Discovery of three Bemisia tabaci effectors and their effect on gene expression in planta

Author:

van Kleeff Paula J. M.1,Mastop Marieke2,Sun Pulu2,Dangol Sarmina2,van Doore Eva2,Dekker Henk L.3,Kramer Gertjan4,Lee Soohyun5,Ryu Choong-Min6,de Vos Martin7,Schuurink Rob8

Affiliation:

1. University of Amsterdam, 1234, Plant Physiology, Sciencepark 904, Amsterdam, Netherlands, 1098 XH;

2. University of Amsterdam, 1234, Plant Physiology, Amsterdam, Noord-Holland, Netherlands;

3. University of Amsterdam, 1234, Laboratory for Mass Spectrometry of Biomolecules, Amsterdam, Noord-Holland, Netherlands;

4. University of Amsterdam, 1234, Laboratory for Mass Spectrometry of Biomolecules, Amsterdam, Noord-Holland, Netherlands;

5. Korea Research Institute of Bioscience and Biotechnology, Lab of Microbial Genomics, 111 Gwahangno, Yuseong-gu,Daejeon, S.Korea, Daejeon, Korea (the Republic of), 305-806;

6. Korea Research Institute of Bioscience and Biotechnology, Lab of Microbial Genomics, Systems Microbiology Research Center, Yuseong, Daejeon, Korea, Democratic People's Republic of, 305-333, ;

7. Keygene NV, 10195, Wageningen, Gelderland, Netherlands;

8. University of Amsterdam, 1234, Plant Physiology, Science Park 904, Amsterdam, Netherlands, 1098 XH;

Abstract

Bemisia tabaci (whitefly) is a polyphagous agro-economical pest species complex. Two members of this species complex, Mediterranean (MED) and Middle-East-Asia Minor 1 (MEAM1), have a worldwide distribution and have shown to manipulate plant defences through effectors. In this study, we used three different strategies to identify three MEAM1 proteins that can act as effectors. Effector B1 was identified using a bioinformatics-driven effector-mining strategy, whereas effectors S1 and P1 were identified in the saliva of whiteflies collected from artificial diet and in phloem exudate of tomato on which nymphs where feeding, respectively. These three effectors were B. tabaci specific and able to increase whitefly fecundity when transiently expressed in tobacco plants (Nicotiana tabacum). Moreover, they reduced growth of Pseudomonas syringae pv. tabaci in N. benthamiana. All three effectors changed gene expression in planta, and B1 and S1 also changed phytohormone levels. Gene ontology and KEGG pathway enrichment analysis pinpointed plant-pathogen interaction and photosynthesis as the main enriched pathways for all three effectors. Our data thus shows the discovery and validation of three new B. tabaci MEAM1 effectors that increase whitefly fecundity and modulate plant immunity.

Publisher

Scientific Societies

Subject

Agronomy and Crop Science,General Medicine,Physiology

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