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:1887-1</font></em></font></strong></font></td></tr><tr><td colspan=2><br><br><table align=center width=700><tr><td>Área: <b>Microbiologia Geral ( Divisão H )</b><p align=justify><strong><FONT FACE="ARIAL, HELVETICA, SANS-SERIF">PROKARYOTIC DIVERSITY IN ONE OF THE LARGEST HYPERSALINE COASTAL LAGOONS IN THE WORLD</FONT></strong></p><p align=justify><b><u>Joyce Lemos Lima </u></b>  (<i>UFRJ</i>); <b>Leonardo  Henriques Pinto </b>  (<i>FIOCRUZ</i>); <b>Gigliola  Rhayd Boechat Sallôto </b>  (<i>UFRJ</i>); <b>Maysa  Beatriz Mandetta Clementino </b>  (<i>FIOCRUZ</i>); <b>Ricardo  Pilz Vieira </b>  (<i>UFRJ</i>); <b>Orlando  Bonifácio Martins </b>  (<i>UFRJ</i>)<br><br></p><b><font size=2>Resumo</font></b><p align=justify class=tres><font size=2><SPAN lang=EN-US style="FONT-SIZE: 11pt; FONT-FAMILY: Arial; mso-fareast-language: PT-BR; mso-bidi-font-size: 10.0pt; mso-fareast-font-family: 'Times New Roman'; mso-ansi-language: EN-US; mso-bidi-language: AR-SA">Araruama Lagoon is an environment characterized by high salt concentrations. The rainfall and high evaporation rates in this region favored the development of many salty ponds around the lagoon. In order to reveal the microbial composition of this system, we applied a polyphasic approach, including microbiological and metagenomic methods. The samples were cultivated on Halobacterium medium at several salt concentrations and performed a 16S rRNA gene survey of Archaea and Bacteria domains. Pigmented colonies (red to pink) selected from hipersaline medium (30%) were submitted to electronic microscopic, biochemical assays and 16S rDNA sequencing analysis to check the taxonomic and phylogenetic groups. Sequencing database analysis revealed new species of <EM>Haloarcula</EM> and <EM>Haloferax</EM> genera. Among the metagenomic approach, most archaeal clones were related to uncultured environmental Euryarchaeota. In lagoon water, we found some clones related to Methanogenic archaea, while in the saline pond water members related to the genus Haloarcula were detected. Bacterial community was dominated by clones related to <EM>Gamma</EM>-<EM>proteobacteria</EM>, <EM>Actinobacteria</EM>, and <EM>Synechococcus</EM> in lagoon water, while <EM>Salinibacter</EM> <EM>ruber</EM> relatives dominated in saline pond. The detection of a substantial number of clones related to uncultured archaea and bacteria suggest that the hypersaline waters of Araruama harbor a pool of novel prokaryotic phylotypes, distinct from those observed in other similar systems. We also observed clones related to halophilic genera of cyanobacteria that are specific for each habitat studied. This is the first study of the biogeography and community structure of microbial assemblages in Brazilian tropical hypersaline environments. The main goal of this work is the description of the first halophilic archaea from Brazil and to obtain a better understanding of the free-living prokaryotic diversity adapted to life in hypersaline waters.</SPAN></font></p><br><b>Palavras-chave: </b>&nbsp;Biodiversity, Ecology, Halophile, Molecular phylogeny, Phylogeny</td></tr></table></tr></td></table></body></html>