Genome-wide transcriptome profiling of Carica papaya L. embryogenic callus

Genome-wide transcriptome profiling is a powerful tool to study global gene expression patterns in plant development. We report the first transcriptome profile analysis of papaya embryogenic callus to improve our understanding on genes associated with somatic embryogenesis. By using 3′ mRNA-sequenci...

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Bibliographic Details
Published in:Physiology and molecular biology of plants 2017-04, Vol.23 (2), p.357-368
Main Authors: Jamaluddin, Nur Diyana, Mohd Noor, Normah, Goh, Hoe-Han
Format: Article
Language:English
Subjects:
Abundance
Biological activity
Biological and Medical Physics
Biomedical and Life Sciences
Biophysics
Biosynthesis
Callus
Cell Biology
Cell proliferation
Embryonic growth stage
Embryos
Gene expression
Gene sequencing
Genes
Genomes
Information processing
LEA protein
Life Sciences
Metabolism
Phosphopyruvate hydratase
Plant Physiology
Plant Sciences
Plants (botany)
Proteomes
Research Article
Somatic embryogenesis
Transcription factors
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Summary:Genome-wide transcriptome profiling is a powerful tool to study global gene expression patterns in plant development. We report the first transcriptome profile analysis of papaya embryogenic callus to improve our understanding on genes associated with somatic embryogenesis. By using 3′ mRNA-sequencing, we generated 6,190,687 processed reads and 47.0% were aligned to papaya genome reference, in which 21,170 (75.4%) of 27,082 annotated genes were found to be expressed but only 41% was expressed at functionally high levels. The top 10% of genes with high transcript abundance were significantly enriched in biological processes related to cell proliferation, stress response, and metabolism. Genes functioning in somatic embryogenesis such as SERK and LEA, hormone-related genes, stress-related genes, and genes involved in secondary metabolite biosynthesis pathways were highly expressed. Transcription factors such as NAC, WRKY, MYB, WUSCHEL, Agamous-like MADS-box protein and bHLH important in somatic embryos of other plants species were found to be expressed in papaya embryogenic callus. Abundant expression of enolase and ADH is consistent with proteome study of papaya somatic embryo. Our study highlights that some genes related to secondary metabolite biosynthesis, especially phenylpropanoid biosynthesis, were highly expressed in papaya embryogenic callus, which might have implication for cell factory applications. The discovery of all genes expressed in papaya embryogenic callus provides an important information into early biological processes during the induction of embryogenesis and useful for future research in other plant species.
ISSN:0971-5894
0974-0430
DOI:10.1007/s12298-017-0429-8