Transcriptome analysis of salt-responsive genes and SSR marker exploration in Carex rigescens using RNA-seq

作     者：LI Ming-na LONG Rui-cai FENG Zi-rong LIU Feng-qi SUN Yan ZHANG Kun KANG Jun-mei WANG Zhen CAO Shi-hao 

作者机构：Grassland Science DepartmentCollege of Animal Science and TechnologyChina Agricultural University Institute of Animal ScienceChinese Academy of Agricultural Sciences Institute of Pratacultural ScienceHeilongjiang Academy of Agricultural Sciences 

出 版 物：《Journal of Integrative Agriculture》 (农业科学学报（英文版）)

年 卷 期：2018年第17卷第1期

页      面：184-196页

核心收录：

学科分类：09[农学] 

基　　金：supported by the National Natural Science Foundation of China (31472139) 

主　　题：salt stress Carex rigescens transcriptome differentially expressed genes SSR markers 

摘      要：Carex rigescens （Franch.） V. Krecz is a wild turfgrass perennial species in the Carex genus that is widely distributed in salinised areas of northern China. To investigate genome-wide salt-response gene networks in C. rigescens, transcriptome analysis using high-throughput RNA sequencing on C. rigescens exposed to a 0.4% salt treatment （Cr_Salt） was compared to a non-salt control （Cr_Ctrl）. In total, 57 742 546 and 47 063 488 clean reads were obtained from the Cr Ctrl and Cr Salt treatments, respectively. Additionally, 21 954 unigenes were found and annotated using multiple databases. Among these unigenes, 34 were found to respond to salt stress at a statistically significant level with 6 genes up-regulated and 28 downregulated. Specifically, genes encoding an EF-hand domain, ZFP and AP2 were responsive to salt stress, highlighting their roles in future research regarding salt tolerance in C. rigescens and other plants. According to our quantitative RT-PCR results, the expression pattern of all detected differentially expressed genes were consistent with the RNA-seq results. Furthermore, we identified 11 643 simple sequence repeats （SSRs） from the unigenes. A total of 144 amplified successfully in the C. rigescens cultivar LOping 1, and 69 of them reflected polymorphisms between the two genotypes tested. This is the first genome-wide transcriptome study of C. rigescens in both salt-responsive gene investigation and SSR marker exploration. Our results provide further insights into genome annotation, novel gene discovery, molecular breeding and comparative genomics in C. rigescens and related grass species.