Functional Analysis of the Plant Disease Resistance Gene Pto Using DNA Shuffling

Bernal, Adriana; Pan, Qilin; Pollack, Jeff; Rose, Laura; Kozik, Alexander; Willits, Neil H.; Luo, Yao; Guittet, Muriel; Кочеткова, Елена; Michelmore, Richard W.

doi:10.1074/jbc.m500992200

Cited by 20 publications

(21 citation statements)

References 43 publications

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“…The reason for this may be that these mutations have a deleterious effect on folding of Pto kinase. Notably, substitutions at other buried residues (Leu-252, Ala-256, and Val-257) around L1 loop resulted in no expression of Pto in plant cells (Wu et al, 2004), whereas mutations of certain solvent-exposed residues in this region (Glu-248 and Glu-254) had no effect on interaction with either AvrPtoB or AvrPto (Bernal et al, 2005). Our current data support that the buried residues from this region are important for proper folding of Pto as suggested before (Bernal et al, 2005).…”

Section: Discussionmentioning

confidence: 99%

“…Our data indicate that AvrPtoB likely uses a similar mechanism for activation of plant immunity, although these two effector proteins exhibit strikingly different tertiary structures. Residues surrounding the Pto P+1 loop are important for negative regulation of immune signaling by Pto, as many substitutions at this region induced the hypersensitive response (HR) independent of AvrPtoB or AvrPto (Rathjen et al, 1999;Wu et al, 2004;Bernal et al, 2005;Xing et al, 2007). The simultaneous substitutions Leu-205/Phe-213 in Pto around the unique AvrPtoB-interacting interface 1 specifically disrupted interaction with AvrPtoB ( Figure 5B) and led to a CGF phenotype ( Figure 6A), indicating that the region flanking these two residues also negatively regulates Prf signaling.…”

Section: Discussionmentioning

confidence: 99%

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Crystal Structure of the Complex between Pseudomonas Effector AvrPtoB and the Tomato Pto Kinase Reveals Both a Shared and a Unique Interface Compared with AvrPto-Pto

et al. 2009

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Resistance to bacterial speck disease in tomato (Solanum lycopersicum) is activated upon recognition by the host Pto kinase of either one of two sequence-unrelated effector proteins, AvrPto or AvrPtoB, from Pseudomonas syringae pv tomato (Pst). Pto induces Pst immunity by acting in concert with the Prf protein. The recently reported structure of the AvrPto-Pto complex revealed that interaction of AvrPto with Pto appears to relieve an inhibitory effect of Pto, allowing Pto to activate Prf. Here, we present the crystal structure of the Pto binding domain of AvrPtoB (residues 121 to 205) at a resolution of 1.9Å and of the AvrPtoB121-205–Pto complex at a resolution of 3.3 Å. AvrPtoB121-205 exhibits a tertiary fold that is completely different from that of AvrPto, and its conformation remains largely unchanged upon binding to Pto. In common with AvrPto-Pto, the AvrPtoB-Pto complex relies on two interfaces. One of these interfaces is similar in both complexes, although the primary amino acid sequences from the two effector proteins are very different. Amino acid substitutions in Pto at the other interface disrupt the interaction of AvrPtoB-Pto but not that of AvrPto-Pto. Interestingly, substitutions in Pto affecting this unique interface also cause Pto to induce Prf-dependent host cell death independently of either effector protein.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Crystal Structure of the Complex between Pseudomonas Effector AvrPtoB and the Tomato Pto Kinase Reveals Both a Shared and a Unique Interface Compared with AvrPto-Pto

et al. 2009

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“…Of the $300 residues, 12 are essentially invariant among kinases, and these 12 sites are also invariant in the collection of 48 Pto alleles described here. Furthermore, functional studies of the Pto protein using site-directed and random mutagenesis have specifically characterized the functional consequences of variation at 66 positions (20%) of the protein (Salmeron et al 1994;Scofield et al 1996;Frederick et al 1998;Rathjen et al 1999;Sessa et al 2000;Xiao et al 2003;Wu et al 2004;Bernal et al 2005;de Vries et al 2006). The vast majority (.86%) of the positions that knock out Avr recognition and/or signaling are invariant among the alleles collected from these natural populations.…”

Section: Discussionmentioning

confidence: 99%

“…This dual specificity of Pto may give us some insight into the maintenance of amino acid differentiation among Pto alleles. For the most part, these two Avr proteins appear to bind and activate Pto in a similar way (Kim et al 2002;Bernal et al 2005). However, we recently used a DNA-shuffling approach to generate chimeric Pto proteins and tested these chimeric molecules for AvrPto and AvrPtoB recognition ability .…”

Section: Discussionmentioning

confidence: 99%

Natural Variation in the Pto Disease Resistance Gene Within Species of Wild Tomato (Lycopersicon). II. Population Genetics of Pto

Rose¹,

Michelmore²,

Langley

2007

Genetics

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Disease resistance to the bacterial pathogen Pseudomonas syringae pv. tomato (Pst) in the host species Lycopersicon esculentum, the cultivated tomato, and the closely related L. pimpinellifolium is triggered by the physical interaction between the protein products of the host resistance (R) gene Pto and the pathogen avirulence genes AvrPto and AvrPtoB. Sequence variation at the Pto locus was surveyed in natural populations of seven species of Lycopersicon to test hypotheses of host-parasite coevolution and functional adaptation of the Pto gene. Pto shows significantly higher nonsynonymous polymorphism than 14 other non-R-gene loci in the same samples of Lycopersicon species, while showing no difference in synonymous polymorphism, suggesting that the maintenance of amino acid polymorphism at this locus is mediated by pathogen selection. Also, a larger proportion of ancestral variation is maintained at Pto as compared to these non-R-gene loci. The frequency spectrum of amino acid polymorphisms known to negatively affect Pto function is skewed toward low frequency compared to amino acid polymorphisms that do not affect function or silent polymorphisms. Therefore, the evolution of Pto appears to be influenced by a mixture of both purifying and balancing selection.

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“…Using this technique, Bernal et al [59] fragmented four paralogs of the tomato Pto gene and reannealed the fragments to generate a library of Pto homolog chimeras, similar to chimeras produced by natural sequence exchanges, and retrieved 56 nonredundant combinatorial clones that interacted with AvrPto in Y2H. The study focused on dissecting Pto functional domains, rather than generating novel specificities; however, shuffling has previously been used to enhance protein performance [60], and has the advantage of recombining natural sequence polymorphisms which may constitute functional domains.…”

Section: Artificial Evolution Of Resistancementioning

confidence: 99%

The evolution of resistance genes in multi-protein plant resistance systems

Friedman

Baker

2007

Current Opinion in Genetics & Development

140

114

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SummaryThe genomic perspective aids in integrating the analysis of single resistance (R-) genes into a higher-order model of complex plant resistance systems. The majority of R-genes encode a class of proteins with nucleotide binding (NB) and leucine rich repeat (LRR) domains. Several R-proteins act in multi-protein R-complexes that mediate interaction with pathogen effectors to induce resistance signaling. The complexity of these systems seems to have resulted from multiple rounds of plant-pathogen coevolution. R-gene evolution is thought to be facilitated by the formation of R-gene clusters, which permit sequence exchanges via recombinatorial mispairing and generate high haplotypic diversity. This pattern of evolution may also generate diversity at other loci that contribute to the R-complex. The rate of recombination at R-clusters is not necessarily homogeneous or consistent over evolutionary time: recent evidence suggests that recombination at R-clusters is increased following pathogen infection, suggesting a mechanism that induces temporary genome instability in response to extreme stress. 2DNA methylation and chromatin modifications may allow this instability to be conditionally regulated and targeted to specific genome regions. Knowledge of natural R-gene evolution may contribute to strategies for artificial evolution of novel resistance specificities.

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Functional Analysis of the Plant Disease Resistance Gene Pto Using DNA Shuffling

Cited by 20 publications

References 43 publications

Crystal Structure of the Complex between Pseudomonas Effector AvrPtoB and the Tomato Pto Kinase Reveals Both a Shared and a Unique Interface Compared with AvrPto-Pto

Crystal Structure of the Complex between Pseudomonas Effector AvrPtoB and the Tomato Pto Kinase Reveals Both a Shared and a Unique Interface Compared with AvrPto-Pto

Natural Variation in the Pto Disease Resistance Gene Within Species of Wild Tomato (Lycopersicon). II. Population Genetics of Pto

The evolution of resistance genes in multi-protein plant resistance systems

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