ÿþ<HTML><HEAD><TITLE>25º Congresso Brasileiro de Microbiologia </TITLE><link rel=STYLESHEET type=text/css href=css.css></HEAD><BODY aLink=#ff0000 bgColor=#FFFFFF leftMargin=0 link=#000000 text=#000000 topMargin=0 vLink=#000000 marginheight=0 marginwidth=0><table align=center width=700 cellpadding=0 cellspacing=0><tr><td align=left bgcolor=#cccccc valign=top width=550><font face=arial size=2><strong><font face=Verdana, Arial, Helvetica, sans-serif size=3><font size=1>25º Congresso Brasileiro de Microbiologia </font></font></strong><font face=Verdana size=1><b><br></b></font><font face=Verdana, Arial,Helvetica, sans-serif size=1><strong> </strong></font></font></td><td align=right bgcolor=#cccccc valign=top width=150><font face=arial size=2><strong><font face=Verdana, Arial, Helvetica, sans-serif size=1><font  size=1>ResumoID:2193-1</font></em></font></strong></font></td></tr><tr><td colspan=2><br><br><table align=center width=700><tr><td>Área: <b>Fermentação e Biotecnologia ( Divisão J )</b><p align=justify><strong>EXTRACELLULAR PROTEINS SECRETED BY <SPAN STYLE="FONT-STYLE: ITALIC;">TRICHODERMA HARZIANUM</SPAN> PRODUCED BY FERMENTATION OF SOLID-STATE SUGARCANE BAGASSE AS CARBON SOURCE

</strong></p><p align=justify><b><u>Ana Carolline  Ribeiro de Toledo Pinto </u></b>  (<i>UnB</i>); <b>Pedro  Alves Martins </b>  (<i>UnB</i>); <b>Diana Paola  Gómez Mendoza </b>  (<i>UnB</i>); <b>Marcelo  Valle de Sousa </b>  (<i>UnB</i>); <b>Edivaldo  Ximenes Ferreira Filho </b>  (<i>UnB</i>); <b>Carlos André  Ornelas Ricart </b>  (<i>UnB</i>)<br><br></p><b><font size=2>Resumo</font></b><p align=justify class=tres><font size=2><span style="font-style: italic;">Trichoderma </span>is a fungi genre widely studied because of its great capacity of synthesizing and secrete numerous enzymes. <span style="font-style: italic;">Trichoderma harzianum </span>is one of the most common species among this group, being found on several substrates as vegetal decomposing material. This work aimed at analyzing the extracellular proteins secreted by <span style="font-style: italic;">T. harzianum </span>during fermentation of solid-state sugarcane bagasse as carbon source. In order to obtain <span style="font-style: italic;">T. harzianum </span>spores, the fungus was grown on Petri dishes containing synthetic medium supplemented with 1% sugarcane bagasse as carbon source. After ten days, the spores were collected with a 0,9% NaCl solution and this spore suspension (1x10<sup>8</sup> ml<sup>-1</sup>) was used to inoculate six erlenmeyers containing 5g of sugarcane bagasse dampened with 30mL of synthetic medium. The culture was then maintained at room temperature for 0, 3, 6, 9, 12 and 30 days. The experiment was made on triplicate. After growth procedure, the crude extract was washed with 50 ml of sodium acetate buffer (100mM; pH 5,0) during 30 minutes under agitation, followed by vaccum filtration. In order to take off the remaining spores, the obtained supernatants were then centrifuged at 6000rpm/15min. The obtained enzyme extract are now being subjected to enzymatic assays to determine activities of cellulases (CMCases and FPases), hemicellulases (xylanases), mananases and pectinases. The protein profile of the samples are also being analyzed using electrophoresis techniques such as SDS-PAGE and 2D-PAGE. This work wants to analyze the capacity of <span style="font-style: italic;">Trichoderma harzianum </span>to degrate sugarcane bagasse as carbon source, and the different types of enzymes secreted to degrate the different kinds of cellulosis and hemicellulosis structures. We expect as results identifying the differential protein profiles resulted for each day of culture, and try to answer the reasons of such variable profiles, by characterization of each protein (or as much as possible) in SDS-PAGE electrophoresis (one and two dimensions).&nbsp;

</font></p><br><b>Palavras-chave: </b>&nbsp;Secretome, Cellulases, Hemicellulases</td></tr></table></tr></td></table></body></html>