Paracoccidioides brasiliensis translation and protein fate machineries revealed by functional genome analysis.

The translational and post-translational modification machineries of Paracoccidioides brasiliensis were assessed by means of comparative analyses of PbAESTs (P. brasiliensis assembled expressed sequence tags) with sequences deposited on different databases. Of the 79 sequences corresponding to cytosolic ribosomal proteins, we were able to find 78 in the P. brasiliensis transcriptome. Nineteen of the 27 Saccharomyces cerevisiae genes related to translation initiation were also found. All eukaryotic elongation factors were detected in P. brasiliensis transcriptome, with eEF1A as one of the most expressed genes. Translation termination is performed, in eukaryotes, by factors 1 and 3 (eRF1, eRF3). In P. brasiliensis transcriptome it was possible to identify eRF3, but not eRF1. Sixteen PbAESTs showing aminoacyl-tRNA synthetase-predicted activities were found in our analyses, but no cysteinyl-, leucyl-, asparagyl- and arginyl-tRNA synthetases were detected. Among the mitochondrial ribosomal proteins, we have found 20 and 18 orthologs to S. cerevisiae large and small ribosomal subunit proteins, respectively. We have also found three PbAESTs similar to Neurospora crassa mitochondrial ribosomal genes, with no similarity with S. cerevisiae genes. Although orthologs to S. cerevisiae mitochondrial EF-Tu, EF-G and RF1 have been found in P. brasiliensis transcriptome, no sequences corresponding to functional EF-Ts were detected. In addition, 64 and 28 PbAESTs associated to protein modification and degradation, respectively, were found. These results suggest that these machineries are well conserved in P. brasiliensis, when compared to other organisms.

Paracoccidioides brasiliensis RNA biogenesis apparatus revealed by functional genome analysis.

The RNA biogenesis machinery of Paracoccidioides brasiliensis was assessed by comparative analyses of PbAESTs (P. brasiliensis assembled expressed sequence tags (ESTs)) with sequences from Saccharomyces cerevisiae MIPS database. PbAESTs related to almost all categories of S. cerevisiae RNA biogenesis were found. Two of the 12 S. cerevisiae RNA Pol II core subunits, Rpb3 and Rpb7, were found, probably reflecting the growth phase from which the cDNA libraries used in ESTs generation were constructed, as well as the low abundance of some of these transcripts. We have also found orthologs to TATA-box-binding protein (TBP), and at least one subunit of each TBP-associated factors (TFII) in P. brasiliensis transcriptome, except TFIIB. Genes associated to the chromatin remodeling complex, as well as transcription factors probably involved in the control of genes associated to a sexual cycle and virulence, were also identified. With respect to the pre-mRNA processing, 65 PbAEST orthologs to S. cerevisiae basal splicing machinery and 21 orthologs of 5'- and 3'-end formation processes were found. Components involved in RNA interference were detected, suggesting that this gene expression regulation mechanism is probably used by P. brasiliensis. Twelve PbAESTs related to Pol I and Pol III machineries were assigned as S. cerevisiae orthologs. Finally, 25 and 10 PbAESTs associated to rRNA and tRNA processing, respectively, were detected. Taken together, our results enable us to depict, for the first time, a global view of transcription and RNA processing in P. brasiliensis.

Cell cycle, DNA replication, repair, and recombination in the dimorphic human pathogenic fungus Paracoccidioides brasiliensis.

DNA replication, together with repair mechanisms and cell cycle control, are the most important cellular processes necessary to maintain correct transfer of genetic information to the progeny. These processes are well conserved throughout the Eukarya, and the genes that are involved provide essential information for understanding the life cycle of an organism. We used computational tools for data mining of genes involved in these processes in the pathogenic fungus Paracoccidiodes brasiliensis. Data derived from transcriptome analysis revealed that the cell cycle of this fungus, as well as DNA replication and repair, and the recombination machineries, are highly similar to those of the yeast Saccharomyces cerevisiae. Among orthologs detected in both species, there are genes related to cytoskeleton structure and assembly, chromosome segregation, and cell cycle control genes. We identified at least one representative gene from each step of the initiation of DNA replication. Major players in the process of DNA damage and repair were also identified.

Estudos estruturais e de interações proteína-proteína envolvendo componentes de um sistema de secreção do tipo IV de Xanthomonas axonopodis pv. citri / Structural and protein-protein interaction studies of type IV secretion system components from Xanthomonas axonopodis pv. citri

Xanthomonas axonopodis pv. citri (Xac) é o causador do cancro de plantas cítricas. Entre os potenciais fatores de virulência codificados por Xac, está o Sistema de Secreção do Tipo IV (T4SS), um grande complexo multiprotéico que atravessa o periplasma e as membranas interna e externa de bactérias Gram-negativas. O T4SS está envolvido com secreção de proteínas e/ou DNA para o meio extracelular ou diretamente no interior da célula do hospedeiro. Este Sistema requer tipicamente 12 proteínas para realizar suas funções: VirB1-VirB11 e VirD4. O T4SS codificado pelo cromossomo de Xac está aparentemente incompleto, devido a não codificar nenhuma proteína com similaridade de seqüência a VirB7. Os objetivos deste trabalho são estudar a estrutura, função e interações das proteínas do T4SS de Xanthomonas. Foram clonados 23 genes que codificam proteínas ou domínios relacionados ao T4SS, e os polipeptídeos foram produzidos de forma recombinante em E. coli. Treze deles foram purificados e submetidos a estudos estruturais, espectroscópicos e de interações proteína-proteína. A estrutura em solução de Xac262224-139 foi resolvida, apresentando uma região N-terminal desenovelada de aproximadamente 30 resíduos e um domínio globular. Este polipeptídeo oligomeriza em troca química rápida na escala de tempo de RMN e o seu N-terminal desenovelado reconhece o domínio C-terminal de VirB9 (VirB9154-255) em troca lenta. Análise de RMN demonstrou que VirB9154-255 possui uma estrutura flexível em solução, sofrendo uma marcante mudança conformacional na presença de Xac262224-139. Ambas proteínas se tornam rígidas após a interação. Xac2622 é o equivalente a VirB7 em Xanthomonas, baseado na localização do seu gene no lócus do T4SS, localização subcelular predita do polipeptídeo codificado e sua interação com VirB9...

Xanthomonas axonopodis pv. citri (Xac) is a gram-negative bacterial phytopathogen that infects citrus. One possible virulence determinant is a chromosomally encoded Type IV Secretion System (T4SS), a multiprotein complex that spans the bacterial periplasm and both inner and outer membranes. The T4SS is used by some bacteria to secrete proteins and/or DNA to the extracellular milieu or the host interior. The model T4SS from Agrobacterium tumefaciens is made up of twelve structural proteins: VirB1-VirB11 and VirD4. The Xanthomonas T4SS is apparently incomplete because of the lack of a polypeptide with sequence similarity to VirB7. The aim of this project is the study of structure-function relationships in the Xanthomonas T4SS. Twenty-three T4SS protein-coding genes, including full-length proteins or domains, were cloned and the proteins were produced in different E. coli strains. Thirteen polypeptides were purified and some of them were submitted to structural, spectroscopic and protein-protein interaction studies. We used NMR to solve the solution structure of Xac262224-139 which consists of an unfolded N-terminal segment of ~30 residues followed by a globular domain. Xac262224-139 oligomerizes in fast exchange at the NMR time scale and interacts via its unfolded N-terminus with the VirB9 C-terminus (VirB9154-255) in slow exchange. NMR analysis showed that VirB9154-255 has a flexible structure in solution. However, this polypeptide undergoes a significant conformational modification in the presence of Xac2622,24-139 and both proteins become rigid upon interaction. Xac2622 is the Xanthomonas VirB7, based on the chromosomal localization of its gene, predicted subcellular localization and protein interaction analysis. But surprisingly, unlike other VirB7 proteins, Xac2622 has an extra C-terminal folded domain whose topology and structure are strikingly similar to that of periplasmic domains found in outer membrane proteins of many bacterial Secretion Systems...