RNA-seq reveals transcriptional differences in anthocyanin and vitamin biosynthetic pathways between black and white rice

RNA-seq reveals transcriptional differences in anthocyanin and vitamin biosynthetic pathways between black and white rice

•OsTTG1 is the one and only WD40 repeat protein regulating anthocyanin biosynthesis in black rice.•830 DEGs including 58 transcription factor ones show differential expression between black rice and white rice.•Anthocyanin accumulation in black rice significantly affects the expressional level of ma...

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Veröffentlicht in:Gene 2022-11, Vol.844, p.146845-146845, Article 146845
Hauptverfasser: Zhou, Zaihui, Li, Han, Wei, Ruixue, Li, Dianwei, Lu, Wei, Weng, Zijin, Yang, Zenan, Guo, Yongmei, Lin, Yongjun, Chen, Hao
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Micronutrient
Oryza sativa
OsTTG1
RNA-seq
Transcription factor
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container_title Gene
container_volume 844
creator Zhou, Zaihui
Li, Han
Wei, Ruixue
Li, Dianwei
Lu, Wei
Weng, Zijin
Yang, Zenan
Guo, Yongmei
Lin, Yongjun
Chen, Hao
description •OsTTG1 is the one and only WD40 repeat protein regulating anthocyanin biosynthesis in black rice.•830 DEGs including 58 transcription factor ones show differential expression between black rice and white rice.•Anthocyanin accumulation in black rice significantly affects the expressional level of many vitamins biosynthetic genes. Anthocyanins and vitamins in black rice are the micronutrients vital to human health, both of which predominantly accumulate in the bran fraction. Some studies have demonstrated that black rice contains more vitamins compared with common white rice, indicating potential association between anthocyanin and vitamin accumulation. In this study, transcriptomes of pericarps collected from 27 black rice accessions and 49 white rice accessions at 10 days after flowering (DAF) were sequenced and analyzed. We identified 830 differentially expressed genes (DEGs) including 58 transcription factors (TFs) between black and white rice. Among 58 differentially expressed transcription factors, OsTTG1 was confirmed to be the one and only WD40 repeat protein regulating anthocyanin biosynthesis in the pericarp. Moreover, we identified 53 differentially expressed synthetic-related genes among 42 main synthesis enzymes in the biosynthesis pathway of seven vitamins including β-carotene, vitamin B1, vitamin B2, vitamin B5, vitamin B7, vitamin B9 and vitamin E. Collectively, our results provide valuable insights into the molecular mechanism of biosynthesis of anthocyanins and vitamins and the potential effect of anthocyanin biosynthesis on vitamin biosynthesis in black rice.
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Anthocyanins and vitamins in black rice are the micronutrients vital to human health, both of which predominantly accumulate in the bran fraction. Some studies have demonstrated that black rice contains more vitamins compared with common white rice, indicating potential association between anthocyanin and vitamin accumulation. In this study, transcriptomes of pericarps collected from 27 black rice accessions and 49 white rice accessions at 10 days after flowering (DAF) were sequenced and analyzed. We identified 830 differentially expressed genes (DEGs) including 58 transcription factors (TFs) between black and white rice. Among 58 differentially expressed transcription factors, OsTTG1 was confirmed to be the one and only WD40 repeat protein regulating anthocyanin biosynthesis in the pericarp. Moreover, we identified 53 differentially expressed synthetic-related genes among 42 main synthesis enzymes in the biosynthesis pathway of seven vitamins including β-carotene, vitamin B1, vitamin B2, vitamin B5, vitamin B7, vitamin B9 and vitamin E. 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Anthocyanins and vitamins in black rice are the micronutrients vital to human health, both of which predominantly accumulate in the bran fraction. Some studies have demonstrated that black rice contains more vitamins compared with common white rice, indicating potential association between anthocyanin and vitamin accumulation. In this study, transcriptomes of pericarps collected from 27 black rice accessions and 49 white rice accessions at 10 days after flowering (DAF) were sequenced and analyzed. We identified 830 differentially expressed genes (DEGs) including 58 transcription factors (TFs) between black and white rice. Among 58 differentially expressed transcription factors, OsTTG1 was confirmed to be the one and only WD40 repeat protein regulating anthocyanin biosynthesis in the pericarp. 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subjects Micronutrient
Oryza sativa
OsTTG1
RNA-seq
Transcription factor
title RNA-seq reveals transcriptional differences in anthocyanin and vitamin biosynthetic pathways between black and white rice
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