Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapa

Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapa

Polyploidy is a fundamental process in plant evolution. Understanding the polyploidy-associated effects on plant reproduction is essential for polyploid breeding program. In the present study, our cytological analysis firstly demonstrated that an overall course of meiosis was apparently distorted in...

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Main Authors: Janeen Braynen, Yan Yang, Fang Wei, Gangqiang Cao, Gongyao Shi, Baoming Tian, Xiaowei Zhang, Hao Jia, Xiaochun Wei, Zhenzhen Wei
Format: Article
Language:English
Published: Frontiers Media S.A. 2017-05-01
Series:Frontiers in Plant Science
Subjects:
polyploidy
meiosis
RNA-seq analysis
transcriptome
floral buds
Brassica rapa
Online Access:http://journal.frontiersin.org/article/10.3389/fpls.2017.00768/full
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spelling doaj-f641fd1bfd30494eab1f43701bdac7d02020-11-24T22:52:04ZengFrontiers Media S.A.Frontiers in Plant Science1664-462X2017-05-01810.3389/fpls.2017.00768241734Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapaJaneen Braynen0Janeen Braynen1Yan Yang2Fang Wei3Gangqiang Cao4Gongyao Shi5Baoming Tian6Xiaowei Zhang7Hao Jia8Hao Jia9Xiaochun Wei10Zhenzhen Wei11Zhenzhen Wei12School of Life Sciences, Zhengzhou UniversityZhengzhou, ChinaInstitute of Horticultural Research, Henan Academy of Agricultural SciencesZhengzhou, ChinaSchool of Life Sciences, Zhengzhou UniversityZhengzhou, ChinaSchool of Life Sciences, Zhengzhou UniversityZhengzhou, ChinaSchool of Life Sciences, Zhengzhou UniversityZhengzhou, ChinaSchool of Life Sciences, Zhengzhou UniversityZhengzhou, ChinaSchool of Life Sciences, Zhengzhou UniversityZhengzhou, ChinaInstitute of Horticultural Research, Henan Academy of Agricultural SciencesZhengzhou, ChinaSchool of Life Sciences, Zhengzhou UniversityZhengzhou, ChinaInstitute of Horticultural Research, Henan Academy of Agricultural SciencesZhengzhou, ChinaInstitute of Horticultural Research, Henan Academy of Agricultural SciencesZhengzhou, ChinaSchool of Life Sciences, Zhengzhou UniversityZhengzhou, ChinaInstitute of Horticultural Research, Henan Academy of Agricultural SciencesZhengzhou, ChinaPolyploidy is a fundamental process in plant evolution. Understanding the polyploidy-associated effects on plant reproduction is essential for polyploid breeding program. In the present study, our cytological analysis firstly demonstrated that an overall course of meiosis was apparently distorted in the synthetic polyploid Brassica rapa in comparison with its diploid progenitor. To elucidate genetic basis of this irregular meiosis at a molecular level, the comparative RNA-seq analysis was further used to investigate differential genetic regulation of developing floral buds identified at meiosis between autotetraploid and diploid B. rapa. In total, compared to its diploid counterparts, among all 40,927 expressed genes revealed, 4,601 differentially expressed genes (DEGs) were identified in the floral buds of autotetraploid B. rapa, among which 288 DEGs annotated were involved in meiosis. Notably, DMC1 identified as one previously known meiosis-specific gene involved in inter-homologous chromosome dependent repair of DNA double stranded breaks (DSBs), was significantly down-regulated in autotetraploid B. rapa, which presumably contributed to abnormal progression during meiosis I. Although certain DEGs associated with RNA helicase, cell cycling, and somatic DNA repair were up-regulated after genome duplication, genes associated with meiotic DSB repair were significantly down-regulated. Furthermore, the expression of randomly selected DEGs by RNA-seq analysis was confirmed by quantitative real-time PCR analysis in both B. rapa and Arabidopsis thaliana. Our results firstly account for adverse effects of polyploidy on an entire course of meiosis at both cytological and transcriptomic levels, and allow for a comprehensive understanding of the uniformity and differences in the transcriptome of floral buds at meiosis between diploid and polyploid B. rapa as well.http://journal.frontiersin.org/article/10.3389/fpls.2017.00768/fullpolyploidymeiosisRNA-seq analysistranscriptomefloral budsBrassica rapa
collection DOAJ
language English
format Article
sources DOAJ
author Janeen Braynen
Janeen Braynen
Yan Yang
Fang Wei
Gangqiang Cao
Gongyao Shi
Baoming Tian
Xiaowei Zhang
Hao Jia
Hao Jia
Xiaochun Wei
Zhenzhen Wei
Zhenzhen Wei
spellingShingle Janeen Braynen
Janeen Braynen
Yan Yang
Fang Wei
Gangqiang Cao
Gongyao Shi
Baoming Tian
Xiaowei Zhang
Hao Jia
Hao Jia
Xiaochun Wei
Zhenzhen Wei
Zhenzhen Wei
Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapa
Frontiers in Plant Science
polyploidy
meiosis
RNA-seq analysis
transcriptome
floral buds
Brassica rapa
author_facet Janeen Braynen
Janeen Braynen
Yan Yang
Fang Wei
Gangqiang Cao
Gongyao Shi
Baoming Tian
Xiaowei Zhang
Hao Jia
Hao Jia
Xiaochun Wei
Zhenzhen Wei
Zhenzhen Wei
author_sort Janeen Braynen
title Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapa
title_short Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapa
title_full Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapa
title_fullStr Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapa
title_full_unstemmed Transcriptome Analysis of Floral Buds Deciphered an Irregular Course of Meiosis in Polyploid Brassica rapa
title_sort transcriptome analysis of floral buds deciphered an irregular course of meiosis in polyploid brassica rapa
publisher Frontiers Media S.A.
series Frontiers in Plant Science
issn 1664-462X
publishDate 2017-05-01
description Polyploidy is a fundamental process in plant evolution. Understanding the polyploidy-associated effects on plant reproduction is essential for polyploid breeding program. In the present study, our cytological analysis firstly demonstrated that an overall course of meiosis was apparently distorted in the synthetic polyploid Brassica rapa in comparison with its diploid progenitor. To elucidate genetic basis of this irregular meiosis at a molecular level, the comparative RNA-seq analysis was further used to investigate differential genetic regulation of developing floral buds identified at meiosis between autotetraploid and diploid B. rapa. In total, compared to its diploid counterparts, among all 40,927 expressed genes revealed, 4,601 differentially expressed genes (DEGs) were identified in the floral buds of autotetraploid B. rapa, among which 288 DEGs annotated were involved in meiosis. Notably, DMC1 identified as one previously known meiosis-specific gene involved in inter-homologous chromosome dependent repair of DNA double stranded breaks (DSBs), was significantly down-regulated in autotetraploid B. rapa, which presumably contributed to abnormal progression during meiosis I. Although certain DEGs associated with RNA helicase, cell cycling, and somatic DNA repair were up-regulated after genome duplication, genes associated with meiotic DSB repair were significantly down-regulated. Furthermore, the expression of randomly selected DEGs by RNA-seq analysis was confirmed by quantitative real-time PCR analysis in both B. rapa and Arabidopsis thaliana. Our results firstly account for adverse effects of polyploidy on an entire course of meiosis at both cytological and transcriptomic levels, and allow for a comprehensive understanding of the uniformity and differences in the transcriptome of floral buds at meiosis between diploid and polyploid B. rapa as well.
topic polyploidy
meiosis
RNA-seq analysis
transcriptome
floral buds
Brassica rapa
url http://journal.frontiersin.org/article/10.3389/fpls.2017.00768/full
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