Author:
Ding Anping,Xiang Zengxu,Wang Ruifeng,Liu Juan,Meng Wenna,Zhang Yu,Chen Guihong,Hu Gang,Tan Mingpu
Abstract
AbstractBackground:Thesium chinenseknown as “plant antibiotic” is a facultative root hemi-parasitic herb whilePrunella vulgariscan serve as its host. However, the molecular mechanisms underlying the communication betweenT. chinenseand its host remained largely unexplored. The aim of this study was to provide a comprehensive view of transferred metabolites and mobile mRNAs betweenT. chinenseandP. vulgaris. Results: The wide-target metabolomic and transcriptomic analysis identified 5 transferred metabolites and 668 mobile genes betweenT. chinenseandP. vulgaris, as well as haustoria formation related 56 metabolites and 189 genes. Furthermore, we inferred a regulatory network that might be involved in haustoria formation, and 18 genes promoting haustoria formation and 1 gene inhibiting it were identified as a consequence. There were 4 metabolites (ethylsalicylate, eriodictyol-7-O-glucoside, aromadendrin-7-O-glucoside and pruvuloside B) that are transferred fromP. vulgaristoT. chinense, whereas 2-ethylpyrazine was transferred fromT. chinensetoP. vulgaris. Conclusions: These results suggested that there was an extensive exchange of information withP. vulgarisincluding transferred metabolites and mobile mRNAs, which might facilitate the haustoria formation and parasition ofT. chinense.Author summaryT. chinenseknown as “plant antibiotic” is a facultative root hemi-parasitic herb whileP. vulgariscan serve as its host. Currently, the information exchange betweenT. chinenseand its host remained unknown, and a comprehensive view of transferred metabolites and mobile mRNAs betweenT. chinenseand its host is critical so that appropriate chemical and genetic improvement can be used to facilitate haustoria formation and successful parasitism. Here, we employ the conjoint wide-target metabolomic and transcriptomic analysis to explore the information exchange betweenT. chinenseandP. vulgaris.We identified 5 transferred metabolites and 668 mobile genes betweenT. chinenseandP. vulgaris, as well as haustoria formation related 56 metabolites and 189 genes. Our study provides new insights into the complex interplay between parasite and host during parasitism.
Publisher
Cold Spring Harbor Laboratory