Abstract
The colonization of plant tissues by pathogenic and symbiotic microbes is associated with a strong and directed effort to reprogram host cells in order to permit, promote and sustain microbial growth. In response to colonization, hosts accommodate or sequester invading microbes by activating a set of complex regulatory programs that initiate symbioses or bolster defenses. Extensive research has elucidated a suite of molecular and physiological responses occurring in plant hosts and their microbial partners; however, this information is mostly limited to model systems representing evolutionarily young plant lineages such as angiosperms. The extent to which these processes are conserved across land plants is therefore poorly understood. In this review, we outline key aspects of host reprogramming that occur during plant–microbe interactions in early diverging land plants belonging to the bryophytes (liverworts, hornworts and mosses). We discuss how further knowledge of bryophyte–microbe interactions will advance our understanding of how plants and microbes co-operated and clashed during the conquest of land.
Highlights
Interactions between plants and microbes can have beneficial, neutral or detrimental effects on host fitness
Additional aspects of the MAMPtriggered immunity (MTI) response appear to be conserved in bryophytes, based on observations that moss infected with fungi and oomycetes accumulate reactive oxygen species (ROS) species such as hydrogen peroxide and superoxide anions, up-regulate the PAL (Phenylalanine Ammonia-Lyase) and CHS (Chalcone Synthase) defense genes, and undergo cell wall reinforcement as described above (Ponce de Leon and Montesano 2017)
The literature discussed in this review demonstrates the diverse range of microbes that interact with bryophytes
Summary
Interactions between plants and microbes can have beneficial, neutral or detrimental effects on host fitness. The colonization of plant tissues is typically associated with host cell reprogramming, which includes changes in cell wall composition, subcellular reorganization, activation of hormones and microbe-associated signaling pathways, changes in host gene expression and the direct actions of microbial compounds and/or proteins that subvert the host cell machinery.
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