DE NOVO TRANSCRIPTOME SEQUENCEING AND COMPARATIVE ANALYSIS OF DIFFERENTIALLY EXPRESSED GENES IN DRYOPERIS FRAGRANS UNDER TEMPERATURE STRESS

文献类型: 外文期刊

第一作者: Wang, Wen-Zhong

作者: Wang, Wen-Zhong;Tong, Wei-Shuang;Li, Yan;Gao, Rui;Zhang, Liguo;Chang, Ying;Wang, Wen-Zhong;Zhang, Liguo

作者机构:

关键词: Transcriptome;Dryopteris fragrans;Flavonoids biosynthesis;DEG (differentially expressed genes)

期刊名称:PAKISTAN JOURNAL OF BOTANY ( 影响因子:0.972; 五年影响因子:0.988 )

ISSN: 0556-3321

年卷期: 2016 年 48 卷 3 期

页码:

收录情况: SCI

摘要: Dryopteris fragrans is a species of fern and contains flavonoids compounds with medicinal value. This study explain the temperature stress impact flavonoids synthesis in D. fragrans tissue culture seedlings under the low temperature at 4 degrees C, high temperature at 35 degrees C and moderate temperature at 25 degrees C. By using Illumina HiSeq 2000 sequencing, 80.9 million raw sequence reads were de novo assembled into 66,716 non-redundant unigenes. 38,486 unigenes (57.7%) were annotated for their function. 13,973 unigenes and 29,598 unigenes were allocated to gene ontology (GO) and clusters of orthologous group (COG), respectively. 18,989 sequences mapped to 118 Kyoto Encyclopedia of Genes and Genomes Pathway database (KEGG), 204 genes were involved in flavonoid biosynthesis, regulation and transport. 25,292 and 16,817 unigenes exhibited marked differential expression in response to temperature shifts of 25 degrees C to 4 degrees C and 25 degrees C to 35 degrees C, respectively. 4CL and CHS genes involved in flavonoid biosynthesis were tested and suggested that they were responsible for biosynthesis of flavonoids. This study provides the first published data to describe the D. fragrans transcriptome and should accelerate understanding of flavonoids biosynthesis, regulation and transport mechanisms. Since most unigenes described here were successfully annotated, these results should facilitate future functional genomic understanding and research of D. fragrans.

分类号:

  • 相关文献

[1]Application of ionic liquid-based surfactants in the microwave-assisted extraction for the determination of four main phloroglucinols from Dryopteris fragrans. Li, Xiao-Juan,Zu, Yuan-Gang,Wang, Wei,Luo, Meng,Gu, Cheng-Bo,Zhao, Chun-Jian,Fu, Yu-Jie,Li, Xiao-Juan,Yu, Hui-Min,Gao, Chang.

[2]A collection of 10,096 indica rice full-length cDNAs reveals highly expressed sequence divergence between Oryza sativa indica and japonica subspecies. Liu, Xiaohui,Lu, Tingting,Yu, Shuliang,Li, Ying,Huang, Yuchen,Huang, Tao,Zhang, Lei,Zhu, Jingjie,Zhao, Qiang,Fan, Danlin,Mu, Jie,Shangguan, Yingying,Feng, Qi,Guan, Jianping,Ying, Kai,Zhang, Yu,Lin, Zhixin,Sun, Zongxiu,Qian, Qian,Lu, Yuping,Han, Bin.

[3]Transcriptome analysis of the roots at early and late seedling stages using Illumina paired-end sequencing and development of EST-SSR markers in radish. Wang, Shufen,He, Qiwei,Liu, Xianxian,Xu, Wenling,Li, Libin,Gao, Jianwei,Wang, Fengde,Wang, Xiufeng. 2012

[4]Transcriptome Analysis of Calcium and Hormone-Related Gene Expressions during Different Stages of Peanut Pod Development. Li, Yan,Meng, Jingjing,Yang, Sha,Guo, Feng,Zhang, Jialei,Geng, Yun,Cui, Li,Li, Xinguo,Wan, Shubo. 2017

[5]Transcriptome profiling of peanut gynophores revealed global reprogramming of gene expression during early pod development in darkness. Xia, Han,Zhao, Chuanzhi,Hou, Lei,Li, Aiqin,Zhao, Shuzhen,Bi, Yuping,An, Jing,Wan, Shubo,Wang, Xingjun,Bi, Yuping,Wan, Shubo,Wang, Xingjun,Bi, Yuping,An, Jing,Zhao, Yanxiu,Wang, Xingjun. 2013

[6]Switch on a more efficient pyruvate synthesis pathway based on transcriptome analysis and metabolic evolution. Yang, Maohua,Mu, Tingzhen,Xing, Jianmin,Chen, Ruonan,Zhang, Xiang. 2017

[7]Transcriptome analysis of rosette and folding leaves in Chinese high-throughput RNA sequencing. Wang, Fengde,Li, Libin,Li, Huayin,Liu, Lifeng,Zhang, Yihui,Gao, Jianwei,Wang, Xiaowu. 2012

[8]Transcriptome analysis reveals long noncoding RNAs involved in fiber development in cotton (Gossypium arboreum). Changsong Zou,Qiaolian Wang,Cairui Lu,Wencui Yang,Youping Zhang,Hailiang Cheng,Xiaoxu Feng,Mtawa Andrew Prosper,Guoli Song. 2016

[9]De novo assembly and transcriptome analysis of two contrary tillering mutants to learn the mechanisms of tillers outgrowth in switchgrass (Panicum virgatum L.). Kaijie Xu,Fengli Sun,Guaiqiang Chai,Yongfeng Wang,Lili Shi,Shudong Liu,Yajun Xi. 2015

[10]Global analysis of the Gossypium hirsutum L. Transcriptome during leaf senescence by RNA-Seq. Min Lin,Chaoyou Pang,Shuli Fan,Meizhen Song,Hengling Wei,Shuxun Yu. 2015

[11]PAG1, a cotton brassinosteroid catabolism gene, modulates fiber elongation. Yang, Zuoren,Zhang, Chaojun,Yang, Xiaojie,Liu, Kun,Wu, Zhixia,Zhang, Xueyan,Zheng, Wu,Liu, Chuanliang,Lu, Lili,Yang, Zhaoen,Qian, Yuyuan,Xu, Zhenzhen,Li, Changfeng,Li, Fuguang,Xun, Qingqing,Li, Jia.

[12]Identification of candidate thermotolerance genes during early seedling stage in upland cotton (Gossypium hirsutum L.) revealed by comparative transcriptome analysis. Peng, Zhen,Cao, Moju,Xu, Jie,Lu, Yanli,Peng, Zhen,He, Shoupu,Gong, Wenfang,Sun, Junling,Pan, Zhaoe,Du, Xiongming,Sun, Gaofei.

[13]Characterization of the global transcriptome for cotton (Gossypium hirsutum L.) anther and development of SSR marker. Xianwen Zhang ,Zhenwei Ye,TiankangWang,Hairong Xiong,Xiaoling Yuan,Zhigang Zhang,Youlu Yuan,Zhi Liu.

[14]Transcriptomic Analysis of the Porcine Endometrium during Embryo Implantation. Lin, Haichao,Wang, Huaizhong,Wang, Yanping,Liu, Chang,Wang, Cheng,Guo, Jianfeng,Lin, Haichao,Wang, Yanping,Liu, Chang,Guo, Jianfeng. 2015

[15]De novo assembly of pen shell (Atrina pectinata) transcriptome and screening of its genic microsatellites. Sun, Xiujun,Li, Dongming,Liu, Zhihong,Zhou, Liqing,Wu, Biao,Yang, Aiguo,Sun, Xiujun,Li, Dongming,Liu, Zhihong,Zhou, Liqing,Wu, Biao,Yang, Aiguo. 2017

[16]Identification of Genes Putatively Involved in Chitin Metabolism and Insecticide Detoxification in the Rice Leaf Folder (Cnaphalocrocis medinalis) Larvae through Transcriptomic Analysis. Yu, Hai-Zhong,Wen, De-Fu,Geng, Lei,Xu, Jia-Ping,Wang, Wan-Lin,Zhang, Yan. 2015

[17]Genome-specific differential gene expressions in resynthesized Brassica allotetraploids from pair-wise crosses of three cultivated diploids revealed by RNA-seq. Pan, Qi,Tan, Chen,Ge, Xianhong,Li, Zaiyun,Cui, Cheng,Shao, Yujiao. 2015

[18]Achievements and prospects of genomics-assisted breeding in three legume crops of the semi-arid tropics. Varshney, Rajeev K.,Mohan, S. Murali,Gaur, Pooran M.,Pandey, Manish K.,Sawargaonkar, Shrikant L.,Chitikineni, Annapurna,Janila, Pasupuleti,Saxena, K. B.,Sharma, Mamta,Rathore, Abhishek,Mallikarjuna, Nalini,Gowda, C. L. L.,Varshney, Rajeev K.,Varshney, Rajeev K.,Varshney, Rajeev K.,Liang, Xuanqiang,Gangarao, N. V. P. R.,Pandey, Manish K.,Bohra, Abhishek,Pratap, Aditya,Datta, Subhojit,Chaturvedi, S. K.,Nadarajan, N.,Kimurto, Paul K.,Fikre, Asnake,Tripathi, Shailesh,Bharadwaj, Ch.,Anuradha, G.,Babbar, Anita,Choudhary, Arbind K.,Mhase, M. B.,Mannur, D. M.. 2013

[19]Comparative Transcriptomic Analysis Reveals a Series of Single Nucleotide Polymorphism between Redand White-fleshed Loquats (Eriobotrya japonica). Li, Jing,Chen, Dong,Xie, Hongjiang,Tu, Meiyan,Jia, Liu,Jiang, Guoliang,Sun, Shuxia,Li, Jing,Chen, Dong,Xie, Hongjiang,Tu, Meiyan,Jia, Liu,Jiang, Guoliang. 2017

[20]De novo Transcriptome Assembly of Chinese Kale and Global Expression Analysis of Genes Involved in Glucosinolate Metabolism in Multiple Tissue. Wu, Shuanghua,Lei, Jianjun,Chen, Guoju,Cao, Bihao,Chen, Changming,Chen, Hancai. 2017

作者其他论文 更多>>

微信小程序