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Medicago truncatula syntaxin SYP132 defines the symbiosome membrane and infection droplet membrane in root nodules
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Catalano C.M., Czymmek K.J., Gann J.G., and Sherrier D.J. Medicago truncatula syntaxin SYP132 defines the symbiosome membrane and infection droplet membrane in root nodules. Planta 225 (2007) 541-550
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NpPDR1, a pleiotropic drug resistance-type ATP-binding cassette transporter from Nicotiana plumbaginifolia, plays a major role in plant pathogen defense
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Stukkens Y., Bultreys A., Grec S., Trombik T., Vanham D., and Boutry M. NpPDR1, a pleiotropic drug resistance-type ATP-binding cassette transporter from Nicotiana plumbaginifolia, plays a major role in plant pathogen defense. Plant Physiol 139 (2005) 341-352
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Loss of AtPDR8, a plasma membrane ABC transporter of Arabidopsis thaliana, causes hypersensitive cell death upon pathogen infection
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This paper independently describes AtPDR8 (AtPEN3 [16]) as involved in the non-host defence response to Phytophthora infestans. The corresponding Atpdr8 mutant shows induced resistance to Pseudomonas syringae.
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Kobae Y., Sekino T., Yoshioka H., Nakagawa T., Martinoia E., and Maeshima M. Loss of AtPDR8, a plasma membrane ABC transporter of Arabidopsis thaliana, causes hypersensitive cell death upon pathogen infection. Plant Cell Physiol 47 (2006) 309-318. This paper independently describes AtPDR8 (AtPEN3 [16]) as involved in the non-host defence response to Phytophthora infestans. The corresponding Atpdr8 mutant shows induced resistance to Pseudomonas syringae.
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Kobae, Y.1
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Maeshima, M.6
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48
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The ABC transporter AtPDR8 is a cadmium extrusion pump conferring heavy metal resistance
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Kim D.Y., Bovet L., Maeshima M., Martinoia E., and Lee Y. The ABC transporter AtPDR8 is a cadmium extrusion pump conferring heavy metal resistance. Plant J 50 (2007) 207-218
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Miklis, M.1
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Schulze-Lefert, P.5
Panstruga, R.6
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50
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A bacterial virulence protein suppresses host innate immunity to cause plant disease
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This paper demonstrates that the bacterial effector HopM1 targets a host ARF-GEF for defence suppression and function in virulence. The ARF-GEFs are targets of the inhibitor of vesicle trafficking and exocytosis Brefeldin A, which fully restores virulence of the bacterial ΔCEL mutant that lacks HopM1. Additionally, Atmin7 knockout mutants do not display typical ΔCEL-induced callose deposits and are nearly fully susceptible to otherwise non-pathogenic ΔCEL mutants.
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Nomura K., Debroy S., Lee Y.H., Pumplin N., Jones J., and He S.Y. A bacterial virulence protein suppresses host innate immunity to cause plant disease. Science 313 (2006) 220-223. This paper demonstrates that the bacterial effector HopM1 targets a host ARF-GEF for defence suppression and function in virulence. The ARF-GEFs are targets of the inhibitor of vesicle trafficking and exocytosis Brefeldin A, which fully restores virulence of the bacterial ΔCEL mutant that lacks HopM1. Additionally, Atmin7 knockout mutants do not display typical ΔCEL-induced callose deposits and are nearly fully susceptible to otherwise non-pathogenic ΔCEL mutants.
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Science
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Nomura, K.1
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Jones, J.5
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Speth E.B., Lee Y.N., and He S.Y. Pathogen virulence factors as molecular probes of basic plant cellular functions. Curr Opin Plant Biol 10 (2007) 580-586
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Speth, E.B.1
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He, S.Y.3
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Selective mobility and sensitivity to SNAREs is exhibited by the Arabidopsis KAT1 K+ channel at the plasma membrane
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Sutter J.U., Campanoni P., Tyrrell M., and Blatt M.R. Selective mobility and sensitivity to SNAREs is exhibited by the Arabidopsis KAT1 K+ channel at the plasma membrane. Plant Cell 18 (2006) 935-954
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Sutter, J.U.1
Campanoni, P.2
Tyrrell, M.3
Blatt, M.R.4
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