Your search keyword '"Myo-inositol phosphates"' showing total 4 results

1. Solid-State Fermentation Reduces Phytic Acid Level, Improves the Profile of Myo-Inositol Phosphates and Enhances the Availability of Selected Minerals in Flaxseed Oil Cake

Author

Robert Duliński, Bożena Stodolak, Łukasz Byczyński, Aleksander Poreda, Anna Starzyńska-Janiszewska, and Krzysztof Żyła

Subjects

flaxseed oil cake, solid-state fermentation, phytates, myo-inositol phosphates, mineral availability, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

Flaxseed oil cake was subjected to fermentation with Rhizopus oligosporus (DSM 1964 a nd ATCC 64063), and the phytate (InsP6) content, myo-inositol phosphate profile and in vitro bioavailability of essential minerals were studied. Flaxseed oil cake had a phytate mass fraction of 13.9 mg/g. A 96-hour fermentation of flaxseed oil cake by R. oligo sporus DSM 1964 and R. oligosporus ATCC 64063 decreased the InsP6 content by 48 and 33 %, respectively. The strains had different phytate-degrading activities: fermentation of flaxseed oil cake with R. oligosporus DSM 1964 was more advantageous, yielding InsP3-5 as a predominating myo-inositol compound, while fermentation with R. oligosporus ATCC 64603 produced predominantly InsP5-6. Solid-state fermentation of flaxseed oil cake enhanced in vitro bioavailability of calcium by 14, magnesium by 3.3 and phosphorus by 2–4 %.

Published

2017

2. Phytase for Food Application

Author

Ursula Konietzny and Ralf Greiner

Subjects

enzymatic phytate dephosphorylation, food processing, functional food, myo-inositol phosphates, phytase, phytate, Biotechnology, TP248.13-248.65, Food processing and manufacture, TP368-456

Abstract

Phytase [myo-inositol(1,2,3,4,5,6)hexakisphosphate phosphohydrolase], a phytate-specific phosphatase, is already used as a supplement in diets for monogastric animals to improvephosphate utilisation from phytate[myoinositol(1,2,3,4,5,6)hexakisphosphate], the major storage form of phosphate in plant seeds. In recent years, this class of enzymes has also been found increasingly interesting for use in processing and manufacturing of food for human consumption, particularly because the decline in food phytate results in an enhancement of mineral bioavailability. Different strategies could be applied to optimise phytate degradation during food processing and digestion in the human alimentary tract such as adjustment of more favourable conditions during food processing for the phytases naturally occurring in the raw material, addition of isolated phytases to the production process, use of raw material with a high intrinsic phytate-degrading activity either naturally present or introduced by genetic engineering and the use of recombinant food-grade microorganisms as carriers for phytate-degrading activity in the human gastrointestinal tract. Furthermore, phytases may find application in the production of functional foods or food supplements with health benefits. Last but not least, technological improvements are expected to occur due to phytate degradation during processing as shown for breadmaking, production of plant protein isolates, corn wet milling and the fractionation of cereal bran.

Published

2006

3. Phytase for Food Application

Author

Ralf Greiner and Ursula Konietzny

Subjects

enzymatic phytate dephosphorylation, food processing, functional food, myo-inositol phosphates, phytase, phytate

Abstract

Fitaza je specificna fitat-fosfataza koja se upotrebljava kao dodatak stocnoj hrani, i to radi boljeg iskorištenja fosfata iz fitata u sjemenu biljaka. Posljednjih je godina ta vrsta enzima postala vrlo zanimljiva u proizvodnji i preradi hrane za ljude, osobito jer se smanjenjem kolicine fitata u njoj povecava biološka resorpcija minerala. Razgradnja fitata tijekom prerade hrane i njezina probavljanja u probavnom traktu ljudi može se optimirati podešavanjem uvjeta prerade, dodatkom izoliranih fitata pri proizvodnji hrane, uporabom svježe hrane s velikim ucinkom razgradnje fitata, bilo prirodno prisutnih ili uvedenih genetickim inženjerstvom, te primjenom rekombinantnih mikroorganizama iz hrane kao nositelja aktivnosti razgradnje fitata u probavnom traktu. Fitaze bi se takoder mogle primijeniti u proizvodnji funkcionalne hrane ili dodataka hrani s pozitivnim utjecajem na ljudsko zdravlje. Naposljetku, razgradnjom fitata dolazi do tehnoloških poboljšanja proizvodnje hrane, npr. pri proizvodnji kruha, proizvodnji izolata biljnih proteina, mokroj meljavi kukuruza i frakcioniranju mekinja., Phytase [myo-inositol(1,2,3,4,5,6)hexakisphosphate phosphohydrolase], a phytate-specific phosphatase, is already used as a supplement in diets for monogastric animals to improvephosphate utilisation from phytate[myoinositol(1,2,3,4,5,6)hexakisphosphate], the major storage form of phosphate in plant seeds. In recent years, this class of enzymes has also been found increasingly interesting for use in processing and manufacturing of food for human consumption, particularly because the decline in food phytate results in an enhancement of mineral bioavailability. Different strategies could be applied to optimise phytate degradation during food processing and digestion in the human alimentary tract such as adjustment of more favourable conditions during food processing for the phytases naturally occurring in the raw material, addition of isolated phytases to the production process, use of raw material with a high intrinsic phytate-degrading activity either naturally present or introduced by genetic engineering and the use of recombinant food-grade microorganisms as carriers for phytate-degrading activity in the human gastrointestinal tract. Furthermore, phytases may find application in the production of functional foods or food supplements with health benefits. Last but not least, technological improvements are expected to occur due to phytate degradation during processing as shown for breadmaking, production of plant protein isolates, corn wet milling and the fractionation of cereal bran.

Published

2006

4. Solid-State Fermentation Reduces Phytic Acid Level, Improves the Profile of Myo- Inositol Phosphates and Enhances the Availability of Selected Minerals in Flaxseed Oil Cake.

Author

Duliński R, Stodolak B, Byczyński Ł, Poreda A, Starzyńska-Janiszewska A, and Żyła K

Abstract

Flaxseed oil cake was subjected to fermentation with Rhizopus oligosporus (DSM 1964 and ATCC 64063), and the phytate (InsP 6 ) content, myo- inositol phosphate profile and in vitro bioavailability of essential minerals were studied. Flaxseed oil cake had a phytate mass fraction of 13.9 mg/g. A 96-hour fermentation of flaxseed oil cake by R. oligosporus DSM 1964 and R. oligosporus ATCC 64063 decreased the InsP 6 content by 48 and 33%, respectively. The strains had different phytate-degrading activities: fermentation of flaxseed oil cake with R. oligosporus DSM 1964 was more advantageous, yielding InsP 3-5 as a predominating myo -inositol compound, while fermentation with R. oligosporus ATCC 64603 produced predominantly InsP 5-6 . Solid-state fermentation of flaxseed oil cake enhanced in vitro bioavailability of calcium by 14, magnesium by 3.3 and phosphorus by 2-4%., Competing Interests: Conflict of interest: There were no conflicts of interest expressed by the authors. The authors confirm their responsibility for the content and writing of the paper.

Published

2017