Transcriptomes of Arbuscular Mycorrhizal Fungi and Litchi Host Interaction after Tree Girdling
文献类型: 外文期刊
第一作者: Shu, Bo
作者: Shu, Bo;Li, Weicai;Liu, Liqin;Wei, Yongzan;Shi, Shengyou
作者机构:
关键词: litchi;carbohydrates;arbuscular mycorrhizal colonization;RNA-seq;transcripts
期刊名称:FRONTIERS IN MICROBIOLOGY ( 影响因子:5.64; 五年影响因子:6.32 )
ISSN: 1664-302X
年卷期: 2016 年 7 卷
页码:
收录情况: SCI
摘要: Trunk girdling can increase carbohydrate content above the girdling site and is an important strategy for inhibiting new shoot growth to promote flowering in cultivated litchi (Litchi chinensis Soon.). However, girdling inhibits carbohydrate transport to the root in nearly all of the fruit development periods and consequently decreases root absorption. The mechanism through which carbohydrates regulate root development in arbuscular mycorrhiza (AM) remains largely unknown. Carbohydrate content, AM colonization, and transcriptome in the roots were analyzed to elucidate the interaction between host litchi and AM fungi when carbohydrate content decreases. Girdling decreased glucose, fructose, sucrose, quebrachitol, and starch contents in the litchi mycorrhizal roots, thereby reducing AM colonization. RNA-seq achieved approximately 60 million reads of each sample, with an average length of reads reaching 100 bp. Assembly of all the reads of the 30 samples produced 671,316 transcripts and 381,429 unigenes, with average lengths of 780 and 643 bp, respectively. Litchi (54,100 unigenes) and AM fungi unigenes (33,120 unigenes) were achieved through sequence annotation during decreased carbohydrate content. Analysis of differentially expressed genes (DEG) showed that flavonoids, alpha-linolenic acid, and linoleic acid are the main factors that regulate AM colonization in litchi. However, flavonoids may play a role in detecting the stage at which carbohydrate content decreases; alpha-linolenic acid or linoleic acid may affect AM formation under the adaptation process. Litchi trees stimulated the expression of defense-related genes and downregulated symbiosis signal-transduction genes to inhibit new AM colonization. Moreover, transcription factors of the AP2, ERE, Myb, WRKY, bHLH families, and lectin genes altered maintenance of litchi mycorrhizal roots in the post-symbiotic stage for carbohydrate starvation. Similar to those of the litchi host, the E3 ubiquitin ligase complex SCF subunit scon-3 and polyubiquitin of AM fungi were upregulated at the perceived stages. This occurrence suggested that ubiquitination plays an important role in perceiving carbohydrate decrease in AM fungi. The transcription of cytochrome b-245 and leucine-rich repeat was detected in the DEG database, implying that the transcripts were involved in AM fungal adaptation under carbohydrate starvation. The transcriptome data might suggest novel functions of unigenes in carbohydrate shortage of mycorrhizal roots.
分类号:
- 相关文献
作者其他论文 更多>>
-
Genome-wide identification and functional analysis of the longan CONSTANS (CO) family
作者:Gou, Jinlin;Sang, Xuelian;Cao, Jiasui;Liu, Yao;Ren, Ci;Zhang, Zhixin;Jue, Dengwei;Shi, Shengyou;Liu, Liqin
关键词:Longan; CONSTANS family; Flower induction; Functional analysis
-
Biocontrol potential of newly isolated Streptomyces noursei D337-11 from disease suppressive soil and its metabolites against Fusarium oxysporum f. sp. cubense in banana plants
作者:Zhou, Dengbo;He, Xinxin;Chen, Yufeng;Li, Chunting;Wang, Wei;Zhao, Yankun;Wei, Yongzan;Feng, Junting;Zhang, Miaoyi;Qi, Dengfeng;Li, Xiaojuan;Li, Kai;Jing, Tao;Xie, Jianghui;Zhou, Dengbo;He, Xinxin;Chen, Yufeng;Li, Chunting;Wang, Wei;Pan, Zhiqiang;Zhao, Yankun;Wei, Yongzan;Feng, Junting;Zhang, Miaoyi;Qi, Dengfeng;Li, Xiaojuan;Li, Kai;Jing, Tao;Xie, Jianghui;Pan, Zhiqiang
关键词:
Streptomyces noursei ; genome-guided differential metabolomics; banana fusarium wilt; naringenin; target protein -
Trichoderma virens XZ11-1 producing siderophores inhibits the infection of Fusarium oxysporum and promotes plant growth in banana plants
作者:Cui, Haiyang;Cheng, Qifeng;Jing, Tao;Chen, Yufeng;Li, Xiaojuan;Zhang, Miaoyi;Qi, Dengfeng;Feng, Junting;Wei, Yongzan;Li, Kai;Zhao, Yankun;Zhou, Dengbo;Xie, Jianghui;Cui, Haiyang;Cheng, Qifeng;Jing, Tao;Chen, Yufeng;Li, Xiaojuan;Zhang, Miaoyi;Qi, Dengfeng;Feng, Junting;Wei, Yongzan;Li, Kai;Zhao, Yankun;Zhou, Dengbo;Xie, Jianghui;Cui, Haiyang;Cheng, Qifeng;Jing, Tao;Chen, Yufeng;Li, Xiaojuan;Zhang, Miaoyi;Qi, Dengfeng;Feng, Junting;Wei, Yongzan;Li, Kai;Zhao, Yankun;Zhou, Dengbo;Xie, Jianghui;Vafadar, Farinaz
关键词:
Trichoderma virens ; Siderophore; Banana Fusarium wilt disease; Biocontrol; Plant-growth promotion -
Genome-Wide Identification and Expression Analysis of the TGA Gene Family in Banana (Musa nana Lour.) Under Various Nitrogen Conditions
作者:Zhang, Bencheng;Wang, Can;Zhang, Bencheng;Wang, Wei;Wang, Can;Cai, Bingyu;Feng, Junting;Zhou, Dengbo;Chen, Yufeng;Zhang, Miaoyi;Qi, Dengfeng;Wang, Zhuo;Wei, Yongzan;Xie, Jianghui;Zhang, Bencheng;Wang, Can;Cai, Bingyu;Feng, Junting;Zhou, Dengbo;Chen, Yufeng;Wang, Zhuo;Wei, Yongzan;Xie, Jianghui
关键词:banana; nutrient utilization;
TGA transcription factors; gene expression -
Genome-wide association studies reveal genetic diversity and regulatory loci underlying dwarfing traits in banana
作者:Li, Yuqi;Yan, Liu;Wang, Yi;Li, Wei;Han, Zhenhai;Li, Yuqi;Feng, Junting;Yan, Liu;Liu, Juhua;Cai, Bingyu;Li, Kai;Zhao, Yankun;Chen, Yufeng;Cheng, Qifeng;Cao, Miaomiao;Wei, Yongzan;Wang, Wei;Xie, Jianghui;Li, Yuqi;Li, Wei;Han, Zhenhai;Wei, Shouxing;Hu, Huigang;Xie, Yixian
关键词:GWAS; hormone; molecular marker;
Musa ; plant height -
DlMYB1 positively regulates anthocyanin biosynthesis and contributes to red exocarp coloration in red-skinned longan
作者:Hu, Xiaowen;Liu, Liqin;Shi, Shengyou;Lu, Yiying;Xu, Liangyu;Zhang, Linsi;Zhu, Lifei;Ma, Zhiling;Zhang, Jiaming;Hu, Xiaowen;Shi, Shengyou
关键词:Red-skinned longan; MYB1; Anthocyanin; Transcription factor; Fruit peel
-
Differential phytohormone related senescence regulation in main and lateral roots of longan (Dimocarpus longan Lour.)
作者:Liu, Lin;Shu, Bo;Shi, Shengyou;Liu, Liqin
关键词:Root activity; Transcriptome; Proteome; Abscisic acid; Ethylene
