Soy protein isolates
First Claim
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1. A low phytate, low-aluminum soy protein isolate produced by a method comprising the steps of:
- (a) providing an aqueous slurry of a flour;
(b) adjusting the pH of the slurry to be in the range of about 7.5 to about 9.5 at a temperature in the range of about 38°
C. to about 54°
C. such that the protein in the flour becomes solubilized;
(c) passing the slurry through an ultrafiltration device and collecting a permeate containing protein and retentate containing phytate and aluminum;
(d) adjusting the pH of the permeate collected in step (c) to be in the range of about 3.5 to about 6.0 such that the protein precipitates; and
(e) collecting the protein precipitate of step (d), the aluminum content of the precipitated protein of step (d) being not greater than about 0.5 mg/kg, the phytate content of the precipitated protein of step (d) being less than 1.0%, by weight, as determined by the following procedure;
(i) a protein isolate sample is weighed and extracted in 2.4% hydrochloric acid, concentration by volume, for two hours;
(ii) the pH of the sample is then adjusted to be greater than 8, followed by quantitative transfer and dilution;
(iii) the diluted sample is filtered through #2V filter paper and the filtrate is collected;
(iv) an aliquot of the filtrate is injected into a mixed mode column and separation is achieved utilizing a sodium hydroxide gradient in the range of 56 mM to 150 mM in the presence of 5% isopropyl alcohol, concentration by volume, at a flow rate of 1.0 ml per minute;
(v) using suppressed conductivity to detect phytate in the sample; and
(vi) the phytate concentration of the sample is determined by comparing chromatographic data of the sample with standards of known concentrations of phytate.
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Abstract
A high quality soy protein isolate with a significant reduction in phytate and aluminum is prepared via ultrafiltration. Defatted soy flour slurry is prepared and adjusted to a pH such that the protein becomes solubilized. The solubilized protein can pass through the ultrafiltration membrane. The ultrafiltration system rejects phytate and aluminum. Once the soluble protein passes through the ultrafiltration system the soy protein isolate is then precipitated from the clear permeate stream by adjusting the pH within the isoelectric range of soy proteins.
28 Citations
5 Claims
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1. A low phytate, low-aluminum soy protein isolate produced by a method comprising the steps of:
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(a) providing an aqueous slurry of a flour; (b) adjusting the pH of the slurry to be in the range of about 7.5 to about 9.5 at a temperature in the range of about 38°
C. to about 54°
C. such that the protein in the flour becomes solubilized;(c) passing the slurry through an ultrafiltration device and collecting a permeate containing protein and retentate containing phytate and aluminum; (d) adjusting the pH of the permeate collected in step (c) to be in the range of about 3.5 to about 6.0 such that the protein precipitates; and (e) collecting the protein precipitate of step (d), the aluminum content of the precipitated protein of step (d) being not greater than about 0.5 mg/kg, the phytate content of the precipitated protein of step (d) being less than 1.0%, by weight, as determined by the following procedure; (i) a protein isolate sample is weighed and extracted in 2.4% hydrochloric acid, concentration by volume, for two hours; (ii) the pH of the sample is then adjusted to be greater than 8, followed by quantitative transfer and dilution; (iii) the diluted sample is filtered through #2V filter paper and the filtrate is collected; (iv) an aliquot of the filtrate is injected into a mixed mode column and separation is achieved utilizing a sodium hydroxide gradient in the range of 56 mM to 150 mM in the presence of 5% isopropyl alcohol, concentration by volume, at a flow rate of 1.0 ml per minute; (v) using suppressed conductivity to detect phytate in the sample; and (vi) the phytate concentration of the sample is determined by comparing chromatographic data of the sample with standards of known concentrations of phytate. - View Dependent Claims (2)
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3. A low phytate, low-aluminum soy protein isolate produced by a method comprising the steps of:
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(a) providing an aqueous slurry comprising 1% to 30% by weight of soy flour; (b) adjusting the pH of the slurry to be in the range of about 7.5 to about 9.5 at a temperature in the range of about 38°
C. to about 54°
C. such that protein in the slurry becomes solubilized;(c) passing the slurry through an ultrafiltration device and collecting a permeate containing protein and carbohydrates and a retentate containing phytate and aluminum; (d) adjusting the pH of the permeate collected in step (c) to be in the range of 3.5 to 6.0 and allowing the protein to precipitate; and (e) separating the precipitated protein from the remainder of the permeate, the aluminum content of the precipitated protein of step (d) being not greater than about 0.5 mg/kg, the phytate content of the precipitated protein of step (d) being less than 1.0%, by weight, as determined by the following procedure; (i) a protein isolate sample is weighed and extracted in 2.4% hydrochloric acid, concentration by volume, for two hours; (ii) the pH of the sample is then adjusted to be greater than 8, followed by quantitative transfer and dilution; (iii) the diluted sample is filtered through #2V filter paper and the filtrate is collected; (iv) an aliquot of the filtrate is injected into a mixed mode column and separation is achieved utilizing a sodium hydroxide gradient in the range of 56 mM to 150 mM in the presence of 5% isopropyl alcohol, concentration by volume, at a flow rate of 1.0 ml per minute; (v) using suppressed conductivity to detect phytate in the sample; and (vi) the phytate concentration of the sample is determined by comparing chromatographic data of the sample with standards of known concentrations of phytate. - View Dependent Claims (4)
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5. A low phytate, low-aluminum soy protein isolate produced by a method comprising the steps of:
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(a) providing an aqueous slurry comprising 7% to 15% by weight of defatted soy flour; (b) adjusting the pH of the slurry to be in the range of 7.5 to 9.5 at a temperature in the range of about 38°
C. to about 54°
C. such that protein in the slurry becomes solubilized;(c) passing the slurry through an ultrafiltration device and collecting a permeate containing protein and carbohydrates, and a retentate containing phytate and aluminum; (d) adjusting the pH of the permeate collected in step (c) to be in the range of 4.2 to 4.7 and allowing the protein to precipitate; and (e) separating the precipitated protein from the remainder of the permeate, the aluminum content of the precipitated protein of step (d) being not greater than about 0.5 mg/kg, the phytate content of the precipitated protein of step (d) being less than 1.0%, by weight, as determined by the following procedure; (i) a protein isolate sample is weighed and extracted in 2.4% hydrochloric acid, concentration by volume, for two hours; (ii) the pH of the sample is then adjusted to be greater than 8 followed by quantitative transfer and dilution; (iii) the diluted sample is filtered through #2V filter paper and the filtrate is collected; (iv) an aliquot of the filtrate is injected into a mixed mode column and separation is achieved utilizing a sodium hydroxide gradient in the range of 56 mM to 150 mM in the presence of 5% isopropyl alcohol, concentration by volume, at a flow rate of 1.0 ml per minute; (v) using suppressed conductivity to detect phytate in the sample; and (vi) the phytate concentration of the sample is determined by comparing chromatographic data of the sample with standards of known concentrations of phytate.
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Current AssigneeAbbott Laboratories Incorporated
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Original AssigneeAbbott Laboratories Incorporated
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InventorsWestfall, Peter H., Schimpf, Karen J., Nardelli, Christy A.
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Primary Examiner(s)Russel, Jeffrey E.
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Application NumberUS07/832,125Time in Patent Office677 DaysField of Search514/2, 530/350, 530/370, 530/373, 530/372, 530/374, 530/375, 530/376, 530/377, 530/378US Class Current530/378CPC Class CodesA23J 1/14 from leguminous or other ve...A23J 3/16 from soybeanA23L 11/30 Removing undesirable substa...
