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Scientists from the Max Planck Institute for Plant Breeding Research, the University of Cologne, and the University of Copenhagen have uncovered a hidden talent of the Casparian strip—a root structure best known for acting like a plant’s security guard. It turns out this natural barrier also plays a key role in making sure legumes get the right amount of nitrogen from their bacterial partners. Their findings, now published in Science, could help researchers better understand how plants and microbes negotiate their underground business deals.
Nitrogen: A Plant’s Favorite Snack (But Hard to Get)
Plants need nitrogen to grow, but they can’t just grab it from the air like we do with oxygen. If the soil doesn’t have enough, farmers have to add fertilizers—an expensive and environmentally tricky solution, since excess nitrogen can leak into groundwater.
But legumes, including beans, lentils, and peanuts, have a trick up their sleeve. They grow special root nodules that house friendly bacteria called rhizobia, which take nitrogen from the air and convert it into a form plants can use. In exchange, the bacteria get sugars from the plant. It’s a classic “you scratch my back, I’ll scratch yours” situation.
Keeping Nodules in Check: A Root-to-Leaf Group Chat
Nodule formation isn’t random—it’s tightly controlled based on how much nitrogen is in the soil. If there’s not enough, the roots send a distress signal (a peptide called CEP1) to the leaves, which respond by shutting down a nodule-blocking gene called too much love (TML). This lets the plant form nodules and get more nitrogen. It’s like a well-organized group chat, where everyone stays updated on the nitrogen crisis.
But here’s where things get weird. The researchers discovered that the Casparian strip (CS), a waterproof barrier in plant roots, develops at the same time as nodules. The CS normally acts like a VIP bouncer, deciding which nutrients and water can enter the plant’s vascular system. Nodules, however, form outside this barrier—so at some point, they need to sneak nutrients past it.
The Gatekeeper’s Hidden Role
To investigate, Tonni Andersen and his team studied Lotus japonicus, a model legume, using insights from the non-nodulating plant Arabidopsis. When they removed the CS in mutant plants, nodules formed more slowly under low nitrogen conditions. But the problem wasn’t a leaky root barrier—it was a breakdown in communication. The mutants had trouble producing CEP1, so the plant didn’t properly register its nitrogen shortage and delayed nodule formation.
When Bacteria Get Too Greedy
Even more surprising, the team found that nodules themselves contain a mini version of the Casparian strip. Inside nodules, the CS plays a critical role in managing the trade between plant and bacteria, ensuring the exchange stays fair. When the CS was removed inside nodules, all control was lost—sugars from the plant flooded in unchecked, turning the nodule into an all-you-can-eat buffet for bacteria. The result? The bacteria got fat and happy but stopped fixing nitrogen, leaving the plant without its much-needed nutrient boost.
For over a century, the Casparian strip has been known as the root’s doorman, controlling what enters the plant. But this study reveals it has a second job: regulating the delicate metabolic trade between plants and bacteria.
“This work provides new insights into how plants and microbes interact and establishes a brand new model system with the resolution to study how beneficial association can occur in tight places”, says Tonni Grube Andersen.
Tonni Grube Andersen
Max Planck Institute for Plant Breeding Research
tandersen@mpipz.mpg.de
+49 221 5062-317
https://www.science.org/doi/10.1126/science.ado8680
The roots of Lotus japonicus plants form nodules (visible as spherical structures) that host rhizobi ...
Defeng Shen
Defeng Shen
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The roots of Lotus japonicus plants form nodules (visible as spherical structures) that host rhizobi ...
Defeng Shen
Defeng Shen
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