Doctoral Thesis
DOI
https://doi.org/10.11606/T.46.2010.tde-08112010-102139
Document
Author
Full name
Maria Claudia Pereda Francischini
E-mail
Institute/School/College
Knowledge Area
Date of Defense
Published
São Paulo, 2010
Supervisor
Committee
Farah, Chuck Shaker (President)
Bertolini, Maria Celia
Ferreira, Henrique
Gomes, Suely Lopes
Marana, Sandro Roberto
Bertolini, Maria Celia
Ferreira, Henrique
Gomes, Suely Lopes
Marana, Sandro Roberto
Title in Portuguese
Caracterização dos fatores sigma da RNA polimerase do fitopatógeno Xanthononas axonopodis pv. citri
Keywords in Portuguese
ECF (fator sigma função extracitoplasmática)
Expressão gênica
fatores sigma
Regulação gênica
RNA polimerase
TTSS (Sistema de secreção do tipo III)
Xanthomonas
Expressão gênica
fatores sigma
Regulação gênica
RNA polimerase
TTSS (Sistema de secreção do tipo III)
Xanthomonas
Abstract in Portuguese
A citricultura é de grande importância para as atividades agrícolas brasileiras, uma vez que o Brasil é o principal produtor e exportador de suco de laranja. O cancro cítrico, causado pela bactéria Xanthomonas axonopodis pv. citri (Xac) é um grave problema nesse setor, causando um elevado prejuízo na produção de frutos e seus derivados. O fator sigma é a subunidade da RNA polimerase que tem a função de direcionar o núcleo da RNA polimerase a uma classe específica de sequências promotoras. Como a maioria das bactérias sintetiza diversos fatores sigma, essa característica proporciona à bactéria a oportunidade de manutenção basal da sua expressão gênica, assim como, a regulação em resposta a alterações ambientais e a sinais durante o desenvolvimento bacteriano. O genoma de Xac codifica para 14 fatores sigma. Nesse presente trabalho, detectamos interações dos fatores σECF (Xac2814. Xac3989, Xac0922, Xac1319, Xac1380, Xac1682, Xac4129 e Xac2191) e seus fatores anti-σ cognatos (Xac2815. Xac3988, Xac0921, Xac1320, Xac1379, Xac1681, Xac4130 e Xac2192). Além disso, observamos interações entre o fator σFliA (Xac1933) e o anti-σFlgM (Xac1989), seu fator anti-σ cognato. A caracterização das cepas nocautes para alguns fatores σ apontaram o envolvimento do fator σ54Xac1969 no mecanismo de formação de flagelo, a contribuição do fator σECFXac1682 na resposta ao choque térmico e a participação do fator σECFXac2191 no crescimento bacteriano em condições de carência de ferro.
Title in English
Caracterization of RNA polimerase sigma factor of phythopathogen Xanthomonas axonopodis pv. citri.
Keywords in English
ECF (Extracytoplasmic function)
Gene expression
Gene regulation
RNA polymerase
Sigma factors
TTSS (Type III secretion system)
Xanthomonas
Gene expression
Gene regulation
RNA polymerase
Sigma factors
TTSS (Type III secretion system)
Xanthomonas
Abstract in English
Citriculture is an important sector of the economy of the State of São Paulo. Citrus canker, caused by Xanthomonas axonopodis pv. citri (Xac), is a devastating disease responsible for large agribusiness losses every year. several sigma factors. The sigma factor is the subunit of RNA polymerase that serves to direct the RNA polymerase core to a specific class of promoter sequences. Most bacteria code for more than one sigma factor, which provides the cell with the means by which to maintain basal gene expression while at the same time modulate the expression of specific genes in response in environmental changes and signals during bacterial growth. The Xac genome codes for 14 sigma factors which are the objects of study in this thesis. We demonstrate that many of the sigma factors of the σECF family (Xac2814, Xac3989, Xac0922, Xac1319, Xac1380, Xac1682, Xac4129 e Xac2191) interact with cognate anti- factors (Xac2815, Xac3988, Xac0921, Xac1320, Xac1379, Xac1681, Xac4130 e Xac2192). These sigma-anti-sigma pairs are all coded by neighboring genes. Interactions between the sigma factor σFliA (Xac1933) and anti-σFlgM (Xac1989) were also observed. Xac strains with gene knockouts for several sigma factors were produced. The characterization some these knockout strains point to the involvement of σ54Xac1969 in the biosynthesis of flagella, participation of σECFXac1682 in the ability to survive heat shock and involvement of σECFXac2191 in the response to iron deficiency.
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Publishing Date
2011-09-22
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