We propose to study the two-way exchange of chemical signals between the pathogenic microbe Agrobacterium tumefaciens and its plant hosts. This organism causes crown gall tumors in higher plants by transferring a segment of oncogenic DNA into the plant genome. Our primary focus is on the transcriptional regulation of genes in response to chemical signals released from hosts. Virtually all pathogens induce pathogenesis-related genes in response to host-released signals, and A. tumefaciens is a valuable model for studying this phenomenon. At the outset of infection, wound-released compounds act through three proteins (the transmembrane sensory protein kinase VirA, the response regulator VirG, and the periplasmic sugar binding protein ChvE) to activate transcription of the vir regulon. Later, a compound called octopine acts through the OccR protein (a LysR-type protein) to induce other genes, including the conjugation regulator TraR. TraR and TraI are members of the LuxR/LuxI family of quorum-sensing proteins, and induce tra genes only at high donor cell densities. At least one other plant pathogen and one animal pathogen (Pseudomonas aeruginosa) use homologous proteins to regulate pathogenesis- related genes. A second focus of our work is to study the transfer of T- DNA to the host. We will determine whether three previously uncharacterized genes in the vir region are required for virulence, and whether they are regulated by VirG. We will also study a tra operon from a different plasmid as a model for the eleven genes of the virB operon, as the two operons are closely homologous. Understanding these conjugation- like processes may lead to new ways to prevent the transfer of antibiotic resistance genes and toxin determinants between bacteria. More generally this phenomenon is an example of export of macromolecular complexes from cells and transport of these complexes between cells.

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM042893-13
Application #
6519357
Study Section
Microbial Physiology and Genetics Subcommittee 2 (MBC)
Program Officer
Anderson, James J
Project Start
1989-07-01
Project End
2003-02-28
Budget Start
2002-03-01
Budget End
2003-02-28
Support Year
13
Fiscal Year
2002
Total Cost
$319,934
Indirect Cost
Name
Cornell University
Department
Microbiology/Immun/Virology
Type
Schools of Earth Sciences/Natur
DUNS #
City
Ithaca
State
NY
Country
United States
Zip Code
14850
Ryan, Gina T; Wei, Yuping; Winans, Stephen C (2013) A LuxR-type repressor of Burkholderia cenocepacia inhibits transcription via antiactivation and is inactivated by its cognate acylhomoserine lactone. Mol Microbiol 87:94-111
Pinto, Uelinton M; Pappas, Katherine M; Winans, Stephen C (2012) The ABCs of plasmid replication and segregation. Nat Rev Microbiol 10:755-65
Flores-Mireles, Ana Lidia; Eberhard, Anatol; Winans, Stephen C (2012) Agrobacterium tumefaciens can obtain sulphur from an opine that is synthesized by octopine synthase using S-methylmethionine as a substrate. Mol Microbiol 84:845-56
Costa, Esther D; Chai, Yunrong; Winans, Stephen C (2012) The quorum-sensing protein TraR of Agrobacterium tumefaciens is susceptible to intrinsic and TraM-mediated proteolytic instability. Mol Microbiol 84:807-15
Winans, Stephen C (2011) A new family of quorum sensing pheromones synthesized using S-adenosylmethionine and Acyl-CoAs. Mol Microbiol 79:1403-6
Wei, Yuping; Ryan, Gina T; Flores-Mireles, Ana L et al. (2011) Saturation mutagenesis of a CepR binding site as a means to identify new quorum-regulated promoters in Burkholderia cenocepacia. Mol Microbiol 79:616-32
Pinto, Uelinton M; Flores-Mireles, Ana L; Costa, Esther D et al. (2011) RepC protein of the octopine-type Ti plasmid binds to the probable origin of replication within repC and functions only in cis. Mol Microbiol 81:1593-606
Tsai, Ching-Sung; Winans, Stephen C (2010) LuxR-type quorum-sensing regulators that are detached from common scents. Mol Microbiol 77:1072-82
Hao, Youai; Winans, Stephen C; Glick, Bernard R et al. (2010) Identification and characterization of new LuxR/LuxI-type quorum sensing systems from metagenomic libraries. Environ Microbiol 12:105-17
Pinto, Uelinton M; Winans, Stephen C (2009) Dimerization of the quorum-sensing transcription factor TraR enhances resistance to cytoplasmic proteolysis. Mol Microbiol 73:32-42

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