scholarly journals The influence of addition of various sweet potatoes (Ipomea batatas) extract to total count of cells and antioxidant activity in yogurt

2009 ◽  
Vol 7 (2) ◽  
pp. 68-76
Author(s):  
RETNATI RETNATI ◽  
M.A.M. ANDRIANI ◽  
GUSTI FAUZA

Retnati, Andriani MAM, Fauza G. 2009. The influence of addition of various sweet potatoes (Ipomea batatas) extract to total count of cells and antioxidant activity in yogurt. Biofarmasi 7: 68-76. The aim of this research was to determine the influence of addition of various sweet potatoes extract to the total count of cells and the antioxidant activity in yogurt. Yogurt was made from fresh milk, skim milk, white sweet potato, orange sweet potato, purple sweet potato, and pure culture of Streptococcus thermophilus 0040 and Lactobacillus bulgaricus 0041 in straight MRS agar. Fresh milk, skim milk powder (5%, b/v), and sweet potato extract (10%, v/v) was pasteurized at 90oC for 15 minutes, cooled to the temperature between 40-45oC, inoculated with 2.5% S. thermophilus and L. bulgaricus with a proportion of 1.4:1, and then incubated at a temperature of 40oC for 15 hours. Yogurt without an addition of sweet potato extract was used as control. The parameters measured in this experiment were the total count of cells with TPC (Total Plate Count) method and the antioxidant activity with DPPH (2,2- diphenyl-1-picrylhydrazyl) method. Samples were taken at one hour interval to examine the total count of cells, while the antioxidant activity was collected at three hours interval. The result of each analysis was plotted into graphics which describing the relation of total bacteria and antioxidant activity with fermentation time. ANOVA was employed to analyze the data. If there was a significant difference, it should be followed by Duncan Multiple Range Test (DMRT) at a significance level α=0.05. The result of this research showed that the addition of various sweet potatoes extracts increased the total count of cells and the antioxidant activity in yogurt. The total count of cells showed no significant different for each sample, it meant that the different colors in sweet potato did not influence the total count of cells. However, yogurt with orange and purple sweet potato extract addition had a significant difference on the antioxidant activity with control and yogurt with white sweet potato extract. In conclusion, the difference colors in sweet potato influenced in the antioxidant activity in yogurt significantly. Sweet potato is potential for milk substitute in yogurt production due to oligosaccharide content and antioxidant activity.

2016 ◽  
Vol 78 (6-12) ◽  
Author(s):  
Amir H. M. S. ◽  
Nurun N. ◽  
Nida Iqbal ◽  
Nur F. R. ◽  
Lee L. H. ◽  
...  

Natural sources of antioxidants are derived from fruits, vegetables and wine, whilst artificial supplements are from teas and spices. Sweet potato (Ipomoea batatas) is an excellent natural source of vitamins and minerals, and likely a great source of antioxidant. The objective of this study  is to analyze the antioxidant activity of orange sweet potato (Vitato) and  purple sweet potato (All purple), prepared as heat dry and  moist heat for 30 minutes at 100oC. All the samples were obtained from Pasir Puteh and MARDI Telong, Bachok, Kelantan, respectively. Both samples were soaked into methanol to obtain the crude extract prior to analyzing for antioxidant activity by using 2, 2-diphenyl-1-picryl hydrazyl (DPPH). IC50 values of dry heat and moist heat Vitato were 0.40mg/L and 0.20mg/L while dry heat and moist heat, All purple were 0.32mg/L and 0.19mg/L, respectively. Both moist heat samples enjoyed higher scavenging activities compared to dry heat samples. However, the All purple sample of moist heat is the most superior one. Significant difference of IC50values between dry heat and moist heat sample differ significantly. Thus, this study clearly demonstrated that moist heat sweet potato exhibited  excellent increase in antioxidant activity.


ZOOTEC ◽  
2017 ◽  
Vol 37 (2) ◽  
pp. 474
Author(s):  
Aprilawati Daeng Lanusu ◽  
S.E Surtijono ◽  
L.Ch.M. Karisoh ◽  
E.H.B. Sondakh

ORGANOLEPTIC CHARACTERISTICS OF ICE CREAM ADDING BY PURPLE SWEET POTATOES (Ipomea batatas L). This study was conducted to know about the use of purple sweet potatoes as an extender to ice cream on the organoleptic characteristics. The material used in this study were fresh milk, purple sweet potatoes and the ingredients for ice cream making. Four treatments tested in this study consisted of P0 (1000 ml of milk without purple sweet potatoes), P1 (1000 ml of milk plus purple sweet potatoes 150 g), P2 (1000 ml of milk plus purple sweet potatoes 300 g), P3 (1000 ml of milk plus purple sweet potatoes 450 g). This research used a complete randomized design and was tested by 35 of panelist to determine the organoleptic properties data of a purple sweet potato ice cream product. The data measured of in this research used hedonic scale. The variables measured consisted of color, flavor, texture, taste of ice cream. Determination of difference of average was done by DMRT test. The results of this study showed that the treatment was significant effect on color, flavor, texture and taste (P<0.01). The conclusion of this study based on organoleptic characteristics, the use of 450 g of purple sweet potatoes as an additive in 1000 ml of milk can be used on making of ice cream.Keywords: Ice cream, Purple Sweet Potato, Organoleptic Properties


2021 ◽  
Vol 1 (1) ◽  
pp. 70-80
Author(s):  
M. Mutawalli Wira Supati ◽  
Salnida Yuniarti Lumbessy ◽  
Dewi Putri Lestari

Goldfish is one of the freshwater cultured fish that is favored by the community both for consumption and as ornamental fish. Sweet potato (Ipomea batatas L.) is a plant that can be used as a prebiotic in fish feed. Sweet potato (I. batatas L.) is an annual plant that grows in the tropics. Sweet potatoes contain lots of carbohydrates, provitamin A, B vitamins, vitamin C, minerals, and a little fat and protein. This research is an experimental study using Completely Randomized Design (CRD) with 4 treatments and 3 replications each, so the number of experimental units is 12 units. P1 : commercial feed (control), P2: purple sweet potato extract 4 ml / 100 g feed, P3: purple sweet potato extract 8 ml / 100 g feed, P4: purple sweet potato extract 12 ml / 100 g feed. The data obtained were tested using Analysis of Variance (ANOVA) at a 95% confidence level through the SPSS program to determine the effect of each treatment. Keywords: Purple Sweet Potato Extract, Carp, Growth, Prebiotics, Nutrient   Retention.


2019 ◽  
Vol 7 (1) ◽  
pp. 38-44 ◽  
Author(s):  
I Made Oka Adnyana ◽  
Raka Sudewi ◽  
Purwa Samatra ◽  
Suprapta Suprapta

BACKGROUND: Ischemic stroke occurs due to the abrupt occlusion in the brain which leads to neuronal death. Neuronal death in ischemic stroke is due to increase production of reactive oxygen species (ROS). Neuronal death occurs via necrosis and apoptosis mechanisms. Apoptosis can either occur via extrinsic or intrinsic pathway. Meanwhile, the intrinsic pathway can be caspase-dependent or independent. Anthocyanin is a natural pigment with antioxidant, anti-inflammatory, anti-cancer, and neuroprotective properties. Balinese cultivate of purple potato extract contains a high level of anthocyanin and has been proven for its antioxidant activity. AIM: Antioxidant effect of Balinese cultivates purple potato extract has not been studied on an animal model with ischemic stroke. Accordingly, we would like to study the effect of antioxidant properties from Balinese cultivate of purple potato extract by assessing the neurological score, BNDF concentration, and caspase-independent apoptosis by measuring AIF concentration on Wistar rats with ischemic stroke. METHODS: This was an experimental study using male Wistar rats age between 12-14 weeks weigh between 200 to 250 g. RESULTS: This study demonstrated a significant difference of neurological score on day 3 among control versus treatment groups. Balinese cultivate of purple potato extract markedly reduced AIF, increased BDNF, and suppressed apoptosis among treatment group when compared with the control group. CONCLUSION: We have proven the efficacy of antioxidant activity of anthocyanin derived from Balinese cultivar of purple sweet potato by elevated AIF levels, lower apoptosis rate, improved neurological score on day-3 to day-7 post-stroke, as well as increased BDNF levels.


2020 ◽  
Vol 5 (1) ◽  
pp. 46-55
Author(s):  
Ivan Eldes Dafrita ◽  
Mustika Sari

Pembuatan preparat untuk pengamatan sel atau jaringan pada kegiatan praktikum membutuhkan bahan pewarna. Bahan pewarna yang sering dugunakan adalah bahan kimia sintetik. Eksplorasi pemanfaatan bahan pewarna alternatif yang murah dan mempunyai afinitas tinggi terhadap komponen sel dilakukan dengan pemanfaatan pewarna alami yang dihasilkan oleh antosianin yang terdapat pada buah senduduk dan ubi jalar ungu. Penelitian ini menggunakan rancangan acak lengkap (RAL) dengan 1 faktor perlakuan yaitu waktu pewarnaan 60, 90, dan 120 menit. Analisis data dilakukan dengan deskriptif kualitatif terhadap kualitas preparat dan kelayakan preparat. Berdasarkan hasil penelitian kualitas preparat yang diwarnai dengan ekstrak buah senduduk dan ubi jalar ungu menunjukan hasil terbaik pada lama pewarnaan 90 menit dengan persentase 83,33% dan 53,33%. Kualitas preparat yang diwarnai dengan ekstrak buah senduduk lebih baik daripada yang diwarnai dengan ekstrak ubi jalar ungu Preparat mitosis akar bawang merah yang diwarnai dengan ekstrak buah senduduk dan ekstrak ubi jalar ungu dinyatakan sangat layak untuk digunakan sebagai preparat pada kegiatan praktikum pembelahan sel.Kata kunci: Preparat squash, senduduk, ubi jalar ungu, akar bawang merah Senduduk and sweet potatoes as staining for squash preparations of onion root tip. The exploration for the use of alternative dyes that are cheap and has a high affinity for cell components is carried out by the use of natural dyes produced by anthocyanins found in fruit Melastoma malabathricum, and sweet potato Ipomea batatas var. Ayumurakasi. The study design was a completely randomized design (CRD) with 1 factor, coloring time 60, 90, and 120 minutes. The data analysis was performed by descriptive qualitative of the quality of the preparations and the suitability of the preparations. Based on the results of the study the quality of the preparations stained with extracts of Senduduk fruit and purple sweet potato showed the best results in the staining time is 90 minutes with a percentage is 83.33% and 53.33%. The quality of the preparations stained with Senduduk fruit extract is better than that which is colored with purple sweet potato extract. Mitosis specimens of onion root stained with extracts of Senduduk fruit and purple sweet potato extract were declared very feasible to be used as a specimen for cell division practical activities.Keywords: Squash preparations, melastoma malabathricum, sweet potatoes, onion root tip.


2018 ◽  
Vol 15 (2) ◽  
pp. 146
Author(s):  
BRILIAN DINANTI ◽  
FITRI HANDAJANI

<p>Liver is an organ with complex metabolism. When the liver is inflamed, cellular immunity will defend against inflammatory agents by stimulating immune cells to produce reactive oxygen species (ROS). Excessive ROS accumulation cause oxydative stress with increased  liver malondialdehyde (MDA) level. Some researches showed that purple sweet potato contain flavonoids (anthocyanins) that functioned as antioxydants. This study aimed to show the prophylactic effect of purple sweet potato extract to the liver MDA level of male Wistar rats induced by carrageenan.</p><p>This study used post-only control group method using 18 male Wistar rats divided into 3 groups: group of rats without treatment, group of rats induced by 0,1 ml of 1% carrageenan by intraplantar injection on day-8, and group of rats given with 872 mg/kgBW of purple sweet potato extract for 7 days and induced by 0,1 ml of 1% carrageenan. In the end of the study, the liver MDA levels were measured by Thio-Barbituric Acid method on each groups.</p><p>The results of One-Way ANOVA test showed there was no significant difference (p = 0,290) between group of rats without treatment (<em>x̅</em>= 207,50) and group of rats induced by carrageenan (<em>x̅</em>=233,17). Then, there is no significant difference (p = 0.978) between group of rats induced by carrageenan and group of rats given with prophylactic purple sweet potato extract and induced by carrageenan (<em>x̅</em>= 232,50).</p><p>The conclusion of this study is giving intraplantar injection of carrageenan can increase liver MDA level insignificantly and giving prophylactic purple sweet potato extract has an effect to decrease the liver MDA level of rats induced by carragenan insignificantly because it contains anthocyanins as antioxidants.</p><p> </p><strong>Keywords: </strong>Liver, <em>Ipomoea batatas</em> L., Malondialdehyde, Anthocyanins


2020 ◽  
Vol 12 (1) ◽  
pp. 9-15
Author(s):  
Yusmarini Yusmarini ◽  
Shanti Fitriani ◽  
Vonny Setiaries Johan ◽  
Rahmayuni Rahmayuni ◽  
Vita F. Artanti

Tapai is one of the typical Indonesian fermented products. This research utilized Lactobacillus plantarum 1 RN2-53 and natural dyes made from plants in the production of cassava tapai. The objectives of this research were to improve the quality of probiotic cassava tapai and to obtain the chemical, microbiological and sensory characteristics of the cassava tapai. Natural dyes used were purple sweet potato extract, red dragon fruit extract and narrow-leaf pleomele extract. The results showed that cassava tapai made with the addition of Lactobacillus plantarum 1 RN2-53 and the addition of natural dyes from plants had different chemical and microbiological characteristics. Tapai made with the addition of red dragon fruit extract generally had a lower pH value and a higher total titrated acid compared to tapai made with the addition of purple sweet potato extract and narrow-leaf pleomele extract, but the alcohol content of tapai made with the addition of purple sweet potatoes extract was higher than the others. The number of lactic acid bacteria was around 109 and had met the probiotic food criteria.


2019 ◽  
Vol 3 (2) ◽  
pp. 8-13
Author(s):  
I Nyoman Sumerta Miwada ◽  
IN.S. Sutama ◽  
IK. Sukada ◽  
L. Doloksaribu

This study was undertaken to analyze the quality of goat milk based cheese particularly its potential high antioxidant content through fortification of goat milk with purple sweet potato extract. A completely randomized design was used to determine the characterization of goat milk based cheese quality through five levels i.e. 0% (A); 2% (B); 4% (C); 6% (D) and 8% w/v (E) of purple sweet potato extract fortification in goat milk. The results showed that the increased level of fortification by purple sweet potato extract in goat milk based cheese significantly increased the pH value of the cheese (P<0.05) where the highest pH was 6.20 at the level of 4%  w/v. Meanwhile, the yield and total of cheese acid were not affected by the fortification. The content of cheese protein significantly decreased (P<0.05) by the increasing level of fortification by purple sweet potato in goat milk. Goat milk-based cheese on the E treatment contained the lowest protein (19.42%). Functional potency of the cheese increased significantly (P<0.05) when the level of fortification was increased. The highest antioxidant content in goat milk based cheese was 114.47 mg/L. GAEAC at 8% w/v level. In conclusion, by increasing fortified goat milk by purple sweet potato extract up to 8% w/v was able to potentially produce cheese containing a high antioxidant.


2018 ◽  
Vol 43 (2) ◽  
pp. 159
Author(s):  
F. Afiati ◽  
G. Priadi ◽  
F. Setiyoningrum

he research was conducted to examine the use of purple sweet potato (Ipomoea batatas var. Ayamurasaki) to improve functional food of yogurt. This experiment has 2 factors of treatments. The first factor (i) was concentration of skim milk, i.e. 0%, 3% and 6%; the second factor (ii) was concentration of purple sweet potato, i.e. 0%, 2% and 4% of purple sweet potato. The parameters observed were viability of lactic acid bacteria (LAB), pH, moisture content, protein, fat, carbohydrate, ash and crude fiber and organoleptic. The results showed that there was no interaction between the concentration of skim-milk and the purple sweet potato on total LAB, moisture content and crude fiber. However, the interaction occurred on the levels of fat, protein, carbohydrate and ash. The organoleptic test results that yogurt enriched by 2% purple sweet potato without addition of skim was more preferable by panelist with a value of 3.65.


Foods ◽  
2019 ◽  
Vol 8 (9) ◽  
pp. 393 ◽  
Author(s):  
Chin-Chia Chen ◽  
Chi Lin ◽  
Min-Hung Chen ◽  
Po-Yuan Chiang

Because of the high nutritional value of anthocyanin in purple sweet potatoes (TN57), the stability and quality of anthocyanin in purple sweet potatoes during and after the processing were investigated in this study. First of all, the extraction methods with different parameters, such as temperature, time, solid-liquid ratio, pH value, and solvent were employed to get better extraction efficiencies. After that, DPPH (1,1-diphenyl-2-picrylhydrazyl) and ABTS (2,2′-azino-bis (3-ethylbenz thiazoline-6-sulphonic acid) were used to evaluate the anti-oxidation ability of the extracts. Lastly, the thermal degradation kinetics and photodegradation were used to obtain important degradation factors including the content of anthocyanin residue, degradation index (DI), color parameters, reaction rate (k), and chromatic aberration (ΔE). We found that the extraction condition as using 60% ethanol with 1% citric acid under 80 °C for 40 min was optimal for purple sweet potatoes, which obtained antioxidant capacity as 333 μM TE DPPH, 376 μM TE ABTS+, and 593.6 μM TE ferric ion reducing antioxidant power (FRAP). The results indicate that the most important parameter for the stability of anthocyanin in the purple sweet potato extract (PSPAE) was the pH value rather than temperature. In addition, there was no significant difference in chromatic aberration between the light and dark storage conditions under 37 °C. Thus, PSPAE has the potential to be developed as health foods and drinks rich in anthocyanin.


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