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Agrobacterium expressing a type III secretion system delivers Pseudomonas effectors into plant cells to enhance transformation

Vidhyavathi Raman, Clemencia M. Rojas, Balaji Vasudevan, Kevin Dunning, Jaydeep Kolape, Sunhee Oh, Jianfei Yun, Lishan Yang, Guangming Li, Bikram Datt Pant, Qingzhen Jiang, Kirankumar S. Mysore

2022Nature Communications103 citationsDOIOpen Access PDF

Abstract

Agrobacterium-mediated plant transformation (AMT) is the basis of modern-day plant biotechnology. One major drawback of this technology is the recalcitrance of many plant species/varieties to Agrobacterium infection, most likely caused by elicitation of plant defense responses. Here, we develop a strategy to increase AMT by engineering Agrobacterium tumefaciens to express a type III secretion system (T3SS) from Pseudomonas syringae and individually deliver the P. syringae effectors AvrPto, AvrPtoB, or HopAO1 to suppress host defense responses. Using the engineered Agrobacterium, we demonstrate increase in AMT of wheat, alfalfa and switchgrass by ~250%-400%. We also show that engineered A. tumefaciens expressing a T3SS can deliver a plant protein, histone H2A-1, to enhance AMT. This strategy is of great significance to both basic research and agricultural biotechnology for transient and stable transformation of recalcitrant plant species/varieties and to deliver proteins into plant cells in a non-transgenic manner.

Topics & Concepts

Pseudomonas syringaeAgrobacteriumAgrobacterium tumefaciensTransformation (genetics)EffectorBiologyType three secretion systemGenetically modified cropsArabidopsisTransgeneCell biologyBiotechnologyBacteriaVirulenceGeneticsGeneMutantPlant tissue culture and regenerationTransgenic Plants and ApplicationsPlant Parasitism and Resistance
Agrobacterium expressing a type III secretion system delivers Pseudomonas effectors into plant cells to enhance transformation | Litcius