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Transcriptomic Insights into the Responses in Leaves Storing Lipid Organelles under Different Irradiances

Authors :
Dorothy Maher
Greg Bryan
Tracey Crowther
Richard C. Macknight
Zac Beechey-Gradwell
Shona C. Brock
Philip Anderson
Somrutai Winichayakul
Xiuying Zou
Kim Richardson
Hong Xue
Robyn Lee
Nicholas John Roberts
Luke Cooney
Publication Year :
2021
Publisher :
Cold Spring Harbor Laboratory, 2021.

Abstract

To increase the nutritional value of forage, transgenic ryegrass known asHighMetabolizableEnergy (HME) were previously generated that co-express cysteine-oleosin and diacylglycerol O-acyltransferase. HME not only accumulate lipids in the leaf but also has elevated CO2assimilation and increased biomass. Shading is one of the most influencing factors for ryegrass growth environments particularly in swards. The aim of this study, therefore, was to determine the influence of irradiance levels on photosynthesis and gene expression in the HME leaves when compared with their corresponding non-transformant (NT). Under low light (150-250 µmol m-2s-1) and standard light (600-1000 µmol m-2s-1), the HME accumulated more lipid than NT. The previously reported elevated photosynthesis and increased biomass was observed when the HME were grown under standard light but not under low light. Under both light conditions, compared to NT, the HME had upregulated a number of transcripts involved in lipid metabolism, light capturing, photosynthesis, and sugar signalling network while downregulated genes participated in sugar and fructan biosynthesis. We further discuss how the HME differentially manipulated several genes other metabolic pathways including maintenance of redox homeostasis. Combined, the data suggests that the increased photosynthesis capacity in the HME likely corresponds to an increase of micro-lipid sink strength; these are influenced by available light energy and may be related to diffusional and biochemical activities of stomata. Overall, this work provides a clearly understanding of the changes in molecular and biochemical mechanisms underlying the carbon storing as leaf lipid sink of the HME ryegrass.One sentence summaryShading led to increase leaf lipid accumulation but limit the greater photosynthesis trait of high lipid ryegrass which may be related to limitation of biochemical activities of stomata.

Details

Database :
OpenAIRE
Accession number :
edsair.doi...........28750e4b5d4535c5d8a77225addd5e78