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Literature DB >> 29160592

Sugar flux and signaling in plant-microbe interactions.

Margaret Bezrutczyk^1,2, Jungil Yang^1,2, Joon-Seob Eom^1,2, Matthew Prior³, Davide Sosso⁴, Thomas Hartwig^1,2, Boris Szurek⁵, Ricardo Oliva⁶, Casiana Vera-Cruz⁶, Frank F White⁷, Bing Yang⁸, Wolf B Frommer^1,2,9.

Abstract

Plant breeders have developed crop plants that are resistant to pests, but the continual evolution of pathogens creates the need to iteratively develop new control strategies. Molecular tools have allowed us to gain deep insights into disease responses, allowing for more efficient, rational engineering of crops that are more robust or resistant to a greater number of pathogen variants. Here we describe the roles of SWEET and STP transporters, membrane proteins that mediate transport of sugars across the plasma membrane. We discuss how these transporters may enhance or restrict disease through controlling the level of nutrients provided to pathogens and whether the transporters play a role in sugar signaling for disease resistance. This review indicates open questions that require further research and proposes the use of genome editing technologies for engineering disease resistance.

Entities: Chemical Gene

Keywords: zzm321990Arabidopsis thalianazzm321990; zzm321990Oryza sativazzm321990; Triticum sp; nutrition; pathogen; signaling; sucrose; symbiosis; transport

Mesh：

Substances：

Year: 2017 PMID： 29160592 DOI： 10.1111/tpj.13775

Source DB: PubMed Journal: Plant J ISSN： 0960-7412 Impact factor: 6.417

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Cited

54 in total

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3. ABA-Induced Sugar Transporter TaSTP6 Promotes Wheat Susceptibility to Stripe Rust.

Authors: Baoyu Huai; Qian Yang; Yingrui Qian; Wenhao Qian; Zhensheng Kang; Jie Liu
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Review 4. Structure, evolution and diverse physiological roles of SWEET sugar transporters in plants.

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Review 5. Alterations in plant sugar metabolism: signatory of pathogen attack.

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6. Xa7, a new executor R gene that confers durable and broad-spectrum resistance to bacterial blight disease in rice.

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Journal: Plant Commun Date: 2021-01-09

7. Interaction of roses with a biotrophic and a hemibiotrophic leaf pathogen leads to differences in defense transcriptome activation.

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