Claim Missing Document

Found 2 Documents

Diversity of Actinomycetes at Several Forest Types in Wanagama I Yogyakarta and Their Potency as a Producer of Antifungal Compound Nurjasmi, Reni; Widada, Jaka; N, Ngadiman
Indonesian Journal of Biotechnology Vol 14, No 2 (2009)
Publisher : Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (332.685 KB)


Actinomycetes are bacterial groups that produce many secondary metabolites, which different biological activities, such as antifungi, antibacteria, antivirus, antitumor, etc. Actinomycetes are widely distributed in soil and their diversity is influenced by type of forest. The aim of this study is to investigate diversity of actinomycetes in several forest types of Wanagama I forest in Yogyakarta and their potency as a producer of antifungal compound. Soil samples under the forest of Tectona grandis, Swietenia macrophylla King, Bamboosa vulgaris, Melaleuca leucadendron, and Gliricidia maculata were used as sources of soil bacteria. Bacteria and actinomycetes communities were analyzed through culture-independent approach by RISA and nested-PCR RISA using actinomycetes spesific primer (F243), respectively. Through culture-dependent approach, isolated actinomycetes diversity were analyzed by identification of morphology (colony and cell), genetic (BOX element by rep-PCR), and secondary metabolites (thin layer chromatography). In addition, isolates were assayed for their antifungal activity against Saccharomyces cerevisae, Candida albicans, Fusarium oxysporum and Aspergillus flavus. The presence of Polyketide Synthase-I (PKS-I) and NonRibosomal Peptide Synthetase (NRPS) genes were amplified by PCR to study their correlation with antifungal activity of the actinomycete isolates. The results showed that types of forest influence diversity of rhizobacteria especially actinomycetes. According to culture-independent approach, relatively, com-</div><div>munity of rhizobacteria from the highest were soil under the forest of B. vulgaris, G. maculata, T. grandis, S.macrophylla King, and M. leucadendron, respectively. Meanwhile, community of actinomycetes from the highest were soil under the forest of G. maculata, B. vulgaris, M. leucadendron, S. macrophylla King, and T. grandis, respec- tively. Fourty-three morphologically different isolates were found by using culture-dependent approach consisting of 17 isolates were found in soil under the forest of M. leucadedron, each of 9 isolates in G. maculata and T. grandis, 6 isolates in S. macrophylla King. and 2 isolates in B. vulgaris. More diversity of secondary metabolites were observed in soil actinomycetes under the forest of M. leucadendron. Of the 43 isolates, 100% were active against S.cerevisae, 37.20% against C. albicans, 95.30% against F. oxysporum, and 83.70% against A. flavus. Antifungal activity of actinomycete isolates did not always have correlation with the presence of PKS-I and NRPS.
An Actinomycetes Producing Anticandida Isolated from Cajuput Rhizosphere: Partial Identification of Isolates and Amplification of pks-I genes ., Alimuddin; Asmara, Widya; Widada, Jaka; ., Mustofa; Nurjasmi, Reni
Indonesian Journal of Biotechnology Vol 15, No 1 (2010)
Publisher : Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (234.627 KB)


Actinomycetes have been the most prolific producer of various kinds of antifungal metabolites, and many of them are described as being produced by polyketide synthetases (pks). We present strain of Actinomycetes producing anticandida isolated from rhizosphere plant for amplification of Pks-I genes. The isolate was obtained from Wanagama I Forest UGM Yogyakarta. Gene of seven isolates, from total of 173 isolates, were amplified using degenerate primer to detect the presence of pks genes. One strain that is named Streptomyces sp. GMR-22 was partialy identified as anticandida producing actinomycete. The strain shown the strongest activity against Candida albicans. Based on bioautography assay, one spot active with Rf 0.57 was appeared as bright yellow by cerrium sulphate but it was and not visible on UV254 and 366 lights. Key words : pks genes, anticandida, Streptomyces sp GMR-22, rep-PCR, cajuput rhizosphere