The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response

Verwaaijen B, Alcock TD, Spitzer C, Liu Z, Fiebig A, Bienert MD, Bräutigam A, Bienert GP (2023)
Physiologia Plantarum 175(6): e14088.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Verwaaijen, BartUniBi; Alcock, Thomas David; Spitzer, Christoph; Liu, Zhaojun; Fiebig, Anne; Bienert, Manuela Desiree; Bräutigam, AndreaUniBi ; Bienert, Gerd Patrick
Abstract / Bemerkung
Oilseed rape and other crops of Brassica napus have a high demand for boron (B). Boron deficiencies result in the inhibition of root growth, and eventually premature flower abortion. Understanding the genetic mechanisms underlying flower abortion in B-limiting conditions could provide the basis to enhance B-efficiency and prevent B-deficiency-related yield losses. In this study, we assessed transcriptomic responses to B-deficiency in diverse inflorescence tissues at multiple time points of soil-grown plants that were phenotypically unaffected by B-deficiency until early flowering. Whilst transcript levels of known B transporters were higher in B-deficient samples, these remained remarkably stable as the duration of B-deficiency increased. Meanwhile, GO-term enrichment analysis indicated a growing response resembling that of a pathogen or pest attack, escalating to a huge transcriptome response in shoot heads at mid-flowering. Grouping differentially expressed genes within this tissue into MapMan functional bins indicated enrichment of genes related to wounding, jasmonic acid and WRKY transcription factors. Individual candidate genes for controlling the "flowering-without-seed-setting" phenotype from within MapMan biotic stress bins include those of the metacaspase family, which have been implicated in orchestrating programmed cell death. Overall temporal expression patterns observed here imply a dynamic response to B-deficiency, first increasing expression of B transporters before recruiting various biotic stress-related pathways to coordinate targeted cell death, likely in response to as yet unidentified B-deficiency induced damage-associated molecular patterns (DAMPs). This response indicates new pathways to target and dissect to control B-deficiency-induced flower abortion and to develop more B-efficient crops. © 2023 The Authors. Physiologia Plantarum published by John Wiley & Sons Ltd on behalf of Scandinavian Plant Physiology Society.
Stichworte
Boron; Brassica napus; defence; flower; inflorescence; nutrient; transcriptome
Erscheinungsjahr
2023
Zeitschriftentitel
Physiologia Plantarum
Band
175
Ausgabe
6
Art.-Nr.
e14088
eISSN
1399-3054
Page URI
https://pub.uni-bielefeld.de/record/2985591

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Verwaaijen B, Alcock TD, Spitzer C, et al. The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response. Physiologia Plantarum . 2023;175(6): e14088.
Verwaaijen, B., Alcock, T. D., Spitzer, C., Liu, Z., Fiebig, A., Bienert, M. D., Bräutigam, A., et al. (2023). The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response. Physiologia Plantarum , 175(6), e14088. https://doi.org/10.1111/ppl.14088
Verwaaijen, Bart, Alcock, Thomas David, Spitzer, Christoph, Liu, Zhaojun, Fiebig, Anne, Bienert, Manuela Desiree, Bräutigam, Andrea, and Bienert, Gerd Patrick. 2023. “The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response”. Physiologia Plantarum 175 (6): e14088.
Verwaaijen, B., Alcock, T. D., Spitzer, C., Liu, Z., Fiebig, A., Bienert, M. D., Bräutigam, A., and Bienert, G. P. (2023). The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response. Physiologia Plantarum 175:e14088.
Verwaaijen, B., et al., 2023. The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response. Physiologia Plantarum , 175(6): e14088.
B. Verwaaijen, et al., “The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response”, Physiologia Plantarum , vol. 175, 2023, : e14088.
Verwaaijen, B., Alcock, T.D., Spitzer, C., Liu, Z., Fiebig, A., Bienert, M.D., Bräutigam, A., Bienert, G.P.: The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response. Physiologia Plantarum . 175, : e14088 (2023).
Verwaaijen, Bart, Alcock, Thomas David, Spitzer, Christoph, Liu, Zhaojun, Fiebig, Anne, Bienert, Manuela Desiree, Bräutigam, Andrea, and Bienert, Gerd Patrick. “The Brassica napus boron deficient inflorescence transcriptome resembles a wounding and infection response”. Physiologia Plantarum 175.6 (2023): e14088.
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