S BIO 1206405 Bibliography

(1)

DAFTAR PUSTAKA

Adhikari, T., Joseph, C., Yang, G., Phillips, D., Nelson, L. (2001). Evaluation of Bacteria Isolated From Rice for Plant Growth Promotion and Biological Control of Seedling Disease of Rice. Canadian Journal of Microbiology, 47, hlm. 916-924.

Agarwal, R.K., Gupta, S., Mittal, G., Khan, F., Roy, S., Agarwal, A. (2015). Antifungal Susceptibility Testing of Dermatophytes by Agar Based Disk Diffusion Method. International Journal of Current Microbiology and Applied Science, 4(3), hlm. 430-436.

Ahamed, N. (2012). Isolation and Identification Of Secondary Metabolites Producing Organisms From Marine Sponge. Discovery, 1(1), hlm. 14-17.

Albericci, J.P. dan Fletcher, J.A. (1956). A Modified Method for Preparing and Counting Viable Suspensions of Tubercle bacilli. J. gen. Microbiol, 14, hlm. 692-697.

Alio, A.B., Mendoza, M., Zambrano, E.A., Diaz, E. Cavalerra, E. (2005). Dermatophytes Growth Curve and in Vitro Susceptibility Test: A Broth Micro-Titration Method. Medical Mycology, 43, hlm. 319-325.

Ambarwati, S. Azizah, T., Sembiring, L., Wahyuono, S. (2012). Uji Aktivitas Antifungi Isolat Actinomycetes Yang Berasosiasi Dengan Rizosfer Padi (Oriza sativa). Jurnal Kesehatan, 5(2), hlm. 139-148.

Anggraeni, R. (2013). Pengaruh Pemberian Topikal.. Universitas Airlangga.

Anggriawin, M. (2012). Cara Kerja Antijamur. Universitas Sumatera Utara.

Arundhina, E., Sogihardjo, C.J., Sidharta, B.B.R. (tanpa tahun). Aktivitas Ekstrak Etanol Daun Alamanda (Allamanda cathartica L.) sebagai Antijamur Terhadap Candida albicans dan Pityrosporum ovale Secara in vitro, hlm. 1-14.

Asaduzzaman, M.D. (2007). Standardization of Yeast Growth Curves from Several Curves with Different Initial Sizes. Chalmers University of Technology and G¨oteborg University. Sweden.

Badan POM RI. (2008). Ageratum conyzoides L. Direkorat Obat Asli Indonesia.

Bacon, C.W. & M.R. Siegel. (1990). Isolation of Biotechnological Organisms from Nature. Mc Graw-Hill Environtment Biotechnology Series. US. Hlm. 259-279.

Bandara, H.M.H.N., Yau, J.Y.Y., Watt, R.M., Jin, L.J., Samaranayake, L.P. (2010). Pseudomonas aeruginosa inhibits in-vitro Candida. BMC Microbiology, 10 (125), hlm. 1-9.

(2)

Bhavan, P.S., Rajkumar, R., Radhakrishnan, S., Seenivasan, C., Kannan, S. (2010). Culture and identification of Candida albicans from vaginal ulcer and separation of enolase on SDS-PAGE. International Journal of Biology, 2(1), hlm. 84-93.

Bhirawa, W.T. (2015). Proses Pengolahan Data dari Model Persamaan Regresi dengan Menggunakan Statistical Product and Service Solution (SPSS). Jurnal 7(1), hlm. 71-83.

Bhoonobtong, A., Sawadsitang, S., Sodngam, S., Mongkolthanaruk, W. (2012). Characterization of Endophytic Bacteria, Bacillus Amyloliquefaciens for Antimicrobial Agents Production. International Conference on Biological and Life Sciences IPCBEE, 40, hlm. 6-11.

Bicas J.L., Dion´ısio A.P., Pastore G.M. (2009). Bio-Oxidation Of Terpenes: An Approach For The Flavor Industry. Chemical Reviews, 109(9) hlm. 4518–4531. Casanova, B.B., Muniz, M.N., Oliviera, T., Oliviera, L.F., Machado, M.M., Fuentefria,

A.M., Gosmann, G., Gnoatto, S.C.B. (2015). Synthesis and Biological Evaluation of Hydrazone Derivatives as Antifungal Agents. Molecules, 20, hlm. 9229-9241.

Calderone, R.A. & William, A.F. (2001). Virulence factors of Candida albicans. Trends in Microbiology, 9 (7), hlm. 327-335.

Cannon R.D., Holmes A.R., Mason A.B., Monk B.C. (1995). Oral Candida: Clearance, Colonization, or Candidiasis?. J Dent Res, 74(5), hlm. 1152-1161.

Cappuccino, J.G. & Sherman, N. (2011). Microbiology : A Laboratory Manual. Ninth Edition. Pearson.

Clinical and Laboratory Standard Insttute (CLSI). (2009). M44-A2 Method for Antifungal Disk Diffusion Susceptibility Testing of Yeast; Approved Guideline-Second Edition.

Compant, S., Sessitsch, A., Muzammil, S., Lebrihi, A. (2012). Use Of Beneficial Bacteria And Their Secondary Metabolites To Control Grapevine Pathogen Diseases. Journal of the International Organization for Biological Control.

Cronquist, A. (1981). An Integrated System of Classification of Flowering Plants. Columbia University Press: New York.

Desai, M., Buhler, T., Weller, P.H., Browmn, M.R.W. (1998). Increasing Resistance of Planktonic and Biofilm Cultures of Burkholderia cepacia to Ciprofloxacin and Ceftazidime During Exponential Growth. Journal of Antimicrobial Chemotherapy, 42, hlm. 153-160.

Dinesh, S., Ajit, P., Madhav, P., Chetan, P., Prachi, P. (2013). Study Of Antifungal Activity Of Boric Acid On Vaginal Pathogens. International Journal of Advanced Biotechnology and Research, 4(3), hlm. 319-323.

Douglas, L.J. (1988). Candida Proteinases and Candidiasis. Crit. Rev. Biotechnol., 8, hlm. 121–129.

(3)

Vater, J. (1999). The Mycosubtilin Synthetase of Bacillus Subtilis ATCC 6633: A Multifunctional Hybrid Between A Peptide Synthetase, An Amino Transferase, and A Fatty Acid Synthase. Proc. Natl. Acad. Sci. U.S.A., hlm. 13294-13299.

Ellis, D. dan Hermanis, R. (2003). The Geraldine Kaminski Medical Micology Library.

El-Shouny, W.A., Al-Baidani, A.R.H., Hamzah, W.T. (2011). Antimicrobial Activity of Pyocyanin Produced by Pseudomonas aeruginosa Isolated from Surgical Wound-Infections. International Journal of Pharmacy and Medical Sciences, 1(1), hlm. 1-7.

Emmert EAB, Handelsman J. (1999). Biocontrol of Plant Disease: a (Gram-) Positive Perspective. FEMS Microbiol. Letters, 171, hlm. 1-9.

Engriyani, R. (2011). Aktivitas Antifungi Ekstrak Ethanol Daun Salam (Syzigium polyanthum (Wight) Walp.)) Terhadap Pertumbuhan Jamur Candida albicans Secara in vitro. Skripsi. Universitas Pendidikan Indonesia (UPI).

Esper, R.H., Goncalez, E., Felicio, R.C., Felicio, D.J. (2015). Fungicidal Activity and Constituents of Ageratum conyzoides L. Essential Oil from Three Regions in São Paulo state, Brazil. Pharmacology / Scientific Communication, 82, hlm. 1-4.

Ferreira, M.P.S.B.C., Cardoso, M.F.C., Silva, F.C., Ferreira, V.F., Lima, E.S., Souza, V.B. (2014). Antifungal Activity of Synthetic Naphthoquinones Against Dermatophytes and Opportunistic Fungi: Preliminary Mechanism-Of-Action Tests. BioMed Central,

Fardiaz. (1992). Biotransformation Inorganic Reaction. PT Gramedia Pratama Utama. Jakarta.

Fitriani, A., Aryani, A., Yusuf, H., Permatasari,Y. (2013). The Exploration of Ketosynthase Gene on Endophytic Bacterial Root of Vetiveria zizanioides L. International Journal of Basic & Applied Sciences IJBAS-IJENS, 13(4), hlm. 112-119.

Fitriani, A., Ihsan, F., Hamdiyati, Y., Maemunah. (2015). Antibacteria Activity of Shewanella and Pseudomonas As Endophytic Bacteria from The Root of Ageratum conyzoides L. Asian Journal of Applied Sciences, 3(3), hlm. 415-420.

Fitriani, A dan Herdiansyah, S.A. (2016). Detection of Nonribosomal Peptide Synthetase (NRPS) Genes on Bacterial Endophytes from Vetiveria zizanioides L. and Ageratum conyzoides L. International Journal of Pharmaceutical Sciences Review and Research, 36(1), hlm. 124-128.

Garbutt, J. (1997). Essentials of Food Microbiology. London: Arnold.

Garcia A., Rhoden S.A., Rubin Filho C.J., Nakamura C.V., (2012). Diversity of Foliar Endophytic Fungi from The Medicinal Plant Sapindus saponaria L. and their localization by scanning electron microscopy. Biol. Res, 45, hlm. 139-148.

(4)

Goodman, A.A. (2014). Endophytic Actinomycetes As A Potential Agent To Control Common Scab of Potatoes. Thesis. Northern Michigan University.

Gong, A.D., Li, H.P., Shen, L., Bo, J. Zhang., Wu, A.B., He, W.J., Yuan, Q.S., He, J.D., Liao, Y.C. (2015). The Shewanella algae Strain YM8 Produces Volatiles With Strong Inhibition Activity Against Aspergillus Pathogens and Aflatoxins. Front Microbiol.

Gubbins, P.O., Anaissie, E.J. (2007). Antifungal Therapy. General Principles, including Diagnosis.

Gunatilaka, A. (2006). Natural Products From Plant-Associated Microorganisms: Distribution, Structural Diversity, Bioactivity, and Implications of Their Occurrence. Journal of Natural Products, 69, hlm. 509-526.

Gunatilaka, A.A.L. dan Wijeratne, E.M.K. (2006). Natural Products from Bacteria and Fungi. Phytochemistry and Pharmacognosy, hlm.1-10.

Hamdiyati, Yanti. (t.t). Pertumbuhan dan Pengendalian Mikroorganisme II.

Hannula, J. (2000). Clonal Types Of Oral Yeasts In Relation To Age, Health, and Geography. Academic Dissertation, hlm. 1-58.

Herwinarso, Indrasutanto, T., Untung, G.B. (2013). Penentuan Panjang Gelombang Berbagai Filter Warna Pada Lampu Tl Dan Wolfram Dengan Spektrometer Kisi Difraksi Untuk Menunjang Eksperimen Efekfotolistrik. Magister Scientiae, 33, hlm. 49-59.

Ihsan, F. (2013). Identifikasi Metabolit Sekunder Potensial Antibakteri pada Bakteri Endorizosfer Ageratum conyzoides. Skripsi. Unversitas Pendidikan Indonesia (UPI).

Indrawanto, C. (2009). Kajian Pengembangan Industri Akar Wangi (Vetiveria zizanioides L.) Menggunakan Interpretative Structural Modelling. Informatika Pertanian, 8(1), hlm. 1-18.

Iowa State University. (2005). Dermathophytes (Ringworm, Tinea). The Center for Food Security& Public Health, Institute for International Cooperation in Animal Biologics, hlm.1-13.

IPTS. (t.t). Trichophyton mentagrophytes Facts Sheet. Experts in Chemical for Infection Prevention. [Online]. Tersedia: www.infectionpreventionresource.com .

Jacobsen, B.J.., Zidack, N.K.., Larson, B.J.. (2004). The Role of Bacillus-Based Biological Control Agents in Integrated Pest Management Systems: Plant Diseases. Phytopathology,94, hlm. 1272-1275.

Jeger, M.J. dan Spence, N.J. (2001). Biotic Interactions in Plant-pathogen Associations.

(5)

Kaaria, P., Matiru, V., Ndungu, M. (2012). Antimicrobial Activities of Secondary Metabolites Produced by Endophytic Bacteria from Selected Indigenous Kenyan Plants. African Journal of Microbiology Research, 6 (45), hlm. 7253-7258.

Kaitu, R.A.M., Sidharta, B.R., Atmodjo, K. (2013). Aktivitas Antibakteri Fungi Endofit Jahe Merah (Zingiber officinale var. rubrum) Terhadap Escherichia coli dan Streptococcus pyogenes. Jurnalen fix Yudisium. Universitas Atma Jaya: Yogyakarta.

Kaufman, G., Horwitz, B.A., Duek, L., Ullman, Y., Berdicevsky, I. (2007). Infection Stages of The Dermatophyte Pathogen Trichophyton: Microscopic Characterization and Proteolytic Enzymes. Medical Mycology,45, hlm. 149-155.

Kerr, J.R. (1994). Suppression of Fungal Growth Exhibited by Pseudomonas aeruginosa,

American Society for Microbiology, 32(2), hlm. 525-527.

Khudry, A., Sidharta, B.B.R., Atmodjo, K. (t.t). Aktivitas Antibakteri Ekstrak Daun Pohpohan (Pilea trinervia W.) Terhadap Escherichia coli dan Staphylococcus aureus. Universitas Atma Jaya: Yogyakarta.

Klis, F.M., Groot, P.D., Hellingwerf, K. (2001). Molecular Organization of The Cell Wall of Candida albicans. Medical Mycology, 39, hlm. 1-8.

Knob, A. dan Carmona, E.C. (2008). Xylanase Production by Penicillium sclerotiorum and Its Characterization, World Applied Sciences Journal,4(2), hlm. 277-283.

Kusumaningtyas, E. (2007). Mekanisme Infeksi Candida albicans pada Permukaan Sel. Lokakarya Nasional Penyakit Zoonosis, hlm. 304-313.

Lay, B.W., Hastowo, S. 1992. Mikrobiologi. Jakarta: Rajawali Pers.

Liu, C.H., Chen, X., Liu, T.T., Lian, B., Gu, Y., Caer, V., Xue, Y.R., Wang, B.T. (2007). Study of The Antifungal Activity of Acinetobacter baumannii LCH001 In Vitro and Identification of Its Antifungal Components. Applied Microbiology and Biotechnology, 76(2), hlm. 459-466.

Liu, X., Dong, M., Chen, X., Jiang, M., Lv, X., Zhou, J. (2008). Antimicrobial Activity of An Endophytic Xylaria sp.YX-28 and Identification of Its Antimicrobial Compound 7-amino- 4-methylcoumarin. Applied Microbiology and Biotechnology, 78, hlm. 241-247.

Lo, H.J., Kohler, J.R., Didomenico,B., Loebenberg, D., Cacciapuoti, A., Fink, G.R. (1997). Nonfilamenteus C. albicans Mutants Are A Virulent. Cell, 90, hlm. 39-49.

Lumowa, S.V.V. (2011). Efektivitas Ekstrak Babadotan (Ageratum conyzoides L.) Terhadap Tingkat Kematian Larva Spodoptera Litura F. eugenia. 6(8), hlm. 1747-1755.

Malfanove, N.V. (2013). Endophytic Bacteria With Plant Growth Promoting and Biocontrol Abilities. Leiden University Repository.

Madigan, M.T., Martinko, J.M., Stahl, D.A., Clark, D.P. (2012). Brock Biology of Microorganisms (13th Edition). San Fransisco.

(6)

Mascotti, M.L., D. Enriz, R., Giannini, F.A. (2008). Acute Toxicity Study of Commercial Antifungal Drugs using Poecilia reticulate. Latin American Journal of Pharmacy, 27(6), hlm. 904-905.

Meena, K.J. & Kanwar, S.S. (2015). Lipopeptide As the Antifungal and Antibacterial Agents: Application In Food Safety and Therapeutics. BioMed Research International. Hlm. 1-9.

Menpara, D., Chanda, S. (2013). Endophytic Bacteria- Unexplored Reservoir of Antimicrobials for Combating Microbial Pathogens. Microbial pathogens and strategies for combating them: science, technology and education, hlm.1095-1103.

Myers, R.S. (2006). Antifungal Agents. Immunizing and Antimicrobial Agents, hlm. 1-16.

Ming, LC. (1999). Ageratum conyzoides: A Tropical Source of Medicinal and Agricultural Products, ASHS Press, hlm. 469-473.

Miranti, M., Prasetyorini, Suwary, C. (2013). Perbandingan Aktivitas Antibakteri Ekstrak Etanol 30% dan 96% Kelopak Bunga Rosella (Hibiscus sabdariffal) Terhadap Bakteri Staphylococcus aureus. Ekologia, 13(1), hlm. 9-18.

Mukherjee, P.K., Zhou, G., Munyon, R., Ghannoum, M.A. (2005). Candida Biofilm: A Well-Designed Protected Environment. Med Mycol, 43(3), hlm. 191-208.

Nagao, K., Sugita, T., Ouchi, T., Nishikawa, T. (2005). Identification Of Trichophyton rubrum By Nested PCR Analysis From Paraffin Embedded Specimen in Trichophytia Profunda Acuta of the Glabrous Skin. Jpn. J. Med. Mycol, 46, hlm. 129-132.

Naglik, J., Albbrecht, A., Bader, O., Hube, B. (2004). C. albicans Proteinses and Host/Pathogen Interactions. Cell Microbiol, 6(10) hlm.915-26.

Nindhia, I.P.S.T.S. (2013). Penuntun Praktikum Rancangan Percobaan dengan SPSS. Universitas Udayana.

Nasution, M.A. (2005). Mikologi dan Mikrologi Kedokteran: Beberapa Pandangan Dermatologis. Universitas Sumatera Utara, Medan.

Nedialkova, D dan Naidenova, M. (2004). Screening The Antimicrobial Activity of Actinomycetes Strains Isolated from Antarctica. Journal Of Culture Collections, 4, hlm. 29-35.

Negri, M., Salci, T.P., Mesquita, C.S.S., Gapoci, I.R.G., Svidzinski, T.I.E., Kioshima, E.S. (2014). Early State Research on Antifungal Natural Products. Molecules Resume, 2014(19), hlm. 2925-2956.

Nelly. (tanpa tahun). Media Kultivasi Ampas Tahu. Institut Pertanian Bogor (IPB).

Ongena, M. dan Jacques, P. (2007). Bacillus Lipopeptides: Versatile Weapons for Plant Disease Biocontrol. Trends Microbiol, 16, hlm. 115-125.

(7)

Petrini, O., T.N. Sieber., L. Toti., O. Viret. (1992). Ecology Metabolite Production, En Substrate Utilization In Endophytic Fungi. Wiley Liss Inc, Swiss Natural Toxins. 1, hlm. 185-196.

Pinter, L. & Stritof, Z. (2004). A retrospective study of Trichophyton mentagrophytes infection in dogs (1970-2002). Veterinarski Arhiv, 74 (4), hlm. 251-260.

Plaza, G.A., Turek, A.., Krol, E.., Szczygłowska, R.. (2013). Antifungal and Antibacterial Properties of Surfactin Isolated from Bacillus subtilis Growing on Molasses. African Journal of Microbiology Research, 7(25), hlm. 3165-3170.

Pontieri, P., Massardo, D.R., Senatore, F., Tredici, M., Vigliotta, G., Alifano, P., Giudice, L.Del. (2005). Isolation and characterization of endophytic bacteria in Vetiveria zizanioides (L.) Nash Roots. Proceedings of the XLIX Italian Society of Agricultural Genetics Annual Congress. 56, hlm. 1-2.

Prapagdee. (2008). Antifungal Potential of Extracellular Metabolites Produced by Streptomyces hygroscopicus against Phytopathogenic Fungi. [Online]. Tersedia: http://www.ncbi.nlm.nih.gov/pmc/articles/pmc2556053/ . Diakses tanggal 16 Oktober 2015.

Pratiwi, D. (2013). Kandungan Metabolit Sekunder yang Berpotensi sebagai Antibakteri dari Bakteri Endofit Akar Vetiveria zizanioides. Skripsi. Unversitas Pendidikan Indonesia (UPI).

Radji, M. (2005). Peran Bioteknologi dan Mikroba Endofit dalam Pengembangan Obat Herbal. Majalah Ilmu Kefarmasian. 2(3), hlm.113-126.

Ravi, V.A. (2015). Trichophyton mentagrophytes. Universitas Sumatera Utara (USU).

Reiny, S.S. (2012). Potensi Filtrat Lactobacillus Acidophilus ATCC 4796 Sebagai Biopreservatif Pada Rebusan Daging Ikan Tongkol. IJAS, 2(2), hlm. 58-63.

Retnowati, Y., Bialangi, N., Posangi, N.W. (2011). Pertumbuhan Bakteri Staphylococcus aureus Pada Media yang Diekspos dengan Infus Daun Sambiloto (Andrographis Paniculata). Saintek 6(2).

Rao, R.R., Suseela, M.R. (t.t). Vetiveria zizanioides (Linn.) Nash A Multipurpose Eco-Friendly Grass Of India. National Botanical Research Institute Lucknow, India, hlm. 439-442.

Rizky, N.M. (2010). Optimasi Kultivasi Mikroalga Laut Nannochloropsis oculata dengan Perlakuan Pupuk Urea untuk Produksi Lemak Nabati. Fakultas Perikanan, Universitas Brawijaya, Malang.

(8)

Romero, D., Vicente, A., Rakotoaly, R., Dufour, S., Veening, J.W., Arrebola, E., Cazorla, F.M., Kuipers, O.P., Paquot, M., Garcia, A.P. (2007). The Iturin and Fengycin Families of Lipopeptides Are Key Factors in Antagonism of Bacillus subtilis Toward Podosphaera fusca, 20(4), hlm. 430-440.

Rosales, A.M., Thomashow, L., Cook, R.J., Mew, T.W. (1995). Isolation and Identification of Antifungal Metabolites Produced by Rice-Associated Antagonistic Pseudomonas aeruginosa. The American Phytopathological Society, 85(9), hlm. 1028-1032.

Ryu, J., Lee, S., Lee, Y., Lee, S., Kim, D., Cho, S., Ba, D., Park, K., Yun, H. (2000). Screening and identification of antifungal Pseudomonas sp. that suppresses balloon flower root rot caused by Rhizoctonia solani. Journal of Microbiology and Biotechnology, 10, hlm. 435-440.

Salazar, A.H., Pruneda, P.C., Martinez, R.F., Arenaz, R. (2007). Dermatofitosis por Trichophyton rubrum. Experiencia de 10 años (1996-2005) en un servicio de dermatología de un hospital general de la Ciudad de México. Rev Iberoam Micol, 24, hlm. 122-124.

Santos, D.A., Hamdan, J.S. (2005). Evaluation of Broth Microdilution Antifungal Susceptibility Testing Conditions for Trichophyton rubrum. Journal Of Clinical Microbiology, 43(4), hlm. 1917-1920.

Saraswati, K. (2010). Aktivitas Antijamur Ekstrak Etanol Daun Benalu Cengkeh (Dendrophthoe pentandra (L.) Miq.) Terhadap Candida albicans dan Trichophyton rubrum. Skripsi. Fakultas Farmasi: Universitas Muhammadiyah Surakarta.

Schmidt CS, Wolf GA, Lorenz D, Jae`ger J. (2001). Biological Control of The Grapevine Dieback Fungus Eutypa Lata, II.: Influence of Formulation Additives, Transposon Mutagenesis on The Antagonistic Activity of Bacillus subtilis, Erwinia herbicola. Journal Phytopathol, 149, hlm. 437–445.

Scully, C & El-Kabir, M. (1994). Candida and Oral Candidosis: A Review. Critical Reviews in Oral Biology and Medicine, 5(2), hlm. 125-157.

Sharah, A., Karnila, R., Desmelati. (2015). Pembuatan Kurva Pertumbuhan Bakteri Asam Laktat yang Diisolasi dari Ikan Peda Kembung (Rastrelliger sp.). Fakultas Perikanan dan Ilmu Kelautan, Universitas Riau.

Sherwood, J., Gow, Nar, Gooday, G.W.G., Gregory G.W., Marshall, D. (1992). Contact Sensing In Candida albicans: A Possible Aid to Epithelial Penetration. J Med Vet Mycol, 30, hlm.461-469.

(9)

Biologically/Pharmacologically Active Secondary Metabolites. Asian Journal of Pharmacology and Toxicology, 02(03), hlm. 01-16.

Singh, SB., Devi, WR., Marina, A., Devi, WI., Swapana, N., Singh, CB. (2013). Ethnobotany, Phytochemistry, and Pharmacology of Ageratum conyzoides Linn (Asteraceae). Journal of Medicinal Plants Research, 7(8), hlm. 371-385.

Singh, AK., Rautela, R., Carneotra, S.S. (2014). Substrate Dependent in vitro Antifungal Activity of Bacillus sp. Strain AR2. Microbial Cell Factories, 13(67), hlm. 1-11.

Sjam, K.R. (2012). Kolonisasi Candida dalam Rongga Mulut. Majalah Kedokteran FK UI,28(1), hlm. 39-47.

Smith, N. (2013). Introduction to the Use of Standard Plate Counts in Mink Feed Kitchens. Perennia (New Ideas in Food & Agriculture).

Smyth, T.J.P., Perfumo, A., McClean, S., Marchant, R., Banat, I.M. (2010). Isolation and analysis of lipopeptides and high molecular weight biosurfactants. Handbook of Hydrocarbon and Lipid Microbiology. Hlm. 3689-3704.

Snigdha, M., Kumar, S.S., Sharmistha, M., Deepa, C. (2013). An Overview on Vetiveria zizanioides. Research Journal of Pharmaceutical, Biological and Chemical Sciences, 4(3), hlm. 777-783.

Subhadradevi, V., Asokkumar, K., Umamaheswari, M., Sivashanmugam, A., Sankaranand, R. (2010). In Vitro Antioxidant Activity of Vetiveria zizanioides Root Extract. Tanzania Journal of Health Research, 12(4), hlm.276-281.

Sunartatie, T. (t.t). Trichophyton mentagrophytes sebagai Agen Penyebab Dermatofitosis pada Kambing, Komunikasi singkat, hlm.48-54.

Suriani, S., Soemarno., Suharjono. (2013). Pengaruh Suhu dan pH terhadap Laju pertumbuhan Lima Isolat Bakteri Anggota Genus Pseudomonas yang diisolasi dari Ekosistem Sungai Tercemar Deterjen, J-PAL, 3(2), hlm. 58-62.

Tan R.X. dan Zou W.X. (2001). Endophytes: A Rich Source of Functional Metabolites. Nat. Prod. Rep, 18, hlm. 448-459.

Tanuwijaya, V.A. (2015). Produksi Penisilin oleh Penicillium chrysogenum dengan Penambahan Fenilalanin. Jurnal. Universitas Atma Jaya : Yogyakarta.

Thiel, Teresa. (1999). Introduction To Bacteria. Science in The Real World, hlm. 1-9.

Tomita F. (2003). Endophytes in Southeast Asia and Japan: Their Taxonomic Diversity and Potential Applications. Fungal Diversity, 14, hlm.187-204.

(10)

Ukwe, VC., Epuke, EA., Ekwunife, OI., Okoye, TC., Akudordan, GC., Ubaka, CM. (2010). Antimalaria Activity of Aqueous Extract and Fraction of Leaves of Ageratum Conyzoides in Mice Infected With Plasmodium Berghei. International Journal of Pharmaceutical sciences,2(1), hlm. 33-38.

USDA (United States Departement of Agriculture) Natural Resources Conservation Service. (t.t). [Online]. Tersedia: http://plants.usda.gov/documents.html .

Venkatesan, G., Singh, A. J. A. R., Murugesan, A.G., Janaki, C., and Shankar, S. G. (2007). Trichophyton rubrum – The Predominant Etiological Agent In Human Dermatophytoses In Chennai, India. Afr J Microbiol Res, 1(1), hlm. 009-012.

Wang, L., Ma, L., Leng, W., Liu, T., Yu,L., Yang, J., Yang, L., Zhang, W., Zhang, Q., Dong, J., Xue, Y., Zhu, Y., Xu, X., Wan, Z., Ding, G., Yu, F., Tu, K., Li, Y., Li, R., Shen, Y., Jin, Q. (2006). Analysis of The Dermatophyte Trichophyton rubrum Expressed Sequence Tags. BioMed Central, 7(255), hlm. 1-13.

Warner, A.C.I. (1962). Enumeration of Rumen Micro-organisms. J. gen. Microbiol, 28, hlm. 119-128.

Warsito, M.F., Poernomo, A.T., Erma, N. (t.t). Potensi Antijamur Isolat Streptomyces spp. dari Tanah Kompos RKBS terhadap Trichophyton mentagrophytes. Fakultas Farmasi Airlangga Surabaya.

Widowati, Tiwit. (2013). Identifikasi Senyawa Kimia Antifungal Dari Bakteri Endofit. Tesis. IPB (Institut Pertanian Bogor).

Yuliana. (2008). Kinetika Pertumbuhan Bakteri Asam Laktat Isolat T5 yang Berasal dari Tempoyak, Jurnal Teknologi Industri Dan Hasil Pertanian, 73(2).

Yuliar., Suciatmih., Supriyati, D., Rahmansyah, M. (2013). Biodiversity Of Endophytic Bacteria and Their Antagonistic Activity to Rhizoctonia solani and Fusarium oxysporium. Global Journal of Biology, Agriculture & Health Science, 2(4) hlm. 111-118.

Yunita, M., Hendrawan, Y., Yulianingsih, R. (2015). Analisis Kuantitatif Mikrobiologi Pada Makanan Penerbangan (Aerofood ACS) Garuda Indonesia Berdasarkan TPC (Total Plate Count) dengan Metode Pour Plate. Jurnal Keteknikan Pertanian Tropis dan Biosistem, 3(3), hlm.237-248.

Zhang, S., Wang, Y., Meng, L., Li, J., Zhao, X., Cao, X., Jing, F. (2012). Isolation and Characterization of Antifungal Lipopeptides Produced By Endophytic Bacillus amyloliquefaciens TF28. African Journal of Microbiology Research, 6(8), hlm. 1747-1755.