Lactic acid bacteria (LAB) were isolated and analysed its fermentation ability in triticale powder at different moisture levels. Furthermore, the antibacterial activity of fermented silage extract against cattle pathogens was also studied. The isolated strains were P. pentosaceus (TC48) and L. brevis (TC50) that confirmed based on biochemical and 16srRNA sequences methods. Extract from LAB fermented silage showed higher antibacterial activity (inhibition zone diameters: 18~24.2 mm) against E. coli P. aeruoginosa, S. aureus and E. Fecalis than the non-inoculated silage extract. TC48 and TC52 strains exhibited high tolerance to artificial gastric, duodenal and intestinal fluids. In summary, lactic acid bacteria mediated fermentation of triticale silage extract showed great antibacterial activity with significant probiotic characteristics might be an effective and safe way to provide new strategies for reducing the incidence of pathogenic bacteria associated diseases in animals.

Different types of lactic acid bacteriaw were isolated (LAB) from legume plants. A total of fifty LAB strains were isolated from legume plants and analysed its growth profiles in Alfalfa and crimson clove soups. Results suggested that all strains were able to grow in alfalfa and crimson clove soups. However, only seven strains were growing well and reduced the pH of the soups than the other strains. The selected strains were characterized and identified by biochemical and molecular tools. Results demonstrated that all strains belonged to the Pediococcus pentosaceus. Also, strains can produce industrially important enzymes and ferment the different carbohydrates substrates in-vitro. Overall results suggested that isolated LAB could be considered as potential strains to improve the fermentation process

The genus Pediococcus belongs to the lactic acid bacteria and includes 15 species which are used in the food industry as both starter and probiotic cultures. The importance of Pediococcus spp. is due to their use as starter cultures in fermented meat as well as to their presence as the natural microbiota in vegetables. The availability of P. pentosaceus in the food industry increases the need for reliable molecular techniques for strain identification. To date, the reliable molecular methods for definite identification at strain level of microorganisms used in food industry has not been developed. Molecular identification based on suitable marker genes could be a promising alternative to conventional molecular typing methods such as ribotyping. In this study, the applicability of seven housekeeping genes gyrB, pyc, pgm, leuS, glnA, and dalR in combination with the pgi gene in multilocus sequence typing of P. pentosaceus was assessed. Sequencing and comparative analysis of sequence data were performed on 6 strains isolated from various vegetables. In addition to 17 sequence types, two new sequence types were identified and these fortified sequence types and seven marker genes allowed for a clear differentiation of the strains analyzed, indicating their applicability in molecular typing.

Pediococcus pentosaceus KC-007가 생산하는 박테리오신은 MRS 배지에서 대수 증식기 말기에 최대로 생산되어 세포 외로 분비되었다. 박테리오신 활성은 proteinase K,trypsin, chymotrypsin, pepsin, subtilisin A 등의 단백질 가수분해효소에 의해 완전히 저해되었으나, catalase, lysozyme,lipase, ribonuclease A, α-amylase에 의해서는 저해되지 않고 안정하게 유지되었다. 박테리오신은 pH 2부터 8까지 범위에서 활성이 완전하게 유지되었으며, 100oC에서 60분간 또는 autoclave 처리에 의해서도 활성이 유지되었다. 박테리오신활성은 acetone, chloroform, ethanol, hexane, isopropanol,methanol 등의 유기용매나 SDS, Tween 20 등의 계면활성제의 작용에 영향을 받지 않았다. 본 연구에서 사용한 박테리오신은 Bacillus cereus, Escherichia coli O157-H7,Listeria monocytogenes과 같은 식중독 세균에 대한 높은항균활성을 지니고 있으므로 식품 보존제로서의 이용성이높을 것으로 판단된다.

Background: This study were to investigate the effect of Pediococcus pentosaceus fermented Radix astragali (AMRP) and non-fermented products (AMRNP) on collagen synthesis in the cultures of human dermal fibroblasts, and their inhibitory effects on the matrix-degrading enzymes (collagenase, elastase, and gelatinase). Methods and Results: Both AMRP and AMRNP significantly improved cell growth and proliferation of HDF cells. However, the enzyme-linked immunosorbent assay and Western blot analysis demonstrated that AMRP, but not AMRNP, significantly and dose-dependently stimulated the biosynthesis of type I procollagen in both aged (74 y) and young (21 y) HDF cells. Real-time reverse transcription-polymerase chain reaction revealed that expression of type I, type III procollagen and transforming growth factor β1 (TGF-β1) mRNA was significantly stronger in AMRP-treated HDF cells than that of AMRNP-treated and un-treated HDF cells. The AMRP revealed an increase in astragaloside Ⅳ only depending on increase in fermentation period, because other astragalside converted to astragaloside Ⅳ, which it detached acyl group by fermentation processing of Pediococcus pentosaceus. Conclusion: The results also suggested that AMRP could stimulate the collagen biosynthesis in human dermal fibroblasts, which is, associated with the regulation of procollagen biosynthesis resulting from AMRP-induced TGF-β1 expression and the mitogenic activity in HDF cells, and therefore, is expected to reduce the age-dependent loss of extracellular matrix proteins.