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Bananapocalypse – the tricky genetics of a devastating fungus

Li-Jun Ma
By Li-Jun Ma
Nov. 9, 2024

Did you know that the bananas you eat today are as the ones people were eating a few generations ago? The banana you might have had with your breakfast today is a variety called the Cavendish banana, while the one that was in grocery stores up to the 1950s was a variety called Gros Michel, which was wiped out by a disease called Fusarium wilt of banana, or FWB.

FWB of Gros Michel was caused by , a fungal pathogen that affects bananas. This fungal infection kills a plant by occupying its vascular system, blocking water and mineral transportation.

Fusarium oxysporum spores can remain hardy in soil for decades.

Plant biologists developed the Fusarium-resistant Cavendish variety to replace the Gros Michel. Yet, over the past few decades, a resurgence of FWB caused by a different strain of the same fungus called , is once again threatening global banana production.

How did Fusarium oxysporum gain the ability to overcome resistance and infect so many different plants?

You would be hard-pressed to find a Gros Michel banana in American supermarkets today.
You would be hard-pressed to find a Gros Michel banana in American supermarkets today.

The two-part genome of F. oxysporum

who has spent the past decade studying the . As a species complex, F. oxysporum can cause wilt and root rot diseases in . Certain strains can also .

In 2010, discovered that each F. oxysporum genome can be : a core genome shared among all strains that codes for essential housekeeping functions, and an accessory genome varying from strain to strain that codes for specialized functions like the ability to infect a specific plant host.

Each species of plant has a sophisticated immune response to defend against microbial invasion. So to establish an infection, each F. oxysporum strain uses its accessory genome to suppress a plant’s unique defense system. This functional compartmentalization allows F. oxysporum to greatly increase its host range.

The genomic structure of Fusarium oxysporum allows it to have a wide range of hosts, such as tomatoes, cucumbers and watermelon.
,
The genomic structure of Fusarium oxysporum allows it to have a wide range of hosts, such as tomatoes, cucumbers and watermelon.

In our newly published research, my team and colleagues in China and South Africa found that the TR4 strain that kills Cavendish bananas has a and different sequences in its accessory genome compared with the strain that killed Gros Michel bananas.

Looking at the interface of where the TR4 strain is battling with its Cavendish banana host, we found that some of its activated accessory genes , a gas harmful to the Cavendish banana. This sudden burst of toxic gases facilitates infection by disarming the plant’s defense system. At the same time, the fungus protects itself by increasing production of chemicals that detoxify nitric oxide.

Increasing banana diversity

In tracing the global spread of this new version of Fusarium oxysporum, we realized that a major cause for the recent resurgence of this fungal infection is the domination of the international banana industry by a .

Growing different varieties of bananas can make agriculture more sustainable and reduce disease pressure on a single crop. Farmers and researchers can control Fusarium wilt of banana by identifying or developing banana varieties that to TR4. Our findings suggest that another way to protect Cavendish bananas would be to design effective nitric oxide scavengers to reduce the toxic pressure of the gas burst.

The banana industry has dark origins.

It can be hard to imagine how a consumer who simply enjoys eating bananas could participate in the battle against the disease devastating banana crops. However, consumers determine the market, and farmers are forced to grow what the market demands.

You can help increase banana diversity in your supermarket by intentionally trying one or more of the other when they show up there. You can also buy local varieties of other fruits and agricultural products to and support local growers.

Collaboration among scientists, farmers, industry and consumers around the world can help avoid future shortages of bananas and other crops.

This article is republished from under a Creative Commons license. Read the .

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Li-Jun Ma
Li-Jun Ma

Li-Jun Ma is a professor of Biochemistry and Â鶹´«Ã½É«ÇéƬ Biology, UMass Amherst.

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