A review on rebaudioside M: The next generation steviol glycoside and noncaloric sweetener

Clinton E. Okonkwo; Adeyemi A. Adeyanju; Helen Onyeaka; Charles Obiora Nwonuma; Abiola F. Olaniran; Omokolade Oluwaseyi Alejolowo; Adejumoke A. Inyinbor; Abimbola Peter Oluyori; Cunshan Zhou

doi:10.1111/1750-3841.17401

A review on rebaudioside M: The next generation steviol glycoside and noncaloric sweetener

Clinton E. Okonkwo, Adeyemi A. Adeyanju, Helen Onyeaka, Charles Obiora Nwonuma, Abiola F. Olaniran, Omokolade Oluwaseyi Alejolowo, Adejumoke A. Inyinbor, Abimbola Peter Oluyori, Cunshan Zhou

Research output: Contribution to journal › Review article › peer-review

6 Citations (Scopus)

Abstract

So far, the use of artificial low-calorie sweeteners, like sucralose, saccharin, and so on, to replace the conventional-based sugars has not succeeded due to the long-term adverse health effects, for example, hypertension, and not well-known safety stand. In this review, we discussed the next generation SvGl (rebaudioside M [Reb M]), their biosynthetic pathway in plant, high-yield production via microbial fermentation and enzyme engineering, physicochemical properties, taste modification, kinetic metabolism, application in food and beverages, safety and toxicological evaluation, regulation and dosage recommendation, and health benefits. In stevia, the biosynthesis of stevia glycosides, especially Reb M, is derived from the bifurcation of the pathway leading to gibberellin, followed by subsequent enzymatic modification of rubusoside. Reb M is more economically produced via microbial fermentation of modified yeast Yarrowia lipolytica and enzymatic bioconversion of rebaudioside A (Reb A) or Reb E. Reb M can serve as a suitable alternative to the conventional-based sugars.

Original language	English
Pages (from-to)	6946-6965
Number of pages	20
Journal	Journal of Food Science
Volume	89
Issue number	11
DOIs	https://doi.org/10.1111/1750-3841.17401
Publication status	Published - Nov 2024
Externally published	Yes

Keywords

microbial fermentation
rebaudioside M
Stevia rebaudiana
steviol glycosides
uridine-diphosphate glycosyltransferases

ASJC Scopus subject areas

Food Science

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10.1111/1750-3841.17401

Cite this

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title = "A review on rebaudioside M: The next generation steviol glycoside and noncaloric sweetener",

abstract = "So far, the use of artificial low-calorie sweeteners, like sucralose, saccharin, and so on, to replace the conventional-based sugars has not succeeded due to the long-term adverse health effects, for example, hypertension, and not well-known safety stand. In this review, we discussed the next generation SvGl (rebaudioside M [Reb M]), their biosynthetic pathway in plant, high-yield production via microbial fermentation and enzyme engineering, physicochemical properties, taste modification, kinetic metabolism, application in food and beverages, safety and toxicological evaluation, regulation and dosage recommendation, and health benefits. In stevia, the biosynthesis of stevia glycosides, especially Reb M, is derived from the bifurcation of the pathway leading to gibberellin, followed by subsequent enzymatic modification of rubusoside. Reb M is more economically produced via microbial fermentation of modified yeast Yarrowia lipolytica and enzymatic bioconversion of rebaudioside A (Reb A) or Reb E. Reb M can serve as a suitable alternative to the conventional-based sugars.",

keywords = "microbial fermentation, rebaudioside M, Stevia rebaudiana, steviol glycosides, uridine-diphosphate glycosyltransferases",

author = "Okonkwo, {Clinton E.} and Adeyanju, {Adeyemi A.} and Helen Onyeaka and Nwonuma, {Charles Obiora} and Olaniran, {Abiola F.} and Alejolowo, {Omokolade Oluwaseyi} and Inyinbor, {Adejumoke A.} and Oluyori, {Abimbola Peter} and Cunshan Zhou",

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year = "2024",

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doi = "10.1111/1750-3841.17401",

language = "English",

volume = "89",

pages = "6946--6965",

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AU - Okonkwo, Clinton E.

AU - Adeyanju, Adeyemi A.

AU - Onyeaka, Helen

AU - Nwonuma, Charles Obiora

AU - Olaniran, Abiola F.

AU - Alejolowo, Omokolade Oluwaseyi

AU - Inyinbor, Adejumoke A.

AU - Oluyori, Abimbola Peter

AU - Zhou, Cunshan

PY - 2024/11

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AB - So far, the use of artificial low-calorie sweeteners, like sucralose, saccharin, and so on, to replace the conventional-based sugars has not succeeded due to the long-term adverse health effects, for example, hypertension, and not well-known safety stand. In this review, we discussed the next generation SvGl (rebaudioside M [Reb M]), their biosynthetic pathway in plant, high-yield production via microbial fermentation and enzyme engineering, physicochemical properties, taste modification, kinetic metabolism, application in food and beverages, safety and toxicological evaluation, regulation and dosage recommendation, and health benefits. In stevia, the biosynthesis of stevia glycosides, especially Reb M, is derived from the bifurcation of the pathway leading to gibberellin, followed by subsequent enzymatic modification of rubusoside. Reb M is more economically produced via microbial fermentation of modified yeast Yarrowia lipolytica and enzymatic bioconversion of rebaudioside A (Reb A) or Reb E. Reb M can serve as a suitable alternative to the conventional-based sugars.

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A review on rebaudioside M: The next generation steviol glycoside and noncaloric sweetener

Abstract

Keywords

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