研究领域
Signaling in bacterium-plant interactions
I currently am a sabbatical leave visitor in the laboratory of Prof. Pamela Ronald (UC Davis), who studies the control of innate immune response by rice (Oryzae sativa) to Xanthomonas oryzae. This bacterium causes economically significant diseases in an agricultural staple that also is a model for broadly understanding cereal genetics. Our goal is to integrate analyses of both pathogen and host as we seek to understand plant resistance.
近期论文
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Boudes, M., N. Lazar, M. Graille, D. Durand, T. A. Gaidenko, V. Stewart, and H. van Tilbeurgh. 2012. The structure of the NasR transcription antiterminator reveals a one-component system with a NIT nitrate receptor coupled to an ANTAR RNA-binding effector. Mol. Microbiol. 85: 431-444. PMID: 22690729
Huynh, T. N., C. E. Noriega, and V. Stewart. 2013. Missense substitutions reflecting regulatory control of transmitter phosphatase activity in two-component signaling. Mol. Microbiol. 88:459-472. PMCID: PMC3633741
Huynh, T. N., L.-L. Chen, and V. Stewart. 2015. Sensor–response regulator interactions in a cross-regulated signal transduction network. Microbiology 161:1504-1515. PMID: 25873583
Huynh, T. N., H.-Y. Lin, C. E. Noriega, A. V. Lin, and V. Stewart. 2015. Crosstalk Inhibition Nullified by a Receiver Domain Missense Substitution. J. Bacteriol. 197: 3294-3306. PMID: 26260457