Papers included in this Virtual Special Issue are indicated by their citations set in bold type (www.newphytologist.com/virtualissues).
Introduction to a Virtual Special Issue on phytopathogen effector proteins
Version of Record online: 10 APR 2014
© 2014 The Authors. New Phytologist © 2014 New Phytologist Trust
Volume 202, Issue 3, pages 727–730, May 2014
How to Cite
Kuhn, H. and Panstruga, R. (2014), Introduction to a Virtual Special Issue on phytopathogen effector proteins. New Phytologist, 202: 727–730. doi: 10.1111/nph.12804
- Issue online: 10 APR 2014
- Version of Record online: 10 APR 2014
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- 2014. The Pseudomonas type III effector HopQ1 activates cytokinin signaling and interferes with plant innate immunity. New Phytologist 201: 595–598. , , , , , , , , , .
- 2012. Addition of transcription activator-like effector binding sites to a pathogen strain-specific rice bacterial blight resistance gene makes it effective against additional strains and against bacterial leaf streak. New Phytologist 195: 883–893. , , .
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- 2012. Oomycete and fungal effector entry, a microbial Trojan horse. New Phytologist 193: 874–881. .
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- 2009. Linking development to defense: auxin in plant–pathogen interactions. Trends in Plant Science 14: 373–382. , .
- 2013. Breaking the DNA-binding code of Ralstonia solanacearum TAL effectors provides new possibilities to generate plant resistance genes against bacterial wilt disease. New Phytologist 199: 773–786. , , , , , , , , .
- 2013. The Brassica napus blackleg resistance gene LepR3 encodes a receptor-like protein triggered by the Leptosphaeria maculans effector AVRLM1. New Phytologist 197: 595–605. , , , , , , , .
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- 2013. Characterization and DNA-binding specificities of Ralstonia TAL-like effectors. Molecular Plant 6: 1318–1330. , , , , , , , , , et al.
- 2014. The bacterial effector HopM1 suppresses PAMP-triggered oxidative burst and stomatal immunity. New Phytologist 202: 259–269. , , , .
- 2008. Evolution of the type III secretion system and its effectors in plant–microbe interactions. New Phytologist 177: 33–47. , .
- 2013. Global diversity and distribution of three necrotrophic effectors in Phaeosphaeria nodorum and related species. New Phytologist 199: 241–251. , , , , .
- 2013. Nematode effector proteins: an emerging paradigm of parasitism. New Phytologist 199: 879–894. , , , , , , .
- 2009. Terrific protein traffic. The mystery of effector protein delivery by filamentous plant pathogens. Science 324: 748–750. , .
- 2007. Plant pathogen recognition mediated by promoter activation of the pepper Bs3 resistance gene. Science 318: 645–648. , , , , , .
- 2011. Pathogenomics of fungal plant parasites: what have we learnt about pathogenesis? Current Opinion in Plant Biology 14: 392–399. , .
- 2012. Analysis of new type III effectors from Xanthomonas uncovers XopB and XopS as suppressors of plant immunity. New Phytologist 195: 894–911. , , , , , , , , , et al.
- 2012. HopAS1 recognition significantly contributes to Arabidopsis nonhost resistance to Pseudomonas syringae pathogens. New Phytologist 193: 58–66. , , , , , , .
- 2013. Five phylogenetically close rice SWEET genes confer TAL effector-mediated susceptibility to Xanthomonas oryzae pv. oryzae. New Phytologist 200: 808–819. , , , , , .
- 2010. Towards population genomics of effector–effector target interactions. New Phytologist 187: 929–939. , .
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- 2012. SseF, a type III effector protein from the mammalian pathogen Salmonella enterica, requires resistance-gene-mediated signalling to activate cell death in the model plant Nicotiana benthamiana. New Phytologist 194: 1046–1060. , , , , .
- 2012. Transcription activator-like (TAL) effectors targeting OsSWEET genes enhance virulence on diverse rice (Oryza sativa) varieties when expressed individually in a TAL effector-deficient strain of Xanthomonas oryzae. New Phytologist 196: 1197–1207. , , , , , , , .
- 2010. Dual roles for the variable domain in protein trafficking and host-specific recognition of Heterodera glycines CLE effector proteins. New Phytologist 187: 1003–1017. , , , , , , , , , .
- 2012. The RxLR effector Avh241 from Phytophthora sojae requires plasma membrane localization to induce plant cell death. New Phytologist 196: 247–260. , , , , , , , , , et al.