Acetylation of a fungal effector that translocates host PR1 facilitates virulence
- Engineering Research Center for Precision Pest Management for Fruits and Vegetables of Qingdao, Shandong Province Key Laboratory of Applied Mycology, College of Plant Health and Medicine, Qingdao Agricultural University, China
- College of Science and Information, Qingdao Agricultural University, China
- School of Agriculture and Biology, Shanghai Jiao Tong University, China
- Department of Biochemistry, University of Cambridge, United Kingdom
- Department of Plant Pathology, University of Florida, United States
Decision letter
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Jian-Min ZhouReviewing Editor; Chinese Academy of Sciences, China
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Detlef WeigelSenior Editor; Max Planck Institute for Biology Tübingen, Germany
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Jian-Min ZhouReviewer; Chinese Academy of Sciences, China
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Jianfeng LiReviewer; Sun Yat-sen University, China
Our editorial process produces two outputs: (i) public reviews designed to be posted alongside the preprint for the benefit of readers; (ii) feedback on the manuscript for the authors, including requests for revisions, shown below. We also include an acceptance summary that explains what the editors found interesting or important about the work.
Decision letter after peer review:
Thank you for submitting your article "Acetylation of a fungal effector that translocates host PR1 facilitates virulence" for consideration by eLife. Your article has been reviewed by 2 peer reviewers, including Jian-Min Zhou as Reviewing Editor and Reviewer #1, and the evaluation has been overseen by Detlef Weigel as the Senior Editor. The following individual involved in review of your submission has agreed to reveal their identity: Jianfeng Li (Reviewer #2).
The reviewers have discussed their reviews with one another, and the Reviewing Editor has drafted this to help you prepare a revised submission.
Essential revisions:
The claim that FolSpv1-mediated translocation of SlPR1 into the nucleus impedes CAPE1 release needs to be further strengthened with additional data. Otherwise the claim needs to be toned down.
Reviewer #1 (Recommendations for the authors):
The description of methods is not complete. How was in vitro protein uptake done? How was nuclear protein fractionation done?
Reviewer #2 (Recommendations for the authors):
1. Ideally, the authors may want to test whether the bacterially expressed SlPR1 proteins can impair the Fol growth.
2. It is better to testify the localization of FolSvp1-SlPR1 interaction by BiFC using FolSvp1-overexpression Fol strain and SlPR1-overexpression transgenic tomato plants, because this is more close to physiological conditions.
3. The FolArd1 overexpression Fol strain is expected to be more virulent if the authors' model is correct. It is better to verify this point.
4. "Western analyses" should be "Western blot analyses".
5. Figure 1F, why the R mutant of FolSvp1 shows an equal abundance as WT and the Q mutant?
6. Figure 4F, why the FolSvp1 has no basal acetylation after being pulled down.
7. Figure 5B, NLS2 in the diagram was mistakenly labeled as NLS1.
https://doi.org/10.7554/eLife.82628.sa1Author response
Reviewer #1 (Recommendations for the authors):
The description of methods is not complete. How was in vitro protein uptake done? How was nuclear protein fractionation done?
We have added this information to the revised manuscript (lines 652-659).
Reviewer #2 (Recommendations for the authors):
1. Ideally, the authors may want to test whether the bacterially expressed SlPR1 proteins can impair the Fol growth.
We have discussed this possibility and stated that additional experiments are required in future studies in the revised manuscript (lines 436-444).
2. It is better to testify the localization of FolSvp1-SlPR1 interaction by BiFC using FolSvp1-overexpression Fol strain and SlPR1-overexpression transgenic tomato plants, because this is more close to physiological conditions.
Thank you for this excellent suggestion. We have stated that the BiFC assays performed with N. benthamiana leaves might not completely mimic the physiological conditions and that new analyses using the FolSvp1-overexpression Fol strain and the SlPR1-overexpression tomato would greatly strengthen our conclusions in the revised manuscript (lines 439-444).
3. The FolArd1 overexpression Fol strain is expected to be more virulent if the authors' model is correct. It is better to verify this point.
As shown in Figures 1-3, FolSvp1 is largely acetylated in the presence of tomato roots, and we guess that FolArd1 overexpression will have little effect on Fol virulence. We would like to verify this point in future studies.
4. "Western analyses" should be "Western blot analyses".
Changes have been made (lines 135 and 185).
5. Figure 1F, why the R mutant of FolSvp1 shows an equal abundance as WT and the Q mutant?
We loaded the same amount of the WT and mutant FolSvp1 proteins to compare their acetylation level.
6. Figure 4F, why the FolSvp1 has no basal acetylation after being pulled down.
Only in the presence of tomato roots, FolSvp1 is acetylated and then stabilized. To investigate the effect of FolArd1, we pulled down FolSvp1 lack of acetylation from mycelia in the absence of tomato roots. We have indicated this information in the figure legends (lines 1041-1042).
7. Figure 5B, NLS2 in the diagram was mistakenly labeled as NLS1.
Change has been made in the revised manuscript.
https://doi.org/10.7554/eLife.82628.sa2Download links
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Acetylation of a fungal effector that translocates host PR1 facilitates virulence
eLife 11:e82628.
https://doi.org/10.7554/eLife.82628
