Agronomic Performance of Low Phytic Acid Wheat

Guttieri, Mary J.; Peterson, Karen M.; Souza, E.

doi:10.2135/cropsci2006.01.0008

Cited by 60 publications

(54 citation statements)

References 23 publications

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“…Monogastric animals, such as poultry and swine, lack the ability to digest phytate, leaving significant amounts of phytate as the major organic P form in their excreta (Caldwell and Black 1958;He et al 2007, He andHoneycutt 2001;He et al 2006aHe et al , 2006bTurner 2004;Turner and Leytem 2004). Application of low-phytate grains (Bowen et al 2006;Guttieri, Peterson, and Souza 2006;Raboy et al 2000) and supplementation with phytase enzymes (Maguire et al 2004;Park, Choi, and Oh 1999) are two strategies to improve dietary availability of P in animal feedstuffs; however, these practices can result in more unpredictable phytate concentrations in animal manure and thus in the environment. A reliable and convenient analytical method is needed to identify and quantify phytate in animal manure.…”

Section: Introductionmentioning

confidence: 99%

Enzymatic Quantification of Phytate in Animal Manure

Waldrip

Honeycutt

et al. 2009

Communications in Soil Science and Plant Analysis

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Phytate (inositol hexaphosphate) has been identified as a major organic phosphorus (P) form in soil, animal manure, and other environmental samples. Although a number of methods are available for quantitative isolation and determination of phytate, they are time-consuming and not amenable to routine analysis. We developed a simple, rapid method for enzymatic determination of phytate in animal manure. Animal manure was extracted by H 2 O, 1 M hydrochloric acid (HCl), 0.1 M sodium acetate (NaOAc, pH 5.0) with or without 0.05 M ethylenediaminetetraacetate (EDTA), and 0.25 M or 0.5 M sodium hydroxide (NaOH)-0.05 M EDTA. Extracts were diluted (1/10-1/150) and adjusted to pH 5.0 in sodium acetate buffer. The diluted extracts were then incubated at 37 uC for 1 h in the absence and presence of fungal 3-phytase (PHY) and potato acid phosphatase (PAP). Enzymatic hydrolyzable organic P was calculated as the difference in inorganic P (P i ) between the mixtures with and without enzymes. Our data indicated that enzymatic incubation of properly diluted and pH-adjusted HCl or NaOH/EDTA extracts released phytate P. The Address correspondence to Zhongqi He, U.S. Department of AgricultureAgricultural Research Service, New England Plant, Soil, and Water Laboratory, Orono, ME 04469. E-mail: Zhongqi.He@ars.usda.gov Trade or manufacturers' names mentioned in the article are for information only and do not constitute endorsement, recommendation, or exclusion by the USDA-ARS. 566This article is a U.S. government work, and is not subject to copyright in the United States.complementary substrate specificity of the two enzymes is considered to enhance the effectiveness of enzymatic hydrolysis. Consequently, we recommend this method of combining PAP and PHY for quantifying phytate P. Additional research is being conducted to verify the effectiveness of this method for general use across a wider range of soils and manures.

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Section: Introductionmentioning

confidence: 99%

Enzymatic Quantification of Phytate in Animal Manure

Waldrip

Honeycutt

et al. 2009

Communications in Soil Science and Plant Analysis

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“…Praćenje nasleđivanja analiziranjem F 2 i F 4:6 familija (Knežević et al 2008b) je utvrdilo da su u nastanak mutantnog fenotipa za nizak sadržaj fi tinske kiseline uključena dva gena. Guttieri et al (2006a) su izveli oglede 2003. i 2004. na dva lokaliteta koji su uključili WT i LPA genotipove jare pšenice: tvrdih i crvene boje zrna, tvrdih i bele boje zrna i mekih bele boje zrna. LPA genotipovi jarih sorata pšenice sa crvenom bojom zrna su imali zakasneli razvoj i redukovan prinos zrna za 8% do 25% u prinosnijoj sredini, delom zbog redukovane veličine zrna od 3 mg po zrnu.…”

Section: Genetička Varijabilnost Sadržaja Fi Tinske Kiseline Linija Iunclassified

Wheat breeding for low phytic acid content: State and perspectives

Branković¹,

Knežević²,

Dodig³

et al. 2011

Ratar i povrt

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Izvod: Potreba za oplemenjivanjem pšenice na nizak sadržaj fi tinske kiseline proistekla je iz njene uloge antinutritivnog faktora koji vezujući mineralne elemente (Ca, Zn, Fe, Mn, Cu, kao i P) dovodi do njihovog nedovoljnog iskorišćavanja. Neiskorišćeni fosfor u kompleksu sa fi tinskom kiselinom se preko lanca ishrane nepreživara (živina, svinje, ribe) izlučuje u spoljašnju sredinu i uzrokuje zagađivanje vodenih ekosistema. Razvijene su brojne indirektne (spektrofotometrijske) i direktne (HPLC -High Performance Liquid Chromatography) metode za brzo i pouzdano utvrđivanje sadržaja fi tinske kiseline u zrnu pšenice. Brojna istraživanja u svetu su pokazala da se sadržaj fi tinske kiseline kreće od jedan do nekoliko procenata suve mase semena i 50% do 85% ukupnog fosfora u semenu. Utvrđena je značajna genetička varijabilnost sadržaja fi tinske kiseline i fi tatnog fosfora u zrnu sorata i linija pšenice u različitim uslovima spoljašnje sredine. Oplemenjivanjem je dobijen i mutant pšenice (Triticum aestivum L.) Js-12-LPA, za osobinu niskog sadržaja fi tinske kiseline (Low phytic acid).

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“…Phytic acid and its salts are present at 0.5% to 5% (w/w) levels in edible legumes, cereal grains, oilseeds and nuts [5][6][7][8]. Genetic engineering and plant breeding efforts to reduce PA have resulted in the development of low PA (0.52 to 4.56 mg/g of phytic acid phosphorous) mutants in major cereal crops, such as maize (Zea mays L.), rice (Oryza sativa L.), wheat (Triticum aestivum L.), common bean (Phaseolus vulgaris L.), and barley (Hordeum vulgare L.) [9][10][11][12]. Animal studies have shown that substantial reductions in phytic acid levels in feed lead to improvements in calcium (Ca) and zinc (Zn) utilization [13,14].…”

Section: Introductionmentioning

confidence: 99%

“…However, the accuracy of colorimetric PA assays depends on the separation of different inositol isomers, assumptions of metal-color complexes, and chemical matrix interferences [17]. The colorimetry-based PA-P determination has been the method of choice for reporting the PA content of rice [10], field pea [18], wheat [9], soybean [12], maize [8], and common bean [19]. Therefore, the accuracy of the PA levels reported in these and many other studies is subject to the errors associated with the colorimetric procedures.…”

Section: Introductionmentioning

confidence: 99%

Inaccuracies in Phytic Acid Measurement: Implications for Mineral Biofortification and Bioavailability

Thavarajah¹,

Thavarajah²

2014

AJPS

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Biofortification of commonly eaten staple food crops with essential mineral micronutrients is a potential sustainable solution to global micronutrient malnutrition. Because phytic acid (PA; 1,2,3,4,5,6-hexakis myo-inositol) reduces mineral micronutrient bioavailability, reduction of PA levels could increase the bioavailability of biofortified iron (Fe), zinc (Zn), calcium (Ca), and magnesium (Mg). PA is viewed as an anti-nutrient, yet PA and other inositol phosphates have also demonstrated positive health benefits. Phytic acid analysis in the agricultural, food, and nutritional sciences is typically carried out by colorimetry and chromatographic techniques. In addition, advanced techniques such as nuclear magnetic resonance and synchrotron X-ray absorption spectroscopy have also been used in phytic acid analysis. The colorimetric analysis may overestimate PA levels and synchrotron X-ray absorption techniques may not detect very low levels of inositol phosphates. This short communication discusses the advantages and disadvantages of each widely used phytic acid analysis method, and suggests high performance anion exchange (HPAE) chromatography with conductivity detection (CD) based analysis can achieve greater accuracy for the identification and quantification of inositol phosphates. Accurate characterization and quantification of PA and inositol phosphates will inform PA reduction and biofortification efforts, allowing retention of the benefits of non-phytic inositol phosphates for both plants and humans.

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Agronomic Performance of Low Phytic Acid Wheat

Cited by 60 publications

References 23 publications

Enzymatic Quantification of Phytate in Animal Manure

Enzymatic Quantification of Phytate in Animal Manure

Wheat breeding for low phytic acid content: State and perspectives

Inaccuracies in Phytic Acid Measurement: Implications for Mineral Biofortification and Bioavailability

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