Author
Listed:
- Kevin L. Cox
(Texas A&M University
Institute for Plant Genomics and Biotechnology, Texas A&M University)
- Fanhong Meng
(Texas A&M University
Institute for Plant Genomics and Biotechnology, Texas A&M University)
- Katherine E. Wilkins
(Plant Pathology and Plant-Microbe Biology Section, School of Integrative Plant Science, Cornell University)
- Fangjun Li
(Texas A&M University
Institute for Plant Genomics and Biotechnology, Texas A&M University)
- Ping Wang
(Texas A&M University
Institute for Plant Genomics and Biotechnology, Texas A&M University)
- Nicholas J. Booher
(Plant Pathology and Plant-Microbe Biology Section, School of Integrative Plant Science, Cornell University)
- Sara C. D. Carpenter
(Plant Pathology and Plant-Microbe Biology Section, School of Integrative Plant Science, Cornell University)
- Li-Qing Chen
(School of Integrative Biology, University of Illinois at Urbana-Champaign)
- Hui Zheng
(Plant Pathology and Plant-Microbe Biology Section, School of Integrative Plant Science, Cornell University)
- Xiquan Gao
(Institute for Plant Genomics and Biotechnology, Texas A&M University
Texas A&M University
State Key Laboratory of Crop Genetics and Germplasm Enhancement, College of Agriculture, Nanjing Agricultural University)
- Yi Zheng
(Boyce Thompson Institute, Cornell University)
- Zhangjun Fei
(Boyce Thompson Institute, Cornell University)
- John Z. Yu
(USDA-ARS, Southern Plains Agricultural Research Center)
- Thomas Isakeit
(Texas A&M University)
- Terry Wheeler
(Texas A&M University
Texas Agricultural Experiment Station)
- Wolf B. Frommer
(Carnegie Science
Present address: Institute of Molecular Physiology, Heinrich Heine University Düsseldorf and Max Planck Institute for Plant Breeding Research, 50829 Köln, Germany)
- Ping He
(Institute for Plant Genomics and Biotechnology, Texas A&M University
Texas A&M University)
- Adam J. Bogdanove
(Plant Pathology and Plant-Microbe Biology Section, School of Integrative Plant Science, Cornell University)
- Libo Shan
(Texas A&M University
Institute for Plant Genomics and Biotechnology, Texas A&M University)
Abstract
Transcription activator-like (TAL) effectors from Xanthomonas citri subsp. malvacearum (Xcm) are essential for bacterial blight of cotton (BBC). Here, by combining transcriptome profiling with TAL effector-binding element (EBE) prediction, we show that GhSWEET10, encoding a functional sucrose transporter, is induced by Avrb6, a TAL effector determining Xcm pathogenicity. Activation of GhSWEET10 by designer TAL effectors (dTALEs) restores virulence of Xcm avrb6 deletion strains, whereas silencing of GhSWEET10 compromises cotton susceptibility to infections. A BBC-resistant line carrying an unknown recessive b6 gene bears the same EBE as the susceptible line, but Avrb6-mediated induction of GhSWEET10 is reduced, suggesting a unique mechanism underlying b6-mediated resistance. We show via an extensive survey of GhSWEET transcriptional responsiveness to different Xcm field isolates that additional GhSWEETs may also be involved in BBC. These findings advance our understanding of the disease and resistance in cotton and may facilitate the development cotton with improved resistance to BBC.
Suggested Citation
Kevin L. Cox & Fanhong Meng & Katherine E. Wilkins & Fangjun Li & Ping Wang & Nicholas J. Booher & Sara C. D. Carpenter & Li-Qing Chen & Hui Zheng & Xiquan Gao & Yi Zheng & Zhangjun Fei & John Z. Yu &, 2017.
"TAL effector driven induction of a SWEET gene confers susceptibility to bacterial blight of cotton,"
Nature Communications, Nature, vol. 8(1), pages 1-14, August.
Handle:
RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15588
DOI: 10.1038/ncomms15588
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