Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy

Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy

Oil palm parthenocarpic fruits, which are produced without fertilization, can be targeted to increase oil content because the majority of the fruit is occupied by mesocarp, the part in which palm oil is stored. Consequently, gaining an understanding of the parthenocarpic mechanism would be instrumen...

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Main Authors: Suthasinee Somyong, Kitti Walayaporn, Nukoon Jomchai, Chaiwat Naktang, Tanapong Yodyingyong, Chalermpol Phumichai, Wirulda Pootakham, Sithichoke Tangphatsornruang
Format: Article
Language:English
Published: PeerJ Inc. 2018-12-01
Series:PeerJ
Subjects:
RNA seq
Parthenocarpy
Oil palm
Auxin
Online Access:https://peerj.com/articles/5975.pdf
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spelling doaj-e6d443ed98b84b078b00ad6ac37a718e2020-11-25T00:37:13ZengPeerJ Inc.PeerJ2167-83592018-12-016e597510.7717/peerj.5975Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpySuthasinee Somyong0Kitti Walayaporn1Nukoon Jomchai2Chaiwat Naktang3Tanapong Yodyingyong4Chalermpol Phumichai5Wirulda Pootakham6Sithichoke Tangphatsornruang7National Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency, Pathum Thani, ThailandNational Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency, Pathum Thani, ThailandNational Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency, Pathum Thani, ThailandNational Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency, Pathum Thani, ThailandDepartment of Agronomy, Faculty of Agriculture, Kasetsart University, Bangkok, ThailandDepartment of Agronomy, Faculty of Agriculture, Kasetsart University, Bangkok, ThailandNational Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency, Pathum Thani, ThailandNational Center for Genetic Engineering and Biotechnology (BIOTEC), National Science and Technology Development Agency, Pathum Thani, ThailandOil palm parthenocarpic fruits, which are produced without fertilization, can be targeted to increase oil content because the majority of the fruit is occupied by mesocarp, the part in which palm oil is stored. Consequently, gaining an understanding of the parthenocarpic mechanism would be instrumental for producing parthenocarpic oil palm. This study aims to determine effects of auxin treatment and analyze differentially expressed genes in oil palm pistils at the pollination/anthesis stage, using an RNA sequencing (RNA seq) approach. The auxin treatment caused 100% parthenocarpy when auxin was sprayed before stigmas opened. The parthenocarpy decreased to 55%, 8% and 5% when the auxin was sprayed 1, 2 and 3 days after the opening of stigmas, respectively. Oil palm plants used for RNA seq were plants untreated with auxin as controls and auxin-treated plants on the day before pollination and 1 day after pollination. The number of raw reads ranged from 8,425,859 to 11,811,166 reads, with an average size ranging from 99 to 137 base pairs (bp). When compared with the oil palm transcriptome, the mapped reads ranged from 8,179,948 to 11,320,799 reads, representing 95.85–98.01% of the oil palm matching. Based on five comparisons between RNA seq of treatments and controls, and confirmation using reverse transcription polymerase chain reaction and quantitative real-time RT-PCR expression, five candidate genes, including probable indole-3-acetic acid (IAA)-amido synthetase GH3.8 (EgGH3.8), IAA-amido synthetase GH3.1 (EgGH3.1), IAA induced ARG7 like (EgARG7), tryptophan amino transferase-related protein 3-like (EgTAA3) and flavin-containing monooxygenase 1 (EgFMO1), were differentially expressed between auxin-treated and untreated samples. This evidence suggests a pathway of parthenocarpic fruit development at the beginning of fruit development. However, more research is needed to identify which genes are definitely involved in parthenocarpy.https://peerj.com/articles/5975.pdfRNA seqParthenocarpyOil palmAuxin
collection DOAJ
language English
format Article
sources DOAJ
author Suthasinee Somyong
Kitti Walayaporn
Nukoon Jomchai
Chaiwat Naktang
Tanapong Yodyingyong
Chalermpol Phumichai
Wirulda Pootakham
Sithichoke Tangphatsornruang
spellingShingle Suthasinee Somyong
Kitti Walayaporn
Nukoon Jomchai
Chaiwat Naktang
Tanapong Yodyingyong
Chalermpol Phumichai
Wirulda Pootakham
Sithichoke Tangphatsornruang
Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy
PeerJ
RNA seq
Parthenocarpy
Oil palm
Auxin
author_facet Suthasinee Somyong
Kitti Walayaporn
Nukoon Jomchai
Chaiwat Naktang
Tanapong Yodyingyong
Chalermpol Phumichai
Wirulda Pootakham
Sithichoke Tangphatsornruang
author_sort Suthasinee Somyong
title Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy
title_short Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy
title_full Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy
title_fullStr Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy
title_full_unstemmed Transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy
title_sort transcriptome analysis of oil palm inflorescences revealed candidate genes for an auxin signaling pathway involved in parthenocarpy
publisher PeerJ Inc.
series PeerJ
issn 2167-8359
publishDate 2018-12-01
description Oil palm parthenocarpic fruits, which are produced without fertilization, can be targeted to increase oil content because the majority of the fruit is occupied by mesocarp, the part in which palm oil is stored. Consequently, gaining an understanding of the parthenocarpic mechanism would be instrumental for producing parthenocarpic oil palm. This study aims to determine effects of auxin treatment and analyze differentially expressed genes in oil palm pistils at the pollination/anthesis stage, using an RNA sequencing (RNA seq) approach. The auxin treatment caused 100% parthenocarpy when auxin was sprayed before stigmas opened. The parthenocarpy decreased to 55%, 8% and 5% when the auxin was sprayed 1, 2 and 3 days after the opening of stigmas, respectively. Oil palm plants used for RNA seq were plants untreated with auxin as controls and auxin-treated plants on the day before pollination and 1 day after pollination. The number of raw reads ranged from 8,425,859 to 11,811,166 reads, with an average size ranging from 99 to 137 base pairs (bp). When compared with the oil palm transcriptome, the mapped reads ranged from 8,179,948 to 11,320,799 reads, representing 95.85–98.01% of the oil palm matching. Based on five comparisons between RNA seq of treatments and controls, and confirmation using reverse transcription polymerase chain reaction and quantitative real-time RT-PCR expression, five candidate genes, including probable indole-3-acetic acid (IAA)-amido synthetase GH3.8 (EgGH3.8), IAA-amido synthetase GH3.1 (EgGH3.1), IAA induced ARG7 like (EgARG7), tryptophan amino transferase-related protein 3-like (EgTAA3) and flavin-containing monooxygenase 1 (EgFMO1), were differentially expressed between auxin-treated and untreated samples. This evidence suggests a pathway of parthenocarpic fruit development at the beginning of fruit development. However, more research is needed to identify which genes are definitely involved in parthenocarpy.
topic RNA seq
Parthenocarpy
Oil palm
Auxin
url https://peerj.com/articles/5975.pdf
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