Identifying aroma‐active compounds in coffee‐flavored dairy beverages

Mahmud, M M Chayan; Keast, Russell; Mohebbi, Mohammadreza; Shellie, Robert A.

doi:10.1111/1750-3841.16071

Cited by 11 publications

(6 citation statements)

References 36 publications

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“…However, it is yet to be determined which pleasant coffee bean compounds would be the key determinant for inducing the positive coffee odor valence in mice. A possible antagonistic effect between the three kairomone compounds and some pleasant compounds, such as 2-methylbutanal (almond), 2,4,5-trymethyl-1,3-oxazole (aged cheeses), heptan-2-ol (coconut), 2,5-dimethylpyrazine (roasted nut), 5-methylfuran-2-carbaldehyde (almond, caramel), octanoic acid (cheese), 2-methylsulfanylfuran (coffee), and others ( Mahmud et al, 2022 ) remains unresolved. Repeated exposure to such a mixed odor of antagonistic kairomone and pleasant food compounds would result in the increase of specific receptor cells in mice in a lineage-specific manner, as observed in the increased peripheral olfactory sensitivity to the same odorant but not the other odor in the anosmic mouse strain for androsterone or isovaleric acid ( Wang et al, 1993 ).…”

Section: Discussionmentioning

confidence: 99%

“…The repeated exposure of heterozygous OXTR (±) mice to a preferable food odor for 2–4 weeks was hypothesized to induce OXTR expression, then alter brain function and rescue abnormal olfactory behaviors. As a food odor, a deeply roasted coffee odor was chosen, which contained three kairomone compounds of the common gray wolf ( Canis lupus ): 2,6-dimethylpyrazine; 2,3,5-trimethylpyrazine; and 3-ethyl-2,5-dimethylpyrazine ( Osada et al, 2013 ) and many preferable compounds, such as 2-methylbutanal (almond); 2,4,5-trymethyl-1,3-oxazole (aged cheeses); heptan-2-ol (coconut); 2,5-dimethylpyrazine (roasted nut); 5-methylfuran-2-carbaldehyde (almond and caramel); octanoic acid (cheese); 2-methylsulfanylfuran (coffee); and others ( Mahmud et al, 2022 ). Although robust odors of kairomones are normally perceived as aversive and/or unpleasant odors ( Osada et al, 2015 ), weak kairomone odors are expected to induce moderate facilitation of avoidance signaling without marked stress responses that would be alleviated by the other ingredients’ preferable odors, as observed in a previous study that used a mixture of rose odor and fox-characteristic 2,5-dihydro-2,4,5-trimethylthiazoline (TMT) odor ( Matsukawa et al, 2011 ).…”

Section: Introductionmentioning

confidence: 99%

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Repeated exposure to kairomone-containing coffee odor improves abnormal olfactory behaviors in heterozygous oxytocin receptor knock-in mice

Osada

Kujirai

Hosono

et al. 2023

Front. Behav. Neurosci.

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The oxytocin receptor (OXTR) knockout mouse is a model of autism spectrum disorder, characterized by abnormalities in social and olfactory behaviors and learning. Previously, we demonstrated that OXTR plays a crucial role in regulating aversive olfactory behavior to butyric acid odor. In this study, we attempted to determine whether coffee aroma affects the abnormal olfactory behavior of OXTR-Venus knock-in heterozygous mice [heterozygous OXTR (±) mice] using a set of behavioral and molecular experiments. Four-week repeated exposures of heterozygous OXTR (±) mice to coffee odor, containing three kairomone alkylpyrazines, rescued the abnormal olfactory behaviors compared with non-exposed wild-type or heterozygous OXTR (±) mice. Increased Oxtr mRNA expression in the olfactory bulb and amygdala coincided with the rescue of abnormal olfactory behaviors. In addition, despite containing the kairomone compounds, both the wild-type and heterozygous OXTR (±) mice exhibited a preference for the coffee odor and exhibited no stress-like increase in the corticotropin-releasing hormone, instead of a kairomone-associated avoidance response. The repeated exposures to the coffee odor did not change oxytocin and estrogen synthetase/receptors as a regulator of the gonadotropic hormone. These data suggest that the rescue of abnormal olfactory behaviors in heterozygous OXTR (±) mice is due to the coffee odor exposure-induced OXTR expression.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Repeated exposure to kairomone-containing coffee odor improves abnormal olfactory behaviors in heterozygous oxytocin receptor knock-in mice

Osada

Kujirai

Hosono

et al. 2023

Front. Behav. Neurosci.

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“…Retention of these high value compounds of dried cannabis inflorescence during storage has seen industry adoption of N 2 modified atmosphere packaging (MAP) technologies. Literature demonstrating the efficacy of MAP for the preservation of quality, aroma, and flavour, spans numerous agricultural products such as coffee (Coffea arabica), where aroma is important for customer satisfaction [17]. High N 2 conditions improve preservation of several volatile aromatic compounds over storage with atmospheric air [18].…”

Section: Introductionmentioning

confidence: 99%

Modified Atmospheric Packaging and Its Effect on Postharvest Cannabis Quality

MacLaughlin,

MacDonald

2024

AJPS

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Cannabis sativa L. is used as fiber, food, and medicine in several countries.Though it is illegal for recreational use in most of the world, there are some countries that have legalized production and sale. There is a lot of research on production of cannabis, but less so on storage technologies. Cannabis contains several high value compounds, such as cannabinoids and terpenoids, that are susceptible to degradation via light, temperature, and oxygen. Several studies have explored temperature and light, and industry has adjusted accordingly. However, less is known about oxygen-induced degradation. Biochemical studies have demonstrated oxidative degradation of high value compounds, and many producers use some form of modified atmospheric packaging (MAP) for storage. However, the efficacy of MAP is unclear. The objective of this paper is to review our current understanding of MAP in postharvest cannabis storage and identify avenues where additional research is needed.

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“…The COVID‐19 pandemic has also boosted the alternative protein market for sustainable food production (Rzymski et al., 2021). Besides the development of novel foods, some conventional products are also reformulated to enhance their processing adaptability or in response to market forces and consumer concerns about health, taking the examples of dairy beverages with various caffeine contents (Mahmud et al., 2022), reduced‐fat Prato cheese (Domingos et al., 2019), and defatting treatments on oat protein (Yue et al., 2021).…”

Section: Introductionmentioning

confidence: 99%

“…For flavor compounds perpetually bound to food ingredients, they can hardly be released from the food matrices and thus are no longer available for perception, leading to a weaker or altered food sensory profile. As demonstrated by the modified detection frequency test, the significant aroma‐active compounds contributing to the sensory profile either vanished as the prolonged aging process of Zhengrong vinegar, such as ethyl hexanoate, 2‐acetoxy‐3‐butanone, 1,2‐dimethoxybenzene, 2‐methylbutanoic acid, and isoamyl acetate (Al‐Dalali et al., 2022), or were kept consistent in high‐coffee beverages with various fat contents, noted for volatile compounds positive to consumer liking, such as 2‐butanone, 2‐methylbutanal, 2‐heptanol, 2‐ethyl‐3‐methylpyrazine, 2‐ethylpyrazine, and 2‐(methylthio)‐furan (Mahmud et al., 2022). Overall, flavor–food ingredient interactions directly affect the quantity of released aromas and the resulting sensorial perception.…”

Section: Introductionmentioning

confidence: 99%

Flavor–food ingredient interactions in fortified or reformulated novel food: Binding behaviors, manipulation strategies, sensory impacts, and future trends in delicious and healthy food design

Chen

Zhang

Quek

et al. 2023

Comp Rev Food Sci Food Safe

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With consumers gaining prominent awareness of health and well‐being, a diverse range of fortified or reformulated novel food is developed to achieve personalized or tailored nutrition using protein, carbohydrates, or fat as building blocks. Flavor property is a critical factor in the acceptability and marketability of fortified or reformulated food. Major food ingredients are able to interact with flavor compounds, leading to a significant change in flavor release from the food matrix and, ultimately, altering flavor perception. Although many efforts have been made to elucidate how food matrix components change flavor binding capacities, the influences on flavor perception and their implications for the innovation of fortified or reformulated novel food have not been systematically summarized up to now. Thus, this review provides detailed knowledge about the binding behaviors of flavors to major food ingredients, as well as their influences on flavor retention, release, and perception. Practical approaches for manipulating these interactions and the resulting flavor quality are also reviewed, from the scope of their intrinsic and extrinsic influencing factors with technologies available, which is helpful for future food innovation. Evaluation of food–ingredient interactions using real food matrices while considering multisensory flavor perception is also prospected, to well motivate food industries to investigate new strategies for tasteful and healthy food design in response to consumers’ unwillingness to compromise on flavor for health.

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Identifying aroma‐active compounds in coffee‐flavored dairy beverages

Cited by 11 publications

References 36 publications

Repeated exposure to kairomone-containing coffee odor improves abnormal olfactory behaviors in heterozygous oxytocin receptor knock-in mice

Repeated exposure to kairomone-containing coffee odor improves abnormal olfactory behaviors in heterozygous oxytocin receptor knock-in mice

Modified Atmospheric Packaging and Its Effect on Postharvest Cannabis Quality

Flavor–food ingredient interactions in fortified or reformulated novel food: Binding behaviors, manipulation strategies, sensory impacts, and future trends in delicious and healthy food design

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