Correction to Effects of Thermal Treatment on the Coagulation of Soy

Correction to Effects of Thermal Treatment on the Coagulation of Soy Proteins Induced by Subtilisin Carlsberg. Kuniyo Inouye*, Mikio Nakano, Kohei Asa...
4 downloads 0 Views 582KB Size
J. Agric. Food Chem. 2009, 57, 11581–11582

11581

Correction to Effects of Thermal Treatment on the Coagulation of Soy Proteins Induced by Subtilisin Carlsberg [J. Agric. Food Chem. 57, 717. DOI: 10.1021/jf802693f]. Kuniyo Inouye,* Mikio Nakano, Kohei Asaoka, and Kiyoshi Yasukawa The correct name of the second author is Mikio Nakano. DOI: 10.1021/jf903926t Published on Web 11/12/2009

Correction to Profile of Plasma and Urine Metabolites after the Intake of Almond [Prunus dulcis (Mill.) D.A. Webb] Polyphenols in Humans [J. Agric. Food Chem. 2009, 57, 10134. DOI: 10.1021/ jf901450z]. Mireia Urpi-Sarda, Ignacio Garrido, Mara Monagas, Carmen G omez-Cordoves, Alexander MedinaRem on, Cristina Andres-Lacueva,* and Bego~ na Bartolome Tables 2 and 3 have been corrected as follows:

Table 2. Concentrations of Conjugated Phenolic Metabolites Detected in Nonhydrolyzed Human Plasma and Urine before and after Consumption of Almond Skin Extract plasmaa (nM) before metabolite flavan-3-ols (epi)catechin-O-glucuronide 1 (epi)catechin-O-glucuronide 2 (epi)catechin-O-glucuronide 3 O-methyl (epi)catechin-O-glucuronide 1 O-methyl (epi)catechin-O-glucuronide 2 (epi)catechin sulfate 1 (epi)catechin sulfate 2 O-methyl (epi)catechin sulfate 1 O-methyl (epi)catechin sulfate 2 O-methyl (epi)catechin sulfate 3 hydroxyphenylvalerolactones 5-(dihydroxyphenyl)-γ-valerolactone glucuronide derivative 1 5-(dihydroxyphenyl)-γ-valerolactone glucuronide derivative 2 5-(dihydroxyphenyl)-γ-valerolactone sulfate derivative 5-(hydroxymethoxyphenyl)-γ-valerolactone glucuronide derivative 1 5-(hydroxymethoxyphenyl)-γ-valerolactone glucuronide derivative 2 5-(hydroxymethoxyphenyl)-γ-valerolactone sulfate derivative 1 5-(hydroxymethoxyphenyl)-γ-valerolactone sulfate derivative 2 flavanones naringenin-O-glucuronide 1 naringenin-O-glucuronide 2 flavonols isorhamnetin-O-glucuronide 1 isorhamnetin-O-glucuronide 2 isorhamnetin sulfate

urineb (nM) after

MRM transition

mean

SD

mean

465f289 465f289 465f289 479f303 479f303 369f289 369f289 383f303 383f303 383f303

ndc nd nd nd nd nd nd nd nd nd

383f207 383f207 287f207 397f221 397f221 301f221 301f221

nd nd nd nd 278.81 160.36 368.23 7.62 6.11 5.94 nd nd nd nd nd nd

nd nd 19.51 8.54 7.94 5.59d 14.71 41.82 17.83d nd

before SD

3.99 3.47 3.98 9.02 17.17

mean

0.55 2.25 3.08 1.93 2.28 5.33 10.62 8.24 7.14 2.90

after SD

0.78 0.05 0.17 0.70 0.62 1.77 5.79 4.04 1.83 0.57

mean

6.95 6.39 21.35 25.30 46.92 972.70 200.40 586.31 537.34 87.52

SD

3.29 0.89 3.91 9.74 7.28 344.64 28.55 90.34 132.70 10.37

18.03 3.95 2939.65 501.22 35.28 17.30 7682.78 1942.14 224.37 3969.68 283.23 449558.92 146817.62 4.84 362.61 97.5 832.89 291.5 6.18 1.68 117.89 41.19 57.26 50.50 1495.68 828.12 14.36 7.15 704.80 266.53

447f271 447f271

0.84 0.61

0.15 0.05

3.35 1.27

0.17 0.17

2.81 8.15

1.44 8.35

14.97 15.43

6.41 5.61

491f315 491f315 395f315

1.68 1.14 nd

0.03 0.81

2.40 1.49 nd

1.46 0.54

5.08 4.54 37.39

2.74 1.38 4.54

6.71 4.89 62.75

0.55 1.72 29.13

Mean (n = 2), standard deviation (SD). Before (at 0 h); after (at 2.5 h). b Mean (n = 2), standard deviation (SD). Before (from -2 to 0 h); after (from 0 to 24 h). c nd, not detected. d Detected in only one volunteer. a

11582

J. Agric. Food Chem., Vol. 57, No. 24, 2009

Additions and Corrections

Table 3. Concentration of Microbial-Derived Phenolic Metabolites Detected in Hydrolyzed Human Plasma and Urine before and after Consumption of Almond Skin Extract plasmaa (nM) before metabolite hydroxyphenylvalerolactones 5-(dihydroxyphenyl)-γ-valerolactone 5-(hydroxyphenyl)-γ-valerolactone hydroxyphenylpropionic acids 3,4-dihydroxyphenylpropionic acid 3-hydroxyphenylpropionic acid hydroxyphenylacetic acids 3,4-dihydroxyphenylacetic acid 3-hydroxyphenylacetic acid 4-hydroxy-3-methoxyphenylacetic acid phenylacetic acid hydroxycinnamic acids m-coumaric acid p-coumaric acid caffeic acid ferulic acid 3-hydroxy-4-methoxycinnamic acid hydroxybenzoic acids 3-hydroxybenzoic acid 4-hydroxybenzoic acid protocatechuic acid vanillic acid hydroxyhippuric acids 4-hydroxyhippuric acid

urineb (nM) after

MRM transition

mean

SD

mean

207f163 191f147

ndc nd

181f137 165f121

2880.36 2038.17

365.83 367.60

2787.25 1780.23

167f123 151f107 181f137 135f91

406.28 986.95 755.81 8481.61

112.62 143.93 189.16 2343.50

163f119 163f119 179f135 193f134 193f134

17.94 29.29 509.99 46.50 71.52

137f93 137f93 153f109 167f152

nd 6177.80 4553.05 2821.25

194f100

14.56

before SD

after

mean

SD

121.09 48.81

11.70 10.12

14.53 335.28

2805.14 8.16d

415.97

385.83 939.50 571.49 8733.33

30.04 52.28 162.27 2384.11

1759.11 2421.92 6327.50 5577.11

559.81 2366.71 2186.86 116.15

3122.01 7012.71 25212.61 6716.28

161.09 4401.08 10960.16 921.82

9.58 0.46 95.05 2.68 26.28

22.93 19.14 484.26 25.38 66.74

4.98 2.66 24.04 12.68 5.61

15.54 14.86 809.06 111.13 3034.48

8.91 17.72 318.26 17.70 128.10

29.35 20.65 1200.01 365.45 4541.98

17.15 12.90 43.82 258.27 1705.02

824.05 792.78 478.51

nd 6527.09 4222.13 3087.02

234.47 265.67 273.06

206.26 5529.69 9012.44 218.39

140.96 1759.09 1414.96 111.27

315.91 7034.03 9451.31 1676.85

10.28 240.27 1943.47 1183.74

1.47

11.46

0.11

15475.48

13393.70

17909.39

12733.87

nd nd

mean

SD

23553.03 229.21

1230.73 54.93

3618.37 51.61d

787.73

Mean (n = 2), standard deviation (SD). Before (at 0 h); after (at 2.5 h). Mean (n = 2), standard deviation (SD). Before (from -2 to 0 h); after (from 0 to 24 h). c nd, not detected. d Quantified in only one volunteer. a

b

The captions of Figures 1 and 2 have been updated (to include peak numbers) as follows: Figure 1. MRM trace chromatograms of (epi)catechin-Oglucuronides (465/289) (peaks 1, 2, and 3), (epi)catechin sulfates (369/289) (peaks 4 and 5), O-methyl (epi)catechin-O-glucuronides (479/303) (peaks 6 and 7), and O-methyl (epi)catechin sulfates (383/303) (peaks 8, 9. and 10) detected in urine samples after intake of almond extract. The MRM trace chromatogram corresponding to (epi)catechin (289/245) is also shown to confirm metabolites. Figure 2. MRM trace chromatograms of 5-(dihydroxyphenyl)γ-valerolactone glucuronide derivatives (383/207) (peaks 11 and 12), 5-(dihydroxyphenyl)-γ-valerolactone sulfate derivative (287/207) (peaks 13), 5-(hydroxymethoxyphenyl)-γ-valerolactone glucuronide derivatives (397/221) (peaks 14 and 15), and 5-(hydroxymethoxyphenyl)-γ-valerolactone sulfate derivatives (301/221) (peaks 16 and 17). MRM trace chromatograms of aglycones, 5-(dihydroxyphenyl)-γ-valerolactone (207/163) and 5-(hydroxy-methoxyphenyl)-γ-valerolactone (221/162), are also shown to confirm metabolites. DOI: 10.1021/jf9038887 Published on Web 11/10/2009