Mining for Candidate Genes in an Introgression Line by Using RNA Sequencing: The Anthocyanin Overaccumulation Phenotype in Brassica

文献类型: 外文期刊

第一作者: Xie, Lulu

作者: Xie, Lulu;Li, Fei;Zhang, Shifan;Zhang, Hui;Qian, Wei;Li, Peirong;Zhang, Shujiang;Sun, Rifei

作者机构:

关键词: transcriptome analysis;RNA-seq;introgression lines;Brassica;anthocyanin

期刊名称:FRONTIERS IN PLANT SCIENCE ( 影响因子:5.753; 五年影响因子:6.612 )

ISSN: 1664-462X

年卷期: 2016 年 7 卷

页码:

收录情况: SCI

摘要: Introgression breeding is a widely used method for the genetic improvement of crop plants: however, the mechanism underlying candidate gene flow patterns during hybridization is poorly understood. In this study, we used a powerful pipeline to investigate a Chinese cabbage (Brassica rapa L. ssp. pekinensis) introgression line with the anthocyanin overaccumulation phenotype. Our purpose was to analyze the gene flow patterns during hybridization and elucidate the genetic factors responsible for the accumulation of this important pigment compound. We performed RNA-seq analysis by using two pipelines, one with and one without a reference sequence, to obtain transcriptome data. We identified 930 significantly differentially expressed genes (DEGs) between the purple-leaf introgression line and B. rapa green cultivar, namely, 389 up-regulated and 541 down-regulated DEGs that mapped to the B. rapa reference genome. Since only one anthocyanin pathway regulatory gene was identified, i.e., Bra037867 (bHLH), we mined unmapped reads, revealing 2031 de novo assembled unigenes, including c3563g1/2. Phylogenetic analysis suggested that c3563g1i2, which was transferred from the Brassica B genome of the donor parental line Brassica juncea, may represent an R2R3-MYB transcription factor that participates in the ternary transcriptional activation complex responsible for the anthocyanin overaccumulation phenotype of the B. rapa introgression line. We also identified genes involved in cold and light reaction pathways that were highly upregulated in the introgression line, as confirmed using quantitative real-time PCR analysis. The results of this study shed light on the mechanisms underlying the purple leaf trait in Brassica plants and may facilitate the use of introgressive hybridization for many traits of interest.

分类号:

  • 相关文献

[1]Physiological Investigation and Transcriptome Analysis of Polyethylene Glycol (PEG)-Induced Dehydration Stress in Cassava. Fu, Lili,Ding, Zehong,Han, Bingying,Hu, Wei,Li, Yajun,Zhang, Jiaming. 2016

[2]UFGT: The Key Enzyme Associated with the Petals Variegation in Japanese Apricot. Wu, Xinxin,Ni, Xiaopeng,Zhou, Yong,Gao, Zhihong,Wu, Xinxin,Gong, Qinghua. 2017

[3]Dissection of heterosis for yield and related traits using populations derived from introgression lines in rice. Xiang, Chao,Zhang, Hongjun,Wei, Shaobo,Fu, Binying,Gao, Yongming,Wang, Hui,Xia, Jiafa,Li, Zefu,Ye, Guoyou. 2016

[4]Scanning QTLs for Grain Shape using Two Sets of Introgression Lines in Rice. Qiu, Xianjin,Du, Bin,Hu, Hui,Ou, Xiaoxue,Lv, Wenkai,Yang, Longwei,Xing, Danying,Xu, Junying,Li, Zhixin,Zhang, Yunbo,Wang, Xiaoyan,Xu, Jianlong,Xu, Jianlong,Zheng, Tianqing,Qiu, Xianjin. 2017

[5]Genetic and Epigenetic Alterations of Brassica nigra Introgression Lines from Somatic Hybridization: A Resource for Cauliflower Improvement. Wang, Gui-xiang,Lv, Jing,Zhang, Jie,Han, Shuo,Zong, Mei,Guo, Ning,Zeng, Xing-ying,Zhang, Yue-yun,Liu, Fan,Lv, Jing,Wang, You-ping,Lv, Jing. 2016

[6]Dissection of combining ability for yield and related traits using introgression lines in the background of a key restorer line in rice (Oryza sativa L.). Xiang, Chao,Zhang, Hongjun,Wang, Jie,Wang, Wensheng,Gao, Yongming,Wang, Hui,Xia, Jiafa,Ye, Guoyou.

[7]Identification of QTLs for red fruit firmness using the wild tomato species Solanum pennellii LA716 introgression lines. Yang, Shengbao,Wang, Baike,Xu, Jian,Gao, Jie,Yang, Shengbao,Yu, Qinghui,Wang, Baike,Yang, Tao,Li, Ning,Tang, Yaping,Aisimutuola, Patiguli,Wang, Qiang.

[8]QTL detection of amino acid content in grains of rice using advanced backcross introgression lines. Cheng, Li-Rui,Luo, Cheng-Gang,Xu, Jian-Long. 2013

[9]Characterization of euploid backcross progenies derived from interspecific hybrids between Oryza sativa and O-eichingeri by restriction fragment length polymorphism (RFLP) analysis and genomic in situ hybridization (GISH). Yan, HH,Liu, GQ,Cheng, ZK,Min, SK,Zhu, LH. 2001

[10]A genome-specific repetitive DNA sequence from Oryza eichingeri: characterization, localization, and introgression to O-sativa. Yan, HH,Liu, GQ,Cheng, ZK,Li, XB,Liu, GZ,Min, SK,Zhu, LH. 2002

[11]Widespread and evolutionary analysis of a MITE family Monkey King in Brassicaceae. Dai, Shutao,Hou, Jinna,Long, Yan,Wang, Jing,Li, Cong,Xiao, Qinqin,Jiang, Xiaoxue,Zou, Xiaoxiao,Zou, Jun,Meng, Jinling,Hou, Jinna. 2015

[12]Genome-Wide Gene/Genome Dosage Imbalance Regulates Gene Expressions in Synthetic Brassica napus and Derivatives (AC, AAC, CCA, CCAA). Pan, Qi,Xiang, Yi,Ge, Xianhong,Li, Zaiyun,Cui, Cheng. 2016

[13]Cloning of fatty acid elongase 1 gene and molecular identification of A and C genome in Brassica species. Wu Yuhua,Xiao Ling,Wu Gang,Lu ChangMing. 2007

[14]Selective modes determine evolutionary rates, gene compactness and expression patterns in Brassica. Liu, Jing,Du, Jianchang,Zhang, Jiefu,Du, Jianchang,Liu, Shengyi,Du, Jianchang. 2017

[15]Comparative proteome analysis of metabolic changes by low phosphorus stress in two Brassica napus genotypes. Yao, Yinan,Sun, Haiyan,Zhang, Xuejiang,Liu, Shengyi,Yao, Yinan,Xu, Fangsen.

[16]Crossover rate between homologous chromosomes and interference are regulated by the addition of specific unpaired chromosomes in Brassica. Suay, Loreto,Zhang, Deshuang,Eber, Frederique,Jouy, Helene,Lode, Maryse,Huteau, Virginie,Coriton, Olivier,Szadkowski, Emmanuel,Paillard, Sophie,Chevre, Anne-Marie,Zhang, Deshuang,Leflon, Martine,Martin, Olivier C.,Falque, Matthieu,Jenczewski, Eric.

[17]Seed coat development and its evolutionary implications in diploid and amphidiploid Brassica species. Zeng, Chang-Li,Wu, Xiao-Ming,Wang, Jian-Bo.

[18]Different fertility and meiotic regularity in allohexaploids derived from trigenomic hybrids between three cultivated Brassica allotetraploids and B. maurorum. Yao, Xingcheng,Ge, Xianhong,Li, Zaiyun,Yao, Xingcheng. 2012

[19]New host resistances to Pseudocercosporella capsellae and implications for white leaf spot management in Brassicaceae crops. Gunasinghe, Niroshini,You, Ming Pei,Barbetti, Martin J.,Barbetti, Martin J.,Li, Xi Xiang,Banga, Surinder S.,Banga, Shashi K..

[20]Evaluation of genetic diversity and relationships in orchardgrass (Dactylis glomerata L.) germplasm based on SRAP markers. Zhang, Xin-Quan,Zeng, Bing,Lan, Ying,Yang, Wu-Yun.

作者其他论文 更多>>

微信小程序