Caracterização bioquímica das ß-glucosidases do Scytalidium thermophilum / Biochemical characterization of ß-glucosidases from Scytalidium thermophilum

AUTOR(ES)
DATA DE PUBLICAÇÃO

2005

RESUMO

Cellulose is the most abundant carbon source found in woods and waste residues. In nature the complete hidrolysis of cellulose occurs by the sinergistic action of several enzymes such endo-1,4-ß-D-glucanase, exo-1,4-ß-glucanase e ß-glucosidase or cellobiase. The present work describe some physiological and biochemical properties of ß-glucosidase system from thermophilic fungus Scytalidium thermophilum. The fungus was gift to Dr. Straastma (Mushroom Experimental Station, The Netherlands). The culture medium M8 enhance the production of ß-glucosidase. Among carbohydrates tested as carbon source, avicel and cellobiose were the best inducers of ß-glucosidase extracellular and mycelial. When the fungus was grown in two stages, observed the repression by glucose, and induction by avicel or cellobiose. The presence of cycloheximide inhibited the syntesis of ß-glucosidase, suggesting that the enzyme produced in the presence of indutors required "de novo" synthesis. Extracellular ß-glucosidase was purified using the precipitation with 75% amonium sulfate, ion exchange cromatography column DEAE-cellulose, and were obtained two activities: ß-glucosidase extracellular I and II. The ß-glucosidase I was applied to a CM-cellulose colunm, while ß-glucosidase II was applied to a Sephadex G-100 colunm. The ß-glucosidase II was purified two times and 4% yield, and the ß-glucosidase II was purified 2,4 times and 2% yield. The mycelial ß-glucosidase was purified using the termic treatment, a precipitation with 75% amonium sulfate followed by Sephadex G-100 and DEAEcellulose. The enzyme was purified 23 time with 23% yield. The ß-glucosidase extracellular II and mycelial shown optima of temperature and pH of 60°C and 70°C, 4.4 and 6.0, respectively. Hg+2 and Ag+2 ions were strong inhibitors of ß-glucosidase extracellular I and mycelial. The molecular weight of ß-glucosidase extracellular I and mycelial was stimated as 40.7 KDa and 39KDa (SDS-PAGE) and 57kDa and 33.8 kDa (Sephadex G-100). The ß-glucosidase extracellular I hydrolyzed PNP-glu, PNP-xyl, cellobiose,xylan and CMC, while ß-glucosidase mycelial hydrolyzed PNP-fuc, PNP-xyl, PNP-gal, ONPG and lactose. Both enzymes were activeted by glycerol 1M. The ß-glucosidase extracellular I was activeted by xylose, fructose and lactose, and show strong at glucose 50mM. The ß-glucosidase mycelial was activeted by glucose and xylose. ß-glucosidase extracellular I and mycelial shows PI 4.0 and 6.5, respectively. The kinects studies reveled for ß-glucosidase extracellular I a Km of 4,33 and 0,342mM and Vmáx of 5,37 and 2,0µmoles/min/mg prot for cellobiose and PNP-glu, respectively. The Ki values obtained from Dixon plots was 71mM for glucose. To ß-glucosidase mycelial the Km and and Vmáx were 0,29mM e 13,27µmoles/min/mg prot; 0,5 mM e 7,25µmoles/min/mg prot and 1,61 mM and 4,12µmoles/min/mg prot for PNP-glu, PNPfuc and cellobiose, respectively. Using xylose or glucose the Km and Vmáx was 1,26mM e 40,04 µmoles/min/mg.prot, and 1,33mM, e 30,49 µmoles/min/mg prot, respectively for PNP-glu. The Ki values obtained from Dixon plots was 1,32mM using cellobiose. The products of hydrolisis of cellobiose by the action of purified enzymes glucosidase extracellular I and mycelial were analised in thin-layer-cromatography, and show hydrolisis of cellobiose at 10mM,and transglycosilation reaction when cellobiose was using at 250mM. The intrinsic biochemical and regulatory properties the ß-glucosidase system of Scytalidium support the idea that organism may be useful for biotechnological applications.

ASSUNTO(S)

scytalidium thermophilum ß-glucosidase ß-glucosidase scytalidium thermophilum ß-glicosidase ß-glicosidase thermophilum termofilia

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