A shoot endosymbiont colonizes pine host by unique and rhizobia-like mechanisms boosted by surface-fixed methanol
Janne J Koskimäki, Johanna Pohjanen, Emmi-Leena Ihantola, Suvi Sutela, Anna Maria Pirttilä

TL;DR
This study reveals how a methylotrophic bacterium colonizes pine trees by using methanol to enter and spread through plant tissues.
Contribution
The paper identifies unique and rhizobia-like colonization mechanisms of Methylorubrum extorquens in pine, including surface methanol utilization and tissue invasion routes.
Findings
Methylorubrum extorquens enters pine seedlings through the cylindrical sheath and epidermis.
Surface-bound methanol activates bacterial promoters for assimilation and tissue penetration.
Xylem serves as the main route for bacteria to reach the apical meristem in pine.
Abstract
Methylorubrum extorquens DSM13060 (Rhizobiales) has a specific capacity to live inside cells of bud meristems in pine trees. The bud niche is almost completely unstudied, although likely widespread in plants. It is unknown how the endosymbiotic methylotroph enters such crucial tissues of the plant. We hypothesized the bud colonization to occur mainly through the shoot epidermis enabled by host-produced methanol. We combined several microscopic methods to illustrate spatio-temporal colonization dynamics and methanol utilization by M. extorquens DSM13060 during the interaction. Our results showed that the endosymbiont mainly enters pine seedlings through cylindrical sheath, which is a layer of living cells surrounding primary root and transition zone. The cylindrical sheath played a central role in accumulation and proliferation of bacteria before entering deeper tissues. The endosymbiont…
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Taxonomy
TopicsLegume Nitrogen Fixing Symbiosis
