Patrick Römer scite author profile

Plant disease resistance (R) proteins recognize matching pathogen avirulence proteins. Alleles of the pepper R gene Bs3 mediate recognition of the Xanthomonas campestris pv. vesicatoria (Xcv) type III effector protein AvrBs3 and its deletion derivative AvrBs3Deltarep16. Pepper Bs3 and its allelic variant Bs3-E encode flavin monooxygenases with a previously unknown structure and are transcriptionally activated by the Xcv effector proteins AvrBs3 and AvrBs3Deltarep16, respectively. We found that recognition specificity resides in the Bs3 and Bs3-E promoters and is determined by binding of AvrBs3 or AvrBs3Deltarep16 to a defined promoter region. Our data suggest a recognition mechanism in which the Avr protein binds and activates the promoter of the cognate R gene.

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Regulation of selected genome loci using de novo-engineered transcription activator-like effector (TALE)-type transcription factors

Morbitzer

Römer

Boch

et al. 2010

Proc. Natl. Acad. Sci. U.S.A.

262

193

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Proteins that can be tailored to bind desired DNA sequences are key tools for molecular biology. Previous studies suggested that DNAbinding specificity of transcription activator-like effectors (TALEs) from the bacterial genus Xanthomonas is defined by repeat-variable diresidues (RVDs) of tandem-arranged 34/35-amino acid repeat units. We have studied chimeras of two TALEs differing in RVDs and non-RVDs and found that, in contrast to the critical contributions by RVDs, nonRVDs had no major effect on the DNA-binding specificity of the chimeras. This finding suggests that one needs only to modify the RVDs to generate designer TALEs (dTALEs) to activate transcription of userdefined target genes. We used the scaffold of the TALE AvrBs3 and changed its RVDs to match either the tomato Bs4, the Arabidopsis EGL3, or the Arabidopsis KNAT1 promoter. All three dTALEs transcriptionally activated the desired promoters in a sequence-specific manner as mutations within the targeted DNA sequences abolished promoter activation. This study is unique in showing that chromosomal loci can be targeted specifically by dTALEs. We also engineered two AvrBs3 derivatives with four additional repeat units activating specifically either the pepper Bs3 or UPA20 promoter. Because AvrBs3 activates both promoters, our data show that addition of repeat units facilitates TALE-specificity fine-tuning. Finally, we demonstrate that the RVD NK mediates specific interaction with G nucleotides that thus far could not be targeted specifically by any known RVD type. In summary, our data demonstrate that the TALE scaffold can be tailored to target user-defined DNA sequences in whole genomes.zinc-finger proteins | AvrBs4 | AvrXa27

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Promoter elements of rice susceptibility genes are bound and activated by specific TAL effectors from the bacterial blight pathogen, Xanthomonas oryzae pv. oryzae

et al. 2010

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Summary• Plant pathogenic bacteria of the genus Xanthomonas inject transcription activator-like effector (TALe) proteins that bind to and activate host promoters, thereby promoting disease or inducing plant defense. TALes bind to corresponding UPT (up-regulated by TALe) promoter boxes via tandemly arranged 34 ⁄ 35-amino acid repeats. Recent studies uncovered the TALe code in which two amino acid residues of each repeat define specific pairing to UPT boxes.• Here we employed the TALe code to predict potential UPT boxes in TALeinduced host promoters and analyzed these via b-glucuronidase (GUS) reporter and electrophoretic mobility shift assays (EMSA).• We demonstrate that the Xa13, OsTFX1 and Os11N3 promoters from rice are induced directly by the Xanthomonas oryzae pv. oryzae TALes PthXo1, PthXo6 and AvrXa7, respectively. We identified and functionally validated a UPT box in the corresponding rice target promoter for each TALe and show that box mutations suppress TALe-mediated promoter activation. Finally, EMSA demonstrate that code-predicted UPT boxes interact specifically with corresponding TALes.• Our findings show that variations in the UPT boxes of different rice accessions correlate with susceptibility or resistance of these accessions to the bacterial blight pathogen.

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A single plant resistance gene promoter engineered to recognize multiple TAL effectors from disparate pathogens

Römer

Recht

Lahaye

2009

Proc. Natl. Acad. Sci. U.S.A.

141

126

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Plant pathogenic bacteria of the genus Xanthomonas inject transcription-activator like (TAL) effector proteins that manipulate the hosts' transcriptome to promote disease. However, in some cases plants take advantage of this mechanism to trigger defense responses. For example, transcription of the pepper Bs3 and rice Xa27 resistance (R) genes are specifically activated by the respective TAL effectors AvrBs3 from Xanthomonas campestris pv. vesicatoria (Xcv), and AvrXa27 from X. oryzae pv. oryzae (Xoo). Recognition of AvrBs3 was shown to be mediated by interaction with the corresponding UPT (UPregulated by TAL effectors) box UPT AvrBs3 present in the promoter R gene Bs3 from the dicot pepper. In contrast, it was not known how the Xoo TAL effector AvrXa27 transcriptionally activates the matching R gene Xa27 from the monocot rice. Here we identified a 16-bp UPT AvrXa27 box present in the rice Xa27 promoter that when transferred into the Bs3 promoter confers AvrXa27-dependent inducibility. We demonstrate that polymorphisms between the UPT AvrXa27 box of the AvrXa27-inducible Xa27 promoter and the corresponding region of the noninducible xa27 promoter account for their distinct inducibility and affinity, with respect to AvrXa27. Moreover, we demonstrate that three functionally distinct UPT boxes targeted by separate TAL effectors retain their function and specificity when combined into one promoter. Given that many economically important xanthomonads deliver multiple TAL effectors, the engineering of R genes capable of recognizing multiple TAL effectors provides a potential approach for engineering broad spectrum and durable disease resistance.AvrBs3 ͉ AvrXa27 ͉ transcription-activator like effector proteins ͉ Xanthomonas

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Recognition of AvrBs3-Like Proteins Is Mediated by Specific Binding to Promoters of Matching Pepper Bs3 Alleles

et al. 2009

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The pepper (Capsicum annuum) bacterial spot (Bs) resistance gene Bs3 and its allelic variant Bs3-E mediate recognition of the Xanthomonas campestris pv vesicatoria type III effector protein AvrBs3 and its deletion derivative AvrBs3Drep16. Recognition specificity resides in the Bs3 and Bs3-E promoters and is determined by a defined promoter region, the UPA (for up-regulated by AvrBs3) box. Using site-directed mutagenesis, we defined the exact boundaries of the UPA AvrBs3 box of the Bs3 promoter and the UPA AvrBs3Drep16 box of the Bs3-E promoter and show that both boxes overlap by at least 11 nucleotides. Despite partial sequence identity, the UPA AvrBs3 box and the UPA AvrBs3Drep16 box were bound specifically by the corresponding AvrBs3 and AvrBs3Drep16 proteins, respectively, suggesting that selective promoter binding of AvrBs3-like proteins is the basis for promoter activation specificity. We also demonstrate that the UPA AvrBs3 box retains its functionality at different positions within the pepper Bs3 promoter and confers AvrBs3 inducibility in a novel promoter context. Notably, the transfer of the UPA AvrBs3 box to different promoter locations is always correlated with a new transcriptional start site. The analysis of naturally occurring Bs3 alleles revealed many pepper accessions that encode a nonfunctional Bs3 variant. These accessions showed no apparent abnormalities, supporting the supposition that Bs3 functions only in disease resistance and not in other developmental or physiological processes.

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Patrick Römer

Plant Pathogen Recognition Mediated by Promoter Activation of the Pepper Bs3 Resistance Gene

Regulation of selected genome loci using de novo-engineered transcription activator-like effector (TALE)-type transcription factors

Promoter elements of rice susceptibility genes are bound and activated by specific TAL effectors from the bacterial blight pathogen, Xanthomonas oryzae pv. oryzae

A single plant resistance gene promoter engineered to recognize multiple TAL effectors from disparate pathogens

Recognition of AvrBs3-Like Proteins Is Mediated by Specific Binding to Promoters of Matching Pepper Bs3 Alleles

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