中华桑寄生种子失水响应的转录组分析

Transcriptome Analysis of Taxillusi chinensis (DC.) Danser Seeds in Response to Water Loss.

作者信息

Wei Shugen, Ma Xiaojun, Pan Limei, Miao Jianhua, Fu Jine, Bai Longhua, Zhang Zhonglian, Guan Yanhong, Mo Changming, Huang Hao, Chen Maoshan

机构信息

Institute of Medicinal Plant Development, Chinese Academy of Medical Sciences & Peking Union Medical College, Beijing, China.

Guangxi Botanical Garden of Medicinal Plants, Nanning, Guangxi, China.

出版信息

PLoS One. 2017 Jan 3;12(1):e0169177. doi: 10.1371/journal.pone.0169177. eCollection 2017.

DOI:10.1371/journal.pone.0169177

PMID:28046012

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5207531/

Abstract

BACKGROUND

Taxillus chinensis (DC.) Danser, the official species of parasitic loranthus that grows by parasitizing other plants, is used in various traditional Chinese medicine prescriptions. ABA-dependent and ABA-independent pathways are two major pathways in response to drought stress for plants and some genes have been reported to play a key role during the dehydration including dehydration-responsive protein RD22, late embryogenesis abundant (LEA) proteins, and various transcription factors (TFs) like MYB and WRKY. However, genes responding to dehydration are still unknown in loranthus.

METHODS AND RESULTS

Initially, loranthus seeds were characterized as recalcitrant seeds. Then, biological replicates of fresh loranthus seeds (CK), and seeds after being dehydrated for 16 hours (Tac-16) and 36 hours (Tac-36) were sequenced by RNA-Seq, generating 386,542,846 high quality reads. A total of 164,546 transcripts corresponding to 114,971 genes were assembled by Trinity and annotated by mapping them to NCBI non-redundant (NR), UniProt, GO, KEGG pathway and COG databases. Transcriptome profiling identified 60,695, 56,027 and 66,389 transcripts (>1 FPKM) in CK, Tac-16 and Tac-36, respectively. Compared to CK, we obtained 2,102 up-regulated and 1,344 down-regulated transcripts in Tac-16 and 1,649 up-regulated and 2,135 down-regulated transcripts in Tac-36 by using edgeR. Among them some have been reported to function in dehydration process, such as RD22, heat shock proteins (HSP) and various TFs (MYB, WRKY and ethylene-responsive transcription factors). Interestingly, transcripts encoding ribosomal proteins peaked in Tac-16. It is indicated that HSPs and ribosomal proteins may function in early response to drought stress. Raw sequencing data can be accessed in NCBI SRA platform under the accession number SRA309567.

CONCLUSIONS

This is the first time to profile transcriptome globally in loranthus seeds. Our findings provide insights into the gene regulations of loranthus seeds in response to water loss and expand our current understanding of drought tolerance and germination of seeds.

摘要

背景

桑寄生是一种通过寄生在其他植物上生长的寄生性桑寄生科植物的法定物种，被用于各种中药方剂中。脱落酸（ABA）依赖和ABA非依赖途径是植物响应干旱胁迫的两条主要途径，并且据报道一些基因在脱水过程中起关键作用，包括脱水响应蛋白RD22、晚期胚胎丰富蛋白（LEA）以及各种转录因子（如MYB和WRKY）。然而，桑寄生中响应脱水的基因仍然未知。

方法与结果

首先，桑寄生种子被鉴定为顽拗性种子。然后，对新鲜桑寄生种子（CK）、脱水16小时（Tac - 16）和36小时（Tac - 36）后的种子进行生物学重复，通过RNA测序进行测序，共产生386,542,846条高质量 reads。通过Trinity组装了总共164,546条转录本，对应114,971个基因，并通过将它们映射到NCBI非冗余（NR）、UniProt、GO、KEGG途径和COG数据库进行注释。转录组分析分别在CK、Tac - 16和Tac - 36中鉴定出60,695、56,027和66,389条转录本（>1 FPKM）。与CK相比，使用edgeR我们在Tac - 16中获得了2,102条上调和在Tac - 36中获得了1,344条下调的转录本，以及在Tac - 36中获得了1,649条上调和2,135条下调的转录本。其中一些基因据报道在脱水过程中发挥作用，如RD22、热休克蛋白（HSP）和各种转录因子（MYB、WRKY和乙烯响应转录因子）。有趣的是，编码核糖体蛋白的转录本在Tac - 16中达到峰值。这表明HSP和核糖体蛋白可能在干旱胁迫的早期响应中发挥作用。原始测序数据可在NCBI SRA平台上以登录号SRA309567获取。

结论

这是首次对桑寄生种子进行全基因组转录组分析。我们的研究结果为桑寄生种子响应水分流失的基因调控提供了见解，并扩展了我们目前对种子耐旱性和萌发的理解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3236/5207531/3178acd2a1f2/pone.0169177.g001.jpg

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中华桑寄生种子失水响应的转录组分析

Transcriptome Analysis of Taxillusi chinensis (DC.) Danser Seeds in Response to Water Loss.

作者信息

机构信息

出版信息

BACKGROUND

METHODS AND RESULTS

CONCLUSIONS

背景

方法与结果

结论

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