De novo assembly and characterization of the transcriptome of the pancreatic fluke Eurytrema pancreaticum (trematoda: Dicrocoeliidae) using Illumina paired-end sequencing

文献类型: 外文期刊

第一作者: Liu, Guo-Hua

作者: Liu, Guo-Hua;Xu, Min-Jun;Song, Hui-Qun;Zhu, Xing-Quan;Wang, Chun-Ren;Zhu, Xing-Quan

作者机构:

关键词: Eurytrema pancreaticum;Transcriptome;De novo;Next-generation sequencing

期刊名称:GENE ( 影响因子:3.688; 五年影响因子:3.329 )

ISSN: 0378-1119

年卷期: 2016 年 576 卷 1 期

页码:

收录情况: SCI

摘要: Eurytrema pancreaticum is one of the most common trematodes living in the pancreatic and bile ducts of ruminants and also occasionally infects humans, causing eurytremiasis. In spite of its economic and medical importance, very little is known about the genomic resources of this parasite. Herein, we performed de novo sequencing, assembly and characterization of the transcriptome of adult E. pancreaticum. Approximately 36.4 million high-quality clean reads were obtained, and the length of the transcript contigs ranged from 66 to 19,968 nt with mean length of 479 nt and N50 length of 1094 nt, and then 23,573 unigenes were assembled. Of these unigenes, 15,353 (65.1%) were annotated by blast searches against the NCBI non -redundant protein database. Among these, 15,267 (64.8%), 2732 (11.6%) and 10,354 (43.9%) of the unigenes had significant similarity with proteins in the NR, NT and Swiss-Prot databases, respectively. 5510 (23.4%) and 4567 (19.4%) unigenes were assigned to GO and COG, respectively. 8886 (37.7%) unigenes were identified and mapped onto 254 pathways in the KEGG Pathway database. Furthermore, we found that 105 (1.18%) unigenes were related to pancreatic secretion and 61 (0.7%) to pancreatic cancer. The present study represents the first transcriptome of any members of the family Dicrocoeliidae, which has little genomic information available in the public databases. The novel transcriptome of E. pancreaticum should provide a useful resource for designing new strategies against pancreatic flukes and other trematodes of human and animal health significance. (C) 2015 Elsevier B.V. All rights reserved.

分类号:

  • 相关文献

[1]Transcriptome analysis of the livers of ducklings hatched normally and with assistance. Liu, Yali,Zeng, Tao,Du, Xue,Shen, Junda,Lu, Lizhi,Liu, Yali,He, Shishan,Zhao, Ayong.

[2]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

[3]Identification of novel microRNAs in Hevea brasiliensis and computational prediction of their targets. Gebelin, Virginie,Argout, Xavier,Engchuan, Worrawat,Pitollat, Bertrand,Duan, Cuifang,Montoro, Pascal,Leclercq, Julie,Engchuan, Worrawat,Duan, Cuifang. 2012

[4]De novo transcriptomic analysis of the female and male adults of the blood fluke Schistosoma turkestanicum. Chang, Qiao-Cheng,Wang, Chun-Ren,Liu, Guo-Hua,Xu, Min-Jun,Zhu, Xing-Quan,Xu, Min-Jun,Gao, Jun-Feng,Zhu, Xing-Quan. 2016

[5]Sequencing and characterization of the complete mitochondrial genome from the pancreatic fluke Eurytrema pancreaticum (Trematoda: Dicrocoeliidae). Chang, Qiao-Cheng,Zheng, Xu,Zhang, Yan,Duan, Hong,Yue, Dong-Mei,Fu, Xue,Su, Xin,Gao, Yuan,Wang, Chun-Ren,Liu, Guo-Hua,Gao, Jun-Feng.

[6]Identification and characterization of microRNAs in the pancreatic fluke Eurytrema pancreaticum. Xu, Min-Jun,Huang, Si-Yang,Fu, Jing-Hua,Zhou, Dong-Hui,Zhu, Xing-Quan,Wang, Chun-Ren,Chang, Qiao-Cheng,Zheng, Xu,Zhu, Xing-Quan,Fu, Jing-Hua,Zhu, Xing-Quan. 2013

[7]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.

[8]Transcriptomic Identification of Drought-Related Genes and SSR Markers in Sudan Grass Based on RNA-Seq. Wang, Xia,Huang, Linkai,Zhang, Xinquan,Li, Zhou,Yan, Haidong,Zhu, Yongqun,Lin, Chaowen,Xu, Wenzhi,Luo, Fuxiang,Wang, Xie,Yao, Li,Peng, Dandan,Peng, Jianhua. 2017

[9]Using Next-Generation Sequencing to Detect Differential Expression Genes in Bradysia odoriphaga after Exposure to Insecticides. Chen, Haoliang,Lin, Lulu,Ali, Farman,Xie, Minghui,Zhang, Guangling,Su, Weihua,Ali, Farman. 2017

[10]The complete chloroplast genome of Arabidopsis lyrata. Wu, Zhiqiang,Gu, Cuihua,Tembrock, Luke R.,Sun, Cheng. 2016

[11]Complete mitochondrial genome of the kawakawa tuna Euthynnus affinis. Li, Mingming,Guo, Liang,Yang, Sen,Chen, Xinghan,Meng, Zining,Lin, Haoran,Zhang, Heng. 2016

[12]High-throughput development of simple sequence repeat markers for genetic diversity research in Crambe abyssinica. Qi, Weicong,Lin, Feng,Zhao, Han,Liu, Yuhe,Huang, Bangquan,Cheng, Jihua,Zhang, Wei. 2016

[13]Next-Generation Sequencing from Bulked-Segregant Analysis Accelerates the Simultaneous Identification of Two Qualitative Genes in Soybean. Guo, Yong,Qiu, Li-Juan. 2017

[14]Next-generation sequencing of the mitochondrial genome of Dolichovespula panda (Hymenoptera: Vespidae) with a phylogenetic analysis of Vespidae. Fan, Xu-Lei,Tan, Qing-Qing,Tan, Jiang-Li,Fan, Xu-Lei,Gong, Ya-Jun,Chen, Peng-Yan,Wei, Shu-Jun. 2017

[15]Apple necrotic mosaic virus, a novel ilarvirus from mosaic-diseased apple trees in Japan and China. Yamagishi, Noriko,Yoshikawa, Nobuyuki,Yaegashi, Hajime,Ito, Tsutae,Xing, Fei,Li, Shifang,Xie, Jipeng,Zhou, Tao,Xie, Jipeng,Zhou, Tao.

[16]Comprehensive molecular characterization of a transgenic pig expressing hCD46 gene. Wang, Qin,Liu, Xiaofei,Fu, Wei,Lin, Xiangmei,Shi, Ningning,Pan, Dengke,Shi, Ningning,Shang, Ying,Shang, Ying,Xu, Wentao,Zhao, Yiqiang.

[17]SNP discovery and genotyping using restriction-site-associated DNA sequencing in chickens. Zhai, Zhengxiao,Zhao, Wenjing,He, Chuan,Liu, Shuyun,Meng, He,He, Chuan,Yang, Kaixuan,Tang, Linlin,Huang, Qizhong,Zhang, Yan.

[18]Effects of fumigation with metam-sodium on soil microbial biomass, respiration, nitrogen transformation, bacterial community diversity and genes encoding key enzymes involved in nitrogen cycling. Huang, Bin,Wang, Qiuxia,Li, Yuan,Fang, Wensheng,Han, Dawei,Yan, Dongdong,Guo, Meixia,Cao, Aocheng,Wang, Qiuxia,Li, Yuan,Yan, Dongdong,Guo, Meixia,Cao, Aocheng.

[19]De novo transcriptome sequencing and analysis of the juvenile and adult stages of Fasciola gigantica. Zhang, Xiao-Xuan,Ma, Jian-Gang,Zhao, Quan,Zhang, Xiao-Xuan,Cong, Wei,Ma, Jian-Gang,Zhu, Xing-Quan,Cong, Wei,Elsheikha, Hany M.,Liu, Guo-Hua,Huang, Wei-Yi,Zhu, Xing-Quan.

[20]Development and Characterization of Novel Microsatellite Markers for the Peach Fruit Moth Carposina sasakii (Lepidoptera: Carposinidae) Using Next-Generation Sequencing. Wang, You-Zhu,Cao, Li-Jun,Wei, Shu-Jun,Wang, You-Zhu,Zhu, Jia-Ying,Cao, Li-Jun. 2016

作者其他论文 更多>>

微信小程序