Hristu R, Stanciu GA, Mihailescu DF, Lazar V, Bezirtzoglou E, and Chifiriuc MC

Subjects

Anti-Bacterial Agents chemistry, Anti-Bacterial Agents pharmacology, Cananga chemistry, Klebsiella Infections drug therapy, Microbial Sensitivity Tests, Oils, Volatile chemistry, Sesquiterpenes chemistry, Sesquiterpenes pharmacology, Staphylococcal Infections drug therapy, Vanilla chemistry, Bacterial Adhesion drug effects, Biofilms drug effects, Ferric Compounds chemistry, Klebsiella pneumoniae chemistry, Nanostructures chemistry, Oils, Volatile pharmacology, Staphylococcus aureus drug effects

Abstract

Biofilms formed by bacterial cells are associated with drastically enhanced resistance against most antimicrobial agents, contributing to the persistence and chronicization of the microbial infections and to therapy failure. The purpose of this study was to combine the unique properties of magnetic nanoparticles with the antimicrobial activity of three essential oils to obtain novel nanobiosystems that could be used as coatings for catheter pieces with an improved resistance to Staphylococcus aureus and Klebsiella pneumoniae clinical strains adherence and biofilm development. The essential oils of ylang ylang, patchouli and vanilla were stabilized by the interaction with iron oxide@C14 nanoparticles to be further used as coating agents for medical surfaces. Iron oxide@C14 was prepared by co-precipitation of Fe+2 and Fe+3 and myristic acid (C14) in basic medium. Vanilla essential oil loaded nanoparticles pelliculised on the catheter samples surface strongly inhibited both the initial adherence of S. aureus cells (quantified at 24 h) and the development of the mature biofilm quantified at 48 h. Patchouli and ylang-ylang essential oils inhibited mostly the initial adherence phase of S. aureus biofilm development. In the case of K. pneumoniae, all tested nanosystems exhibited similar efficiency, being active mostly against the adherence K. pneumoniae cells to the tested catheter specimens. The new nanobiosystems based on vanilla, patchouli and ylang-ylang essential oils could be of a great interest for the biomedical field, opening new directions for the design of film-coated surfaces with anti-adherence and anti-biofilm properties.

Published

2014

33. Authenticity and traceability of vanilla flavors by analysis of stable isotopes of carbon and hydrogen.

Author

Hansen AM, Fromberg A, and Frandsen HL

Subjects

Benzaldehydes, Carbon Isotopes analysis, Deuterium analysis, Quality Control, Vanilla classification, Flavoring Agents analysis, Food Contamination analysis, Plant Extracts analysis, Vanilla chemistry

Abstract

Authenticity and traceability of vanilla flavors were investigated using gas chromatography-isotope ratio mass spectrometry (GC-IRMS). Vanilla flavors produced by chemical synthesis (n = 2), fermentation (n = 1), and extracted from two different species of the vanilla orchid (n = 79) were analyzed. The authenticity of the flavor compound vanillin was evaluated on the basis of measurements of ratios of carbon stable isotopes (δ(13)C). It was found that results of δ(13)C for vanillin extracted from Vanilla planifolia and Vanilla tahitensis were significantly different (t test) and that it was possible to differentiate these two groups of natural vanillin from vanillin produced otherwise. Vanilla flavors were also analyzed for ratios of hydrogen stable isotopes (δ(2)H). A graphic representation of δ(13)C versus δ(2)H revealed that vanillin extracted from pods grown in adjacent geographic origins grouped together. Accordingly, values of δ(13)C and δ(2)H can be used for studies of authenticity and traceability of vanilla flavors.

Published

2014

34. Vanillin formation from ferulic acid in Vanilla planifolia is catalysed by a single enzyme.

Author

Gallage NJ, Hansen EH, Kannangara R, Olsen CE, Motawia MS, Jørgensen K, Holme I, Hebelstrup K, Grisoni M, and Møller BL

Subjects

Benzaldehydes chemistry, Biocatalysis, Biosynthetic Pathways, Coumaric Acids chemistry, Plant Proteins chemistry, Plant Proteins genetics, Vanilla chemistry, Vanilla genetics, Benzaldehydes metabolism, Coumaric Acids metabolism, Plant Proteins metabolism, Vanilla enzymology

Abstract

Vanillin is a popular and valuable flavour compound. It is the key constituent of the natural vanilla flavour obtained from cured vanilla pods. Here we show that a single hydratase/lyase type enzyme designated vanillin synthase (VpVAN) catalyses direct conversion of ferulic acid and its glucoside into vanillin and its glucoside, respectively. The enzyme shows high sequence similarity to cysteine proteinases and is specific to the substitution pattern at the aromatic ring and does not metabolize caffeic acid and p-coumaric acid as demonstrated by coupled transcription/translation assays. VpVAN localizes to the inner part of the vanilla pod and high transcript levels are found in single cells located a few cell layers from the inner epidermis. Transient expression of VpVAN in tobacco and stable expression in barley in combination with the action of endogenous alcohol dehydrogenases and UDP-glucosyltransferases result in vanillyl alcohol glucoside formation from endogenous ferulic acid. A gene encoding an enzyme showing 71% sequence identity to VpVAN was identified in another vanillin-producing plant species Glechoma hederacea and was also shown to be a vanillin synthase as demonstrated by transient expression in tobacco.

Published

2014

35. Comparison of four kinds of extraction techniques and kinetics of microwave-assisted extraction of vanillin from Vanilla planifolia Andrews.

Author

Dong Z, Gu F, Xu F, and Wang Q

Subjects

Benzaldehydes chemistry, Chemical Fractionation instrumentation, Chromatography, High Pressure Liquid, Kinetics, Microwaves, Plant Extracts chemistry, Vanilla radiation effects, Benzaldehydes isolation & purification, Chemical Fractionation methods, Plant Extracts isolation & purification, Vanilla chemistry

Abstract

Vanillin yield, microscopic structure, antioxidant activity and overall odour of vanilla extracts obtained by different treatments were investigated. MAE showed the strongest extraction power, shortest time and highest antioxidant activity. Maceration gave higher vanillin yields than UAE and PAE, similar antioxidant activity with UAE, but longer times than UAE and PAE. Overall odour intensity of different vanilla extracts obtained by UAE, PAE and MAE were similar, while higher than maceration extracts. Then, powered vanilla bean with a sample/solvent ratio of 4 g/100 mL was selected as the optimum condition for MAE. Next, compared with other three equations, two-site kinetic equation with lowest RMSD and highest R²(adj) was shown to be more suitable in describing the kinetics of vanillin extraction. By fitting the parameters C(eq), k₁, k₂, and f, a kinetics model was constructed to describe vanillin extraction in terms of irradiation power, ethanol concentration, and extraction time., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2014

36. Optimized production of vanillin from green vanilla pods by enzyme-assisted extraction combined with pre-freezing and thawing.

Author

Zhang Y, Mo L, Chen F, Lu M, Dong W, Wang Q, Xu F, and Gu F

Subjects

Aspergillus niger enzymology, Benzaldehydes chemistry, Flavoring Agents chemistry, Freezing, Plant Extracts chemistry, Vanilla chemistry, Benzaldehydes isolation & purification, Flavoring Agents isolation & purification, Polygalacturonase chemistry, beta-Glucosidase chemistry

Abstract

Production of vanillin from natural green vanilla pods was carried out by enzyme-assisted extraction combined with pre-freezing and thawing. In the first step the green vanilla pods were pre-frozen and then thawed to destroy cellular compartmentation. In the second step pectinase from Aspergillus niger was used to hydrolyze the pectin between the glucovanillin substrate and β-glucosidase. Four main variables, including enzyme amount, reaction temperature, time and pH, which were of significance for the vanillin content were studied and a central composite design (CCD) based on the results of a single-factor tests was used. Response surface methodology based on CCD was employed to optimize the combination of enzyme amount, reaction temperature, time, and pH for maximum vanillin production. This resulted in the optimal condition in regards of the enzyme amount, reaction temperature, time, and pH at 84.2 mg, 49.5 °C, 7.1 h, and 4.2, respectively. Under the optimal condition, the experimental yield of vanillin was 4.63% ± 0.11% (dwb), which was in good agreement with the value predicted by the model. Compared to the traditional curing process (1.98%) and viscozyme extract (2.36%), the optimized method for the vanillin production significantly increased the yield by 133.85% and 96%, respectively.

Published

2014

37. Development and evaluation of novel flavour microcapsules containing vanilla oil using complex coacervation approach.

Author

Yang Z, Peng Z, Li J, Li S, Kong L, Li P, and Wang Q

Subjects

Chitosan chemistry, Iridoids chemistry, Microscopy, Confocal, Microscopy, Electron, Scanning, Spectroscopy, Fourier Transform Infrared, Capsules chemistry, Flavoring Agents chemistry, Food Handling methods, Plant Oils chemistry, Vanilla chemistry

Abstract

A novel flavour microcapsule containing vanilla oil (VO) was developed using complex coacervation approach, aimed to control release of VO and enhance its thermostability for spice application in food industry. Viscosity of chitosan (CS) and VO/CS ratio were optimised for fabrication of microcapsules. The flavour microcapsules were evaluated by scanning electron micrograph (SEM), laser confocal microscopy (LSCM), particle size analyser, infrared spectrometer (FT-IR), thermal analysis and controlled-release analysis. The microcapsules were in spherical with good dispersibility when moderate viscosity CS was used. 94.2% of encapsulation efficiency was achieved in VO/CS ratio of 2:1. The FT-IR study proved chemical cross-linking reaction occurred between genipin and chitosan, but a physical interaction between CS and VO. A core-shell structure of microcapsule was confirmed by LSCM, which was beneficial to improve the thermostability of VO in microcapsule. Moreover, VO could be remained about 60% in the microcapsules after release for 30 days, which demonstrated the flavour microcapsules had good potential to serve as a high quality food spice with long residual action and high thermostability., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2014

38. Use of just-about-right scales and penalty analysis to determine appropriate concentrations of stevia sweeteners for vanilla yogurt.

Author

Narayanan P, Chinnasamy B, Jin L, and Clark S

Subjects

Aspartame analysis, Fermentation, Sucrose analysis, Diterpenes, Kaurane analysis, Glucosides analysis, Stevia chemistry, Sweetening Agents analysis, Taste, Vanilla chemistry, Yogurt analysis

Abstract

With the mainstream emergence of natural sweeteners such as stevia, which is available in different commercial formulations, suitability for yogurt needs to be validated. The present study aimed to determine the appropriate concentration level of 3 processed stevia sweeteners/supplements in commercial plain low-fat yogurt flavored with natural vanilla. Three different levels of sucrose, aspartame, an erythritol and 95% rebaudiana A stevia sweetener, a 95% pure mix of maltodextrin and steviol glycosides, and a cold water stevia extract were used in the study. The just-about-right level for each sweetener and consumer acceptability of each naturally flavored low-fat vanilla yogurt were evaluated. Results from penalty analysis demonstrated that only 0.7% of stevia containing maltodextrin and 95% steviol glycoside was necessary, whereas higher levels (between 4.0 to 5.5%) were more appropriate for stevia containing erythritol and 95% rebaudiana A or cold water extract of stevia, respectively. The concentrations of stevia sweeteners used influenced the perceived sweetness and sourness. In general, consumers disliked the yogurt sweetened with stevia or aspartame, and neither disliked nor liked the yogurt sweetened with sucrose, which was largely driven by perceived sourness of the base yogurt. The findings underline the importance of careful selection of stevia type and concentration as well as optimizing yogurt cultures and fermentation conditions before product launch., (Copyright © 2014 American Dairy Science Association. Published by Elsevier Inc. All rights reserved.)

Published

2014

39. Determination of vanillin in vanilla perfumes and air by capillary electrophoresis.

Author

Minematsu S, Xuan GS, and Wu XZ

Subjects

Adsorption, Calibration, Carbon chemistry, Chromatography, High Pressure Liquid, Hydrogen-Ion Concentration, Molecular Weight, Reference Standards, Solutions, Solvents, Air analysis, Benzaldehydes analysis, Electrophoresis, Capillary methods, Perfume analysis, Vanilla chemistry

Abstract

The present study investigated capillary electrophoretic detection of vanillin in vanilla perfume and air. An UV-absorbance detector was used in a home-made capillary electrophoretic instrument. A fused silica capillary (outer diameter: 364 μm, inner diameter: 50 μm) was used as a separation capillary, and a high electric voltage (20 kV) was applied across the two ends of the capillary. Total length of the capillary was 70 cm, and the effective length was 55 cm. Experimental results showed that the vanillin peak was detected at about 600, 450, and 500 seconds when pH of running buffers in CE were 7.2, 9.3, and 11.5, respectively. The peak area of vanillin was proportional to its concentration in the range of 0-10(-2) mol/L. The detection limit was about 10(-5) mol/L. Vanillin concentration in a 1% vanilla perfume sample was determined to be about 3×10(-4) mol/L, agreed well with that obtained by a HPLC method. Furthermore, determination of vanillin in air by combination of CE and active carbon adsorption method was investigated., (Copyright © 2013 The Research Centre for Eco-Environmental Sciences, Chinese Academy of Sciences. Published by Elsevier B.V. All rights reserved.)

Published

2013

40. Use of laser ablation-inductively coupled plasma-time of flight-mass spectrometry to identify the elemental composition of vanilla and determine the geographic origin by discriminant function analysis.

Author

Hondrogiannis EM, Ehrlinger E, Poplaski A, and Lisle M

Subjects

Calibration, Discriminant Analysis, Indonesia, Laser Therapy, Madagascar, Mass Spectrometry standards, Papua New Guinea, Reference Standards, Uganda, Food Analysis methods, Mass Spectrometry methods, Vanilla chemistry

Abstract

A total of 11 elements found in 25 vanilla samples from Uganda, Madagascar, Indonesia, and Papua New Guinea were measured by laser ablation-inductively coupled plasma-time-of-flight-mass spectrometry (LA-ICP-TOF-MS) for the purpose of collecting data that could be used to discriminate among the origins. Pellets were prepared of the samples, and elemental concentrations were obtained on the basis of external calibration curves created using five National Institute of Standards and Technology (NIST) standards and one Chinese standard with (13)C internal standardization. These curves were validated using NIST 1573a (tomato leaves) as a check standard. Discriminant analysis was used to successfully classify the vanilla samples by their origin. Our method illustrates the feasibility of using LA-ICP-TOF-MS with an external calibration curve for high-throughput screening of spice screening analysis.

Published

2013

41. Antimicrobial potential of flavoring ingredients against Bacillus cereus in a milk-based beverage.

Author

Pina-Pérez MC, Rodrigo D, and Martínez-López A

Subjects

Animals, Bacillus cereus drug effects, Bacillus cereus growth & development, Cacao chemistry, Cinnamomum zeylanicum chemistry, Dose-Response Relationship, Drug, Eggs microbiology, Food Additives analysis, Food Contamination prevention & control, Food Microbiology, Food Preservation methods, Models, Theoretical, Pimpinella chemistry, Temperature, Vanilla chemistry, Anti-Bacterial Agents pharmacology, Bacillus cereus isolation & purification, Beverages microbiology, Food Additives pharmacology, Milk microbiology

Abstract

Natural ingredients--cinnamon, cocoa, vanilla, and anise--were assessed based on Bacillus cereus vegetative cell growth inhibition in a mixed liquid whole egg and skim milk beverage (LWE-SM), under different conditions: ingredient concentration (1, 2.5, and 5% [wt/vol]) and incubation temperature (5, 10, and 22 °C). According to the results obtained, ingredients significantly (p<0.05) reduced bacterial growth when supplementing the LWE-SM beverage. B. cereus behavior was mathematically described for each substrate by means of a modified Gompertz equation. Kinetic parameters, lag time, and maximum specific growth rate were obtained. Cinnamon was the most bacteriostatic ingredient and cocoa the most bactericidal one when they were added at 5% (wt/vol) and beverages were incubated at 5 °C. The bactericidal effect of cocoa 5% (wt/vol) reduced final B. cereus log10 counts (log Nf, log10 (colony-forming units/mL)) by 4.10 ± 0.21 log10 cycles at 5 °C.

Published

2013

42. Flavoring extracts of Hemidesmus indicus roots and Vanilla planifolia pods exhibit in vitro acetylcholinesterase inhibitory activities.

Author

Kundu A and Mitra A

Subjects

Alzheimer Disease drug therapy, Benzaldehydes pharmacology, Food Additives, Kinetics, Nervous System Diseases drug therapy, Phytotherapy, Plant Roots chemistry, Seeds chemistry, Cholinesterase Inhibitors pharmacology, Flavoring Agents chemistry, Hemidesmus chemistry, Plant Extracts pharmacology, Vanilla chemistry

Abstract

Acetylcholinesterase inhibitors (AChEIs) are important for treatment of Alzheimer's disease and other neurological disorders. Search for potent and safe AChEIs from plant sources still continues. In the present work, we explored fragrant plant extracts that are traditionally used in flavoring foods, namely, Hemidesmus indicus and Vanilla planifolia, as possible sources for AChEI. Root and pod extracts of H. indicus and V. planifolia, respectively, produce fragrant phenolic compounds, 2-hydroxy-4-methoxybenzaldehyde (MBALD) and 4-hydroxy-3-methoxybenzaldehyde (vanillin). These methoxybenzaldehydes were shown to have inhibitory potential against acetylcholinesterase (AChE). Vanillin (IC50 = 0.037 mM) was detected as more efficient inhibitor than MBALD (IC50 = 0.047 mM). This finding was supported by kinetic analysis. Thus, plant-based food flavoring agents showed capacity in curing Alzheimer's disease and other neurological dysfunctions.

Published

2013

43. Biological activity of liposomal vanillin.

Author

Castan L, Del Toro G, Fernández AA, González M, Ortíz E, and Lobo D

Subjects

Anemia, Sickle Cell blood, Anemia, Sickle Cell drug therapy, Antioxidants chemistry, Antisickling Agents chemistry, Benzaldehydes chemistry, Chemistry, Pharmaceutical, Drug Carriers chemistry, Drug Compounding, Erythrocytes drug effects, Humans, Liposomes chemistry, Plant Extracts chemistry, Vanilla chemistry, Antioxidants pharmacology, Antisickling Agents pharmacology, Benzaldehydes pharmacology, Plant Extracts pharmacology

Abstract

This article presents a study of vanillin encapsulation inside multilamellar liposomes, with emphasis on the evaluation of antioxidant activity, the hemolytic effect, and the antisickling properties of these products. Egg phosphatidylcholine-cholesterol and egg phosphatidylcholine-cholesterol-1-O-decylglycerol liposomes were prepared by mechanical dispersion, all with vanillin included. Vesicles were characterized by determination of encapsulation efficiency and vanillin retention capacity. Antioxidant activity was determined by the 2,2-diphenyl-1-picrylhydrazyl (DPPH) method. The hemolytic effect of liposomes was also evaluated by spectrophotometry, as well as the antisickling activity by the Huck test using optical microscopy. Results showed that the lipid composition of liposomes did not significantly affect the encapsulation efficiency. Stable vesicles were obtained with a high retention percentage of vanillin. Liposomes exhibited a high capture of the DPPH radical compared to free vanillin and 1-O-decylglycerol (C10) in solution. Vesicles caused no significant hemolisys in normal erythrocytes, nor in those coming from patients with sickle cell anemia. Vanillin encapsulated in liposomes retained its antisickling activity, with a greater effect for C10-containing vesicles. Our results show that vanillin encapsulation in liposomes is a way to enhance the pharmacologic properties of this molecule using a suitable vehicle.

Published

2013

44. Quantitative and qualitative variation of fat in model vanilla custard desserts: effects on sensory properties and consumer acceptance.

Author

Tomaschunas M, Köhn E, Bennwitz P, Hinrichs J, and Busch-Stockfisch M

Subjects

Adolescent, Dietary Fats analysis, Female, Food Handling methods, Humans, Male, Young Adult, Consumer Behavior, Dairy Products analysis, Evaluation Studies as Topic, Taste physiology, Vanilla chemistry

Abstract

The effects of variation in fat content (0.1% to 15.8%) and type of fat, using different types of milk, dairy cream, or vegetable fat cream, on sensory characteristics and consumer acceptance of starch-based vanilla model custards were studied. Descriptive analysis with trained panelists and consumer testing with untrained assessors were applied. Descriptive data were related to hedonic data using principal component analysis to determine drivers of liking and disliking. Results demonstrated an increasing effect of fat concerning visual and oral thickness, creamy flavor, and fat-related texture properties, as well as a decreasing effect concerning yellow color and surface shine. A lack of fat caused moderate intensities in pudding-like flavor attributes and an intensive jelly texture. Adding a vegetable fat cream led to lower intensities in attributes yellow color, cooked flavor, thick, and jelly texture, whereas intensities in vegetable fat flavor and fat-related texture properties increased. All consumers favored custards with medium fat contents, being high in pudding-like and vegetable fat flavor as well as in fat-related texture attributes. Nonfat custards were rejected due to jelly texture and moderate intensities in pudding-flavor attributes. High-fat samples were liked by some consumers, but their high intensities in thickness, white color, and creamy flavor also drove disliking for others., (© 2013 Institute of Food Technologists®)

Published

2013

45. Exploration of Vanilla pompona from the Peruvian Amazon as a potential source of vanilla essence: quantification of phenolics by HPLC-DAD.

Author

Maruenda H, Vico Mdel L, Householder JE, Janovec JP, Cañari C, Naka A, and Gonzalez AE

Subjects

Benzaldehydes isolation & purification, Chromatography, High Pressure Liquid instrumentation, Mass Spectrometry, Peru, Phenols isolation & purification, Plant Extracts isolation & purification, Benzaldehydes analysis, Chromatography, High Pressure Liquid methods, Phenols analysis, Plant Extracts analysis, Vanilla chemistry

Abstract

This study provides the first chemical investigation of wild-harvested fruits of Vanilla pompona ssp. grandiflora (Lindl.) Soto-Arenas developed in their natural habitat in the Peruvian Amazon. Flowers were hand-pollinated and the resulting fruits were analysed at different developmental stages using an HPLC-DAD method validated for the quantification of glucovanillin and seven other compounds. The method showed satisfactory linearity (r(2)>0.9969), precision (coefficient of variation <2%), recoveries (70-100%), limit of detection (0.008-0.212 μg/ml), and limit of quantification (0.027-0.707 μg/ml). The evaluation of crude and enzyme-hydrolyzed Soxhlet-extracted samples confirmed the leading role of glucosides in fruit development. LC-ESI-MS studies corroborated the identities of four glucosides and seven aglycones, among them vanillin (5.7/100 g), 4-hydroxybenzyl alcohol (3.6/100 g), and anisyl alcohol (7.1/100 g) were found in high concentrations. The attractive flavor/aroma profile exhibited by wild V. pompona fruits supports studies focused on the development of this species as a specialty crop., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

46. The use of wavelength dispersive X-ray fluorescence in the identification of the elemental composition of vanilla samples and the determination of the geographic origin by discriminant function analysis.

Author

Hondrogiannis E, Rotta K, and Zapf CM

Subjects

Calibration, Discriminant Analysis, India, Indonesia, Madagascar, New Guinea, Reproducibility of Results, Trace Elements analysis, Uganda, Spectrometry, X-Ray Emission methods, Vanilla chemistry

Abstract

Unlabelled: Sixteen elements found in 37 vanilla samples from Madagascar, Uganda, India, Indonesia (all Vanilla planifolia species), and Papa New Guinea (Vanilla tahitensis species) were measured by wavelength dispersive X-ray fluorescence (WDXRF) spectroscopy for the purpose of determining the elemental concentrations to discriminate among the origins. Pellets were prepared of the samples and elemental concentrations were calculated based on calibration curves created using 4 Natl. Inst. of Standards and Technology (NIST) standards. Discriminant analysis was used to successfully classify the vanilla samples by their species and their geographical region. Our method allows for higher throughput in the rapid screening of vanilla samples in less time than analytical methods currently available., Practical Application: Wavelength dispersive X-ray fluorescence spectroscopy and discriminant function analysis were used to classify vanilla from different origins resulting in a model that could potentially serve to rapidly validate these samples before purchasing from a producer., (© 2013 Institute of Food Technologists®)

Published

2013

47. Vanilla--its science of cultivation, curing, chemistry, and nutraceutical properties.

Author

Anuradha K, Shyamala BN, and Naidu MM

Subjects

Flavoring Agents chemistry, Flowers anatomy & histology, Food Handling, Seeds chemistry, Agriculture methods, Dietary Supplements, Vanilla chemistry, Vanilla physiology

Abstract

Vanilla is a tropical orchid belonging to the family Orchidaceae and it is mainly used in food, perfumery, and pharmaceutical preparations. The quality of the bean depends on the volatile constituent's, viz., the vanillin content, the species of the vine used, and the processing conditions adopted. Hence, proper pollination during flowering and curing by exercising utmost care are the important aspects of vanilla cultivation. There are different methods of curing, and each one is unique and named after the places of its origin like Mexican process and Bourbon process. Recently, Central Food Technological Research Institute, Mysore has developed know-how of improved curing process, where the green vanilla beans are cured immediately after harvest and this process takes only 32 days, which otherwise requires minimum of 150-180 days as reported in traditional curing methods. Vanillin is the most essential component of the 200 and odd such compounds present in vanilla beans. Vanillin as such has not shown any antioxidant properties, it is along with other compounds has got nutraceutical properties and therefore its wide usage. The medicinal future of vanilla may definitely lie in further research on basic science and clinical studies on the constituents and their mechanism of action.

Published

2013

48. Identification of the key odorants in Tahitian cured vanilla beans (Vanilla tahitensis) by GC-MS and an aroma extract dilution analysis.

Author

Takahashi M, Inai Y, Miyazawa N, Kurobayashi Y, and Fujita A

Subjects

Female, Humans, Male, Plant Extracts pharmacology, Sensation drug effects, Food Handling, Gas Chromatography-Mass Spectrometry, Odorants analysis, Plant Extracts chemistry, Vanilla chemistry

Abstract

The key odorants of Tahitian vanilla beans (Vanilla tahitensis) were characterized by a sensory evaluation, aroma extract dilution analysis (AEDA), quantification, and aroma reconstitution. Vanillin and anisaldehyde were identified in the same highest flavor dilution (FD) factor as the most characteristic odor-active compounds in Tahitian vanilla beans, followed by anisyl alcohol and anisyl acetate. Vanillin and anisyl alcohol were by far the most abundant odorants present with the highest concentration in the beans, followed by acetic acid, anisaldehyde, and anisyl acetate. A sensory evaluation of Tahitian vanilla beans and its reconstitute aroma concentrate characterized both samples as similar. These results indicated vanillin, anisaldehyde, anisyl alcohol, and anisyl acetate to be the key odorants in Tahitian vanilla beans. 3-Methylnonane-2,4-dione were identified for the first time in vanilla beans. β-Damascenone and phenylacetic acid were identified for the first time in Tahitian vanilla beans.

Published

2013

49. Key odorants in cured Madagascar vanilla beans (Vanilla planiforia) of differing bean quality.

Author

Takahashi M, Inai Y, Miyazawa N, Kurobayashi Y, and Fujita A

Subjects

Benzaldehydes analysis, Benzaldehydes pharmacology, Female, Gas Chromatography-Mass Spectrometry, Guaiacol analysis, Guaiacol pharmacology, Humans, Male, Plant Extracts chemistry, Plant Extracts pharmacology, Sensation drug effects, Food Handling, Food Quality, Odorants analysis, Vanilla chemistry

Abstract

The odor-active volatiles in Madagascar vanilla beans (Vanilla planiforia) of two grades, red whole beans as standard quality and cuts beans as substandard quality, were characterized by instrumental and sensory analyses. The higher contents of vanillin and β-damascenone in red whole beans than in cuts beans respectively contributed to significant differences in the sweet and dried fruit-like notes, while the higher contents of guaiacol and 3-phenylpropanoic acid in cuts beans than in red whole beans respectively contributed to significant differences in the phenolic and metallic notes. A sensory evaluation to compare red whole beans and their reconstituted aroma characterized both samples as being similar, while in respect of the phenolic note, the reconstituted aroma significantly differed from the reconstituted aroma with guaiacol added at the concentration ratio of vanillin and guaiacol in cuts beans. It is suggested from these results that the concentration ratio of vanillin and guaiacol could be used as an index for the quality of Madagascar vanilla beans.

Published

2013

50. Simultaneous analysis of guaiacol and vanillin in a vanilla extract by using high-performance liquid chromatography with electrochemical detection.

Author

Takahashi M, Sakamaki S, and Fujita A

Subjects

Benzaldehydes pharmacology, Chromatography, High Pressure Liquid, Electrochemistry, Female, Food Quality, Guaiacol pharmacology, Humans, Male, Odorants analysis, Quality Control, Reproducibility of Results, Sensation drug effects, Time Factors, Benzaldehydes analysis, Benzaldehydes chemistry, Guaiacol analysis, Guaiacol chemistry, Plant Extracts chemistry, Vanilla chemistry

Abstract

We developed and validated a new high-performance liquid chromatographic analysis for electrochemically detecting guaiacol and vanillin as important components in vanilla extract. Separation was achieved with Capcell Pak C-18 MG, the potential of the working electrode being set at +1000 mV. The respective calibration curves for guaiacol and vanillin were linear in the range of 1.60-460 µg/L and 5.90-1180 µg/L. The respective limits for the quantities of guaiacol and vanillin were 1.60 µg/L and 2.36 µg/L. The related standard deviations of the intra- and inter-day precision of the retention time and peak area were all less than 4%. The recovery of guaiacol and vanillin was both more than 97%, all of the validation data being within an acceptable range. This analysis method is well suited for the simultaneous and convenient analysis of guaiacol and vanillin in a vanilla extract to evaluate the quality of the vanilla extract.

Published

2013