Abstract. Pato U, Ayu DF, Riftyan E, Restuhadi F, Pawenang WT, Firdaus R, Rahma A, Surono IS, Jaswir I. 2021. Physicochemical property of oil palm leaves and utilization of cellulose microfiber as probiotic encapsulant. Biodiversitas 22: 2937-2944. The vast land of oil palm (Elaeis guineensis) in Indonesia has a huge potential for oil palm solid waste, which can be used for various human needs. The physiochemical analysis performed was proximate analysis and fiber content, FTIR and X-ray diffraction analysis, an in vitro test on viability and resistance to acid and bile during storage at room and refrigerated temperatures. The main content of oil palm leaves was carbohydrates, especially fiber and followed by ash, protein, and fat. Fiber from oil palm leaves is mainly composed of lignin followed by cellulose and hemicellulose. X-ray diffraction analysis showed that the crystal index of cellulose from oil palm leaves was 10.1%. FTIR analysis showed that the enormous absorption value, which was the stretching vibrations of the -OH group ranging from 2919.17 to 2914.82 cm-1. Cellulose microfiber from oil palm leaves maintained the viability of L. fermentum InaCC B 1295 for up to 28 d of storage at room and refrigerated temperatures. The survival of strain B1295 at low pH and presence of bile was very high, characterized by a decrease in the number of cells by less than 0.5 log CFU/mL during storage of 35 d at room and refrigerated temperatures. Therefore, Cellulose microfiber from oil palm leaves has the potential to be used as an encapsulant for probiotics.
Bacteriocin, a peptide produced by lactic acid bacteria (LAB) widely used as a natural and safe preservative in food products. This work aimed to evaluate the characterization of bacteriocin from dadih's LAB and to study its antimicrobial activity against Staphylococcus aureus. Supernatant from 12 LBA strains could inhibit S. aureus growth with different inhibition zones. Only nine strains showed inhibition zones of > 3.5 mm and were further evaluated for their antibacterial compounds. Three strains had antimicrobial activity derived from organic acids, especially lactic acid, and six strains had antimicrobial compounds in the form of bacteriocin. Bacteriocin strain R-55 showed the highest activity against S. aureus, with an average inhibition zone of 8.43 mm. The molecular weight of the purified isolated bacteriocin from the R-55 strain was 14.4 kDa. Bacteriocin obtained from St. faecalis subsp. liquefaciens R-55 is a promising natural preservative to prevent the growth of S. aureus as foodborne pathogens.
This work aimed to analyze the physicochemical properties of cellulose from OPT used in the fabrication of CMF and evaluate the efficacy of the hydrogel CMF as an encapsulant for L. fermentum InaCC B1295 stored at room temperature and in the refrigerator. The Kjeldahl method was used to evaluate the protein content; the gravimetric method was used to determine OPT's ash, moisture, and fiber contents; the Soxhlet method was used to determine the fat content carbohydrates were computed using the difference method. The levels of holocellulose, lignin, and cellulose were also determined. Viability, acid and bile resistance of strain B1295 were evaluated at various temperatures for 35 days. The most abundant component of OPT fiber was cellulose, followed by hemicellulose and lignin. XRD examination revealed that OPT cellulose has a crystal index of 83.40%. FTIR analysis was used to detect the stretching vibrations of the –OH group on cellulose at 3419.03 cm-1. CMF hydrogel from OPT sustained L. fermentum InaCC B1295 survival for up to 28 days at room and refrigerated temperatures. At acidic conditions and in the presence of bile, the viability of L. fermentum InaCC B1295 was excellent, with a drop in cell population of less than 0.2 log CFU/g over 35 days at room and refrigerated temperatures. CMF obtained from OPT can be used as an encapsulant to maintain viability, acid resistance and bile of probiotics. There is still a need for research into the usage of CMF from OPT in combination with other encapsulants to extend the storage life of L. fermentum InaCC B1295. Doi: 10.28991/ESJ-2022-06-01-08 Full Text: PDF
Lactobacillus plantarum Mut-7 is a probiotic candidate isolated from gatot, traditional fermented cassava from Java, Indonesia. This study aimed to evaluate safety aspects of high dose consumption of L. plantarum Mut-7 (10 11 CFU/ml/day) on Sprague Dawley rats for 21 days. Twenty four female rats were randomly divided into 4 groups; initial condition group (P.0), control group (P.1), skim milk group (P.2) and probiotics group (P.3). All groups followed adaptation phase of 7 days, followed by treatment phase of 21 days for P.1, P.2 and P.3. The results showed that supplementation of high dose of L. plantarum Mut-7 did not have detrimental effects on general health, organ weight, hematology and histology parameters of treated rats. Feed intake and body weight showed no significant difference between groups. L. plantarum Mut-7 can survive in gastrointestinal tract of rats, resulting in an increased population of L. plantarum in the fecal matter and the digesta of treated rats. Bacterial translocation of L. plantarum Mut-7 was not detected in the blood and organ of treated rats as confirmed by rep-PCR with BOXAIR primer and further 16S RNA gene sequencing analysis. Twenty-six isolates from blood and organs of treated rats had low-level similarity (<75%) to that of L. plantarum Mut-7, with 10 isolates were further analyzed and found that none of them belong to L. plantarum. Although this study was limited to the use of animal study, the findings are useful to support the safety assessment of the use of L. plantarum Mut-7 as a probiotic according to the abovementioned parameters.
The halal food industry is increasing in conjunction with the world’s Muslim population growth. Microbial bioprocess-based is an option for producing a wide range of high-quality and nutritional foods. This study aimed to evaluate fermented milk using Lactobacillus plantarum TMW 1.1623 and Streptococcus thermophilus as starter cultures propagated on halal media. The catfish was used as the primary raw material for preparing peptone to formulate the halal medium. The papain enzyme was occupied during the hydrolysis process of peptone extraction. Experimental studies used a completely randomized design (CRD) with four treatments and four replications. The treatment in this study was to produce fermented milk with the concentration of starter cultures 3, 5, 7, and 9% (V/V). The ratio of L. plantarum TMW 1.1623 and S. thermophilus is 1:1. The results indicated that the starter concentration of the cultures significantly affects the pH, titratable acidity, Viscosity, total sugar, and total lactic acid bacteria (LAB) of fermented milk. The best quality fermented milk was obtained with a 9% culture starter of L. plantarum TMW 1.1623 and S. thermophilus. The pH was 4.88, total acid 0.74%, total sugar 0.53%, viscosity 1043.17cP, and total LAB 11.49 log CFU/mL.
Pandemi COVID-19 yang awalnya bermula di Wuhan Cina begitu cepat menyebar ke lebih dari 206 negara termasuk Indonesia. Penggunaan vaksin merupakan suatu tindakan preventif yang cukup efektif dalam pencegahan penularan COVID-19. COVID-19 disebabkan oleh SARS-CoV-2 yang merupakan hasil mutasi dari SARS-CoV yang memiliki sifat virulensi yang lebih tinggi dan menyebar lebih cepat. Terhitung pada tanggal 7 April 2020, jumlah orang yang terinfeksi telah mencapai lebih 1.352.045 orang di antaranya 76.328 orang meninggal dunia. Walaupun belum ada obat khusus untuk mengobati COVID-19, namun pemberian obat misalnya remdesivir, fapilavir dan chloroquin fosfat dapat menyembuhkan 293.665 orang pasien. Selain tindakan terapi, tindakan preventif seperti peningkatan kekebalan tubuh merupakan langkah yang penting untuk mencegah penularan berbagai jenis penyakit. Hasil penelitian menunjukkan bahwa probiotik dapat meningkatkan kekebalan tubuh melalui crosstalk antara probiotik dan mukosa usus. Interaksi antara probiotik dan mukosa usus dapat meningkatkan pembentukan limfosit yaitu sel B dan sel T, interleukin utamanya IL-10 dan IL-1β, imunoglobulin terutama IgA, sel NK dan sel Th-17. Pembentukan komponen ini secara langsung akan meningkatkan sistem kekebalan tubuh terhadap penularan berbagai penyakit termasuk COVID-19.
This study aims at an in vitro characterization of the acid and bile tolerance of Lactobacillus fermentum InaCC B1295 (LFB1295) encapsulated with hydrogel cellulose microfibers (CMF) from oil palm empty fruit bunches (OPEFBs). The viability at different storage temperatures was assessed. The experimental design used in this research was an in vitro trial. The microencapsulated probiotic was stored at 25 °C and 4 °C for 28 days. LFB1295 encapsulated with cellulose microfiber hydrogel from OPEFB showed a stable viability of probiotic bacteria at pH 2 and 0.5% (m/v) oxgall. In addition, the microencapsulation maintained the viability at 25 °C and 4 °C at 0, 14, and 28 days. The characterization of the encapsulant CMF-OPEFB showed that the thickness of CMF was in the range of 5–15 μm, and XRD patterns showed that CMF was of the cellulose I type with a crystallinity index of 77.08%. Based on its resistance to hydrogen peroxide, ability to scavenge DPPH radicals, and activity in scavenging hydroxyl radicals, LFB1295 encapsulated with CMF hydrogel of OPEFB exhibits antioxidant properties as good as the scavenging ability of DPPH radicals with IC50 of 36.880, 188.530, and 195.358 µg/mL, respectively, during storage for 0, 14, and 28 days at room and refrigerated temperature. Furthermore, hydroxyl radicals (HR)-scavenging activity showed an increased inhibition along with the increasing concentration of the Fenton reaction and decreasing concentration of cell-free supernatant (CFS) during storage time. In vitro safety tests, including hemolytic activity, biogenic amines, cytolysin, and gelatinase production, showed that the encapsulated LFB1295 was safe to use as a probiotic. The results of the inhibitory activity against hydrogen peroxide LFB1295 show that the higher the concentration of H2O2, the lower the inhibition value during 28 days of storage. Based on the storage temperature, the inhibition of LAB against H2O2 based on different storage temperatures showed a better level of the inhibition at cold temperatures compared to at room temperature.
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