Identification and characterization of new modulators of division in B. subtilis / Identificação e caracterização de novos moduladores da divisão em Bacillus subtilis
AUTOR(ES)
José Roberto Tavares
DATA DE PUBLICAÇÃO
2009
RESUMO
In prokaryotes, the main form of reproduction is binary fission, which allows the mother-cell to give origin the two daughter-cells, with identical genetic material. In Bacillus subtilis, this process is performed by the divisome, a complex formed for approximately sixteen proteins that leads to the constriction of the membrane and the wall, creating the division septum. The assembly of the divisome is coordinated by FtsZ, a homolog of tubulin, that polymerizes in the central region of the bacteria and serves as the base for the assembly of the divisome. From a detailed survey of the distribution of the genes involved in division in complete genomes of prokaryotes, we detected that divIVA, a well characterized division gene, showed a paralog in B. subtilis, known as YpsB. To determine if YpsB would be a new component of the divisome, a cytological and functional characterization of this protein was carried out. We used fluorescence microscopy and fusion of YpsB to GFP to determine the subcellular localization of YpsB. These experiments displayed that YpsB is present in the divisome, with similar but not identical localization as DivIVA. Measuring co-localization between the Z ring and YpsB demonstrated that this happened in approximately 50% of the cells, suggesting that YpsB go to the divisome after the Z ring is formed. To determine when YpsB goes to the divisome, we used temperature-sensitive mutants of the division proteins. This showed that YpsB depends on the DivIB-DivIC-FtsL-FtsW-PBP2B sub-complex to associate with the divisome. In the absence of DivIVA, YpsB is still present in the divisome, indicating that it does not depend on its paralog to localize. Moreover, deletion analyses of YpsB showed that the N-terminal portion of the protein is the most important for its recruitment to the divisome. To determine the role of YpsB during division, we constructed a ypsB- mutant. DivIVA is the protein responsible for localization of the Min system in polar regions of B. subtilis and, thus, contributes for the spatial precision of division. Our results showed that the function of YpsB must be different from that of DivIVA, since analysis of the ypsB- mutant showed that in the absence this protein the divisome is assembled and septum position in vegetatively growing or sporulating cells is not affected. Since the absence of YpsB does not affect division, we combined the ypsB- mutant with mutants involved in division. Analysis of these double mutants showed that the simultaneous absence of YpsB and FtsA caused cellular lysis and lethality. Based on this phenotype and evolutionary evidences, we suggest that YpsB is involved in the regulation of peptidoglycan synthesis in the septum. More specifically, YpsB would be responsible for modulating the activity of PBP1, a necessary enzyme for septum peptidoglycan synthesis.
ASSUNTO(S)
peptidoglycan diviva divisão celular ftsz divisome diviva divisomo ypsb penicillin binding protein bacillus bioquímica ftsz ypsb bacillus cell division penicillin binding protein biochemistry peptideoglicano
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