SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteum

SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteum

Abstract Background Pennisetum giganteum, an abundant, fast-growing perennial C4 grass that belongs to the genus Pennisetum, family Poaceae, has been developed as a source of biomass for mushroom cultivation and production, as a source of forage for cattle and sheep, and as a tool to remedy soil ero...

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Main Authors: Qingyuan Li, Conglin Xiang, Lin Xu, Jinghua Cui, Shao Fu, Baolin Chen, Shoukun Yang, Pan Wang, Yanfeng Xie, Ming Wei, Zhanchang Wang
Format: Article
Language:English
Published: BMC 2020-01-01
Series:BMC Genomics
Subjects:
Pennisetum giganteum
Full-length transcriptome
Alternative splicing
C18 unsaturated fatty acids
Chilling temperature
Online Access:https://doi.org/10.1186/s12864-019-6441-3
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spelling doaj-ddfdc9d86285489287cd4f80c12b72ef2021-01-17T12:22:43ZengBMCBMC Genomics1471-21642020-01-0121111410.1186/s12864-019-6441-3SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteumQingyuan Li0Conglin Xiang1Lin Xu2Jinghua Cui3Shao Fu4Baolin Chen5Shoukun Yang6Pan Wang7Yanfeng Xie8Ming Wei9Zhanchang Wang10Forestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesForestry and Fruit Tree Research Institute, Wuhan Academy of Agricultural SciencesAbstract Background Pennisetum giganteum, an abundant, fast-growing perennial C4 grass that belongs to the genus Pennisetum, family Poaceae, has been developed as a source of biomass for mushroom cultivation and production, as a source of forage for cattle and sheep, and as a tool to remedy soil erosion. However, having a chilling-sensitive nature, P. giganteum seedlings need to be protected while overwintering in most temperate climate regions. Results To elucidate the cold stress responses of P. giganteum, we carried out comprehensive full-length transcriptomes from leaf and root tissues under room temperature (RT) and chilling temperature (CT) using PacBio Iso-Seq long reads. We identified 196,124 and 140,766 full-length consensus transcripts in the RT and CT samples, respectively. We then systematically performed functional annotation, transcription factor identification, long non-coding RNAs (lncRNAs) prediction, and simple sequence repeat (SSR) analysis of those full-length transcriptomes. Isoform analysis revealed that alternative splicing events may be induced by cold stress in P. giganteum, and transcript variants may be involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in P. giganteum. Furthermore, the fatty acid composition determination and gene expression level analysis supported that C18 unsaturated fatty acid biosynthesis and metabolism pathways may play roles during cold stress in P. giganteum. Conclusions We provide the first comprehensive full-length transcriptomic resource for the abundant and fast-growing perennial grass Pennisetum giganteum. Our results provide a useful transcriptomic resource for exploring the biological pathways involved in the cold stress responses of P. giganteum.https://doi.org/10.1186/s12864-019-6441-3Pennisetum giganteumFull-length transcriptomeAlternative splicingC18 unsaturated fatty acidsChilling temperature
collection DOAJ
language English
format Article
sources DOAJ
author Qingyuan Li
Conglin Xiang
Lin Xu
Jinghua Cui
Shao Fu
Baolin Chen
Shoukun Yang
Pan Wang
Yanfeng Xie
Ming Wei
Zhanchang Wang
spellingShingle Qingyuan Li
Conglin Xiang
Lin Xu
Jinghua Cui
Shao Fu
Baolin Chen
Shoukun Yang
Pan Wang
Yanfeng Xie
Ming Wei
Zhanchang Wang
SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteum
BMC Genomics
Pennisetum giganteum
Full-length transcriptome
Alternative splicing
C18 unsaturated fatty acids
Chilling temperature
author_facet Qingyuan Li
Conglin Xiang
Lin Xu
Jinghua Cui
Shao Fu
Baolin Chen
Shoukun Yang
Pan Wang
Yanfeng Xie
Ming Wei
Zhanchang Wang
author_sort Qingyuan Li
title SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteum
title_short SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteum
title_full SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteum
title_fullStr SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteum
title_full_unstemmed SMRT sequencing of a full-length transcriptome reveals transcript variants involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in Pennisetum giganteum
title_sort smrt sequencing of a full-length transcriptome reveals transcript variants involved in c18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in pennisetum giganteum
publisher BMC
series BMC Genomics
issn 1471-2164
publishDate 2020-01-01
description Abstract Background Pennisetum giganteum, an abundant, fast-growing perennial C4 grass that belongs to the genus Pennisetum, family Poaceae, has been developed as a source of biomass for mushroom cultivation and production, as a source of forage for cattle and sheep, and as a tool to remedy soil erosion. However, having a chilling-sensitive nature, P. giganteum seedlings need to be protected while overwintering in most temperate climate regions. Results To elucidate the cold stress responses of P. giganteum, we carried out comprehensive full-length transcriptomes from leaf and root tissues under room temperature (RT) and chilling temperature (CT) using PacBio Iso-Seq long reads. We identified 196,124 and 140,766 full-length consensus transcripts in the RT and CT samples, respectively. We then systematically performed functional annotation, transcription factor identification, long non-coding RNAs (lncRNAs) prediction, and simple sequence repeat (SSR) analysis of those full-length transcriptomes. Isoform analysis revealed that alternative splicing events may be induced by cold stress in P. giganteum, and transcript variants may be involved in C18 unsaturated fatty acid biosynthesis and metabolism pathways at chilling temperature in P. giganteum. Furthermore, the fatty acid composition determination and gene expression level analysis supported that C18 unsaturated fatty acid biosynthesis and metabolism pathways may play roles during cold stress in P. giganteum. Conclusions We provide the first comprehensive full-length transcriptomic resource for the abundant and fast-growing perennial grass Pennisetum giganteum. Our results provide a useful transcriptomic resource for exploring the biological pathways involved in the cold stress responses of P. giganteum.
topic Pennisetum giganteum
Full-length transcriptome
Alternative splicing
C18 unsaturated fatty acids
Chilling temperature
url https://doi.org/10.1186/s12864-019-6441-3
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