Antioxidants Distribution in Pulp and Seeds of Black and Red Goji Berries as Affected by Boiling Processing

Pulp and seeds from four varieties of black goji and two varieties of red goji with different geographical origins were examined for their total phenolic content (TPC), total flavonoid content (TFC), condensed tannin content (CTT), monomeric anthocyanin content (MAC), 2,2-diphenyl-1-picrylhydrazyl (DPPH) scavenging capacity, and ferric reducing antioxidant power (FRAP) using colorimetric methods. Contribution rates of pulp and seed to phytochemical contents and overall antioxidant capacities of whole fruits were calculated for each parameter. It was observed that most of the phytochemicals and antioxidant activities were predominantly contributed by the pulp in all six varieties. Boiling led to significant (p < 0.05) losses in the phytochemical content and antioxidant capacity. The average MAC value in black goji was significantly (p < 0.05) higher than that observed for red goji.


Introduction
As the fruits of Solanaceae family shrub plant, goji (also called as wolfberry) has been used as traditional medicinal foods in China and other Asian countries for centuries [1].Red goji (Lycium barbarum L.) is a perennial, deciduous shrub growing northwest China and the Mediterranean region [2].Black goji (heiguogouqi in Chinese) is a black color small berry fruit from (Lycium ruthenicum Murr.) natively growing in northwest part of China.Goji is a good source of fiber, protein, carotenoids [3], and polysaccharides [4].Recent research indicates that goji had a lot of biological activities, including antidiabetes [5], antiproliferative activity [4], preserving retinal function [6], and antioxidant activity [7,8].A lot of research has focused on carotenoids [3] and polysaccharides [4,6].However, phytochemicals [9,10], such as phenolic compounds [11], including phenolic acids and flavonoids in goji and their antioxidant activity have been less evaluated.
Furthermore, the information on the effect of goji color and the effect of boiling on phytochemical distribution of goji is very few.The aim of this work was to compare the phytochemicals and antioxidant activities between red and black goji, discuss the distribution of phytochemicals in fruits, and investigate the contribution of goji pulp and seeds to the antioxidants of whole goji.

Experimental Materials and Chemicals.
Four varieties of black goji and two varieties of red goji were used to carry out this work (Table 1, Figure 1).The varieties varied in their places of origin and were bought from six different sources.

Preparation of Goji Sample.
The goji samples preparation was conducted using a modified colorimetric method [12].

Extraction of Phytochemicals from Black and Red
Goji.Each powdered sample (1.0000 g) was taken in a capped centrifuge tube and extracted twice using 30 mL of 60% (V/V) ethanol.The mixture was extracted for 30 min using a Scientz-IID ultrasonic cell disrupter (Ningbo Scientz Biotechnology Company, Ltd., Ningbo, Zhejiang, China).The extract was centrifuged at 5000 rpm for 10 min and collected in a new centrifugal tube.The extraction was carried out in triplicates and extracts were kept at 4 ∘ C in the dark for next study.

Determination of Total Phenolic Content (TPC).
The TPC of samples was determined using the Folin-Ciocalteu reagent-based colorimetric assay as described by Dong et al. [13].Phenolic content was calculated as mean (gallic acid equivalents (GAE) and reported as mg g −1 sample) ± standard deviation (SD) for three replications.

Determination of Total Flavonoid Content (TFC).
The TFC of samples was determined using a modified colorimetric method [10,12].The flavonoid content was determined by a catechin standard curve and expressed as the mean (milligrams of (+)-catechin equivalents (CAE) per g sample) ± standard deviation (SD) for three replications.

Determination of Monomeric Anthocyanin Content (MAC)
. MAC was measured using a pH differential method as described by Lee et al. [14].The MAC results were reported as cyanidin-3-glucoside equivalents (mg CyE/g sample) using a molecular weight of 449.2 g mol −1 and a molar extinction coefficient of 26,900 L cm −1 mol −1 .

Determination of Condensed Tannin Content (CTC).
CTC was determined using a modified colorimetric method as described by Xu and Chang [15].The results were expressed as (+)-catechin equivalents (mg CAE/g sample) by using a calibration curve of (+)-catechin with linearity range from 50 to 1000 g/mL.

Determination of Ferric Reducing Antioxidant Power (FRAP)
. FRAP was measured using a colorimetric method as described by Zhu et al. [16].The results were expressed as micromoles of Fe 2+ equivalents per gram of sample (mol Fe 2+ /g sample) using a calibration curve of Fe 2+ with linearity range of 10-1000 mol/L.

Determination of Free Radical Scavenging Activity (DPPH)
. DPPH radical scavenging capacities of samples were evaluated according the method of Tanvir et al. [17] with slight modifications.The DPPH was expressed as the mean ± standard deviation (SD) for three replications.

The Contribution Rate of Pulp and Seeds in Goji Fruits.
The goji fruits consist of pulp and seeds, so contribution of these two components to the fruits was calculated in contribution rates way.The contribution rates were calculated as the following equation: where CR  (%) is the contribution rate of  (%);  target substance  is the content of target substance in ;   (%) is the percentage weight of  in the sample;  target substance  is the content of target substance in ;   (%) is the percentage weight of  in the sample.

Statistical Analysis.
All results were expressed as mean ± SD of three replicates.Data in triplicate were analyzed by one-way analysis of variance and Duncan's multiple range test using SPSS 11.5 software package for Windows (IBM Corporation, Armonk, NY, USA).Data with p < 0.05 were considered as significantly different [18].

Physical Properties of Black and Red
Goji.The physical properties of all the six varieties considered in the study have been summarized in Table 2.The average weight of 100 grains varied from 2.5 to 4.1 g for black goji.Pulp and seeds contributed equally (about 50%) to the total fruits weight.For red goji, the average weight of 100 grains varied from 10.1 to 23.3 g.Of this, pulp occupied more than 75% of the total weight for red goji with the highest value observed for variety number 3 at 83.8%.

Contents of Phytochemicals in Black and Red Goji.
Spectrophotometric method is one good method to assess the major phenolic classes in plants [19].TPCs content of the different parts of black and red goji have been indicated.The results showed that TPC was significantly (p < 0.05) higher in pulp but comparable in seeds and fruits for all the varieties (Table 3).For each cultivar, the TPC content tendency of different parts was the same as follows: pulp > seeds > whole fruits.TPCs for the pulp for different varieties ranged from 3.44 to 6.54 mg GAE/g, while for seeds, the values obtained were 1.19-3.37mg GAE/g (Table 4).The TPC found in our study was similar to data reported in the literature [20].They presented that the TPC in fresh and dried goji fruits are 174.27 and 342.59 gallic acid equivalents/100 g, respectively, using ethanol 80% as extract solvent.Moreover, the other group measured a mean TPC of 8.65 g GAE/100 g seeds in Jabuticaba (Myrciaria cauliflora) seeds [21].
For the same part among different varieties, the TPCs were found to be significantly (p < 0.05) different (Table 4).As far as the contribution rates are concerned, pulp contributed to majority of TPC (57-93%) presented in goji.Only 7%-43% of the TPC could be allocated to the seeds (Table 5).
TFC in pulp was significantly (p < 0.05) different for all the varieties considered in the study (Table 3).Moreover, pulp had the highest TFC values, followed by seeds and whole fruits for all six varieties.For pulp, the values ranged from 2.2 to 11.6 mg CAE/g, while, for seeds, the values were found to be between 0.26 and 2.37 mg CAE/g and, for fruits, the values were 0.12-1.24mg CAE/g.And, for red and black variety, four black goji samples had a very high concentration of TFCs than red samples.The results showed that the contribution rate of the pulp to the TFC was high.There is similar tendency in the previous publication [8].The contribution rate of the seeds (9-22%) to the TFC of the whole goji was significantly (p < 0.05) lower as compared to that of the pulp (78-91%) (Table 5).
The results showed that for five different varieties except variety 1, pulp had the highest concentration of MAC.The values obtained for variety 4 (black goji) were significantly     (p < 0.05) higher than those for other samples.The values for pulp ranged from 0.09 to 12.4 mg CyE/g.They were minimum for variety 5 (red goji).The seeds were between 0.03 and 12.08 mg CyE/g and were minimum for variety 6 (red goji), while for fruits, the values were 0.02-1.57mg CyE/g.Anthocyanins are colored pigments, purple or black in color [12].Hence, the MAC for black goji is considerably higher than that observed for red goji.For black goji (variety 1, 3, 4), the contribution rate of the seeds was significantly (p < 0.05) higher than the pulp (Table 5).CTC in the pulp, seeds, and fruits for all six goji varieties has been listed in Table 3.The results showed that pulp had the highest contribution for all six varieties.The values were the highest for pulp and the lowest for fruits in between them.Interestingly, CTC content in different parts had the following tendency: pulp > seeds > whole fruits.Interestingly, for each variety, 34-94% of the CTCs were contributed by the pulp.

Antioxidant Activities (FRAP and DPPH) of Black and
Red Goji.Pulp had the highest FRAP values in six different varieties.FRAP values were the lowest for fruits for all the black and red goji (Table 3).For each variety, the trend of FRAP value for the different components was observed to be as follows: pulp > seeds > whole fruits.Across different varieties, FRPA values for the same part were found to be significantly (p < 0.05) different but comparable (Table 4).The values for pulp lied between 0.15 and 0.62 mol Fe 2+ /g and the same for seeds which were found to be lying between mol Fe 2+ /g.As far as the total contribution of each component to the overall antioxidant activity of the whole goji is concerned, the results indicated that the contribution rates of both pulp and seeds were comparable (Table 5).While the contribution rate of pulp was the lowest for variety 6 (44%), it was the highest for variety 4 (94%).
DPPH free radical scavenging activity was the highest for pulp compared to seeds (p < 0.05) in all six varieties (Table 3).The tendency of DPPH results from different parts was pulp > seeds > whole fruits which is the same trend as obtained using the FRAP assay also.For pulp, DPPH free radical scavenging activity ranged from 44.6 to 85.1%, while for seeds the same was found to be lying between 11.1 and 48.2%.Across different varieties, DPPH free radical scavenging activities from the same component were significantly (p < 0.05) different (Table 4).Table 5 indicates the overall contribution of the pulp and seeds to the DPPH free radical scavenging activity of the whole goji.The pulp contributed to 54-94% of the DPPH for all six varieties, whereas the seeds contribution rate was only 6%-46%.
FRAP assay and DPPH free radical scavenging activity assay are two methods to ascertain the antioxidant activity of food and plant.There are colorimetric redox reactions in FRAP assay and DPPH free radical scavenging activity assay.However, in DPPH method, the color is cleared by forming a colorless substance, named DPPH-H.In FRAP method, Fe 3+ -TPTZ is reduced to Fe 2+ -TPTZ by the antioxidant compounds which results in blue color.

Effect of Boiling on the Phytochemical Distribution and
Antioxidant Activity of Black and Red Goji.The residual boiled water contained a very relatively high content of phytochemicals and antioxidant activities.This showed that most of the phytochemicals are lost while boiling from the fruits to the water.The boiled fruits had the lowest phytochemicals contents and antioxidant activities.There were some other studies presenting the similar phenomena apart from this work.Attree et al. [12] revealed that boiling leads to significant losses in the phytochemicals and antioxidant activities for peanuts.However, Chukwumah et al. [22] reported the different results that boiling led to an increase in the TPC and TFC as compared to the raw fruits.
± 1.34 c * Data were expressed as means ± standard deviations ( = 3).The data in the same column marked with different small case letters were significantly ( < 0.05) different.
± 1.34 d * Data were expressed as means ± standard deviations ( = 3).The data in the same column marked with different small case letters were significantly ( < 0.05) different.

Table 1 :
Source of origin, color, and sample ID of goji berry samples.

Table 2 :
The physical properties of different goji varieties.

Table 3 :
Significant difference analysis for the different components among the same variety *

Table 4 :
Significant different analysis for the same part among different varieties *

Table 5 :
Contribution rates of pulp and seeds to the overall phytochemical content and antioxidant activity of goji.