58
DAFTAR PUSTAKA Achmad, Herliyana E.N., and Agustian F.R. (2009). “Hubungan Kekerabatan Jamur Pelapuk Putih Pleurotus spp. dengan Analisis Isoenzim”. Jurnal AgroBiogen. 5, (2), 78-83. Adosinda, M., Nelson L., Armando J.D.Silcestre., and Queiroz M.J. (2003), “Comparative studies of fungal degradation of single or mixed bioaccessible reactive azo dyes”. Institute of Biotechnology and Fine Chemistry (IBQF). Chemosphere. 52, 967–977. Alexopoulus, C. J., Blackwell M., and Mims C.W. (1996). Introducy Micology. 4th Ed. New York: John Wiley & Sons, Inc: hal.30. Ali P. & Muhammad S.K. (2008). “Biodecolorization of Acid Violet 19 by Alternaria solani”. African Journal of Biotechnology.7, 831-833. Arifin. (2008). Teknologi Pengendalian Limbah Cair (Spec. Tekstil) .[online]. Tersedia: http://smk3ae.wordpress.com/2008/06/30/teknologi-pengendalian-limbah-cairspec-tekstil [28 Januari 2013] Awaluddin R., Darah S., Ibrahim C.D., and Uyub A.M. (2001). “Decolorization of commercially available synthetic dyes by the white rot fungus Phanerochaete chrysosporium”. J Fungi and Bactery. 62, 55-63. Bagewadi Z.K., Vernekar A.G., Patil A.Y., Limaye A.A., and Jain V.M. (2011). “Biodegradation of Industrially Important Textile Dyes by Actinomycetes Isolated From Activated Sludge”. Department of Biotechnology,BV.Bhoomaradi college of engineering and technology. 60, 6780. Baldwin B.G., Sanderson M.J., Porter J.M., Wojciechowski M.F., Campbell C.S., and Donoghue M.J. (1995). “The ITS region of nuclear ribosomal DNA: A valuable sources of evidence on Angiospermae phylogeny”. Ann.Missouri Bot. Gard, 247-277. Barnett, I. (1960). Ilustrated Genera of Imperfect and Fungi. Department of Plant Phatology, Bacteriology, Entomology West Virginia University. 2nd Edition. Morgantown West Virginia: Burgess Publishing Company. Basuki, T. (1994). Biopulping, biobleaching dan biodegradasi limbah industri pulp kertas oleh jamur Basidiomycetes Phanerochaete chrysosporium. Bandung: Institut Teknologi Bandung.
Hana Gardenia Mahbubah, 2013 Identifikasi Morfologi Dan Molekuler Fungi (Isolat M) Yang Dapat Mendegradasi Pewarna Sintetik Universitas Pendidikan Indonesia | repository.upi.edu| perpustakaan.upi.edu
59
Berkhout. (1923). Absidia spp. [Online]. Tersedia: http://www.doctorfungus.org/the fungi/absidia.html [01 Maret 2013]. Boran, F. & Yesilada O. (2011). “Enhanced Production Of Laccase By Fungi Under Solid Substrate Fermentation Condition”. Bioresources. 6, (4), 4404-4416. Brinkman, F. & Leipe D. (2001). “Phylogenetic Analysis, A Practical Guide to the Analisys of Gene and Protein”. Baxevanis. 5, 323-358. Brock, T.D. & Madigan M.T. (1991). Biology of Microorganisms. 7th Ed. New Jersey : Prentice-Hall International, Inc. Budiyanto. (2013). Ciri-ciri fungi. [online]. Tersedia http: // budisma .web .id /materi /sma / biologi-kelas-x/ciri-ciri-fungi [20 Januari 2013]. Cahyadi, W. (2008). Analisis dan Aspek Kesehatan Bahan Tambahan Pangan. Jakarta: Bumi Aksara. Campbell N.A., Reece B.J., and Mitchell L.G. (2002). Biologi (Ed. Terjemahan). Jakarta: Erlangga Campbell N.A., Reece B.J., and Mitchell L.G. (2011). Biology. California: The Benjamin/Cummings Publishing Company Inc. Chang, S.T. & Quimio H. (1982). Tropical Mushrooms: Biological Nature and Cultivation Methods. Hongkong: Te Chinese University Press. Christian V., Rshrivastava, Sukla D., Modi M.A., & Vyas B.R.M. (2005). “Degradation of Xenobiotic Compounds by Lignin-degradibg White-rot fungi: Enzymology and Mechanism Involved”. Indian Journal of Experimental Biology. 43, 301-312. Daneshvar N, Ayazloo M, and Khatae AR. (2007). “Biological Decolourization of Dye Solution Containing Malacite Green by Microalgae Cosmarium sp”. Bioresource Technology. 2, 29 1-7. Davis, L., Kuehl M., and Battey J. (1994). Basic methods: Molecular biology. Norwegia: Appleton & Lange. Dewi, C.L.H. (2012). Analisis Biomolekuler Gen Internal Transcribed Spacer (ITS) dalam studi Filogenetik Zingiber loerzingii Valeton (ZINGIBERACEAE). Skripsi. Departemen Biokimia FMIPA. Institut Pertanian Bogor. Domsch, K.H., Gams W. and Anderson T.H. (1980). Compendium of soil fungi. London: Academic Press.
Hana Gardenia Mahbubah, 2013 Identifikasi Morfologi Dan Molekuler Fungi (Isolat M) Yang Dapat Mendegradasi Pewarna Sintetik Universitas Pendidikan Indonesia | repository.upi.edu| perpustakaan.upi.edu
60
Eschmid. (2001). Gel Elechtrophoresis .[Online]. Tersedia: classroom.sdmesa.edu/eschmid/lab.html [ 03 Februari 2013].
http://
Faddin, J.F. (1985). Media for isolation cultivation identification maintenance of medical bacteria. Baltimore: Williams & Wilkins. Fairbank D.J & Andersen W.R. (1999). Genetics: The continuity of life. London: academic press. Fatchiyah. (2005). Gel Elektroforesis. Malang: Laboratorium Sentral Biologi Molekuler dan Seluler Universitas Brawijaya. Fatchiyah. (2005). PCR: Dasar teknik Amplifikasi DNA dan Applikasinya. [Online]. Tersedia: http://fatchiyah.lecture.ub.ac.id [ 03 Maret 2013]. Gams W., Van der Aa H.A., Samson R.A., and Stalpers J.A. (1987). Cbs Course of Mycology. Institute Of The Royal Netherlands Academy Of Arts And Science. Netherlands: Centraalbureau Voor Schimmelcultures. Gandjar, I., Samson R.A., van den Tweel, Vermeulen, A. Oetari and Santoso I. (1999). Pengenalan kapang tropik umum. Jakarta: Yayasan Obor Indonesia Gomes EA., Kasaya M.C., DeBarros E.G., Borgs A.C., and Araujo E.F. (2002). “Polymorphism in the internal transcribed spacer (ITS) of the ribosomal DNA of 26 isolates of ectomycorrhizal fungi”. Genet Mol Biol. 25, (4), 477-48 Gupta M. & Manisha K. (2012). “Biodegradation of Textile Dye Congo Red by Fungus”. Indian Journal of Fundamental ang Applied Life Sciences ISSN : 2231-6345. Hadibarata, T., Yusoff, A. R, Aris A, Salmiati, Hidayat T, and Kristanti R.A., (2011). “Decolorization of Azo, Triphenylmethane, and Anthraquinone Dyes by Laccase of a Newly Isolated Armillaria sp. F022. Water Air Pollution”. Hakala, T.K. (2007). Characterization 0f The Lignin-Modifying Enzymes of The Selective White-Rot Fungus Physisporinus Rivulosus. Disertasi Doktor pada Department of Applied Chemistry and Microbiology University of Helsinki. Hamdiyati, Yanti. (2010). Cara Membuat Slide Culture. [Online]. Tersedia: http://file.upi.edu/Direktori/FPMIPA/JUR._PEND._BIOLOGI/1966110319910 12-YANTI_HAMDIYATI/cara_membuat_slide_culture.pdf [05 Februari 2013].
Hana Gardenia Mahbubah, 2013 Identifikasi Morfologi Dan Molekuler Fungi (Isolat M) Yang Dapat Mendegradasi Pewarna Sintetik Universitas Pendidikan Indonesia | repository.upi.edu| perpustakaan.upi.edu
61
Handoyo, Darmo. (2001). Prinsip Umum dan Pelaksanaan Polymerase Chain Reaction (PCR).[Online]. Tersedia: http://repository.ubaya.ac.id/35/1/AR T002 .pdf [05 Februari 2013]. Hartoto. (2009). Penelitian Deskriptif. [online].Tersedia: http://www.penalaranunm.org/index.php/artikel-nalar/penelitian/163-penelitian-deskriptif.html [15 Desember 2013]. Hattaka A. (1994). “Lignin Modifying Enzyme From Selected White-Rot Fungi: Production And Role In Lignin Degdradation”. FEMS Microbial. 13, 125-135. Hesseltine, C.W. & Ellis J.J. (1966). “Species of Absidia with Ovoid Sporangiospores”. Mycologia. 58, 761-785. Hidayah, Noor. (2012). Molecular Identification of Fungus That Capable to Degrade Synthetic Dye. Skripsi pada Universitas Teknologi Malaysia.1-50. Hidayat, T., & Pancoro, A. (2006). Sistematika dan Filogenetika Molekuler. [Online]. Tersedia:http://file.upi.edu/Direktori/FPMIPA/JUR._PEND._BIOLOGI/19700410 1997021/TOPIK_HIDAYAT/Makalah_Filogenetik_Molekuler.pdf. [10 Juni 2013]. Hidayat, T., & Pancoro, A. (2008). Kajian Filogenetika Molekuler dan Peranannya dalam Menyediakan Informasi Dasar untuk Meningkatkan Kualitas Sumber GenetikAnggrek.[Online].Tersedia:http://biogen.litbang .deptan.go.id/terbitan/pdf/ agrobiogen [10 Juni 2013]. Hofrichter M. (2002). “Lignin Conversion by Manganese Peroxidase (MnP)”. Enzyme Microbiol. Technol. 30, 454-466. Hudson., Flemming., and Rand. (2004). BALF. Total protein, albumin, proinflammatory cytokine (IL-1, TNF-α) and LDH responses significantly different (time and dose dependently) by fungal species (S. chartarum vs C. cladosporioides) and fungal strain. WHO guidelines for indoor air quality : dampness and mould. Jerman: World Health Organization. Huffmann, Kerstin., Discher, S., and Voight, K. (1997). Revision of the genus Absidia (Mucorales, Zygomycetes) based on physiological, phylogenetic, and morphological characters; thermotolerant Absidia spp. form a coherent group,Mycocladiaceae fam.nov. [Online]. Tersedia: http://www.sciencedirect.com [20 Februari 2013]. Junnarka N., Srinivas Murty D., and Bhatt N.Sl. (2006). World J Microbiology. Biotecnology, 22:163-168.
Hana Gardenia Mahbubah, 2013 Identifikasi Morfologi Dan Molekuler Fungi (Isolat M) Yang Dapat Mendegradasi Pewarna Sintetik Universitas Pendidikan Indonesia | repository.upi.edu| perpustakaan.upi.edu
62
Katia M.G.M., Luciana C.A.A., Rubio O.M., Luiz H.R., and Mercia H.S. (2006). “Biodegradation of reactive textile dyes by Basidiomycetous fungi from Brazilian ecosystems”. Brazilian J.Microbiol. 37, 481-487. Kirk T. K., Jeffries T. W., and Leatha G. F. (1990). “Biotechnology: applications and implications for the pulp and paper industry”. The Journal of the Technical Association of the Pulp and Paper Industry. 66, (5), 100-130. Lafontaine D.L.J & Tollervey D. (2001). “Conserved organization of the pre-rRNA”. Nature Reviews Molecular Cell Biology. 2, 514-520. Li W., & Graur D. (1991). Fundamental of Molecular Evolution. Sunderland: Sinauer Associates, Inc. Li W., Pearl D. and Doss, H. (1999). Phylogenetic tree construction using Markov Chain Monte Carlo. Fred Hutchinson Cancer Research Center Washington. [Online]. Tersedia: http://www.stat.ohio-state.edu/~doss/Research/mctrees.pdf. [20 Agustus 2013]. Mahuku, G. S., (2004). “A Simple Extraction Method Suitable for PCR Based Analysis of Plant, Fungal, and Bacterial DNA”. International Society for Plant Molecular Biology. 22, 71-81. Marchesi J.R., Sato T., Weightman A.J., Martin T.A., Fry J.C., Hiom S.J., Wde W.G., and Wade W.G. (1998). “Design and Evaluation of Useful Bacterium Specific PCR Primers that Amplify Genes Coding for Bacterial 16S Rrna”. Application Environmental Microbiology. 64, 795-799. Mathur, N., P. Bhatnagar, and P. Bakre. (2005). “Assessing Mutagenicity of Textile Dyes From Pali (Rajasthan) Using Ames Bioassay”. Applied ecology and environmental research .4, (1), 111-118. Mc.Kane., & Kandel Judy. (1995). Microbiology: Essentials and Applications (scnd ed.) London: McGraw-Hill Companies. Meyer A., Todt C., Mikkelsen N.T., and Lieb B. (2010). “Fast evolving 18S rRNA sikuences from Solenogastres (Mollusca) resist standard PCR amplification and give new insights into mollusk substitution rate heterogeneity”. BMC Evolutionary Biology 2011. 5, 715-810. Modi H.A, Rajput G., and Ambasana C. (2010). Biores. Technol. 101:6580-6583.
Hana Gardenia Mahbubah, 2013 Identifikasi Morfologi Dan Molekuler Fungi (Isolat M) Yang Dapat Mendegradasi Pewarna Sintetik Universitas Pendidikan Indonesia | repository.upi.edu| perpustakaan.upi.edu
63
Mohan G., Logambal K., and Ravikumar R. (2011). “Investigation on The Removal of Direct Red Dye Using Aspergiluus Niger and Aspergillus Flavus Under Static and Shaking Conditions with modeling”. Internasional Jurnal of Science, Environment and Technology. 1, (5), 144-153. Moore, D. (1998). Fungal Morphogenesis. A volume in the Development and cell biology series. New York: Cambridge University Press. Moorthi S., Selvam P., Sasikavaleni A., Murugesan K., and Kalaichelvan P.T. (2007). “Decolorization of Textile Dyes and their Effluents using White Rot Fungi”. African Journal of Biotechnology. 6, (4), 424-429. Muladno. (2002). Teknologi Rekayasa Genetika, Bogor: Pustaka Wirausaha Muda. Nyoman, Sukarta I. (2009). Pemanfaatan Fungi Pelapuk Kayu Jenis Pleurotus sp untuk Mendegradasi Zat Warna Tekstil Jenis Azo. [online].Tersedia: www.undiksha.ac.id. [03 Januari 2013]. Pandey A, Singh P, and Iyengar L. Biodegrad. (2007). 59, 73-84 Pavko, A. (2011). “Fungal Decolourization and Degradation of Synthetic Dyes some Chemical Engineering Aspects”. Intechopen. 4, 65-70. Pelczar, M.J, & Chan E. C. S. (1986). Dasar-dasar Mikrobiologi 1. Jakarta : UI-Press. Pratiwi, Yuli. (2010). Penentuan Tingkat Pencemaran Limbah Industri Tekstil Berdasarkan Nutrition Value Coeficient Bioindikator.[Online]. Tersedia : http://jurtek.akprind.ac.id/sites/default/files/129_137_yul_pratiwii.pdf. [21 Januari 2013]. Rifai M.A. (1969). “Revision of The Genus Trichoderma”. Mycology paper. 116, 1-11. Sambrook, J. R, & David, W. (1989). Molecular Cloning: A Laboratory Manual, (secnd ed.). Australia: Cold Spring Harbour Laboratory Press. Sathiya M., Periyar S., Sasikalaveni, Murugesan, and Kalaichelvan. (2007). “Decolorization of textile dyes and their effluents using white rot fungi”. African Journal of Biotechnology. 6, (4), 510-550. Selvam K, Awaminathan K., and Chae KS. (2003). “Decolourization of Azo Dyes and a Dye Industry Effluent By Wite Rot Fungus Thelephora sp”. Bioresource Technology. 88, (2), 115-119.
Hana Gardenia Mahbubah, 2013 Identifikasi Morfologi Dan Molekuler Fungi (Isolat M) Yang Dapat Mendegradasi Pewarna Sintetik Universitas Pendidikan Indonesia | repository.upi.edu| perpustakaan.upi.edu
64
Setyowati. (2003). “Penurunan Penyakit Busuk dan Akar Pertumbuhan Gulma Selada yang Dipupuk Mikroba”. Jurnal-Jurnal Pertanian Indonesia ISSN: 1411-0067. Simpson. (2011). Plant Systematics. Canada: Elsevier Academic Press. Singh L & Singh VP. (2010). “Microbial degradation and decolourization of dyes in semi-solid medium by the fungus-Trichoderma harzianum”. International Journal of Science & Technology. 5, (3), 147-153. Siswanto, Suharyanto, and Fitria R. (2007). “Produksi dan Karakteristik Lakase Omphilina sp.”. Menara Perkebunan.75, 107-110. Socaciu, C. (2008). Analysis of synthetic food colorants. New York: CRC Press. Soepardi, G. (1983). Sifat dan Ciri Tanah. Skripsi pada Fakultas Pertanian Institut Pertanian Bogor. Bogor. Swamy, J & Ramsay, J.A. (1999). “The evaluation of white-rot fungi in the decolourization of textile dyes”. Enzyme and Microbial Technology. 24, 130-137. Syafarudin & Santoso, T.J. (2011). “Optimasi Teknik Isolasi dan Purifikasi DNA yang Efisien dan Efektif Pada Kemiri Sunan (Reutalis trispema (Blanco) Airy Shaw)”. Jurnal Litri. 17, (1), 11-17. Tanksley, S.D. (1983). “Molecular Markers in Plant Breeding”. Plant Mol. Bio. Report. 1, 3-8. Toha, A.H.A. (2001). Deoxyribo Nucleic Acid. Keanekaragaman, Ekspresi, Rekayasa, dan Efek Pemanfatannya. Bandung: Alfabeta. Tortora, G.J., Berdell R. F., and Christine L. C. (2001). Microbiology : an introduction. (sevn ed) . San Francisco : Benjamin Cummings. Van der Zee. (2002). Anaerobic azo dye reduction. Thesis pada Wageningen University. Netherlands. Windiastika, Gati. (2012). Metode Uji Kualitatif DNA dengan Elektroforesis Gel agarosa. [Online].Tersedia: http:// ditjenbun.deptan.go.id/ bbp2tpsur/images /stories/perbenihan/ ujikualitatifdna.pdf [15 April 2013]. Xie G., Tan S., and Yu L. (2012). “Morphological and Molecular Identification of Pathogenic Fungal of Post-Harvest Tomato During Storage”. African Journal of Microbiology Research. 6, (22), 4805-4809.
Hana Gardenia Mahbubah, 2013 Identifikasi Morfologi Dan Molekuler Fungi (Isolat M) Yang Dapat Mendegradasi Pewarna Sintetik Universitas Pendidikan Indonesia | repository.upi.edu| perpustakaan.upi.edu
65
Yuri. (2012). Slide Culture Technique. [Online]. Tersedia: http://thunderhouse4yuri.blogspot.com/2011/11/slide-culture-technique.html. [20 Agustus 2013]. Yuwono T. (2005). Biologi Molekuler. Jakarta: Erlangga. Zahida N., Rukhsana B. and Tasnim K.. (2007). “Decolorization of textile dyes and their effluents using white rot fungi”. Biotechnology and Food Research Centre. 5, (1), 51-54.
Hana Gardenia Mahbubah, 2013 Identifikasi Morfologi Dan Molekuler Fungi (Isolat M) Yang Dapat Mendegradasi Pewarna Sintetik Universitas Pendidikan Indonesia | repository.upi.edu| perpustakaan.upi.edu
