Misnawi Jati
Indonesian Coffee and Cocoa Research Institute

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Cocoa extract has activity on selectively killing of breast cancer cells line ariza budi tunjung-sari; Mahriani Mahriani; Gusti Agung Perias Tiningrum; Teguh Wahyudi; Misnawi Jati
Journal of Tropical Life Science Vol. 5 No. 3 (2015)
Publisher : Journal of Tropical Life Science

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.11594/jtls.05.03.04

Abstract

Effect of the cocoa crude extract on mortality of breast cancer cell lines i.e. MCF-7, T47D and normal cell (Vero), was observed. Crude cocoa extract prepared from a freshly dried cocoa bean that was containing 14% catechin and 0.6% caffeine. Catechin and caffeine content were modulated to 2-folds (28% catechin or 1.2% caffeine) and 3-folds (42% catechin or 1.8% caffeine) by adding pure compounds. Extracts were dissolved in dimethylsulfoxide (DMSO) at concentrations ranging from 200 to 1600 μg/ml. The positive control was doxorubicin (0.5-16 μg/ml in DMSO). Cell lines (MCF-7, T47D, and Vero) were incubated in test sample for 24h at 37°, prior to 3-(4,4-dimetylthiazole-2-yl)-2,5-diphenyltetrazolium bromide (MTT) assay. The absorbance of each well was measured at 550 nm, and lethal concentration (LC50) was calculated. The cocoa extract induced mortality of breast cancer cell lines but not in Vero cells. The effect on MCF-7 was greater than on T47D, given the LC50 was 1236 μg/ml (MCF-7) and 1893 μg/ml (T47D). Cytotoxic potential of cocoa extract was much lower than doxorubicin whose LC50 was0,777 μg/ml (MCF-7) and 0,082 μg/ml (T47D). Increasing catechin content to 2-folds did not significantly affect LC50 value, but 3-folds catechin content reduced LC50 to 1021 μg/ml. Meanwhile increasing caffeine content to 2-folds significantly reduced LC50 to 750 μg/ml, however, 3-fold content resulted in slightly higher LC50 at 780 μg/ml. This indicates that cocoa extract have anti-cancer potential, and purification may improve this property .
Effects of Alkali Concentration and Conching Temperature on Flavour, Hardness and Colour of Chocolate Misnawi Jati; Susijahadi .; Jinap Selamat; Teguh Wahyudi; Novrita Putriani
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 22 No 2 (2006)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v22i2.35

Abstract

Alkalization is an addition of alkali into cocoa mass to improve product quality in terms of flavour and colour appearance. Sodium bicarbonate and potassium bicarbonate are usual to be added into cocoa cotyledon prior to roasting. A study has been carried out to evaluate the effects of alkalization proceeded upon conching on chocolate sensory properties, hardness and colour. Re sponse Surface Methodology design at alkali concentrations of 1—15 g kg -1 and conching temperature of 40—80 oC have been used in the study. Parameters evaluated were sensory properties, particle size, hardness and colour. Results of the study showed that alkali concentration significantly influenced aroma, overall preference, particle size and hardness; meanwhile, conching temperature showed significant influence on aroma, taste, appearance, overall preference and texture of chocolate. Alkali concentration and conching temperature showed interactively influence on aroma and overall preference. A good quality of chocolate could be found at the alkali concentration of 8—15 g kg -1 and conching temperature of 74—80 oC. Key words: cocoa bean, chocolate, flavour, conching, alkalization, colour, particle size, texture.
Physical Characteristics of Cocoa Butter and Palm Stearin Mixture in Milk Chocolate System Misnawi Jati
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 24 No 3 (2008)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v24i3.104

Abstract

Chocolate products for consumption in tropical areas frequently become soft and tend to bloom due to melting and migration of fat contained, the product becomes dully and less interesting. Fat fraction determines chocolate texture, appearance and its handling. Objective of this research is to study the characteristic of mixed fat of cocoa butter, milk fat and stearin; in which the latest was added into a chocolate formula expected to increase its physical characteristic. Response Surface Methodology design was used for the study at stearin concentration of 10–60 g kg-1 and lecithin of 1–7 g kg-1. Parameters of the study were fat melting point, chocolate hardness and preference on chocolate texture and overall acceptance. Result of the study showed that the stearin concentration significantly altered chocolate physical characteristic, where the lecithin concentration did not influence. The presence of stearin in milk chocolate system showed fat eutectic phenomenon. Substitution of cocoa butter with stearin up to concentration of 35 g kg-1 in the formulation showed a clear eutectic; however, at higher concentrations the phenomenon was compensated by the increase in stearin crystal seed which raised melting point and hardness. This result also clearly indicated that cocoa butter substitution with palm stearin to obtain resistant chocolate should be designed in a range of 43–60 g kg-1 in its formulation, equal to 15–18% from cocoa butter added.Key words : chocolate, cocoa butter, stearin, eutectic, solidifier, emulsifier, melting point, texture.
Changes in procyanidins and tannin concentration as affected by cocoa liquor roasting Misnawi Jati
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 25 No 2 (2009)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v25i2.134

Abstract

Changes in cocoa procyanidins and tannin concentration as affected by cocoa liquor roasting were studied by heating up cocoa liquor of fermented beans containing 58 g kg-1 of polyphenols and the same liquor which was enriched with crude polyphenols, extracted from freeze-dried unfermented cocoa beans to a final concentration of 170 g kg-1. The liquors were roasted at 120 OC for 15, 25, 35 and 45 min with three replications. Result of the study showed that cocoa bean polyphenol was resistant against high temperature during heating of cocoa liquor 120 OC for up to 45 min. The resistance was stronger with the unfermented cocoa bean polyphenol than with fermented cocoa. High temperature promoted a small quantity of monomers up to pentamers of the fermented cocoa bean polyphenol to polymerize into higher oligomers, but did not with unfermented cocoa bean polyphenol. These results imply that the problem of lack in cocoa flavor in terms high astringency and bitterness due to high polyphenol content cannot be overcome by the application of high temperature during chocolate processing, meanwhile cocoa bean polyphenol could still give beneficial as an antioxidant even after high temperature application.Key words: Cocoa bean, polyphenol, procyanidin, tannin, roasting, antioxidant, flavor, astringency.
Changes in procyanidins and tannin concentration as affected by cocoa liquor roasting Misnawi Jati
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 26 No 3 (2010)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v26i3.139

Abstract

AbstractPratylenchus coffeae is a parasitic nematoda that infected the roots of some plants, one of them is coffee. The Infection of Pratylenchus coffeae cause root tissue damage that led to root lession and make root become rotten, it will interfere the ability of roots to absorb water and nutrients in the soil which resulted in the growth of plants. At the moment, control of Pratylenchus coffeae are following integrated pests management (IPM) program, which integrated between the use of coffee resistant clone and application of biological agents. Research on biological control was conducted more intensive, at the moment; due to it is friendlier save against environment and cheaper then using chemical nematicides. The research was conducted to know the effects of Micorrhiza Helper Bacteria (MHB),Pseudomonas diminuta and Bacillus subtilis in suppressing the population of P. coffeaeas well as their effect on growth of coffee seedling.  Coffee arabica (Coffea arabica L.) seedling one moth old were used in the experiment. The experiment prepared with eight treatments and five  replications, as follows: A (Pseudomonas diminuta with density of 108 cfu / ml), B (Pseudomonas diminuta with density of 2x108 cfu / ml), C (Bacillus subtilis with density of 108 cfu / ml ), D (Bacillus subtilis with density 2x108 cfu / ml), E (Carbofuran nematicide 5 g formulation / pot), F (Pseudomonas diminuta and Bacillus subtilis with each density of 108 cfu / ml), K- (Nematoda inoculation but without bacteria and nematicide), K+ (coffee seedling  without any additional treatment). The experiment was conducted for sixteen weeks or about four months. The results of the experiment showed that application of MHB could suppress population of P. coffeae and increase coffee seedling growth significantly. Inoculation of B. subtilis at 108 cfu per seedling suppressed significantly nematoda population of 71.3% compared with untreated seedling but inoculated with nematoda. It was not significant different with carbofuran treatment which could suppress nematoda population by 89.7%. The same result also occur on the treatment of P. diminuta at density level 2.108 cfu/seedling, which could suppress nematoda population by 64.2%. Seedling growth were treated with MHB also significantly increase compared with seedling without treatment and inoculation of nematodas, especially on the treatment of B.subtilis at density level 108 cfu and P.diminuta at density level of 108 cfu, with increasing level of 35.4% and 34.2 %, respectively.Keywords: MHB (Mycorrhiza Helper Bacteria), Arabica coffee (Coffea arabica L.),  Pratylenchus coffeae, Bacillus subtilis, Pseudomonas diminuta.
Analysis of Pyrazine and Volatile Compounds in Cocoa Beans Using Solid Phase Microextraction Misnawi Jati; Ariza Budi Tunjung Sari
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 27 No 1 (2011)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v27i1.143

Abstract

Analisis pirazin dan senyawa volatil pada biji kakao dilakukan dengan perangkat mikroekstraksi fase padat (solid phase micro extraction, SPME), untuk mengembangkan metode ekstraksi tanpa pelarut yang efisien. Perangkat SPME dilengkapi fiber stableflex dengan polimer DVB/Carboxen/PDMS yang menjerap senyawa volatil di area headspace. Biji kakao terfermentasi disangrai dan diambil lemaknya untuk ditempatkan dalam botol bertutup septa. Sampel dipanaskan pada suhu 70OC dan serat SPME ditusukkan menembus septa untuk mengekstrak senyawa volatil dari lemak kakao selama 30 menit. Senyawa volatil lemak kakao akan dijerap oleh serat SPME dan dilepaskan kembali untuk analisis kromatografi gas. Penelitian menunjukkan pirazin dan senyawa volatil yang diekstrak oleh serat SPME dapat terdeteksi dengan baik oleh kromatografi gas. Area puncak yang dihasilkan SPME meliputi 2,83–5,35% dari area puncak yang dihasilkan syringe, kendati demikian kemampuan ekstraksi SPME dapat disetarakan dengan syringe. Lima jenis pirazin yang sering terdapat di biji kakao telah diidentifikasi, meliputi metil pirazin (2MP); 2,3 dan 2,5-dimetilpirazin (DMP); dan 2,3,5 trimetilpirazin (TrMP) dan tetrametil pirazin (TMP). Senyawa lainnya juga terdeteksi meliputi alkohol, asam karboksilat, aldehida, keton, ester, pirazin, amin dan senyawa volatil lainnya, dan diketahui erat kaitannya dengan aroma khas cokelat. Keberhasilan SPME dalam ekstraksi pirazin dan senyawa volatilsemi volatil yang berperan penting dalam pembentukan aroma cokelat menandakan SPME dapat digunakan lebih lanjut untuk analisis citarasa.
Effects of Fructose and Tapioca Flour on physical and Sensory Properties of Chocolate Bar Misnawi Jati
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 27 No 3 (2011)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v27i3.158

Abstract

High sucrose content in chocolate is not recommended for diabetics, whereas fructose is a simple monosaccharide which is sweeter and safer for replacing sucrose. Objective of this study was to study the effect of fructose and tapioca flour added into chocolate formulation replacing sucrose on physical and organoleptic properties of chocolate bar produced, as well as to find out their optimum concentration to produce a good quality chocolate. Response Surface Methodology design was used for the study with fructose and tapioca flour range concentration at 141–235 and 25–100 g kg-1, respectively. Results of the study showed that fructose and tapioca flour concentration at the stated ranges did not significantly alter the chocolate properties except on chocolate particle size and preferences in terms of taste, aroma and overall acceptance. Fructose concentration improved particle size quadratically, while tapioca flour concentration linearly decreased taste, aroma and overall acceptance scores. Comparing the products with that of control formula concluded that fructose can be used to replace sucrose to produce good quality chocolate bars; while tapioca flour can be used as filler at a concentration up to 25 g kg-1. The optimum concentration to formulate chocolate bars with good physical and organoleptic properties was at fructose and tapioca flour concentration of 203 and 25 g kg-1, respectively. Key words: Cocoa, chocolate, fructose, diabetes, tapioca flour, flavour, aroma, texture
Optimization of cocoa nib roasting based on sensory properties and colour using response surface methodology D.M.H. A.H. Farah; Zaibunnisa, A.H Zaibunnisa, A.H; Misnawi Jati
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 28 No 1 (2012)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v28i1.163

Abstract

Roasting of cocoa beans is a critical stage for development of its desirable flavour, aroma and colour. Prior to roasting, cocoa bean may taste astringent, bitter, acidy, musty, unclean, nutty or even chocolate-like, depends on the bean sources and their preparations. After roasting, the bean possesses a typical intense cocoa flavour. The Maillard or non-enzymatic browning reactions is a very important process for the development of cocoa flavor, which occurs primarily during the roasting process and it has generally been agreed that the main flavor components, pyrazines formation is associated within this reaction involving amino acids and reducing sugars. The effect of cocoa nib roasting conditions on sensory properties and colour of cocoa beans were investigated in this study. Roasting conditions in terms of temperature ranged from 110 to 160OC and time ranged from 15 to 40 min were optimized by using Response Surface Methodology based on the cocoa sensory characteristics including chocolate aroma, acidity, astringency, burnt taste and overall acceptability. The analyses used 9- point hedonic scale with twelve trained panelist. The changes in colour due to the roasting condition were also monitored using chromameter. Result of this study showed that sensory quality of cocoa liquor increased with the increase in roasting time and temperature up to 160OC and up to 40 min, respectively. Based on the Response Surface Methodology, the optimised operating condition for the roaster was at temperature of 127OC and time of 25 min. The proposed roasting conditions were able to produce superior quality cocoa beans that will be very useful for cocoa manufactures.Key words : Cocoa, cocoa liquor, flavour, aroma, colour, sensory characteristic, response surface methodology.
Use of cocoa ethanolic extract for treatment of Staphylococcal infection in rabbit-skin model Ariza Budi Tunjung-Sari; Teguh Wahyudi; Diana Chusna Mufida; Mekania Tamarizki; Desyana Perwitahati; Ihda Kartika Syamsuddin; Misnawi Jati
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 32 No 1 (2016)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v32i1.214

Abstract

In  septic  condition,  the  skin  normal  flora  Staphylococcal  spp.  may  trigger local  and  sistemic  skin  infection.  In  this  study  antibacterial  activity  of  cocoa ethanolic  extract  (CEE)  against  Staphylococcus  aureus  and  Staphylococcus epidermidis infections  was  observed  in  vitro  and  in  vivo.  Ethanolic  extract  from unfermented  cocoa  beans  was  prepared  as  solution  in  the  in  vitro  testing,  while for  in  vivo  testing  the  extract  was  prepared  as  cream.  Agar  well  diffusion  assay showed  that  CEE  ranging  from  7.8  mg/mL  to  1000  mg/mL  demonstrated  inhibitory  activity  against  growth  of  either  S.  aureus  and  S.  epidermidis. Inhibitory activity  of  CEE  was  in  concentration  dependent  manner,  and  was  less  potential than either cephalexin 4 x 10 -3 mg/mL or cefotaxime 8 x 10 -3 mg/mL. Linear regression of CEE concentration plotted against inhibition zone values ha dpredicted the minimum inhibitory  concentrations  (MIC)  of  CEE  towards  S.  aureus  and  S.  epidermidis were at 341.9 mg/mL and 359.7 mg/mL, respectively. Topical application of cream containing  CEE  at  several  concentrations  (2%,  4%,  and  8%)  demonstrated  healing properties  towards  incision  wound  infected  with  S.  aureus and  S.  epidermidis cultures in rabbit-skin model. CEE cream promoted wound contraction and higher recovery  rate  than  of  base  cream  (negative  control)  but  lower  than  mupirocin 2%  cream.  In  S.  aureus and  S.  epidermidis  infected  wound  models,  CEE  cream 8%  improved  wound  recovery  to  72.7%  and  86.1%  from  original  rates  of  23.5% and 34.7% (base cream application). Catechin and procyanidis are suggested playing roles in  alleviation of wound inflammation and stimulation of extracellular matrix accumulation,  thus  accelerate  the  wound  healing  process.  This  study  proposes utilization  of  cocoa  bean  as  source  of  active  ingredient  for  skin  care  products.
Uterus Weight of Ovariectomized Rats Given Cocoa Powder and Extract Ariza Budi Tunjung; Misnawi Jati; Pratiwi Pudjiastuti; Afaf Baktir
Pelita Perkebunan (a Coffee and Cocoa Research Journal) Vol 33 No 1 (2017)
Publisher : Indonesian Coffee and Cocoa Research Institute

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22302/iccri.jur.pelitaperkebunan.v33i1.253

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Estrogen is a hormone that influences the growth of uterus. Ovariectomized rats lose their ovaries as the main source of estrogen so their uterus tends to shrink. The objective of thise study was to evaluate the potency of cocoa as an estrogen substitute, which was done through an experiment that tested the influence of cocoa products on the uterus weight of ovariectomized rats. There were five treatments and in each of the treatments, six wistar rats were given the substance for three days. Four groups of treatment consisted of ovariectomized rats given cocoa extract (875.2 ppm of polyphenols, 1 g/kg of body weight, BW), cocoa powder (369.8 ppm of polyphenols, 1 g/kg BW), olive oil (10 mL/kg BW), or estradiol valerate (1 mg/kg BW). The fifth group consisted of intact (non-ovariectomized) rats given 10 mL/kg BW of water. The finding showed that the ovariectomized rats given olive oil had lower uterus weight than that of intact rats, while the ovariectomized rats given estradiol valerate had higher uterus weight compared to the intact and olive oil groups. The ovariectomized rats given cocoa powder and extract had higher uterus weight compared to those given only olive oil; although they were not significantly different. Correlation between the body weight and uterus weight varied across treatment groups. The rats given olive oil showed significant, positive correlation, while the intact rats showed moderate, positive correlation. The rats given estradiol valerate and cocoa powder showed non-significant correlation. Since the polyphenol content in cocoa powder was at lower concentration than that in the cocoa extract, it was predicted that cocoa polyphenols are more potential in the lower concentration. This study concludes that even though consumption of cocoa powder and extract did not significantly induced uterus growth, cocoa is still considered having estrogenic activity by lowering the correlation between the body weight and uterus weight in ovariectomized rats.