Multiple Umami Receptors and Their Variants in Human and Mice

Jyotaki, Masafumi; Shigemura, Noriatsu; Ninomiya, Yuzo

doi:10.1248/jhs.55.674

Cited by 16 publications

(11 citation statements)

References 48 publications

(87 reference statements)

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“…Additionally, the human T1R1/T1R3 exhibits potentiation of the response to the amino acid, glutamate, by addition of inosine monophosphate, which is the most characteristic feature of the umami taste (a synergistic taste effect) (Yamaguchi, ). Our results may be in accordance with those of previous basic science reports, indicating that human T1R1/T1R3 acts as an umami‐taste‐specific receptor that can discriminate between umami and other tastes (Jyotaki et al , ). Furthermore, in the present study, stimulation of the tongue mucosa by MSG upregulated the gene expression of T1R1 and T1R3 (Figure a,b), but not of mGluR1 (Figure c).…”

Section: Discussionsupporting

confidence: 93%

“…This difference in frequency implies that T1R1/T1R3 is the predominant receptor for human umami sensation. In mice, mGluRs have been reported to be involved in the detection of umami compounds (Kusuhara et al , ), and the signal mediated by the mGluRs pathway, mainly in the posterior tongue, contributes to behavioural discrimination between the umami taste and other taste compounds (Jyotaki et al , ). However, the roles of mGluRs have not been clarified in humans.…”

Section: Discussionmentioning

confidence: 99%

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Expression of umami‐taste‐related genes in the tongue: a pilot study for genetic taste diagnosis

et al. 2015

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Section: Discussionsupporting

confidence: 93%

Section: Discussionmentioning

confidence: 99%

Expression of umami‐taste‐related genes in the tongue: a pilot study for genetic taste diagnosis

et al. 2015

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“…Since then, two other umami receptors have been found: T1R1/T1R3 [24,25] and a special mGlu receptor [26] that is related to the brain glutamate receptor mGluR1. It remains unclear whether the different umami receptors use different signalling pathways [27,28].…”

Section: Introductionmentioning

confidence: 99%

Seaweeds for umami flavour in the New Nordic Cuisine

Mouritsen

Williams²,

Bjerregaard

et al. 2012

Flavour

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Use of the term 'umami' for the fifth basic taste and for describing the sensation of deliciousness is finding its way into Western cuisine. The unique molecular mechanism behind umami sensation is now partly understood as an allosteric action of glutamate and certain 5'-ribonucleotides on the umami receptors. Chefs have started using this understanding to create dishes with delicious taste by adding old and new ingredients that enhance umami. In this paper, we take as our starting point the traditional Japanese soup broth dashi as the 'mother' of umami and demonstrate how dashi can be prepared from local, Nordic seaweeds, in particular the large brown seaweed sugar kelp (Saccharina latissima) and the red seaweed dulse (Palmaria palmata), possibly combined with bacon, chicken meat or dried mushrooms to provide synergy in the umami taste. Optimal conditions are determined for dashi extraction from these seaweeds, and the corresponding glutamate, aspartate and alaninate contents are determined quantitatively and compared with Japanese dashi extracted from the brown seaweed konbu (Saccharina japonica). Dulse and dashi from dulse are proposed as promising novel ingredients in the New Nordic Cuisine to infuse a range of different dishes with umami taste, such as ice cream, fresh cheese and bread.Keywords: umami, seaweed, dashi, glutamate, kelp, dulse, New Nordic Cuisine Authors' summary for chefsHerein we review the concept of umami and deliciousness in a historical context and describe recent advances in the scientific understanding of the sensory perception of umami and the involved taste receptors. The primary stimulatory agent in umami is the chemical compound glutamate, which is found in large amounts in the Japanese seaweed konbu, which is used to prepare the soup broth dashi. We have explored the potential of local Nordic seaweeds, in particular sugar kelp and dulse, for dashi production and have discovered that dulse is high in free glutamate and hence a good candidate for umami flavouring. We describe methods by which to optimise the umami flavour using sous-vide techniques for extraction of the seaweeds, and we demonstrate how dulse dashi can be used in concrete recipes for ice cream, fresh cheese and sourdough bread.

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“…Прежде, чем обсуждать выявленный нами феномен существенно более высокой вкусовой чувствительности больных с аллергическим вариантом бронхиальной астмы к лиганду умами-рецепторов (глутамату натрия), отметим, что к настоящему времени выявлена экспрессия следующих глутаматных рецепторов: сопряженные с G-белком Tas1R1/Tas1R3, mGluR1 и mGluR4, а также ионотропные глутамат-зависимые ионные каналы, в частности, NMDA (N-метил-Dаспартат)-рецептор [13]. При этом за вкус умами отвечают главным образом рецепторы Tas1R1/ Tas1R3 [14].…”

Section: результаты и обсуждениеunclassified

Umami taste (sodium glutamate sensitivity) thresholds at gustometry in various variants of bronchial asthma

Минеев¹,

Vtornikova²

2018

Immunopathol Allergol Infectol

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Multiple Umami Receptors and Their Variants in Human and Mice

Cited by 16 publications

References 48 publications

Expression of umami‐taste‐related genes in the tongue: a pilot study for genetic taste diagnosis

Expression of umami‐taste‐related genes in the tongue: a pilot study for genetic taste diagnosis

Seaweeds for umami flavour in the New Nordic Cuisine

Umami taste (sodium glutamate sensitivity) thresholds at gustometry in various variants of bronchial asthma

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