Termostable enzyme from thermophilic bacteria is very potential to improve technical enzyme in industry which used hightemperature. High water temperature exerts selection pressure on microbial species leading to specific flora that survivesand tolerates heat stress. The relative isolation and unique physical properties of Bukit Kili Ketek Hot Springs in Solok,West Sumatera may yield unique thermophiles. The generation of extracellular enzymatic bacterial is highly desirable forproduction of hydrolitic enzymes, which are useful in various industrial application and in animal feeds. This study,conducted to purify extracellular enzymes from thermophilic bacteria (Anoxybacillus sp.). This bacteria was isolated inBukit Kili Ketek Hot Springs, and after identified by analysis of 16S rRNA gene, 97% of similiarty with Anoxybacillus sp.was of obtained. The temperature of the hot waters was 52°C and the pH was 8. Extracellular and hydrolytic enzymeproduction were screened by qualitative SDS-PAGE method. SDS-PAGE analysis gave protein bands at ±110 kDa, ±80 kDa,±60 kDa, 50 kDa, 25 kDa, and ±10 kDa, respectively. Extracellular enzymes were used to degrade cellulose waste. Thecellulose activity for degradation of baggasse and pineapple pulp was 0,451 IU/mL and 0,310 IU/mL at 50°C and pH 6.

Abdelnasser & Ahmed. 2007. Isolation and identification of new cellulases producing thermophilic bacteria from an egyptian hot springs and some properties of the crude enzyme. Australian Journal of Basic and Applied Science 1(4): 473–478.

Bayoumi, Ra & Loubodey. 2007. Production, purification and characterization of thermophilic lipase for application in bio-detergent industry. Journal of Applied Sciences Research 3(12): 1752–1765.

Bhat, M.K & Bhat, S. 1997. Cellulose degrading enzymes and their potential industrial application. Biotechnol. Adv 15: 583–620.

Etsuo, Shuichi, Hiroshi, Takisha & Kunio 1988. Isolation and characterization of a thermostable aminopeptidase from Thermus aquaticus YT-1, an extremely thermophilic bacterium. Agric. Biol. Chem 52(7): 1755– 1763.

Elnasser Ziad & Maraqa, A. 2007. Isolation and characterization of new thermophilicbacteria in jordan. The Internet Journal of Microbiology Vol 3. No. 2.

Hariyuki, Mariko, Miyosi & Yuzuru. 1996. Raw starch digesting and thermostable α-amylase from yeast cryptococcus sp. purification, characterization and sequencing. Biochemistry Journal 318: 989–996.

Kamara, Saadah & Gaffar. 2007. Degradasi enzimatik selulosa dari batang pohon pisang untuk produksi glukosa dengan bantuan aktivitas selulolitik trichoderma viridae. Bandung: Lembaga Penelitian UNPAD.

Kohji, Takashi & Hiroky. 1999. Characteristics of two forms of a-amylases and structural implication. Applied and Environmental Microbiology 65(10): 4652–4658 .

Kotchoni, Gachomo, Omafuvbe & Shonukan. 2006. Purification and biochemical characterization of carboxymethyl cellulase (cmcase) from a catabolite repression insensitive mutant of bacillus pimilus. International Journal of Agriculture and Biology 08(2): 286–292.

Mahmoud M. Berekaa , Nadia A. Soliman, Yasser R. Abdel- Fattah. 2007. Production, partial characterization and cloning of thermostable α-amylase of a thermophile geobacillus thermoleovorans yn. Biotechnology 6: 175–183.

Narayan, Vinay & Mohammed 2008. Isolation and characterization of aerobic thermophilic bacteria from the savusavu hot spring in fiji. Microbes and Environment 23(4): 350–352.

Nora. S et al. 2004. Cellulase fermentation an a novel substrate and subsequent utilization of home-produced cellulase and commercial amylase i rabbit feeding trial. Science Direct 20(1): 49–57.

Nunes. A & Martin. 2001. Isolation, properties and kinetics of growth of thermophilic bacillus. Brazillian Journal of Microbiology 32: 271–275.

Puspaningsih, N. 2007. Enzim fibrolitik: manfaat dan prospek pengembangannya. Surabaya: FMIPA-UNAIR.

Raven, Jhonson & Brown, J. 2009. Primitive Thermophilic Bacteria. MB 451. Microbial Diversity. Department of Microbiology. NC State University.

Sambrook. J, Fritsch & Maniatis. 1989. Molecular Cloning. A Laboratory Manual.Edisi Kedua. Cold Spring Harbor Laboratory Press.

Scopes RK,1987. Protein Purification Principles and Practice. Edisi ke-2. New York: SpringerVerlag.

Skowronek. Marcin, Fiedurek. Jan. 2005. Purification and properties of extracellular endoinulinase from aspergillus niger 20 osm. Food Technol. Biotechnol 44(1): 53–58.

Smith, B.J. 1984. SDS polyacrylamide gel electrophoresis of proteins. Methoda in Molecular Biology 1: 41–55.

Satyanarayana, Noorwez, Kumar, Rao, Ezhiluannam & Kaur. 2004. Development of an ideal starch saccharification process using amylolitic enzymes from thermophiles. Biochemical Society Transaction 32(2): 276–278.

Tong & Maxwell. 1980. Purification and properties of the cellulases from thermophilic fungus thermoascus aurantiacus. Biochemical Journal 191: 83–94.

Zona. 2011. Skrining dan identifikasi bakteri termofilik penghasil selulase dan amilase dari sumber air panas bukit kili solok sumatera barat dengan analisis gen 16s rRNA. Jurnal Photon 2(1): 37-44.