Transcriptome analysis and identification of genes associated with ω-3 fatty acid biosynthesis in Perilla frutescens (L.) var. frutescens

Abstract Background: Somatic embryogenesis (SE) is a process of somatic cells that dedifferentiate to totipotent embryonic stem cells and generate embryos in vitro. Longan SE has been established and wildly used as model system for studying embryogenesis in woody plants, SE-related genes had been characterized. In spite of that, a comprehensive overview of SE at a molecular level is still absent. To understand the molecular mechanisms during longan SE, we examined the transcriptome changes by using Illumina HiSeq from the four distinct developmental stages, including NEC, EC, ICpEC, GE. Results: RNA-seq of the four samples generated a total of 243.78 million high quality reads, approximately 81.5% of the data were mapped to longan genome. The cDNA libraries of NEC, EC, ICpEC and GE, generated 22743, 19745, 21144, 21102 expressed transcripts, 1935, 1710, 1816, 1732 novel transcripts, 2645, 366, 505, 588 unique genes, respectively. Comparative transcriptome analysis showed that a total of 10,642, 4,180, 5,846 and 1,785 genes were differentially expressed in the pairwise comparisons of NEC_vs_EC, EC_vs_ICpEC, EC_vs_GE, ICpEC_vs_GE, respectively. Among them, plant hormones signalling related genes were significantly enriched, especially the auxin and cytokinin signalling components. The transcripts of flavonoid biosynthesis related genes were mainly expressed in NEC, while fatty acid biosynthesis related genes mainly accumulated in early SE. In addition, the extracelluar protein encoding genes LTP, CHI, GLP, AGP, EP1 were related to longan SE. Combined with the FPKM of longan nine tissues transcription, 27 SE specific or preferential genes (LEC1, LEC1-like, PDF1.3, GH3.6, AGL80, PIN1, BBM, WOX9, WOX2, et al.) and 28 NEC preferential genes (LEA5, CNOT3, DC2.15, PR1-1, NsLTP2, DIR1, PIP1, PIP2.1 and POD5 et al.) were characterized as molecular markers for longan early SE. qRT-PCR validation of SE-related genes showed a high correlation between RNA-seq and qRT-PCR data. Conclusion: This study provides new insights into the role of the transcriptome during early SE in longan. Differentially expressed genes reveal that plant hormones signalling, flavonoid and fatty acid biosynthesis, and extracelluar protein related genes were involved in longan early SE. It could serve as a valuable platform resource for further functional studies addressing embryogenesis in woody plants.

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Peer Review #2 of "Transcriptome analysis of Chelidonium majus elaiosomes and seeds provide insights into fatty acid biosynthesis (v0.2)"

10.7287/peerj.6871v0.2/reviews/2 ◽

2019 ◽

Keyword(s):

Fatty Acid ◽

Peer Review ◽

Transcriptome Analysis ◽

Fatty Acid Biosynthesis ◽

Chelidonium Majus ◽

Acid Biosynthesis

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Peer Review #1 of "Transcriptome analysis of Chelidonium majus elaiosomes and seeds provide insights into fatty acid biosynthesis (v0.2)"

10.7287/peerj.6871v0.2/reviews/1 ◽

2019 ◽

Keyword(s):

Fatty Acid ◽

Peer Review ◽

Transcriptome Analysis ◽

Fatty Acid Biosynthesis ◽

Chelidonium Majus ◽

Acid Biosynthesis

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Global scale transcriptome analysis reveal differentially expressed genes during early somatic embryogenesis in Dimocarpus longan Lour

10.21203/rs.2.12051/v1 ◽

2019 ◽

Author(s):

Yukun Chen ◽

Xiaoping Xu ◽

Zhuanxia Liu ◽

Zihao Zhang ◽

XuHan Xu ◽

...

Keyword(s):

Somatic Embryogenesis ◽

Molecular Markers ◽

Fatty Acid ◽

Transcriptome Analysis ◽

Embryogenic Callus ◽

Molecular Mechanisms ◽

Fatty Acid Biosynthesis ◽

Acid Biosynthesis ◽

Protein Encoding ◽

Encoding Genes

Abstract Background Somatic embryogenesis (SE) is a process of somatic cells that dedifferentiate to the totipotent embryonic stem cells and generate embryos in vitro. Longan SE has been established and wildly used as a model system for studying embryogenesis in woody plants, and some SE-related genes had been characterized. In spite of that, a comprehensive overview of SE at a molecular level is still absent. With the aim of understanding the molecular mechanisms underlying SE in longan, we examined the transcriptome changes by using Illumina HiSeq platform from the four distinct developmental stages, including non-embryogenic callus (NEC), embryogenic callus (EC), incomplete compact pro-embryogenic cultures (ICpEC), globular embryos (GE). Results RNA-seq of the four samples generated a total of 243.78 million high quality reads, approximately 81.5% of the data were mapped to the reference genome. The cDNA libraries of NEC, EC, ICpEC and GE, generated 22743, 19745, 21144, 21102 expressed transcripts and 1935, 1710, 1816, 1732 novel transcripts, and 2645, 366, 505, 588 unique genes, respectively. Comparative transcriptome analysis revealed the important role of auxin and cytokinin during longan SE. The transcripts profiling of flavonoid and fatty acid biosynthesis related genes suggested that flavonoids were mainly accumulated in NEC, while fatty acid accumulated in early SE. In addition, the extracelluar protein encoding genes LTP, CHI, GLP, AGP, EP1 were related to longan SE. Transcript profiling combined with qRT-PCR performed on selected genes confirmed that 27 SE molecular markers (LEC1, LEC1-like, PDF1.3, GH3.6, AGL80, PIN1, BBM, WOX9, WOX2, ABI3, et al.) and 28 NEC markers (LEA5, CNOT3, DC2.15, PR1-1, NsLTP2, DIR1, PIP1, PIP2.1, TIP2-1, POD-P7 and POD5 et al.) were characterized as potential molecular markers for longan early SE, respectively. Conclusion Our transcriptome reveals the transcription regulation of auxin, cytokinin and other hormones signaling pathway, flavonoids biosynthesis, fatty acid biosynthesis, extracelluar protein encoding genes, and other SE-related genes during early SE. Furthermore, we characterizes the potential molecular markers to distinguish NEC and early SE of longan. The present work provides new insights into future functional studies, as a means of studying the molecular mechanisms in SE.

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Global scale transcriptome analysis reveals differentially expressed genes involve in early somatic embryogenesis in Dimocarpus longan Lour.

10.21203/rs.2.12051/v2 ◽

2019 ◽

Author(s):

Yukun Chen ◽

Xiaoping Xu ◽

Zhuanxia Liu ◽

Zihao Zhang ◽

XuHan Xu ◽

...

Keyword(s):

Somatic Embryogenesis ◽

Fatty Acid ◽

Plant Hormones ◽

Transcriptome Analysis ◽

Woody Plants ◽

Fatty Acid Biosynthesis ◽

Differentially Expressed ◽

Rna Seq ◽

Acid Biosynthesis ◽

Qrt Pcr

Abstract Background: Somatic embryogenesis (SE) is a process of somatic cells that dedifferentiate to totipotent embryonic stem cells and generate embryos in vitro. Longan SE has been established and wildly used as model system for studying embryogenesis in woody plants, SE-related genes had been characterized. In spite of that, a comprehensive overview of SE at a molecular level is still absent. To understand the molecular mechanisms during longan SE, we examined the transcriptome changes by using Illumina HiSeq from the four distinct developmental stages, including NEC, EC, ICpEC, GE.Results: RNA-seq of the four samples generated a total of 243.78 million high quality reads, approximately 81.5% of the data were mapped to longan genome. The cDNA libraries of NEC, EC, ICpEC and GE, generated 22743, 19745, 21144, 21102 expressed transcripts, 1935, 1710, 1816, 1732 novel transcripts, 2645, 366, 505, 588 unique genes, respectively. Comparative transcriptome analysis showed that a total of 10,642, 4,180, 5,846 and 1,785 genes were differentially expressed in the pairwise comparisons of NEC_vs_EC, EC_vs_ICpEC, EC_vs_GE, ICpEC_vs_GE, respectively. Among them, plant hormones signalling related genes were significantly enriched, especially the auxin and cytokinin signalling components. The transcripts of flavonoid biosynthesis related genes were mainly expressed in NEC, while fatty acid biosynthesis related genes mainly accumulated in early SE. In addition, the extracelluar protein encoding genes LTP, CHI, GLP, AGP, EP1 were related to longan SE. Combined with the FPKM of longan nine tissues transcription, 27 SE specific or preferential genes (LEC1, LEC1-like, PDF1.3, GH3.6, AGL80, PIN1, BBM, WOX9, WOX2, et al.) and 28 NEC preferential genes (LEA5, CNOT3, DC2.15, PR1-1, NsLTP2, DIR1, PIP1, PIP2.1 and POD5 et al.) were characterized as molecular markers for longan early SE. qRT-PCR validation of SE-related genes showed a high correlation between RNA-seq and qRT-PCR data.Conclusion: This study provides new insights into the role of the transcriptome during early SE in longan. Differentially expressed genes reveal that plant hormones signalling, flavonoid and fatty acid biosynthesis, and extracelluar protein related genes were involved in longan early SE. It could serve as a valuable platform resource for further functional studies addressing embryogenesis in woody plants.

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Peer Review #1 of "Transcriptome analysis of Chelidonium majus elaiosomes and seeds provide insights into fatty acid biosynthesis (v0.1)"

10.7287/peerj.6871v0.1/reviews/1 ◽

2019 ◽

Keyword(s):

Fatty Acid ◽

Peer Review ◽

Transcriptome Analysis ◽

Fatty Acid Biosynthesis ◽

Chelidonium Majus ◽

Acid Biosynthesis

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Global scale transcriptome analysis reveals differentially expressed genes involve in early somatic embryogenesis in Dimocarpus longan Lour

BMC Genomics ◽

10.1186/s12864-019-6393-7 ◽

2020 ◽

Vol 21 (1) ◽

Cited By ~ 4

Author(s):

Yukun Chen ◽

Xiaoping Xu ◽

Zhuanxia Liu ◽

Zihao Zhang ◽

Xu XuHan ◽

...

Keyword(s):

Somatic Embryogenesis ◽

Fatty Acid ◽

Plant Hormones ◽

Transcriptome Analysis ◽

Woody Plants ◽

Fatty Acid Biosynthesis ◽

Differentially Expressed ◽

Rna Seq ◽

Acid Biosynthesis ◽

Qrt Pcr

Abstract Background Somatic embryogenesis (SE) is a process of somatic cells that dedifferentiate to totipotent embryonic stem cells and generate embryos in vitro. Longan SE has been established and wildly used as model system for studying embryogenesis in woody plants, SE-related genes had been characterized. In spite of that, a comprehensive overview of SE at a molecular level is still absent. To understand the molecular mechanisms during longan SE, we examined the transcriptome changes by using Illumina HiSeq from the four distinct developmental stages, including non-embryogenic callus (NEC), embryogenic callus (EC), incomplete compact pro-embryogenic cultures (ICpEC), globular embryos (GE). Results RNA-seq of the four samples generated a total of 243.78 million high quality reads, approximately 81.5% of the data were mapped to longan genome. The cDNA libraries of NEC, EC, ICpEC and GE, generated 22,743, 19,745, 21,144, 21,102 expressed transcripts, 1935, 1710, 1816, 1732 novel transcripts, 2645, 366, 505, 588 unique genes, respectively. Comparative transcriptome analysis showed that a total of 10,642, 4180, 5846 and 1785 genes were differentially expressed in the pairwise comparisons of NEC_vs_EC, EC_vs_ICpEC, EC_vs_GE, ICpEC_vs_GE, respectively. Among them, plant hormones signalling related genes were significantly enriched, especially the auxin and cytokinin signalling components. The transcripts of flavonoid biosynthesis related genes were mainly expressed in NEC, while fatty acid biosynthesis related genes mainly accumulated in early SE. In addition, the extracelluar protein encoding genes LTP, CHI, GLP, AGP, EP1 were related to longan SE. Combined with the FPKM value of longan nine tissues transcription, 27 SE specific or preferential genes (LEC1, LEC1-like, PDF1.3, GH3.6, AGL80, PIN1, BBM, WOX9, WOX2, ABI3, et al.) and 28 NEC preferential genes (LEA5, CNOT3, DC2.15, PR1–1, NsLTP2, DIR1, PIP1, PIP2.1, TIP2–1, POD-P7 and POD5 et al.) were characterized as molecular markers for longan early SE. qRT-PCR validation of SE-related genes showed a high correlation between RNA-seq and qRT-PCR data. Conclusion This study provides new insights into the role of the transcriptome during early SE in longan. Differentially expressed genes reveal that plant hormones signalling, flavonoid and fatty acid biosynthesis, and extracelluar protein related genes were involved in longan early SE. It could serve as a valuable platform resource for further functional studies addressing embryogenesis in woody plants.

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