Tree Peony Species as an Efficient Source for α-Linolenic Acid Production

Xie, Lihang H., Zhang, Qingyu, Kilaru, Aruna, Zhang, Yanlong

01 January 2020

No description available.

tree peony species

α-linolenic acid production

Biological Sciences

Biology

Tree Peony Species Are a Novel Resource for Production of α-Linolenic Acid

Kilaru, Aruna, Xie, Lihang H., Zhang, Qingyu, Zhang, Yanlong

01 January 2019

Tree peony is known worldwide for its excellent ornamental and medical values, but recent reports that their seeds contain over 40% α-linolenic acid (ALA), an essential fatty acid for humans drew additional interest of biochemists. To understand the key factors that contribute to this rich accumulation of ALA, we carried out a comprehensive study of oil accumulation in developing seeds of nine wild tree peony species. The fatty acid content and composition was highly variable among the nine species; however, we selected a high- (P. rockii) and low-oil (P. lutea) accumulating species for a comparative transcriptome analysis. Similar to other oilseed transcriptomic studies, upregulation of select genes involved in plastidial fatty acid synthesis, and acyl editing, desaturation and triacylglycerol assembly in the endoplasmic reticulum was noted in seeds of P. rockii relative to P. lutea. Also, in association with the ALA content, transcript levels for fatty acid desaturases (SAD, FAD2 and FAD3), which encode for enzymes necessary for polyunsaturated fatty acid synthesis were higher in P. rockii compared to P. lutea. We further showed that the overexpression of PrFAD2 and PrFAD3 in Arabidopsis increased linoleic and α-linolenic acid content, respectively and modulated their final ratio in the seed oil. In conclusion, we identified the key steps that contribute to efficient ALA synthesis and validated the necessary desaturases in P. rockii that are responsible for not only increasing oil content but also modulating 18:2/18:3 ratio in seeds. Together, these results will aid to improve essential fatty acid content in seeds of tree peonies and other crops of agronomic interest.

tree peony species

α-linolenic acid production

Biological Sciences

Biology

Tree Peony Species as an Efficient Source for α-Linolenic Acid Production

Xie, Lihang H., Zhang, Qingyu, Kilaru, Aruna, Zhang, Yanlong

21 July 2019

The increasing need for healthy edible oil has driven us to identify α-linolenic acid (ALA)-rich species and identify key biochemical steps in ALA synthesis. Seeds of tree peony species are rich in unsaturated fatty acid content with > 40% ALA in the total fatty acid. However, fatty acid content and composition is variable among the tree peony germplasm. To this extent, a comparative study was carried out to identify the key genes responsible for differential oil accumulation among nine wild tree peony species. Subsequent to analyzing fatty acid content and composition of the seeds from nine tree peony species, a high- (P. rockii) and low-oil (P. lutea) accumulating species were selected for transcriptome analysis. Gene expression analysis revealed upregulation of select genes involved in plastidial fatty acid synthesis, and acyl editing, desaturation and triacylglycerol assembly in the endoplasmic reticulum in seeds of P. rockii relative to P. lutea. Also, in association with ALA content in seeds, transcript levels for fatty acid desaturases (SAD, FAD2 and FAD3), which encode for enzymes necessary for polyunsaturated fatty acid synthesis were higher in P. rockii compared to P. lutea. Additionally, we showed that the overexpression of PrFAD2 and PrFAD3 in Arabidopsis increased linoleic and α-linolenic acid content, respectively and modulated their final ratio in the seed oil. In conclusion, we identified the key steps that contribute to efficient ALA synthesis and validated the necessary desaturases in P. rockii that are responsible for not only increasing oil content but also modulating 18:2/18:3 ratio in seeds. Together, these results will aid to improve essential fatty acid content in seeds of tree peonies and other crops of agronomic interest.

tree peony species

α-linolenic acid production

Biological Sciences

Biology

Comparative Transcriptome Analysis Reveals an Efficient Mechanism for Α-Linolenic Acid Synthesis in Tree Peony Seeds

Zhang, Qingyu, Yu, Rui, Sun, Daoyang, Rahman, Mahbubur, Xie, Lihang, Hu, Jiayuan, He, Lixia, Kilaru, Aruna, Niu, Lixin, Zhang, Yanlong

24 December 2018

Tree peony (Paeonia section Moutan DC.) species are woody oil crops with high unsaturated fatty acid content, including α-linolenic acid (ALA/18:3; >40% of the total fatty acid). Comparative transcriptome analyses were carried out to uncover the underlying mechanisms responsible for high and low ALA content in the developing seeds of P. rockii and P. lutea, respectively. Expression analysis of acyl lipid metabolism genes revealed upregulation of select genes involved in plastidial fatty acid synthesis, acyl editing, desaturation, and triacylglycerol assembly in seeds of P. rockiirelative to P. lutea. Also, in association with ALA content in seeds, transcript levels for fatty acid desaturases (SAD, FAD2, and FAD3), which encode enzymes necessary for polyunsaturated fatty acid synthesis, were higher in P. rockii compared to P. lutea. Furthermore, the overexpression of PrFAD2 and PrFAD3 in Arabidopsis increased linoleic and ALA content, respectively, and modulated the final ratio 18:2/18:3 in the seed oil. In conclusion, we identified the key steps and validated the necessary desaturases that contribute to efficient ALA synthesis in a woody oil crop. Together, these results will aid to increase essential fatty acid content in seeds of tree peonies and other crops of agronomic interest.

a-linolenic acid

essential fatty acids

fatty acid

transcriptome

tree peony

triacyglycerol

Biological Sciences

Biology

A Tree Peony Trihelix Transcription Factor PrASIL1 Represses Seed Oil Accumulation

Yang, Weizong, Hu, Jiayuan, Behera, Jyoti R., Kilaru, Aruna, Yuan, Yanping, Zhai, Yuhui, Xu, Yanfeng, Xie, Lihang, Zhang, Yanlong, Zhang, Qingyu, Niu, Lixin

01 January 2021

In many higher plants, seed oil accumulation is governed by complex multilevel regulatory networks including transcriptional regulation, which primarily affects fatty acid biosynthesis. Tree peony (), a perennial deciduous shrub endemic to China is notable for its seed oil that is abundant in unsaturated fatty acids. We discovered that a tree peony trihelix transcription factor, PrASIL1, localized in the nucleus, is expressed predominantly in developing seeds during maturation. Ectopic overexpression of in leaf tissue and seeds significantly reduced total fatty acids and altered the fatty acid composition. These changes were in turn associated with the decreased expression of multitudinous genes involved in plastidial fatty acid synthesis and oil accumulation. Thus, we inferred that PrASIL1 is a critical transcription factor that represses oil accumulation by down-regulating numerous key genes during seed oil biosynthesis. In contrary, up-regulation of oil biosynthesis genes and a significant increase in total lipids and several major fatty acids were observed in silenced tree peony leaves. Together, these results provide insights into the role of trihelix transcription factor PrASIL1 in controlling seed oil accumulation. can be targeted potentially for oil enhancement in tree peony and other crops through gene manipulation.

PrASIL1

fatty acid biosynthesis

seed oil

transcription factor

tree peony

Biological Sciences

Corrigendum: A Tree Peony Trihelix Transcription Factor PrASIL1 Represses Seed Oil Accumulation

Yang, Weizong, Hu, Jiayuan, Behera, Jyoti R., Kilaru, Aruna, Yuan, Yanping, Zhai, Yuhui, Xu, Yanfeng, Xie, Lihang, Zhang, Yanlong, Zhang, Qingyu, Niu, Lixin

01 January 2022

[This corrects the article DOI: 10.3389/fpls.2021.796181.].

PrASIL1

fatty acid biosynthesis

seed oil

transcription factor

tree peony

Biological Sciences