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Articles by Yantyati Widyastuti
Total Records ( 2 ) for Yantyati Widyastuti
  Wulansih D. Astuti , Komang G. Wiryawan , Elizabeth Wina , Yantyati Widyastuti , Sri Suharti and Roni Ridwan
  Background and Objective: Probiotics are widely used in ruminant production, but information about the potential of Lactobacillus plantarum (L. plantarum) as a probiotic for ruminants is still limited. The aim of this research was to select L. plantarum strains as a probiotic for ruminants and to determine their effect on the rumen fermentation system. Materials and Methods: The first experiment was conducted using a randomized block design to select 14 strains of L. plantarum isolated from rumen cattle. The second experiment was arranged in a completely randomized design using two selected L. plantarum strains to determine their effects as a probiotic on rumen fermentation. The substrates used for in vitro fermentation were napier grass (Pennisetum purpureum) and concentrate in a 70:30 ratio. Results: From experiment 1, L. plantarum U32 was selected, because it produced low methane/total gas (27.39%) and strain U40 was selected because it had the highest dry matter and organic matter rumen disappearance (56.45 and 56.44%). In experiment 2, the addition of L. plantarum U32 and U40 as probiotics increased propionic acid and decreased acetic production (p<0.05), which led to a lower A:P ratio (p<0.05). The total volatile fatty acid and in vitro digestibility were not affected by the addition of L. plantarum. Probiotic addition increased lactic acid bacteria and the protozoa population (p<0.05) from the rumen fluid compared to the control. The total rumen bacteria were not significantly changed by the treatments. Conclusion: The addition of L. plantarum strains U32 and U40 as probiotics had beneficial effects for rumen fermentation due to increased propionic acid and decreased methane production.
  Betty Nurhayati , Marlia Singgih Wibowo , Yantyati Widyastuti , Pande Putu Erawijantari , Wahyu Widowati , Mohammad Rizki Fadhil Pratama and Tutus Gusdinar Kartawinata
  Lactobacillus plantarum species often harbor several plasmids. These plasmids may encoded important traits such as phages or antibiotics resistances, lactose catabolism and production of proteolytic enzyme and also bacteriocins that named plantaricin. Lactobacillus plantarum IBL-2 that isolated from strawberry of Bali plantation have the highest anti-microorganism activity among the L. plantarum isolate collection of BTCC Indonesia. Only few study carried out to examine the antifungal activity of bacteriocin from L. plantarum. This study focus on anti-Candida activity of plasmid associated with bacteriocin production from L. plantarum IBL-2. The isolates were confirmed by the 16S rRNA analysis by PCR and the phylogenetic tree was built based on references sequences and one outgroups from database. The plantaricin gene screening then performed in plasmid that was isolated from L. plantarum IBL-2 by PCR using five pairs or plantaricin gene primer. The anti-Candida potential of plantaricin observed were analyzed by in silico by docking analysis between the plantaricin and receptors of apoptosis proteins. PlnB and PlnEF were observed in the L. plantarum plasmid. Only PlnEF become the focus of study. Analysis of docking study predicted that PlnEF have interactions with apoptosis proteins regulator in eukaryotic cells. PlnEF that encoded by plasmid of L. plantarum may exert anti-Candida potential through interactions with apoptosis proteins regulator.
 
 
 
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