Identification of transcriptional modules linked to the drought response of Brassica napus during seed development and their mitigation by early biotic stress

In order to capture the drought impacts on seed quality acquisition in Brassica napus and its potential interaction with early biotic stress, seeds of the ‘Express’ genotype of oilseed rape were characterized from late embryogenesis to full maturity from plants submitted to reduced watering (WS) wit...

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Published in	Physiologia plantarum Vol. 176; no. 1; pp. e14130 - n/a
Main Authors	Bianchetti, Grégoire, Clouet, Vanessa, Legeai, Fabrice, Baron, Cécile, Gazengel, Kévin, Vu, Benoit Ly, Baud, Sébastien, To, Alexandra, Manzanares‐Dauleux, Maria J., Buitink, Julia, Nesi, Nathalie
Format	Journal Article
Language	English
Published	Oxford, UK Blackwell Publishing Ltd 01.01.2024 Wiley Subscription Services, Inc Wiley
Series	Physiologia Plantarum
Subjects	Brassica Brassica napus Brassica napus - genetics Brassica napus - physiology Clubroot Drought Droughts Embryogenesis Embryonic growth stage Enrichment Environmental impact Gene expression Gene Expression Regulation, Plant Genotypes Heat shock proteins Inoculation Life Sciences Lipids Modules Nutrient content Oilseeds Plant Proteins - genetics Plant Proteins - metabolism Plasmodiophora brassicae Plasmodiophorida - physiology Rape plants Rapeseed Seeds Seeds - genetics Seeds - growth & development Storage proteins Stress, Physiological - genetics Transcriptome - genetics Transcriptomes Up-regulation Water shortages
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Abstract	In order to capture the drought impacts on seed quality acquisition in Brassica napus and its potential interaction with early biotic stress, seeds of the ‘Express’ genotype of oilseed rape were characterized from late embryogenesis to full maturity from plants submitted to reduced watering (WS) with or without pre‐occurring inoculation by the telluric pathogen Plasmodiophora brassicae (Pb + WS or Pb, respectively), and compared to control conditions (C). Drought as a single constraint led to significantly lower accumulation of lipids, higher protein content and reduced longevity of the WS‐treated seeds. In contrast, when water shortage was preceded by clubroot infection, these phenotypic differences were completely abolished despite the upregulation of the drought sensor RD20. A weighted gene co‐expression network of seed development in oilseed rape was generated using 72 transcriptomes from developing seeds from the four treatments and identified 33 modules. Module 29 was highly enriched in heat shock proteins and chaperones that showed a stronger upregulation in Pb + WS compared to the WS condition, pointing to a possible priming effect by the early P. brassicae infection on seed quality acquisition. Module 13 was enriched with genes encoding 12S and 2S seed storage proteins, with the latter being strongly upregulated under WS conditions. Cis‐element promotor enrichment identified PEI1/TZF6, FUS3 and bZIP68 as putative regulators significantly upregulated upon WS compared to Pb + WS. Our results provide a temporal co‐expression atlas of seed development in oilseed rape and will serve as a resource to characterize the plant response towards combinations of biotic and abiotic stresses.
AbstractList	In order to capture the drought impacts on seed quality acquisition in Brassica napus and its potential interaction with early biotic stress, seeds of the ‘Express’ genotype of oilseed rape were characterized from late embryogenesis to full maturity from plants submitted to reduced watering (WS) with or without pre‐occurring inoculation by the telluric pathogen Plasmodiophora brassicae (Pb + WS or Pb, respectively), and compared to control conditions (C). Drought as a single constraint led to significantly lower accumulation of lipids, higher protein content and reduced longevity of the WS‐treated seeds. In contrast, when water shortage was preceded by clubroot infection, these phenotypic differences were completely abolished despite the upregulation of the drought sensor RD20. A weighted gene co‐expression network of seed development in oilseed rape was generated using 72 transcriptomes from developing seeds from the four treatments and identified 33 modules. Module 29 was highly enriched in heat shock proteins and chaperones that showed a stronger upregulation in Pb + WS compared to the WS condition, pointing to a possible priming effect by the early P. brassicae infection on seed quality acquisition. Module 13 was enriched with genes encoding 12S and 2S seed storage proteins, with the latter being strongly upregulated under WS conditions. Cis‐element promotor enrichment identified PEI1/TZF6, FUS3 and bZIP68 as putative regulators significantly upregulated upon WS compared to Pb + WS. Our results provide a temporal co‐expression atlas of seed development in oilseed rape and will serve as a resource to characterize the plant response towards combinations of biotic and abiotic stresses. Abstract In order to capture the drought impacts on seed quality acquisition in Brassica napus and its potential interaction with early biotic stress, seeds of the ‘Express’ genotype of oilseed rape were characterized from late embryogenesis to full maturity from plants submitted to reduced watering (WS) with or without pre‐occurring inoculation by the telluric pathogen Plasmodiophora brassicae (Pb + WS or Pb, respectively), and compared to control conditions (C). Drought as a single constraint led to significantly lower accumulation of lipids, higher protein content and reduced longevity of the WS‐treated seeds. In contrast, when water shortage was preceded by clubroot infection, these phenotypic differences were completely abolished despite the upregulation of the drought sensor RD20 . A weighted gene co‐expression network of seed development in oilseed rape was generated using 72 transcriptomes from developing seeds from the four treatments and identified 33 modules. Module 29 was highly enriched in heat shock proteins and chaperones that showed a stronger upregulation in Pb + WS compared to the WS condition, pointing to a possible priming effect by the early P. brassicae infection on seed quality acquisition. Module 13 was enriched with genes encoding 12S and 2S seed storage proteins, with the latter being strongly upregulated under WS conditions. Cis‐element promotor enrichment identified PEI1/TZF6, FUS3 and bZIP68 as putative regulators significantly upregulated upon WS compared to Pb + WS. Our results provide a temporal co‐expression atlas of seed development in oilseed rape and will serve as a resource to characterize the plant response towards combinations of biotic and abiotic stresses.
Author	Bianchetti, Grégoire Gazengel, Kévin Nesi, Nathalie Manzanares‐Dauleux, Maria J. Buitink, Julia Clouet, Vanessa Baud, Sébastien Vu, Benoit Ly Legeai, Fabrice Baron, Cécile To, Alexandra
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Snippet	In order to capture the drought impacts on seed quality acquisition in Brassica napus and its potential interaction with early biotic stress, seeds of the... Abstract In order to capture the drought impacts on seed quality acquisition in Brassica napus and its potential interaction with early biotic stress, seeds of...
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SubjectTerms	Brassica Brassica napus Brassica napus - genetics Brassica napus - physiology Clubroot Drought Droughts Embryogenesis Embryonic growth stage Enrichment Environmental impact Gene expression Gene Expression Regulation, Plant Genotypes Heat shock proteins Inoculation Life Sciences Lipids Modules Nutrient content Oilseeds Plant Proteins - genetics Plant Proteins - metabolism Plasmodiophora brassicae Plasmodiophorida - physiology Rape plants Rapeseed Seeds Seeds - genetics Seeds - growth & development Storage proteins Stress, Physiological - genetics Transcriptome - genetics Transcriptomes Up-regulation Water shortages
Title	Identification of transcriptional modules linked to the drought response of Brassica napus during seed development and their mitigation by early biotic stress
URI	https://onlinelibrary.wiley.com/doi/abs/10.1111%2Fppl.14130 https://www.ncbi.nlm.nih.gov/pubmed/38842416 https://www.proquest.com/docview/2931389281 https://www.proquest.com/docview/3065273214 https://hal.science/hal-04443649
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